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47427c363b8cb3a33a525cec081286b5	138 521-1	7.8D Intermodulation characteristics for UL MIMO
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8D.1 General	Intermodulation response rejection for UL MIMO is a measure of the capability of the receiver of an UE that support UL MIMO to receive a wanted signal on its assigned channel frequency in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8D.2 Wide band Intermodulation for UL MIMO	7.8D.2.1 Test purpose Wide band Intermodulation for UL MIMO tests the ability of UE that support UL MIMO to receive data with a given average throughput for a specified reference measurement channel, in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal, under conditions of ideal propagation and no added noise. A UE unable to meet the throughput requirement under these conditions will decrease the coverage area when two or more interfering signals exist which have a specific frequency relationship to the wanted signal. 7.8D.2.2 Test applicability This test case applies to all types of NR UE release 15 and forward that support UL MIMO on FDD bands. 3GPP TS 38.521-1 version 19.2.0 Release 19 2143 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.8D.2.3 Minimum conformance requirements For UE(s) with two or four transmitter antenna connectors in closed-loop spatial multiplexing scheme, the minimum requirements in subclause 7.8 shall be met with the UL MIMO configurations described in sub-clause 6.2D.1. For UL MIMO, the parameter PCMAX_L is defined as the total transmitter power over the all transmit antenna connectors. The normative reference for this requirement is TS 38.101-1 [2] clause 7.8D. 7.8D.2.4 Test description 7.8D.2.4.1 Initial conditions Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state. The initial test configurations consist of environmental conditions, test frequencies, test channel bandwidths and sub- carrier spacing based on NR operating bands specified in table 5.3.5-1. All of these configurations shall be tested with applicable test parameters for each combination of channel bandwidth and sub-carrier spacing, are shown in table 7.8D.2.4.1-1. The details of the uplink and downlink reference measurement channels (RMC) are specified in Annexes A.2 and A.3. The details of the OCNG patterns used are specified in Annex A.5. Configurations of PDSCH and PDCCH before measurement are specified in Annex C.2. Table 7.8D.2.4.1-1: Test Configuration Table Default Conditions Test Environment as specified in TS 38.508-1 [5] subclause 4.1 Normal Test Frequencies as specified in TS 38.508-1 [5] subclause 4.3.1 Mid range Test Channel Bandwidths as specified in TS 38.508-1 [5] subclause 4.3.1 Lowest, Mid, Highest Test SCS as specified in Table 5.3.5-1 Highest Test Parameters Downlink Configuration Uplink Configuration Test ID Mod'n RB allocation Mod'n RB allocation 1 CP-OFDM QPSK NOTE 1 CP-OFDM QPSK NOTE 1 NOTE 1: The specific configuration of uplink and downlink are defined in Table 7.3D.2.4.1-1. NOTE 2: In a band where UE supports 4Rx but not supports 8Rx, the test shall be performed only with 4Rx antennas ports connected and 4Rx REFSENS requirement (Table 7.3.2.5-2a and Table 7.3.2.5-2b) is used in the test requirements. In a band where UE supports 8Rx, the test shall be performed only with 8Rx antennas ports connected and 8Rx REFSENS requirement (Table 7.3.2.5-2e and Table 7.3.2.5-2f) is used in the test requirements. Otherwise, the UE shall be verified with two Rx antenna ports. 1. Connect the SS and interfering sources to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, in Figure A.3.1.4.6 for TE diagram and section A.3.2 for UE diagram. 2. The parameter settings for the cell are set up according to TS 38.508-1 [5] subclause 4.4.3. 3. Downlink signals are initially set up according to Annex C.0, C.1, C.2, C.3.1, and uplink signals according to Annex G.0, G.1, G.2, G.3.1. 4. The DL and UL Reference Measurement channels are set according to Table 7.8D.2.4.1-1. 5. Propagation conditions are set according to Annex B.0. 6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity NR, Connected without release On , Test Mode On and Test Loop Function On according to TS 38.508-1 [5] clause 4.5. Message content are defined in clause 7.8D.2.4.3. 7.8D.2.4.2 Test procedure Same test procedure as specified in 7.8.2.4.2 with the following exception: - The transmit power is measured as the sum of the output power from all UE antenna connectors. 3GPP TS 38.521-1 version 19.2.0 Release 19 2144 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.8D.2.4.3 Message contents Message contents are according to TS 38.508-1 [5] subclause 4.6 ensuring Table 4.6.3-182 with condition 2TX_UL_MIMO. 7.8D.2.5 Test requirement Same test requirement as specified in 7.8.2.5. Table 7.8D.2.5-1: Void 7.8D.2_1 Wide band Intermodulation for SUL with UL MIMO 7.8D.2_1.1 Test purpose Same test purpose as in clause 7.8D.2.1. 7.8D.2_1.2 Test applicability This test applies to all types of NR UE release 17 and forward that support SUL and UL MIMO operating on the SUL bands. 7.8D.2_1.3 Minimum conformance requirements Same minimum conformance requirements as in clause 7.8D.2.3. 7.8D.2_1.4 Test description 7.8D.2_1.4.1 Initial conditions Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state. The initial test configurations consist of environmental conditions, test frequencies, test channel bandwidths and sub- carrier spacing based on NR operating bands specified in table 5.3.5-1. All of these configurations shall be tested with applicable test parameters for each combination of channel bandwidth and sub-carrier spacing, are shown in table 7.8D.2_1.4.1-1. The details of the uplink and downlink reference measurement channels (RMC) are specified in Annexes A.2 and A.3. The details of the OCNG patterns used are specified in Annex A.5. Configurations of PDSCH and PDCCH before measurement are specified in Annex C.2. Table 7.8D.2_1.4.1-1: Test Configuration Table Default Conditions Test Environment as specified in TS 38.508-1 [5] subclause 4.1 Normal Test Frequencies as specified in TS 38.508-1 [5] subclause 4.3.1 Mid range for SUL and NUL With following exceptions: SUL_n78-n80: High in band n78 Test Channel Bandwidths as specified in TS 38.508-1 [5] subclause 4.3.1 Lowest, Mid, Highest for Non-SUL carrier For SUL band: n80: 30 MHz n84: 20 MHz n95: 15 MHz Test SCS as specified in Table 5.3.5-1 15kHz for SUL carrier Lowest for Non-SUL carrier Test Parameters Downlink Configuration Uplink Configuration Test ID Mod'n RB allocation Mod'n RB allocation 1 CP-OFDM QPSK NOTE 1 CP-OFDM QPSK NOTE 1 3GPP TS 38.521-1 version 19.2.0 Release 19 2145 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 1: The specific configuration of uplink and downlink are defined in Table 7.3.2.4.1-2. NOTE 2: In a band where UE supports 4Rx but not supports 8Rx, the test shall be performed only with 4Rx antennas ports connected and 4Rx REFSENS requirement (Table 7.3.2.5-2a and Table 7.3.2.5-2b) is used in the test requirements. In a band where UE supports 8Rx, the test shall be performed only with 8Rx antennas ports connected and 8Rx REFSENS requirement (Table 7.3.2.5-2e and Table 7.3.2.5-2f) is used in the test requirements. Otherwise, the UE shall be verified with two Rx antenna ports. 1. Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, Figure A.3.1.1.5 for TE diagram and section A.3.2 for UE diagram. 2. The parameter settings for the cell are set up according to TS 38.508-1 [5] subclause 4.4.3. 3. Downlink signals are initially set up according to Annex C.0, C.1, C.2, and uplink signals according to Annex G.0, G.1, G.2 and G.3.0 with consideration of supplementary uplink physical channels. 4. The UL Reference Measurement Channel is set according to Table 7.3D.2_1.4.1. 5. Propagation conditions are set according to Annex B.0. 6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity NR, Connected without release On , Test Mode On and Test Loop Function On according to TS 38.508-1 [5] clause 4.5. Message content are defined in clause 7.8D.2_1.4.1.3. 7.8D.2_1.4.1.2 Test procedure Same test procedure as specified in 7.8.2.4.2. 7.8D.2_1.4.1.3 Message contents Message contents are according to TS 38.508-1 [5] subclause 4.3.6.1.1.2 ensuring UL/SUL indicator in Table 4.3.6.1.1.2-1 with condition SUL, subclause 4.6 ensuring Table 4.6.1-28 with condition SUL AND (RF OR RRM), Tables 4.6.3-14 with condition SUL_SUL for SUL carrier, Table 4.6.3-167 with condition PUSCH_PUCCH_ON_SUL, and Table 4.6.3-182 with the condition 2TX_UL_MIMO. 7.8D.2_1.5 Test requirement Same test requirement as specified in 7.8.2.5. 7.8D.2_2 Wide band Intermodulation for UL MIMO for UE supporting 4Tx 7.8D.2_2.1 Test purpose Same as the test purpose given in clause 7.8D.2.1. 7.8D.2_2.2 Test applicability This test case applies to all types of NR Power Class 1.5 UE release 18 and forward that support 4-layer codebook- based UL MIMO on FDD bands. 7.8D.2_2.3 Minimum conformance requirements Same as the minimum conformance requirements given in clause 7.8D.2.3. 7.8D.2_2.4 Test description 7.8D.2_2.4.1 Initial conditions Same as the initial conditions given in clause 7.8D.2.4.1 with following exceptions: - Connect the SS and interfering sources to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, in Figure A.3.1.4.6a for TE diagram and section A.3.2 for UE diagram. 7.8D.2_2.4.2 Test procedure Same as the test procedure given in clause 7.8D.2.4.2. 3GPP TS 38.521-1 version 19.2.0 Release 19 2146 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.8D.2_2.4.3 Message contents Message contents are according to TS 38.508-1 [5] subclause 4.6 ensuring Table 4.6.3-182 with condition 4TX_UL_MIMO. 7.8D.2_2.5 Test requirement Same test requirement as specified in 7.8.2.5.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8E Intermodulation characteristics for V2X
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8E.1 General	Intermodulation response rejection is a measure of the capability of the receiver to receive a wanted signal on its assigned channel frequency in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8E.2 Wide band Intermodulation for V2X
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8E.2.0 Minimum conformance requirements	7.8E.2.0.1 Wide band Intermodulation The wide band intermodulation requirement is defined using modulated NR carrier and a CW signal as interferer 1 and interferer 2 respectively. When UE is configured for NR V2X reception non-concurrent with NR uplink transmissions for NR V2X operating bands specified in Table 5.2E.1-1, the throughput shall be ≥ 95 % of the maximum throughput of the reference measurement channels as specified in Annexes A.7.2 with parameters specified in Table 7.8E.2.0.1-1 for NR V2X bands. The relative throughput requirement shall be met for any SCS specified for the channel bandwidth of the wanted signal. Table 7.8E.2.0.1-1: Wide band intermodulation parameters for NR V2X NR band Rx parameter Units Channel bandwidth 10 MHz 20 MHz 30 MHz 40 MHz n47 Power in Transmission Bandwidth Configuration dBm PREFSENS_V2X + channel bandwidth specific value below 6 9 11 12 PInterferer 1 (CW) dBm -46 PInterferer 2 (Modulated) dBm -46 BWInterferer 2 MHz 10MHz FInterferer 1 (Offset) MHz -BW/2 – 15 / +BW/2 + 15 FInterferer 2 (Offset) MHz 2 * FInterferer 1 NOTE 1: Reference measurement channel is A.7.2 NOTE 2: The interferer is QPSK modulated PUSCH containing data and reference symbols. Normal cyclic prefix is used. 7.8E.2.0.2 Intermodulation for V2X concurrent operation For the inter-band concurrent NR V2X operation, the requirements specified in clause 7.8E.2.0.1 shall apply for the NR sidelink reception in the operating bands in Table 5.2E.2-1 and the requirements specified in clause 7.8 shall apply for the NR downlink reception in licensed band while all downlink carriers are active. The normative reference for this requirement is TS 38.101-1 [2] clause 7.8E.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8E.2.1 Wide band Intermodulation for V2X / non-concurrent operation	7.8E.2.1.1 Test Purpose Intermodulation response for V2X tests the UE's ability to receive data with a given average throughput for a specified reference measurement channel, in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal, under conditions of ideal propagation and no added noise. 3GPP TS 38.521-1 version 19.2.0 Release 19 2147 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A UE unable to meet the throughput requirement under these conditions will decrease the coverage area when two or more interfering signals exist which have a specific frequency relationship to the wanted signal. 7.8E.2.1.2 Test Applicability This test case applies to all types of NR UE release 16 and forward that support NR V2X sidelink communication. 7.8E.2.1.3 Minimum conformance requirements The minimum conformance requirements are defined in clause 7.8E.2.0.1. 7.8E.2.1.4 Test Description 7.8E.2.1.4.1 Initial conditions Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state. The initial test configurations consist of environmental conditions, test frequencies, and channel bandwidths based on V2X operating bands specified in Table 5.2E.1-1 and Table 5.3.5-1. All of these configurations shall be tested with applicable test parameters for each channel bandwidth, and are shown in Table 7.8E.2.1.4.1-1. The details of the V2X reference measurement channels (RMCs) are specified in Annex A.7.2 and the GNSS configuration in TS 38.508-1 [5] subclause 4.11. Table 7.8E.2.1.4.1-1: Test Configuration Table Initial Conditions Test Environment as specified in TS 38.508-1[5] subclause 4.1 Normal Test Frequencies as specified in TS 38.508-1 [5] subclause 4.3.1 Mid range Test Channel Bandwidths as specified in TS 38.508-1 [5] subclause 4.3.1 Lowest, Highest Test SCS as specified in Table 5.3.5-1 Lowest Test Parameters for Channel Bandwidths V2X Configuration to Receive Test ID Modulation PSSCH RB allocation 1 CP-OFDM QPSK Full RB (NOTE 1) NOTE 1: The specific configuration is defined in Table 7.3E.2.4.1-2. 1. Connect the SS to the UE antenna connectors and connect the GNSS simulator to the UE GNSS RX antenna connector as shown in TS 38.508-1 [5] Annex A, Figure A.3.1.9.1b for TE diagram and section A.3.2.7 for UE diagram. 2. The parameter settings for the NR sidelink transmission over PC5 are pre-configured according to TS 38.508-1 [5] subclause 4.10. Message content exceptions are defined in clause 7.8E.2.1.4.3. 3. The V2X reference measurement channel is set according to Table 7.8E.2.1.4.1-1. 4. The GNSS simulator is configured for Scenario #1: static in Geographical area #1, as defined in TS 38.508-1 [5] Table 4.11.2-2. Geographical area #1 is also pre-configured in the UE. 5. Propagation conditions are set according to Annex B.0. 6. Ensure the UE is in State Out_of_Coverage with generic procedure parameters Sidelink On, Test Loop Function On with UE test loop mode E closed for Receive Mode according to TS 38.508-1 [5] clause 4.5. 7. Trigger the UE to reset UTC time. (NOTE: The UTC time reset may be performed by MMI or AT command (+CUTCR).) 8. The GNSS simulator is triggered to start step 1 of Scenario #1 to simulate a location in the centre of Geographical area #1. Wait for the UE to acquire the GNSS signal and start to transmit. 3GPP TS 38.521-1 version 19.2.0 Release 19 2148 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.8E.2.1.4.2 Test procedure 1. The UE starts to perform the NR V2X sidelink communication according to SL-V2X-Preconfiguration and to schedule the V2X RMC according to Table 7.8E.2.1.4.1-1. Set the downlink signal level according to Table 7.8E.2.1.5-1. 2. Set the parameters of the signal generators for the two interfering signals below the wanted signal according to Table 7.8E.2.1.5-1. 3. Measure the average throughput for a duration sufficient to achieve statistical significance according to Annex H. 4. Repeat step 3, using two interfering signals above the wanted signal at step 2. 7.8E.2.1.4.3 Message contents Message contents are according to TS 38.508-1 [5] subclause 4.6. 7.8E.2.1.5 Test Requirement The throughput shall be ≥ 95% of the maximum throughput of the reference measurement channels as specified in Annexes A.7.2 with parameters specified in Tables 7.8E.2.1.5-1. Table 7.8E.2.1.5-1: Wide band intermodulation parameters for NR V2X NR band Rx parameter Units Channel bandwidth 10 MHz 20 MHz 30 MHz 40 MHz n47 Power in Transmission Bandwidth Configuration dBm PREFSENS_V2X + channel bandwidth specific value below 6 9 11 12 PInterferer 1 (CW) dBm -46 PInterferer 2 (Modulated) dBm -46 BWInterferer 2 MHz 10MHz FInterferer 1 (Offset) MHz -BW/2 – 15 / +BW/2 + 15 FInterferer 2 (Offset) MHz 2 * FInterferer 1 NOTE 1: Reference measurement channel is A.7.2 NOTE 2: The interferer is QPSK modulated PUSCH containing data and reference symbols. Normal cyclic prefix is used.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8E.2.2 Wide band Intermodulation for V2X / concurrent operation	7.8E.2.2.1 Test Purpose Same test purpose as specified in 7.8.2.1 and 7.8E.2.1.1 for concurrent operation. 7.8E.2.2.2 Test Applicability No test case details are specified for inter-band concurrent operation. The Wide band Intermodulation requirements for V2X / concurrent operation apply and are tested in clauses 7.8.2 for NR downlink reception and 7.8E.2.1 for NR sidelink reception. 7.8F Intermodulation characteristics for shared spectrum channel access
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8F.1 General	Intermodulation response rejection is a measure of the capability of the receiver to receive a wanted signal on its assigned channel frequency in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal. 3GPP TS 38.521-1 version 19.2.0 Release 19 2149 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8F.2 Wide band Intermodulation for shared spectrum channel access	7.8.2.1 Test purpose Intermodulation response tests the UE's ability to receive data with a given average throughput for a specified reference measurement channel, in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal, under conditions of ideal propagation and no added noise. A UE unable to meet the throughput requirement under these conditions will decrease the coverage area when two or more interfering signals exist which have a specific frequency relationship to the wanted signal. 7.8F.2.2 Test applicability This test case applies to all types of NR UE release 16 and forward that support NR standalone shared spectrum channel access. 7.8F.2.3 Minimum conformance requirements The wide band intermodulation requirement is defined using a CW carrier and modulated NR signal as interferer 1 and interferer 2 respectively. Instead of the general wideband intermodulation requirements specified in clause 7.8.2, the throughput shall be ≥ 95 % of the maximum throughput of the reference measurement channels as specified in Annexes A.2.2, A.3.2 and A.3.3 (with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1) with parameters specified in Table 7.8F.2.3-1. The relative throughput requirement shall be met for any SCS specified for the channel bandwidth of the wanted signal. Table 7.8F.2.3-1: Wide band intermodulation parameters for shared spectrum channel access Rx parameter Units Channel bandwidth 20 MHz 40 MHz 60 MHz 80 MHz Pw in Transmission Bandwidth Configuration, per CC dBm REFSENS + channel bandwidth specific value below 9 12 13.8 15 PInterferer 1 (CW) dBm -46 PInterferer 2 (Modulated) dBm -46 BWInterferer 2 MHz 20 FInterferer 1 (Offset) MHz -BW/2 - 30 / +BW/2 + 30 FInterferer 2 (Offset) MHz 2FInterferer 1 NOTE 1: The transmitter shall be set to 4dB below PCMAX_L,f,c at the minimum UL configuration specified in Table 7.3.2-3 with PCMAX_L,f,c defined in clause 6.2.4. NOTE 2: Reference measurement channel is specified in Annexes A.2.2, A.3.2, and A.3.3 (with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1). NOTE 3: The modulated interferer consists of the Reference measurement channel specified in Annexes A.3.2.2 and A.3.3.2 with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1 and the same SCS as the wanted signal. NOTE 4: The Finterferer 1 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the CW interferer and Finterferer 2 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the modulated interferer. 3GPP TS 38.521-1 version 19.2.0 Release 19 2150 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.8F.2.4 Test description 7.8F.2.4.1 Initial conditions Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state. The initial test configurations consist of environmental conditions, test frequencies, test channel bandwidths and sub- carrier spacing based on NR operating bands specified in Table 5.3.5-1. All of these configurations shall be tested with applicable test parameters for each combination of channel bandwidth and sub-carrier spacing, are shown in table 7.8F.2.4.1-1. The details of the uplink and downlink reference measurement channels (RMC) are specified in Annexes A.2 and A.3. Configuration of PDSCH and PDCCH before measurement are specified in Annex C.2. Table 7.8F.2.4.1-1: Test Configuration Table Default Conditions Test Environment as specified in TS 38.508-1 [5] subclause 4.1 Normal Test Frequencies as specified in TS 38.508-1 [5] subclause 4.3.1 Mid range Test Channel Bandwidths as specified in TS 38.508-1 [5] subclause 4.3.1 Lowest, Mid, Highest Test SCS as specified in Table 5.3.5-1 Highest Test Parameters Downlink Configuration Uplink Configuration Test ID Mod'n RB allocation Mod'n RB allocation 1 CP-OFDM QPSK NOTE 1 DFT-s-OFDM QPSK NOTE 1 NOTE 1: The specific configuration of uplink and downlink are defined in Table 7.3F.2.4.1-2 and Table 7.3F.2.4.1-3. NOTE 2: In a band where UE supports 4Rx, the test shall be performed only with 4Rx antennas ports connected and 4Rx REFSENS requirement (Table 7.3F.2.5-2) is used in the test requirements. 1. Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, in Figure A.3.1.4.3 for TE diagram and section A.3.2 for UE diagram. 2. The parameter settings for the cell are set up according to TS 38.508-1 [5] subclause 4.4.3. 3. Downlink signals are initially set up according to Annex C.0, C.1, C.2 , C.3.1 , and uplink signals according to Annex G.0, G.1, G.2, G.3.1. 4. The DL and UL Reference Measurement channels are set according to Table 7.8F.2.4.1-1. 5. Propagation conditions are set according to Annex B.0. 6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity NR, Connected without release On, Test Mode On and Test Loop Function On according to TS 38.508-1 [5] clause 4.5. Message content are defined in clause 7.8F.2.4.3. 7.8F.2.4.2 Test procedure 1. SS transmits PDSCH via PDCCH DCI format 1_1 for C_RNTI to transmit the DL RMC according to Table 7.8F.2.4.1-1. The SS sends downlink MAC padding bits on the DL RMC. 2. SS sends uplink scheduling information for each UL HARQ process via PDCCH DCI format 0_1 for C_RNTI to schedule the UL RMC according to Table 7.8F.2.4.1-1. Since the UE has no payload data to send, the UE transmits uplink MAC padding bits on the UL RMC. 3. Set the Downlink signal level to the value as defined in Table 7.8F.2.5-1. Send uplink power control commands to the UE using 1dB power step size to ensure that the UE output power measured by the test system is within the Uplink power control window, defined as -MU to -(MU + Uplink power control window size) dB of the target power level in Table 7.8F.2.5-1 for at least the duration of the Throughput measurement, where: - MU is the test system uplink power measurement uncertainty and is specified in Table F.1.3-1 for the carrier frequency f and the channel bandwidth BW 3GPP TS 38.521-1 version 19.2.0 Release 19 2151 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI - Uplink power control window size = 1dB (UE power step size) + 0.7dB (UE power step tolerance) + (Test system relative power measurement uncertainty), where, the UE power step tolerance is specified in TS 38.101-1 [2], Table 6.3.4.3-1 and is 0.7dB for 1dB power step size, and the Test system relative power measurement uncertainty is specified for test case 6.3.4.3 in Table F.1.2-1. 4. Set the Interfering signal levels to the values as defined in Table 7.8F.2.5-1 and frequency below the wanted signal. 5. Measure the average throughput for a duration sufficient to achieve statistical significance according to Annex G.2. 6. Repeat steps from 3 to 5, using an interfering signal above the wanted signal at step 4. NOTE: The purpose of the Uplink power control window is to ensure that the actual UE output power is no greater than the target power level, and as close as possible to the target power level. The relationship between the Uplink power control window, the target power level and the corresponding possible actual UE Uplink power window is illustrated in Annex F.4.3. 7.8F.2.4.3 Message contents Message contents are according to TS 38.508-1 [5] subclause 4.6 with TRANSFORM_PRECODER_ENABLED condition in Table 4.6.3-118 PUSCH-Config. 7.8F.2.5 Test requirement The throughput shall be ≥ 95% of the maximum throughput of the reference measurement channels as specified in Annex A.3.2 with parameters specified in Table 7.8F.2.5-1 for the specified wanted signal mean power in the presence of two interfering signals. Table 7.8F.2.5-1: Wide band intermodulation parameters for shared spectrum channel access Rx parameter Units Channel bandwidth 20 MHz 40 MHz 60 MHz 80 MHz Pw in Transmission Bandwidth Configuration, per CC dBm REFSENS + channel bandwidth specific value below 9 12 13.8 15 PInterferer 1 (CW) dBm -46 PInterferer 2 (Modulated) dBm -46 BWInterferer 2 MHz 20 FInterferer 1 (Offset) MHz -BW/2 - 30 / +BW/2 + 30 FInterferer 2 (Offset) MHz 2FInterferer 1 NOTE 1: The transmitter shall be set to 4dB below PCMAX_L,f,c at the minimum UL configuration specified in Table 7.3F.2.4.1-3 with PCMAX_L,f,c defined in clause 6.2.4. NOTE 2: Reference measurement channel is specified in Annexes A.2.2, A.3.2, and A.3.3 (with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1). NOTE 3: The modulated interferer consists of the Reference measurement channel specified in Annexes A.3.2.2 and A.3.3.2 with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1 and the same SCS as the wanted signal. NOTE 4: The Finterferer 1 (offset) is the frequency separation of the center frequency of the carrier closest to the interferer and the center frequency of the CW interferer and Finterferer 2 (offset) is the frequency separation of the center frequency of the carrier closest to the interferer and the center frequency of the modulated interferer. 3GPP TS 38.521-1 version 19.2.0 Release 19 2152 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8G Intermodulation characteristics for Tx Diversity	7.8G.0 General The requirements of wide band Intermodulation for 4Tx Tx Diversity are tested in clause 7.8G.1. 7.8G.1 Wide band Intermodulation for Tx Diversity for UE supporting 4Tx 7.8G.1.1 Test purpose Same as the test purpose given in clause 7.8.2.1. 7.8G.1.2 Test applicability This test case applies to all types of NR Power Class 1.5 UE release 18 and forward that support 4Tx Tx diversity. 7.8G.1.3 Minimum conformance requirements Same as the minimum conformance requirements given in clause 7.8.2.3. 7.8G.1.4 Test description 7.8G.1.4.1 Initial conditions Same as the initial conditions given in clause 7.8.2.4.1 with following exceptions: - Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, in Figure A.3.1.4.6a for TE diagram and section A.3.2 for UE diagram. 7.8G.1.4.2 Test procedure Same as the test procedure given in clause 7.8.2.4.2 with following exceptions: - Step 3 and 4 are replaced by following steps: 3. Set the Downlink signal level to the value as defined in Table 7.8G.1.5-1 or Table 7.8G.1.5-2. Send uplink power control commands to the UE using 1dB power step size to ensure that the UE output power measured by the test system is within the Uplink power control window, defined as -MU to -(MU + Uplink power control window size) dB of the target power level in Table 7.8G.1.5-1 or Table 7.8G.1.5-2 for at least the duration of the throughput measurement, where: - MU is the test system uplink power measurement uncertainty and is specified in Table F.1.3-1 for the carrier frequency f and the channel bandwidth BW - Uplink power control window size = 1dB (UE power step size) + 0.7dB (UE power step tolerance) + (Test system relative power measurement uncertainty), where the UE power step tolerance is specified in TS 38.101-1 [2], Table 6.3.4.3-1 and is 0.7dB for 1dB power step size, and the Test system relative power measurement uncertainty is specified for test case 6.3.4.3 in Table F.1.2-1. - For UEs supporting 4 Tx Tx diversity, the transmit power is measured as the sum of the output power from all UE antenna connectors. 4. Set the Interfering signal levels to the values as defined in Table 7.8G.1.5-1 or Table 7.8G.1.5-2 and frequency below the wanted signal. 7.8G.1.4.3 Message contents Same as the message contents given in clause 7.8.2.4.3. 7.8G.1.5 Test requirement The throughput shall be ≥ 95% of the maximum throughput of the reference measurement channels as specified in Annex A.3.2 with parameters specified in Table 7.8G.1.5-1 or Table 7.8G.1.5-2 for the specified wanted signal mean power in the presence of two interfering signals. 3GPP TS 38.521-1 version 19.2.0 Release 19 2153 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table 7.8G.1.5-1: Wide band intermodulation parameters for NR bands with FDL_high < 2700 MHz and FUL_high < 2700 MHz Rx parameter Units Channel bandwidth (MHz) 3 5, 10 15 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100 Pw in Transmission Bandwidth Configuration , per CC5 dBm REFSENS + 8 dB REFSENS + 6 dB REFSENS + 7 dB REFSENS + (9 + 10log10(BWChannel /20)) dB PInterferer 1 (CW) dBm -46 PInterferer 2 (Modulated) dBm -46 BWInterferer 2 MHz 3 5 FInterferer 1 (Offset) MHz -BW/2 – 4.5 /+BW/2 + 4.5 -BWchannel/2 – 7.5 / +BWchannel/2 + 7.5 FInterferer 2 (Offset) MHz 2FInterferer 1 NOTE 1: The transmitter shall be set to 4 dB below PCMAX_L,f,c at the minimum UL configuration specified in Table 7.3.2.3-3 with PCMAX_L,f,c defined in clause 6.2.4. NOTE 2: Reference measurement channel is specified in Annexes A.2.2, A.3.2, and A.3.3 (with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1). NOTE 3: The modulated interferer consists of the Reference measurement channel specified in Annexes A.3.2.2 and A.3.3.2 with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1 and 15 kHz SCS. NOTE 4: The Finterferer 1 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the CW interferer and Finterferer 2 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the modulated interferer. NOTE 5: 10log10(x) is rounded to the next higher 0.5dB value. Table 7.8G.1.5-2: Wide band intermodulation parameters for NR bands with FDL_low ≥ 3300 MHz and FUL_low ≥ 3300 MHz Rx parameter Units Channel bandwidth (MHz) 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100 Pw in Transmission Bandwidth Configuration, per CC dBm REFSENS + 6dB PInterferer 1 (CW) dBm -46 PInterferer 2 (Modulated) dBm -46 BWInterferer 2 MHz BWchannel FInterferer 1 (Offset) MHz -2BWchannel / +2BWchannel FInterferer 2 (Offset) MHz 2FInterferer 1 NOTE 1: The transmitter shall be set to 4dB below PCMAX_L,f,c at the minimum UL configuration specified in Table 7.3.2.3-3 with PCMAX_L,f,c defined in clause 6.2.4. NOTE 2: Reference measurement channel is specified in Annexes A.2.2, A.2.3, A.3.2, and A.3.3 (with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1). NOTE 3: The modulated interferer consists of the Reference measurement channel specified in Annexes A.3.2.2 and A.3.3.2 with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1 and the same SCS as the wanted signal. NOTE 4: The Finterferer 1 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the CW interferer and Finterferer 2 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the modulated interferer. 3GPP TS 38.521-1 version 19.2.0 Release 19 2154 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8J Intermodulation characteristics for ATG
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8J.1 General	Intermodulation response rejection is a measure of the capability of the receiver to receive a wanted signal on its assigned channel frequency in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.8J.2 Wide band intermodulation for ATG	Editor’s Note: This test is incomplete. The following aspects are not yet determined: - MU is FFS for ATG UEs with more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors. - MU already defined is based on preliminary analysis of single TE vendor. Values will be revisited once more detailed analysis, including analysis from other TE vendors, is available. 7.8J.2.1 Test purpose Intermodulation response tests the UE's ability to receive data with a given average throughput for a specified reference measurement channel, in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal, under conditions of ideal propagation and no added noise. A UE unable to meet the throughput requirement under these conditions will decrease the coverage area when two or more interfering signals exist which have a specific frequency relationship to the wanted signal. 7.8J.2.2 Test applicability This test case applies to all types of NR ATG UE release 18 and forward. 7.8J.2.3 Minimum conformance requirements For ATG UE, the minimum conformance requirements shall be the same as in clause 7.8.2.3. The normative reference for this requirement is TS 38.101-1 [2] clause 7.8J.2. 7.8J.2.4 Test description 7.8J.2.4.1 Initial conditions Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state. The initial test configurations consist of environmental conditions, test frequencies, test channel bandwidths and sub- carrier spacing based on NR operating bands specified in Table 5.3.5-1. All of these configurations shall be tested with applicable test parameters for each combination of channel bandwidth and sub-carrier spacing, are shown in Table 7.8J.2.4.1-1. The details of the uplink and downlink reference measurement channels (RMC) are specified in Annexes A.2 and A.3. Configuration of PDSCH and PDCCH before measurement are specified in Annex C.2. Table 7.8J.2.4.1-1: Test Configuration Table Default Conditions Test Environment as specified in TS 38.508-1 [5] subclause 4.1 Normal Test Frequencies as specified in TS 38.508-1 [5] subclause 4.3.1 Mid range Test Channel Bandwidths as specified in TS 38.508-1 [5] subclause 4.3.1 Lowest, Mid, Highest Lowest UL / Lowest DL, Lowest UL / Highest DL Test SCS as specified in Table 5.3.5-1 Highest Test Parameters Downlink Configuration Uplink Configuration Test ID Mod'n RB allocation Mod'n RB allocation 1 CP-OFDM QPSK NOTE 1 DFT-s-OFDM QPSK NOTE 1 3GPP TS 38.521-1 version 19.2.0 Release 19 2155 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 1: The specific configuration of uplink and downlink are defined in Table 7.3.2.4.1-1. NOTE 2: In a band where UE supports 4Rx, the test shall be performed only with 4Rx antennas ports connected and 4Rx REFSENS requirement (Table 7.3.2.5-2) is used in the test requirements. 1. Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, in Figure A.3.1.4.3 for TE diagram and section A.3.2 for UE diagram. 2. The parameter settings for the cell are set up according to TS 38.508-1 [5] subclause 4.4.3. 3. Downlink signals are initially set up according to Annex C.0, C.1, C.2, C.3.1 , and uplink signals according to Annex G.0, G.1, G.2, G.3.1. 4. The DL and UL Reference Measurement channels are set according to Table 7.8J.2.4.1-1. 5. Propagation conditions are set according to Annex B.0. 6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity NR, Connected without release On, Test Mode On and Test Loop Function On according to TS 38.508-1 [5] clause 4.5. Message content are defined in clause 7.8J.2.4.3. 7.8J.2.4.2 Test procedure 1. SS transmits PDSCH via PDCCH DCI format 1_1 for C_RNTI to transmit the DL RMC according to Table 7.8J.2.4.1-1. The SS sends downlink MAC padding bits on the DL RMC. 2. SS sends uplink scheduling information for each UL HARQ process via PDCCH DCI format 0_1 for C_RNTI to schedule the UL RMC according to Table 7.8J.2.4.1-1. Since the UE has no payload data to send, the UE transmits uplink MAC padding bits on the UL RMC. 3. Set the Downlink signal level to the value as defined in Table 7.8J.2.5-1 or Table 7.8J.2.5-2. Send uplink power control commands to the UE using 1dB power step size to ensure that the UE output power measured by the test system is within the Uplink power control window, defined as -MU to -(MU + Uplink power control window size) dB of the target power level in Table 7.8J.2.5-1 or Table 7.8J.2.5-2 for at least the duration of the Throughput measurement, where: - MU is the test system uplink power measurement uncertainty and is specified in Table F.1.3-1 for the carrier frequency f and the channel bandwidth BW - Uplink power control window size = 1dB (UE power step size) + 0.7dB (UE power step tolerance) + (Test system relative power measurement uncertainty), where the UE power step tolerance is specified in TS 38.101-1 [2], Table 6.3.4.3-1 and is 0.7dB for 1dB power step size, and the Test system relative power measurement uncertainty is specified for test case 6.3.4.3 in Table F.1.2-1. - For UEs supporting Tx diversity, the transmit power is measured as the sum of the output power from both UE antenna connectors. 4. Set the Interfering signal levels to the values as defined in Table 7.8J.2.5-1 or Table 7.8J.2.5-2 and frequency below the wanted signal. 5. Measure the average throughput for a duration sufficient to achieve statistical significance according to Annex H.2. 6. Repeat steps from 3 to 5, using an interfering signal above the wanted signal at step 4. NOTE: The purpose of the Uplink power control window is to ensure that the actual UE output power is no greater than the target power level, and as close as possible to the target power level. The relationship between the Uplink power control window, the target power level and the corresponding possible actual UE Uplink power window is illustrated in Annex F.4.3. 7.8J.2.4.3 Message contents Message contents are according to TS 38.508-1 [5] subclause 4.6 with DFT-s-OFDM condition in Table 4.6.3-118 PUSCH-Config. 3GPP TS 38.521-1 version 19.2.0 Release 19 2156 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.8J.2.5 Test requirement The throughput shall be ≥ 95% of the maximum throughput of the reference measurement channels as specified in Annex A.3.2 with parameters specified in Table 7.8J.2.5-1 or Table 7.8J.2.5-2 for the specified wanted signal mean power in the presence of two interfering signals. Table 7.8J.2.5-1: Wide band intermodulation parameters for ATG UE for NR bands with FDL_high < 2700 MHz and FUL_high < 2700 MHz Rx parameter Units Channel bandwidth (MHz) 5, 10 15 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100 Pw in Transmission Bandwidth Configuration, per CC5 dBm REFSENS + 6 dB REFSENS + 7 dB REFSENS + (9 + 10log10(BWChannel /20)) dB PInterferer 1 (CW) dBm -46 PInterferer 2 (Modulated) dBm -46 BWInterferer 2 MHz 5 FInterferer 1 (Offset) MHz -BWchannel/2 – 7.5 / +BWchannel/2 + 7.5 FInterferer 2 (Offset) MHz 2FInterferer 1 NOTE 1: The transmitter shall be set to 4 dB below PCMAX_L,f,c at the minimum UL configuration specified in Table 7.3.2.3-3 with PCMAX_L,f,c defined in clause 6.2J.2. NOTE 2: Reference measurement channel is specified in Annexes A.2.2, A.3.2, and A.3.3 (with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1). NOTE 3: The modulated interferer consists of the Reference measurement channel specified in Annexes A.3.2.2 and A.3.3.2 with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1 and 15 kHz SCS. NOTE 4: The Finterferer 1 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the CW interferer and Finterferer 2 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the modulated interferer. NOTE 5: 10log10(x) is rounded to the next higher 0.5dB value. Table 7.8J.2.5-2: Wide band intermodulation parameters for ATG UE for NR bands with FDL_low ≥ 3300 MHz and FUL_low ≥ 3300 MHz Rx parameter Units Channel bandwidth (MHz) 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100 Pw in Transmission Bandwidth Configuration , per CC dBm REFSENS + 6dB PInterferer 1 (CW) dBm -46 PInterferer 2 (Modulated) dBm -46 BWInterferer 2 MHz BWchannel FInterferer 1 (Offset) MHz -2BWchannel / +2BWchannel FInterferer 2 (Offset) MHz 2FInterferer 1 NOTE 1: The transmitter shall be set to 4dB below PCMAX_L,f,c at the minimum UL configuration specified in Table 7.3.2.3-3 with PCMAX_L,f,c defined in clause 6.2J.2. NOTE 2: Reference measurement channel is specified in Annexes A.2.2, A.2.3, A.3.2, and A.3.3 (with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1). NOTE 3: The modulated interferer consists of the Reference measurement channel specified in Annexes A.3.2.2 and A.3.3.2 with one sided dynamic OCNG Pattern OP.1 FDD/TDD for the DL-signal as described in Annex A.5.1.1/A.5.2.1 and the same SCS as the wanted signal. 3GPP TS 38.521-1 version 19.2.0 Release 19 2157 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 4: The Finterferer 1 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the CW interferer and Finterferer 2 (offset) is the frequency separation of the centre frequency of the carrier closest to the interferer and the centre frequency of the modulated interferer.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.9 Spurious emissions	The spurious emissions power is the power of emissions generated or amplified in a receiver that appear at the UE antenna connector. 7.9.1 Test purpose Test verifies the UE's spurious emissions meet the requirements described in clause 7.9.3. Excess spurious emissions increase the interference to other systems. 7.9.2 Test applicability This test applies to all types of NR UE release 15 and forward. 7.9.3 Minimum conformance requirements The spurious emissions power is the power of emissions generated or amplified in a receiver that appear at the UE antenna connector. The power of any narrow band CW spurious emission shall not exceed the maximum level specified in Table 7.9.3-1 Table 7.9.3-1: General receiver spurious emission requirements Frequency range Measurement bandwidth Maximum level NOTE 30 MHz ≤ f < 1 GHz 100 kHz -57 dBm 1 GHz ≤ f ≤ 12.75 GHz 1 MHz -47 dBm 12.75 GHz ≤ f ≤ 5th harmonic of the upper frequency edge of the DL operating band in GHz 1 MHz -47 dBm 2 12.75 GHz – 26 GHz 1 MHz -47 dBm 3 NOTE 1: Unused PDCCH resources are padded with resource element groups with power level given by PDCCH as defined in Annex C.3.1. NOTE 2: Applies for Band that the upper frequency edge of the DL Band more than 2.69 GHz. NOTE 3: Applies for Band that the upper frequency edge of the DL Band more than 5.2 GHz. The normative reference for this requirement is TS 38.101-1 [2] clause 7.9. 7.9.4 Test description 7.9.4.1 Initial conditions Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state. The initial test configurations consist of environmental conditions, test frequencies, test channel bandwidths and sub- carrier spacing based on NR operating bands specified in Table 5.3.5-1. All of these configurations shall be tested with applicable test parameters for each combination of channel bandwidth and sub-carrier spacing, are shown in table 7.9.4.1-1. The details of the uplink and downlink reference measurement channels (RMC) are specified in Annexes A.2 and A.3. Configuration of PDSCH and PDCCH before measurement are specified in Annex C.2. Table 7.9.4.1-1: Test Configuration Table Default Conditions Test Environment as specified in TS 38.508-1 [5] subclause 4.1 Normal Test Frequencies as specified in TS 38.508-1 [5] subclause 4.3.1 Low range, Mid range, High range (NOTE 4) 3GPP TS 38.521-1 version 19.2.0 Release 19 2158 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Test Channel Bandwidths as specified in TS 38.508-1 [5] subclause 4.3.1 Highest (NOTE 3) Test SCS as specified in Table 5.3.5-1 Highest Test Parameters Downlink Configuration Uplink Configuration Test ID Mod'n RB allocation Mod'n RB allocation 1 N/A 0 N/A 0 NOTE 1: The specific configuration of uplink and downlink are defined in Table 7.3.2.4.1-1. NOTE 2: In a band where UE supports 4Rx but not supports 8Rx, the test shall be performed only with 4Rx antennas ports connected. In a band where UE supports 8Rx, the test shall be performed only with 8Rx antennas ports connected. Otherwise, the UE shall be verified with two Rx antenna ports. NOTE 3: For n70, highest test channel bandwidth shall be Highest UL / Highest DL according to asymmetric channel bandwidths specified in clause 5.3.6. NOTE 4: For NR band n28, 30MHz test channel bandwidth is tested with Low range and High range test frequencies. 1. Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, in Figure A.3.1.5.1 for TE diagram and section A.3.2 for UE diagram. 2. The parameter settings for the cell are set up according to TS 38.508-1 [5] subclause 4.4.3. 3. Downlink signals are initially set up according to Annex C.0, C.1, C.2 , C.3.1 , and uplink signals according to Annex G.0, G.1, G.2, G.3.1. 4. The DL and UL Reference Measurement channels are set according to Table 7.9.4.1-1. 5. Propagation conditions are set according to Annex B.0. 6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity NR, Connected without release On, Test Mode On and Test Loop Function On according to TS 38.508-1 [5] clause 4.5. Message content are defined in clause 7.5.4.3. 7.9.4.2 Test procedure 1. Sweep the spectrum analyzer (or equivalent equipment) over a frequency range and measure the average power of spurious emission. During measurement the spectrum analyser shall be set to 'Detector' = RMS. 2. Repeat step 1 for all NR Rx antennas of the UE. 7.9.4.3 Message contents Message contents are according to TS 38.508-1 [5] subclause 4.6. 7.9.5 Test requirement The measured spurious emissions derived in step 1), shall not exceed the maximum level specified in Table 7.9.5-1. Table 7.9.5-1: General receiver spurious emission requirements Frequency range Measurement bandwidth Maximum level NOTE 30 MHz ≤ f < 1 GHz 100 kHz -57 dBm 1 GHz ≤ f ≤ 12.75 GHz 1 MHz -47 dBm 12.75 GHz ≤ f ≤ 5th harmonic of the upper frequency edge of the DL operating band in GHz 1 MHz -47 dBm 2 12.75 GHz – 26 GHz 1 MHz -47 dBm 3 NOTE 1: Unused PDCCH resources are padded with resource element groups with power level given by PDCCH as defined in Annex C.3.1. NOTE 2: Applies for Band that the upper frequency edge of the DL Band more than 2.69 GHz. NOTE 3: Applies for Band that the upper frequency edge of the DL Band more than 5.2 GHz. 3GPP TS 38.521-1 version 19.2.0 Release 19 2159 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI
47427c363b8cb3a33a525cec081286b5	138 521-1	7.9A Spurious emissions for CA
47427c363b8cb3a33a525cec081286b5	138 521-1	7.9A.0 Minimum conformance requirements	For inter-band carrier aggregation including an operating band without uplink band, the UE shall meet the Rx spurious emissions requirements specified in subclause 7.9 for each component carrier while all downlink carriers are active. The normative reference for this requirement is TS 38.101-1 [2] clause 7.9A.3.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.9A.1 Spurious emissions for CA (2DL CA)	7.9A.1.1 Test Purpose Test verifies the UE's spurious emissions meet the requirements described in clause 7.9A.1.3. Excess spurious emissions increase the interference to other systems. 7.9A.1.2 Test Applicability This test case applies to all types of NR UE release 15 and forward that support inter-band 2DL CA with a DL-only band. 7.9A.1.3 Minimum Conformance Requirements The minimum conformance requirements are defined in clause 7.9A.0. 7.9A.1.4 Test Description 7.9A.1.4.1 Initial Conditions Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state. The initial test configurations consist of environmental conditions, test frequencies, and channel bandwidths based on NR CA bands specified in clause 5.5A. All of these configurations shall be tested with applicable test parameters for each CA Configuration, and are shown in Table 7.9A.1.4.1-1. The details of the uplink reference measurement channels (RMCs) are specified in Annexe A.2. Configurations of PDSCH and PDCCH before measurement are specified in Annex C.2. Table 7.9A.1.4.1-1: Test Configuration Table Initial Conditions Test Environment as specified in TS 38.508-1 [5] subclause 4.1 Normal Test Frequencies as specified in TS 38.508-1 [5] subclause 4.3.1 NOTE 3 Test CC Combination setting (NRB_agg) as specified in Table 5.5A.1-1 for the CA Configuration across bandwidth combination sets supported by the UE. Highest NRB_agg NOTE 4 NOTE 5 Test SCS as specified in Table 5.3.5-1 Highest Test Parameters for CA Configurations Ch Configuration / NRB_agg Downlink Configuration Uplink Configuration PCC NRB SCCs NRB Mod'n PCC & SCC RB allocation Mod'n PCC RB allocation 100 100 N/A 0 0 N/A 0 NOTE 1: The specific configuration of uplink and downlink are defined in Table 7.3.2.4.1-1. NOTE 2: In a band where UE supports 4Rx but not supports 8Rx, the test shall be performed only with 4Rx antennas ports connected. In a band where UE supports 8Rx, the test shall be performed only with 8Rx antennas ports connected. Otherwise, the UE shall be verified with two Rx antenna ports. 3GPP TS 38.521-1 version 19.2.0 Release 19 2160 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 3: Test frequency is set to Mid Range for PCC and SCC with exceptions defined in Table 7.3A.1.4.1-2. For NR band n28, 30MHz test channel bandwidth is tested with Low range and High range test frequencies. NOTE 4: If the UE supports multiple CC Combinations in the CA Configuration with the same NRB_agg, only the combination with the highest NRB_PCC is tested NOTE 5: For nXA PCC, each of Highest UL and Highest DL shall be selected according to clause 5.5A.3.1. DL channel bandwidth shall be selected first. 1. Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, in Figure A.3.1.5.2 for TE diagram and section A.3.2 for UE diagram. 2. The parameter settings for the cell are set up according to TS 38.508-1 [5] subclause 4.4.3. 3. Downlink signals for PCC are initially set up according to Annex C.0, C.1, C.2. 4. Propagation conditions are set according to Annex B.0. 5. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity NR according to TS 38.508-1 [5] clause 4.5. Message contents are defined in clause 7.9A.1.4.3. 7.9A.1.4.2 Test Procedure 1. Configure SCC according to Annex C.0, C.1, C.2 for all downlink physical channels. 2. The SS shall configure SCC as per TS 38.508-1 [5] clause 5.5.1. Message contents are defined in clause 6.5A.2.2.1.4.3. 3. SS activates SCC by sending the activation MAC CE (Refer TS 38.321 [18], clauses 5.9, 6.1.3.10). Wait for at least 2 seconds (Refer TS 38.133 [19], clause9.3). 4. Sweep the spectrum analyzer (or equivalent equipment) over a frequency range and measure the average power of spurious emission. During measurement SS sends no uplink scheduling information to the UE. During measurement the spectrum analyser shall be set to 'Detector' = RMS. 5. Repeat step 1 for all NR Rx antennas of the UE. 7.9A.1.4.3 Message Contents Message contents are according to TS 38.508-1 [5] subclause 4.6. 7.9A.1.5 Test Requirement The measured spurious emissions derived in step 1), shall not exceed the maximum level specified in Table 7.9.5-1.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.9B Spurious emissions for NR-DC	For inter-band NR-DC configurations, the spurious emissions for the corresponding inter-band CA configuration as specified in clause 7.9A applies. Note: For NR-DC testing, replace CA by NR-DC, PCC by PCell, and SCC by PSCell in clause 7.9A.
47427c363b8cb3a33a525cec081286b5	138 521-1	7.9J Spurious emissions for ATG	7.9J.1 Test purpose Test verifies the ATG UE's spurious emissions meet the requirements described in clause 7.9J.3. Excess spurious emissions increase the interference to other systems. 7.9J.2 Test applicability This test case applies to all types of NR ATG UE release 18 and forward. 7.9J.3 Minimum conformance requirements For ATG UE, the minimum conformance requirements shall be the same as in clause 7.9.3. 3GPP TS 38.521-1 version 19.2.0 Release 19 2161 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI The normative reference for this requirement is TS 38.101-1 [2] clause 7.9J. 7.9J.4 Test description 7.9J.4.1 Initial conditions Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state. The initial test configurations consist of environmental conditions, test frequencies, test channel bandwidths and sub- carrier spacing based on NR operating bands specified in Table 5.3.5-1. All of these configurations shall be tested with applicable test parameters for each combination of channel bandwidth and sub-carrier spacing, are shown in table 7.9J.4.1-1. The details of the uplink and downlink reference measurement channels (RMC) are specified in Annexes A.2 and A.3. Configuration of PDSCH and PDCCH before measurement are specified in Annex C.2. Table 7.9J.4.1-1: Test Configuration Table Default Conditions Test Environment as specified in TS 38.508-1 [5] subclause 4.1 Normal Test Frequencies as specified in TS 38.508-1 [5] subclause 4.3.1 Low range, Mid range, High range Test Channel Bandwidths as specified in TS 38.508-1 [5] subclause 4.3.1 Highest Test SCS as specified in Table 5.3.5-1 Highest Test Parameters Downlink Configuration Uplink Configuration Test ID Mod'n RB allocation Mod'n RB allocation 1 N/A 0 N/A 0 NOTE 1: The specific configuration of uplink and downlink are defined in Table 7.3.2.4.1-1. NOTE 2: In a band where UE supports 4Rx, the test shall be performed only with 4Rx antennas ports connected. 1. Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [5] Annex A, in Figure A.3.1.5.1 for TE diagram and section A.3.2 for UE diagram. 2. The parameter settings for the cell are set up according to TS 38.508-1 [5] subclause 4.4.3. 3. Downlink signals are initially set up according to Annex C.0, C.1, C.2 , C.3.1 , and uplink signals according to Annex G.0, G.1, G.2, G.3.1. 4. The DL and UL Reference Measurement channels are set according to Table 7.9J.4.1-1. 5. Propagation conditions are set according to Annex B.0. 6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity NR, Connected without release On, Test Mode On and Test Loop Function On according to TS 38.508-1 [5] clause 4.5. Message content are defined in clause 7.9J.4.3. 7.9J.4.2 Test procedure 1. Sweep the spectrum analyzer (or equivalent equipment) over a frequency range and measure the average power of spurious emission. During measurement the spectrum analyser shall be set to 'Detector' = RMS. 2. Repeat step 1 for all NR Rx antennas of the UE. 7.9J.4.3 Message contents Message contents are according to TS 38.508-1 [5] subclause 4.6. 7.9J.5 Test requirement The measured spurious emissions derived in step 1), shall not exceed the maximum level specified in Table 7.9J.5-1. 3GPP TS 38.521-1 version 19.2.0 Release 19 2162 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table 7.9J.5-1: General receiver spurious emission requirements for ATG UE Frequency range Measurement bandwidth Maximum level NOTE 30 MHz ≤ f < 1 GHz 100 kHz -57 dBm 1 GHz ≤ f ≤ 12.75 GHz 1 MHz -47 dBm 12.75 GHz ≤ f ≤ 5th harmonic of the upper frequency edge of the DL operating band in GHz 1 MHz -47 dBm 2 NOTE 1: Unused PDCCH resources are padded with resource element groups with power level given by PDCCH as defined in Annex C.3.1. NOTE 2: Applies for Band that the upper frequency edge of the DL Band more than 2.69 GHz. 3GPP TS 38.521-1 version 19.2.0 Release 19 2163 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex A (normative): Measurement channels A.1 General The throughput values defined in the measurement channels specified in Annex A, are calculated and are valid per datastream (codeword). For multi-stream (more than one codeword) transmissions, the throughput referenced in the minimum requirements is the sum of throughputs of all datastreams (codewords). The UE category entry in the definition of the reference measurement channel in Annex A is only informative and reveals the UE categories, which can support the corresponding measurement channel. Whether the measurement channel is used for testing a certain UE category or not is specified in the individual minimum requirements. A.2 UL reference measurement channels A.2.1 General The measurement channels in the following subclauses are defined to derive the requirements in clause 6 (Transmitter Characteristics) and clause 7 (Receiver Characteristics). The measurement channels represent example configurations of physical channels for different data rates. The measurement channels in the following clauses are applicable to both FDD and TDD. The active uplink slots for TDD configurations are specified in table A.2.1-1. TDD slot patterns defined for reference sensitivity tests will be used for TDD UL RMCs, unless otherwise stated. The active uplink slots for additional TDD configuration specified in Table A.2.1-3, with the TDD pattern defined in Table A.2.1-4, is used for the phase continuity tests for DMRS bundling with 15 kHz SCS. The active uplink slots configuration specified in Table A.2.1-5 and the additional TDD pattern in Table A.2.1-6 are used for shorter transient period capability EVM tests at 15 kHz SCS. Table A.2.1-1: TDD active uplink slots SCS Active Uplink slots 15 kHz 4, 9 30 kHz 8, 9, 18, 19 60 kHz 16, 17, 18, 19, 36, 37, 38, 39 Table A.2.1-2: TDD active uplink slots for PC1.5 UE with maxUplinkDutyCycle-PC1dot5-MPE-FR1- r16≤20% SCS Active Uplink slots 15 kHz 4 30 kHz 8, 9 60 kHz 16, 17, 18, 19 Table A.2.1-3: TDD active uplink slots for additional TDD configuration SCS Active Uplink slots 15 kHz 8, 9 Table A.2.1-4: TDD pattern for additional TDD configuration Parameter Value SCS 15 kHz (µ0) TDD Slot Configuration pattern (Note 1) 7DS2U Special Slot Configuration (Note 2) 6D+4G+4U 3GPP TS 38.521-1 version 19.2.0 Release 19 2164 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI referenceSubcarrierSpacing 15 kHz UL-DL configuration dl-UL- TransmissionPeriodicity 10 ms nrofDownlinkSlots 7 nrofDownlinkSymbols 6 nrofUplinkSlot 2 nrofUplinkSymbols 4 NOTE 1: D denotes a slot with all DL symbols; S denotes a slot with a mix of DL, UL and guard symbols; U denotes a slot with all UL symbols. The field is for information. NOTE 2: D, G, U denote DL, guard and UL symbols, respectively. The field is for information. Table A.2.1-5: TDD active uplink slots for shorter transient period capability SCS Active Uplink slots 15 kHz 3,4 Table A.2.1-6: Additional TDD pattern for shorter transient period capability Parameter Value SCS 15 kHz (µ0) TDD Slot Configuration pattern (Note 1) 2DS2U Special Slot Configuration (Note 2) 10D+2G+2U referenceSubcarrierSpacing 15 kHz UL-DL configuration dl-UL- TransmissionPeriodicity 5 ms nrofDownlinkSlots 2 nrofDownlinkSymbols 10 nrofUplinkSlot 2 nrofUplinkSymbols 2 NOTE 1: D denotes a slot with all DL symbols; S denotes a slot with a mix of DL, UL and guard symbols; U denotes a slot with all UL symbols. The field is for information. NOTE 2: D, G, U denote DL, guard and UL symbols, respectively. The field is for information. 3GPP TS 38.521-1 version 19.2.0 Release 19 2165 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A.2.2 Reference measurement channels for FDD A.2.2.1 DFT-s-OFDM Pi/2-BPSK Table A.2.2.1-1: Reference Channels for DFT-s-OFDM Pi/2-BPSK Parameter Allocated resource blocks (LCRB) DFT-s- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 1 11 pi/2 BPSK 0 24 16 2 1 132 132 5 11 pi/2 BPSK 0 160 16 2 1 660 660 9 11 pi/2 BPSK 0 288 16 2 1 1188 1188 10 11 pi/2 BPSK 0 320 16 2 1 1320 1320 12 11 pi/2 BPSK 0 384 16 2 1 1584 1584 15 11 pi/2 BPSK 0 480 16 2 1 1980 1980 18 11 pi/2 BPSK 0 576 16 2 1 2376 2376 24 11 pi/2 BPSK 0 768 16 2 1 3168 3168 25 11 pi/2 BPSK 0 808 16 2 1 3300 3300 30 11 pi/2 BPSK 0 984 16 2 1 3960 3960 32 11 pi/2 BPSK 0 1032 16 2 1 4224 4224 36 11 pi/2 BPSK 0 1128 16 2 1 4752 4752 45 11 pi/2 BPSK 0 1416 16 2 1 5940 5940 50 11 pi/2 BPSK 0 1544 16 2 1 6600 6600 60 11 pi/2 BPSK 0 1864 16 2 1 7920 7920 64 11 pi/2 BPSK 0 2024 16 2 1 8448 8448 75 11 pi/2 BPSK 0 2408 16 2 1 9900 9900 80 11 pi/2 BPSK 0 2472 16 2 1 10560 10560 81 11 pi/2 BPSK 0 2536 16 2 1 10692 10692 90 11 pi/2 BPSK 0 2792 16 2 1 11880 11880 100 11 pi/2 BPSK 0 3104 16 2 1 13200 13200 108 11 pi/2 BPSK 0 3368 16 2 1 14256 14256 120 11 pi/2 BPSK 0 3752 16 2 1 15840 15840 128 11 pi/2 BPSK 0 3976 24 2 2 16896 16896 135 11 pi/2 BPSK 0 4104 24 2 2 17820 17820 160 11 pi/2 BPSK 0 4872 24 2 2 21120 21120 162 11 pi/2 BPSK 0 5000 24 2 2 21384 21384 180 11 pi/2 BPSK 0 5512 24 2 2 23760 23760 216 11 pi/2 BPSK 0 6664 24 2 2 28512 28512 243 11 pi/2 BPSK 0 7560 24 2 2 32076 32076 270 11 pi/2 BPSK 0 8448 24 2 3 35640 35640 3GPP TS 38.521-1 version 19.2.0 Release 19 2166 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 6.1.4.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. Table A.2.2.1-2: Void Table A.2.2.1-3: Void A.2.2.2 DFT-s-OFDM QPSK Table A.2.2.2-1: Reference Channels for DFT-s-OFDM QPSK Parameter Allocated resource blocks (LCRB) DFT-s- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 1 11 QPSK 2 48 16 2 1 264 132 5 11 QPSK 2 256 16 2 1 1320 660 9 11 QPSK 2 456 16 2 1 2376 1188 10 11 QPSK 2 504 16 2 1 2640 1320 12 11 QPSK 2 608 16 2 1 3168 1584 15 11 QPSK 2 768 16 2 1 3960 1980 18 11 QPSK 2 928 16 2 1 4752 2376 20 11 QPSK 2 1032 16 2 1 5280 2640 24 11 QPSK 2 1192 16 2 1 6336 3168 25 11 QPSK 2 1256 16 2 1 6600 3300 30 11 QPSK 2 1544 16 2 1 7920 3960 32 11 QPSK 2 1608 16 2 1 8448 4224 36 11 QPSK 2 1800 16 2 1 9504 4752 45 11 QPKS 2 2208 16 2 1 11880 5940 50 11 QPSK 2 2472 16 2 1 13200 6600 60 11 QPSK 2 3104 16 2 1 15840 7920 64 11 QPSK 2 3240 16 2 1 16896 8448 75 11 QPSK 2 3752 16 2 1 19800 9900 80 11 QPSK 2 3976 24 2 2 21120 10560 81 11 QPSK 2 4040 24 2 2 21384 10692 3GPP TS 38.521-1 version 19.2.0 Release 19 2167 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 90 11 QPSK 2 4488 24 2 2 23760 11880 100 11 QPSK 2 5000 24 2 2 26400 13200 108 11 QPSK 2 5384 24 2 2 28512 14256 120 11 QPSK 2 5896 24 2 2 31680 15840 128 11 QPSK 2 6408 24 2 2 33792 16896 135 11 QPSK 2 6664 24 2 2 35640 17820 160 11 QPSK 2 7944 24 2 3 42240 21120 162 11 QPSK 2 8064 24 2 3 42768 21384 180 11 QPSK 2 8976 24 2 3 47520 23760 216 11 QPSK 2 10752 24 2 3 57024 28512 243 11 QPSK 2 12040 24 2 4 64152 32076 270 11 QPSK 2 13320 24 2 4 71280 35640 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 6.1.4.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. Table A.2.2.2-2: Void Table A.2.2.2-3: Void A.2.2.3 DFT-s-OFDM 16QAM Table A.2.2.3-1: Reference Channels for DFT-s-OFDM 16QAM Parameter Allocated resource blocks (LCRB) DFT-s- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 1 11 16QAM 10 176 16 2 1 528 132 5 11 16QAM 10 888 16 2 1 2640 660 9 11 16QAM 10 1608 16 2 1 4752 1188 10 11 16QAM 10 1800 16 2 1 5280 1320 12 11 16QAM 10 2088 16 2 1 6336 1584 15 11 16QAM 10 2664 16 2 1 7920 1980 18 11 16QAM 10 3240 16 2 1 9504 2376 24 11 16QAM 10 4224 24 1 1 12672 3168 25 11 16QAM 10 4352 24 1 1 13200 3300 3GPP TS 38.521-1 version 19.2.0 Release 19 2168 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 30 11 16QAM 10 5248 24 1 1 15840 3960 32 11 16QAM 10 5632 24 1 1 16896 4224 36 11 16QAM 10 6272 24 1 1 19008 4752 45 11 16QAM 10 7808 24 1 1 23760 5940 50 11 16QAM 10 8712 24 1 2 26400 6600 60 11 16QAM 10 10504 24 1 2 31680 7920 64 11 16QAM 10 11272 24 1 2 33792 8448 75 11 16QAM 10 13064 24 1 2 39600 9900 80 11 16QAM 10 14088 24 1 2 42240 10560 81 11 16QAM 10 14088 24 1 2 42768 10692 90 11 16QAM 10 15880 24 1 2 47520 11880 100 11 16QAM 10 17424 24 1 3 52800 13200 108 11 16QAM 10 18960 24 1 3 57024 14256 120 11 16QAM 10 21000 24 1 3 63360 15840 128 11 16QAM 10 22536 24 1 3 67584 16896 135 11 16QAM 10 23568 24 1 3 71280 17820 160 11 16QAM 10 28168 24 1 4 84480 21120 162 11 16QAM 10 28168 24 1 4 85536 21384 180 11 16QAM 10 31752 24 1 4 95040 23760 216 11 16QAM 10 37896 24 1 5 114048 28512 243 11 16QAM 10 43032 24 1 6 128304 32076 270 11 16QAM 10 47112 24 1 6 142560 35640 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 6.1.4.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. Table A.2.2.3-2: Void Table A.2.2.3-3: Void A.2.2.4 DFT-s-OFDM 64QAM Table A.2.2.4-1: Reference Channels for DFT-s-OFDM 64QAM Parameter Allocated resource blocks (LCRB) DFT-s- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot 3GPP TS 38.521-1 version 19.2.0 Release 19 2169 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Unit Bits Bits Bits 1 11 64QAM 18 408 16 2 1 792 132 5 11 64QAM 18 2024 16 2 1 3960 660 9 11 64QAM 18 3624 16 2 1 7128 1188 10 11 64QAM 18 3968 24 1 1 7920 1320 12 11 64QAM 18 4736 24 1 1 9504 1584 15 11 64QAM 18 6016 24 1 1 11880 1980 18 11 64QAM 18 7168 24 1 1 14256 2376 24 11 64QAM 18 9480 24 1 2 19008 3168 25 11 64QAM 18 9992 24 1 2 19800 3300 30 11 64QAM 18 12040 24 1 2 23760 3960 32 11 64QAM 18 12808 24 1 2 25344 4224 36 11 64QAM 18 14344 24 1 2 28512 4752 45 11 64QAM 18 17928 24 1 3 35640 5940 50 11 64QAM 18 19968 24 1 3 39600 6600 60 11 64QAM 18 24072 24 1 3 47520 7920 64 11 64QAM 18 25608 24 1 4 50688 8448 75 11 64QAM 18 30216 24 1 4 59400 9900 80 11 64QAM 18 31752 24 1 4 63360 10560 81 11 64QAM 18 32264 24 1 4 64152 10692 90 11 64QAM 18 35856 24 1 5 71280 11880 108 11 64QAM 18 43032 24 1 6 85536 14256 100 11 64QAM 18 39936 24 1 5 79200 13200 120 11 64QAM 18 48168 24 1 6 95040 15840 128 11 64QAM 18 51216 24 1 7 101376 16896 135 11 64QAM 18 54296 24 1 7 106920 17820 160 11 64QAM 18 63528 24 1 8 126720 21120 162 11 64QAM 18 64552 24 1 8 128304 21384 180 11 64QAM 18 71688 24 1 9 142560 23760 216 11 64QAM 18 86040 24 1 11 171072 28512 243 11 64QAM 18 96264 24 1 12 192456 32076 270 11 64QAM 18 108552 24 1 13 213840 35640 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 6.1.4.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. 3GPP TS 38.521-1 version 19.2.0 Release 19 2170 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.2.2.4-2: Void Table A.2.2.4-3: Void A.2.2.5 DFT-s-OFDM 256QAM Table A.2.2.5-1: Reference Channels for DFT-s-OFDM 256QAM Parameter Allocated resource blocks (LCRB) DFT-s- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 1 11 256QAM 20 704 16 2 1 1056 132 5 11 256QAM 20 3496 16 2 1 5280 660 9 11 256QAM 20 6272 24 1 1 9504 1188 10 11 256QAM 20 7040 24 1 1 10560 1320 12 11 256QAM 20 8456 24 1 2 12672 1584 15 11 256QAM 20 10504 24 1 2 15840 1980 18 11 256QAM 20 12552 24 1 2 19008 2376 24 11 256QAM 20 16896 24 1 3 25344 3168 25 11 256QAM 20 17424 24 1 3 26400 3300 30 11 256QAM 20 21000 24 1 3 31680 3960 32 11 256QAM 20 22536 24 1 3 33792 4224 36 11 256QAM 20 25104 24 1 3 38016 4752 45 11 256QAM 20 31752 24 1 4 47520 5940 50 11 256QAM 20 34816 24 1 5 52800 6600 60 11 256QAM 20 42016 24 1 5 63360 7920 64 11 256QAM 20 45096 24 1 6 67584 8448 75 11 256QAM 20 53288 24 1 7 79200 9900 80 11 256QAM 20 56368 24 1 7 84480 10560 81 11 256QAM 20 57376 24 1 7 85536 10692 90 11 256QAM 20 63528 24 1 8 95040 11880 108 11 256QAM 20 75792 24 1 9 114048 14256 100 11 256QAM 20 69672 24 1 9 105600 13200 120 11 256QAM 20 83976 24 1 10 126720 15840 128 11 256QAM 20 90176 24 1 11 135168 16896 135 11 256QAM 20 94248 24 1 12 142560 17820 160 11 256QAM 20 112648 24 1 14 168960 21120 162 11 256QAM 20 114776 24 1 14 171072 21384 180 11 256QAM 20 127080 24 1 16 190080 23760 3GPP TS 38.521-1 version 19.2.0 Release 19 2171 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 216 11 256QAM 20 151608 24 1 18 228096 28512 243 11 256QAM 20 172176 24 1 21 256608 32076 270 11 256QAM 20 188576 24 1 23 285120 35640 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-2 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. Table A.2.2.5-2: Void Table A.2.2.5-3: Void A.2.2.6 CP-OFDM QPSK Table A.2.2.6-1: Reference Channels for CP-OFDM QPSK Parameter Allocated resource blocks (LCRB) CP- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 1 11 QPSK 2 48 16 2 1 264 132 5 11 QPSK 2 256 16 2 1 1320 660 6 11 QPSK 2 304 16 2 1 1584 792 9 11 QPSK 2 456 16 2 1 2376 1188 10 11 QPSK 2 504 16 2 1 2640 1320 11 11 QPSK 2 552 16 2 1 2904 1452 12 11 QPSK 2 608 16 2 1 3168 1584 13 11 QPSK 2 672 16 2 1 3432 1716 15 11 QPSK 2 768 16 2 1 3960 1980 16 11 QPSK 2 808 16 2 1 4224 2112 18 11 QPSK 2 928 16 2 1 4752 2376 19 11 QPSK 2 984 16 2 1 5016 2508 24 11 QPSK 2 1192 16 2 1 6336 3168 25 11 QPSK 2 1256 16 2 1 6600 3300 26 11 QPSK 2 1288 16 2 1 6864 3432 31 11 QPSK 2 1544 16 2 1 8184 4092 33 11 QPSK 2 1672 16 2 1 8712 4356 38 11 QPSK 2 1928 16 2 1 10032 5016 3GPP TS 38.521-1 version 19.2.0 Release 19 2172 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 39 11 QPSK 2 2024 16 2 1 10296 5148 40 11 QPSK 2 2024 16 2 1 10560 5280 47 11 QPSK 2 2408 16 2 1 12408 6204 51 11 QPSK 2 2536 16 2 1 13464 6732 52 11 QPSK 2 2600 16 2 1 13728 6864 53 11 QPSK 2 2664 16 2 1 13992 6996 54 11 QPSK 2 2664 16 2 1 14256 7128 61 11 QPSK 2 3104 16 2 1 16104 8052 65 11 QPSK 2 3240 16 2 1 17160 8580 67 11 QPSK 2 3368 16 2 1 17688 8844 68 11 QPSK 2 3368 16 2 1 17952 8976 78 11 QPSK 2 3848 24 2 2 20592 10296 79 11 QPSK 2 3912 24 2 2 20856 10428 80 11 QPSK 2 3976 24 2 2 21120 10560 81 11 QPSK 2 4040 24 2 2 21384 10692 93 11 QPSK 2 4616 24 2 2 24552 12276 95 11 QPSK 2 4744 24 2 2 25080 12540 106 11 QPSK 2 5256 24 2 2 27984 13992 107 11 QPSK 2 5256 24 2 2 28248 14124 108 11 QPSK 2 5384 24 2 2 28512 14256 109 11 QPSK 2 5384 24 2 2 28776 14388 121 11 QPSK 2 6024 24 2 2 31944 15972 123 11 QPSK 2 6152 24 2 2 32472 16236 133 11 QPSK 2 6664 24 2 2 35112 17556 135 11 QPSK 2 6664 24 2 2 35640 17820 137 11 QPSK 2 6792 24 2 2 36168 18084 160 11 QPSK 2 7944 24 2 3 42240 21120 162 11 QPSK 2 8064 24 2 3 42768 21384 189 11 QPSK 2 9480 24 2 3 49896 24948 216 11 QPSK 2 10752 24 2 3 57024 28512 217 11 QPSK 2 10752 24 2 3 57288 28644 245 11 QPSK 2 12296 24 2 4 64680 32340 270 11 QPSK 2 13320 24 2 4 71280 35640 273 11 QPSK 2 13576 24 2 4 72072 36036 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. 3GPP TS 38.521-1 version 19.2.0 Release 19 2173 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.2.2.6-1a: Reference Channels for CP-OFDM QPSK for shared spectrum access Parameter Allocated resource blocks CP- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 11 11 QPSK 2 552 16 2 1 2904 1452 22 11 QPSK 2 1128 16 2 1 5808 2904 33 11 QPSK 2 1672 16 2 1 8712 4356 44 11 QPSK 2 2216 16 2 1 11616 5808 51 11 QPSK 2 2536 16 2 1 13464 6732 106 11 QPSK 2 5256 24 2 2 27984 13992 162 11 QPSK 2 8064 24 2 3 42768 21384 216 11 QPSK 2 10752 24 2 3 57024 28512 217 11 QPSK 2 10752 24 2 3 57288 28644 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where allocated resource blocks ≤ NRB. Table A.2.2.6-2: Void Table A.2.2.6-2: Void Table A.2.2.6-3: Void A.2.2.7 CP-OFDM 16QAM Table A.2.2.7-1: Reference Channels for CP-OFDM 16QAM Parameter Allocated resource blocks (LCRB) CP- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 3GPP TS 38.521-1 version 19.2.0 Release 19 2174 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 1 11 16QAM 10 176 16 2 1 528 132 5 11 16QAM 10 888 16 2 1 2640 660 6 11 16QAM 10 1064 16 2 1 3168 792 9 11 16QAM 10 1608 16 2 1 4752 1188 10 11 16QAM 10 1800 16 2 1 5280 1320 11 11 16QAM 10 1928 16 2 1 5808 1452 12 11 16QAM 10 2088 16 2 1 6336 1584 13 11 16QAM 10 2280 16 2 1 6864 1716 15 11 16QAM 10 2664 16 2 1 7920 1980 16 11 16QAM 10 2792 16 2 1 8448 2112 18 11 16QAM 10 3240 16 2 1 9504 2376 19 11 16QAM 10 3368 16 2 1 10032 2508 24 11 16QAM 10 4224 24 1 1 12672 3168 25 11 16QAM 10 4352 24 1 1 13200 3300 26 11 16QAM 10 4480 24 1 1 13728 3432 31 11 16QAM 10 5376 24 1 1 16368 4092 33 11 16QAM 10 5760 24 1 1 17424 4356 38 11 16QAM 10 6656 24 1 1 20064 5016 39 11 16QAM 10 6784 24 1 1 20592 5148 40 11 16QAM 10 7040 24 1 1 21120 5280 47 11 16QAM 10 8192 24 1 1 24816 6204 51 11 16QAM 10 8968 24 1 2 26928 6732 52 11 16QAM 10 9224 24 1 2 27456 6864 53 11 16QAM 10 9224 24 1 2 27984 6996 54 11 16QAM 10 9480 24 1 2 28512 7128 61 11 16QAM 10 10760 24 1 2 32208 8052 65 11 16QAM 10 11272 24 1 2 34320 8580 67 11 16QAM 10 11784 24 1 2 35376 8844 68 11 16QAM 10 11784 24 1 2 35904 8976 78 11 16QAM 10 13576 24 1 2 41184 10296 79 11 16QAM 10 13832 24 1 2 41712 10428 80 11 16QAM 10 14088 24 1 2 42240 10560 81 11 16QAM 10 14088 24 1 2 42768 10692 93 11 16QAM 10 16392 24 1 2 49404 12276 95 11 16QMA 10 16392 24 1 2 50160 12540 106 11 16QAM 10 18432 24 1 3 55968 13992 107 11 16QAM 10 18960 24 1 3 56496 14124 108 11 16QAM 10 18960 24 1 3 57024 14256 109 11 16QAM 10 18960 24 1 3 57552 14388 121 11 16QAM 10 21000 24 1 3 63888 15972 123 11 16QAM 10 21504 24 1 3 64944 16236 133 11 16QAM 10 23040 24 1 3 70224 17556 135 11 16QAM 10 23568 24 1 3 71280 17820 137 11 16QAM 10 24072 24 1 3 72336 18084 3GPP TS 38.521-1 version 19.2.0 Release 19 2175 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 160 11 16QAM 10 28168 24 1 4 84480 21120 162 11 16QAM 10 28168 24 1 4 85536 21384 189 11 16QAM 10 32776 24 1 4 99792 24948 216 11 16QAM 10 37896 24 1 5 114048 28512 217 11 16QAM 10 37896 24 1 5 114576 28644 245 11 16QAM 10 43032 24 1 6 129360 32340 270 11 16QAM 10 47112 24 1 6 142560 35640 273 11 16QAM 10 48168 24 1 6 144144 36036 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. Table A.2.2.7-1a: Reference Channels for CP-OFDM 16QAM for shared spectrum access Parameter Allocated resource blocks CP- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 11 11 16QAM 10 1928 16 2 1 5808 1452 22 11 16QAM 10 3840 16 2 1 11616 2904 33 11 16QAM 10 5760 24 1 1 17424 4356 44 11 16QAM 10 7680 24 1 1 23232 5808 51 11 16QAM 10 8968 24 1 2 26928 6732 106 11 16QAM 10 18432 24 1 3 55968 13992 162 11 16QAM 10 28168 24 1 4 85536 21384 216 11 16QAM 10 37896 24 1 5 114048 28512 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where allocated resource blocks ≤ NRB Table A.2.2.7-2: Void Table A.2.2.7-3: Void 3GPP TS 38.521-1 version 19.2.0 Release 19 2176 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A.2.2.8 CP-OFDM 64QAM Table A.2.2.8-1: Reference Channels for CP-OFDM 64QAM Parameter Allocated resource blocks (LCRB) CP- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 1 11 64QAM 19 408 16 2 1 792 132 5 11 64QAM 19 2024 16 2 1 3960 660 9 11 64QAM 19 3624 16 2 1 7128 1188 10 11 64QAM 19 3968 24 1 1 7920 1320 11 11 64QAM 19 4352 24 1 1 8712 1452 12 11 64QAM 19 4736 24 1 1 9504 1584 13 11 64QAM 19 5120 24 1 1 10296 1716 15 11 64QAM 19 6016 24 1 1 11880 1980 18 11 64QAM 19 7168 24 1 1 14256 2376 19 11 64QAM 19 7552 24 1 15048 2508 24 11 64QAM 19 9480 24 1 2 19008 3168 25 11 64QAM 19 9992 24 1 2 19800 3300 26 11 64QAM 19 10504 24 1 2 20592 3432 31 11 64QAM 19 12296 24 1 2 24552 4092 33 11 64QAM 19 13064 24 1 2 26136 4356 38 11 64QAM 19 15112 24 1 2 30096 5016 39 11 64QAM 19 15624 24 1 2 30888 5148 47 11 64QAM 19 18960 24 1 3 37224 6204 51 11 64QAM 19 20496 24 1 3 40392 6732 52 11 64QAM 19 21000 24 1 3 41184 6864 53 11 64QAM 19 21000 24 1 3 41976 6996 61 11 64QAM 19 24567 24 1 3 48312 8052 65 11 64QAM 19 26120 24 1 4 51480 8580 67 11 64QAM 19 26632 24 1 4 53064 8844 78 11 64QAM 19 31240 24 1 4 61776 10296 79 11 64QAM 19 31752 24 1 4 62568 10428 80 11 64QAM 19 31752 24 1 4 63360 10560 81 11 64QAM 19 32264 24 1 4 64152 10692 93 11 64QAM 19 36896 24 1 5 73656 12276 95 11 64QAM 19 37896 24 1 5 75240 12540 106 11 64QAM 19 42016 24 1 5 83952 13992 107 11 64QAM 19 43032 24 1 6 84744 14124 108 11 64QAM 19 43032 24 1 6 85536 14256 109 11 64QAM 19 44040 24 1 6 86328 14388 3GPP TS 38.521-1 version 19.2.0 Release 19 2177 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 121 11 64QAM 19 48168 24 1 6 95832 15972 123 11 64QAM 19 49176 24 1 6 97416 16236 133 11 64QAM 19 53288 24 1 7 105336 17556 135 11 64QAM 19 54296 24 1 7 106920 17820 137 11 64QAM 19 54296 24 1 7 108504 18084 160 11 64QAM 19 63528 24 1 8 126720 21120 162 11 64QAM 19 64552 24 1 8 128304 21384 189 11 64QAM 19 75792 24 1 9 149688 24948 216 11 64QAM 19 86040 24 1 11 171072 28512 217 11 64QAM 19 86040 24 1 11 171864 28644 245 11 64QAM 19 98376 24 1 12 194040 32340 270 11 64QAM 19 108552 24 1 13 213840 35640 273 11 64QAM 19 108552 24 1 13 216216 36036 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. Table A.2.2.8-1a: Reference Channels for CP-OFDM 64QAM for shared spectrum access Parameter Allocated resource blocks CP- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 11 11 64QAM 19 4352 24 1 1 8712 1452 22 11 64QAM 19 8712 24 1 2 17424 2904 33 11 64QAM 19 13064 24 1 2 26136 4356 44 11 64QAM 19 17424 24 1 3 34848 5808 51 11 64QAM 19 20496 24 1 3 40392 6732 106 11 64QAM 19 42016 24 1 5 83952 13992 162 11 64QAM 19 64552 24 1 8 128304 21384 216 11 64QAM 19 86040 24 1 11 171072 28512 217 11 64QAM 19 86040 24 1 11 171864 28644 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-1 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where allocated resource blocks ≤ NRB 3GPP TS 38.521-1 version 19.2.0 Release 19 2178 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.2.2.8-2: Void Table A.2.2.8-3: Void A.2.2.9 CP-OFDM 256QAM Table A.2.2.9-1: Reference Channels for CP-OFDM 256QAM Parameter Allocated resource blocks (LCRB) DFT-s- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 1 11 256QAM 20 704 16 2 1 1056 132 5 11 256QAM 20 3496 16 2 1 5280 660 9 11 256QAM 20 6272 24 1 1 9504 1188 10 11 256QAM 20 7040 24 1 1 10560 1320 11 11 256QAM 20 7680 24 1 1 11616 1452 12 11 256QAM 20 8456 24 1 2 12672 1584 13 11 256QAM 20 9224 24 1 2 13728 1716 15 11 256QAM 20 10504 24 1 2 15840 1980 18 11 256QAM 20 12552 24 1 2 19008 2376 19 11 256QAM 20 13320 24 1 2 20064 2508 24 11 256QAM 20 16896 24 1 3 25344 3168 25 11 256QAM 20 17424 24 1 3 26400 3300 26 11 256QAM 20 18432 24 1 3 27456 3432 31 11 256QAM 20 22032 24 1 3 32736 4092 33 11 256QAM 20 23040 24 1 3 34848 4356 38 11 256QAM 20 26632 24 1 4 40128 5016 39 11 256QAM 20 27656 24 1 4 41184 5148 47 11 256QAM 20 32776 24 1 4 49632 6204 51 11 256QAM 20 35856 24 1 5 53856 6732 52 11 256QAM 20 36896 24 1 5 54912 6864 53 11 256QAM 20 36896 24 1 5 55968 6996 61 11 256QAM 20 43032 24 1 6 64416 8052 65 11 256QAM 20 46104 24 1 6 68640 8580 67 11 256QAM 20 47112 24 1 6 70752 8844 78 11 256QAM 20 55304 24 1 7 82368 10296 79 11 256QAM 20 55304 24 1 7 83424 10428 80 11 256QAM 20 56368 24 1 7 84480 10560 81 11 256QAM 20 57376 24 1 7 85536 10692 3GPP TS 38.521-1 version 19.2.0 Release 19 2179 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 93 11 256QAM 20 65576 24 1 8 98208 12276 95 11 256QAM 20 67584 24 1 8 100320 12540 106 11 256QAM 20 73776 24 1 9 111936 13992 107 11 256QAM 20 75792 24 1 9 112992 14124 108 11 256QAM 20 75792 24 1 9 114048 14256 109 11 256QAM 20 75792 24 1 9 115104 14388 121 11 256QAM 20 86040 24 1 11 127776 15972 123 11 256QAM 20 86040 24 1 11 129888 16236 133 11 256QAM 20 94248 24 1 12 140448 17556 135 11 256QAM 20 94248 24 1 12 142560 17820 137 11 256QAM 20 96264 24 1 12 144672 18084 160 11 256QAM 20 112648 24 1 14 168960 21120 162 11 256QAM 20 114776 24 1 14 171072 21384 189 11 256QAM 20 131176 24 1 16 199584 24948 216 11 256QAM 20 151608 24 1 18 228096 28512 217 11 256QAM 20 151608 24 1 18 229152 28644 245 11 256QAM 20 172176 24 1 21 258720 32340 270 11 256QAM 20 188576 24 1 23 285120 35640 273 11 256QAM 20 192624 24 1 23 288288 36036 NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-2 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where LCRB ≤ NRB. Table A.2.2.9-1a: Reference Channels for CP-OFDM 256QAM for shared spectrum access Parameter Allocated resource blocks DFT-s- OFDM Symbols per slot (Note 1) Modulation MCS Index (Note 2) Payload size Transport block CRC LDPC Base Graph Number of code blocks per slot (Note 3) Total number of bits per slot Total modulated symbols per slot Unit Bits Bits Bits 11 11 256QAM 20 7680 24 1 1 11616 1452 22 11 256QAM 20 15368 24 1 2 23232 2904 33 11 256QAM 20 23040 24 1 3 34848 4356 44 11 256QAM 20 30728 24 1 4 46464 5808 51 11 256QAM 20 35856 24 1 5 53856 6732 106 11 256QAM 20 73776 24 1 9 111936 13992 162 11 256QAM 20 114776 24 1 14 171072 21384 216 11 256QAM 20 151608 24 1 18 228096 28512 217 11 256QAM 20 151608 24 1 18 229152 28644 3GPP TS 38.521-1 version 19.2.0 Release 19 2180 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 1: PUSCH mapping Type-A and single-symbol DM-RS configuration Type-1 with 2 additional DM-RS symbols, such that the DM-RS positions are set to symbols 2, 7, 11. DMRS is [TDM'ed] with PUSCH data. DM-RS symbols are not counted. NOTE 2: MCS Index is based on MCS table 5.1.3.1-2 defined in TS 38.214 [10]. NOTE 3: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) NOTE 4: The RMCs apply to all channel bandwidth where allocated resource blocks ≤ NRB Table A.2.2.9-2: Void Table A.2.2.9-3: Void 3GPP TS 38.521-1 version 19.2.0 Release 19 2181 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A.2.3 Reference measurement channels for TDD The TDD UL RMCs are defined in clause A.2.2 with the active UL slots specified in table A.2.1-1 and TDD slot patterns as defined for reference sensitivity tests. A.2.3.1 DFT-s-OFDM Pi/2-BPSK Void A.2.3.2 DFT-s-OFDM QPSK Void A.2.3.3 DFT-s-OFDM 16QAM Void A.2.3.4 DFT-s-OFDM 64QAM Void A.2.3.5 DFT-s-OFDM 256QAM Void A.2.3.6 CP-OFDM QPSK Void A.2.3.7 CP-OFDM 16QAM Void A.2.3.8 CP-OFDM 64QAM Void A.2.3.9 CP-OFDM 256QAM Void A.3 DL reference measurement channels A.3.1 General Unless otherwise stated, Tables A.3.2.2-1, A.3.2.2-2, A.3.2.2-3, A.3.3.2-1, A.3.3.2-2 and A.3.3.2-3 are applicable for measurements of the Receiver Characteristics (clause 7) with the exception of subclauses 7.4 (Maximum input level). Unless otherwise stated, Tables A.3.2.3-1, A.3.2.3-2, A.3.2.3-3, A.3.3.3-1, A.3.3.3-2 and A.3.3.3-3 are applicable for subclauses 7.4 (Maximum input level) and for UE not supporting PDSCH 256QAM, Unless otherwise stated, Tables A.3.2.4-1, A.3.2.4-2, A.3.2.4-3, A.3.3.4-1, A.3.3.4-2 and A.3.3.4-3 are applicable for subclauses 7.4 (Maximum input level) and for UE supporting PDSCH 256QAM, Unless otherwise stated, Tables A.3.2.2-1, A.3.2.2-2, A.3.2.2-3, A.3.3.2-1, A.3.3.2-2 and A.3.3.2-3 also apply for the modulated interferer used in Clauses 7.5, 7.6 and 7.8 with test specific bandwidths. In case of carrier aggregation scenarios, the k1 values and number of HARQ processes of the Reference Measurement Channels specified in Annex A.3 shall be adapted as specified in table A.3.1-2 and A.3.1-3. 3GPP TS 38.521-1 version 19.2.0 Release 19 2182 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.3.1-1: Common reference channel parameters Parameter Unit Value CORESET frequency domain allocation Full BW CORESET time domain allocation 2 OFDM symbols at the begin of each slot PDSCH mapping type Type A PDSCH start symbol index (S) 2 Number of consecutive PDSCH symbols (L) 12 PDSCH PRB bundling PRBs 2 Dynamic PRB bundling false Overhead value for TBS determination 0 First DMRS position for Type A PDSCH mapping 2 DMRS type Type 1 Number of additional DMRS 2 FDM between DMRS and PDSCH Disable CSI-RS for tracking First subcarrier index in the PRB used for CSI-RS (k0) 0 for CSI-RS resource 1,2,3,4 OFDM symbols in the PRB used for CSI-RS l0 = 6 for CSI-RS resource 1 and 3 l0 = 10 for CSI-RS resource 2 and 4 Number of CSI-RS ports 1 for CSI-RS resource 1,2,3,4 CDM Type 'No CDM' for CSI-RS resource 1,2,3,4 Density (ρ) 3 for CSI-RS resource 1,2,3,4 CSI-RS periodicity Slots 15 kHz SCS: 20 for CSI-RS resource 1,2,3,4 30 kHz SCS: 40 for CSI-RS resource 1,2,3,4 60 kHz SCS: 80 for CSI-RS resource 1,2,3,4 CSI-RS offset Slots 15 kHz SCS: 0 for CSI-RS resource 1 and 2 1 for CSI-RS resource 3 and 4 30 kHz SCS: 1 for CSI-RS resource 1 and 2 2 for CSI-RS resource 3 and 4 60 kHz SCS: 2 for CSI-RS resource 1 and 2 3 for CSI-RS resource 3 and 4 Frequency Occupation Start PRB 0 Number of PRB = BWP size QCL info TCI state #0 PTRS configuration PTRS is not configured Table A.3.1-2: Carrier aggregation test parameters for K1 values The number of slots between PDSCH and corresponding HARQ-ACK information CCs with the same duplex mode and SCS with Pcell CCs with different duplex mode and/or SCS with Pcell FDD 15 kHz + FDD PCell {2} N/A FDD 15 kHz CA FDD 15 kHz + 15kHz PCell {2} {3} FDD 30 kHz CA 30kHz PCell {2} {2} FDD 15 kHz + FDD PCell {2} {2} TDD 15 kHz CA TDD PCell {4,3,2} {4,3,2,6,5} FDD 15 kHz + FDD PCell {2} {3} TDD 30 kHz CA TDD PCell {8,7,6,5,4,3,2} {8,6,4,2,10} TDD 15 kHz + TDD PCell {4,3,2} N/A TDD 15 kHz CA TDD 15 kHz + 15kHz PCell {4,3,2} {4,4,3,3,2,7,6} 3GPP TS 38.521-1 version 19.2.0 Release 19 2183 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI TDD 30 kHz CA 30kHz PCell {8,7,6,5,4,3,2} {7,5,4} FDD 30 kHz + FDD PCell {2} N/A FDD 30 kHz CA FDD 30 kHz + FDD PCell {2} {2} TDD 15 kHz CA TDD PCell {4,3,2} {4,4,3,3,7,7,6,6,5,5} FDD 30 kHz + FDD PCell {2} {2} TDD 30 kHz CA TDD PCell {8,7,6,5,4,3,2} {8,7,6,5,4,3,2,2,10,-} (NOTE 1) TDD 30 kHz + TDD PCell {8,7,6,5,4,3,2} N/A TDD 30 kHz CA NOTE 1: No PDSCH shall be scheduled in slots 9 and 19 to avoid HARQ conflicts and maximize Throughput. Hence no K1 value is applicable for them. Table A.3.1-3: Carrier Aggregation test parameters for number of HARQ processes HARQ process number CCs with the same duplex mode and SCS with Pcell CCs with different duplex mode and/or SCS with Pcell FDD 15 kHz + FDD PCell 4 N/A FDD 15 kHz CA FDD 15 kHz + 15kHz PCell 8 8 FDD 30 kHz CA 30kHz PCell 8 8 FDD 15 kHz + FDD PCell 4 8 TDD 15 kHz CA TDD PCell 8 8 FDD 15 kHz + FDD PCell 4 8 TDD 30 kHz CA TDD PCell 10 8 TDD 15 kHz + TDD PCell 8 N/A TDD 15 kHz CA TDD 15 kHz + 15kHz PCell 8 12 TDD 30 kHz CA 30kHz PCell 8 8 FDD 30 kHz + FDD PCell 8 N/A FDD 30 kHz CA FDD 30 kHz + FDD PCell 8 8 TDD 15 kHz CA TDD PCell 8 16 FDD 30 kHz + FDD PCell 8 8 TDD 30 kHz CA TDD PCell 8 16 TDD 30 kHz + TDD PCell 8 N/A TDD 30 kHz CA A.3.2 DL reference measurement channels for FDD A.3.2.1 General Table A.3.2.1-1: Additional reference channels parameters for FDD Parameter Unit Value Number of HARQ Processes 4 K1 value 2 for all slots 3GPP TS 38.521-1 version 19.2.0 Release 19 2184 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A.3.2.2 FRC for receiver requirements for QPSK Table A.3.2.2-1: Fixed reference channel for receiver requirements (SCS 15 kHz, FDD, QPSK 1/3) Parameter Unit Value Channel bandwidth MHz 3 5, 10, 15, 20 (Note 5) 10 15 20 25 30 40 50 Subcarrier spacing kHz 15 15 15 15 15 15 15 15 15 Subcarrier spacing configuration μ 0 0 0 0 0 0 0 0 0 Allocated resource blocks 15 25 52 79 106 133 160 216 270 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 8 8 8 8 8 8 8 8 8 MCS Index 4 4 4 4 4 4 4 4 4 MCS Table for TBS determination 64QAM Modulation QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK Target Coding Rate 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 Bits 984 1672 3368 5120 6912 8712 10504 14088 17424 Transport block CRC Bits 16 16 16 24 24 24 24 24 24 LDPC base graph 2 2 2 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 CBs 1 1 1 1 1 2 2 2 3 Binary Channel Bits per Slot For Slots 0,1 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 Bits 3240 5400 11232 17064 22896 28728 34560 46656 58320 Max. Throughput averaged over 1 frame Mbps 0.787 1.338 2.694 4.096 5.530 6.970 8.403 11.270 13.9392 Note 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. Note 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). Note 3: SS/PBCH block is transmitted in slot #0 of each frame. Note 4: Slot i is slot index per frame. Note 5: Channel bandwidths 10, 15, and 20 MHz in this column only apply to UEs supporting IE supportOfERedCap-r18 but not eRedCapNotReducedBB-BW-r18. 3GPP TS 38.521-1 version 19.2.0 Release 19 2185 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.3.2.2-2: Fixed reference channel for receiver requirements (SCS 30 kHz, FDD, QPSK 1/3) Parameter Unit Value Channel bandwidth MHz 10 10, 15, 20 (Note 5) 15 20 25 30 40 50 60 80 90 100 Subcarrier spacing configuration μ 1 1 1 1 1 1 1 1 1 1 1 1 Allocated resource blocks 24 12 38 51 65 78 106 133 162 217 245 273 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 17 17 17 17 17 17 17 17 17 17 17 17 MCS Index 4 4 4 4 4 4 4 4 4 4 4 4 MCS Table for TBS determination 64QAM Modulation QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK Target Coding Rate 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 Bits 1608 808 2472 3368 4224 4992 6912 8712 10504 14088 15880 17928 Transport block CRC Bits 16 16 16 16 24 24 24 24 24 24 24 24 LDPC base graph 2 2 2 2 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 CBs 1 1 1 1 1 1 1 2 2 2 2 3 Binary Channel Bits per Slot For Slots 0,1,2 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 Bits 5184 2592 8208 11016 14040 16848 22896 28728 34992 46872 52920 58968 Max. Throughput averaged over 1 frame Mbps 2.734 1.374 4.202 5.726 7.181 8.486 11.750 14.810 17.857 23.950 26.996 30.478 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot #0 of each frame NOTE 4: Slot i is slot index per frame NOTE 5: Channel bandwidths 10, 15, and 20 MHz in this column only apply to UEs supporting IE supportOfERedCap-r18 but not eRedCapNotReducedBB-BW-r18. Table A.3.2.2-3: Fixed reference channel for receiver requirements (SCS 60 kHz, FDD, QPSK 1/3) Parameter Unit Value Channel bandwidth MHz 10 15 20 25 30 40 50 60 80 90 100 Subcarrier spacing configuration μ 2 2 2 2 2 2 2 2 2 2 2 Allocated resource blocks 11 18 24 31 38 51 65 79 107 121 135 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 36 36 36 36 36 36 36 36 36 36 36 3GPP TS 38.521-1 version 19.2.0 Release 19 2186 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI MCS Index 4 4 4 4 4 4 4 4 4 4 4 MCS Table for TBS Determination 64QAM Modulation QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK Target Coding Rate 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2,3 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 Bits 736 1192 1608 2024 2472 3368 4224 5120 6912 7808 8712 Transport block CRC Bits 16 16 16 16 16 16 24 24 24 24 24 LDPC base graph 2 2 2 2 2 2 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2,3 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 CBs 1 1 1 1 1 1 1 1 1 1 2 Binary Channel Bits per Slot For Slots 0,1,2,3 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 Bits 2376 3888 5184 6696 8208 11016 14040 17064 23112 26136 29160 Max. Throughput averaged over 1 frame Mbps 2.650 4.291 5.789 7.286 8.899 12.125 15.206 18.432 24.883 28.109 31.363 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot #0 of each frame. NOTE 4: Slot i is slot index per frame. 3GPP TS 38.521-1 version 19.2.0 Release 19 2187 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A.3.2.3 FRC for maximum input level for 64QAM Table A.3.2.3-1: Fixed reference channel for maximum input level receiver requirements (SCS 15 kHz, FDD, 64QAM) Parameter Unit Value Channel bandwidth MHz 3 5, 10,15, 20 (Note 5) 5 10 15 20 25 30 40 50 Subcarrier spacing kHz 15 15 15 15 15 15 15 15 15 15 Subcarrier spacing configuration μ 0 0 0 0 0 0 0 0 0 0 Allocated resource blocks 15 20 25 52 79 106 133 160 216 270 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 8 8 8 8 8 8 8 8 8 8 MCS Index 24 24 24 24 24 24 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM Target Coding Rate 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 Bits 7296 9736 12296 25608 38936 52224 64552 77896 106576 131176 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slot 0,1 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 CBs 1 2 2 4 5 7 8 10 13 16 Binary Channel Bits per Slot For Slot 0,1 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 Bits 9720 12960 16200 33696 51192 68688 86184 10368 0 139968 174960 Max. Throughput averaged over 1 frame Mbps 5.837 7.789 9.837 20.48 6 31.14 9 41.77 9 51.64 2 62.31 7 85.261 104.94 1 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot 0 of each frame NOTE 4: Slot i is slot index per frame NOTE 5: Channel bandwidths in this column only apply to UEs supporting IE supportOfERedCap-r18. 3GPP TS 38.521-1 version 19.2.0 Release 19 2188 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.3.2.3-2: Fixed reference channel for maximum input level receiver requirements (SCS 30 kHz, FDD, 64QAM) Parameter Unit Value Channel bandwidth MHz 10, 15, 20 (Note 5) 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration μ 1 1 1 1 1 1 1 1 1 1 1 Allocated resource blocks 10 24 38 51 65 78 106 133 162 217 273 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 17 17 17 17 17 17 17 17 17 17 17 MCS Index 24 24 24 24 24 24 24 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM Target Coding Rate 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 Bits 4864 11784 18432 25104 31752 37896 52224 64552 79896 106576 135296 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slot2 0,1,2 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 CBs 1 2 3 3 4 5 7 8 10 13 17 Binary Channel Bits per Slot For Slots 0,1,2 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 Bits 6480 15552 24624 33048 42120 50544 68688 86184 104976 140616 176904 Max. Throughput averaged over 1 frame Mbps 8.269 20.033 31.334 42.677 53.978 64.423 88.781 109.738 135.823 181.179 230.003 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot 0 of each frame NOTE 4: Slot i is slot index per frame NOTE 5: Channel bandwidths in this column only apply to UEs supporting IE supportOfERedCap-r18. Table A.3.2.3-3: Fixed Reference Channel for Maximum input level receiver requirements (SCS 60 kHz, FDD, 64QAM) Parameter Unit Value Channel bandwidth MHz 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration μ 2 2 2 2 2 2 2 2 2 2 Allocated resource blocks 11 18 24 31 38 51 65 79 107 135 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 3GPP TS 38.521-1 version 19.2.0 Release 19 2189 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Allocated slots per Frame 36 36 36 36 36 36 36 36 36 36 MCS Index 24 24 24 24 24 24 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM Target Coding Rate 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2,3 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 Bits 5376 8712 11784 15112 18432 25104 31752 38936 52224 65576 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2,3 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 CBs 1 2 2 2 3 3 4 5 7 8 Binary Channel Bits per Slot For Slots 0,12,3 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 Bits 7128 11664 15552 20088 24624 33048 42120 51192 69336 87480 Max. Throughput averaged over 1 frame Mbps 19.354 31.363 42.422 54.403 66.355 90.374 114.30 7 140.17 0 188.00 6 236.07 4 Note 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. Note 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) Note 3: SS/PBCH block is transmitted in slot #0 of each frame. Note 4: Slot i is slot index per frame. A.3.2.4 FRC for maximum input level for 256 QAM Table A.3.2.4-1: Fixed reference channel for maximum input level receiver requirements (SCS 15 kHz, FDD, 256QAM) Parameter Unit Value Channel bandwidth MHz 3, 5, 10,15, 20 (NOT E 5) 5 10 15 20 25 30 40 50 Subcarrier spacing kHz 15 15 15 15 15 15 15 15 15 Subcarrier spacing configuration μ 0 0 0 0 0 0 0 0 0 Allocated resource blocks 15 25 52 79 106 133 160 216 270 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 8 8 8 8 8 8 8 8 8 MCS Index 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 256QAM 3GPP TS 38.521-1 version 19.2.0 Release 19 2190 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Modulation 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM Target Coding Rate 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 Bits 9992 16896 34816 53288 71688 90176 10855 2 14340 0 18037 6 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 CBs 2 3 5 7 9 12 14 18 22 Binary Channel Bits per Slot For Slots 0,1 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 Bits 12960 21600 44928 68256 91584 11491 2 13824 0 18662 4 23328 0 Max. Throughput averaged over 1 frame Mbps 7.994 13.51 7 27.85 3 42.63 0 57.35 0 72.14 1 86.84 2 114.7 20 144.3 10 Note 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. Note 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) Note 3: SS/PBCH block is transmitted in slot 0 of each frame. Note 4: Slot i is slot index per frame. Note 5: Channel bandwidths 5, 10, 15, and 20 MHz in this column only apply to UEs supporting IE supportOfERedCap-r18. Table A.3.2.4-2: Fixed reference channel for maximum input level receiver requirements (SCS 30 kHz, FDD, 256QAM) Parameter Unit Value Channel bandwidth MHz 10,15, 20 (NOTE 5) 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration μ 1 1 1 1 1 1 1 1 1 1 1 Allocated resource blocks 7 24 38 51 65 78 106 133 162 217 273 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 17 17 17 17 17 17 17 17 17 17 17 MCS Index 23 23 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 256QAM Modulation 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM Target Coding Rate 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 3GPP TS 38.521-1 version 19.2.0 Release 19 2191 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 Bits 4736 16136 25608 33816 44040 52224 71688 90176 108552 147576 184424 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 CBs 1 2 4 5 6 7 9 11 13 18 22 Binary Channel Bits per Slot For Slots 0,1,2 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 Bits 6048 20736 32832 44064 56160 67392 91584 114912 139968 187488 235872 Max. Throughput averaged over 1 frame Mbps 8.051 27.431 43.534 57.487 74.868 88.781 121.87 0 153.29 9 184.53 8 250.87 9 313.52 1 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot 0 of each frame NOTE 4: Slot i is slot index per frame NOTE 5: Channel bandwidths in this column only apply to UEs supporting IE supportOfERedCap-r18. Table A.3.2.4-3: Fixed reference channel for maximum input level receiver requirements (SCS 60 kHz, FDD, 256QAM) Parameter Unit Value Channel bandwidth MHz 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration μ 2 2 2 2 2 2 2 2 2 2 Allocated resource blocks 11 18 24 31 38 51 65 79 107 135 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 36 36 36 36 36 36 36 36 36 36 MCS Index 23 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 256QAM Modulation 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM Target Coding Rate 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2,3 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 Bits 7424 12040 16136 21000 25608 33816 44040 53288 71688 90176 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2,3 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 CBs 1 2 3 3 4 5 6 7 9 12 Binary Channel Bits per Slot 3GPP TS 38.521-1 version 19.2.0 Release 19 2192 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI For Slots 0,1,2,3 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 Bits 9504 15552 20736 26784 32832 44064 56160 68256 92448 116640 Max. Throughput averaged over 1 frame Mbps 26.726 43.344 58.090 75.600 92.189 121.73 8 158.54 4 191.83 7 258.07 7 324.63 4 Note 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. Note 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) Note 3: SS/PBCH block is transmitted in slot #0 of each frame. Note 4: Slot i is slot index per frame. A.3.2.5 FRC for maximum input level for 1024 QAM Table A.3.2.5-1 Fixed reference channel for maximum input level receiver requirements (SCS 15 kHz, FDD, 1024QAM) Parameter Unit Value Channel bandwidth MHz 3 5 10 15 20 25 30 40 50 Subcarrier spacing kHz 15 15 15 15 15 15 15 15 15 Subcarrier spacing configuration 0 0 0 0 0 0 0 0 0 Allocated resource blocks 15 25 52 79 106 133 160 216 270 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 8 8 8 8 8 8 8 8 8 MCS Index 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 1024QAM Modulation 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM Target Coding Rate 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 Bits 12808 21000 44040 67584 90176 112648 135296 184424 229576 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slot 0,1 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 CBs 2 3 6 9 11 14 17 22 28 Binary Channel Bits per Slot For Slots 0,1 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,3,4,5,6,7,8,9 Bits 16200 27000 56160 85320 114480 143640 172800 233280 291600 Max. Throughput averaged over 1 frame Mbps 10.246 16.800 35.232 54.067 72.141 90.118 108.237 147.539 183.661 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot 0 of each frame 3GPP TS 38.521-1 version 19.2.0 Release 19 2193 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 4: Slot i is slot index per frame 3GPP TS 38.521-1 version 19.2.0 Release 19 2194 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.3.2.5-2 Fixed reference channel for maximum input level receiver requirements (SCS 30 kHz, FDD, 1024QAM) Parameter Unit Value Channel bandwidth MHz 5 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration 1 1 1 1 1 1 1 1 1 1 1 Allocated resource blocks 11 24 38 51 65 78 106 133 162 217 273 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 17 17 17 17 17 17 17 17 17 17 17 MCS Index 23 23 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 1024QAM Modulation 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM Target Coding Rate 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 Bits 9224 20496 32264 43032 55304 65576 90176 112648 139376 184424 233608 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 CBs 2 3 4 6 7 8 11 14 17 22 28 Binary Channel Bits per Slot For Slots 0,1,2 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 3,…,19 Bits 11880 25920 41040 55080 70200 84240 114480 143640 174960 234360 294840 Max. Throughput averaged over 1 frame Mbps 15.681 34.843 54.849 73.154 94.017 111.47 9 153.29 9 191.50 2 236.93 9 313.52 1 397.13 4 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot 0 of each frame NOTE 4: Slot i is slot index per frame Table A.3.2.5-3 Fixed reference channel for maximum input level receiver requirements (SCS 60 kHz, FDD, 1024QAM) Parameter Unit Value Channel bandwidth MHz 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration 2 2 2 2 2 2 2 2 2 2 Allocated resource blocks 11 18 24 31 38 51 65 79 107 135 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 36 36 36 36 36 36 36 36 36 36 MCS Index 23 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 1024QAM 3GPP TS 38.521-1 version 19.2.0 Release 19 2195 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Modulation 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM Target Coding Rate 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2,3 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 Bits 9224 15368 20496 26120 32264 43032 55304 67584 90176 114776 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2,3 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 CBs 2 2 3 4 4 6 7 9 11 14 Binary Channel Bits per Slot For Slot 0,1,2,3 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 4,…,39 Bits 11880 19440 25920 33480 41040 55080 70200 85320 115560 145800 Max. Throughput averaged over 1 frame Mbps 33.206 55.325 73.786 94.032 116.15 0 154.91 5 199.09 4 243.30 2 324.63 4 413.19 4 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.2.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot #0 of each frame NOTE 4: Slot i is slot index per frame A.3.3 DL reference measurement channels for TDD A.3.3.1 General Table A.3.3.1-1: Additional reference channels parameters for TDD Parameter Value SCS 15 kHz (µ=0) SCS 30 kHz (µ=1) SCS 60 kHz (µ=2) TDD Slot Configuration pattern (Note 1) DDDSU 7DS2U 14DS1S24U Special Slot Configuration (Note 2) 10D+2G+2U 6D+4G+4U S1=12D+2G, S2=6G+8U referenceSubcarrierSpacing 15 kHz 30 kHz 60 kHz UL-DL configuration dl-UL- TransmissionPerio dicity 5 ms 5 ms 5 ms nrofDownlinkSlots 3 7 14 nrofDownlinkSymb ols 10 6 12 nrofUplinkSlot 1 2 4 nrofUplinkSymbols 2 4 8 Number of HARQ Processes 8 8 16 3GPP TS 38.521-1 version 19.2.0 Release 19 2196 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI The number of slots between PDSCH and corresponding HARQ- ACK information (Note 3) K1 = 4 if mod(i,5) = 0 K1 = 3 if mod(i,5) = 1 K1 = 2 if mod(i,5) = 2 where i is slot index per frame; i = {0,…,9} K1 = 8 if mod(i,10) = 0 K1 = 7 if mod(i,10) = 1 K1 = 6 if mod(i,10) = 2 K1 = 5 if mod(i,10) = 3 K1 = 4 if mod(i,10) = 4 K1 = 3 if mod(i,10) = 5 K1 = 2 if mod(i,10) = 6 where i is slot index per frame; i = {0,…,19} K1 = 13 if mod(i,20) = 2 K1 = 12 if mod(i,20) = 3 K1 = 11 if mod(i,20) = 4 K1 = 10 if mod(i,20) = 5 K1 = 9 if mod(i,20) = 6 K1 = 8 if mod(i,20) = 7 K1 = 7 if mod(i,20) = 8 K1 = 6 if mod(i,20) = 9 K1 = 6 if mod(i,20) = 10 K1 = 6 if mod(i,20) = 11 K1 = 6 if mod(i,20) = 12 K1 = 6 if mod(i,20) = 13 where i is slot index per frame; i = {0,…,39} NOTE 1: D denotes a slot with all DL symbols; S denotes a slot with a mix of DL, UL and guard symbols; U denotes a slot with all UL symbols. The field is for information. NOTE 2: D, G, U denote DL, guard and UL symbols, respectively. The field is for information. NOTE 3: i is the slot index per frame. NOTE 4: A -2ms or +3ms time offset to the NR configuration pattern relative to the E-UTRA UL-DL configuration must be applied in the TDD intra-band EN-DC. A.3.3.2 FRC for receiver requirements for QPSK Table A.3.3.2-1: Fixed reference channel for receiver requirements (SCS 15 kHz, TDD, QPSK 1/3) Parameter Unit Value Channel bandwidth MHz 5, 10, 15, 20 (Note 5) 10 15 20 25 30 40 50 Subcarrier spacing kHz 15 15 15 15 15 15 15 15 Subcarrier spacing configuration μ 0 0 0 0 0 0 0 0 Allocated resource blocks 25 52 79 106 133 160 216 270 Subcarriers per resource block 12 12 12 12 12 12 12 12 Allocated slots per Frame 4 4 4 4 4 4 4 4 MCS Index 4 4 4 4 4 4 4 4 MCS Table for TBS determination 64QAM Modulation QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK Target Coding Rate 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,3,4,8,9 Bits N/A N/A N/A N/A N/A N/A N/A N/A 3GPP TS 38.521-1 version 19.2.0 Release 19 2197 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI For Slots 2,5,6,7 Bits 1672 3368 5120 6912 8712 10504 14088 17424 Transport block CRC Bits 16 16 24 24 24 24 24 24 LDPC base graph 2 2 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,3,4,8,9 CBs N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 CBs 1 1 1 1 2 2 2 3 Binary Channel Bits per Slot For Slots 0,1,3,4,8,9 Bits N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 Bits 5400 11232 17064 22896 28728 34560 46656 58320 Max. Throughput averaged over 1 frame Mbps 0.669 1.347 2.048 2.765 3.485 4.202 5.635 6.970 Note 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. Note 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) Note 3: SS/PBCH block is transmitted in slot 0 of each frame. Note 4: Slot i is slot index per frame. Note 5: Channel bandwidths 10, 15, and 20 MHz in this column only apply to UEs supporting IE supportOfERedCap-r18 but not eRedCapNotReducedBB-BW-r18. Table A.3.3.2-2: Fixed reference channel for receiver requirements (SCS 30 kHz, TDD, QPSK 1/3) Parameter Unit Value Channel bandwidth MHz 10, 15, 20 (Note 5) 10 15 20 25 30 40 50 60 70 80 100 Subcarrier spacing configuration 1 1 1 1 1 1 1 1 1 1 1 1 Allocated resource blocks 12 24 38 51 65 78 106 133 162 162 217 273 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 11 11 11 11 11 11 11 11 11 13 11 11 MCS Index 4 4 4 4 4 4 4 4 4 4 4 4 MCS Table for TBS determination 64QAM Modulation QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK Target Coding Rate 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} Bits 808 1608 2472 3368 4224 4992 6912 8712 10504 12296 14088 17928 Transport block CRC Bits 16 16 16 16 24 24 24 24 24 24 24 24 LDPC base graph 2 2 2 2 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot μ 3GPP TS 38.521-1 version 19.2.0 Release 19 2198 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} CBs 1 1 1 1 1 1 1 2 2 2 2 3 Binary Channel Bits per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} Bits 2592 5184 8208 11016 14040 16848 22896 28728 34992 40824 46872 58968 Max. Throughput averaged over 1 frame Mbps 0.889 1.7699 2.719 3.705 4.646 5.491 7.603 9.583 11.554 13.526 15.497 19.721 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot #0 of each frame NOTE 4: Slot i is slot index per frame NOTE 5: Channel bandwidths in this column only apply to UEs supporting IE supportOfERedCap-r18 but not eRedCapNotReducedBB-BW-r18. Table A.3.3.2-3: Fixed reference channel for receiver requirements (SCS 60 kHz, TDD, QPSK 1/3) Parameter Unit Value Channel bandwidth MHz 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration μ 2 2 2 2 2 2 2 2 2 2 Allocated resource blocks 11 18 24 31 38 51 65 79 107 135 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 24 24 24 24 24 24 24 24 24 24 MCS Index 4 4 4 4 4 4 4 4 4 4 MCS Table for TBS determination 64QAM Modulation QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK Target Coding Rate 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0,…,13} for i from {4,…,39} Bits 736 1192 1608 2024 2472 3368 4224 5120 6912 8712 Transport block CRC Bits 16 16 16 16 16 16 24 24 24 24 LDPC base graph 2 2 2 2 2 2 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0,…,13} for i from {4,…,39} CBs 1 1 1 1 1 1 1 1 1 2 3GPP TS 38.521-1 version 19.2.0 Release 19 2199 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Binary Channel Bits per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0,…,13} for i from {4,…,39} Bits 2376 3888 5184 6696 8208 11016 14040 17064 23112 29160 Max. Throughput averaged over 1 frame Mbps 1.766 3.2.861 3.859 4.858 5.933 8.083 10.138 12.288 16.589 20.909 Note 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. Note 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) Note 3: SS/PBCH block is transmitted in slot #0 of each frame. Note 4: Slot i is slot index per frame. A.3.3.3 FRC for maximum input level for 64QAM Table A.3.3.3-1: Fixed reference channel for maximum input level receiver requirements (SCS 15 kHz, TDD, 64QAM) Parameter Unit Value Channel bandwidth MHz 5, 10, 15, 20 (Note 5) 5 10 15 20 25 30 40 50 Subcarrier spacing kHz 15 15 15 15 15 15 15 15 15 Subcarrier spacing configuration μ 0 0 0 0 0 0 0 0 0 Allocated resource blocks 20 25 52 79 106 133 160 216 270 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 4 4 4 4 4 4 4 4 4 MCS Index 24 24 24 24 24 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM Target Coding Rate 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,3,4,8,9 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 Bits 9736 12296 25608 38936 52224 64552 77896 10657 6 13117 6 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,3,4,8,9 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 CBs 2 2 4 5 7 8 10 13 16 Binary Channel Bits per Slot For Slots 0,1,3,4,8,9 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 Bits 12960 16200 33696 51192 68688 86184 10368 13996 17496 3GPP TS 38.521-1 version 19.2.0 Release 19 2200 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 0 8 0 Max. Throughput averaged over 1 frame Mbps 3.894 4.918 10.24 3 15.57 4 20.89 0 20.89 0 31.15 8 42.63 0 52.47 0 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot 0 of each frame NOTE 4: Slot i is slot index per frame NOTE 5: Channel bandwidths in this column only apply to UEs supporting IE supportOfERedCap-r18. Table A.3.3.3-2: Fixed reference channel for maximum input level receiver requirements (SCS 30 kHz, TDD, 64QAM) Parameter Unit Value Channel bandwidth MHz 10, 15, 20 (Note 5) 10 15 20 25 30 40 50 60 70 80 100 Subcarrier spacing configuration μ 1 1 1 1 1 1 1 1 1 1 1 1 Allocated resource blocks 10 24 38 51 65 78 106 133 162 189 217 273 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 11 11 11 11 11 11 11 11 11 13 11 11 MCS Index 24 24 24 24 24 24 24 24 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 4864 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM Target Coding Rate 24 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} Bits 1 11784 18432 25104 31752 37896 52224 64552 79896 92200 106576 135296 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph N/A 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot 6480 For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} CBs 5.350 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} CBs 4864 2 3 3 4 5 7 8 10 11 13 17 Binary Channel Bits per Slot 24 For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} Bits 1 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} Bits 15552 24624 33048 42120 50544 68688 86184 104976 122472 140616 176904 3GPP TS 38.521-1 version 19.2.0 Release 19 2201 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Max. Throughput averaged over 1 frame Mbps N/A 12.962 20.275 27.614 34.927 41.686 57.446 71.007 87.886 101.42 117.234 148.826 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot #0 of each frame NOTE 4: Slot i is slot index per frame NOTE 5: Channel bandwidths in this column only apply to UEs supporting IE supportOfERedCap-r18. Table A.3.3.3-3: Fixed reference channel for maximum input level receiver requirements (SCS 60 kHz, TDD, 64QAM) Parameter Unit Value Channel bandwidth MHz 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration μ 2 2 2 2 2 2 2 2 2 2 Allocated resource blocks 11 18 24 31 38 51 65 79 107 135 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 24 24 24 24 24 24 24 24 24 24 MCS Index 24 24 24 24 24 24 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM 64 QAM Target Coding Rate 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 5) = {0,…,13} for i from {4,…,39} Bits 5376 8712 11784 15112 18432 25104 31752 38936 52224 65576 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 5) = {0, …,13} for i from {4,…,39} CBs 1 2 2 2 3 3 4 5 7 8 Binary Channel Bits per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0, …,13} for i from {4,…,39} Bits 7128 11664 15552 20088 24624 33048 42120 51192 69336 87480 Max. Throughput averaged over 1 frame Mbps 12.902 20.909 28.282 36.269 44.237 60.250 76.205 93.446 125.33 8 157.38 2 Note 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. Note 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) 3GPP TS 38.521-1 version 19.2.0 Release 19 2202 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Note 3: SS/PBCH block is transmitted in slot #0 of each frame. Note 4: Slot i is slot index per frame. A.3.3.4 FRC for maximum input level for 256 QAM Table A.3.3.4-1: Fixed reference channel for maximum input level receiver requirements (SCS 15 kHz, TDD, 256QAM) Parameter Unit Value Channel bandwidth MHz 5, 10, 15, 20 (NOTE 5) 5 10 15 20 25 30 40 50 Subcarrier spacing kHz 15 15 15 15 15 15 15 15 15 Subcarrier spacing configuration μ 0 0 0 0 0 0 0 0 0 Allocated resource blocks 15 25 52 79 106 133 160 216 270 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 4 4 4 4 4 4 4 4 4 MCS Index 23 23 23 23 23 23 23 23 23 MCS table for TBS determination 256QAM Modulation 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM Target Coding Rate 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,3,4,8,9 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 Bits 9992 16896 34816 53288 71688 90176 10855 2 14340 0 180376 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,3,4,8,9 CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 CBs 2 3 5 7 9 12 14 18 23 Binary Channel Bits per Slot For Slots 0,1,3,4,8,9 Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 Bits 12960 21600 44928 68256 91584 11491 2 13824 0 18662 4 233280 Max. Throughput averaged over 1 frame Mbps 3.997 6.758 13.92 6 21.31 5 28.67 5 36.07 0 43.42 1 57.36 0 72.150 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot 0 of each frame NOTE 4: Slot i is slot index per frame 3GPP TS 38.521-1 version 19.2.0 Release 19 2203 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 5: Channel bandwidths in this column only apply to UEs supporting IE supportOfERedCap-r18. Table A.3.3.4-2: Fixed Reference channel for maximum input level receiver requirements (SCS 30 kHz, TDD, 256QAM) Parameter Unit Value Channel bandwidth MHz 10, 15, 20 (NOTE 5) 10 15 20 25 30 40 50 60 70 80 100 Subcarrier spacing configuration μ 1 1 1 1 1 1 1 1 1 1 1 1 Allocated resource blocks 7 24 38 51 65 78 106 133 162 189 217 273 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 11 11 11 11 11 11 11 11 11 13 11 11 MCS Index 23 23 23 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 256QAM Modulation 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM Target Coding Rate 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} Bits 4736 16136 25608 33816 44040 52224 71688 90176 108552 127080 147576 184424 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} CBs 1 1 1 1 1 1 1 2 2 2 2 3 Binary Channel Bits per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} Bits 6048 20736 32832 44064 56160 67392 91584 114912 139968 163296 187488 235872 Max. Throughput averaged over 1 frame Mbps 5.210 17.750 28.169 37.198 48.444 57.446 78.857 99.194 119.407 139.788 162.334 202.866 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot #0 of each frame NOTE 4: Slot i is slot index per frame NOTE 5: Channel bandwidths in this column only apply to UEs supporting IE supportOfERedCap-r18. 3GPP TS 38.521-1 version 19.2.0 Release 19 2204 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.3.3.4-3: Fixed reference channel for maximum input level receiver requirements (SCS 60 kHz, TDD, 256QAM) Parameter Unit Value Channel bandwidth MHz 10 15 20 25 30 40 50 60 80 100 Subcarrier spacing configuration μ 2 2 2 2 2 2 2 2 2 2 Allocated resource blocks 11 18 24 31 38 51 65 79 107 135 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 24 24 24 24 24 24 24 24 24 24 MCS Index 23 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 256QAM Modulation 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM 256 QAM Target Coding Rate 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 4/5 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0,…,13 } for i from {4,…,39} Bits 7424 12040 16136 21000 25608 33816 44040 53288 71688 90176 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 5) = {0, …,13} for i from {4,…,39} CBs 1 2 3 3 4 5 6 7 9 12 Binary Channel Bits per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14, 15, 16, 17, 18, 19} for i from {0,…,39} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0, …,13} for i from {4,…,39} Bits 9504 15552 20736 26784 32832 44064 56160 68256 92448 116640 Max. Throughput averaged over 1 frame Mbps 17.818 28.896 38.726 50.400 61.459 81.158 105.69 6 127.89 1 172.05 1 216.42 2 Note 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. Note 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit) Note 3: SS/PBCH block is transmitted in slot #0 of each frame. Note 4: Slot i is slot index per frame. 3GPP TS 38.521-1 version 19.2.0 Release 19 2205 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A.3.3.5 FRC for maximum input level for 1024 QAM Table A.3.3.5-1 Fixed reference channel for maximum input level receiver requirements (SCS 15 kHz, TDD, 1024QAM) Parameter Unit Value Channel bandwidth MHz 5 10 15 20 25 30 40 50 Subcarrier spacing kHz 15 15 15 15 15 15 15 15 Subcarrier spacing configuration 0 0 0 0 0 0 0 0 Allocated resource blocks 25 52 79 106 133 160 216 270 Subcarriers per resource block 12 12 12 12 12 12 12 12 Allocated slots per Frame 4 4 4 4 4 4 4 4 MCS Index 23 23 23 23 23 23 23 23 MCS table for TBS determination 1024QAM Modulation 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM Target Coding Rate 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,3,4,8,9 Bits N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 Bits 21000 44040 67584 90176 11264 8 13529 6 18442 4 22957 6 Transport block CRC Bits 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,3,4,8,9 CBs N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 CBs 3 6 9 11 14 17 22 28 Binary Channel Bits per Slot For Slots 0,1,3,4,8,9 Bits N/A N/A N/A N/A N/A N/A N/A N/A For Slots 2,5,6,7 Bits 27000 56160 85320 11448 0 14364 0 17280 0 23328 0 29160 0 Max. Throughput averaged over 1 frame Mbps 8.400 17.61 6 27.03 4 36.07 0 45.05 9 54.11 8 73.77 0 91.83 0 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot 0 of each frame NOTE 4: Slot i is slot index per frame 3GPP TS 38.521-1 version 19.2.0 Release 19 2206 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.3.3.5-2 Fixed Reference channel for maximum input level receiver requirements (SCS 30 kHz, TDD, 1024QAM) Parameter Unit Value Channel bandwidth MHz 5 10 15 20 25 30 40 50 60 70 80 100 Subcarrier spacing configuration 1 1 1 1 1 1 1 1 1 1 1 1 Allocated resource blocks 11 24 38 51 65 78 106 133 162 189 217 273 Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 11 11 11 11 11 11 11 11 11 13 11 11 MCS Index 23 23 23 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 1024QAM Modulation 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM Target Coding Rate 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} Bits 9224 20496 32264 43032 55304 65576 90176 112648 139376 159800 184424 233608 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} CBs 2 3 4 6 7 8 11 14 17 19 22 28 Binary Channel Bits per Slot For Slots 0,1,2 and Slot i, if mod(i, 10) = {7,8,9} for i from {0,…,19} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 10) = {0,1,2,3,4,5,6} for i from {3,…,19} Bits 11880 25920 41040 55080 70200 84240 114480 143640 174960 204120 234360 294840 Max. Throughput averaged over 1 frame Mbps 10.146 22.546 35.490 47.335 60.834 72.134 99.194 123.91 3 153.31 4 175.86 8 202.86 6 256.96 9 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot #0 of each frame NOTE 4: Slot i is slot index per frame Table A.3.3.5-3 Fixed reference channel for maximum input level receiver requirements (SCS 60 kHz, TDD, 1024QAM) Parameter Unit Value Channel bandwidth MHz 10 15 20 25 30 40 50 60 70 80 100 Subcarrier spacing configuration 2 2 2 2 2 2 2 2 2 2 2 Allocated resource blocks 11 18 24 31 38 51 65 79 93 107 135 3GPP TS 38.521-1 version 19.2.0 Release 19 2207 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Subcarriers per resource block 12 12 12 12 12 12 12 12 12 12 12 Allocated slots per Frame 24 24 24 24 24 24 24 24 26 24 24 MCS Index 23 23 23 23 23 23 23 23 23 23 23 MCS Table for TBS determination 1024QAM Modulation 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM 1024 QAM Target Coding Rate 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 0.78 Maximum number of HARQ transmissions 1 1 1 1 1 1 1 1 1 1 1 Information Bit Payload per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14,15,16,17,18,19} for i from {0,…,39} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0,…, 13} for i from {4,…,39} Bits 9224 15368 20496 26120 32264 43032 55304 67584 79896 90176 114776 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14,15,16,17,18,19} for i from {0,…,39} CBs N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0,…, 13} for i from {4,…,39} CBs 2 2 3 4 4 6 7 9 10 11 14 Binary Channel Bits per Slot For Slots 0,1,2,3 and Slot i, if mod(i, 20) = {14,15,16,17,18,19} for i from {0,…,39} Bits N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A For Slot i, if mod(i, 20) = {0,…, 13} for i from {4,…,39} Bits 11880 19440 25920 33480 41040 55080 70200 85320 100440 115560 145800 Max. Throughput averaged over 1 frame Mbps 22.138 36.883 49.190 62.688 77.434 103.27 7 132.73 0 162.20 2 191.75 0 216.42 2 275.46 2 NOTE 1: Additional parameters are specified in Table A.3.1-1 and Table A.3.3.1-1. NOTE 2: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 3: SS/PBCH block is transmitted in slot #0 of each frame NOTE 4: Slot i is slot index per frame 3GPP TS 38.521-1 version 19.2.0 Release 19 2208 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A.4 CSI reference measurement channels TBD A.5 OFDMA Channel Noise Generator (OCNG) A.5.1 OCNG Patterns for FDD A.5.1.1 OCNG FDD pattern 1: Generic OCNG FDD Pattern for all unused REs Table A.5.1.1-1: OP.1 FDD: Generic OCNG FDD Pattern for all unused REs OCNG Distribution OCNG Parameters Control Region (Core Set) Data Region Resources allocated All unused REs (Note 1) All unused REs (Note 2) Structure PDCCH PDSCH Content Uncorrelated pseudo random QPSK modulated data Uncorrelated pseudo random QPSK modulated data Transmission scheme for multiple antennas ports transmission 1Tx port transmission Spatial multiplexing using any precoding matrix with dimensions same as the precoding matrix for PDSCH Subcarrier Spacing Same as for RMC PDCCH in the active BWP Same as for RMC PDSCH in the active BWP Power Level Same as for RMC PDCCH Same as for RMC PDSCH Note 1: All unused REs in the active CORESETS appointed by the search spaces in use. Note 2: Unused available REs refer to REs in PRBs not allocated for any physical channels, CORESETs, synchronization signals or reference signals in channel bandwidth. A.5.2 OCNG Patterns for TDD A.5.2.1 OCNG TDD pattern 1: Generic OCNG TDD Pattern for all unused REs Table A.5.2.1-1: OP.1 TDD: Generic OCNG TDD Pattern for all unused REs OCNG Distribution OCNG Parameters Control Region (Core Set) Data Region Resources allocated All unused REs (Note 1) All unused REs (Note 2) Structure PDCCH PDSCH Content Uncorrelated pseudo random QPSK modulated data Uncorrelated pseudo random QPSK modulated data Transmission scheme for multiple antennas ports transmission 1Tx port transmission Spatial multiplexing using any precoding matrix with dimensions same as the precoding matrix for PDSCH Subcarrier Spacing Same as for RMC PDCCH in the active BWP Same as for RMC PDSCH in the active BWP Power Level Same as for RMC PDCCH Same as for RMC PDSCH Note 1: All unused REs in the active CORESETS appointed by the search spaces in use. Note 2: Unused available REs refer to REs in PRBs not allocated for any physical channels, CORESETs, synchronization signals or reference signals in channel bandwidth. A.6 3GPP TS 38.521-1 version 19.2.0 Release 19 2209 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI A.7 V2X reference measurement channels A.7.1 General The algorithm for determining the payload size A is as follows; given a desired coding rate R and radio block allocation NRB 1. Calculate the RE number of 2nd stage SCI Q_SCI2^' that can be transmitted in a given sub-frame, where in order to make sure that the code-rate of 2-A is approximate to SCI 1-A, a beta offset is selected based on MCS, and vacant resource elements γ value is determined based on NRB and DMRS frequency density. 2. Transport Block Size is determined according to clause 8.1.3.2 of TS 38.214 [12] based on Table A.7.1-1. 3. Calculate Binary Channel Bits per Slot for PSSCH as below. Binary Channel Bits per Slot = (NRB* Subcarriers per resource blockCP-OFDM symbols per slot – DMRS resource REs – PSCCH resource Res - Q_SCI2^') Qm Where Qm is the modulation order corresponding to MCS. In Table A.7.1-1 Common reference channel parameters are listed the Sidelink reference measurement channels specified in annexes A.7.2 to A.7.4. Table A.7.1-1: Common reference channel parameters Parameter Value remark Number of HARQ Processes 1 Channel state AWGN Subcarriers per resource block 12 sl-PSSCH-DMRS- TimePatternList 2 symbol4 and symbol 10 in each slot FDMed with PSSCH within DMRS symbol Frequency density is ½ CP-OFDM symbols per slot (Note1) 12 for all slots Excluding the first OFDM symbol in one SL slot used for AGC PSCCH resource 10 PRBs, 3 symbols in time domain Slot number in 10ms 10 ∗2 = 0,1,2 for 15kHz, 30kHz, 60kHz PT-RS disable CSI-RS disable x-overhead 0 PSFCH period 0 2nd stage SCI payload size 59 35bits SCI-2A + 24bits CRC Redundancy Version RV0 For channel coding Alpha value for SCI-2 1 A.7.2 FRC for V2X receiver requirements for QPSK For V2X transmission over PC5, Table A.7.2-1, Table A.7.2-2 and Table A.7.2-3 are applicable for measurements on the Receiver Characteristics with the exception of Maximum input level. Table A.7.2-1: Fixed reference channel for V2X receiver requirements (SCS 15 kHz, QPSK) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 15 15 15 15 Subchannel size 10 15 10 12 Allocated resource blocks 50 105 160 216 MCS Index 4 4 4 4 MCS Table for TBS determination 64QAM Modulation QPSK QPSK QPSK QPSK Transport Block Size 3624 7936 12296 16896 Transport block CRC Bits 16 24 24 24 LDPC base graph 2 1 1 1 3GPP TS 38.521-1 version 19.2.0 Release 19 2210 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Number of Code Blocks per Slot 1 1 2 3 Beta offset for 2nd stage SCI 2.25 2.25 2.25 2.25 γ value when 2nd stage SCI rate match 1 1 1 1 Binary Channel Bits per Slot 12036 26556 41076 55860 Max. Throughput averaged over 100ms Mbps 0.3624 0.7936 1.2296 1.6896 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. Table A.7.2-2: Fixed reference channel for V2X receiver requirements (SCS 30 kHz, QPSK) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 30 30 30 30 Subchannel size 12 10 15 15 Allocated resource blocks 24 50 75 105 MCS Index 4 4 4 4 MCS Table for TBS determination 64QAM Modulation QPSK QPSK QPSK QPSK Transport Block Size 1608 3624 5632 7936 Transport block CRC Bits 16 16 24 24 LDPC base graph 2 2 1 1 Number of Code Blocks per Slot 1 1 1 1 Beta offset for 2nd stage SCI 2.25 2.25 2.25 2.25 γ value when 2nd stage SCI rate match 7 1 1 1 Binary Channel Bits per Slot 5160 12036 18636 26556 Max. Throughput averaged over 100ms Mbps 0.3216 0.7248 1.1264 1.5872 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. Table A.7.2-3: Fixed reference channel for V2X receiver requirements (SCS 60 kHz, QPSK) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 60 60 60 60 Subchannel size 10 12 12 10 Allocated resource blocks 10 24 36 50 MCS Index 4 4 4 4 MCS Table for TBS determination 64QAM Modulation QPSK QPSK QPSK QPSK Transport Block Size 456 1608 2536 3624 Transport block CRC Bits 16 16 16 16 LDPC base graph 2 2 2 2 Number of Code Blocks per Slot 1 1 1 1 Beta offset for 2nd stage SCI 2.25 2.25 2.25 2.25 γ value when 2nd stage SCI rate match 7 7 7 1 Binary Channel Bits per Slot 1464 5160 8328 12036 Max. Throughput averaged over 100ms Mbps 0.1824 0.6432 1.0144 1.4496 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. A.7.3 FRC for maximum input level for 64QAM For V2X transmission over PC5, Table A.7.3-1, Table A.7.3-2 and TableA.7.3-3 are applicable for Maximum input level when the maximum modulation order is 64QAM. 3GPP TS 38.521-1 version 19.2.0 Release 19 2211 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.7.3-1: Fixed reference channel for V2X receiver requirements (SCS 15 kHz, 64QAM) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 15 15 15 15 Subchannel size 10 15 10 12 Allocated resource blocks 50 105 160 216 MCS Index 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 64QAM 64QAM 64QAM 64QAM Transport Block Size 27144 60456 92200 127080 Transport block CRC Bits 24 24 24 24 LDPC base graph 1 1 1 1 Number of Code Blocks per Slot 4 8 11 16 Beta offset for 2nd stage SCI 6.25 6.25 6.25 6.25 γ value when 2nd stage SCI rate match 1 1 1 1 Binary Channel Bits per Slot 35964 79524 123084 167436 Max. Throughput averaged over 100ms Mbps 2.7144 6.0456 9.22 12.708 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. Table A.7.3-2: Fixed reference channel for V2X receiver requirements (SCS 30 kHz, 64QAM) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 30 30 30 30 Subchannel size 12 10 15 15 Allocated resource blocks 24 50 75 105 MCS Index 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 64QAM 64QAM 64QAM 64QAM Transport Block Size 11528 27144 42016 60456 Transport block CRC Bits 24 24 24 24 LDPC base graph 1 1 1 1 Number of Code Blocks per Slot 2 4 5 8 Beta offset for 2nd stage SCI 6.25 6.25 6.25 6.25 γ value when 2nd stage SCI rate match 7 1 1 1 Binary Channel Bits per Slot 15336 35964 55764 79524 Max. Throughput averaged over 100ms Mbps 2.3056 5.4288 8.4032 12.091 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. TableA.7.3-3: Fixed reference channel for V2X receiver requirements (SCS 60 kHz, 64QAM) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 60 60 60 60 Subchannel size 10 12 12 10 Allocated resource blocks 10 24 36 50 MCS Index 24 24 24 24 MCS Table for TBS determination 64QAM Modulation 64QAM 64QAM 64QAM 64QAM Transport Block Size 3240 11528 18960 27144 Transport block CRC Bits 16 24 24 24 LDPC base graph 2 1 1 1 Number of Code Blocks per Slot 1 2 3 4 Beta offset for 2nd stage SCI 6.25 6.25 6.25 6.25 γ value when 2nd stage SCI rate match 7 7 7 1 Binary Channel Bits per Slot 4248 15336 24840 35964 Max. Throughput averaged over 100ms Mbps 1.296 4.6112 7.584 10.858 3GPP TS 38.521-1 version 19.2.0 Release 19 2212 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. A.7.4 FRC for maximum input level for 256QAM For V2X transmission over PC5, Table A.7.4-1, Table A.7.4-2 and Table A.7.4-3 are applicable for Maximum input level when the 256QAM is supported. Table A.7.4-1: Fixed reference channel for V2X receiver requirements (SCS 15 kHz, 256QAM) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 15 15 15 15 Subchannel size 10 15 10 12 Allocated resource blocks 50 105 160 216 MCS Index 23 23 23 23 MCS Table for TBS determination 256QAM Modulation 256QAM 256QAM 256QAM 256QAM Transport Block Size 36896 81976 127080 172176 Transport block CRC Bits 24 24 24 24 LDPC base graph 1 1 1 1 Number of Code Blocks per Slot 5 10 16 21 Beta offset for 2nd stage SCI 6.25 6.25 6.25 6.25 γ value when 2nd stage SCI rate match 3 3 3 3 Binary Channel Bits per Slot 48000 106080 164160 223296 Max. Throughput averaged over 100ms Mbps 3.6896 8.1976 12.708 17.218 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. Table A.7.4-2: Fixed reference channel for V2X receiver requirements (SCS 30 kHz, 256QAM) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 30 30 30 30 Subchannel size 12 10 15 15 Allocated resource blocks 24 50 75 105 MCS Index 23 23 23 23 MCS Table for TBS determination 256QAM Modulation 256QAM 256QAM 256QAM 256QAM Transport Block Size 15880 36896 58384 81976 Transport block CRC Bits 24 24 24 24 LDPC base graph 1 1 1 1 Number of Code Blocks per Slot 2 5 7 10 Beta offset for 2nd stage SCI 6.25 6.25 6.25 6.25 γ value when 2nd stage SCI rate match 3 3 3 3 Binary Channel Bits per Slot 20544 48000 74400 106080 Max. Throughput averaged over 100ms Mbps 3.176 7.3792 11.677 16.395 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. Table A.7.4-3: Fixed reference channel for V2X receiver requirements (SCS 60kHz, 256QAM) Parameter Unit Value Channel bandwidth MHz 10 20 30 40 Subcarrier spacing kHz 60 60 60 60 Subchannel size 10 12 12 10 Allocated resource blocks 10 24 36 50 3GPP TS 38.521-1 version 19.2.0 Release 19 2213 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI MCS Index 23 23 23 23 MCS Table for TBS determination 256QAM Modulation 256QAM 256QAM 256QAM 256QAM Transport Block Size 4480 15880 25608 36896 Transport block CRC Bits 24 24 24 24 LDPC base graph 1 1 1 1 Number of Code Blocks per Slot 1 2 4 5 Beta offset for 2nd stage SCI 6.25 6.25 6.25 6.25 γ value when 2nd stage SCI rate match 3 3 3 3 Binary Channel Bits per Slot 5760 20544 33216 48000 Max. Throughput averaged over 100ms Mbps 1.792 6.352 10.243 14.758 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. A.7.5 FRC for transmitter requirements For V2X transmission over PC5, FRC specified in clause A.7.5-1, A.7.5-2, A.7.5-3 and A.7.5-4 are applicable for measurements on the Transmitter Characteristics. Table A.7.5-1: Fixed reference channel for V2X transmitter requirements (QPSK) Parameter Unit Value Allocated resource blocks 10 12 15 24 25 36 50 75 80 105 160 216 MCS Index 4 MCS Table for TBS determination 64QAM Modulation QPSK Transport Block Size 456 608 848 1608 1672 2536 3624 5632 6016 7936 12296 16896 Transport block CRC Bits 16 16 16 16 16 16 16 24 24 24 24 24 LDPC base graph 2 2 2 2 2 2 2 1 1 1 1 1 Number of Code Blocks per Slot 1 1 1 1 1 1 1 1 1 1 2 3 Beta offset for 2nd stage SCI 2.25 γ value when 2nd stage SCI rate match 7 7 1 7 1 7 1 1 1 1 1 1 Binary Channel Bits per Slot 1464 1992 2796 5160 5436 8328 12036 18636 19956 26556 41076 55860 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd- stage SCI belongs. Table A.7.5-2: Fixed reference channel for V2X transmitter requirements (16QAM) Parameter Unit Value Allocated resource blocks 10 12 15 24 25 36 50 75 80 105 160 216 MCS Index 13 3GPP TS 38.521-1 version 19.2.0 Release 19 2214 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI MCS Table for TBS determination 64QAM Modulation 16QAM Transport Block Size 1480 1928 2664 4992 5248 7936 11528 17928 18960 25608 38936 53288 Transport block CRC Bits 16 16 16 24 24 24 24 24 24 24 24 24 LDPC base graph 2 2 2 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot 1 1 1 1 1 1 2 3 3 4 5 7 Beta offset for 2nd stage SCI 3.5 γ value when 2nd stage SCI rate match 0 0 6 0 6 0 0 0 0 0 0 0 Binary Channel Bits per Slot 2976 4032 5592 10368 10872 16704 24096 37296 39936 53136 82176 111744 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. Table A.7.5-3: Fixed reference channel for V2X transmitter requirements (64QAM) Parameter Uni t Value Allocated resource blocks 10 12 15 24 25 36 50 75 80 105 160 216 MCS Index 24 MCS Table for TBS determinati on 64QAM Modulation 64QAM Transport Block Size 324 0 435 2 614 4 1152 8 1229 6 1896 0 2714 4 4201 6 4509 6 6045 6 92200 12708 0 Transport block CRC Bits 16 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph 2 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot 1 1 1 2 2 3 4 5 6 8 11 16 Beta offset for 2nd stage SCI 6.25 γ value when 2nd stage SCI rate match 7 7 1 7 1 7 1 1 1 1 1 1 Binary Channel Bits per Slot 424 8 583 2 824 4 1533 6 1616 4 2484 0 3596 4 5576 4 5972 4 7952 4 12308 4 16743 6 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. 3GPP TS 38.521-1 version 19.2.0 Release 19 2215 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table A.7.5-4: Fixed reference channel for V2X transmitter requirements (256QAM) Parameter Uni t Value Allocated resource blocks 10 12 15 24 25 36 50 75 80 105 160 216 MCS Index 23 MCS Table for TBS determinati on 256QAM Modulation 256QAM Transport Block Size 448 0 614 4 8712 1588 0 1689 6 2560 8 3689 6 5838 4 6250 4 81976 12708 0 17217 6 Transport block CRC Bits 24 24 24 24 24 24 24 24 24 24 24 24 LDPC base graph 1 1 1 1 1 1 1 1 1 1 1 1 Number of Code Blocks per Slot 1 1 2 2 3 4 5 7 8 10 16 21 Beta offset for 2nd stage SCI 6.25 γ value when 2nd stage SCI rate match 3 3 9 3 9 3 3 3 3 3 3 3 Binary Channel Bits per Slot 576 0 787 2 1099 2 2054 4 2155 2 3321 6 4800 0 7440 0 7968 0 10608 0 16416 0 22329 6 NOTE 1: If more than one Code Block is present, an additional CRC sequence of L = 24 Bits is attached to each Code Block (otherwise L = 0 Bit). NOTE 2: γ is the number of vacant resource elements in the resource block to which the last coded symbol of the 2nd-stage SCI belongs. 3GPP TS 38.521-1 version 19.2.0 Release 19 2216 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex B (normative): Propagation Conditions The propagation conditions and channel models for various environments are specified. For each environment a propagation model is used to evaluate the propagation pathless due to the distance. Channel models are formed by combining delay profiles with a Doppler spectrum, with the addition of correlation properties in the case of a multi- antenna scenario. B.0 No interference The downlink connection between the System Simulator and the UE is without Additive White Gaussian Noise, and has no fading or multipath effects. 3GPP TS 38.521-1 version 19.2.0 Release 19 2217 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex C (normative): Downlink physical channels This annex specifies the downlink physical channels that are needed for setting a connection and channels that are needed during a connection. C.0 Downlink signal levels The downlink power settings in Table C.0-1 is used unless otherwise specified in a test case. If the UE has more than one Rx antenna, the downlink signal is applied to each one. All UE Rx antennas shall be connected. If the UE has one Rx antenna, the downlink signal is applied to it. Table C.0-1: Default Downlink power levels for NR SCS (kHz) Unit Channel bandwidth 3 MHz 5 MHz 10 MHz 15 MHz 20 MHz 25 MHz 30 MHz 35 MHz 40 MHz 50 MHz 60 MHz 70 MHz 80 MHz 90 MHz 100 MHz 15 Number of RBs 15 25 52 79 106 133 160 188 216 270 N/A N/A N/A N/A N/A Channel BW power dBm -62 -60 -57 -55 -54 -53 -52 -51 -51 -50 N/A N/A N/A N/A N/A 30 Number of RBs N/A 11 24 38 51 65 78 92 106 133 162 189 217 245 273 Channel BW power dBm N/A -61 -57 -55 -54 -53 -52 -51 -51 -50 -49 -48 -48 -47 -47 60 Number of RBs N/A N/A 11 18 24 31 38 44 51 65 79 93 107 121 135 Channel BW power dBm N/A N/A -58 -56 -54 -53 -52 -51 -51 -50 -49 -48 -48 -47 -47 RS EPRE dBm/ 15kHz -85 -85 -85 -85 -85 -85 -85 -85 -85 -85 -85 -85 -85 -85 -85 Note 1: The channel bandwidth powers are informative, based on -85dBm/15kHz SS/PBCH SSS EPRE, then scaled according to the number of RBs and rounded to the nearest integer dBm value. Full RE allocation with no boost or deboost is assumed. Note 2: The power level is specified at each UE Rx antenna. Note 3: DL level is applied for any of the Subcarrier Spacing configuration ( ) with the same power spectrum density of - 85dBm/15kHz. The default signal level uncertainty is +/-3dB at each test port, for any level specified. If the uncertainty value is critical for the test purpose, a tighter uncertainty is specified for the related test case in Annex F C.1 General The following clauses, describes the downlink Physical Channels that are transmitted during a connection i.e., when measurements are done. C.2 Setup Table C.2-1 describes the downlink Physical Channels that are required for connection set up. Table C.2-1: Downlink Physical Channels required for connection set-up Physical Channel PBCH SSS PSS 3GPP TS 38.521-1 version 19.2.0 Release 19 2218 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI PDCCH PDSCH PBCH DMRS PDCCH DMRS PDSCH DMRS CSI-RS As common PDSCH and PDCCH configuration parameters the parameters in Table A.3.1-1, A.3.2.1-1, C.2-2, C.2-3, and C.2-4 shall be used to bring up the connection setup for FR1 NR cell. Table C.2-2: PDSCH and PDCCH configuration Parameter Unit Value Number of HARQ processes 8 (TDD) 4 (FDD) Aggregation level CCE 4 Table C.2-3: TDD UL-DL pattern for SCS 15 KHz Parameter Unit UL-DL pattern TDD Slot Configuration pattern (Note 1) DDDSU Special Slot Configuration (Note 2) 10D+2G+2U UL-DL configuration (tdd-UL-DL- ConfigurationCommon) referenceSubcarrierSpacing kHz 15 dl-UL-TransmissionPeriodicity ms 5 nrofDownlinkSlots 3 nrofDownlinkSymbols 10 nrofUplinkSlot 1 nrofUplinkSymbols 2 K1 value (PDSCH-to-HARQ-timing-indicator) [4] if mod(I,5) = 0 [3] if mod(i,5) = 1 [2] if mod(i,5) = 2 [6] if mod(i,5) = 3 Note 1: D denotes a slot with all DL symbols; S denotes a slot with a mix of DL, UL and guard symbols; U denotes a slot with all UL symbols. The field is for information. Note 2: D, G, U denote DL, guard and UL symbols, respectively. The field is for information. Note 3: i is the slot index per frame; i = {0,…,9} Table C.2-4: TDD UL-DL pattern for SCS 30 KHz Parameter Unit UL-DL Pattern TDD Slot Configuration pattern (Note 1) 7DS2U Special Slot Configuration (Note 2) 6D+4G+4U UL-DL configuration (tdd- UL-DL- ConfigurationCommon) referenceSubcarrierSpacing 30 kHz dl-UL- TransmissionPeriodicity 5 nrofDownlinkSlots 7 nrofDownlinkSymbols 6 nrofUplinkSlot 2 nrofUplinkSymbols 4 UL-DL configuration2 (tdd-UL-DL- ConfigurationCommon2) referenceSubcarrierSpacing N/A dl-UL- TransmissionPeriodicity N/A nrofDownlinkSlots N/A nrofDownlinkSymbols N/A nrofUplinkSlot N/A nrofUplinkSymbols N/A K1 value (PDSCH-to-HARQ-timing-indicator) 8 if mod(i,10) = 0 7 if mod(i,10) = 1 6 if mod(i,10) = 2 5 if mod(i,10) = 3 5 if mod(i,10) = 4 3GPP TS 38.521-1 version 19.2.0 Release 19 2219 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 4 if mod(i,10) = 5 3 if mod(i,10) = 6 2 if mod(i,10) = 7 Note 1: D denotes a slot with all DL symbols; S denotes a slot with a mix of DL, UL and guard symbols; U denotes a slot with all UL symbols. The field is for information. Note 2: D, G, U denote DL, guard and UL symbols, respectively. The field is for information. Note 3: i is the slot index per frame; i = {0,…,19} C.3 Connection C.3.0 Measurement of Transmitter Characteristics Unless otherwise stated, Table C.3.0-1 is applicable for measurements on the Transmitter Characteristics (clause 6). Table C.3.0-1: Downlink Physical Channels transmitted during a connection (FDD and TDD) Parameter Unit Value SSS transmit power W Test specific EPRE ratio of PSS to SSS dB 0 EPRE ratio of PBCH to SSS dB 0 EPRE ratio of PBCH to PBCH DMRS dB 0 EPRE ratio of PDCCH to SSS dB 0 EPRE ratio of PDCCH to PDCCH DMRS dB 0 EPRE ratio of PDSCH to SSS dB 0 EPRE ratio of PDSCH to PDSCH DMRS (Note 1) dB -3 EPRE ratio of CSI-RS to SSS dB 0 EPRE ratio of PTRS to PDSCH dB Test specific EPRE ratio of OCNG DMRS to SSS dB 0 EPRE ratio of OCNG to OCNG DMRS (Note 1) dB 0 Note 1: No boosting is applied to any of the channels except PDSCH DMRS. For PDSCH DMRS, 3 dB power boosting is applied assuming DMRS Type 1 configuration when DMRS and PDSCH are TDM’ed and only half of the DMRS REs are occupied. Note 2: Number of DMRS CDM groups without data for PDSCH DMRS configuration for OCNG is set to 1. C.3.1 Measurement of Receiver Characteristics Unless otherwise stated, Table C.3.1-1 is applicable for measurements on the Receiver Characteristics (clause 7). For Adjacent channel selectivity testing, Table C.3.1-2 is applied. Table C.3.1-1: Downlink Physical Channels transmitted during a connection (FDD and TDD) Parameter Unit Value SSS transmit power W Test specific EPRE ratio of PSS to SSS dB 0 EPRE ratio of PBCH to SSS dB 0 EPRE ratio of PBCH to PBCH DMRS dB 0 EPRE ratio of PDCCH to SSS dB 0 EPRE ratio of PDCCH to PDCCH DMRS dB 0 EPRE ratio of PDSCH to SSS dB 0 EPRE ratio of PDSCH to PDSCH DMRS (Note 1) dB -3 EPRE ratio of CSI-RS to SSS dB 0 EPRE ratio of PTRS to PDSCH dB Test specific EPRE ratio of OCNG DMRS to SSS dB 0 EPRE ratio of OCNG to OCNG DMRS (Note 1) dB 0 Note 1: No boosting is applied to any of the channels except PDSCH DMRS. For PDSCH DMRS, 3 dB power boosting is applied assuming DMRS Type 1 configuration when DMRS and PDSCH are TDM’ed and only half of the DMRS REs are occupied. Note 2: Number of DMRS CDM groups without data for PDSCH DMRS configuration for OCNG is set to 1. 3GPP TS 38.521-1 version 19.2.0 Release 19 2220 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Table C.3.1-2: PDCCH Aggregation Level for ACS testing Parameter Unit Value Comment Aggregation level CCE 1 CBW=10MHz when SCS=60kHz 2 CBW=15MHz when SCS=60kHz 4 CBW=5MHz when SCS=15kHz CBW=10,15MHz when SCS=30kHz CBW=20,25,30MHz when SCS=60kHz 8 CBW=10,15MHz when SCS=15kHz CBW=20,25,30MHz when SCS=30kHz CBW=40,50,60,70MHz when SCS=60kHz 16 CBW>15 MHz when SCS=15kHz CBW>30 MHz when SCS=30kHz CBW>70 MHz when SCS=60kHz 3GPP TS 38.521-1 version 19.2.0 Release 19 2221 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex D (normative): Characteristics of the Interfering Signal D.1 General Some RF performance requirements for the NR UE receiver are defined with interfering signals present in addition to the wanted signal. For NR bands with FDL_high< 2700 MHz and FUL_high< 2700 MHz, a modulated 3 or 5MHz full bandwidth NR down link signal, and in some cases an additional CW signal, are used as interfering signal. For NR bands with FDL_low≥ 3300 MHz and FUL_low≥ 3300 MHz, a modulated NR downlink signal which equals to channel bandwidth of the wanted signal for Single Carrier case and Inter-band CA case is used as interfering. For intra- band contiguous CA Bandwidth Class C case, a modulated NR downlink signal which equals to the aggregated channel bandwidth of the wanted signal is used. For intra-band contiguous CA Bandwidth Class D and E case, a modulated 50MHz NR downlink signal is used. And in some cases, an additional CW signal is used. D.2 Interference signals Table D.2-1 and Table D.2-4 describes the modulated interferer for different channel bandwidth options for NR band lower than 2700MHz. Table D.2-1: Description of modulated NR interferer for NR bands with FDL_high< 2700 MHz and FUL_high< 2700 MHz Channel bandwidth 3 MHz 5 MHz 10 MHz 15 MHz 20 MHz 25 MHz 30 MHz 35 MHz RB NOTE1 BWInterferer 3 MHz 5 MHz Channel bandwidth 40 MHz 50 MHz 60 MHz 70 MHz 80 MHz 90 MHz 100 MHz RB NOTE1 BWInterferer 5 MHz NOTE 1: The RB configured for interfering signal is the same as maximum RB number defined in Table 5.3.2-1 for each sub-carrier spacing. Table D.2-2 and Table D.2-3 describe the modulated interferer for different channel bandwidth options for NR band higher than 3300MHz. Table D.2-2: Description of modulated NR interferer for NR bands with FDL_low≥ 3300 MHz and FUL_low≥ 3300 MHz Channel bandwidth 10 MHz 15 MHz 20 MHz 30 MHz 35MHz 40 MHz 50 MHz 60 MHz 70 MHz 80 MHz 90 MHz 100 MHz RB NOTE1 BWInterferer 10 MHz 15 MHz 20 MHz 30 MHz 35MHz 40 MHz 50 MHz 60 MHz 70 MHz 80 MHz 90 MHz 100 MHz NOTE 1: The RB configured for interfering signal is the same as maximum RB number defined in Table 5.3.2-1 for each sub-carrier spacing. Table D.2-3: Description of modulated NR interferer for NR bands with FDL_low≥ 3300 MHz and FUL_low≥ 3300 MHz for Intra-band contiguous CA Aggregated Channel bandwidth of Bandwidth Class C Bandwidth Class D/E 110 MHz 120 MHz 130 MHz 140 MHz 150 MHz 160 MHz 180 MHz 200 MHz RB(SCS=30 kHz) Note 1 133 RB(SCS=60 kHz) Note 1 65 3GPP TS 38.521-1 version 19.2.0 Release 19 2222 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI BWInterferer 110 MHz 120 MHz 130 MHz 140 MHz 150 MHz 160 MHz 180 MHz 200 MHz 50MHz NOTE 1: The interfering signal shall be configured in the same way as the aggregated bandwidth of the wanted signal. The RB configurations for each component carrier are defined in Table 5.3.2-1 for each sub-carrier spacing. Table D.2-4: Description of modulated NR interferer for NR bands with FDL_low < 2700 MHz and FUL_low < 2700 MHz for Intra-band contiguous CA Bandwidth Class B Bandwidth Class C RB NOTE 1 NOTE 1 BWInterferer 5 MHz 5 MHz NOTE 1: The RB configured for interfering signal is the same as maximum RB number defined in Table 5.3.2-1 for each sub-carrier spacing. 3GPP TS 38.521-1 version 19.2.0 Release 19 2223 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex E (normative): Global In-Channel TX-Test NOTE: Clauses E.2.2 to E.5.9.3 are descriptions, which assume no power ramping adjacent to the measurement period. E.1 General The global in-channel TX test enables the measurement of all relevant parameters that describe the in-channel quality of the output signal of the TX under test in a single measurement process. The parameters describing the in-channel quality of a transmitter, however, are not necessarily independent. The algorithm chosen for description inside this annex places particular emphasis on the exclusion of all interdependencies among the parameters. E.2 Signals and results E.2.1 Basic principle The process is based on the comparison of the actual output signal of the TX under test, received by an ideal receiver, with a reference signal, that is generated by the measuring equipment and represents an ideal error free received signal. All signals are represented as equivalent (generally complex) baseband signals. The description below uses numbers as examples. These numbers are taken from FDD with normal CP length and 100 MHz bandwidth with 30 kHz SCS. The application of the text below, however, is not restricted to this frame structure and bandwidth. E.2.2 Output signal of the TX under test The output signal of the TX under test is acquired by the measuring equipment and stored for further processing. It is sampled at a sampling rate of 122.88 Mbps. In the time domain it comprises at least n uplink slots, where for basic EVM measurement, 10, for 15 kHz SCS 20, for 30 kHz SCS 40, for 60 kHz SCS n   =   ; For Error Vector Magnitude including symbols with transient periods = 108 for 15 kHz SCS 216 for 30 kHz SCS The measurement period is derived by concatenating the correct number of individual uplink slots until the correct measurement period is reached. The output signal is named z(ν). Each slot is modelled as a signal with the following parameters: demodulated data content, carrier frequency, amplitude and phase for each subcarrier, timing, carrier leakage. Since the uplink subframes are not continuous, n slots should be extracted from more than 1 continuous radio frame. E.2.3 Reference signal Two types of reference signal are defined: The reference signal i1(ν) is constructed by the measuring equipment according to the relevant TX specifications, using the following parameters: demodulated data content, nominal carrier frequency, nominal amplitude and phase for each subcarrier, nominal timing, no carrier leakage. It is represented as a sequence of samples at a sampling rate of 122.88 Msps in the time domain. 3GPP TS 38.521-1 version 19.2.0 Release 19 2224 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI The reference signal i2(ν) is constructed by the measuring equipment according to the relevant TX specifications, using the following parameters: restricted data content: nominal reference symbols, (all modulation symbols for user data symbols are set to 0V), nominal carrier frequency, nominal amplitude and phase for each applicable subcarrier, nominal timing, no carrier leakage. It is represented as a sequence of samples at a sampling rate of 122.88 Msps in the time domain. NOTE: The PUCCH is off during the time under test. E.2.4 Measurement results The measurement results, achieved by the global in channel TX test are the following: - Carrier Frequency error - EVM (Error Vector Magnitude) - Carrier leakage - Unwanted emissions, falling into non allocated resource blocks. - EVM equalizer spectrum flatness E.2.5 Measurement points The unwanted emission falling into non-allocated RB(s) is calculated directly after the FFT as described below. In contrast to this, the EVM for the allocated RB(s) is calculated after the IDFT for DFT-s-OFDM or after the Tx-Rx chain equalizer for CP-OFDM. The samples after the TX-RX chain equalizer are used to calculate EVM equalizer spectrum flatness. Carrier frequency error and carrier leakage is calculated in the block “RF correction”. In case the parameter 3300 or 3301 is reported from UE via txDirectCurrentLocation IE (as defined in TS 38.331 [6]), carrier leakage measurement in the RF correction block shall be omitted. All statements from Annex E.3 onwards shall be read assuming that no carrier leakage has been measured. Figure E.2.5-1: EVM measurement points E.3 Signal processing E.3.1 Pre FFT minimization process Before applying the pre-FFT minimization process, z(ν) and i(ν) are portioned into n pieces, comprising one slot each, where n is as defined in Annex E.2.2. For handling of sidelink transmission, the transmission gap of one symbol at the end of each slot is excluded in following process. Each slot is processed separately. Sample timing, Carrier frequency and carrier leakage in z(ν) are jointly varied in order to minimise the difference between z(ν) and i(ν). Best fit (minimum difference) is achieved when the RMS difference value between z(ν) and i(ν) is an absolute minimum. 3GPP TS 38.521-1 version 19.2.0 Release 19 2225 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI The carrier frequency variation and the IQ variation are the measurement results: Carrier Frequency Error and Carrier leakage. From the acquired samples 10 carrier frequencies can be derived by averaging frequency errors for every 1, 2 or 4 slots for 15, 30 and 60 kHz SCS. From the acquired samples n carrier frequencies and n carrier leakages can be derived. NOTE 1: The minimisation process, to derive carrier leakage and RF error can be supported by Post FFT operations. However the minimisation process defined in the pre FFT domain comprises all acquired samples (i.e. it does not exclude the samples in between the FFT widths and it does not exclude the bandwidth outside the transmission bandwidth configuration NOTE 2: The algorithm would allow deriving Carrier Frequency error and Sample Frequency error of the TX under test separately. However there are no requirements for Sample Frequency error. Hence the algorithm models the RF and the sample frequency commonly (not independently). It returns one error and does not distinguish between both. After this process the samples z(ν) are called z0(ν). E.3.2 Timing of the FFT window The FFT window length is 4096 samples per OFDM symbol. 14 FFTs (57344 samples) cover less than the acquired number of samples (61440 samples). The position in time for FFT must be determined. In an ideal signal, the FFT may start at any instant within the cyclic prefix without causing an error. The TX filter, however, reduces the window. The EVM requirements shall be met within a window W<CP. There are three different instants for FFT: Centre of the reduced window, called , –W/2 and +W/2. The timing of the measured signal is determined in the pre FFT domain as follows, using z0(ν) and i2(ν) : 1. The measured signal is delay spread by the TX filter. Hence the distinct boarders between the OFDM symbols and between Data and CP are also spread and the timing is not obvious. 2. In the Reference Signal i2(ν) the timing is known. 3. Correlation between (1.) and (2.) will result in a correlation peak. The meaning of the correlation peak is approx. the “impulse response” of the TX filter. The meaning of “impulse response” assumes that the autocorrelation of the reference signal i2(ν) is a Dirac peak and that the correlation between the reference signal i2(ν) and the data in the measured signal is 0. The correlation peak, (the highest, or in case of more than one, the earliest) indicates the timing in the measured signal. From the acquired samples, n timings can be derived, where n is as defined in Annex E.2.2. For all calculations, except EVM, the number of samples in z0(ν) is reduced to 14 blocks of samples, comprising 4096 samples (FFT width) and starting with in each OFDM symbol including the demodulation reference signal. For the EVM calculation the output signal under test is reduced to 28 blocks of samples, comprising 4096 samples (FFT width) and starting with –W/2 and +W/2 in each OFDM symbol including the demodulation reference signal. The number of samples, used for FFT is reduced compared to z0(ν). This subset of samples is called z’(ν). The timing of the centre with respect to the different CP length in a slot is as follows: (FDD, normal CP length) is on Tf=144 (=CP/2) within the CP of length 288 FFT samples (in OFDM symbols except 0 and 14 (=7 ⋅2), where symbol 0 is the first symbol of each subframe) for 100 MHz channel bandwidth and SCS = 30 kHz. is on Tf=208 (=352-144) within the CP of length 352 FFT samples (in OFDM symbol 0 and 14 (=7 ⋅2), where symbol 0 is the first symbol of each subframe) for 100 MHz channel bandwidth and SCS = 30 kHz. c~ Δ c~ Δ c~ Δ c~ Δ c~ Δ c~ Δ c~ Δ c~ Δ c~ Δ 3GPP TS 38.521-1 version 19.2.0 Release 19 2226 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI E.3.3 Post FFT equalisation Perform 14 FFTs on z’(ν), one for each OFDM symbol in a slot using the timing , including the demodulation reference symbol. The result is an array of samples, 14 in the time axis t times 4096 in the frequency axis f. The samples represent the data symbols (in OFDM-symbol 0,1,3,4,5,6,8,9,10,12,13 in each slot) and demodulation reference symbols (OFDM symbol 2, 7, 11 in each slot) in the allocated RBs and inband emissions in the non-allocated RBs within the transmission BW. Only the allocated resource blocks in the frequency domain are used for equalisation. The nominal demodulation reference symbols and nominal data symbols are used to equalize the measured data symbols. (Location for equalization see Figure E.2.5-1) NOTE: The nomenclature inside this note is local and not valid outside. The nominal data symbols are created by a demodulation process. The location to gain the demodulated data symbols is “EVM” in Figure E.2.5-1. For CP-OFDM, the process described in Annex E.5 can be applied. A demodulation process as follows is recommended for DFT-s-OFDM: 1. Equalize the measured data symbols using the reference symbols for equalisation. Result: Equalized data symbols 2. Only for DFT-s-OFDM, iDFT transform the equalized data symbols: Result: Equalized data symbols 3. Decide for the nearest constellation point: Result: Nominal data symbols 4. Only for DFT-s-OFDM, DFT transform the nominal data symbols: Result: Nominal data symbols At this stage we have an array of Measured data-Symbols and reference-Symbols (MS(f,t)) versus an array of Nominal data-Symbols and reference Symbols (NS(f,t)) (complex, the arrays comprise 11 data symbols and 3 demodulation reference symbol in the time axis and the number of allocated subcarriers in the frequency axis.) MS(f,t) and NS(f,t) are processed with a least square (LS) estimator, to derive one equalizer coefficient per time slot and per allocated subcarrier. EC(f) is defined as . With * denoting complex conjugation. EC(f) are used to equalize the DFT-coded data symbols. The measured DFT-coded data and the references symbols are equalized by: Z’(f,t) = MS(f,t) . EC(f) With . denoting multiplication. Z’(f,t), restricted to the data symbol (excluding t=2,7,11) is used to calculate EVM, as described in E.4.1. EC(f) is used in E.4.4.1 to calculate EVM equalizer spectral flatness. NOTE: The post FFT minimisation process is done over 14 symbols (11 DFT-coded data symbols and 3 reference symbols). The samples of the non-allocated resource blocks within the transmission bandwidth configuration in the post FFT domain are called Y(f,t) (f covering the non-allocated subcarriers within the transmission bandwidth configuration, t covering the OFDM symbols during 1 slot). c~ Δ 3GPP TS 38.521-1 version 19.2.0 Release 19 2227 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI E.4 Derivation of the results E.4.1 EVM For EVM create two sets of Z’(f,t)., according to the timing ” –W/2 and +W/2” using the equalizer coefficients from E.3.3. Perform the iDFTs on Z’(f,t) in the case of DFT-s-OFDM waveform. The IDFT-decoding preserves the meaning of t but transforms the variable f (representing the allocated sub carriers) into another variable g, covering the same count and representing the demodulated symbols. The samples in the post IDFT domain are called iZ’(g, t). The equivalent ideal samples are called iI(g,t). Those samples of Z’(f,t), carrying the reference symbols (=symbol 2,7,11) are not iDFT processed. The EVM is the difference between the ideal waveform and the measured and equalized waveform for the allocated RB(s) , where t covers the count of demodulated symbols with the considered modulation scheme being active within the measurement period, (i.e. symbol 0,1,3,4,5,6,8,9,10,12,13 in each slot, \|T\|=11) g covers the count of demodulated symbols with the considered modulation scheme being active within the allocated bandwidth. (\|G\|=12* (with : number of allocated resource blocks)). are the samples of the signal evaluated for the EVM. is the ideal signal reconstructed by the measurement equipment, and is the average power of the ideal signal. For normalized modulation symbols is equal to 1. From the acquired samples 2n EVM values can be derived, n values for the timing –W/2 and n values for the timing +W/2 where n is as defined in Annex E.2.2. E.4.2 Averaged EVM EVM is averaged over all basic EVM measurements. The averaging comprises n UL slots = 1 where n is as defined in Annex E.2.2for PUCCH, PUSCH. The averaging is done separately for timing¦ –W/2 and +W/2 leading to and is compared against the test requirements. c~ Δ c~ Δ ( ) ( ) 0 2 , , ' P T G t g iI t g iZ EVM G g T t ⋅ ⋅ − =   ∈ ∈ CRBs L CRBs L ( )t g iZ , ' ( )t g iI , 0P 0P c~ Δ c~ Δ c~ Δ c~ Δ l EVM h EVM ) EVM , EVM max( l final h EVM = 3GPP TS 38.521-1 version 19.2.0 Release 19 2228 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI E.4.3 In-band emissions measurement The in-band emissions are a measure of the interference falling into the non-allocated resources blocks. Explanatory Note: The inband emission measurement is only meaningful with allocated RB(s) next to non-allocated RB. The allocated RB(s) are necessary but not under test. The non-allocated RBs are under test. The RB allocation for this test is as follows: The allocated RB(s) are at one end of the channel BW, leaving the other end unallocated. The number of allocated RB(s) is smaller than half of the number of RBs, available in the channel BW. This means that the vicinity of the carrier in the centre is unallocated. There are 3 types of inband emissions: 1. General 2. IQ image 3. Carrier leakage Carrier leakage are inband emissions next to the carrier. IQ image are inband emissions symmetrically (with respect to the carrier) on the other side of the allocated RBs. General are applied to all unallocated RBs. For each evaluated RB, the minimum requirement is calculated as the higher of PRB - 30 dB and the power sum of all limit values (General, IQ Image or Carrier leakage) that apply. In specific the following combinations: - Power (General) - Power (General + Carrier leakage) - Power (General + IQ Image) 1 and 2 is expressed in terms of power in one non allocated RB under test, normalized to the average power of an allocated RB (unit dB). 3 is expressed in terms of power in one non allocated RB, normalized to the power of all allocated RBs. (unit dBc). This is the reason for two formulas Emissions relative. Create one set of Y(t,f) per slot according to the timing “ ” For the non-allocated RBs below the in-band emissions are calculated as follows , where the upper formula represents the in band emissions below the allocated frequency block and the lower one the in band emissions above the allocated frequency block. is a set of DFT-s-OFDM symbols with the considered modulation scheme being active within the measurement period, c~ Δ       > Δ < Δ = Δ     ∈ Δ Δ ⋅ + Δ − Δ ⋅ + ∈ Δ + Δ ⋅ + Δ Δ ⋅ + 0 , ) , ( 1 0 , ) , ( 1 ) ( )) * 12 (, min( * ) 11 12 ( 2 * ) 11 12 ( )) * 12 (, max( 2 max min RB T t f c f f c s RB T t f c f c f s RB absolute s RB h RB h s RB l RB l f t Y T f t Y T Emissions sT sT 3GPP TS 38.521-1 version 19.2.0 Release 19 2229 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI is the starting frequency offset between the allocated RB and the measured non-allocated RB (e.g. for the first upper or for the first lower adjacent RB), and are the lower and upper edge of the UL transmission BW configuration, and are the lower and upper edge of the allocated BW, is the SCS, and is the frequency domain signal evaluated for in-band emissions as defined in the clause E.3.3 The allocated RB power per RB and the total allocated RB power are given by: The relative in-band emissions, applicable for General and IQ image, are given by: where is the number of allocated resource blocks, and is the frequency domain samples for the allocated bandwidth, as defined in the clause E.3.3. The relative in-band emissions, applicable for carrier leakage, is given by: where DCRB is one RB or one pair of RBs, depending whether the DC carrier is inside an RB or in-between two RBs. Although an exclusion period may be applicable in the time domain, when evaluating EVM, the inband emissions measurement interval is defined over one complete slot in the time domain. RB Δ 1 = ΔRB 1 − = ΔRB min f max f lc h c f Δ ( ) f t Y , dBm] [ ) , ( MS 1 * ) 1 12 ( lc lc 2   ∈ Δ − ⋅ + − = s T t f CRBs L s RBs All f t T P CRBs L ( ) f t, MS [dBm] ] [dBm/12 ) ( [dBc] ) , ( MS 1 ) ( log 10 )1 12 ( c c 2 10 l l RBs All absolute f L T t s absolute relative P f DCRB Emissions f t T DCRB Emissions Emissions CRBs s − Δ ⋅ − ⋅ + ∈ − Δ =             ⋅ =   3GPP TS 38.521-1 version 19.2.0 Release 19 2230 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI From the acquired samples n functions for general in band emissions and IQ image inband emissions can be derived, where n is as defined in Annex E.2.2. n values or n pairs of carrier leakage inband emissions can be derived. They are compared against different limits after the final averaging: The in-band emissions are averaged over the n samples (equivalent to 10 UL subframes): , 1 1 ( ) ( ) n absolute RB absolute i RB i Emissions Emissions n = Δ = Δ  ( ) , /10 10 1 1 ( ) 10log 10 [ ] relative i RB n Emissions relative RB i Emissions dB n Δ =   Δ =      , /10 10 1 1 10log 10 [ ] relative i n Emissions relative i Emissions dBc n =   =      E.4.4 EVM equalizer E.4.4.1 EVM equalizer spectrum flatness For EVM equalizer spectrum flatness use EC(f) as defined in E.3.3. Note, EC(f) represents equalizer coefficient F f ∈， f is the allocated subcarriers within the transmission bandwidth ((\|F\|=12* CRBs L ) From the acquired samples n functions EC(f) can be derived, where n is as defined in Annex E.2.2. EC(f) is broken down to 2 functions: 1 ), f( EC1 Range f ∈ 2 ), f( EC2 Range f ∈ Where Range 1 and Range 2 are as defined for Clause 6.4.2.4 in Table 6.4.2.4.5-1 for normal condition and Table 6.4.2.4.5-2 for extreme condition and for Clause 6.4.2.5 as in Table 6.4.2.5.5-1. The following peak to peak ripple is calculated: \|)) ) f( EC min(\| / \|) ) f( EC (\| (max log * 0 2 RP 1 1 1 = ,which denote the maximum ripple in Range 1 \|)) ) f( EC min(\| / \|) ) f( EC (\| (max log * 0 2 RP 2 2 2 = ,which denote the maximum ripple in Range 2 \|)) ) f( EC min(\| / \|) ) f( EC (\| (max log * 0 2 RP 2 1 12 = ,which denote the maximum ripple between the upper side of Range 1 and lower side of Range 2 \|)) ) f( EC min(\| / \|) ) f( EC (\| (max log * 0 2 RP 1 2 21 = ,which denote the maximum ripple between the upper side of Range 2 and lower side of Range 1 E.4.4.2 EVM equalizer spectral shaping filter The calculation of the impulse response of the spectral shaping filter is based on EC(f) as defined in E.3.3. Note that EC(f) represents complex valued equalizer coefficient with F f ∈，where f is the allocated subcarriers within the transmission bandwidth (\|F\|=12* CRBs L ). 3GPP TS 38.521-1 version 19.2.0 Release 19 2231 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI EC’(f) is the corrected version of EC(f) by shifting by Tf. Tf is as defined in Clause E.3.2. The impulse responses are the IDFT transformed equalizer coefficients: ' 1 ( ) ( ) a IDFT EC f   τ =     , where f is the frequency of the M allocated subcarriers. The impulse response is normalized to its first value. ( ) ( ) ( ) 0 ã a a τ = τ This is equivalent to defining the 0dB as 20log10│ãt(0)│. From the acquired samples, n functions ( ) ã τ can be derived, where n is as defined in Annex E.2.2. Note, that this method provides reasonable results only in the case of full allocations. E.4.5 Frequency error and Carrier leakage See E.3.1. E.4.6 EVM of Demodulation reference symbols (EVMDMRS) For the purpose of EVM DMRS, the steps E.2.2 to E.4.2 are repeated 6 times, constituting 6 EVM DMRS sub-periods. The only purpose of the repetition is to cover the longer gross measurement period of EVM DMRS ( time slots) and to derive the FFT window timing per sub-period. The bigger of the EVM results in one n TS period corresponding to the timing¦ c~ Δ –W/2 or c~ Δ +W/2 is compared against the limit, where n is as defined in Annex E.2.2. (Clause E.4.2) This timing is re-used for EVM DMRS in the equivalent EVM DMRS sub-period. For EVM the demodulation reference symbols are excluded, while the data symbols are used. For EVMDMRS the data symbols are excluded, while the demodulation references symbols are used. This is illustrated in figure E.4.6-1 DFT IFFT TX Front -end Channel RF correctio FFT Tx-Rx chain equalizer 0 0 … … … IDFT DUT Tx Test equipment Rx … … … … … … … … … DMRS EVM meas. of CP-OFDM DM-RS, DFT-s-OFDM DM- RS Type 1 EVM meas. of DFT-s-OFDM DM- RS Type 2 Figure E.4.6-1: EVMDMRS measurement points Re-use the following formula from E.3.3: Z’(f,t) = MS(f,t) . EC(f) To calculate EVMDMRS , the data symbol (t=0,1,3,4,5,6,8,9,10,12,13) in Z’(f,t) are excluded and only the reference symbols (t=2,7,11) are used. The EVM DMRS is the difference between the ideal waveform and the measured and equalized waveform for the allocated RB(s) 3GPP TS 38.521-1 version 19.2.0 Release 19 2232 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI ( ) ( ) F P T t f I t f Z EVM F f T t DMRS ⋅ ⋅ − =   ∈ ∈ 0 2 , , ' , where t covers the count of demodulation reference symbols (i.e. symbols 2,7,11 in each slot, so count=3) f covers the count of demodulation reference symbols within the allocated bandwidth. (\|F\|=12* CRBs L (with CRBs L : number of allocated resource blocks)). ( )t f Z , ' are the samples of the signal evaluated for the EVM DMRS ( )t f I , is the ideal signal reconstructed by the measurement equipment, and 0P is the average power of the ideal signal. For normalized modulation symbols 0P is equal to 1. n such results are generated per measurement sub-period, where n is as defined in Annex E.2.2. E.4.6.1 1st average for EVM DMRS EVM DMRS is averaged over all basic EVM DMRS measurements in one sub-period The averaging comprises n UL slots , where n is as defined in Annex E.2.2. The timing is taken from the EVM for the data. 6 of those results are achieved from the samples. In general the timing is not the same for each result. E.4.6.2 Final average for EVM DMRS E.4.7 Modified signal under test Implicit in the definition of EVM is an assumption that the receiver is able to compensate a number of transmitter impairments. The DFT-s-OFDM modulated signals or PRACH signal under test is modified and, in the case of DFT-s-OFDM modulated signals, decoded according to: { }       ⋅ ⋅ Δ − = Δ Δ − ) , ( ~ ~ 2 ~ 2 ) , ( ~ . ) ~ ( ) , (' f t j t f j vf j e f t a e e t v z FFT IDFT f t Z ϕ π π 3GPP TS 38.521-1 version 19.2.0 Release 19 2233 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI where ) (v z is the time domain samples of the signal under test. The CP-OFDM modulated signals or PUSCH demodulation reference signal or PUCCH data signal under test is equalised and, in the case of CP-OFDM modulated signals decoded according to: { } ) , ( ~ ~ 2 ~ 2 ) , ( ~ . ) ~ ( ) , (' f t j t f j vf j e f t a e e t v z FFT f t Z ϕ π π ⋅ ⋅ Δ − = Δ Δ − where ) (v z is the time domain samples of the signal under test. To minimize the error, the signal under test should be modified with respect to a set of parameters following the procedure explained below. Notation: t~ Δ is the sample timing difference between the FFT processing window in relation to nominal timing of the ideal signal. f~ Δ is the RF frequency offset. ) ,(~ f t ϕ is the phase response of the TX chain. ) ,(~ f t a is the amplitude response of the TX chain. In the following c~ Δ represents the middle sample of the EVM window of length W (defined in the next clauses) or the last sample of the first window half if W is even. The EVM analyser shall - detect the start of each slot and estimate t~ Δ and f~ Δ , - determine c~ Δ so that the EVM window of length W is centred - on the time interval determined by the measured cyclic prefix minus 16κ samples of the considered OFDM symbol for symbol l for subcarrier spacing configuration µ in a subframe, with l = 0 or l = 72^µ for normal CP, i.e. the first 16κ samples of the CP should not be taken into account for this step. In the determination of the number of excluded samples, a sampling rate of 1/Tc is assumed. If a different sampling rate is used, the number of excluded samples is scaled linearly. - on the measured cyclic prefix of the considered OFDM symbol for all other symbols for normal CP and for symbol 0 to 11 for extended CP. - on the measured preamble cyclic prefix for the PRACH To determine the other parameters a sample timing offset equal to c~ Δ is corrected from the signal under test. The EVM analyser shall then - correct the RF frequency offset f~ Δ for each time slot, and - apply an FFT of appropriate size. The chosen FFT size shall ensure that in the case of an ideal signal under test, there is no measured inter-subcarrier interference. 3GPP TS 38.521-1 version 19.2.0 Release 19 2234 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI The carrier leakage shall be removed from the evaluated signal before calculating the EVM and the in-band emissions; however, the removed relative carrier leakage power also has to satisfy the applicable requirement. At this stage the allocated RBs shall be separated from the non-allocated RBs. In the case of PUCCH and PUSCH EVM, the signal on the non-allocated RB(s), ( ) f t Y , , is used to evaluate the in-band emissions. Moreover, the following procedure applies only to the signal on the allocated RB(s). - In the case of PUCCH and PUSCH, the UL EVM analyzer shall estimate the TX chain equalizer coefficients ) , ( ~ f t a and ) , ( ~ f t ϕ used by the ZF equalizer for all subcarriers by time averaging at each signal subcarrier of the amplitude and phase of the reference and data symbols. The time-averaging length is 1 slot. This process creates an average amplitude and phase for each signal subcarrier used by the ZF equalizer. The knowledge of data modulation symbols may be required in this step because the determination of symbols by demodulation is not reliable before signal equalization. - In the case of PRACH, the UL EVM analyzer shall estimate the TX chain coefficients ) ( ~ t a and ) ( ~ t ϕ used for phase and amplitude correction and are selected so as to minimize the resulting EVM. The TX chain coefficients are not dependent on frequency, i.e. ) ( ~ ) , ( ~ t a f t a = and ) ( ~ ) , ( ~ t f t ϕ ϕ = . The TX chain coefficient are chosen independently for each preamble transmission and for each t~ Δ . At this stage estimates of f~ Δ , ) , ( ~ f t a , ) , ( ~ f t ϕ and c~ Δ are available. t~ Δ is one of the extremities of the window W , i.e. t~ Δ can be     − + Δ 2 ~ W c α or     + Δ 2 ~ W c , where 0 = α if W is odd and 1 = α if W is even. The EVM analyser shall then - calculate EVMl with t~ Δ set to     − + Δ 2 ~ W c α , - calculate EVMh with t~ Δ set to     + Δ 2 ~ W c . For the EVM calculation on the symbols with a transient period when the UE signals a transient period capability (tp) of 2, 4 or 7usec, ̃ is given below. - calculate EVMl_tp with ̃ set to + 1, where is 1/Tc the sampling rate - calculate EVMh_tp with ̃ set to −1, where 1/Tc is the sampling rate and the CP is the cyclic prefix of the symbol on which EVM is calculated (e.g. long CP for the first symbol of the slot) in seconds A pictorial representation of the EVM measurement windows is given in Figure F.4-1. EVMh EVMl EVMh EVMl Symbol before transient Symbol after transient Symbol without transient for EVMh t~ Δ for EVMl_tp t~ Δ for EVMh_tp t~ Δ tpstart tp EVMl_tp EVMh_tp CP for EVMl t~ Δ Figure E.4.7-1: EVM measurement window 3GPP TS 38.521-1 version 19.2.0 Release 19 2235 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI E.4.8 EVM measurement for multiple Tx For UE with multiple transmission antennas, if UE indicates Tx diversity capability, EVM is measured at each antenna connector to get EVMi, and the total EVM is calculated by values of EVMi with weighting factor of linear power at each antenna connector. = ∑ ∗ ∑ where k=2, 3, 4, and Pi denote the linear power measured at each antenna connector respectively. E.4.9 Phase offset measurement for DMRS bundling E.4.9.1 Measurement point The measurement point for phase offset measurement is defined in Figure F.9.1-1. IFFT ... ... ... ... Tone Map DFT CP-OFDM DMRS PUSCH PUCCH TX Front-End channel RF Correction FFT ... ... ... ... Channel Estimation equalization Phase offset for DMRS bundling Figure E.4.9.1-1: Measurement point for phase offset for DMRS bundling E.4.9.2 Symbols used Phase offset is determined based on DMRS REs (3 DMRS symbols per slot) with the option to use data symbols. E.4.9.3 Modified test signal Same as described in Annex E.4.7. E.4.9.4 Phase offset measurement The phase offset measurement is based on the phase response of the Tx chain ) , ( ~ f t ϕ as derived based on Annex F.4. The subcarrier at the carrier leakage frequency of the transmitted signal shall be excluded from the measured subcarriers. The phase difference ∆ for each measured subcarrier between a reference timeslot tref and the measurement timeslot tm is then calculated as defined below. ∆ = , − ( , ) The phase offset between the reference and measurement timeslots are then calculated as the maximum over the results for all measured subcarriers as shown below: ℎ = max (\|∆ \|) E.5 EVM and inband emissions for PUCCH For the purpose of worst case testing, the PUCCH shall be located on the edges of the Transmission Bandwidth Configuration. 3GPP TS 38.521-1 version 19.2.0 Release 19 2236 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI The EVM for PUCCH (EVMPUCCH) is averaged over n slots, where n is as defined in Annex E.2.2. At least n TSs shall be transmitted by the UE without power change. SRS multiplexing shall be avoided during this period. The following transition periods are applicable: One OFDM symbol on each side of the slot border (instant of band edge alternation). The description below is generic in the sense that all 5 PUCCH formats are covered. Although the number of OFDM symbols in one slot can be different from 14 (depending on the format, configuration and cyclic prefix length), the text below uses 14 without excluding the others. E.5.1 Basic principle The basic principle is the same as described in E.2.1 E.5.2 Output signal of the TX under test The output signal of the TX under test is processed same as described in E.2.2 E.5.3 Reference signal The reference signal is defined same as in E.2.3. Same as in E.2.3, i1(ν) is the ideal reference for EVMPUCCH and i2(ν) is used to estimate the FFT window timing. Note PUSCH is off during the PUCCH measurement period. E.5.4 Measurement results The measurement results are: - EVMPUCCH - Inband emissions with the sub-results: General in-band emission, IQ image (according to: 38.101. Annex F.4, Clause starting with: “At this stage the ….”) E.5.5 Measurement points The measurement points are illustrated in Figure E.2.5-1. E.5.6 Pre FFT minimization process The pre FFT minimisation process is the same as describes in clause E.3.1. NOTE: although an exclusion period for EVMPUCCH is applicable in E.5.9.1, the pre FFT minimisation process is done over the complete slot. RF error, and carrier leakage are necessary for best fit of the measured signal towards the ideal signal in the pre FFT domain. However they are not used to compare them against the limits. E.5.7 Timing of the FFT window Timing of the FFT window is estimated with the same method as described in E.3.2. E.5.8 Post FFT equalisation The post FFT equalisation is described separately without reference to E.3.3: Perform 14 FFTs on z’(ν), one for each OFDM symbol in a slot using the timing c~ Δ , including the demodulation reference symbol. The result is an array of samples, 14 in the time axis t times 4096 in the frequency axis f. The samples represent the OFDM symbols (data and reference symbols) in the allocated RBs and inband emissions in the non-allocated RBs within the transmission BW. 3GPP TS 38.521-1 version 19.2.0 Release 19 2237 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Only the allocated resource blocks in the frequency domain are used for equalisation. The nominal reference symbols and nominal OFDM data symbols are used to equalize the measured data symbols. Note: (The nomenclature inside this note is local and not valid outside) The nominal OFDM data symbols are created by a demodulation process. A demodulation process as follows is recommended: 1. Equalize the measured OFDM data symbols using the reference symbols for equalisation. Result: Equalized OFDM data symbols 2. Decide for the nearest constellation point, however not independent for each subcarrier in the RB. 12 constellation points are decided dependent, using the applicable CAZAC sequence. Result: Nominal OFDM data symbols At this stage we have an array of Measured data-Symbols and reference-Symbols (MS(f,t)) versus an array of Nominal data-Symbols and reference Symbols (NS(f,t)) The arrays comprise in sum 14 data and reference symbols, depending on the PUCCH format, in the time axis and the number of allocated sub-carriers in the frequency axis. MS(f,t) and NS(f,t) are processed with a least square (LS) estimator, to derive one equalizer coefficient per time slot and per allocated subcarrier. EC(f)   = = = 13 0 13 0 * ) , ( ) , ( ) , ( ) , ( ) ( t t t f NS t f MS t f NS t f NS f EC With * denoting complex conjugation. EC(f) are used to equalize the OFDM data together with the demodulation reference symbols by: Z’(f,t) = MS(f,t) . EC(f) With . denoting multiplication. Z’(f,t) is used to calculate EVMPUCCH, as described in E.5.9 1 NOTE: although an exclusion period for EVMPUCCH is applicable in E.5.9.1, the post FFT minimisation process is done over 14 OFDM symbols. The samples of the non-allocated resource blocks within the transmission bandwidth configuration in the post FFT domain are called Y(f,t) (f covering the non-allocated subcarriers within the transmission bandwidth configuration, t covering the OFDM symbols during 1 slot). E.5.9 Derivation of the results E.5.9.1 EVMPUCCH For EVMPUCCH create two sets of Z’(f,t)., according to the timing ” c~ Δ –W/2 and c~ Δ +W/2” using the equalizer coefficients from E.5.8 The EVMPUCCH is the difference between the ideal waveform and the measured and equalized waveform for the allocated RB(s) ( ) ( ) F P T t f I t f Z EVM F f T t PUCCH ⋅ ⋅ − =   ∈ ∈ 0 2 , , ' , where 3GPP TS 38.521-1 version 19.2.0 Release 19 2238 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI the OFDM symbols next to transition boarders (instant of PUCCH frequency hopping) are excluded: t covers less than the count of demodulated symbols in the slot (\|T\|= 12) f covers the count of subcarriers within the allocated bandwidth. (\|F\|=12) ( )t f Z , ' are the samples of the signal evaluated for the EVMPUCCH ( )t f I , is the ideal signal reconstructed by the measurement equipment, and 0P is the average power of the ideal signal. For normalized modulation symbols 0P is equal to 1. From the acquired samples 2n EVMPUCCH value can be derived, n values for the timing c~ Δ –W/2 and n values for the timing c~ Δ +W/2, where n is as defined in Annex E.2.2. E.5.9.2 Averaged EVMPUCCH EVMPUCCH is averaged over all basic EVMPUCCH measurements The averaging comprises n UL slots , where n is as defined in Annex E.2.2. The averaging is done separately for timing¦ c~ Δ –W/2 and c~ Δ +W/2 leading to low PUCCH EVM , and high PUCCH EVM , high PUCCH low PUCCH final PUCCH EVM EVM EVM , , , , max( = is compared against the test requirements. E.5.9.3 In-band emissions measurement The in-band emissions are a measure of the interference falling into the non-allocated resources blocks Create one set of Y(t,f) per slot according to the timing “ c~ Δ ” For the non-allocated RBs the in-band emissions are calculated as follows       > Δ < Δ = Δ     ∈ Δ Δ ⋅ + Δ − Δ ⋅ + ∈ Δ + Δ ⋅ + Δ Δ ⋅ + 0 , ) , ( 1 0 , ) , ( 1 ) ( )) * 12 (, min( * ) 11 12 ( 2 * ) 11 12 ( )) * 12 (, max( 2 max min RB T t f c f f c s RB T t f c f c f s RB absolute s RB h RB h s RB l RB l f t Y T f t Y T Emissions , where the upper formula represents the inband emissions below the allocated frequency block and the lower one the inband emissions above the allocated frequency block. sT is a set of sT OFDM symbols in the measurement period, 3GPP TS 38.521-1 version 19.2.0 Release 19 2239 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI RB Δ is the starting frequency offset between the allocated RB and the measured non-allocated RB (e.g. 1 = Δ RB for the first upper or 1 − = Δ RB for the first lower adjacent RB), min f and max f are the lower and upper edge of the UL UE channel bandwidth lc and hc are the lower and upper edge of the allocated BW, f Δ is the SCS, and ( ) f t Y , is the frequency domain signal evaluated for in-band emissions as defined in the clause E.5.8. The relative in-band emissions are, given by ] [ ) , ( MS 1 ) ( log * 10 ) ( )* 1 12 ( c c 2 10 l l dB f t L T Emissions Emissions s CRBs T t f L CRBs s RB absolute RB relative   ∈ Δ − ⋅ + ⋅ Δ = Δ where CRBs L is the number of allocated RBs, and ( ) f t, MS is the frequency domain samples for the allocated bandwidth, as defined in the subsection E.5.8 Although an exclusion period for EVM is applicable in E.5.9.1, the inband emissions measurement interval is defined over one complete slot in the time domain. From the acquired samples n functions for inband emissions can be derived, where n is as defined in Annex E.2.2. The in-band emissions are averaged over the n samples (equivalent to 10 UL subframes) with the same PUCCH position to prevent averaging of allocated and non-allocated RBs due to PUCCH frequency hopping: , 1 1 ( ) ( ) n absolute RB absolute i RB i Emissions Emissions n = Δ = Δ  ( ) , /10 10 1 1 ( ) 10log 10 [ ] relative i RB n Emissions relative RB i Emissions dB n Δ =   Δ =      Since the PUCCH allocation is always on the upper or lower band-edge, the opposite of the allocated one represents the IQ image, and the remaining inner RBs represent the general inband emissions. They are compared against different limits. E.5.9.4 EVM measurement for multiple Tx For UE with multiple transmission antennas, if UE indicates Tx diversity capability, EVM is measured at each antenna connector to get EVMi, and the total EVM is calculated by values of EVMi with weighting factor of linear power at each antenna connector. = ∑ ∗ ∑ where k=2, 3, 4, and Pi denote the linear power measured at each antenna connector respectively. 3GPP TS 38.521-1 version 19.2.0 Release 19 2240 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI E.6 EVM for PRACH The description below is generic in the sense that all PRACH formats are covered. The numbers, used in the text below are taken from PRACH format#0 without excluding the other formats. The sampling rate for PRACH is assumed as , 30.72 Msps in the time domain. E.6.1 Basic principle The basic principle is the same as described in E.2.1 E.6.2 Output signal of the TX under test The output signal of the TX under test is processed same as described in E.2.2 The measurement period is different since 2 PRACH preambles are recorded for long preamble formats as defined in Table 6.3.3.1-1 in [8] and 10 preambles are recorded for short preamble formats as defined in Table 6.3.3.1-2 in [8]. E.6.3 Reference signal The test description in 6.4.2.1.4.1 is based on non-contention based access: - PRACH configuration index (responsible for Preamble format, System frame number and subframe number) - Preamble ID - Preamble power signalled to the UE, defines the reference signal unambiguously, such that no demodulation process is necessary to gain the reference signal. The reference signal i(ν) is constructed by the measuring equipment according to the relevant TX specifications, using the following parameters: the applicable Zadoff Chu sequence, nominal carrier frequency, nominal amplitude and phase for each subcarrier, nominal timing, no carrier leakage. It is represented as a sequence of samples at a sampling rate of 122.88 Msps in the time domain. E.6.4 Measurement results The measurement result is: - EVMPRACH E.6.5 Measurement points The measurement points are illustrated in the figure below: Figure E.6.5-1:Measurement points 3GPP TS 38.521-1 version 19.2.0 Release 19 2241 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI E.6.6 Pre FFT minimization process The pre-FFT minimization process is applied to each PRACH preamble separately. The time period for the pre- FFT minimisation process includes the complete CP and Zadoff-Chu sequence (in other words, the power transition period is per definition outside of this time period) Sample timing, Carrier frequency and carrier leakage in z(ν) are jointly varied in order to minimise the difference between z(ν) and i(ν). Best fit (minimum difference) is achieved when the RMS difference value between z(ν) and i(ν) is an absolute minimum. After this process the samples z(ν) are called z0(ν). RF error, and carrier leakage are necessary for best fit of the measured signal towards the ideal signal in the pre FFT domain. However they are not used to compare them against the limits. E.6.7 Timing of the FFT window The FFT window length is 24576 samples for preamble format 0, however in the measurement period at least 27744 samples are taken. The position in time for FFT must be determined. In an ideal signal, the FFT may start at any instant within the cyclic prefix without causing an error. The TX filter, however, reduces the window. The EVM requirements shall be met within a window W<CP. The reference instant for the FFT start is the centre of the reduced window, called c~ Δ , EVM is measured at the following two instants: c~ Δ –W/2 and c~ Δ +W/2. The timing of the measured signal z0(ν) with respect to the ideal signal i(ν) is determined in the pre FFT domain as follows: Correlation between z0(ν) and i(ν) will result in a correlation peak. The meaning of the correlation peak is approx. the “impulse response” of the TX filter. The correlation peak, (the highest, or in case of more than one, the earliest) indicates the timing in the measured signal with respect to the ideal signal. W is different for different preamble formats and shown in Table E.6.7-1 for 839 RA = L and { }kHz 5, 25 . 1 RA ∈ Δf in Table E.6.7-2 for 139 RA = L and kHz 2 15 RA μ ⋅ = Δf where { } 2 ,1, 0 ∈ μ . Table E.6.7-1: EVM window length for PRACH formats for 839 RA = L Preamble format Cyclic prefix length cp N Nominal FFT size1 EVM window length W in FFT samples Ratio of W to CP 0 3168 24576 2307 72.8% 1 21024 24576 20163 95.9% 2 4688 24576 3827 81.6% 3 3168 6144 2952 93.2% Note 1: The use of other FFT sizes is possible as long as appropriate scaling of the window length is applied Note 2: These percentages are informative Table E.6.7-2: EVM window length for PRACH formats for 139 RA = L Preamble format Cyclic prefix length cp N Nominal FFT size1 EVM window length W in FFT samples Ratio of W to CP* A1 2882- 20482- 1442- 50.0% A2 5762- 20482- 4322- 75.0% A3 8642- 20482- 7202- 83.3% B1 2162- 20482- 722- 33.3% B2 3602- 20482- 2162- 60.0% B3 5042- 20482- 3602- 71.4% B4 9362- 20482- 7922- 84.6% 3GPP TS 38.521-1 version 19.2.0 Release 19 2242 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI C0 12402- 20482- 10962- 88.4% C2 20482- 20482- 19042- 93.0% Note 1: The use of other FFT sizes is possible as long as appropriate scaling of the window length is applied Note 2: These percentages are informative The number of samples, used for FFT is reduced compared to z0(ν). This subset of samples is called z’ (ν). EVM is based on Nominal FFT size samples per PRACH preamble and demodulated symbol. E.6.8 Post FFT equalisation Equalisation is not applicable for the PRACH. E.6.9 Derivation of the results E.6.9.1 EVMPRACH Perform FFT on z’(ν) and i(ν) using the FFT timing c~ Δ –W/2 and c~ Δ +W/2. For format 2 and 3 the first and the repeated preamble sequence are FFT-converted separately. using the standard FFT length of 2048. The EVMPRACH is the difference between the ideal waveform and the measured and equalized waveform for the allocated RB(s). ( ) ( ) 2 0 ' , , t T f F PRACH Z f t I f t EVM T P F ∈ ∈ − = ⋅ ⋅  , where t covers the count of demodulated symbols in the slot. f covers the count of demodulated symbols within the allocated bandwidth. ( )t f Z , ' are the samples of the signal evaluated for the EVMPRACH ( )t f I , is the ideal signal reconstructed by the measurement equipment, and 0P is the average power of the ideal signal. For normalized modulation symbols 0P is equal to 1. From the acquired samples 2m EVMPRACH values can be derived, m values for the timing c~ Δ –W/2 and m values for the timing c~ Δ +W/2, where m is the number of recorded preambles as defined in Annex E.6.2. E.6.9.2 Averaged EVMPRACH The PRACH EVM, PRACH EVM , is averaged over m preamble sequence measurements. ( ) 2 PRACH PRACH , 1 1 = =  m i i EVM EVM m , where m is the number of recorded preambles as defined in Annex E.6.2.The averaging is done separately for timing¦ c~ Δ –W/2 and c~ Δ +W/2 leading to low PRACH EVM , and high PRACH EVM , 3GPP TS 38.521-1 version 19.2.0 Release 19 2243 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI ) , max( , , , high PRACH low PRACH final PRACH EVM EVM EVM = is compared against the test requirements. E.6.9.3 EVM measurement for multiple Tx For UE with multiple transmission antennas, if UE indicates Tx diversity capability, EVM is measured at each antenna connector to get EVMi, and the total EVM is calculated by values of EVMi with weighting factor of linear power at each antenna connector. ∑ ∗ ∑ where k=2, 3, 4, and Pi denote the linear power measured at each antenna connector respectively. E.7 reserved Editor’s note: reserved for Phase offset measurement for DMRS bundling E.8 EVM for UL MIMO E.8.1 General EVM for UL MIMO is measured per layer. A zero-forcing (ZF) MIMO receiver architecture is used so that dual layer or 4-layer transmissions by the UE can be demodulated by the test equipment receiver. Figure E.8.1-1: EVM calculation block diagram for 2-Layer UL MIMO 3GPP TS 38.521-1 version 19.2.0 Release 19 2244 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Figure E.8.1-2: EVM calculation block diagram for 4-Layer UL MIMO 3GPP TS 38.521-1 version 19.2.0 Release 19 2245 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI The TE receives signals from 2 or 4 different ports which are connected to two or four antenna connectors in the test system. For UL MIMO measurements a MIMO equalization step as described in section E.8.2 is performed to separate the layers. Each layer is then processed as described in section E.8.3 to receive the measurement results for each individual layer. E.8.2 MIMO Equalization The MIMO equalization is based only on reference signals (DMRS) without using any data symbols. For the equalization process all available DMRS symbols shall be used. The effective 2x2 or 4x4 channel matrix is estimated using reference signals of different subcarriers, e.g. in case of DMRS antenna ports 0 and 2. In case that same subcarriers are used, e.g. DMRS antenna ports 0 and 1, a channel decomposition is necessary taking advantage of the orthogonal codes wf and wt and assuming identical channel coefficients for adjacent subcarriers of same CDM group. Effective channel including the precoding matrix P is: = = ℎ,ℎ, ℎ,ℎ, for 2-Layer UL MIMO, or = = ⎣ ⎢ ⎢ ⎢ ⎡ℎ0,0 ℎ0,1 ℎ1,0 ℎ1,1 ℎ0,2 ℎ0,3 ℎ1,2 ℎ1,3 ℎ2,0 ℎ2,1 ℎ3,0 ℎ3,1 ℎ2,2 ℎ2,3 ℎ3,2 ℎ3,3⎦ ⎥ ⎥ ⎥ ⎤ for 4-Layer UL MIMO, with ℎ, = ∗ \|\| where y denotes the received symbol on port index n and r the reference signal for layer index ν. Since reference signals of a specific layer are transmitted only on subcarriers of one CDM group channel, interpolation is needed in order to obtain channel coefficients for all subcarriers. Channel interpolation is done using the channel coefficients of active CDM group in all other CDM groups. The channel coefficients used to calculate the equalizer coefficients are obtained after channel smoothing in frequency domain by computing the moving average of interpolated channel coefficients. The moving average window size is 7. For subcarriers at or near the edge of allocation the window size is reduced accordingly. The ZF equalizer coefficients are calculated as the inverse of the effective channel matrix, in general: = E.8.3 Layer processing After performing the MIMO equalization as described in section E.8.2 each layer is processed using the existing procedure as defined in Annex E. Since the channel estimation is calculated only on the DMRS symbols, an averaging including all 14 symbols of one slot, i.e. data and reference signals, is needed in order to minimize EVM. The averaging is achieved by the least square (LS) equalization method described for single layer in Annex E.3. MS(f,t) and NS(f,t) are processed with a LS estimator, to derive one equalizer coefficient per time slot and per allocated subcarrier. EC(f) is defined for each layer as: ( ) = ∑ ( , )∗ ( , ) ∑ ( , )∗ ( , ) With * denoting complex conjugation. EC(f) are used to equalize layer data symbols. 3GPP TS 38.521-1 version 19.2.0 Release 19 2246 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI EVM equalizer spectral flatness is derived from equalizer coefficients for each layer as follows: = \| ( )\| , + , for 2-Layer UL MIMO, or = \| ( )\| ,0 2 + ,1 2 + ,2 2 + ,3 2 for 4-Layer UL MIMO E.9 EVM for V2X E.9.1 EVM for PSSCH and PSCCH The calculation of the EVM for PSSCH and PSCCH follows the procedure defined in Annex E.4. The EVM is calculated separately for PSSCH and PSCCH using separate equalizer, while the in-band emission is calculated only once. The measurement period for EVM of PSSCH and PSCCH is 10 subframes. When sidelink transmissions are shortened due to transmission gap of one symbol at the end of each slot, the EVM measurement interval is reduced by one symbol, accordingly. 3GPP TS 38.521-1 version 19.2.0 Release 19 2247 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex F (normative): Measurement uncertainties and Test Tolerances F.1 Acceptable uncertainty of Test System (normative) F.1.0 General The maximum acceptable uncertainty of the Test System is specified below for each test, where appropriate. The Test System shall enable the stimulus signals in the test case to be adjusted to within the specified range, and the equipment under test to be measured with an uncertainty not exceeding the specified values. All ranges and uncertainties are absolute values, and are valid for a confidence level of 95 %, unless otherwise stated. A confidence level of 95 % is the measurement uncertainty tolerance interval for a specific measurement that contains 95 % of the performance of a population of test equipment. For RF tests it should be noted that the uncertainties in clause F.1 apply to the Test System operating into a nominal 50 ohm load and do not include system effects due to mismatch between the DUT and the Test System. The downlink signal uncertainties apply at each receiver antenna connector. F.1.1 Measurement of test environments The measurement accuracy of the UE test environments defined in TS 38.508-1 [5] subclause 4.1, Test environments shall be - Pressure ±5 kPa. - Temperature ±2 degrees. - Relative Humidity ±5 %. - DC Voltage ±1,0 %. - AC Voltage ±1,5 %. - Vibration 10 %. - Vibration frequency 0,1 Hz. The above values shall apply unless the test environment is otherwise controlled and the specification for the control of the test environment specifies the uncertainty for the parameter. F.1.2 Measurement of transmitter - MU and TT for f>6GHz (band n96, n104) already defined are working assumption based on analysis of single TE vendor. Values will be revisited once analysis from other TE vendors is available. - MU and TT for f>6GHz (bands n96, n104) are FFS for test cases requiring operation in carrier aggregation, UL MIMO or Tx Diversity. - MU and TT for spurious emission for intra-band UL contiguous CA with UL-MIMO test cases are working assumption. Values will be revisited once more analysis is available. Table F.1.2-1: Maximum Test System Uncertainty for transmitter tests Subclause Maximum Test System Uncertainty Derivation of Test System Uncertainty 3GPP TS 38.521-1 version 19.2.0 Release 19 2248 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.2.1 UE maximum output power f ≤ 3.0GHz ±0.7 dB, BW ≤ 40MHz ±1.4 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.3 dB, BW ≤ 20MHz ±1.5 dB, 20MHz < BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 6.2.2 Maximum Power Reduction (MPR) f ≤ 3.0GHz ±0.7 dB, BW ≤ 40MHz ±1.4 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.3 dB, BW ≤ 20MHz ±1.5 dB, 20MHz < BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 6.2.3 UE additional maximum output power reduction f ≤ 3.0GHz ±0.7 dB, BW ≤ 40MHz ±1.4 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.3 dB, BW ≤ 20MHz ±1.5 dB, 20MHz < BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 6.2.4 Configured transmitted power For UL power ≥ 0 dBm f ≤ 3.0GHz ±0.7 dB, BW ≤ 40MHz ±1.4 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.3 dB, BW ≤ 20MHz ±1.5 dB, 20MHz < BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz For UL power < 0 dBm f ≤ 3.0GHz ±1.0 dB, BW ≤ 40MHz ±1.4 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.3 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.5 dB, BW ≤ 40MHz ±1.8 dB, 40MHz < BW ≤ 100MHz 6.2A.1.1 UE maximum output power for CA (2UL CA) For Inter-band CA MAX (MUCC1, MUCC2) MUCCX is MU of each UL CC specified in single UL case 6.2.1. 3GPP TS 38.521-1 version 19.2.0 Release 19 2249 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.2A.2.1 UE maximum output power reduction for CA (2UL CA) For Inter-band CA MAX (MUCC1, MUCC2) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.2.2 for sum of powers of all CCs Aggregated BW > 100M: TBD MUCCX is MU of each UL CC specified in single UL case 6.2.2. 6.2A.3.1 UE additional maximum output power reduction CA (2UL CA) For Inter-band CA MAX (MUCC1, MUCC2) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.2.3 for sum of powers of all CCs Aggregated BW > 100M: TBD MUCCX is MU of each UL CC specified in single UL case 6.2.3. 6.2A.4.1 Configured transmitted power for CA (2UL CA) For Inter-band CA MAX (MUCC1, MUCC2) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.2.4 for sum of powers of all CCs Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD MUCCX is MU of each UL CC specified in single UL case 6.2.4. 6.2C.1 Configured transmitted power for SUL Same as 6.2.4 6.2C.3 UE maximum output power for SUL Same as 6.2.1 6.2C.4 UE maximum output power reduction for SUL Same as 6.2.2 6.2C.5 UE additional maximum output power reduction for SUL Same as 6.2.3 6.2D.1 UE maximum output power for UL MIMO Same as 6.2.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2D.1_1 UE maximum output power for SUL with UL MIMO Same as 6.2D.1 Same as 6.2D.1 6.2D.1_2 UE maximum output power for UL MIMO for UE supporting 4Tx Same as 6.2D.1 MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.1 with SNR assumption reduced by 6dB compared to the single antenna case. 6.2D.2 UE maximum output power reduction for UL MIMO Same as 6.2.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2D.2_1 UE maximum output power reduction for SUL with UL MIMO Same as 6.2.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2D.2_2 UE maximum output power reduction for UL MIMO for UE supporting 4Tx Same as 6.2.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.2 with SNR assumption reduced by 6dB compared to the single antenna case. 3GPP TS 38.521-1 version 19.2.0 Release 19 2250 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.2D.3 UE additional maximum output power reduction for UL MIMO Same as 6.2.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.3 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2D.3_1 UE additional maximum output power reduction for SUL with UL MIMO Same as 6.2.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.3 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2D.3_2 UE additional maximum output power reduction for UL MIMO for UE supporting 4Tx Same as 6.2.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.3 with SNR assumption reduced by 6dB compared to the single antenna case. 6.2D.4 Configured transmitted power for UL MIMO Same as 6.2.4 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.4 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2D.4_1 Configured transmitted power for SUL with UL MIMO Same as 6.2D.4 Same as 6.2D.4 6.2D.4_2 Configured transmitted power for UL MIMO for UE supporting 4Tx Same as 6.2.4 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.2.4 with SNR assumption reduced by 6dB compared to the single antenna case. 6.2E.1.2 UE maximum output power for V2X / concurrent operation For Inter-band concurrent operation MAX (MUCC1, MUCC2) MUCCX is MU of each UL CC specified in single UL case 6.2.1. 6.2E.2.1 UE maximum output power reduction for V2X / non-concurrent operation Same as 6.2.2 6.2E.2.1D UE maximum output power reduction for V2X / non-concurrent operation / SL-MIMO Same as 6.2.2 for the sum of power at each of UE antenna connector 6.2E.2.2 UE maximum output power reduction for V2X / concurrent operation For Inter-band concurrent operation MAX (MUNR, MUSL) For Intra-band concurrent operation Aggregated BW ≤ 100M: Same as 6.2.2 for sum of power of all CCs Aggregated BW > 100M: TBD MUNR is MU of NR CC specified in single UL case 6.2.2. MUSL is MU of SL CC specified in single UL case 6.2E.2.1. 6.2E.3.1 UE additional maximum output power reduction for V2X / non- concurrent operation Same as 6.2.3 6.2E.3.1D UE additional maximum output power reduction for V2X / non- concurrent operation / SL- MIMO Same as 6.2.3 for the sum of power at each of UE antenna connector 6.2E.4.1 Configured transmitted power for V2X / non-concurrent operation Same as 6.2.4 3GPP TS 38.521-1 version 19.2.0 Release 19 2251 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.2E.4.1D Configured transmitted power for V2X / non-concurrent operation / SL-MIMO Same as 6.2.4 for the sum of power at each of UE antenna connector 6.2E.4.2 Configured transmitted power for V2X / concurrent operation For Inter-band concurrent operation MAX (MUNR, MUSL) For Intra-band concurrent operation Aggregated BW ≤ 100M: Same as 6.2.4 for sum of power of all CCs Aggregated BW > 100M: TBD MUNR is MU of NR CC specified in single UL case 6.2.4. MUSL is MU of SL CC specified in single UL case 6.2E.4.1. 6.2F.1 UE maximum output power for shared spectrum channel access 4.2GHz < f ≤ 7.125GHz ±1.3 dB, BW ≤ 20MHz ±1.5 dB, 20MHz < BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 6.2F.2 UE maximum output power reduction for shared spectrum access Same as 6.2F.1 6.2F.3 UE additional maximum output power reduction for shared spectrum access Same as 6.2F.1 6.2F.4 Configured transmitted power for shared spectrum access Same as 6.2F.1 6.2G.1 UE maximum output power for Tx Diversity Same as 6.2.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.2.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2G.1_1 UE maximum output power for Tx Diversity for UE supporting 4Tx Same as 6.2.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.2.1 with SNR assumption reduced by 6dB compared to the single antenna case. 6.2G.2 UE maximum output power reduction for Tx Diversity Same as 6.2.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.2.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2G.2_1 UE maximum output power reduction for Tx Diversity for UE supporting 4Tx Same as 6.2.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.2.2 with SNR assumption reduced by 6dB compared to the single antenna case. 6.2G.3 UE additional maximum output power reduction for Tx Diversity Same as 6.2.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.2.3 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2G.3_1 UE additional maximum output power reduction for Tx Diversity for UE supporting 4Tx Same as 6.2.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.2.3 with SNR assumption reduced by 6dB compared to the single antenna case. 3GPP TS 38.521-1 version 19.2.0 Release 19 2252 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.2G.4 Configured transmitted power for Tx Diversity Same as 6.2.4 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.2.4 with SNR assumption reduced by 3dB compared to the single antenna case. 6.2G.4_1 Configured transmitted power for Tx Diversity for UE supporting 4Tx Same as 6.2.4 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.2.4 with SNR assumption reduced by 6dB compared to the single antenna case. 6.2H.1.1 UE maximum output power for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: same as 6.2.1 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.2H.1.2 UE maximum output power reduction for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: same as 6.2.2 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.2H.1.3 UE additional maximum output power reduction for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: same as 6.2.3 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.2H.1.4 Configured transmitted power for intra- band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: same as 6.2.4 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.2H.3.1 UE maximum output power for inter-band UL CA with UL MIMO MAX (MUCC1, MUCC2) MUCCX is MU of each UL CC For the component carrier configured with UL MIMO: Same as 6.2.1 for the sum of power at each of UE antenna connector For the other component carrier: Same as 6.2.1 6.2I.1 UE maximum output power for RedCap Same as 6.2.1 for BW ≤ 20MHz 6.2I.2 UE maximum output power for eRedCap Same as 6.2.1 for BW ≤ 20MHz 6.2J.1 UE maximum output power for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.2.1 for the sum of power at each of UE antenna/TAB connector Otherwise: FFS MU is for the sum of power at each of UE antenna/TAB connector, and is the same as the MU of single antenna port in 6.2.1 with SNR assumption reduced by 10log10(N); with N = Number of antenna/TAB connectors, compared to the single antenna case. 6.2J.2 Configured transmitted power for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.2.4 for the sum of power at each of UE antenna/TAB connector Otherwise: FFS MU is for the sum of power at each of UE antenna/TAB connector, and is the same as the MU of single antenna port in 6.2.4 with SNR assumption reduced by 10log10(N); with N = Number of antenna/TAB connectors, compared to the single antenna case. 3GPP TS 38.521-1 version 19.2.0 Release 19 2253 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.2L.3.1 UE maximum output power for inter-band UL CA with Tx Diversity MAX (MUCC1, MUCC2) MUCCX is MU of each UL CC For the component carrier configured with Tx Diversity: Same as 6.2.1 for the sum of power at each of UE antenna connector For the other component carrier: Same as 6.2.1 6.3.1 Minimum output power f ≤ 3.0GHz ±1.0 dB, BW ≤ 40MHz ±1.4 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.3 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.5 dB, BW ≤ 40MHz ±1.8 dB, 40MHz < BW ≤ 100MHz 6.3.2 Transmit OFF power f ≤ 3.0GHz ±1.5 dB, BW ≤ 40MHz ±1.7 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.8 dB, BW ≤ 40MHz ±1.9 dB, 40MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 4.2GHz < f ≤ 6.0GHz ±2.0 dB, BW ≤ 20MHz ±2.1 dB, 20MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz [±2.3] dB, BW ≤ 20MHz [±2.4] dB, 20MHz < BW ≤ 80MHz [±2.5] dB, 80MHz < BW ≤ 100MHz 6.3.3.2 General ON/OFF time mask f ≤ 3.0GHz ±1.5 dB, BW ≤ 40MHz ±1.7 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.8 dB, BW ≤ 40MHz ±1.9 dB, 40MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 4.2GHz < f ≤ 6.0GHz ±2.0 dB, BW ≤ 20MHz ±2.1 dB, 20MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz [±2.3] dB, BW ≤ 20MHz [±2.4] dB, 20MHz < BW ≤ 80MHz [±2.5] dB, 80MHz < BW ≤ 100MHz 3GPP TS 38.521-1 version 19.2.0 Release 19 2254 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3.3.4 PRACH time mask f ≤ 3.0GHz ±1.5 dB, BW ≤ 40MHz ±1.7 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.8 dB, BW ≤ 40MHz ±1.9 dB, 40MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 4.2GHz < f ≤ 6.0GHz ±2.0 dB, BW ≤ 20MHz ±2.1 dB, 20MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz [±2.3] dB, BW ≤ 20MHz [±2.4] dB, 20MHz < BW ≤ 80MHz [±2.5] dB, 80MHz < BW ≤ 100MHz 6.3.3.6 SRS time mask f ≤ 3.0GHz ±1.5 dB, BW ≤ 40MHz ±1.7 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.8 dB, BW ≤ 40MHz ±1.9 dB, 40MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 4.2GHz < f ≤ 6.0GHz ±2.0 dB, BW ≤ 20MHz ±2.1 dB, 20MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz [±2.3] dB, BW ≤ 20MHz [±2.4] dB, 20MHz < BW ≤ 80MHz [±2.5] dB, 80MHz < BW ≤ 100MHz 6.3.4.2 Absolute power tolerance For UL power ≥ 0 dBm f ≤ 3.0GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.4 dB, BW ≤ 40MHz ±1.9 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±2.0 dB, BW ≤ 20MHz ±2.1 dB, 20MHz < BW ≤ 40MHz ±2.2 dB, 40MHz < BW ≤ 100MHz For UL power < 0 dBm f ≤ 3.0GHz ±1.2 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±1.6 dB, BW ≤ 40MHz ±1.9 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±2.1 dB, BW ≤ 40MHz ±2.3 dB, 40MHz < BW ≤ 100MHz Test System uncertainty = SQRT (UL Meas Uncer2 + DL Meas Uncer2) 3GPP TS 38.521-1 version 19.2.0 Release 19 2255 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3.4.3 Relative power tolerance f ≤ 7.125GHz ±0.7 dB, BW ≤ 40MHz ±1.0 dB, 40MHz < BW ≤ 100MHz Absolute Uplink power measurement for step 2.1 same as 6.2.1. Absolute Uplink power measurement for step 1.1 same as 6.3.1. 6.3.4.4 Aggregate power tolerance f ≤ 7.125GHz ±0.7 dB, BW ≤ 40MHz ±1.0 dB, 40MHz < f ≤ 100MHz 6.3A.1.1 Minimum output power for CA (2UL CA) Same as 6.3.1 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.3.1 Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD 6.3A.3.1 Transmit ON/OFF time mask for CA (2UL CA) Same as 6.3.3.2 for each CC 6.3A.3.2 Time mask for switching between two uplink carriers Same as 6.3.3.2 for each CC 6.3A.3.3 Time mask for switching between two uplink carriers with two transmit antenna connectors Same as 6.3.3.2 for each CC 6.3A.3.4 Time mask for switching between one uplink band with one transmit antenna connector and one uplink band with two transmit antenna connectors (3UL CA) Same as inter-band uncertainty in 6.2A.2.1 for PCell and for sum of power at each of UE antenna connector on SCells. 6.3A.3.5 Time mask for switching between two uplink bands with two transmit antenna connectors (3UL CA) Same as inter-band uncertainty in 6.2A.2.1 and for sum of power at each of UE antenna connector on PCell and SCells. 6.3A.3.6 Time mask for switching across three uplink bands FFS 6.3A.3.7 Time mask for switching across four uplink bands FFS 6.3A.4.1.1 Absolute power tolerance for CA (2UL CA) Same as 6.3.4.2 for each CC 6.3A.4.2.1 Power Control Relative power tolerance for CA (2UL CA) Same as 6.3.4.3 for each CC 6.3A.4.3.1 Aggregate power tolerance for CA (2UL CA) Same as 6.3.4.4 for each CC 6.3C.3.3 General transmit ON/OFF time mask for switching between two uplink carriers with two transmit antenna connectors ON power: Same as 6.3.3.2 for sum of power at each of UE antenna connector on NUL and SUL. 6.3C.3.4 General transmit ON/OFF time mask for switching between one uplink band with one transmit antenna connector and one uplink band with two transmit antenna connectors ON power: Same as 6.3.3.2 for SUL carrier and for sum of power at each of UE antenna connector on NUL carriers 6.3C.3.5 General transmit ON/OFF time mask for switching between two uplink bands with two transmit antenna connectors ON power: Same as 6.3.3.2 for sum of power at each of UE antenna connector on NUL carriers and SUL carrier. 3GPP TS 38.521-1 version 19.2.0 Release 19 2256 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3C.3.6 Time mask for switching across three uplink bands (3CC) Subtest 1: ON power: Same as 6.2D.2 for sum of power at each of UE antenna connector on NUL carriers. Same as 6.2C.4 for SUL carrier Subtest 2: ON power: Same as 6.2A.2.1 for inter-band UL CA for NUL bands. Same as 6.2D.2_1 for SUL carrier. 6.3C.3.6_1 Time mask for switching across three uplink bands (more than 3CC) ON power: Same as 6.2D.2 for NUL band with single UL carrier, and same as 6.2H.1.2 for NUL band with intra-band UL CA carriers. Same as 6.2C.4 for SUL carrier. 6.3C.4.1 Absolute power tolerance for SUL Same as 6.3.4.2 Same as 6.3.4.2 6.3C.4.2 Power Control Relative power tolerance for SUL Same as 6.3.4.3 Same as 6.3.4.3 6.3C.4.3 Aggregate power tolerance for SUL Same as 6.3.4.4 Same as 6.3.4.4 6.3D.1 Minimum output power for UL MIMO Same as 6.3.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.3D.1_1 Minimum output power for SUL with UL MIMO Same as 6.3D.1 Same as 6.3D.1 6.3D.1_2 Minimum output power UL MIMO for UE supporting 4Tx FFS FFS 6.3D.2 Transmit OFF power for UL MIMO Same as 6.3.2 for each antenna 6.3D.2_1 Transmit OFF power for SUL with UL MIMO Same as 6.3D.2 6.3D.2_2 Transmit OFF power for UL MIMO for UE supporting 4Tx Same as 6.3.2 for each antenna 6.3D.3 Transmit ON/OFF time mask for UL MIMO ON power: Same as 6.2D.1 OFF power: Same as 6.3D.2 6.3D.3_1 Transmit ON/OFF time mask for SUL with UL MIMO Same as 6.3D.3 6.3D.3_2 Transmit ON/OFF time mask for UL MIMO for UE supporting 4Tx ON power: Same as 6.2D.1_2 OFF power: Same as 6.3D.2_2 6.3D.4.1 Absolute Power tolerance Same as 6.3.4.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.4.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.3D.4.1_1 Absolute power tolerance for SUL with UL MIMO Same as 6.3D.4.1 Same as 6.3D.4.1 6.3D.4.1_2 Absolute power tolerance for UL MIMO for UE supporting 4Tx Same as 6.3.4.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.4.2 with SNR assumption reduced by 6dB compared to the single antenna case. 3GPP TS 38.521-1 version 19.2.0 Release 19 2257 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3D.4.2 Relative Power tolerance ±0.9 dB, BW ≤ 40MHz ±1.4 dB, 40MHz < f ≤ 100MHz Absolute Uplink power measurement for step 2.1 same as 6.2.1. Absolute Uplink power measurement for step 1.1 same as 6.3.1. MU is for the sum of power at each of UE antenna connector 6.3D.4.2_1 Relative power tolerance for SUL with UL MIMO Same as 6.3D.4.2 Same as 6.3D.4.2 6.3D.4.2_2 Relative power tolerance for UL MIMO for UE supporting 4Tx FFS FFS 6.3D.4.3 Aggregate Power tolerance Same as 6.3.4.4 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.4.4 with SNR assumption reduced by 3dB compared to the single antenna case. 6.3D.4.3_1 Aggregate power tolerance for SUL with UL MIMO Same as 6.3D.4.3 Same as 6.3D.4.3 6.3D.4.3_2 Aggregate power tolerance for UL MIMO for UE supporting 4Tx Same as 6.3.4.4 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.4.4 with SNR assumption reduced by 6dB compared to the single antenna case. 6.3E.1.1 Minimum output power for V2X / non- concurrent operation Same as 6.3.1 6.3E.1.1D Minimum output power for V2X / non- concurrent operation / SL- MIMO Same as 6.3.1 for the sum of power at each of UE antenna connector 6.3E.2.1 Transmit OFF power for V2X / non- concurrent operation Same as 6.3.2 6.3E.2.1D Transmit OFF power for V2X / non- concurrent operation / SL- MIMO Same as 6.3.2 for each antenna 6.3E.3.1 Transmit ON/OFF time mask for V2X / non- concurrent operation Same as 6.3.3.2 6.3E.3.1D Transmit ON/OFF time mask for V2X / non- concurrent operation / SL- MIMO Same as 6.3.3.2 for each antenna 6.3E.4.1.1 Absolute power tolerance for V2X / non- concurrent operation Same as 6.3.4.2 6.3E.4.1.1D Absolute power tolerance for V2X / non- concurrent operation / SL- MIMO Same as 6.3.4.2 for the sum of power at each of UE antenna connector 6.3F.1 Minimum output power for shared spectrum channel access 4.2GHz < f ≤ 7.125GHz ±1.5 dB, BW ≤ 40MHz ±1.8 dB, 40MHz < BW ≤ 100MHz 3GPP TS 38.521-1 version 19.2.0 Release 19 2258 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3F.2 Transmit OFF power for shared spectrum channel access 4.2GHz < f ≤ 6.0GHz ±2.0 dB, BW ≤ 20MHz ±2.1 dB, 20MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz [±2.3] dB, BW ≤ 20MHz [±2.4] dB, 20MHz < BW ≤ 80MHz [±2.5] dB, 80MHz < BW ≤ 100MHz 6.3F.3.2 General ON/OFF time mask for shared spectrum channel access 4.2GHz < f ≤ 6.0GHz ±2.0 dB, BW ≤ 20MHz ±2.1 dB, 20MHz < BW ≤ 80MHz ±2.2 dB, 80MHz < BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz [±2.3] dB, BW ≤ 20MHz [±2.4] dB, 20MHz < BW ≤ 80MHz [±2.5] dB, 80MHz < BW ≤ 100MHz 6.3F.4.2 Absolute power tolerance for shared spectrum access For UL power ≥ 0 dBm 4.2GHz < f ≤ 7.125GHz ±2.0 dB, BW ≤ 20MHz ±2.1 dB, 20MHz < BW ≤ 40MHz ±2.2 dB, 40MHz < BW ≤ 100MHz For UL power < 0 dBm 4.2GHz < f ≤ 7.125GHz ±2.1 dB, BW ≤ 40MHz ±2.3 dB, 40MHz < BW ≤ 100MHz Test System uncertainty = SQRT (UL Meas Uncer2 + DL Meas Uncer2) 6.3F.4.3 Relative power tolerance for shared spectrum channel access Same as 6.3.4.3 for f ≤ 7.125GHz 6.3F.4.4 Aggregate power tolerance for shared spectrum channel access Same as 6.3.4.4 for f ≤ 7.125GHz 6.3G.1 Minimum output power for Tx Diversity Same as 6.3.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.3G.1_1 Minimum output power for Tx Diversity for UE supporting 4Tx FFS FFS 6.3G.2 Transmit OFF power for Tx Diversity Same as 6.3.2 for each antenna 6.3G.2_1 Transmit OFF power for Tx Diversity for UE supporting 4Tx Same as 6.3.2 for each antenna 6.3G.3.1 General ON/OFF time mask for Tx Diversity ON power: Same as 6.2G.1 OFF power: Same as 6.3G.2 6.3G.3.1_1 General ON/OFF time mask for Tx Diversity for UE supporting 4Tx ON power: Same as 6.2G.2_1 OFF power: Same as 6.3G.2_1 6.3G.3.2 PRACH time mask for Tx Diversity Same as 6.3.3.4 for each antenna 6.3G.3.2_1 PRACH time mask for Tx Diversity for UE supporting 4Tx Same as 6.3.3.4 for each antenna 6.3G.3.3 SRS time mask for Tx Diversity Same as 6.3G.3.1 6.3G.3.3_1 SRS time mask for Tx Diversity for UE supporting 4Tx ON power: Same as 6.2G.2_1 OFF power: Same as 6.3G.2_1 3GPP TS 38.521-1 version 19.2.0 Release 19 2259 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3G.4.1 Absolute power tolerance for Tx Diversity Same as 6.3.4.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.4.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.3G.4.1_1 Absolute power tolerance for Tx Diversity for UE supporting 4Tx Same as 6.3.4.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.4.2 with SNR assumption reduced by 6dB compared to the single antenna case. 6.3G.4.2 Relative power tolerance for Tx Diversity Same as 6.3D.4.2 Same as 6.3D.4.2 6.3G.4.2_1 Relative power tolerance for Tx Diversity for UE supporting 4Tx FFS FFS 6.3G.4.3 Aggregate power tolerance for Tx Diversity Same as 6.3.4.4 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.4.4 with SNR assumption reduced by 3dB compared to the single antenna case. 6.3G.4.3_1 Aggregate power tolerance for Tx Diversity for UE supporting 4Tx Same as 6.3.4.4 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.3.4.4 with SNR assumption reduced by 6dB compared to the single antenna case. 6.3H.1.1 Minimum output power for intra-band UL contiguous CA with UL MIMO For each CC, same as 6.3.1 for the sum of power at each of UE antenna connector 6.3H.1.2 Transmit OFF power for intra-band UL contiguous CA with UL MIMO For each CC, same as 6.3.2 for each antenna 6.3H.1.3 Transmit ON/OFF time mask for intra-band UL contiguous CA with UL MIMO ON power: Same as 6.2H.1.2 OFF power: Same as 6.3H.1.2 6.3J.1 Minimum output power for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.3.1 for the sum of power of all antenna connectors (for ATG UE with omni-directional antennas) or of all TAB connectors (for ATG UE with antenna array) Otherwise: FFS MU is for the sum of power at each of UE antenna/TAB connector, and is the same as the MU of single antenna port in 6.2.1 with SNR assumption reduced by 10log10(N); with N = Number of antenna/TAB connectors, compared to the single antenna case. 3GPP TS 38.521-1 version 19.2.0 Release 19 2260 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3J.2 Transmit OFF power for ATG For ATG UEs with maxOutputPowerATG-r18 up to 31dBm (up to PC1): Same as 6.3.2 for each UE antenna/TAB connector Otherwise, for each UE antenna/TAB connector: f ≤ 3.0GHz ±2.15 dB, BW ≤ 40MHz ±2.35 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±2.45 dB, BW ≤ 40MHz ±2.55 dB, 40MHz < BW ≤ 80MHz ±2.85 dB, 80MHz < BW ≤ 100MHz 4.2GHz < f ≤ 6.0GHz ±2.65 dB, BW ≤ 20MHz ±2.75 dB, 20MHz < BW ≤ 80MHz ±2.85 dB, 80MHz < BW ≤ 100MHz Values achieved applying the relaxations defined in Table 6.3J.2.5-3. 6.3J.3.1 General ON/OFF time mask for ATG ON power: Same as 6.2J.1 OFF power: Same as 6.3J.2 6.3J.3.3 PRACH time mask for ATG FFS 6.3J.3.4 SRS time mask for ATG FFS 6.3J.4.1 Absolute power tolerance for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.3.4.2 for the sum of power at each of UE antenna connector/TAB connector Otherwise: FFS MU is for the sum of power at each of UE antenna/TAB connector, and is the same as the MU of single antenna port in 6.3.4.2 with SNR assumption reduced by 10log10(N); with N = Number of antenna/TAB connectors, compared to the single antenna case. 6.3J.4.2 Relative power tolerance for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: ±0.7 dB, BW ≤ 40MHz ±1.0 dB, 40MHz < BW ≤ 100MHz Absolute Uplink power measurement for step 2.1 same as 6.2J.1. Absolute Uplink power measurement for step 1.1 same as 6.3J.1. Otherwise: FFS MU is for the sum of power at each of UE antenna/TAB connector, and is the same as the MU of single antenna port in 6.3.4.3 with SNR assumption reduced by 10log10(N); with N = Number of antenna/TAB connectors, compared to the single antenna case. 6.3J.4.3 Aggregate power tolerance for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.3.4.4 for the sum of power at each of UE antenna connector/TAB connector Otherwise: FFS MU is for the sum of power at each of UE antenna/TAB connector, and is the same as the MU of single antenna port in 6.3.4.4 with SNR assumption reduced by 10log10(N); with N = Number of antenna/TAB connectors, compared to the single antenna case. 6.4.1 Frequency Error ±15 Hz, f ≤ 3.0GHz ±36 Hz, f > 3.0GHz DL Signal level: ±0.7 dB, f ≤ 3.0GHz ±1.0 dB, 3.0GHz < f ≤ 4.2GHz ±1.5 dB, 4.2GHz < f ≤ 7.125GHz 3GPP TS 38.521-1 version 19.2.0 Release 19 2261 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4.2.1 Error Vector Magnitude For up to 256QAM: f ≤ 6.0GHz, BW ≤ 100MHz 15 dBm < PUL PUSCH, PUCCH, PRACH: ±1.5 % -25 dBm < PUL ≤ 15 dBm PUSCH, PUCCH, PRACH: ±2.5 % -40dBm ≤ PUL ≤ -25dBm PUSCH, PUCCH, PRACH: ±3.0 % For up to 256QAM: 6.0GHz < f ≤ 7.125GHz, BW ≤ 100MHz 15 dBm < PUL PUSCH, PUCCH, PRACH: [±1.5] % -25 dBm < PUL ≤ 15 dBm PUSCH, PUCCH, PRACH: [±3.0] % -40dBm ≤ PUL ≤ -25dBm PUSCH, PUCCH, PRACH: [±3.9] % Absolute Uplink power measurement same as 6.3.1. Relative Uplink power measurement same as 6.3.4.3. 6.4.2.1a Error Vector Magnitude including symbols with transient period f ≤ 6.0GHz, BW ≤ 100MHz ±2.28 % 6.0GHz < f ≤ 7.125GHz, BW ≤ 100MHz TBD Absolute Uplink power measurement same as 6.3.1. Relative Uplink power measurement same as 6.3.4.3. 6.4.2.2 Carrier Leakage f ≤ 3.0GHz ±0.8 dB, BW ≤ 40MHz ±1.5 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±0.8 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz Absolute Uplink power measurement for step 2 and step 4 same as 6.2.1. Absolute Uplink power measurement for step 6 and step 8 same as 6.3.1. Relative Uplink power measurement same as 6.3.4.3. 6.4.2.3 In-band emissions f ≤ 3.0GHz ±0.8 dB, BW ≤ 40MHz ±1.5 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±0.8 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz Absolute Uplink power measurement for steps 1.2, 1.4, 2.2, and 2.4 same as 6.2.1. Absolute Uplink power measurement for steps 1.6, 1.8, 2.6, and 2.8 same as 6.3.1. Relative Uplink power measurement same as 6.3.4.3. 6.4.2.4 EVM equalizer spectrum flatness f ≤ 7.125GHz ±1.4 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 3GPP TS 38.521-1 version 19.2.0 Release 19 2262 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4.2.5 EVM equalizer spectrum flatness for Pi/2 BPSK Same as 6.4.2.4 6.4A.1.1 Frequency error for CA (2UL CA) For inter-band CA: same as 6.4.1 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.4.1 for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD 6.4A.2.1.1 Error Vector Magnitude for CA (2UL CA) For inter-band CA: same as 6.4.2.1 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.4.2.1 for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD Absolute Uplink power measurement same as 6.3A.1.1. Relative Uplink power measurement same as 6.3.4.3. 6.4A.2.2.1 Carrier leakage for CA (2UL CA) For inter-band CA: same as 6.4.2.2 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.4.2.2 for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD Uplink power measurement for step 5 and step 7 same as 6.2A.1.1. Absolute Uplink power measurement for step 9 and step 11 same as 6.3A.1.1. Relative Uplink power measurement same as 6.3.4.3. 6.4A.2.3.1 In-band emission for CA (2UL CA) For inter-band CA: same as 6.4.2.3 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.4.2.3 for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD Absolute Uplink power measurement for step 5 and step 7 same as 6.2A.1.1. Absolute Uplink power measurement for step 9 and step 11 same as 6.3A.1.1. Relative Uplink power measurement same as 6.3.4.3. 6.4C.1 Frequency error for SUL Same as 6.4.1 6.4C.2.1 Error Vector Magnitude for SUL Same as 6.4.2.1 6.4C.2.2 Carrier leakage for SUL Same as 6.4.2.2 6.4C.2.3 In-band emissions for SUL Same as 6.4.2.3 6.4C.2.4 EVM equalizer spectrum flatness for SUL Same as 6.4.2.4 6.4D.1 Frequency error for UL MIMO Same as 6.4.1 for each antenna 6.4D.1_1 Frequency error for SUL with UL MIMO Same as 6.4D.1 6.4D.1_2 Frequency error for UL MIMO for UE supporting 4Tx Same as 6.4D.1 6.4D.2.1 Error Vector Magnitude for UL MIMO Same as 6.4.2.1 for each layer Absolute Uplink power measurement same as 6.3D.1. Relative Uplink power measurement same as 6.3.4.3. 6.4D.2.1_1 Error Vector Magnitude for SUL with UL MIMO Same as 6.4D.2.1 6.4D.2.1_2 Error Vector Magnitude for UL MIMO for UE supporting 4Tx Same as 6.4.2.1 for each layer Absolute Uplink power measurement same as 6.3D.1_2. Relative Uplink power measurement same as 6.3D.4.3_2. 3GPP TS 38.521-1 version 19.2.0 Release 19 2263 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4D.2.2 Carrier leakage for UL MIMO Same as 6.4.2.2 for each antenna Absolute Uplink power measurement for step 2 and step 4 same as 6.2D.1. Absolute Uplink power measurement for step 6 and step 8 same as 6.3D.1. Relative Uplink power measurement same as 6.3.4.3. 6.4D.2.2_1 Carrier leakage for SUL with UL MIMO Same as 6.4D.2.2 6.4D.2.2_2 Carrier leakage for UL MIMO for UE supporting 4Tx Same as 6.4.2.2 for each antenna Absolute Uplink power measurement for step 2 and step 4 same as 6.2D.1_2. Absolute Uplink power measurement for step 6 and step 8 same as 6.3D.1_2. Relative Uplink power measurement same as 6.3D.4.3_2. 6.4D.2.3 In-band emissions for UL MIMO Same as 6.4.2.3 for each antenna Absolute Uplink power measurement for steps 1.2 and 1.4 same as 6.2D.1. Absolute Uplink power measurement for steps 1.6 and 1.8 same as 6.3D.1. Relative Uplink power measurement same as 6.3.4.3. 6.4D.2.3_1 In-band emissions for SUL with UL MIMO Same as 6.4D.2.3 6.4D.2.3_2 In-band emissions for UL MIMO for UE supporting 4Tx Same as 6.4.2.3 for each antenna Absolute Uplink power measurement for steps 1.2 and 1.4 same as 6.2D.1_2. Absolute Uplink power measurement for steps 1.6 and 1.8 same as 6.3D.1_2. Relative Uplink power measurement same as 6.3D.4.3_2. 6.4D.2.4 EVM equalizer spectrum flatness for UL MIMO Same as 6.4.2.4 for each layer 6.4D.2.4_1 EVM equalizer spectrum flatness for SUL with UL MIMO Same as 6.4.2.4 for each layer 6.4D.2.4_2 EVM equalizer spectrum flatness for UL MIMO for UE supporting 4Tx Same as 6.4.2.4 for each layer 6.4D.3 Time alignment error for UL MIMO ±25ns 6.4D.3_1 Time alignment error for SUL with UL MIMO ±25ns 6.4D.3_2 Time alignment error for UL MIMO for UE supporting 4Tx ±25ns for each antenna pair 6.4D.4 Requirements for Coherent UL MIMO FFS 6.4E.1.1 Frequency error for V2X / non-concurrent operation Same as 6.4.1 6.4E.1.1D Frequency error for V2X / non-concurrent operation / SL-MIMO Same as 6.4.1 for each antenna 6.4E.2.2.1 Error Vector Magnitude for V2X / non- concurrent operation Same as 6.4.2.1 6.4E.2.2.1D Error Vector Magnitude for V2X / non- concurrent operation / SL- MIMO Same as 6.4.2.1 for each antenna 3GPP TS 38.521-1 version 19.2.0 Release 19 2264 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4E.2.3.1 Carrier leakage for V2X / non-concurrent operation Same as 6.4.2.2 6.4E.2.3.1D Carrier leakage for V2X / non-concurrent operation / SL-MIMO Same as 6.4.2.2 for each antenna 6.4E.2.4.1 In-band emissions for V2X / non- concurrent operation Same as 6.4.2.3 6.4E.2.4.1D In-band emissions for V2X / non- concurrent operation / SL- MIMO Same as 6.4.2.3 for each antenna 6.4E.2.5.1 EVM equalizer spectrum flatness for V2X / non-concurrent operation Same as 6.4.2.4 6.4E.2.5.1D EVM equalizer spectrum flatness for V2X / non-concurrent operation / SL-MIMO Same as 6.4.2.4 for each antenna 6.4F.1 Frequency Error for shared spectrum access ±36 Hz, f > 3.0GHz DL Signal level: ±1.5 dB, 4.2GHz < f ≤ 7.125GHz 6.4F.2.1 Error Vector Magnitude for shared spectrum access Same as 6.4.2.1 6.4F.2.2 Carrier Leakage f ≤ 3.0GHz ±0.8 dB, BW ≤ 40MHz ±1.5 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±0.8 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz Absolute Uplink power measurement for step 2 and step 4 same as 6.2.1. Absolute Uplink power measurement for step 6 and step 8 same as 6.3.1. Relative Uplink power measurement same as 6.3.4.3. 6.4F.2.3 In-band emissions f ≤ 3.0GHz ±0.8 dB, BW ≤ 40MHz ±1.5 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±0.8 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±1.0 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz Absolute Uplink power measurement for steps 1.2, 1.4, 2.2, and 2.4 same as 6.2.1. Absolute Uplink power measurement for steps 1.6, 1.8, 2.6, and 2.8 same as 6.3.1. Relative Uplink power measurement same as 6.3.4.3. 6.4F.2.4 EVM equalizer spectrum flatness ±1.4 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 6.4G.1 Frequency Error for Tx Diversity Same as 6.4.1 for each antenna 6.4G.1_1 Frequency error for Tx Diversity for UE supporting 4Tx Same as 6.4.1 for each antenna 3GPP TS 38.521-1 version 19.2.0 Release 19 2265 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4G.2.1 Error Vector Magnitude for Tx Diversity Total EVM: P1>Pmin and P2>Pmin: Same as 6.4.2.1 using min(P1,P2) for PUL Otherwise: Same as 6.4.2.1 using max(P1,P2) for PUL Uplink power measurement per antenna connector when computing total EVM at power close to maximum output power: -Same as 6.2.1. Uplink power measurement per antenna connector when computing total EVM at power close to minimum output power: -Same as 6.3.1. Relative Uplink power measurement: -Same as 6.3G.4.2 6.4G.2.1_1 Error Vector Magnitude for Tx Diversity for UE supporting 4Tx Total EVM: Same as 6.4.2.1 using = min \| , = 1,2,3,4 for PUL Uplink power measurement per antenna connector when computing total EVM at power close to maximum output power: -Same as 6.2.1. Uplink power measurement per antenna connector when computing total EVM at power close to minimum output power: -Same as 6.3.1. Relative Uplink power measurement: -Same as 6.3G.4.2_1 6.4G.2.2 Carrier Leakage for Tx Diversity Same as 6.4.2.2 for each antenna Absolute Uplink power measurement for step 2 and step 4 same as 6.2G.1. Absolute Uplink power measurement for step 6 and step 8 same as 6.3G.1. Relative Uplink power measurement same as 6.3G.4.2. 6.4G.2.2_1 Carrier leakage for Tx Diversity for UE supporting 4Tx Same as 6.4.2.2 for each antenna Absolute Uplink power measurement for step 2 and step 4 same as 6.2G.1_1. Absolute Uplink power measurement for step 6 and step 8 same as 6.3G.1_1. Relative Uplink power measurement same as 6.3G.4.2_1. 6.4G.2.3 In-band emissions for Tx Diversity Same as 6.4.2.3 for each antenna Absolute Uplink power measurement for steps 1.2 and 1.4 same as 6.2G.1. Absolute Uplink power measurement for steps 1.6 and 1.8 same as 6.3G.1. Relative Uplink power measurement same as 6.3G.4.2. 6.4G.2.3_1 In-band emissions for Tx Diversity for UE supporting 4Tx Same as 6.4.2.3 for each antenna Absolute Uplink power measurement for steps 1.2 and 1.4 same as 6.2G.1_1. Absolute Uplink power measurement for steps 1.6 and 1.8 same as 6.3G.1_1. Relative Uplink power measurement same as 6.3G.4.2_1. 3GPP TS 38.521-1 version 19.2.0 Release 19 2266 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4G.2.4 EVM equalizer spectrum flatness for Tx Diversity ±1.4 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 6.4G.2.4_1 EVM equalizer spectrum flatness for Tx Diversity for UE supporting 4Tx ±1.4 dB, BW ≤ 40MHz ±1.6 dB, 40MHz < BW ≤ 100MHz 6.4H.1.1 Frequency error for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: Same as 6.4.1 for each antenna on each CC Aggregated BW > 100M: TBD 6.4H.1.2.1 Error Vector Magnitude for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: Same as 6.4D.2.1 for each layer on each CC Aggregated BW > 100M: TBD 6.4H.1.2.2 Carrier leakage for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: Same as 6.4.2.2 for each antenna on each CC Aggregated BW > 100M: TBD Uplink power measurement for step 5 and step 7 same as 6.2A.1.1. Absolute Uplink power measurement for step 9 and step 11 same as 6.3A.1.1. Relative Uplink power measurement same as 6.3.4.3. 6.4H.1.2.3 In-band emissions for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: Same as 6.4.2.3 for each antenna on each CC Aggregated BW > 100M: TBD Absolute Uplink power measurement for step 5 and step 7 same as 6.2A.1.1. Absolute Uplink power measurement for step 9 and step 11 same as 6.3A.1.1. Relative Uplink power measurement same as 6.3.4.3. 6.4H.1.3 Time alignment error for intra-band UL contiguous CA with UL MIMO Same as 6.4D.3 for each CC 6.4H.1.4 Coherent UL MIMO for intra-band UL contiguous CA with UL MIMO FFS 6.4J.1 Frequency error for ATG Same as 6.4.1 at each UE antenna/TAB connector 6.4J.2.1 Error Vector Magnitude for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: For up to 256QAM: f ≤ 6.0GHz, BW ≤ 100MHz PUL = Maximum Output Power PUSCH, PUCCH, PRACH: ±2 % at each UE antenna/TAB connector PUL = Minimum Output Power PUSCH, PUCCH, PRACH: ±3.0 % at each UE antenna/TAB connector Absolute Uplink power measurement same as 6.3J.1. Relative Uplink power measurement same as 6.3J.4.2. 6.4J.2.1a Error Vector Magnitude including symbols with transient period for ATG ±2.28 % at each UE antenna/TAB connector 3GPP TS 38.521-1 version 19.2.0 Release 19 2267 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4J.2.2 Carrier Leakage for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.4.2.2 at each UE antenna/TAB connector Absolute Uplink power measurement same as 6.3J.1. Relative Uplink power measurement same as 6.3J.4.2. 6.4J.2.3 In-band emissions for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.4.2.3 at each UE antenna/TAB connector Absolute Uplink power measurement same as 6.3J.1. Relative Uplink power measurement same as 6.3J.4.2. 6.4J.2.4 EVM equalizer spectrum flatness for ATG Same as 6.4.2.4 at each UE antenna/TAB connector 6.4J.2.5 EVM equalizer spectrum flatness for Pi/2 BPSK for ATG Same as 6.4.2.5 at each UE antenna/TAB connector 6.5.1 Occupied bandwidth f ≤ 7.125GHz 1.5% of channel bandwidth 6.5.2.2 Spectrum Emission Mask ±1.5 dB, f ≤ 3.0GHz ±1.8 dB, 3.0GHz < f ≤ 4.2GHz ±2.0 dB, 4.2GHz < f ≤ 7.125GHz 6.5.2.3 Additional spectrum emission mask ±1.5 dB, f ≤ 3.0GHz ±1.8 dB, 3.0GHz < f ≤ 4.2GHz ±2.0 dB, 4.2GHz < f ≤ 7.125GHz 6.5.2.4.1 NR ACLR ±0.8 dB, f ≤ 4.0GHz ±1.0 dB, 4.0GHz < f ≤ 7.125GHz 6.5.2.4.2 UTRA ACLR ±0.8 dB, f ≤ 4.0GHz ±1.0 dB, 4.0GHz < f ≤ 7.125GHz 6.5.3.1 General spurious emissions for results > -60 dBm: ±2.0 dB, 9kHz < f ≤ 3GHz ±2.5 dB, 3GHz < f ≤ 4GHz ±4.0 dB, 4GHz < f ≤ 19GHz ±6.0 dB, 19GHz < f ≤ 26GHz 6.5.3.2 Spurious emission for UE co-existence for results > -60 dBm: ±2.0 dB, 9kHz < f ≤ 3GHz ±2.5 dB, 3GHz < f ≤ 4GHz ±4.0 dB, 4GHz < f ≤ 19GHz ±6.0 dB, 19GHz < f ≤ 26GHz 6.5.3.3 Additional spurious emissions for results > -60 dBm: ±2.0 dB, 9kHz < f ≤ 3GHz ±2.5 dB, 3GHz < f ≤ 4GHz ±4.0 dB, 4GHz < f ≤ 19GHz ±6.0 dB, 19GHz < f ≤ 26GHz 3GPP TS 38.521-1 version 19.2.0 Release 19 2268 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5.4 Transmit intermodulation f ≤ 3.0GHz ±2.7 dB, BW ≤ 40MHz ±3.1 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 4.2GHz ±3.7 dB, BW ≤ 40MHz ±4.0 dB, 40MHz < BW ≤ 100MHz 4.2GHz < f ≤ 7.125GHz ±5.1 dB, BW ≤ 40MHz ±5.3 dB, 40MHz < BW ≤ 100MHz Overall system uncertainty comprises four quantities: 1. Wanted signal setting error 2. CW Interferer level error 3. Wanted signal meas. error 4. Intermodulation product measurement error The relative level of the wanted signal and the CW interferer has 2 x effect on the intermodulation product. Items 1, 2, 3 and 4 are assumed to be uncorrelated so can be root sum squared to provide the combined effect. Test System uncertainty = SQRT [(2 x SQRT (Wanted setting_error2 + CW_level_error2)) 2 + Wanted_level_meas error2 + Intermodulation product measurement error2] 6.5A.1.1 Occupied bandwidth for CA (2UL CA) For inter-band CA: same as 6.5.1 for each CC For intra-band CA: Aggregated BW ≤ 100M: same as 6.5.1 for aggregated channel bandwidth Aggregated BW > 100M: TBD 6.5A.2.2.1 Spectrum emission mask for CA (2UL CA) For inter-band CA: same as 6.5.2.2 for each CC For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.2.2 Aggregated BW > 100M: TBD 6.5A.2.3.1 Additional Spectrum emission mask for CA (2UL CA) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.2.3 Aggregated BW > 100M: TBD 6.5A.2.4.1.1 NR ACLR for CA (2UL CA) For inter-band CA: same as 6.5.2.4.1 for each CC For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.2.4.1 Aggregated BW > 100M: TBD 6.5A.2.4.2.1 URTA ACLR for CA (2UL CA) For inter-band CA: same as 6.5.2.4.2 for each CC 6.5A.3.1.1 General spurious emissions for CA (2UL CA) For inter-band CA: same as 6.5.3.1 for each CC For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.3.1 Aggregated BW > 100M: TBD 6.5A.3.2.1 Spurious emission for UE co- existence for CA (2UL CA) For inter-band CA: same as 6.5.3.2 for each CC For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.3.2 Aggregated BW > 100M: TBD 6.5A.3.3.1 Additional Spurious emission for CA (2UL CA) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.3.2 Aggregated BW > 100M: TBD 6.5A.4.1 Transmit intermodulation for CA (2UL CA) For inter-band CA: same as 6.5.4, for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: same as 6.5.4, for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD 6.5C.1 Occupied bandwidth for SUL Same as 6.5.1 6.5C.2.2 Spectrum Emission Mask for SUL Same as 6.5.2.2 6.5C.2.3 Additional spectrum emission mask for SUL Same as 6.5.2.3 6.5C.2.4.1 NR ACLR for SUL Same 6.5.2.4.1 6.5C.2.4.2 UTRA ACLR for SUL Same as 6.5.2.4.2 6.5C.3.1 General spurious emissions for SUL Same as 6.5.3.1 3GPP TS 38.521-1 version 19.2.0 Release 19 2269 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5C.3.2 Spurious emission for UE co-existence for SUL Same as 6.5.3.2 6.5C.3.3 Additional spurious emissions for SUL Same as 6.5.3.3 6.5C.4 Transmit intermodulation for SUL Same as 6.5.4 6.5D.1 Occupied bandwidth for UL MIMO Same as 6.5.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.1_2 Occupied bandwidth for SUL with UL MIMO Same as 6.5D.1 6.5D.1_3 Occupied bandwidth for UL MIMO for UE supporting 4Tx Same as 6.5D.1 MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.1 with SNR assumption reduced by 6dB compared to the single antenna case. 6.5D.2.2 Spectrum emission mask for UL MIMO Same as 6.5.2.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.2.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.2.2_1 Spectrum emission mask for SUL with UL MIMO Same as 6.5D.2.2 6.5D.2.2_2 Spectrum emission mask for UL MIMO for UE supporting 4Tx FFS 6.5D.2.3 Additional spectrum emission mask for UL MIMO Same as 6.5.2.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.2.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.2.3_1 Additional spectrum emission mask for UL MIMO for UE supporting 4Tx FFS 6.5D.2.4.1 NR ACLR for UL MIMO Same as 6.5.2.4.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.2.4.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.2.4.1_1 NR ACLR for SUL with UL MIMO Same as 6.5.2.4.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.2.4.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.2.4.1_2 NR ACLR for UL MIMO for UE supporting 4Tx FFS FFS 3GPP TS 38.521-1 version 19.2.0 Release 19 2270 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5D.2.4.2 UTRA ACLR for UL MIMO Same as 6.5.2.4.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.2.4.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.2.4.2_1 UTRA ACLR for SUL with UL MIMO Same as 6.5.2.4.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.2.4.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.2.4.2_2 UTRA ACLR for UL MIMO for UE supporting 4Tx FFS 6.5D.3.1 General spurious emissions for UL MIMO Same as 6.5.3.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.3.2 Spurious emissions for UE co-existence for UL MIMO Same as 6.5.3.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.3.3 Additional spurious emissions for UL MIMO Same as 6.5.3.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.3 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.3_1.1 General spurious emissions for UL MIMO (Rel-16 onward) Same as 6.5.3.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.3_1.2 Spurious emissions for UE co- existence for UL MIMO (Rel- 16 onward) Same as 6.5.3.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.3_1.3 Additional spurious emissions for UL MIMO (Rel-16 onward) Same as 6.5.3.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.3 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.3_2.1 General spurious emissions for SUL with UL MIMO Same as 6.5.3.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.1 with SNR assumption reduced by 3dB compared to the single antenna case. 3GPP TS 38.521-1 version 19.2.0 Release 19 2271 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5D.3_2.2 Spurious emissions for UE co- existence for SUL with UL MIMO Same as 6.5.3.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.3_2.3 Additional spurious emissions for SUL with UL MIMO Same as 6.5.3.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna port in 6.5.3.3 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5D.3_3.1 General spurious emissions for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.3_3.2 Spurious emissions for UE co- existence for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.3_3.3 Additional spurious emissions for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.4 Transmit intermodulation for UL MIMO Same as 6.5.4 for each antenna 6.5D.4_1 Transmit intermodulation for SUL with UL MIMO Same as 6.5.4 for each antenna 6.5D.4_2 Transmit intermodulation for UL MIMO for UE supporting 4Tx Same as 6.5.4 for each antenna 6.5E.1.1 Occupied bandwidth for V2X / non- concurrent operation Same as 6.5.1 6.5E.1.1D Occupied bandwidth for V2X / non- concurrent operation / SL- MIMO Same as 6.5.1 for each antenna 6.5E.2.2.1 Spectrum emission mask for V2X / non-concurrent operation Same as 6.5.2.2 6.5E.2.2.1D Spectrum emission mask for V2X / non-concurrent operation / SL-MIMO Same as 6.5.2.2 for each antenna 6.5E.2.2.2 Spectrum emission mask for V2X / concurrent operation For Inter-band concurrent operation MAX (MUNR, MUSL) For Intra-band concurrent operation Aggregated BW ≤ 100M: same as 6.5.3.2 Aggregated BW > 100M: TBD MUNR is MU of NR CC specified in single UL case 6.5.2.2. MUSL is MU of SL CC specified in single UL case 6.5E.2.2.1. 6.5E.2.3.1 Additional Spectrum emission mask for V2X / non-concurrent operation Same as 6.5.2.3 6.5E.2.3.1D Additional Spectrum emission mask for V2X / non-concurrent operation / SL-MIMO Same as 6.5.2.3 for each antenna 6.5E.2.4.1 Adjacent channel leakage ratio for V2X / non- concurrent operation Same as 6.5.2.4 6.5E.2.4.1D Adjacent channel leakage ratio for V2X / non-concurrent operation / SL-MIMO Same as 6.5.2.4 for each antenna 3GPP TS 38.521-1 version 19.2.0 Release 19 2272 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5E.2.4.2 Adjacent channel leakage for V2X / concurrent operation For Inter-band concurrent operation MAX (MUNR, MUSL) For Intra-band concurrent operation Aggregated BW ≤ 100M: Same as 6.5.2.4.1 Aggregated BW > 100M: TBD MUNR is MU of NR CC specified in single UL case 6.5.2.4. MUSL is MU of SL CC specified in single UL case 6.5E.2.4.1. 6.5E.3.1.1 General spurious emissions for V2X / non- concurrent operation Same as 6.5.3.1 6.5E.3.1.1D General spurious emissions for V2X / non-concurrent operation / SL-MIMO Same as 6.5.3.1 for each antenna 6.5E.3.2.1 Spurious emissions for UE co- existence for V2X / non- concurrent operation Same as 6.5.3.2 6.5E.3.2.1D Spurious emissions for UE co- existence for V2X / non- concurrent operation / SL- MIMO Same as 6.5.3.2 for each antenna 6.5E.3.2.2 Spurious emissions for UE co- existence for V2X / concurrent operation For Inter-band concurrent operation MAX (MUNR, MUSL) For Intra-band concurrent operation Aggregated BW ≤ 100M: same as 6.5.3.2 Aggregated BW > 100M: TBD MUNR is MU of NR CC specified in single UL case 6.5.3.2. MUSL is MU of SL CC specified in single UL case 6.5E.3.2.1. 6.5E.3.3.1 Additional spurious emissions requirements for V2X / non- concurrent operation Same as 6.5.3.3 6.5E.4.1 Transmit intermodulation for V2X / non-concurrent operation Same as 6.5.4 6.5E.4.1D Transmit intermodulation for V2X / non-concurrent operation / SL-MIMO Same as 6.5.4 for each antenna 6.5E.4.2 Transmit intermodulation for V2X con- current operation For intra-band concurrent operation: Aggregated BW ≤ 100M: same as 6.5.4, for each CC Aggregated BW > 100M: TBD 6.5F.1 Occupied bandwidth for shared spectrum channel access Same as 6.5.1 for f ≤ 7.125GHz 6.5F.2.2 Spectrum emission mask for operation with shared spectrum channel access ±1.5 dB, f ≤ 3.0GHz ±1.8 dB, 3.0GHz < f ≤ 4.2GHz ±2.0 dB, 4.2GHz < f ≤ 7.125GHz 6.5F.2.4.1 NR ACLR ±0.8 dB, f ≤ 4.0GHz ±1.0 dB, 4.0GHz < f ≤ 7.125GHz 6.5F.2.4.2 Shared spectrum channel access ACLR with additional requirement for NS_29 ±0.8 dB, f ≤ 4.0GHz ±1.0 dB, 4.0GHz < f ≤ 7.125GHz 6.5F.3.1 General spurious emissions Same as in 6.5.3.1 6.5F.3.3 Additional spurious emissions for shared spectrum channel access Same as in 6.5.3.1 6.5F.4 Transmit intermodulation for shared spectrum channel access Same as 6.5.4 for each antenna with exception: 4.2GHz < f ≤ 7.125GHz ±5.1 dB, BW ≤ 40MHz ±5.3 dB, 40MHz < BW ≤ 100MHz 3GPP TS 38.521-1 version 19.2.0 Release 19 2273 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5G.1 Occupied bandwidth for Tx Diversity Same as 6.5.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5G.1_1 Occupied bandwidth for Tx Diversity for UE supporting 4Tx Same as 6.5.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.1 with SNR assumption reduced by 6dB compared to the single antenna case. 6.5G.2.1 Spectrum emission mask for Tx Diversity Same as 6.5.2.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.2.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5G.2.1_1 Spectrum emission mask for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.2.2 Additional spectrum emission mask for Tx Diversity Same as 6.5.2.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.2.3 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5G.2.2_1 Additional spectrum emission mask for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.2.3.1 NR ACLR for Tx Diversity Same as 6.5.2.4.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.2.4.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5G.2.3.1_1 NR ACLR for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.2.3.2 UTRA ACLR for Tx Diversity Same as 6.5.2.4.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.2.4.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5G.2.3.2_1 UTRA ACLR for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.3.1 General spurious emissions for Tx Diversity Same as 6.5.3.1 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.3.1 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5G.3.1_1 General spurious emissions for Tx Diversity for UE supporting 4Tx FFS FFS 3GPP TS 38.521-1 version 19.2.0 Release 19 2274 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5G.3.2 Spurious emissions for UE co-existence for Tx Diversity Same as 6.5.3.2 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.3.2 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5G.3.2_1 Spurious emissions for UE co- existence for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.3.3 Additional spurious emissions for Tx Diversity Same as 6.5.3.3 for the sum of power at each of UE antenna connector MU is for the sum of power at each of UE antenna connector, and is the same as the MU of single antenna connector in 6.5.3.3 with SNR assumption reduced by 3dB compared to the single antenna case. 6.5G.3.3_1 Additional Spurious emissions for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.4 Transmit intermodulation for Tx Diversity Same as 6.5.4 for each antenna 6.5G.4_1 Transmit intermodulation for Tx Diversity for UE supporting 4Tx Same as 6.5.4 for each antenna 6.5H.1.1 Occupied bandwidth for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.1 for the sum of power at each UE antenna connector on aggregated channel bandwidth Aggregated BW > 100M: TBD 6.5H.1.2.1 Spectrum emission mask for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.2.2 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.5H.1.2.2 Additional spectrum emission mask for intra-band UL contiguous CA for UL MIMO For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.2.3 for sum of power at each UE antenna connector Aggregated BW > 100M: TBD 6.5H.1.2.3 NR ACLR for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.2.4.1 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.5H.1.3.1 General spurious emissions for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.3.1 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.5H.1.3.2 Spurious emissions for UE co- existence for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.3.2 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.5H.1.3.3 Additional spurious emissions for intra- band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.3.3 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD 6.5H.1.4 Transmit intermodulation for intra- band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.4, for each antenna on each CC Aggregated BW > 100M: TBD 6.5H.3.3.1 General spurious emissions for inter-band UL CA with UL MIMO Same as 6.5D.3.1 for the carrier configured with UL MIMO Same as 6.5.3.1 for the carrier without UL MIMO 6.5H.3.3.2 Spurious emissions for UE co- existence for inter-band UL CA with UL MIMO Same as 6.5D.3.2 for the carrier configured with UL MIMO Same as 6.5.3.2 for the carrier without UL MIMO 3GPP TS 38.521-1 version 19.2.0 Release 19 2275 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5J.1 Occupied bandwidth for ATG Same as 6.5.1 for each UE antenna/TAB connector Otherwise: FFS 6.5J.2.2 Spectrum emissions Mask for ATG Same as 6.5.2.2 for each UE antenna/TAB connector Minimum requirement + TT 6.5J.3.1 General spurious emissions for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.5.3.1 for the sum of power at each of UE antenna/TAB connector Otherwise: FFS MU is for the sum of power at each of UE antenna/TAB connector, and is the same as the MU of single antenna port in 6.2.1 with SNR assumption reduced by 10log10(N); with N = Number of antenna/TAB connectors, compared to the single antenna case. 6.5L.3.3.1 General spurious emissions for inter-band UL CA with Tx Diversity Same as 6.5G.3.1 for the carrier configured with Tx Diversity Same as 6.5.3.1 for the carrier without Tx Diversity 6.5L.3.3.2 Spurious emissions for UE co- existence for inter-band UL CA with Tx Diversity Same as 6.5G.3.2 for the carrier configured with Tx Diversity Same as 6.5.3.2 for the carrier without Tx Diversity F.1.3 Measurement of receiver - MU and TT for f>6GHz (band n96, n104) already defined are working assumption based on analysis of single TE vendor. Values will be revisited once analysis from other TE vendors is available. - MU and TT for f>6GHz (bands n96, n104) are FFS for test cases requiring operation in carrier aggregation, UL MIMO or Tx Diversity. Table F.1.3-1: Maximum Test System Uncertainty for receiver tests Subclause Maximum Test System Uncertainty Derivation of Test System Uncertainty 7.3.2 Reference sensitivity power level ±0.7 dB, f ≤ 3.0GHz ±1.0 dB, 3.0GHz < f ≤ 4.2GHz ±1.5 dB, 4.2GHz < f ≤ 7.125GHz 7.3.2_1 Reference sensitivity power level for XR Same as 7.3.2 7.3A Reference sensitivity for CA (Same MU apply to all subsections including 7.3A.1, 7.3A.1_1, 7.3A.2, 7.3A.3, 7.3A.4, etc.) Same as 7.3.2 for each component carrier 7.3C.2 Reference sensitivity power level Same as 7.3.2 7.3D.2 Reference sensitivity for MIMO Same as 7.3.2 7.3D.2_1 Reference sensitivity power level for SUL with UL MIMO Same as 7.3D.2 7.3D.2_3 Reference sensitivity power level for UL MIMO for UE supporting 4Tx Same as 7.3.2 7.3E.2 Reference sensitivity for V2X / non-concurrent operation Same as 7.3.2 7.3E.3 Reference sensitivity for V2X / Concurrent operation Same as 7.3.2 for NR V2X carrier and NR FR1 carrier 3GPP TS 38.521-1 version 19.2.0 Release 19 2276 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.3F.2 Reference sensitivity power level ±0.7 dB, f ≤ 3.0GHz ±1.0 dB, 3.0GHz < f ≤ 4.2GHz ±1.5 dB, 4.2GHz < f ≤ 7.125GHz 7.3G.1 Reference sensitivity for Tx Diversity for UE supporting 4Tx Same as 7.3.2 7.3I.2 Reference sensitivity power level for RedCap Same as 7.3.2 7.3I.3 Reference sensitivity power level for eRedCap Same as 7.3.2 7.3J.2 Reference sensitivity power level for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Downlink power same as 7.3.2 Uplink power measurement same as 6.2J.1 Otherwise: FFS The overall UL power is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.4 Maximum input level Downlink power ±0.7 dB, f ≤ 3.0GHz ±1.0 dB, 3.0GHz < f ≤ 4.2GHz ±1.5 dB, 4.2GHz < f ≤ 6.0GHz [±2.0] dB, 6.0GHz < f ≤ 7.125GHz Uplink power measurement same as 6.2.1 7.4A Maximum input level for CA (Same MU apply to all subsections including 7.4A.1, 7.4A.2, 7.4A.3, 7.4A.4, etc.) Same as 7.4 for each component carrier 7.4D Maximum input level for UL MIMO Downlink power same as 7.4 Uplink power measurement same as 6.2D.1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.4D_1 Maximum input level for SUL with UL MIMO Downlink power same as 7.4D Uplink power measurement same as 6.2D.1_1 Same as 7.4D 7.4D_2 Maximum input level for UL MIMO for UE supporting 4Tx Downlink power same as 7.4D Uplink power measurement same as 6.2D.1_2 Same as 7.4D 7.4E.1 Maximum input level for V2X / non-concurrent operation V2X reception power same as 7.4 7.4F Maximum input level for shared spectrum channel access Downlink power same as 7.4 for f ≤ 7.125GHz Uplink power measurement same as 6.2F.1 7.4G.1 Maximum input level for Tx Diversity for UE supporting 4Tx Downlink power same as 7.4 Uplink power measurement same as 6.2G.1_1 7.4J Maximum input level for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Downlink power same as 7.4 Uplink power measurement same as 6.2J.1 Otherwise: FFS The overall UL power is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 3GPP TS 38.521-1 version 19.2.0 Release 19 2277 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.5 Adjacent channel selectivity ACS value 1Rx, 2Rx, 4Rx: ±1.6 dB, f ≤ 3.0GHz ±2.3 dB, 3.0GHz < f ≤ 4.2GHz ±3.0 dB, 4.2GHz < f ≤ 7.125GHz 8Rx: ±1.8 dB, f ≤ 3.0GHz ±2.7 dB, 3.0GHz < f ≤ 4.2GHz ±3.4 dB, 4.2GHz < f ≤ 7.125GHz Uplink power measurement same as 6.2.1 Overall ACS uncertainty comprises three quantities: 1. Wanted signal level error 2. Interferer signal level error 3. Additional impact of interferer ACLR Items 1 and 2 are assumed to be uncorrelated so can be root sum squared to provide the ratio error of the two signals. The interferer ACLR effect is systematic, and is added arithmetically. Test System uncertainty = [SQRT (wanted_level_error2 + interferer_level_error2)] + ACLR effect. ACLR effect: 1Rx, 2Rx, 4Rx: f ≤ 3.0GHz: 0.4 dB 3.0GHz < f ≤ 6GHz: 0.7 dB 8Rx: f ≤ 3.0GHz: 0.59 dB 3.0GHz < f ≤ 6.0GHz: 1.02 dB 7.5A Adjacent channel selectivity for CA (Same MU apply to all subsections including 7.5A.1, 7.5A.2, 7.5A.3, 7.5A.4, etc.) Same as 7.5 for each component carrier Same as 7.5 The wanted signal level uncertainty applies for each CC. Overall ACS uncertainty calculation includes the uncertainty for wanted level error only once, as the uncertainty of other CCs is not expected to have any significant effect. 7.5D Adjacent channel selectivity for UL MIMO ACS value same as 7.5 Uplink power measurement same as 6.2D.1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.5D_1 Adjacent channel selectivity for SUL with UL MIMO ACS value same as 7.5D Uplink power measurement same as 6.2D.1_1 Same as 7.5D 7.5D_2 Adjacent channel selectivity for UL MIMO for UE supporting 4Tx ACS value same as 7.5 Uplink power measurement same as 6.2D.2_2 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.5E.1 Adjacent channel selectivity for V2X / non- concurrent operation V2X reception power same as 7.5 Same as 7.5 7.5E.2 Adjacent channel selectivity for V2X / concurrent operation Same as 7.3.2 for NR V2X carrier and NR FR1 carrier Same as 7.5 7.5F.1 Adjacent channel selectivity for shared spectrum channel access ACS value 1Rx, 2Rx, 4Rx: ±3.0 dB, 4.2GHz < f ≤ 7.125GHz 8Rx: ±3.4 dB, 4.2GHz < f ≤ 7.125GHz Uplink power measurement same as 6.2F.1 Same as 7.5 7.5G.1 Adjacent channel selectivity for Tx Diversity for UE supporting 4Tx ACS value same as 7.5 Uplink power measurement same as 6.2G.2_1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.5J Adjacent channel selectivity for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: ACS value same as 7.5 Uplink power measurement same as 6.2J.1 Otherwise: FFS The overall UL power is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 3GPP TS 38.521-1 version 19.2.0 Release 19 2278 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.6.2 Inband Blocking Blocking 1Rx, 2Rx, 4Rx: ±1.6 dB, f ≤ 3.0GHz ±2.3 dB, 3.0GHz < f ≤ 4.2GHz ±3.0 dB, 4.2GHz < f ≤ 7.125GHz 8Rx: ±1.8 dB, f ≤ 3.0GHz ±2.7 dB, 3.0GHz < f ≤ 4.2GHz ±3.4 dB, 4.2GHz < f ≤ 7.125GHz Uplink power measurement same as 6.2.1 Overall blocking uncertainty can have these contributions: 1. Wanted signal level error 2. Interferer signal level error 3. Interferer ACLR 4. Interferer broadband noise Items 1 and 2 are assumed to be uncorrelated so can be root sum squared to provide the ratio error of the two signals. The Interferer ACLR or Broadband noise effect is systematic, and is added arithmetically. Test System uncertainty = [SQRT (wanted_level_error2 + interferer_level_error2)] + ACLR effect + Broadband noise effect. In-band blocking, using modulated interferer: ACLR effect: 1Rx, 2Rx, 4Rx: f ≤ 3.0GHz: 0.4 dB 3.0GHz < f ≤ 6GHz: 0.7 dB 8Rx: f ≤ 3.0GHz: 0.59 dB 3.0GHz < f ≤ 6.0GHz: 1.02 dB Broadband noise not applicable 7.6.3 Out-of-band blocking 1Rx, 2Rx, 4Rx: Wanted signal, f ≤ 3.0GHz ±2.0 dB, Blocking, 1MHz < finterferer ≤ 3GHz ±3.9 dB, Blocking, 3GHz < finterferer ≤ 12.75GHz Wanted signal, 3.0GHz < f ≤ 4.2GHz ±2.2 dB, Blocking, 1MHz < finterferer ≤ 3GHz ±4.0 dB, Blocking, 3GHz < finterferer ≤ 12.75GHz Wanted signal, 4.2GHz < f ≤ 7.125GHz ±2.6 dB, Blocking, 1MHz < finterferer ≤ 3GHz ±4.2 dB, Blocking, 3GHz < finterferer ≤ 12.75GHz 8Rx: Wanted signal, f ≤ 3.0GHz ±2.4 dB, Blocking, 1MHz < finterferer ≤ 3GHz ±4.2 dB, Blocking, 3GHz < finterferer ≤ 12.75GHz Wanted signal, 3.0GHz < f ≤ 4.2GHz ±2.6 dB, Blocking, 1MHz < finterferer ≤ 3GHz ±4.3 dB, Blocking, 3GHz < finterferer ≤ 12.75GHz Wanted signal, 4.2GHz < f ≤ 7.125GHz ±3.0 dB, Blocking, 1MHz < finterferer ≤ 3GHz ±4.5 dB, Blocking, 3GHz < finterferer ≤ 12.75GHz Uplink power measurement same as 6.2.1 Out of band blocking, using CW interferer: Interferer ACLR not applicable Impact of interferer Broadband noise 1Rx, 2Rx, 4Rx: 0.8dB, 8Rx; 1.16 dB Figures are combined to give Test System uncertainty, using formula given for 7.6.2 7.6.4 Narrow band blocking Blocking 1Rx, 2Rx, 4Rx: ± 2.0dB, f ≤ 3.0GHz ± 2.4dB, 3.0GHz < f ≤ 4.2GHz ± 3.1dB, 4.2GHz < f ≤ 7.125GHz 8Rx: ± 2.4dB, f ≤ 3.0GHz ± 2.8dB, 3.0GHz < f ≤ 4.2GHz ± 3.5dB, 4.2GHz < f ≤ 6.0GHz Uplink power measurement same as 6.2.1 Narrow band blocking, using CW interferer: Interferer ACLR not applicable Impact of interferer Broadband noise 1Rx, 2Rx, 4Rx; 0.8dB, 8Rx: 1.16dB Figures are combined to give Test System uncertainty, using formula given for 7.6.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2279 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.6A.2 Inband Blocking for CA (Same MU apply to all subsections including 7.6A.2.1, 7.6A.2.2, 7.6A.2.3, 7.6A.2.4, etc.) Same as 7.6.2 for each component carrier Same as 7.6.2 The wanted signal level uncertainty applies for each CC. Overall blocking uncertainty calculation includes the uncertainty for wanted level error only once, as the uncertainty of other CCs is not expected to have any significant effect. 7.6A.3 Out-of-band Blocking for CA (Same MU apply to all subsections including 7.6A.3.1, 7.6A.3.2, 7.6A.3.3, 7.6A.3.4, etc.) Same as 7.6.3 for each component carrier Same as 7.6.3 The wanted signal level uncertainty applies for each CC. Overall blocking uncertainty calculation includes the uncertainty for wanted level error only once, as the uncertainty of other CCs is not expected to have any significant effect. 7.6A.4 Narrow band Blocking for CA (Same MU apply to all subsections including 7.6A.4.1, 7.6A.4.2, 7.6A.4.3, 7.6A.4.4, etc.) Same as 7.6.4 for each component carrier Same as 7.6.4 The wanted signal level uncertainty applies for each CC. Overall blocking uncertainty calculation includes the uncertainty for wanted level error only once, as the uncertainty of other CCs is not expected to have any significant effect. 7.6C.2 Inband Blocking for SUL Same as 7.6.2 Same as 7.6.2 7.6C.2_1.1 Inband Blocking for SUL with 2 DL CA Same as 7.6A.2 Same as 7.6A.2 7.6C.3 Out-of-band blocking for SUL Same as 7.6.3 Same as 7.6.3 7.6D.2 Inband blocking for UL MIMO Blocking same as 7.6.2 Uplink power measurement same as 6.2D.1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6D.2_1 In-band blocking for SUL with UL MIMO Blocking same as 7.6.2 Uplink power measurement same as 6.2D.1_1 7.6D.2_2 In-band blocking for UL MIMO for UE supporting 4Tx Blocking same as 7.6.2 Uplink power measurement same as 6.2D.2_2 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6D.3 Out-of-band blocking for UL MIMO Wanted signal same as 7.6.3 Uplink power measurement same as 6.2D.1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6D.3_1 Out-of-band blocking for SUL with UL MIMO Wanted signal same as 7.6D.3 Uplink power measurement same as 6.2D.1_1 Same as 7.6D.3 7.6D.3_2 Out-of-band blocking for UL MIMO for UE supporting 4Tx Wanted signal same as 7.6.3 Uplink power measurement same as 6.2D.2_2 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6D.4 Narrow-band blocking for UL MIMO Blocking same as 7.6.4 Uplink power measurement same as 6.2D.1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6D.4_3 Narrow band blocking for UL MIMO for UE supporting 4Tx Blocking same as 7.6.4 Uplink power measurement same as 6.2D.2_2 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6E.2.1 In-band blocking for V2X / non-concurrent operation Blocking 1Rx, 2Rx, 4Rx: ±3.0 dB, 4.2GHz < f ≤ 6.0GHz 8Rx: ±3.4 dB, 4.2GHz < f ≤ 6.0GHz Same as 7.6.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2280 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.6E.3.1 Out-of-band blocking for V2X / non- concurrent operation 1Rx, 2Rx, 4Rx: Wanted signal, 4.2GHz < f ≤ 6GHz ±2.6 dB, Blocking, 1MHz < finterferer ≤ 3GHz ±4.2 dB, Blocking, 3GHz < finterferer ≤ 12.75GHz 8Rx: Wanted signal, 4.2GHz < f ≤ 6GHz ±3.0 dB, Blocking, 1MHz < finterferer ≤ 3GHz ±4.5 dB, Blocking, 3GHz < finterferer ≤ 12.75GHz Same as 7.6.3 7.6F.2.1 In-band blocking for shared spectrum channel access Blocking 1Rx, 2Rx, 4Rx: ±3.0 dB, 4.2GHz < f ≤ 7.125GHz 8Rx: ±3.4 dB, 4.2GHz < f ≤ 7.125GHz Uplink power measurement same as 6.2F.1 Same as 7.6.2 7.6G.1 In-band blocking for Tx Diversity for UE supporting 4Tx Blocking same as 7.6.2 Uplink power measurement same as 6.2G.2_1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6G.2 Out-of-band blocking for Tx Diversity for UE supporting 4Tx Wanted signal same as 7.6.3 Uplink power measurement same as 6.2G.2_1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6G.3 Narrow band blocking for Tx Diversity for UE supporting 4Tx Blocking same as 7.6.4 Uplink power measurement same as 6.2G.2_1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.6J.2 In-band blocking for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Blocking same as 7.6.2 Uplink power measurement same as 6.2J.1 Otherwise: FFS The overall UL power is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.6J.3 Out-of-band blocking for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Wanted signal same as 7.6.3 Uplink power measurement same as 6.2J.1 Otherwise: FFS Values in DL achieved applying the relaxations defined in Table 7.6J.3.5-5. The overall UL power is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors. 7.7 Spurious response Same as 7.6.3 Same as 7.6.3 7.7A Spurious response for CA (Same MU apply to all subsections including 7.7A.1, 7.7A.2, 7.7A.3, etc.) Same as 7.6A.3 Same as 7.6A.3 7.7D Spurious response for UL MIMO Same as 7.7 Uplink power measurement same as 6.2D.1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.7D_1 Spurious response for SUL with UL MIMO Same as 7.7D Uplink power measurement same as 6.2D.1_1 Same as 7.7D 7.7D_2 Spurious response for UL MIMO for UE supporting 4Tx Same as 7.7 Uplink power measurement same as 6.2D.2_2 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.7E.1 Spurious response for V2X / non-concurrent operation Same as 7.6E.3.1. Same as 7.6E.3.1. 7.7F.1 Spurious response for shared spectrum channel access Same as 7.6.3 Same as 7.6.3 7.7G.1 Spurious response for Tx Diversity for UE supporting 4Tx Same as 7.7 Uplink power measurement same as 6.2G.2_1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 3GPP TS 38.521-1 version 19.2.0 Release 19 2281 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.7J Spurious response for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 7.6.3 Uplink power measurement same as 6.2J.1 Otherwise: FFS The overall UL power is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.8.2 Wide band Intermodulation Intermodulation ± 2.3dB, f ≤ 3.0GHz ± 3.1dB, 3.0GHz < f ≤ 4.2GHz ± 4.3dB, 4.2GHz < f ≤ 7.125GHz Uplink power measurement same as 6.2.1 Overall intermodulation uncertainty comprises three quantities: 1. Wanted signal level error 2. CW Interferer level error 3. Modulated Interferer level error Effect of interferer ACLR has not been included as modulated interferer has larger frequency offset The effect of the closer CW signal has twice the effect. Items 1, 2 and 3 are assumed to be uncorrelated so can be root sum squared to provide the combined effect of the three signals. Test System uncertainty = SQRT [(2 x CW_level_error)2 +(mod interferer_level_error)2 +(wanted signal_level_error)2] 7.8A.2 Wide band Intermodulation for CA (Same MU apply to all subsections including 7.8A.2.1, 7.8A.2.2, 7.8A.2.3, etc.) Same as 7.8.2 for each component carrier Same as 7.8.2 The wanted signal level uncertainty applies for each CC. Overall intermodulation uncertainty calculation includes the uncertainty for wanted level error only once, as the uncertainty of other CCs is not expected to have any significant effect. 7.8D.2 Intermodulation characteristics for UL MIMO Intermodulation same as 7.8.2 Uplink power measurement same as 6.2D.1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.8D.2_1 Wide band Intermodulation for SUL with UL MIMO Intermodulation same as 7.8D.2 Uplink power measurement same as 6.2D.1_1 Same as 7.8D.2 7.8D.2_2 Wide band Intermodulation for UL MIMO for UE supporting 4Tx Intermodulation same as 7.8D.2 Uplink power measurement same as 6.2D.1_2 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 7.8E.2.1 Wide band Intermodulation for V2X / non-concurrent operation Intermodulation ± 4.3dB, 4.2GHz < f ≤ 6.0GHz Same as 7.8.2 7.8F.2 Wide band Intermodulation for shared spectrum channel access Intermodulation ± 2.3dB, f ≤ 3.0GHz ± 3.1dB, 3.0GHz < f ≤ 4.2GHz ± 4.3dB, 4.2GHz < f ≤ 7.125GHz Uplink power measurement same as 6.2F.1 7.8G.1 Wide band Intermodulation for Tx Diversity for UE supporting 4Tx Intermodulation same as 7.8.2 Uplink power measurement same as 6.2G.1_1 The overall UL power is the linear sum of the output powers over all Tx antenna connectors 3GPP TS 38.521-1 version 19.2.0 Release 19 2282 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.8J.2 Wide band intermodulation for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 7.8.2 Uplink power measurement same as 6.2J.1 Otherwise: FFS Same as 7.8.2 The overall UL power is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.9 Spurious emissions for results > -60 dBm: ±2.0 dB, 9kHz < f ≤ 3GHz ±2.5 dB, 3GHz < f ≤ 4GHz ±4.0 dB, 4GHz < f ≤ 19GHz ±6.0 dB, 19GHz < f ≤ 26GHz 7.9A.1 Spurious emissions for CA (2DL CA) Same as 7.9 7.9J Spurious emissions for ATG Same as 7.9 with “9kHz < f ≤ 3GHz”, “3GHz < f ≤ 4GHz” and “4GHz < f ≤ 19GHz”. F.2 Interpretation of measurement results (normative) The measurement results returned by the Test System are compared – without any modification – against the Test Requirements. The Test Requirement is defined as a threshold considered in a test to assess compliance of the device; it might be either equal (“Shared Risk” principle) or relaxed (“Never fail a good DUT” principle) compared to the corresponding core specification value by an amount defined in Annex F.3 as Test Tolerance. The “Shared Risk” and the “Never fail a good DUT” principles are defined in Rec. ITU-R M.1545. The actual measurement uncertainty of the Test System for the measurement of each parameter shall be included in the test report. The recorded value for the Test System uncertainty shall be, for each measurement, equal to or lower than the appropriate figure in clause F.1 of the present document. If the Test System for a test is known to have a measurement uncertainty greater than that specified in clause F.1, it is still permitted to use this apparatus provided that an adjustment is made value as follows: Any additional uncertainty in the Test System over and above that specified in clause F.1 shall be used to tighten the Test Requirement, making the test harder to pass. For some tests, for example receiver tests, this may require modification of stimulus signals. This procedure will ensure that a Test System not compliant with clause F.1does not increase the chance of passing a device under test where that device would otherwise have failed the test if a Test System compliant with clause F.1 had been used. F.3 Test Tolerance and Derivation of Test Requirements (informative) The Test Requirements in the present document have been calculated by relaxing the Minimum Requirements of the core specification using the Test Tolerances defined in this clause. When the Test Tolerance is zero, the Test Requirement will be the same as the Minimum Requirement. When the Test Tolerance is non-zero, the Test Requirements will differ from the Minimum Requirements, and the formula used for the relaxation is given in this clause. The Test Tolerances are derived from Test System uncertainties, regulatory requirements and criticality to system performance. As a result, the Test Tolerances may sometimes be set to zero. The test tolerances should not be modified for any reason e.g. to take account of commonly known test system errors (such as mismatch, cable loss, etc.). The downlink Test Tolerances apply at each receiver antenna connector. 3GPP TS 38.521-1 version 19.2.0 Release 19 2283 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI F.3.1 Measurement of test environments The UE test environments are set to the values defined in TS 38.508-1 subclause 4.1, without any relaxation. The applied Test Tolerance is therefore zero. F.3.2 Measurement of transmitter - MU and TT for f>6GHz (band n96, n104) already defined are working assumption based on analysis of single TE vendor. Values will be revisited once analysis from other TE vendors is available. - MU and TT for f>6GHz (bands n96, n104) are FFS for test cases requiring operation in carrier aggregation, UL MIMO or Tx Diversity. Table F.3.2-1: Derivation of Test Requirements (Transmitter tests) Sub clause Test Tolerance (TT) Formula for test requirement 6.2.1 UE maximum output power f ≤ 3.0GHz 0.7 dB, BW ≤ 40MHz 1.0 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 7.125GHz 1.0 dB, BW ≤ 100MHz Upper limit + TT, Lower limit - TT 6.2.2 Maximum Power Reduction (MPR) f ≤ 3.0GHz 0.7 dB, BW ≤ 40MHz 1.0 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 7.125GHz 1.0 dB, BW ≤ 100MHz Upper limit + TT, Lower limit - TT 6.2.3 UE additional maximum output power reduction f ≤ 3.0GHz 0.7 dB, BW ≤ 40MHz 1.0 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 7.125GHz 1.0 dB, BW ≤ 100MHz Upper limit + TT, Lower limit - TT 6.2.4 Configured transmitted power For UL power ≥ 0 dBm f ≤ 3.0GHz 0.7 dB, BW ≤ 40MHz 1.0 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 7.125GHz 1.0 dB, BW ≤ 100MHz For UL power < 0 dBm f ≤ 7.125GHz 1.0 dB, BW ≤ 100MHz Upper limit + TT, Lower limit - TT 6.2A.1.1 UE maximum output power for CA (2UL CA) For Inter-band CA MAX (TTCC1, TTCC2) TTCCX is TT of each UL CC specified in single UL case 6.2.1. 6.2A.2.1 UE maximum output power reduction for CA (2UL CA) For Inter-band CA MAX (TTCC1, TTCC2) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.2.2 for sum of powers of all CCs Aggregated BW > 100M: TBD TTCCX is TT of each UL CC specified in single UL case 6.2.2. 6.2A.3.1 UE additional maximum output power reduction CA (2UL CA) For Inter-band CA MAX (TTCC1, TTCC2) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.2.3 for sum of powers of all CCs Aggregated BW > 100M: TBD TTCCX is TT of each UL CC specified in single UL case 6.2.3. 6.2A.4.1 Configured transmitted power for CA (2UL CA) For Inter-band CA MAX (TTCC1, TTCC2) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.2.4 for sum of powers of all CCs Aggregated BW > 100M: TBD TTCCX is TT of each UL CC specified in single UL case 6.2.4. 3GPP TS 38.521-1 version 19.2.0 Release 19 2284 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI For intra-band non-contiguous CA: TBD 6.2C.1 Configured transmitted power for SUL Same as 6.2.4 Same as 6.2.4 6.2C.3 UE maximum output power for SUL Same as 6.2.1 Same as 6.2.1 6.2C.4 UE maximum output power reduction for SUL Same as 6.2.2 Same as 6.2.2 6.2C.5 UE additional maximum output power reduction for SUL Same as 6.2.3 Same as 6.2.3 6.2D.1 UE maximum output power for UL MIMO Same as 6.2.1 for the sum of power at each of UE antenna connector Same as 6.2.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2D.1_1 UE maximum output power for SUL with UL MIMO Same as 6.2D.1 Same as 6.2D.1 6.2D.1_2 UE maximum output power for UL MIMO for UE supporting 4Tx Same as 6.2D.1 Same as 6.2D.1 6.2D.2 UE maximum output power reduction for UL MIMO Same as 6.2.2 for the sum of power at each of UE antenna connector Same as 6.2.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2D.2_1 UE maximum output power reduction for SUL with UL MIMO Same as 6.2.2 for the sum of power at each of UE antenna connector Same as 6.2.2 6.2D.2_2 UE maximum output power reduction for UL MIMO for UE supporting 4Tx Same as 6.2D.2 for the sum of power at each of UE antenna connector Same as 6.2D.2 6.2D.3 UE additional maximum output power reduction for UL MIMO Same as 6.2.3 for the sum of power at each of UE antenna connector Same as 6.2.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2D.3_1 UE additional maximum output power reduction for SUL with UL MIMO Same as 6.2.3 for the sum of power at each of UE antenna connector Same as 6.2.3 6.2D.3_2 UE additional maximum output power reduction for UL MIMO for UE supporting 4Tx Same as 6.2.3 for the sum of power at each of UE antenna connector Same as 6.2.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2D.4 Configured transmitted power for UL MIMO Same as 6.2.4 for the sum of power at each of UE antenna connector Same as 6.2.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2D.4_1 Configured transmitted power for SUL with UL MIMO Same as 6.2D.4 Same as 6.2D.4 6.2D.4_2 Configured transmitted power for UL MIMO for UE supporting 4Tx Same as 6.2.4 for the sum of power at each of UE antenna connector Same as 6.2.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 3GPP TS 38.521-1 version 19.2.0 Release 19 2285 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.2E.1.2 UE maximum output power for V2X / concurrent operation For Inter-band concurrent operation MAX (TTCC1, TTCC2) TTCCX is TT of each UL CC specified in single UL case 6.2.1. 6.2E.2.1 UE maximum output power reduction for V2X / non-concurrent operation Same as 6.2.2 Same as 6.2.2 6.2E.2.1D UE maximum output power reduction for V2X / non-concurrent operation / SL-MIMO Same as 6.2.2 for the sum of power at each of UE antenna connector Same as 6.2.2 6.2E.2.2 UE maximum output power reduction for V2X / concurrent operation For Inter-band concurrent operation MAX (TTNR, TTSL) For Intra-band concurrent operation Aggregated BW ≤ 100M: Same as 6.2.2 for sum of power of all CCs Aggregated BW > 100M: TBD TTNR is TT of NR CC specified in single UL case 6.2.2. TTSL is TT of SL CC specified in single UL case 6.2E.2.1. 6.2E.3.1 UE additional maximum output power reduction for V2X / non- concurrent operation Same as 6.2.3 Same as 6.2.3 6.2E.3.1D UE additional maximum output power reduction for V2X / non- concurrent operation / SL- MIMO Same as 6.2.3 for the sum of power at each of UE antenna connector Same as 6.2.3 6.2E.4.1 Configured transmitted power for V2X / non-concurrent operation Same as 6.2.4 6.2E.4.1D Configured transmitted power for V2X / non-concurrent operation / SL-MIMO Same as 6.2.4 for the sum of power at each of UE antenna connector 6.2E.4.2 Configured transmitted power for V2X / concurrent operation For Inter-band concurrent operation MAX (TTNR, TTSL) For Intra-band concurrent operation Aggregated BW ≤ 100M: Same as 6.2.4 for sum of power of all CCs Aggregated BW > 100M: TBD TTNR is TT of NR CC specified in single UL case 6.2.4. TTSL is TT of SL CC specified in single UL case 6.2E.4.1. 6.2F.1 UE maximum output power for shared spectrum channel access 3.0GHz < f ≤ 7.125GHz 1.0 dB, BW ≤ 100MHz Upper limit + TT, Lower limit - TT 6.2F.2 UE maximum output power reduction for shared spectrum access Same as 6.2F.1 Same as 6.2F. 6.2F.3 UE additional maximum output power reduction for shared spectrum access Same as 6.2F.1 Same as 6.2F. 6.2F.4 Configured transmitted power for shared spectrum access Same as 6.2F.1 Same as 6.2F 6.2G.1 UE maximum output power for Tx Diversity Same as 6.2.1 for the sum of power at each of UE antenna connector Same as 6.2.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.2G.1_1 UE maximum output power for Tx Diversity for UE supporting 4Tx Same as 6.2.1 for the sum of power at each of UE antenna connector Same as 6.2.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.2G.2 UE maximum output power reduction for Tx Diversity Same as 6.2.2 for the sum of power at each of UE antenna connector Same as 6.2.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2286 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.2G.2_1 UE maximum output power reduction for Tx Diversity for UE supporting 4Tx Same as 6.2.2 for the sum of power at each of UE antenna connector Same as 6.2.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.2G.3 UE additional maximum output power reduction for Tx Diversity Same as 6.2.3 for the sum of power at each of UE antenna connector Same as 6.2.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.2G.3_1 UE additional maximum output power reduction for Tx Diversity for UE supporting 4Tx Same as 6.2.3 for the sum of power at each of UE antenna connector Same as 6.2.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.2G.4 Configured transmitted power for Tx Diversity Same as 6.2.4 for the sum of power at each of UE antenna connector Same as 6.2.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.2G.4_1 Configured transmitted power for Tx Diversity for UE supporting 4Tx Same as 6.2.4 for the sum of power at each of UE antenna connector Same as 6.2.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.2H.1.1 UE maximum output power for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: same as 6.2.1 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.2.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2H.1.2 UE maximum output power reduction for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: same as 6.2.2 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.2.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2H.1.3 UE additional maximum output power reduction for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: same as 6.2.3 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.2.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2H.1.4 Configured transmitted power for intra- band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: same as 6.2.4 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.2.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.2H.3.1 UE maximum output power for inter-band UL CA with UL MIMO MAX (TTCC1, TTCC2) TTCCX is TT of each UL CC For the component carrier configured with UL MIMO: Same as 6.2.1 for the sum of power at each of UE antenna connector For the other component carrier: Same as 6.2.1 3GPP TS 38.521-1 version 19.2.0 Release 19 2287 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.2I.1 UE maximum output power for RedCap Same as 6.2.1 for BW ≤ 20MHz Same as 6.2.1 6.2J.1 UE maximum output power for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.2.1 for the sum of power at each of UE antenna/TAB connector Otherwise: FFS Same as 6.2.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna/TAB connectors 6.2J.2 Configured transmitted power for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.2.4 for the sum of power at each of UE antenna/TAB connector Otherwise: FFS Same as 6.2.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna/TAB connectors 6.2L.3.1 UE maximum output power for inter-band UL CA with Tx Diversity MAX (TTCC1, TTCC2) TTCCX is TT of each UL CC For the component carrier configured with Tx Diversity: Same as 6.2.1 for the sum of power at each of UE antenna connector For the other component carrier: Same as 6.2.1 6.3.1 Minimum output power f ≤ 3.0GHz 1.0 dB, BW ≤ 40MHz 1.3 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 7.125GHz 1.3 dB, BW ≤ 100MHz Minimum requirement + TT 6.3.2 Transmit OFF power f ≤ 3.0GHz 1.5 dB, BW ≤ 40MHz 1.7 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 6.0GHz 1.8 dB, BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz [2.1] dB, BW ≤ 100MHz Minimum requirement + TT 6.3.3.2 General ON/OFF time mask f ≤ 3.0GHz 1.5 dB, BW ≤ 40MHz 1.7 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 6.0GHz 1.8 dB, BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz 2.1] dB, BW ≤ 100MHz OFF Power: Minimum requirement + TT ON Power: –Same as 6.2.1 6.3.3.4 PRACH time mask f ≤ 3.0GHz 1.5 dB, BW ≤ 40MHz 1.7 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 6.0GHz 1.8 dB, BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz 2.1] dB, BW ≤ 100MHz OFF Power: Minimum requirement + TT ON Power: Upper limit + TT, Lower limit - TT 6.3.3.6 SRS time mask f ≤ 3.0GHz 1.5 dB, BW ≤ 40MHz 1.7 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 6.0GHz 1.8 dB, BW ≤ 100MHz OFF Power: Minimum requirement + TT ON Power: Upper limit + TT, Lower limit - TT 3GPP TS 38.521-1 version 19.2.0 Release 19 2288 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.0GHz < f ≤ 7.125GHz 2.1] dB, BW ≤ 100MHz 6.3.4.2 Absolute power tolerance For UL Power ≥ 0dBm f ≤ 3.0GHz 1.0 dB, BW ≤ 40MHz 1.4 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 7.125GHz 1.4 dB, BW ≤ 100MHz For UL power < 0 dBm f ≤ 3.0GHz 1.2 dB, BW ≤ 40MHz 1.4 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 7.125GHz 1.4 dB, BW ≤ 100MHz Upper limit + TT, Lower limit – TT 6.3.4.3 Relative power tolerance f ≤ 7.125GHz 0.7 dB, BW ≤ 100MHz Upper limit + TT, Lower limit – TT 6.3.4.4 Aggregate power tolerance f ≤ 7.125GHz 0.7 dB, BW ≤ 100MHz Upper limit + TT, Lower limit – TT 6.3A.1.1 Minimum output power for CA (2UL CA) Same as 6.3.1 Minimum requirement + TT 6.3A.3.1 Transmit ON/OFF time mask for CA (2UL CA) Same as 6.3.3.2 For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.3.3.2 Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD Minimum requirement + TT 6.3A.3.2 Time mask for switching between two uplink carriers ON power: same as 6.2A.2.1 for inter-band CA Same as 6.2A.2.1 for inter-band CA 6.3A.3.3 Time mask for switching between two uplink carriers with two transmit antenna connectors ON power: same as 6.2A.2.1 for inter-band CA Same as 6.2A.2.1 for inter-band CA 6.3A.3.4 Time mask for switching between one uplink band with one transmit antenna connector and one uplink band with two transmit antenna connectors (3UL CA) ON power: Same as inter-band tolerance in 6.2A.2.1 for PCell and for sum of power at each of UE antenna connector on SCells. Same as 6.2A.2.1 for inter-band CA 6.3A.3.5 Time mask for switching between two uplink bands with two transmit antenna connectors (3UL CA) ON power: Same as inter-band tolerance in 6.2A.2.1 for sum of power at each of UE antenna connector on PCell and SCells. Same as 6.2A.2.1 for inter-band CA 6.3A.3.6 Time mask for switching across three uplink bands FFS FFS 6.3A.3.7 Time mask for switching across four uplink bands FFS FFS 6.3A.4.1.1 Absolute power tolerance for CA (2UL CA) Same as 6.3.4.2 for each CC Upper limit + TT, Lower limit – TT 6.3A.4.2.1 Power Control Relative power tolerance for CA (2UL CA) Same as 6.3.4.3 for each CC Upper limit + TT, Lower limit – TT 6.3A.4.3.1 Aggregate power tolerance for CA (2UL CA) Same as 6.3.4.4 for each CC Upper limit + TT, Lower limit – TT 6.3C.1 Minimum output power for SUL Same as 6.3.1 Same as 6.3.1 6.3C.2 Transmit OFF power for SUL Same as 6.3.2 Same as 6.3.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2289 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3C.3.1 Transmit ON/OFF time mask for SUL Same as 6.3.3.2 Same as 6.3.3.2 6.3C.3.2 General transmit ON/OFF time mask for switching between two uplink carriers ON power: Same as 6.3.3.2 ON power: Same as 6.3.3.2 6.3C.3.3 General transmit ON/OFF time mask for switching between two uplink carriers with two transmit antenna connectors ON power: Same as 6.3.3.2 for sum of power at each of UE antenna connector on NUL and SUL. ON power: Same as 6.3.3.2 6.3C.3.4 General transmit ON/OFF time mask for switching between one uplink band with one transmit antenna connector and one uplink band with two transmit antenna connectors ON power: Same as 6.3.3.2 for SUL carrier and for sum of power at each of UE antenna connector on NUL carriers ON power: Same as 6.3.3.2 6.3C.3.5 General transmit ON/OFF time mask for switching between two uplink bands with two transmit antenna connectors ON power: Same as 6.3.3.2 for sum of power at each of UE antenna connector on NUL carriers and SUL carrier. ON power: Same as 6.3.3.2 6.3C.3.6 Time mask for switching across three uplink bands (3CC) Subtest 1: ON power: Same as 6.2D.2 for sum of power at each of UE antenna connector on NUL carriers. Same as 6.2C.4 for SUL carrier Subtest 2: ON power: Same as 6.2A.2.1 for inter-band UL CA for NUL bands. Same as 6.2D.2_1 for SUL carrier. Subtest 1: ON power: Same as 6.2D.2 for NUL carriers. Same as 6.2C.4 for SUL carrier Subtest 2: ON power: Same as 6.2A.2.1 for inter- band UL CA for NUL bands. Same as 6.2D.2_1 for SUL carrier. 6.3C.3.6_1 Time mask for switching across three uplink bands (more than 3CC) ON power: Same as 6.2D.2 for NUL band with single UL carrier, and same as 6.2H.1.2 for NUL band with intra-band UL CA carriers. Same as 6.2C.4 for SUL carrier. ON power: Same as 6.2D.2 for NUL band with single UL carrier, and same as 6.2H.1.2 for NUL band with intra-band UL CA carriers. Same as 6.2C.4 for SUL carrier. 6.3C.4.1 Absolute power tolerance for SUL Same as 6.3.4.2 Same as 6.3.4.2 6.3C.4.2 Power Control Relative power tolerance for SUL Same as 6.3.4.3 Same as 6.3.4.3 6.3C.4.3 Aggregate power tolerance for SUL Same as 6.3.4.4 Same as 6.3.4.4 6.3D.1 Minimum output power for UL MIMO Same as 6.3.1 for the sum of power at each of UE antenna connector Same as 6.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3D.1_1 Minimum output power for SUL with UL MIMO Same as 6.3D.1 Same as 6.3D.1 6.3D.1_2 Minimum output power UL MIMO for UE supporting 4Tx FFS FFS 6.3D.2 Transmit OFF power for UL MIMO Same as 6.3.2 for each antenna Same as 6.3.2 Uplink power measurement applies to each Tx antenna connector 6.3D.2_1 Transmit OFF power for SUL with UL MIMO Same as 6.3D.2 Same as 6.3D.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2290 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3D.2_2 Transmit OFF power for UL MIMO for UE supporting 4Tx Same as 6.3D.2 Same as 6.3D.2 6.3D.3 Transmit ON/OFF time mask for UL MIMO ON power: Same as 6.2D.1 OFF power: Same as 6.3D.2 ON power: Same as 6.2D.1 OFF power: Same as 6.3D.2 6.3D.3_1 Transmit ON/OFF time mask for SUL with UL MIMO Same as 6.3D.3 Same as 6.3D.3 6.3D.3_2 Transmit ON/OFF time mask for UL MIMO for UE supporting 4Tx ON power: Same as 6.2D.1_2 OFF power: Same as 6.3D.2_2 ON power: Same as 6.2D.1_2 OFF power: Same as 6.3D.2_2 6.3D.4.1 Absolute Power tolerance Same as 6.3.4.2 for the sum of power at each of UE antenna connector Same as 6.3.4.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3D.4.1_1 Absolute power tolerance for SUL with UL MIMO Same as 6.3D.4.1 Same as 6.3D.4.1 6.3D.4.1_2 Absolute power tolerance for UL MIMO for UE supporting 4Tx Same as 6.3.4.2 for the sum of power at each of UE antenna connector Same as 6.3.4.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3D.4.2 Relative Power tolerance Same as 6.3.4.3 for the sum of power at each of UE antenna connector Same as 6.3.4.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3D.4.2_1 Relative power tolerance for SUL with UL MIMO Same as 6.3D.4.2 Same as 6.3D.4.2 6.3D.4.2_2 Relative power tolerance for UL MIMO for UE supporting 4Tx FFS FFS 6.3D.4.3 Aggregate Power tolerance Same as 6.3.4.4 for the sum of power at each of UE antenna connector Same as 6.3.4.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3D.4.3_1 Aggregate power tolerance for SUL with UL MIMO Same as 6.3D.4.3 Same as 6.3D.4.3 6.3D.4.3_2 Aggregate power tolerance for UL MIMO for UE supporting 4Tx Same as 6.3.4.4 for the sum of power at each of UE antenna connector Same as 6.3.4.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3E.1.1 Minimum output power for V2X / non- concurrent operation Same as 6.3.1 Same as 6.3.1 6.3E.1.1D Minimum output power for V2X / non- concurrent operation / SL- MIMO Same as 6.3.1 for the sum of power at each of UE antenna connector Same as 6.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3E.2.1 Transmit OFF power for V2X / non- concurrent operation Same as 6.3.2 Same as 6.3.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2291 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3E.2.1D Transmit OFF power for V2X / non- concurrent operation / SL- MIMO Same as 6.3.2 for each antenna Same as 6.3.2 Uplink power measurement applies to each Tx antenna connector 6.3E.3.1 Transmit ON/OFF time mask for V2X / non- concurrent operation Same as 6.3.3.2 Same as 6.3.3.2 6.3E.3.1D Transmit ON/OFF time mask for V2X / non-concurrent operation / SL-MIMO ON power: Same as 6.2E.1.1 OFF power: Same as 6.3E.2.1 ON power: Same as 6.2E.1.1 OFF power: Same as 6.3E.2.1 6.3E.4.1.1 Absolute power tolerance for V2X / non- concurrent operation Same as 6.3.4.2 Same as 6.3.4.2 6.3E.4.1.1D Absolute power tolerance for V2X / non- concurrent operation / SL- MIMO Same as 6.3.4.2 for the sum of power at each of UE antenna connector Same as 6.3.4.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3F.1 Minimum output power 3.0GHz < f ≤ 7.125GHz 1.3 dB, BW ≤ 100MHz Minimum requirement + TT 6.3F.2 Transmit OFF power 3.0GHz < f ≤ 6.0GHz 1.8 dB, BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz 2.1 BW ≤ 100MHz Minimum requirement + TT 6.3F.3.2 General ON/OFF time mask 3.0GHz < f ≤ 6.0GHz 1.8 dB, BW ≤ 100MHz 6.0GHz < f ≤ 7.125GHz 2.1 BW ≤ 100MHz OFF Power: Minimum requirement + TT ON Power: Upper limit + TT, Lower limit - TT 6.3F.4.2 Absolute power tolerance for shared spectrum access For UL Power ≥ 0dBm 4.2GHz < f ≤ 7.125GHz 1.4 dB, BW ≤ 100MHz For UL power < 0 dBm 4.2GHz < f ≤ 7.125GHz 1.4 dB, BW ≤ 100MHz Upper limit + TT, Lower limit – TT 6.3F.4.3 Relative power tolerance for shared spectrum channel access Same as 6.3.4.3 for f ≤ 7.125GHz Same as 6.3.4.3 for f ≤ 7.125GHz 6.3F.4.4 Aggregate power tolerance for shared spectrum channel access Same as 6.3.4.4 for f ≤ 7.125GHz Same as 6.3.4.4 for f ≤ 7.125GHz 6.3G.1 Minimum output power for Tx Diversity Same as 6.3.1 for the sum of power at each of UE antenna connector Same as 6.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3G.1_1 Minimum output power for Tx Diversity for UE supporting 4Tx FFS FFS 6.3G.2 Transmit OFF power for Tx Diversity Same as 6.3.2 for each antenna Same as 6.3.2 Uplink power measurement applies to each Tx antenna connector 6.3G.2_1 Transmit OFF power for Tx Diversity for UE supporting 4Tx Same as 6.3.2 for each antenna Same as 6.3.2 Uplink power measurement applies to each Tx antenna connector 6.3G.3.1 General ON/OFF time mask for Tx Diversity ON power: Same as 6.2G.1 OFF power: Same as 6.3G.2 ON power: Same as 6.2G.1 OFF power: Same as 6.3G.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2292 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3G.3.1_1 General ON/OFF time mask for Tx Diversity for UE supporting 4Tx ON power: Same as 6.2G.1_1 OFF power: Same as 6.3G.2_1 ON power: Same as 6.2G.1_1 OFF power: Same as 6.3G.2_1 6.3G.3.2 PRACH time mask for Tx Diversity Same as 6.3.3.4 for each antenna Same as 6.3.3.4 Uplink power measurement applies to each Tx antenna connector 6.3G.3.2_1 PRACH time mask for Tx Diversity for UE supporting 4Tx Same as 6.3.3.4 for each antenna Same as 6.3.3.4 Uplink power measurement applies to each Tx antenna connector 6.3G.3.3 SRS time mask for Tx Diversity Same as 6.3.3.6 for each antenna Same as 6.3.3.6 Uplink power measurement applies to each Tx antenna connector 6.3G.3.3_1 SRS time mask for Tx Diversity for UE supporting 4Tx Same as 6.3.3.6 for each antenna Same as 6.3.3.6 Uplink power measurement applies to each Tx antenna connector 6.3G.4.1 Absolute power tolerance for Tx Diversity Same as 6.3.4.2 for the sum of power at each of UE antenna connector Same as 6.3.4.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3G.4.1_1 Absolute power tolerance for Tx Diversity for UE supporting 4Tx Same as 6.3.4.2 for the sum of power at each of UE antenna connector Same as 6.3.4.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3G.4.2 Relative power tolerance for Tx Diversity Same as 6.3.4.3 for the sum of power at each of UE antenna connector Same as 6.3.4.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3G.4.2_1 Relative power tolerance for Tx Diversity for UE supporting 4Tx FFS FFS 6.3G.4.3 Aggregate power tolerance for Tx Diversity Same as 6.3.4.4 for the sum of power at each of UE antenna connector Same as 6.3.4.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3G.4.3_1 Aggregate power tolerance for Tx Diversity for UE supporting 4Tx Same as 6.3.4.4 for the sum of power at each of UE antenna connector Same as 6.3.4.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3H.1.1 Minimum output power for intra-band UL contiguous CA with UL MIMO For each CC, same as 6.3.1 for the sum of power at each of UE antenna connector Same as 6.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.3H.1.2 Transmit OFF power for intra-band UL contiguous CA with UL MIMO For each CC, same as 6.3.2 for each antenna Same as 6.3.2 Uplink power measurement applies to each Tx antenna connector 6.3H.1.3 Transmit ON/OFF time mask for intra-band UL contiguous CA with UL MIMO ON power: Same as 6.2H.1.2 OFF power: Same as 6.3H.1.2 ON power: Same as 6.2H.1.2 OFF power: Same as 6.3H.1.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2293 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.3J.1 Minimum output power for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.3.1 for the sum of power of all antenna connectors (for ATG UE with omni- directional antennas) or of all TAB connectors (for ATG UE with antenna array) Otherwise: FFS Same as 6.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 6.3J.2 Transmit OFF power for ATG For ATG UEs with maxOutputPowerATG-r18 up to 31dBm (up to PC1): Same as 6.3.2 for each UE antenna/TAB connector Otherwise, for each UE antenna/TAB connector: f ≤ 3.0GHz 2.15 dB, BW ≤ 40MHz 2.35 dB, 40MHz < BW ≤ 100MHz 3.0GHz < f ≤ 6.0GHz 2.45 dB, BW ≤ 100MHz Same as 6.3.2 Uplink power measurement applies to each Tx antenna connector or each TAB connector 6.3J.3.1 General ON/OFF time mask for ATG ON power: Same as 6.2J.1 OFF power: Same as 6.3J.2 OFF Power: Minimum requirement + TT ON Power: –Same as 6.2J.1 6.3J.3.3 PRACH time mask for ATG FFS FFS 6.3J.3.4 SRS time mask for ATG FFS FFS 6.3J.4.1 Absolute power tolerance for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.3.4.2 for the sum of power at each of UE antenna connector/TAB connector Otherwise: FFS Same as 6.3.4.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 6.3J.4.2 Relative power tolerance for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.3.4.3 for the sum of power at each of UE antenna connector/TAB connector Otherwise: FFS Same as 6.3.4.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 6.3J.4.3 Aggregate power tolerance for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.3.4.4 for the sum of power at each of UE antenna connector/TAB connector Otherwise: FFS Same as 6.3.4.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 6.4.1 Frequency Error f ≤ 7.125GHz 15 Hz Modulated carrier frequency: Upper limit + TT, Lower limit – TT DL power: REFSENS + TT 6.4.2.1 Error Vector Magnitude For up to 64QAM f ≤ 6.0GHz, BW ≤ 100MHz 0% 6.0GHz < f ≤ 7.125GHz, BW ≤ 100MHz [0%], -25dBm < PUL Minimum requirement + TT EVM_meas_Increase = sqrt(Minimum requirement^2 + MTSU^2) - Minimum requirement; it is the increase of 3GPP TS 38.521-1 version 19.2.0 Release 19 2294 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI [0.9%], -40dBm ≤ PUL ≤ -25dBm, 64QAM For 256QAM f ≤ 6.0GHz, BW ≤ 100MHz 0.3%, 15dBm < PUL 0.8%, -25dBm < PUL ≤ 15dBm, 1.1%, -40dBm ≤ PUL ≤ -25dBm 6.0GHz < f ≤ 7.125GHz, BW ≤ 100MHz [0.3%], 15dBm < PUL [1.1%], -25dBm < PUL ≤ 15dBm, [1.74%], -40dBm ≤ PUL ≤ -25dBm measured EVM due to test equipment uncertainty. EVM_meas_Increase_Relative = EVM_meas_Increase / Minimum requirement [%] If (EVM_meas_Increase_Relative < 7.5%) TT = 0% Else if (7.5% ≤ EVM_meas_Increase_Relative ≤ 50%) TT = EVM_meas_Increase Else Skip the test as not testable. 6.4.2.1a Error Vector Magnitude including symbols with transient period f ≤ 6.0GHz, BW ≤ 100MHz 0% 6.0GHz < f ≤ 7.125GHz, BW ≤ 100MHz TBD Same as 6.4.2.1 6.4.2.2 Carrier Leakage 0.8 dB, f ≤ 7.125GHz, BW ≤ 100MHz Minimum requirement + TT 6.4.2.3 In-band emissions 0.8 dB, f ≤ 7.125GHz, BW ≤ 100MHz Minimum requirement + TT 6.4.2.4 EVM equalizer spectrum flatness 1.4 dB, f ≤ 7.125GHz, BW ≤ 100MHz Minimum requirement + TT 6.4.2.5 EVM equalizer spectrum flatness for Pi/2 BPSK Same as 6.4.2.4 Minimum requirement + TT 6.4A.1.1 Frequency error for CA (2UL CA) For inter-band CA: same as 6.4.1 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.4.1 for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD Modulated carrier frequency: Upper limit + TT, Lower limit – TT 6.4A.2.1.1 Error Vector Magnitude for CA (2UL CA) For up to 64QAM 0% For 256QAM For inter-band CA: same as 6.4.2.1 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.4.2.1 for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD Minimum requirement + TT 6.4A.2.2.1 Carrier leakage for CA (2UL CA) For inter-band CA: same as 6.4.2.2 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.4.2.2 for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD Minimum requirement + TT 6.4A.2.3.1 In-band emissions for CA (2UL CA) For inter-band CA: same as 6.4.2.3 for each CC For intra-band contiguous UL CA: Aggregated BW ≤ 100M: Same as 6.4.2.3 for each CC Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD Minimum requirement + TT 6.4C.1 Frequency error for SUL Same as 6.4.1 Minimum requirement + TT 6.4C.2.1 Error Vector Magnitude for SUL Same as 6.4.2.1 Minimum requirement + TT 6.4C.2.2 Carrier leakage for SUL Same as 6.4.2.2 Minimum requirement + TT 6.4C.2.3 In-band emissions for SUL Same as 6.4.2.3 Minimum requirement + TT 6.4C.2.4 EVM equalizer spectrum flatness for SUL Same as 6.4.2.4 Minimum requirement + TT 3GPP TS 38.521-1 version 19.2.0 Release 19 2295 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4D.1 Frequency error for UL MIMO Same as 6.4.1 for each antenna Same as 6.4.1 6.4D.1_1 Frequency error for SUL with UL MIMO Same as 6.4D.1 Same as 6.4D.1 6.4D.1_2 Frequency error for UL MIMO for UE supporting 4Tx Same as 6.4D.1 Same as 6.4D.1 6.4D.2.1 Error Vector Magnitude for UL MIMO Same as 6.4.2.1 for each antenna Same as 6.4.2.1 6.4D.2.1_1 Error Vector Magnitude for SUL with UL MIMO Same as 6.4D.2.1 Same as 6.4D.2.1 6.4D.2.1_2 Error Vector Magnitude for UL MIMO for UE supporting 4Tx Same as 6.4.2.1 for each layer Same as 6.4.2.1 6.4D.2.2 Carrier leakage for UL MIMO Same as 6.4.2.2 for each antenna Same as 6.4.2.2 6.4D.2.2_1 Carrier leakage for SUL with UL MIMO Same as 6.4.2.2 for each antenna Same as 6.4.2.2 6.4D.2.2_2 Carrier leakage for UL MIMO for UE supporting 4Tx Same as 6.4.2.2 for each antenna Same as 6.4.2.2 6.4D.2.3 In-band emissions for UL MIMO Same as 6.4.2.3 for each antenna Same as 6.4.2.3 6.4D.2.3_1 In-band emissions for SUL with UL MIMO Same as 6.4.2.3 for each antenna Same as 6.4.2.3 6.4D.2.3_2 In-band emissions for UL MIMO for UE supporting 4Tx Same as 6.4.2.3 for each antenna Same as 6.4.2.3 6.4D.2.4 EVM equalizer spectrum flatness for UL MIMO Same as 6.4.2.4 for each antenna Same as 6.4.2.4 6.4D.2.4_1 EVM equalizer spectrum flatness for SUL with UL MIMO Same as 6.4.2.4 for each antenna Same as 6.4.2.4 6.4D.2.4_2 EVM equalizer spectrum flatness for UL MIMO for UE supporting 4Tx Same as 6.4.2.4 for each layer Same as 6.4.2.4 6.4D.3 Time alignment error for UL MIMO 25ns Minimum Requirement + TT 6.4D.3_1 Time alignment error for SUL with UL MIMO 25ns Minimum Requirement + TT 6.4D.3_2 Time alignment error for UL MIMO for UE supporting 4Tx 25ns Minimum Requirement + TT 6.4D.4 Requirements for Coherent UL MIMO FFS FFS 6.4E.1.1 Frequency error for V2X / non-concurrent operation Same as 6.4.1 Same as 6.4.1 6.4E.1.1D Frequency error for V2X / non-concurrent operation / SL-MIMO Same as 6.4.1 for each antenna Same as 6.4.1 6.4E.2.2.1 Error Vector Magnitude for V2X / non- concurrent operation Same as 6.4.2.1 Same as 6.4.2.1 6.4E.2.2.1D Error Vector Magnitude for V2X / non- concurrent operation / SL- MIMO Same as 6.4.2.1 for each antenna Same as 6.4.2.1 6.4E.2.3.1 Carrier leakage for V2X / non-concurrent operation Same as 6.4.2.2 Same as 6.4.2.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2296 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4E.2.3.1D Carrier leakage for V2X / non-concurrent operation / SL-MIMO Same as 6.4.2.2 for each antenna Same as 6.4.2.2 6.4E.2.4.1 In-band emissions for V2X / non- concurrent operation Same as 6.4.2.3 Same as 6.4.2.3 6.4E.2.4.1D In-band emissions for V2X / non- concurrent operation / SL- MIMO Same as 6.4.2.3 for each antenna Same as 6.4.2.3 6.4E.2.5.1 EVM equalizer spectrum flatness for V2X / non-concurrent operation Same as 6.4.2.4 Same as 6.4.2.4 6.4E.2.5.1D EVM equalizer spectrum flatness for V2X / non-concurrent operation / SL-MIMO Same as 6.4.2.4 for each antenna Same as 6.4.2.4 6.4F.1 Frequency Error 15 Hz Modulated carrier frequency: Upper limit + TT, Lower limit – TT DL power: REFSENS + TT 6.4F.2.1 Error Vector Magnitude for shared spectrum access Same as 6.4.2.1 Minimum requirement + TT 6.4F.2.2 Carrier Leakage Same as 6.4.2.2 Same as 6.4.2.2 6.4F.2.3 In-band emissions Same as 6.4.2.3 Same as 6.4.2.3 6.4F.2.4 EVM equalizer spectrum flatness Same as 6.4.2.4 Same as 6.4.2.4 6.4G.1 Frequency Error for Tx Diversity Same as 6.4.1 for each antenna Same as 6.4.1 6.4G.1_1 Frequency error for Tx Diversity for UE supporting 4Tx Same as 6.4.1 for each antenna Same as 6.4.1 6.4G.2.1 Error Vector Magnitude for Tx Diversity Same as 6.4.2.1 Same as 6.4.2.1 6.4G.2.1_1 Error Vector Magnitude for Tx Diversity for UE supporting 4Tx Same as 6.4.2.1 Same as 6.4.2.1 6.4G.2.2 Carrier Leakage for Tx Diversity Same as 6.4.2.2 for each antenna Same as 6.4.2.2 6.4G.2.2_1 Carrier leakage for Tx Diversity for UE supporting 4Tx Same as 6.4.2.2 for each antenna Same as 6.4.2.2 6.4G.2.3 In-band emissions for Tx Diversity Same as 6.4.2.3 for each antenna Same as 6.4.2.3 6.4G.2.3_1 In-band emissions for Tx Diversity for UE supporting 4Tx Same as 6.4.2.3 for each antenna Same as 6.4.2.3 6.4G.2.4 EVM equalizer spectrum flatness for Tx Diversity Same as 6.4.2.4 for each antenna Same as 6.4.2.4 6.4G.2.4_1 EVM equalizer spectrum flatness for Tx Diversity for UE supporting 4Tx Same as 6.4.2.4 for each antenna Same as 6.4.2.4 6.4H.1.1 Frequency error for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: Same as 6.4.1 for each antenna on each CC Aggregated BW > 100M: TBD Modulated carrier frequency: Upper limit + TT, Lower limit – TT 6.4H.1.2.1 Error Vector Magnitude for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: For up to 64QAM: 0% For 256QAM: Same as 6.4D.2.1 for each layer on each CC Aggregated BW > 100M: TBD Minimum requirement + TT 3GPP TS 38.521-1 version 19.2.0 Release 19 2297 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.4H.1.2.2 Carrier leakage for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: Same as 6.4.2.2 for each antenna on each CC Aggregated BW > 100M: TBD Minimum requirement + TT 6.4H.1.2.3 In-band emissions for intra-band UL contiguous CA with UL MIMO Aggregated BW ≤ 100M: Same as 6.4.2.3 for each antenna on each CC Aggregated BW > 100M: TBD Minimum requirement + TT 6.4H.1.3 Time alignment error for intra-band UL contiguous CA with UL MIMO 25ns for each CC Minimum Requirement + TT 6.4H.1.4 Coherent UL MIMO for intra-band UL contiguous CA with UL MIMO FFS FFS 6.4J.1 Frequency error for ATG Same as 6.4.1 at each UE antenna/TAB connector Same as 6.4.1 6.4J.2.1 Error Vector Magnitude for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: For up to 64QAM 0% For 256QAM f ≤ 6.0GHz, BW ≤ 100MHz 0.6%, PUL = Maximum Output Power, 1.1%, PUL = Minimum Output Power Same as 6.4.2.1 6.4J.2.1a Error Vector Magnitude including symbols with transient period for ATG 0% Same as 6.4.2.1 6.4J.2.2 Carrier Leakage for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.4.2.2 at each UE antenna/TAB connector 6.4J.2.3 In-band emissions for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.4.2.3 at each UE antenna/TAB connector 6.4J.2.4 EVM equalizer spectrum flatness for ATG Same as 6.4.2.4 at each UE antenna/TAB connector Minimum requirement + TT 6.4J.2.5 EVM equalizer spectrum flatness for Pi/2 BPSK for ATG Same as 6.4.2.5 at each UE antenna/TAB connector Minimum requirement + TT 6.5.1 Occupied bandwidth f ≤ 7.125GHz 0 kHz Minimum requirement + TT 6.5.2.2 Spectrum Emission Mask 1.5 dB, f ≤ 3.0GHz 1.8 dB, 3.0GHz < f ≤ 7.125GHz Minimum requirement + TT 6.5.2.3 Additional spectrum emission mask 1.5 dB, f ≤ 3.0GHz 1.8 dB, 3.0GHz < f ≤ 7.125GHz Minimum requirement + TT 6.5.2.4.1 NR ACLR f ≤ 7.125GHz Absolute requirement 0 dB Relative requirement 0.8 dB Absolute requirement ACLR Minimum Requirement + TT Relative requirement ACLR Minimum Requirement - TT 6.5.2.4.2 UTRA ACLR Same as 6.5.2.4.1 Same as 6.5.2.4.1 6.5.3.1 General spurious emissions 0 dB Minimum requirement + TT 3GPP TS 38.521-1 version 19.2.0 Release 19 2298 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5.3.2 Spurious emission for UE co-existence 0 dB Minimum requirement + TT 6.5.3.3 Additional spurious emissions 0 dB Minimum requirement + TT 6.5.4 Transmit intermodulation f ≤ 7.125GHz 0 dB CW interferer Minimum Requirement - TT 6.5A.1.1 Occupied bandwidth for CA (2UL CA) For inter-band CA: same as 6.5.1 for each CC For intra-band CA: Aggregated BW ≤ 100M: same as 6.5.1 for aggregated channel bandwidth Aggregated BW > 100M: TBD 6.5A.2.2.1 Spectrum emission mask for CA (2UL CA) For inter-band CA: same as 6.5.2.2 for each CC For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.2.2 Aggregated BW > 100M: TBD Minimum requirement + TT 6.5A.2.3.1 Additional Spectrum emission mask for CA (2UL CA) For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.2.3 Aggregated BW > 100M: TBD 6.5A.2.4.1.1 NR ACLR for CA (2UL CA) For inter-band CA: same as 6.5.2.4.1 for each CC For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.2.4.1 Aggregated BW > 100M: TBD Same as 6.5.2.4.1 6.5A.2.4.2.1 UTRA ACLR for CA (2UL CA) For inter-band CA: same as 6.5.2.4.2 for each CC Same as 6.5.2.4.2 6.5A.3.1.1 General spurious emissions for CA (2UL CA) 0 dB Minimum requirement + TT 6.5A.3.2.1 Spurious emissions for UE co- existence for CA (2UL CA) 0 dB Minimum requirement + TT 6.5A.3.3.1 Additional Spurious emission for CA (2UL CA) 0dB 6.5A.4.1 Transmit intermodulation for CA (2UL CA) 0 dB For intra-band contiguous UL CA: Aggregated BW ≤ 100M: 0 dB Aggregated BW > 100M: TBD For intra-band non-contiguous CA: TBD CW interferer Minimum Requirement - TT 6.5C.1 Occupied bandwidth for SUL Same as 6.5.1 Same as 6.5.1 6.5C.2.2 Spectrum Emission Mask for SUL Same as 6.5.2.2 Same as 6.5.2.2 6.5C.2.3 Additional spectrum emission mask for SUL Same as 6.5.2.3 Same as 6.5.2.3 6.5C.2.4.1 NR ACLR for SUL Same as 6.5.2.4.1 Same as 6.5.2.4.1 6.5C.2.4.2 UTRA ACLR for SUL Same as 6.5.2.4.2 Same as 6.5.2.4.2 6.5C.3.1 General spurious emissions for SUL Same as 6.5.3.1 Same as 6.5.3.1 6.5C.3.2 Spurious emission for UE co-existence for SUL Same as 6.5.3.2 Same as 6.5.3.2 6.5C.3.3 Additional spurious emissions for SUL Same as 6.5.3.3 Same as 6.5.3.3 6.5C.4 Transmit intermodulation for SUL Same as 6.5.4 Same as 6.5.4 6.5D.1 Occupied bandwidth for UL MIMO Same as 6.5.1 for the sum of power at each of UE antenna connector Same as 6.5.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.1_2 Occupied bandwidth for SUL with UL MIMO Same as 6.5D.1 Same as 6.5D.1 3GPP TS 38.521-1 version 19.2.0 Release 19 2299 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5D.1_3 Occupied bandwidth for UL MIMO for UE supporting 4Tx Same as 6.5D.1 Same as 6.5D.1 6.5D.2.2 Spectrum emission mask for UL MIMO Same as 6.5.2.2 for the sum of power at each of UE antenna connector Same as 6.5.2.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.2.2_1 Spectrum emission mask for SUL with UL MIMO Same as 6.5D.2.2 Same as 6.5D.2.2 6.5D.2.2_2 Spectrum emission mask for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.2.3 Additional spectrum emission mask for UL MIMO Same as 6.5.2.3 for the sum of power at each of UE antenna connector Same as 6.5.2.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.2.3_1 Additional spectrum emission mask for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.2.4.1 NR ACLR for UL MIMO Same as 6.5.2.4.1 for the sum of power at each of UE antenna connector Same as 6.5.2.4.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.2.4.1_1 NR ACLR for SUL with UL MIMO Same as 6.5.2.4.1 for the sum of power at each of UE antenna connector Same as 6.5.2.4.1 6.5D.2.4.1_2 NR ACLR for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.2.4.2 UTRA ACLR for UL MIMO Same as 6.5.2.4.2 for the sum of power at each of UE antenna connector Same as 6.5.2.4.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.2.4.2_1 UTRA ACLR for SUL with UL MIMO Same as 6.5.2.4.2 for the sum of power at each of UE antenna connector Same as 6.5.2.4.2 6.5D.2.4.2_2 UTRA ACLR for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.3.1 General spurious emissions for UL MIMO Same as 6.5.3.1 for the sum of power at each of UE antenna connector Same as 6.5.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.3.2 Spurious emissions for UE co- existence for UL MIMO Same as 6.5.3.2 for the sum of power at each of UE antenna connector Same as 6.5.3.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.3.3 Additional spurious emissions for UL MIMO Same as 6.5.3.3 for the sum of power at each of UE antenna connector Same as 6.5.3.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 3GPP TS 38.521-1 version 19.2.0 Release 19 2300 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5D.3_1.1 General spurious emissions for UL MIMO (Rel-16 onward) Same as 6.5.3.1 for the sum of power at each of UE antenna connector Same as 6.5.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.3_1.2 Spurious emissions for UE co- existence for UL MIMO (Rel-16 onward) Same as 6.5.3.2 for the sum of power at each of UE antenna connector Same as 6.5.3.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.3_1.3 Additional spurious emissions for UL MIMO (Rel-16 onward) Same as 6.5.3.3 for the sum of power at each of UE antenna connector Same as 6.5.3.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.3_2.1 General spurious emissions for SUL with UL MIMO Same as 6.5.3.1 for the sum of power at each of UE antenna connector Same as 6.5.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.3_2.2 Spurious emissions for UE co- existence for SUL with UL MIMO Same as 6.5.3.2 for the sum of power at each of UE antenna connector Same as 6.5.3.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.3_2.3 Additional spurious emissions for SUL with UL MIMO Same as 6.5.3.3 for the sum of power at each of UE antenna connector Same as 6.5.3.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5D.3_3.1 General spurious emissions for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.3_3.2 Spurious emissions for UE co- existence for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.3_3.3 Additional spurious emissions for UL MIMO for UE supporting 4Tx FFS FFS 6.5D.4 Transmit intermodulation for UL MIMO Same as 6.5.4 for each antenna Same as 6.5.4 6.5D.4_1 Transmit intermodulation for SUL with UL MIMO Same as 6.5.4 for each antenna Same as 6.5.4 6.5D.4_2 Transmit intermodulation for UL MIMO for UE supporting 4Tx Same as 6.5.4 for each antenna Same as 6.5.4 6.5E.1.1 Occupied bandwidth for V2X / non- concurrent operation Same as 6.5.1 Same as 6.5.1 6.5E.1.1D Occupied bandwidth for V2X / non- concurrent operation / SL- MIMO Same as 6.5.1 for each antenna Same as 6.5.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 3GPP TS 38.521-1 version 19.2.0 Release 19 2301 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5E.2.2.1 Spectrum emission mask for V2X / non-concurrent operation Same as 6.5.2.2 Same as 6.5.2.2 6.5E.2.2.1D Spectrum emission mask for V2X / non-concurrent operation / SL-MIMO Same as 6.5.2.2 for each antenna Same as 6.5.2.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5E.2.2.2 Spectrum emission mask for V2X / concurrent operation For Inter-band concurrent operation same as 6.5.2.2 for each CC For Intra-band concurrent operation Aggregated BW ≤ 100M: Same as 6.5.2.2 Aggregated BW > 100M: TBD Minimum requirement + TT 6.5E.2.3.1 Additional Spectrum emission mask for V2X / non-concurrent operation Same as 6.5.2.3 Same as 6.5.2.3 6.5E.2.3.1D Additional Spectrum emission mask for V2X / non-concurrent operation / SL-MIMO Same as 6.5.2.3 for each antenna Same as 6.5.2.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5E.2.4.1 Adjacent channel leakage ratio for V2X / non-concurrent operation Same as 6.5.2.4 Same as 6.5.2.4 6.5E.2.4.1D Adjacent channel leakage ratio for V2X / non-concurrent operation / SL-MIMO Same as 6.5.2.4 for each antenna Same as 6.5.2.4 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5E.2.4.2 Adjacent channel leakage for V2X / concurrent operation For Inter-band concurrent operation same as 6.5.2.4.1 for each CC For Intra-band concurrent operation Aggregated BW ≤ 100M: Same as 6.5.2.4.1 Aggregated BW > 100M: TBD Same as 6.5.2.4.1 6.5E.3.1.1 General spurious emissions for V2X / non-concurrent operation 0 dB Same as 6.5.3.1 6.5E.3.1.1D General spurious emissions for V2X / non-concurrent operation / SL-MIMO 0 dB Same as 6.5.3.1 6.5E.3.2.1 Spurious emissions for UE co- existence for V2X / non- concurrent operation 0 dB Same as 6.5.3.2 6.5E.3.2.1D Spurious emissions for UE co- existence for V2X / non- concurrent operation / SL- MIMO 0 dB Same as 6.5.3.2 6.5E.3.2.2 Spurious emissions for UE co- existence for V2X / concurrent operation 0 dB Same as 6.5.3.2 6.5E.3.3.1 Additional spurious emissions requirements for V2X / non- concurrent operation 0 dB Same as 6.5.3.3 6.5E.4.1 Transmit intermodulation for V2X / non-concurrent operation Same as 6.5.4 Same as 6.5.4 6.5E.4.1D Transmit intermodulation for V2X / Same as 6.5.4 for each antenna Same as 6.5.4 3GPP TS 38.521-1 version 19.2.0 Release 19 2302 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI non-concurrent operation / SL-MIMO 6.5E.4.2 Transmit intermodulation for V2X con-current operation For intra-band concurrent operation: Aggregated BW ≤ 100M: same as 6.5.4, for each CC Aggregated BW > 100M: TBD Same as 6.5.4 6.5F.1 Occupied bandwidth for shared spectrum channel access Same as 6.5.1 for f ≤ 7.125GHz Same as 6.5.1 for f ≤ 7.125GHz 6.5F.2.2 Spectrum emission mask for operation with shared spectrum channel access 1.5 dB, f ≤ 3.0GHz 1.8 dB, 3.0GHz < f ≤ 7.125GHz Minimum requirement + TT 6.5F.2.4.1 NR ACLR Absolute requirement 0 dB Relative requirement 0.8 dB Absolute requirement ACLR Minimum Requirement + TT Relative requirement ACLR Minimum Requirement - TT 6.5F.2.4.2 Shared spectrum channel access ACLR with additional requirement for NS_29 Same as 6.5F.2.4.1 Same as 6.5F.2.4.1 6.5F.3.1 General spurious emissions 0 dB Minimum requirement + TT 6.5F.3.3 Additional spurious emissions for shared spectrum channel access 0 dB Minimum requirement + TT 6.5F.4 Transmit intermodulation for shared spectrum channel access 0 dB CW interferer Minimum Requirement - TT 6.5G.1 Occupied bandwidth for Tx Diversity Same as 6.5.1 for the sum of power at each of UE antenna connector Same as 6.5.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5G.1_1 Occupied bandwidth for Tx Diversity for UE supporting 4Tx Same as 6.5.1 for the sum of power at each of UE antenna connector Same as 6.5.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5G.2.1 Spectrum emission mask for Tx Diversity Same as 6.5.2.2 for the sum of power at each of UE antenna connector Same as 6.5.2.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5G.2.1_1 Spectrum emission mask for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.2.2 Additional spectrum emission mask for Tx Diversity Same as 6.5.2.3 for the sum of power at each of UE antenna connector Same as 6.5.2.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5G.2.2_1 Additional spectrum emission mask for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.2.3.1 NR ACLR for Tx Diversity Same as 6.5.2.4.1 for the sum of power at each of UE antenna connector Same as 6.5.2.4.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 3GPP TS 38.521-1 version 19.2.0 Release 19 2303 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 6.5G.2.3.1_1 NR ACLR for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.2.3.2 UTRA ACLR for Tx Diversity Same as 6.5.2.4.2 for the sum of power at each of UE antenna connector Same as 6.5.2.4.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5G.2.3.2_1 UTRA ACLR for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.3.1 General spurious emissions for Tx Diversity Same as 6.5.3.1 for the sum of power at each of UE antenna connector Same as 6.5.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5G.3.1_1 General spurious emissions for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.3.2 Spurious emissions for UE co- existence for Tx Diversity Same as 6.5.3.2 for the sum of power at each of UE antenna connector Same as 6.5.3.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5G.3.2_1 Spurious emissions for UE co- existence for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.3.3 Additional spurious emissions for Tx Diversity Same as 6.5.3.3 for the sum of power at each of UE antenna connector Same as 6.5.3.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5G.3.3_1 Additional Spurious emissions for Tx Diversity for UE supporting 4Tx FFS FFS 6.5G.4 Transmit intermodulation for Tx Diversity Same as 6.5.4 for each antenna Same as 6.5.4 6.5G.4_1 Transmit intermodulation for Tx Diversity for UE supporting 4Tx Same as 6.5.4 for each antenna Same as 6.5.4 6.5H.1.1 Occupied bandwidth for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.1 for the sum of power at each UE antenna connector for aggregated channel bandwidth Aggregated BW > 100M: TBD Minimum requirement + TT 6.5H.1.2.1 Spectrum emission mask for intra- band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.2.2 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.5.2.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5H.1.2.2 Additional spectrum emission mask for intra-band UL contiguous CA for UL MIMO For intra-band contiguous CA Aggregated BW ≤ 100M: same as 6.5.2.3 for sum of power at each UE antenna connector Aggregated BW > 100M: TBD Same as 6.5.3.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 6.5H.1.2.3 NR ACLR for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.2.4.1 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.5.2.4.1 3GPP TS 38.521-1 version 19.2.0 Release 19 2304 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5H.1.3.1 General spurious emissions for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.3.1 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.5.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5H.1.3.2 Spurious emissions for UE co- existence for intra-band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.3.2 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.5.3.2 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5H.1.3.3 Additional spurious emissions for intra- band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.3.3 for sum of powers of all CCs and both antennas Aggregated BW > 100M: TBD Same as 6.5.3.3 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over both Tx antenna connectors 6.5H.1.4 Transmit intermodulation for intra- band UL contiguous CA for UL MIMO Aggregated BW ≤ 100M: same as 6.5.4, for each antenna on each CC Aggregated BW > 100M: TBD Same as 6.5.4 6.5H.3.3.1 General spurious emissions for inter-band UL CA with UL MIMO Same as 6.5D.3.1 for the carrier configured with UL MIMO Same as 6.5.3.1 for the carrier without UL MIMO Minimum requirement + TT 6.5H.3.3.2 Spurious emissions for UE co- existence for inter-band UL CA with UL MIMO Same as 6.5D.3.2 for the carrier configured with UL MIMO Same as 6.5.3.2 for the carrier without UL MIMO Minimum requirement + TT 6.5J.1 Occupied bandwidth for ATG Same as 6.5.1 for at each UE antenna/TAB connector Same as 6.5.1 6.5J.3.1 General spurious emissions for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 6.5.3.1 for the sum of power at each of UE antenna connector Same as 6.5.3.1 Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna/TAB connectors 6.5L.3.3.1 General spurious emissions for inter-band UL CA with Tx Diversity Same as 6.5G.3.1 for the carrier configured with Tx Diversity Same as 6.5.3.1 for the carrier without Tx Diversity Minimum requirement + TT 6.5L.3.3.2 Spurious emissions for UE co- existence for inter-band UL CA with Tx Diversity Same as 6.5G.3.2 for the carrier configured with Tx Diversity Same as 6.5.3.2 for the carrier without Tx Diversity Minimum requirement + TT F.3.3 Measurement of receiver - MU and TT for f>6GHz (band n96, n104) already defined are working assumption based on analysis of single TE vendor. Values will be revisited once analysis from other TE vendors is available. - MU and TT for f >6GHz (bands n96, n104) are FFS for test cases requiring operation in carrier aggregation, UL MIMO or Tx Diversity. Table F.3.3-1: Derivation of Test Requirements (Receiver tests) Sub clause Test Tolerance (TT) Formula for test requirement 7.3.2 Reference sensitivity power level 0.7 dB, f ≤ 3.0GHz 1.0 dB, 3.0GHz < f ≤ 7.125GHz Reference sensitivity power level + TT T-put limit unchanged 3GPP TS 38.521-1 version 19.2.0 Release 19 2305 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.3.2_1 Reference sensitivity power level for XR Same as 7.3.2 Same as 7.3.,2 7.3A Reference sensitivity for CA (Same TT apply to all subsections including 7.3A.1, 7.3A.1_1, 7.3A.2, 7.3A.3, 7.3A.4, etc.) Same as 7.3.2 for each component carrier Same as 7.3.2 for each component carrier 7.3C.2 Reference sensitivity power level Same as 7.3.2 Same as 7.3.2 7.3D.2 Reference sensitivity for MIMO Same as 7.3.2 Same as 7.3.2 7.3D.2_1 Reference sensitivity power level for SUL with UL MIMO Same as 7.3D.2 Same as 7.3D.2 7.3D.2_3 Reference sensitivity power level for UL MIMO for UE supporting 4Tx Same as 7.3.2 Same as 7.3.2 7.3E.2 Reference sensitivity for V2X / non- concurrent operation Same as 7.3.2 Same as 7.3.2 7.3E.3 Reference sensitivity for V2X / Concurrent operation Same as 7.3.2 for NR V2X carrier and NR FR1 carrier Same as 7.3.2 7.3F Reference sensitivity for shared spectrum channel access 1.0 dB, 3.0GHz < f ≤ 7.125GHz Same as 7.3.2 7.3G.1 Reference sensitivity for Tx Diversity for UE supporting 4Tx Same as 7.3.2 Same as 7.3.2 7.3I.2 Reference sensitivity power level for RedCap Same as 7.3.2 Same as 7.3.2 7.3J.2 Reference sensitivity power level for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: same as 7.3.2 Otherwise: FFS The overall UL power is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.4 Maximum input level 0.7 dB, f ≤ 3.0GHz 1.0 dB, 3.0GHz < f ≤ 6.0GHz [1.5] dB, 6.0GHz < f ≤ 7.125GHz Maximum input level - TT 7.4A Maximum input level for CA (Same TT apply to all subsections including 7.4A.1, 7.4A.2, 7.4A.3, 7.4A.4, etc.) Same as 7.4 for each component carrier Same as 7.4 for each component carrier 7.4D Maximum input level for UL MIMO Same as 7.4 Same as 7.4 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.4D_1 Maximum input level for SUL with UL MIMO Same as 7.4D Same as 7.4D 7.4D_2 Maximum input level for UL MIMO for UE supporting 4Tx Same as 7.4 Same as 7.4 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.4E.1 Maximum input level for V2X / non-concurrent operation V2X reception power same as 7.4 Same as 7.4 3GPP TS 38.521-1 version 19.2.0 Release 19 2306 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.4F Maximum input level for shared spectrum channel access Same as 7.4 for f ≤ 7.125GHz Same as 7.4 for f ≤ 7.125GHz 7.4G.1 Maximum input level for Tx Diversity for UE supporting 4Tx Same as 7.4 Same as 7.4 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.4J Maximum input level for ATG For ATG UEs with no more than 2 transmit antenna connectors/ transceiver array boundary (TAB) connectors: Same as 7.4 Otherwise: FFS Same as 7.4 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.5 Adjacent channel selectivity 0 dB Wanted signal power + TT Interferer signal power unchanged T-put limit unchanged 7.5A Adjacent channel selectivity for CA (Same TT apply to all subsections including 7.5A.1, 7.5A.2, 7.5A.3, 7.5A.4, etc.) Same as 7.5 for each component carrier Same as 7.5 for each component carrier 7.5D Adjacent channel selectivity for UL MIMO Same as 7.5 Same as 7.5 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.5D_1 Adjacent channel selectivity for SUL with UL MIMO Same as 7.5D Same as 7.5D 7.5D_2 Adjacent channel selectivity for UL MIMO for UE supporting 4Tx Same as 7.5D Same as 7.5D 7.5E.1 Adjacent channel selectivity for V2X / non- concurrent operation V2X reception power same as 7.5 Same as 7.5 7.5E.2 Adjacent channel selectivity for V2X / concurrent operation Same as 7.3.2 for NR V2X carrier and NR FR1 carrier Same as 7.5 7.5F.1 Adjacent channel selectivity for shared spectrum channel access Same as 7.5 Same as 7.5 7.5G.1 Adjacent channel selectivity for Tx Diversity for UE supporting 4Tx Same as 7.5 Same as 7.5 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.5J Adjacent channel selectivity for ATG Same as 7.5 Same as 7.5 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.6.2 Inband Blocking 0 dB Wanted signal power + TT Interferer signal power unchanged T-put limit unchanged 7.6.3 Out-of-band blocking 0 dB Wanted signal power + TT Interferer signal power unchanged T-put limit unchanged 3GPP TS 38.521-1 version 19.2.0 Release 19 2307 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.6.4 Narrow band blocking 0 dB Wanted signal power + TT Interferer signal power unchanged T-put limit unchanged 7.6A.2 Inband Blocking for CA (Same TT apply to all subsections including 7.6A.2.1, 7.6A.2.2, 7.6A.2.3, 7.6A.2.4, etc.) Same as 7.6.2 for each component carrier Same as 7.6.2 for each component carrier 7.6A.3 Out-of-band Blocking for CA (Same TT apply to all subsections including 7.6A.3.1, 7.6A.3.2, 7.6A.3.3, 7.6A.3.4, etc.) Same as 7.6.3 for each component carrier Same as 7.6.3 for each component carrier 7.6A.4 Narrow band Blocking for CA (Same TT apply to all subsections including 7.6A.4.1, 7.6A.4.2, 7.6A.4.3, 7.6A.4.4, etc.) Same as 7.6.4 for each component carrier Same as 7.6.4 for each component carrier 7.6C.2 Inband Blocking for SUL Same as 7.6.2 Same as 7.6.2 7.6C.2_1.1 Inband Blocking for SUL with 2 DL CA Same as 7.6A.2 Same as 7.6A.2 7.6C.3 Out-of-band blocking for SUL Same as 7.6.3 Same as 7.6.3 7.6D.2 Inband blocking for UL MIMO Same as 7.6.2 Same as 7.6.2 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.6D.2_1 In-band blocking for SUL with UL MIMO Same as 7.6D.2 Same as 7.6D.2 7.6D.2_2 In-band blocking for UL MIMO for UE supporting 4Tx Same as 7.6D.2 Same as 7.6D.2 7.6D.3 Out-of-band blocking for UL MIMO Same as 7.6.3 Same as 7.6.3 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.6D.3_1 Out-of-band blocking for SUL with UL MIMO Same as 7.6D.3 Same as 7.6D.3 7.6D.3_2 Out-of-band blocking for UL MIMO for UE supporting 4Tx Same as 7.6D.3 Same as 7.6D.3 7.6D.4 Narrow-band blocking for UL MIMO Same as 7.6.4 Same as 7.6.4 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.6D.4_3 Narrow band blocking for UL MIMO for UE supporting 4Tx Same as 7.6D.4 Same as 7.6D.4 7.6E.2.1 In-band blocking for V2X / non-concurrent operation Same as 7.6.2 Same as 7.6.2 7.6E.3.1 Out-of-band blocking for V2X / non- concurrent operation Same as 7.6.3 Same as 7.6.3 3GPP TS 38.521-1 version 19.2.0 Release 19 2308 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 7.6F.2.1 In-band blocking for shared spectrum channel access Same as 7.6.2 Same as 7.6.2 7.6F.3.1 Out-of-band blocking for shared spectrum channel access Same as 7.6.3 Same as 7.6.3 7.6G.1 In-band blocking for Tx Diversity for UE supporting 4Tx Same as 7.6.2 Same as 7.6.2 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.6G.2 Out-of-band blocking for Tx Diversity for UE supporting 4Tx Same as 7.6.3 Same as 7.6.3 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.6G.3 Narrow band blocking for Tx Diversity for UE supporting 4Tx Same as 7.6.4 Same as 7.6.4 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.6J.2 In-band blocking for ATG Same as 7.6.2 Same as 7.6.2 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.6J.3 Out-of-band blocking for ATG Same as 7.6.3 Same as 7.6.3 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.7 Spurious response 0 dB Wanted signal power + TT Interferer signal power unchanged T-put limit unchanged 7.7A Spurious response for CA (Same TT apply to all subsections including 7.7A.1, 7.7A.2, 7.7A.3, etc.) Same as 7.7 for each component carrier Same as 7.7 for each component carrier 7.7D Spurious response for UL MIMO Same as 7.7 Same as 7.7 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.7D_1 Spurious response for SUL with UL MIMO Same as 7.7D Same as 7.7D 7.7D_2 Spurious response for UL MIMO for UE supporting 4Tx Same as 7.7D Same as 7.7D 7.7E.1 Spurious response for V2X / non-concurrent operation Same as 7.7 Same as 7.7 7.7F.1 Spurious response for shared spectrum channel access Same as 7.7 Same as 7.7 7.7G.1 Spurious response for Tx Diversity for UE supporting 4Tx Same as 7.7 Same as 7.7 Uplink power measurement window applies to overall UL power, which is 3GPP TS 38.521-1 version 19.2.0 Release 19 2309 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI the linear sum of the output powers over all Tx antenna connectors 7.7J Spurious response for ATG Same as 7.7 Same as 7.7 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.8.2 Wide band Intermodulation 0 dB Wanted signal power +TT CW Interferer signal power unchanged Modulated Interferer signal power unchanged T-put limit unchanged 7.8A.2 Wide band Intermodulation for CA (Same TT apply to all subsections including 7.8A.2.1, 7.8A.2.2, 7.8A.2.3, etc.) Same as 7.8.2 for each component carrier Same as 7.8.2 for each component carrier 7.8D.2 Intermodulation characteristics for UL MIMO Same as 7.8.2 Same as 7.8.2 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.8D.2_1 Wide band Intermodulation for SUL with UL MIMO Same as 7.8D.2 Same as 7.8D.2 7.8D.2_2 Wide band Intermodulation for UL MIMO for UE supporting 4Tx Same as 7.8.2 Same as 7.8.2 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.8E.2.1 Wide band Intermodulation for V2X / non-concurrent operation Same as 7.8.2 Same as 7.8.2 7.8F Intermodulation characteristics for shared spectrum channel access Same as 7.8.2 Same as 7.8.2 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors or all TAB connectors 7.8G.1 Wide band Intermodulation for Tx Diversity for UE supporting 4Tx Same as 7.8.2 Same as 7.8.2 Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors 7.8J.2 Wide band intermodulation for ATG Same as 7.8.2 Same as 7.8.2 7.9 Spurious emissions 0 dB Minimum requirement + TT 7.9A.1 Spurious emissions for CA (2DL CA) Same as 7.9 Same as 7.9 7.9J Spurious emissions for ATG Same as 7.9 Same as 7.9 3GPP TS 38.521-1 version 19.2.0 Release 19 2310 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI F.4 Uplink power window F.4.1 Introduction A number of Tx and Rx Test cases set the UE uplink power to be within a defined window to ensure the test is carried out in the intended conditions. This clause gives the method for calculating the uplink power window used in Tx test cases and Rx Test cases. F.4.2 Setting the power window above a requirement F.4.2.1 NR FR1 The method used to derive the uplink power window is defined in TS 38.521-3 [14] clause F.4.2.1. F.4.3 Setting the power window below a requirement F.4.3.1 NR FR1 The method used to derive the uplink power window is defined in TS 38.521-3 [14] clause F.4.3.1. F.4.4 Setting the power window centred on a target value F.4.4.1 NR FR1 The method used to derive the uplink power window is defined in TS 38.521-3 [14] clause F.4.4.1. 3GPP TS 38.521-1 version 19.2.0 Release 19 2311 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex G (normative): Uplink Physical Channels G.0 Uplink Signal Levels Uplink signal power is a UE figure, which is configured by the Test System by means of: RRC messages (IE-s), such as: - PUSCH-PowerControl - PUCCH-PowerControl - RACH-ConfigGeneric - SRS-Config and L1/2 Power control commands (TPC). The uplink power settings are specified in the test case. Otherwise, the uplink power settings result from the default RRC messages described in TS 38.508 [5], and appropriate TPC-s, which are sent to the UE to transmit with an UL power level necessary for maintaining the call during the test. G.1 General This annex specifies the uplink physical channels that are needed for setting a connection and channels that are needed during a connection. Table G.1-1 describes the mapping of uplink physical channels and signals to physical resources Table G.1-1: Mapping of uplink physical channels and signals to physical resources Physical channel Time Domain Location Frequency Domain Location Note PRACH Allowed by the parameter prach- ConfigurationIndex provided by higher layers Allowed by the parameter msg1- FrequencyStart provided by higher layers Mapping rule is specified in TS 38.211 [8] Section 6.3.3 DMRS For DMRS on PUCCH format 1: Every other symbols i.e., 0, 2, 4... For DMRS on PUCCH format 2: All the PUCCH symbols For DMRS on PUCCH format 3,4: PUCCH length dependent For One symbol DMRS on PUSCH: Symbol 2,7 and 11 of each slot DMRS on CP-OFDM PUSCH: Specified by the parameters dmrs-Type provided by higher layers. DMRS on DFT-OFDM PUSCH: Allowed for DMRS configuration type1 DMRS on PUCCH: PUCCH bandwidth dependent. Mapping rule of DMRS for PUCCH is specified in TS 38.211 [8] Section 6.4.1.3 Mapping rule of DMRS for PUSCH is specified in TS 38.211 [8] Sections 6.4.1.1, 6.4.1.2 PUCCH For PUCCH Format 0: 1 ~ 2 symbols each slot, specified by the parameters of nrofSymbols and startingSymbolIndex in PUCCH-format0 provided by the higher layer. For PUCCH Format 1: 4 ~ 14 symbols each slot, specified by the parameters of nrofSymbols and those of startingSymbolIndex of PUCCH-format1 provided by the higher layer. For PUCCH Format 0, 1 1 RB, the position specified by the parameters of startingPRB and intraSlotFrequencyHopping in the corresponding PUCCH- Resource provided by the higher layer. For PUCCH Format 2, 3: 1~16 RBs, specified by the parameter of nrofPRBs in PUCCH-format2 and PUCCH- Mapping rule is specified in TS 38.211 [8] Section 6.3.2 and 38.213 [9] Section 9.2 3GPP TS 38.521-1 version 19.2.0 Release 19 2312 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI For PUCCH Format 2, 1 ~ 2 symbols each slot, specified by the parameters of nrofSymbols and startingSymbolIndex in PUCCH-format2 provided by the higher layer. For PUCCH Format 3: 4 ~ 14 symbols each slot, allowed by the parameters of nrofSymbols and startingSymbolIndex in PUCCH-format3, provided by the higher layer. For PUCCH Format 4: 4 ~ 14 symbols each slot, specified by the parameters of nrofSymbols and startingSymbolIndex in PUCCH-format4, provided by higher layer. format3 respectively; additionally the position specified by the parameters of startingPRB and intraSlotFrequencyHopping in the corresponding PUCCH- Resource provided by the higher layer. For PUCCH Format 4 1 RB, the position specified by the parameters of startingPRB and intraSlotFrequencyHopping in the corresponding PUCCH- Resource provided by the higher layer PUSCH All remaining uplink symbols of each slot not allocated to DMRS RBs allocated according to Reference Measurement channel in Annex A.2 Mapping rule is specified in TS 38.211 [8] Section 6.3 and 38.214 [12] Section 6.1 SRS 1, 2, or 4 symbols among the last 6 symbols in each SRS transmission slot specified by the parameters of resourceMapping, and resourceType in SRS-Config provided by the higher layer. RBs specified by the ue-specific parameters of freqDomainPosition, freqDomainShift and freqHopping in SRS-Config provided by the higher layer. Mapping rule is specified in TS 38.211 [8] Section 6.4.1.4.3 G.2 Set-up Table G.2-1 describes the uplink physical channels that are required for connection set up. Table G.2-1: Uplink Physical Channels required for connection set-up Physical Channel PRACH PUCCH PUSCH PUCCH DMRS PUSCH DMRS SRS In case of supplementary test, Table G.2-2 describes the supplementary uplink physical channels that are required for connection set-up, and unless stated otherwise, there is no other uplink physical channels configured on the NON-SUL carrier except PRACH. Table G.2-2: Supplementary Uplink Physical Channels required for connection set-up Physical Channel PRACH DMRS PUCCH PUSCH G.3 Connection The following clauses describes the uplink physical channels that are transmitted during a connection i.e., when measurements are done. 3GPP TS 38.521-1 version 19.2.0 Release 19 2313 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI G.3.0 Measurement of Transmitter Characteristics As specified in the test case. Otherwise: - PUSCH + DMRS for PUSCH (and DMRS) measurements. - PUCCH + DMRS for PUCCH (and DMRS) measurements. - PRACH for PRACH measurements. SRS for SRS measurements. G.3.1 Measurement of Receiver Characteristics As specified in the test case. Otherwise: - PUSCH + DMRS for measurements with uplink interference configured. - PUCCH + DMRS for measurements without uplink interference configured. G.3.2 Measurement of Performance Requirements As specified in the test case. Otherwise: PUCCH + DMRS for measurements without CSI feedback, or with CSI feedback in PUCCH mode. PUSCH + DMRS for measurements with CSI feedback in PUSCH mode. 3GPP TS 38.521-1 version 19.2.0 Release 19 2314 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex H (normative): Statistical Testing H.1 General This annex specifies mapping throughput to error ratio, pass fail limits and pass fail decision rules that are needed for measuring average throughput for a duration sufficient to achieve statistical significance for testing receiver characteristics. H.2 Statistical testing of receiver characteristics H.2.1 General The test of receiver characteristics is twofold. 1. A signal or a combination of signals is offered to the RX port(s) of the receiver. 2. The ability of the receiver to demodulate /decode this signal is verified by measuring the throughput. In (2) is the statistical aspect of the test and is treated here. The minimum requirement for all receiver tests is >95% of the maximum throughput. All receiver tests are performed in static propagation conditions. No fading conditions are applied. H.2.2 Mapping throughput to error ratio a) The measured information bit throughput R is defined as the sum (in kilobits) of the information bit payloads successfully received during the test interval, divided by the duration of the test interval (in seconds). b) In measurement practice the UE indicates successfully received information bit payload by signalling an ACK to the SS. If payload is received, but damaged and cannot be decoded, the UE signals a NACK. c) Only the ACK and NACK signals, not the data bits received, are accessible to the SS. The number of bits is known in the SS from knowledge of what payload was sent. d) For the reference measurement channel, applied for testing, the number of bits is different in different slots, however in a radio frame it is fixed during one test. e) The time in the measurement interval is composed of successfully received slots (ACK), unsuccessfully received slots (NACK) and no reception at all (DTX-slots). f) DTX-slots may occur regularly according the applicable reference measurement channel (regDTX). In real live networks this is the time when other UEs are served. In TDD these are the UL and special slots. regDTX vary from test to test but are fixed within the test. g) Additional DTX-slots occur statistically when the UE is not responding ACK or NACK where it should. (statDTX) This may happen when the UE was not expecting data or decided that the data were not intended for it. The pass / fail decision is done by observing the: - number of NACKs - number of ACKs and - number of statDTXs (regDTX is implicitly known to the SS) 3GPP TS 38.521-1 version 19.2.0 Release 19 2315 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI The ratio (NACK + statDTX)/(NACK+ statDTX + ACK)is the Error Ratio (ER). Taking into account the time consumed by the ACK, NACK, and DTX-TTIs (regular and statistical), ER can be mapped unambiguously to throughput for any single reference measurement channel test. H.2.3 Design of the test The test is defined by the following design principles (see clause H.2.6, Theory….): 1. The early decision concept is applied. 2. A second limit is introduced: Bad DUT factor M>1 3. To decide the test pass: Supplier risk is applied based on the Bad DUT quality To decide the test fail Customer Risk is applied based on the specified DUT quality The test is defined by the following parameters: 1. Limit ER = 0.05 (Throughput limit = 95%) 2. Bad DUT factor M=1.5 (selectivity) 3. Confidence level CL = 95% (for specified DUT and Bad DUT-quality) H.2.4 Numerical definition of the pass fail limits Table H.2.4-1: pass fail limits ne nsp nsf ne nsp nsf ne nsp nsf ne nsp nsf 0 67 NA 37 715 477 74 1290 1093 111 1847 1739 1 67 NA 38 731 493 75 1306 1110 112 1862 1756 2 95 NA 39 747 509 76 1321 1128 113 1877 1774 3 119 NA 40 763 525 77 1336 1145 114 1891 1792 4 141 NA 41 779 541 78 1351 1162 115 1906 1809 5 162 NA 42 795 557 79 1366 1179 116 1921 1827 6 183 NA 43 810 573 80 1382 1197 117 1936 1845 7 203 NA 44 826 590 81 1397 1214 118 1951 1863 8 222 NA 45 842 606 82 1412 1231 119 1966 1880 9 241 67 46 858 622 83 1427 1248 120 1981 1898 10 259 80 47 873 639 84 1442 1266 121 1995 1916 11 278 92 48 889 655 85 1457 1283 122 2010 1934 12 296 105 49 905 672 86 1472 1300 123 2025 1951 13 314 118 50 920 688 87 1487 1318 124 2040 1969 14 332 131 51 936 705 88 1503 1335 125 2055 1987 15 349 145 52 952 721 89 1518 1353 126 2069 2005 16 367 159 53 967 738 90 1533 1370 127 2084 2023 17 384 173 54 983 755 91 1548 1387 128 2099 2041 18 401 187 55 998 771 92 1563 1405 129 2114 2058 19 419 201 56 1014 788 93 1578 1422 130 2128 2076 20 436 216 57 1029 805 94 1593 1440 131 2143 2094 21 453 230 58 1045 822 95 1608 1457 132 2158 2112 22 469 245 59 1060 838 96 1623 1475 133 2173 2130 23 486 260 60 1076 855 97 1638 1492 134 2187 2148 24 503 275 61 1091 872 98 1653 1510 135 2202 2166 3GPP TS 38.521-1 version 19.2.0 Release 19 2316 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 25 520 290 62 1107 889 99 1668 1527 136 2217 2183 26 536 305 63 1122 906 100 1683 1545 137 2232 2201 27 553 320 64 1137 923 101 1698 1562 138 2246 2219 28 569 335 65 1153 940 102 1713 1580 139 2261 2237 29 585 351 66 1168 957 103 1728 1598 140 2276 2255 30 602 366 67 1184 974 104 1742 1615 141 2291 2273 31 618 382 68 1199 991 105 1757 1633 142 2305 2291 32 634 398 69 1214 1008 106 1772 1650 143 2320 2309 33 651 413 70 1229 1025 107 1787 1668 144 2335 2327 34 667 429 71 1245 1042 108 1802 1686 145 2349 2345 35 683 445 72 1260 1059 109 1817 1703 146 2364 2363 36 699 461 73 1275 1076 110 1832 1721 ) note 2 in H.2.5 NOTE 1: The first column is the number of errors (ne = number of NACK + statDTX) NOTE 2: The second column is the number of samples for the pass limit (nsp, ns=Number of Samples= number of NACK + statDTX + ACK) NOTE 3: The third column is the number of samples for the fail limit (nsf) NOTE 4: The UE could be decided as early pass/fail when at least 67 samples are received. The nsf is set to NA for ne less than 9. H.2.5 Pass fail decision rules The pass fail decision rules apply for a single measurement. A test case is passed only when all the measurements in the test case are passed. Having observed 0 errors, pass the test at 67+ samples, otherwise continue Having observed 1 error, pass the test at 67+ samples, otherwise continue Having observed 2 errors, pass the test at 95+ samples, otherwise continue Etc. etc. Having observed 145 errors, pass the test at 2349+ samples, fail the test at 2345- samples, otherwise continue Having observed 146 errors, pass the test at 2364 + samples, fail the test at 2363- samples. Where x+ means: x or more, x- means x or less NOTE 1: an ideal DUT passes after 67 samples. The maximum test time is 2364 samples. NOTE 2: It is allowed to deviate from the early decision concept by postponing the decision (pass/fail or continue). Postponing the decision to or beyond the end of Table H.2.4-1 requires a pass fail decision against the test limit: pass the DUT for ER<0.0618, otherwise fail. H.2.6 Theory to derive the pass fail limits (Informative) Editor's note: This clause of the Annex H is for information only and it describes the background theory and information for statistical testing. H.2.6.1 Numerical definition of the pass-fail limits A statistical test is characterized by test time, selectivity and confidence level. The outcome of the statistical test is a decision. This decision may be correct, i.e., DUTs whose throughput is less than 95% maximum throughput being declared to fail, and DUTs whose throughput is higher or equal to 95% being declared to pass, or in-correct with opposite decision. The Confidence Level (CL) describes the probability that the decision is a correct one. The complement is the wrong decision probability (risk) D = 1-CL. 3GPP TS 38.521-1 version 19.2.0 Release 19 2317 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI As described in H.2.2, the measurement of throughput could be mapped to ER (Error Ratio). When testing ER, transport blocks or "samples" are observed and the number of correctly and erroneously received blocks are recorded. For a "standard" test, a pre-defined number of samples are observed, and a pass/fail decision is made based on the number of observed errors being above/below a threshold. This threshold is based on the targeted throughput or BLER and the design target CL. There is always some risk of a statistical variation leading to an incorrect pass/fail decision. The greater the number of samples that are recorded, the lower is the risk of such an error. The number of samples that are observed in a standard test is dimensioned to achieve an acceptable low risk of error (i.e., an acceptable high confidence level) for DUTs that just meet the specified limit. The standard test works well where the target ER level is relatively high and confidence level relatively low (both are chosen to be on a comparable order of magnitude). However, for relatively low ER testing the length of time required for observing sufficient samples to achieve a 95% confidence level is excessive. In many cases, the DUTs will in fact have a much lower true ER level than the target ER level, (in which case, the number of samples needed to achieve high confidence that the true ER level is lower than the limit is much smaller). On the other hand, a bad DUT which is expected to fail the requirement might have a much higher true ER level (in which case, errors occur more frequently and it can be demonstrated that the DUT is above the target ER limit with fewer samples). To avoid long test time, an alternative test method called early pass/fail is adopted. With the early pass/fail, each time a block error is encountered, a decision is made on whether the DUT can be passed/failed with 95% CL or the test needs to continue until another error is encountered. In the case of very good DUTs, the test can also be passed, when the number of samples permissible for one error event is reached and no error event is recorded. Pass/Fail is decided based on the total number of observed samples and errors, and a statistical calculation based on an inverse binomial cumulative distribution. The calculation involves one parameter, one variable and the result: - Parameter: d (per step decision probability). - Variable: ne (number of observed errors). - Result: ns (number of expected samples for pass/fail, depending on which one is calculated). The per step decision probability risk, d, expresses the probability of making an incorrect pass/fail decision in the current step (i.e., for the current decision coordinate). d is determined by simulation such that the overall risk of making a wrong decision over all steps of each test of a large number of tests on a large number of DUTs that exactly meet the target ER limit is D=5% (and hence the CL 95%). It should be noted that d is determined separately considering early pass and early fail testing. For a marginal DUT (i.e., a DUT almost exactly meeting the target ER level), the unmodified early pass/early fail approach is unable to distinguish whether the DUT has just passed or just failed the BLER (ε→0), and can thus terminate with an "undecided" result. To avoid this undecided result and provide selectivity, a so-called "bad device factor" (M) is introduced into the early pass calculation. This factor biases the decision towards avoiding failing good DUT. H.2.6.2 Simulation to derive the pass-fail limits for testing 95% throughput As per the description in H.2.2, the 95% throughput measurement is mapped to ER=0.05, where ER is (NACK + statDTX)/(NACK+ statDTX + ACK). The binomial distribution and its inverse are used to design the pass and fail limits. Note that this method is not unique and that other methods exist. ( ) ( ) ( ) ( ) ( ) ( ) f f f p p p ne ne fail ne,d := = ns ne+qnbinom d ,ne,ER ne ne pass ne,cl ,M := = ns ne+qnbinom cl ,ne,ER M ⋅ Where - fail(..) is the error ratio for the fail limit. 3GPP TS 38.521-1 version 19.2.0 Release 19 2318 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI - pass(..) is the error ratio for the pass limit. - ER is the specified error ratio 5%. - ne is the number of bad results. This is the variable in both equations. - M is the Bad DUT factor M=1.5. - df is the wrong decision probability of a single (ne, ns) co-ordinate for the fail limit. It is found by simulation to be df = 0.006. - clp is the confidence level of a single (ne, ns) co-ordinate for the pass limit. It is found by simulation to be clp = 0.9945. - qnbinom(..): The inverse cumulative function of the negative binomial distribution. The simulation works as follows: - A large population of limit DUTs with true ER = 0.05 is decided against the pass and fail limits. - clp and df are tuned such that CL (95 %) of the population passes and D (5 %) of the population fails. - A population of Bad DUTs with true ER = M*0.05 is decided against the same pass and fail limits. - clp and df are tuned such that CL (95 %) of the population fails and D (5 %) of the population passes. - The number of DUTs decrease during the simulation, as the decided DUTs leave the population. That number decreases with an approximately exponential characteristics. After 146 bad results all DUTs of the population are decided. NOTE: The exponential decrease of the population is an optimal design goal for the decision co-ordinates (ne, ns), which can be achieved with other formulas or methods as well. H.2A Statistical testing of receiver characteristics with CA H.2A.1 General H.2.1 applies. H.2A.2 Mapping throughput to error ratio H.2.2 applies for each component carrier. H.2A.3 Design of the test The test is defined by the following design principles (see clause H.2.6, Theory….): 1. The standard concept is applied. (not the early decision concept). 2. A second limit is introduced, defining the Bad DUT. 3. To decide the test pass: - Supplier risk is applied based on the Bad DUT quality. - To decide the test fail. - Customer Risk is applied based on the specified DUT quality. The test is defined by the following parameters: 1) Limit Error Ratio = 0.05 (95% throughput is tested). 2) Bad DUT factor M=1.5 (selectivity). 3GPP TS 38.521-1 version 19.2.0 Release 19 2319 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 3) Confidence level CL = 95% (for specified DUT and Bad DUT-quality). H.2A.4 Pass fail decision rules Apply 1003 samples to the DUT per CC. Decide pass per CC in case of ≤ 62 errors, otherwise fail. NOTE 1: The pass fail decision is done individually for each CC. The pass fail decision for one measurement is as follows: pass if all CCs or SCC only according to the test cases pass, otherwise fail. A test case is passed only when all the measurements in the test case are passed. NOTE 2: It is allowed to apply more samples to the DUT, common for all CCs, (e.g. up to an integer number of frames). Use the ratio (62/1003) for the pass fail decision. NOTE 3: 62/1003 = 0.0618, the same test limit is used at the end of Table H.2.4-1. 3GPP TS 38.521-1 version 19.2.0 Release 19 2320 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex I (normative): ModifiedMPR-Behaviour I.1 Indication of ModifiedMPR-Behaviour This annex contains the definitions of the bits in the field modifiedMPR-Behaviour indicated per supported NR band in the IE RF-Parameters [6] by a UE supporting an MPR or A-MPR modified in a given version of this specification. A modified MPR or A-MPR behaviour can apply to a supported NR band in stand-alone operation (including CA and NN-DC operation) or in non-standalone operation with the said NR band as part of an EN-DC or NE-DC band combination. NOTE 1: In the present release, the modifiedMPR-Behaviour is indicated [6] by an 8-bit bitmap per supported NR band. Table I.1-1: Definitions of the bits in the field modifiedMPR-Behaviour NR Band Index of field (bit number) Definition (description of the supported functionality if indicator set to one) Notes n30 0 (leftmost bit) Requirements for network signalling value NS_21 as defined in Clause 6.5.2.3.y of 38.101-1 v17.6.0 and A-MPR as defined in Clause 6.2.3.14 of 38.101-1 v17.6.0. This bit shall be set to 1 by a UE supporting the Rel-17 version of the specification. If the bit is not set, then requirements for NS_21 as defined in Clause 6.5.2.3.3 of 38.101-1 v16.11.0 and A-MPR as defined in Clause 6.2.3.14 of 38.101-1 v16.11.0 apply. n34 0 (leftmost bit) PC 1.5 MPR as defined in Table 6.2D.2.3-3 This bit may be set to 1 by a UE of any release supporting power class 1.5. This bit is intended to be set by larger form factor FWA devices. If the bit is not set for a Rel-17 and later UE, PC 1.5 MPR as defined in Table 6.2D.2.3-2 applies. If the bit is not set for a Rel-16 and earlier UE, MPR in Table 6.2.2-4 of 38.101-1 v16.5.0 applies. n39 0 (leftmost bit) PC 1.5 MPR as defined in Table 6.2D.2.3-3 This bit may be set to 1 by a UE of any release supporting power class 1.5. This bit is intended to be set by larger form factor FWA devices. If the bit is not set for a Rel-17 and later UE, PC 1.5 MPR as defined in Table 6.2D.2.3-2 applies. If the bit is not set for a Rel-16 and earlier UE, MPR in Table 6.2.2-4 of 38.101-1 v16.5.0 applies. n40 0 (leftmost bit) PC 1.5 MPR as defined in Table 6.2D.2.3-3 This bit may be set to 1 by a UE of any release supporting power class 1.5. This bit is intended to be set by larger form factor FWA devices. If the bit is not set for a Rel-17 and later UE, PC 1.5 MPR as defined in Table 6.2D.2.3-2 3GPP TS 38.521-1 version 19.2.0 Release 19 2321 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI applies. If the bit is not set for a Rel-16 and earlier UE, MPR in Table 6.2.2-4 of 38.101-1 v16.5.0 applies. n41 0 (leftmost bit) EN-DC contiguous intraband MPR as defined in clause 6.2B.2.1 of 38.101-3 v15.5.0 - This bit shall be set to 1 by a UE supporting DC_(n)41AA UE EN-DC 1 EN-DC non-contiguous intraband MPR as defined in clause 6.2B.2.2 of 38.101-3 v15.5.0 - This bit shall be set to 1 by a UE supporting DC_41A_n41A EN-DC 2 EN-DC contiguous and non-contiguous intraband MPR and A-MPR as defined in 38.101-3 v16.4.0. If this bit is not set the UE uses Rel-15 MPR or A- MPR for EN-DC contiguous and non-contiguous intraband MPR and A-MPR -This bit may be set to 1 by a UE supporting DC_(n)41AA or DC_41A_n41A EN-DC 3 PC 1.5 MPR as defined in Table 6.2D.2.3-3 This bit may be set to 1 by a UE of any release supporting power class 1.5. This bit is intended to be set by larger form factor FWA devices. If the bit is not set for a Rel-17 and later UE, PC 1.5 MPR as defined in Table 6.2D.2.3-2 applies. If the bit is not set for a Rel-16 and earlier UE, MPR in Table 6.2.2-4 of 38.101-1 v16.5.0 applies. n71 0 (leftmost bit) EN-DC contiguous intraband MPR as defined in clause 6.2B.2.1 of 38.101-3 v15.5.0 - This bit shall be set to 1 by a UE supporting DC_(n)71AA UE EN-DC n77 0 (leftmost bit) PC 1.5 MPR as defined in Table 6.2D.2.3-3 This bit may be set to 1 by a UE of any release supporting power class 1.5. This bit is intended to be set by larger form factor FWA devices. If the bit is not set for a Rel-17 and later UE, PC 1.5 MPR as defined in Table 6.2D.2- 2.3-2 applies. If the bit is not set for a Rel-16 and earlier UE, MPR in Table 6.2.2-4 of 38.101-1 v16.5.0 applies. n78 0 (leftmost bit) PC 1.5 MPR as defined in Table 6.2D.2.3-3 This bit may be set to 1 by a UE of any release supporting power class 1.5. This bit is intended to be set by larger form factor FWA devices. If the bit is not set for a Rel-17 and later UE, PC 1.5 MPR as defined in Table 6.2D.2.3-2. If the bit is not set for a Rel- 16 and earlier UE, MPR in Table 6.2.2-4 of 38.101-1 v16.5.0 applies. n79 0 (leftmost bit) PC 1.5 MPR as defined in Table 6.2D.2.3-3 This bit may be set to 1 by a UE of any release supporting power class 1.5. This bit is intended to be set by larger form factor FWA devices. If the bit is not set for a Rel-17 and later UE, PC 1.5 MPR as defined in Table 6.2D.2.3-2 applies. If the bit is not set 3GPP TS 38.521-1 version 19.2.0 Release 19 2322 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI for a Rel-16 and earlier UE, MPR in Table 6.2.2-4 of 38.101-1 v16.5.0 applies. 3GPP TS 38.521-1 version 19.2.0 Release 19 2323 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex J (normative): Difference of relative phase and power errors J.0 General This annex gives further information needed for understanding and implementing 6.4D.4. The following terms should be understood as follows: - Relative phase error: refers to the phase difference between signals at different antenna connectors, which should be ideally 0. It should be understood as for a slot i.e. (slot) relative phase. It is calculated based on DMRS symbols of that slot or on SRS symbols. - Difference of relative phase error: refers to the difference between the relative phase error determined per slot and the relative phase error determined based on the SRS transmitted. J.1 Measurement Point Figure J.1-1 shows the measurement point for the difference of relative phase and power errors. IFFT ... ... ... ... Tone Map DFT CP-OFDM DMRS PUSCH PUCCH TX Front-End channel RF Correction FFT ... ... ... ... Channel Estimation equalization Difference of relative phase/ power error IFFT ... ... ... ... Tone Map DFT CP-OFDM DMRS PUSCH PUCCH TX Front-End channel RF Correction FFT ... ... ... ... Channel Estimation equalization Post- processing DUT Test equipment Figure J.1-1 - Measurement point for difference of relative phase/power error for UL coherent MIMO 3GPP TS 38.521-1 version 19.2.0 Release 19 2324 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI J.2 Relative Phase Error Measurement Here are listed the different aspects that may lead to different interpretations. J.2.1 Symbols and subcarriers used Phase error is determined based on DMRS REs (DMRS mapping type A with 3 DMRS symbols per slot, the REs corresponding to the odd subcarriers and DMRS symbols are non-allocated for data or DMRS.) and SRS REs (with 4 SRS symbols in the SRS slot, same SRS resource mapping is used for non-codebook-based and codebook-based precoding). For the DMRS and SRS to occupy identical SCs and maximize their frequency density, DMRS configuration type 1 and SRS comb2 configuration are used. UL RMC described in Annex A.2 is used. J.2.2 CFO (carrier frequency offset) correction The TE performs a CFO correction on a slot-by-slot basis using a common frequency correction at the two uplink antenna connectors. J.2.3 Steps of the measurement method Below are detailed the steps necessary to obtain the maximum difference of relative phase error during the 20ms time window. 1. Determination for each subcarrier and at each antenna, the SRS relative phase error based on the last SRS transmitted on Ant1 and Ant2, that relative phase error serves as a reference for the calculation of the difference of relative phase error for each slot inside the 20 ms time window. - The output is the “SRS relative phase error” vector for the last SRS transmitted: 1 × __ . 2. Calculation for the last SRS transmitted, for each RB of the SRS relative phase errors based on the arithmetic mean of the subcarrier SRS relative phase errors determined in previous step. - The output is the “SRS relative phase error” vector for the last SRS transmitted: 1 × __ . 3. CFO correction on slot-by-slot basis using a common frequency correction for both antenna outputs. 4. Determination for each subcarrier and at each antenna, the phase over the slot being analyzed. The phase is extracted from the channel estimate derived from the 3 DMRS symbols of the slot using the LSE technique. - The output is one vector of dimension 1 × __ for each antenna. 5. Calculation for a slot for each subcarrier of the relative phase error (difference between the vectors determined in the previous step). - The output is subcarrier relative phase errors of a slot: 1 × __ . 6. Calculation for a slot, for each RB of the relative phase errors based on the arithmetic mean of the subcarrier relative phase errors determined in previous step. - The output is a “slot relative phase error” vector for a slot: 1 × __ . 7. Calculation for a slot of the difference of relative phase errors based on the “SRS relative phase error” (reference) determined in step 2 and the “slot relative phase error” determined in previous step. - The output is a “difference of relative phase error” vector for a slot: 1 × __ . 8. Calculation for a slot of the arithmetic mean value of the “difference of relative phase error” vector determined in previous step; this value corresponds to an RB. - The output is a “difference of relative phase error” value for a slot: 1 × 1 . 3GPP TS 38.521-1 version 19.2.0 Release 19 2325 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 9. Perform for each slot of the 20ms time window, steps 3 to 8. - The output is a “difference of relative phase error” vector: 1 × __ . 10. Calculation of the maximum value of the “difference of relative phase error”. - The output is the “difference of relative phase error” that should be verified as complying with the 40° maximum allowable difference of relative phase error requirement: 1 × 1 . 3GPP TS 38.521-1 version 19.2.0 Release 19 2326 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI Annex K (informative): Change history Change history Date Meeting TDoc CR R ev C at Subject/Comment New versio n 2017-08 RAN5#76 R5-175705 - - - Draft skeleton 0.0.1 2018-01 RAN5#1- 5G-NR Adhoc R5-180068 R5-180069 R5-180070 R5-180071 R5-180072 R5-180073 R5-180075 R5-180076 R5-180077 R5-180078 R5-180079 - - - Implementation of pCRs to TS 38.521-1 V0.1.0 0.1.0 2018-01 RAN5#78 R5-181506 R5-181507 R5-181670 R5-181671 R5-181672 R5-181676 R5-181677 R5-181678 R5-181679 R5-181685 R5-181686 R5-181698 R5-181699 R5-181700 - - - Implementation of pCRs to TS 38.521-1 V0.2.0 0.2.0 2018-03 RAN5#2- 5G-NR Adhoc R5-181759 - - - Update TS 38.521-1 to align with new structure of TS 38.101-1 based on endorsed CR R4-1802403 0.3.0 2018-04 RAN5#2- 5G-NR Adhoc R5-81976 - - - 3GU mismatch 0.3.1 2018-04 RAN5#2- 5G-NR Adhoc R5-181771 R5-181833 R5-181842 R5-182000 R5-182002 R5-182003 R5-182004 R5-182005 R5-182020 R5-182021 R5-182026 - - - Implementation of pCRs to TS 38.521-1 V0.4.0 Add clause 4.4 Test point analysis 0.4.0 2018-07 RAN5#79 R5-182768 R5-182973 R5-183702 R5-183703 R5-183704 R5-183705 R5-183906 R5-183936 R5-183280 R5-183923 R5-183953 R5-183954 R5-183955 R5-183956 R5-183957 - - - Implementation of pCRs to TS 38.521-1 V0.5.0 0.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2327 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI R5-183958 R5-183959 R5-183960 2018-07 RAN5#79 R5-183960 R5-183279 - - - Corrected Table numbering issues in subclause 6.5.2.4.1.4.2 Test procedure to capture R5-183960 changes into draft TS 38.521-1 v0.5.1 0.5.1 2018-07 RAN5#79 R5-182363 - - - withdrawn 1.0.0 2018-08 RAN5#80 R5-185321 R5-184298 R5-185305 R5-185322 R5-185323 R5-185495 R5-185444 R5-185565 R5-185445 R5-185524 R5-184572 R5-185390 R5-184574 R5-185521 R5-185408 R5-184822 R5-185446 R5-185324 R5-185447 R5-185411 R5-185413 R5-185496 R5-185414 R5-185415 R5-185325 R5-185500 R5-185501 R5-185312 R5-185326 R5-185315 R5-185317 R5-185327 R5-185320 - - - Implementation of pCRs to TS 38.521-1 V1.0.1 1.0.1 2018-09 RAN#81 - - - - raised to v15.0.0 with editorial changes only 15.0.0 2018-12 RAN#82 R5-186604 0072 - F 5G_FR1 Text update for 7.3 Reference sensitivity 15.1.0 2018-12 RAN#82 R5-186605 0073 - F 5R_FR1 Text Update for 6.5.3.1_General spurious emissions 15.1.0 2018-12 RAN#82 R5-186606 0074 - F 5R FR1 Text Update for 6.5.3.2 Spurious emission for UE co-existence 15.1.0 2018-12 RAN#82 R5-186670 0078 - F Updating test case 6.2.3 UE additional maximum output power reduction 15.1.0 2018-12 RAN#82 R5-186671 0079 - F Updating test case 6.5.2.3 Additional spectrum emission mask 15.1.0 2018-12 RAN#82 R5-186680 0080 - F Update of test case 6.5.2.4.2, UTRA ACLR in 38.521-1 15.1.0 2018-12 RAN#82 R5-186736 0084 - F Update of FR1 Transmit OFF power 15.1.0 2018-12 RAN#82 R5-186774 0088 - F Addition of 6.3D.1 Minimum output power for UL-MIMO 15.1.0 2018-12 RAN#82 R5-186776 0089 - F Addition of 6.3D.2 Transmit OFF power for UL-MIMO 15.1.0 2018-12 RAN#82 R5-186781 0090 - F Addition of 6.3D.3 Transmit ON/OFF time mask for UL- MIMO 15.1.0 2018-12 RAN#82 R5-186901 0091 - F Update SEM requirements to TS 38.101-1 v15.3.0 15.1.0 2018-12 RAN#82 R5-186902 0092 - F Update ACS and inband blocking test cases in TS 38.521-1 15.1.0 2018-12 RAN#82 R5-187034 0107 - F Adding edge allocation into common uplink configuration in 6.1 15.1.0 2018-12 RAN#82 R5-187038 0109 - F Update test points for multiple FR1 test cases 15.1.0 2018-12 RAN#82 R5-187149 0111 - F Updated to Annexes for FR1 tests 15.1.0 2018-12 RAN#82 R5-187150 0112 - F General clauses updated for TS38.521-1 15.1.0 2018-12 RAN#82 R5-187376 0120 - F Update of 6.2.1 MOP 15.1.0 2018-12 RAN#82 R5-187378 0122 - F Update of 6.3.1 Minimum Output Power 15.1.0 2018-12 RAN#82 R5-187379 0123 - F Update of 6.3.3.2 General ON/OFF time mask 15.1.0 2018-12 RAN#82 R5-187380 0124 - F Addition of 6.2D.1 MOP for MIMO 15.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2328 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2018-12 RAN#82 R5-187381 0125 - F Addition of 6.2D.2 MPR for MIMO 15.1.0 2018-12 RAN#82 R5-187382 0126 - F Addition of 6.2D.4 Configured Output Power for MIMO 15.1.0 2018-12 RAN#82 R5-187383 0127 - F Addition of 6.4D.1 Frequency error for MIMO 15.1.0 2018-12 RAN#82 R5-187384 0128 - F Addition of 6.4D.2.1 EVM for MIMO 15.1.0 2018-12 RAN#82 R5-187385 0129 - F Addition of 6.4D.2.2 Carrier Leakage for MIMO 15.1.0 2018-12 RAN#82 R5-187386 0130 - F Addition of 6.4D.2.3 In-band emissions for MIMO 15.1.0 2018-12 RAN#82 R5-187387 0131 - F Addition of 6.4D.2.4 EVM equalizer spectrum flatness for MIMO 15.1.0 2018-12 RAN#82 R5-187395 0132 - F Update of test case 6.2.3 UE A-MPR, general 15.1.0 2018-12 RAN#82 R5-187397 0133 - F Update of test case 6.2.3 UE A-MPR, NS_04 15.1.0 2018-12 RAN#82 R5-187399 0134 - F Update of test case test case 6.5.2.3 Additional spectrum emission mask, NS_04 15.1.0 2018-12 RAN#82 R5-187421 0136 - F Introduction of TC 6.5D.1 Occupied bandwidth for UL MIMO 15.1.0 2018-12 RAN#82 R5-187422 0137 - F Introduction of TC 6.5D.2.2 Spectrum Emission Mask for UL MIMO 15.1.0 2018-12 RAN#82 R5-187423 0138 - F Introduction of TC 6.5D.2.3 Additional Spectrum Emission Mask for UL MIMO 15.1.0 2018-12 RAN#82 R5-187424 0139 - F Introduction of TC 6.5D.2.4.1 NR ACLR for UL MIMO 15.1.0 2018-12 RAN#82 R5-187425 0140 - F Introduction of TC 6.5D.2.4.2 UTRA ACLR for UL MIMO 15.1.0 2018-12 RAN#82 R5-187429 0144 - F Introduction of TC 6.5D.4 Transmit intermodulation for UL MIMO 15.1.0 2018-12 RAN#82 R5-187431 0146 - F Introduction of TC 7.4D Maximum input level for UL-MIMO 15.1.0 2018-12 RAN#82 R5-187432 0147 - F Updating of 6.2C.1 Configured transmitted power for SUL 15.1.0 2018-12 RAN#82 R5-187433 0148 - F Introduction of TC 6.5C.1 Occupied bandwidth for SUL 15.1.0 2018-12 RAN#82 R5-187434 0149 - F Introduction of TC 6.5C.2.2 Spectrum Emission Mask for SUL 15.1.0 2018-12 RAN#82 R5-187435 0150 - F Introduction of TC 6.5C.2.3 Additional Spectrum Emission Mask for SUL 15.1.0 2018-12 RAN#82 R5-187436 0151 - F Introduction of TC 6.5C.2.4.1 NR ACLR for SUL 15.1.0 2018-12 RAN#82 R5-187437 0152 - F Introduction of TC 6.5C.2.4.2 UTRA ACLR for SUL 15.1.0 2018-12 RAN#82 R5-187438 0153 - F Introduction of TC 6.5C.3.2 General spurious emissions for SUL 15.1.0 2018-12 RAN#82 R5-187439 0154 - F Introduction of TC 6.5C.3.3 Spurious Emission for UE co- existence for SUL 15.1.0 2018-12 RAN#82 R5-187440 0155 - F Introduction of TC 6.5C.3.4 Additional Spurious Emission for SUL 15.1.0 2018-12 RAN#82 R5-187455 0158 - F Updating test case 6.3.4.2 Absolute Power Tolerance 15.1.0 2018-12 RAN#82 R5-187456 0159 - F Updating test case 6.3.4.4 Aggregate Power Tolerance 15.1.0 2018-12 RAN#82 R5-187560 0162 - F Update to Table 5.3.5-1 in TS 38.521-1 15.1.0 2018-12 RAN#82 R5-187585 0164 - F Update of transmit signal quality test cases in 38.521-1 15.1.0 2018-12 RAN#82 R5-187615 0167 - F Introduction of TC 6.5D.3.1 General spurious emissions for UL MIMO 15.1.0 2018-12 RAN#82 R5-187616 0168 - F Introduction of TC 6.5D.3.2 Spurious Emission for UE co- existence for UL MIMO 15.1.0 2018-12 RAN#82 R5-187617 0169 - F Introduction of TC 6.5D.3.3 Additional Spurious Emission for UL MIMO 15.1.0 2018-12 RAN#82 R5-187618 0170 - F Updating of Uplink channel for SUL in Annex G 15.1.0 2018-12 RAN#82 R5-187804 0069 1 F Editorial Cleaning up for description of test requirement in clause 6 15.1.0 2018-12 RAN#82 R5-187805 0063 1 F Introduction of TC 7.7D Spurious response for UL-MIMO 15.1.0 2018-12 RAN#82 R5-187807 0113 1 F Introduction of receiver spurious emission tests for FR1 SA 15.1.0 2018-12 RAN#82 R5-187810 0114 1 F Introduction of wideband intermodulation tests for FR1 SA 15.1.0 2018-12 RAN#82 R5-187811 0145 1 F Introduction of TC 7.3D Reference sensitivity for UL-MIMO 15.1.0 2018-12 RAN#82 R5-187812 0085 1 F Update of operating bands and channel arrangement to TS 38.521-1 15.1.0 2018-12 RAN#82 R5-187888 0121 1 F Update of 6.2.4 Configured Output Power 15.1.0 2018-12 RAN#82 R5-187890 0156 1 F Introduction of TC 6.5C.4 Transmit intermodulation for SUL 15.1.0 2018-12 RAN#82 R5-187892 0108 1 F Removing the Editor's notes of SA messages and procedures for all FR1 test cases 15.1.0 2018-12 RAN#82 R5-187893 0083 1 F Update of FR1 6.2.2 MPR 15.1.0 2018-12 RAN#82 R5-187894 0086 1 F Addition of Time alignment error for UL-MIMO to TS38.521- 1 15.1.0 2018-12 RAN#82 R5-187895 0115 1 F Introduction of New FR1 test case 6.3.3.6 SRS time mask 15.1.0 2018-12 RAN#82 R5-187896 0116 1 F 5G_FR1 Text update for 6.5.3.3 Additional Spurious emission 15.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2329 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2018-12 RAN#82 R5-187897 0161 1 F Update of test case 6.3.4.3, Power Control Relative power tolerance in 38.521-1 15.1.0 2018-12 RAN#82 R5-187898 0165 1 F Addition of EVM equalizer spectral flatness test case 6.4.2.5 to TS 38.521-1 15.1.0 2018-12 RAN#82 R5-187899 0099 1 F Introduction of test case for Frequency error for CA 15.1.0 2018-12 RAN#82 R5-187900 0100 1 F Introduction of test cases for Transmit modulation quality for CA 15.1.0 2018-12 RAN#82 R5-187901 0101 1 F Introduction of test case for Spectrum emission mask for Inter-band CA 15.1.0 2018-12 RAN#82 R5-187902 0102 1 F Introduction of test case for NR ACLR for Inter-band CA 15.1.0 2018-12 RAN#82 R5-187903 0103 1 F Introduction of test case for UTRA ACLR for Inter-band CA 15.1.0 2018-12 RAN#82 R5-187904 0104 1 F Introduction of test case for General spurious emissions for Inter-band CA 15.1.0 2018-12 RAN#82 R5-187905 0105 1 F Introduction of test case for Spurious emission for UE co- existence for CA 15.1.0 2018-12 RAN#82 R5-187906 0106 1 F Introduction of test case for Transmit intermodulation for Inter-band CA 15.1.0 2018-12 RAN#82 R5-187911 0118 1 F Addition of notes to clarify test point selection into general section of TS 38.521-1 15.1.0 2018-12 RAN#82 R5-187914 0163 1 F Update of Global In-channel Tx Test Annex in 38.521-1 15.1.0 2018-12 RAN#82 R5-187915 0082 1 F Introduction of FR1 7.4 Maximum input level 15.1.0 2018-12 RAN#82 R5-188032 0075 1 F Addition of 6.3D.4.1 Absolute Power tolerance for UL-MIMO 15.1.0 2018-12 RAN#82 R5-188033 0076 1 F Addition of 6.3D.4.2 Relative Power Tolerance for UL-MIMO 15.1.0 2018-12 RAN#82 R5-188034 0077 1 F Addition of 6.3D.4.3 Aggregate Power tolerance for UL- MIMO 15.1.0 2018-12 RAN#82 R5-188035 0110 1 F Update to FR1 test case 6.3.3.4 PRACH time mask 15.1.0 2018-12 RAN#82 R5-188206 0117 1 F Introduction of New FR1 test case 6.3.3.7 PUSCH-PUCCH and PUSCH-SRS time masks 15.1.0 2018-12 RAN#82 R5-188207 0071 1 F 5G_FR1 Text update for 7.3A Reference sensitivity for CA 15.1.0 2018-12 RAN#82 R5-188208 0067 2 F Updates of MU in TS 38.521-1 Annex F during RAN5#81 15.1.0 2018-12 RAN#82 R5-188209 0068 2 F Updates of TT in TS 38.521-1 Annex F during RAN5#81 15.1.0 2018-12 RAN#82 R5-188210 0097 1 F TDD configuration for UE Tx test in FR1 15.1.0 2018-12 RAN#82 R5-188211 0119 1 F Core alignment CR to capture TS 38.101-1 updates during RAN4#89 15.1.0 2019-03 RAN#83 R5-191034 0228 - F Update Clause 2 of TS 38.521-1 15.2.0 2019-03 RAN#83 R5-191035 0229 - F Update Clause 3.2 of TS 38.521-1 15.2.0 2019-03 RAN#83 R5-191039 0232 - F Correction to TC 6.4A.2.1.1 Error Vector Magnitude for CA (2UL CA) 15.2.0 2019-03 RAN#83 R5-191088 0244 - F Editorial cleaning up of test configuration tables in TS 38.521-1 15.2.0 2019-03 RAN#83 R5-191089 0245 - F Editorial correction of core alignment in TS 38.521-1 15.2.0 2019-03 RAN#83 R5-191090 0246 - F Updates of TT in TS38.521-1 Annex F during RAN5#NR4 15.2.0 2019-03 RAN#83 R5-191156 0247 - F General clauses updated for TS38.521-1 15.2.0 2019-03 RAN#83 R5-191244 0249 - F Editorial change in 6.5.2.1 general section 15.2.0 2019-03 RAN#83 R5-191245 0250 - F Update ACS and Inband Blocking test cases in TS38.521-1 15.2.0 2019-03 RAN#83 R5-191258 0251 - F Update to FR1 test case 6.5.4 Transmit intermodulation 15.2.0 2019-03 RAN#83 R5-191262 0252 - F Update of TC 7.6.3_Out-of-band blocking 15.2.0 2019-03 RAN#83 R5-191264 0253 - F Introduction of TC 7.6.4 Narrow-band blocking 15.2.0 2019-03 RAN#83 R5-191265 0254 - F Introduction of TC 7.7 Spurious response 15.2.0 2019-03 RAN#83 R5-191338 0256 - F Update of test case 6.3.4.3, Power Control Relative power tolerance in 38.521-1 15.2.0 2019-03 RAN#83 R5-191465 0257 - F Correction of FR1 6.2.2 Maximum Power Reduction (MPR) 15.2.0 2019-03 RAN#83 R5-191506 0262 - F Shared Risk clarification in TS 38.521-1 15.2.0 2019-03 RAN#83 R5-191526 0263 - F Update to FR1 test case 6.3.3.6 SRS time mask 15.2.0 2019-03 RAN#83 R5-191675 0267 - F Addition of MU and TT for NR FR1 UL-MIMO test cases 15.2.0 2019-03 RAN#83 R5-191815 0272 - F OBW test procedure update for 38.521-1 15.2.0 2019-03 RAN#83 R5-191846 0277 - F FR1 Text update for 6.5.3.1 General spurious emission 15.2.0 2019-03 RAN#83 R5-191848 0278 - F Correction of errors in Table 6.1-1 of 38.521-1 15.2.0 2019-03 RAN#83 R5-191849 0279 - F FR1 Text update for 7.3C Reference sensitivity power level for SUL 15.2.0 2019-03 RAN#83 R5-191852 0280 - F FR1 Text update for 6.5.3.2 Spurious emission for UE co- existence 15.2.0 2019-03 RAN#83 R5-191854 0281 - F FR1 Text update for 7.3.2 Reference sensitivity power level 15.2.0 2019-03 RAN#83 R5-192088 0317 - F Test mode and test loop function activation in SA Tx RF test cases in TS 38.521-1 15.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2330 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2019-03 RAN#83 R5-192089 0318 - F Test mode and test loop function activation in SA Rx RF test cases in TS 38.521-1 15.2.0 2019-03 RAN#83 R5-192121 0320 - F Update of Global In-channel Tx Test Annex for FR1 15.2.0 2019-03 RAN#83 R5-192402 0266 1 F Update of FR1 6.2.4 Configured transmitted power 15.2.0 2019-03 RAN#83 R5-192407 0294 1 F Update of time alignment error for UL MIMO FR1 6.4D.3 15.2.0 2019-03 RAN#83 R5-192408 0295 1 F Introduction of TC 6.4D.4 15.2.0 2019-03 RAN#83 R5-192409 0309 1 F Update of FR1 6.2.1 MOP 15.2.0 2019-03 RAN#83 R5-192411 0310 1 F Update of FR1 6.3.1 Minimum Output Power 15.2.0 2019-03 RAN#83 R5-192412 0311 1 F Addition of FR1 6.3A.1 minimum output power for CA 15.2.0 2019-03 RAN#83 R5-192413 0321 1 F Update of transmit signal quality test cases for FR1 15.2.0 2019-03 RAN#83 R5-192414 0231 1 F Introduction of TC 7.7A.0 Minimum conformance requirements 15.2.0 2019-03 RAN#83 R5-192416 0240 1 F Update to Wideband Intermodulation for SA FR1 15.2.0 2019-03 RAN#83 R5-192417 0241 1 F Updates to 7.9 spurious emission for SA in FR1 15.2.0 2019-03 RAN#83 R5-192418 0259 1 F Introduction of FR1 7.6D.3 Out-of-band blocking for UL- MIMO 15.2.0 2019-03 RAN#83 R5-192419 0260 1 F Introduction of FR1 7.6D.4 Narrow band blocking for UL- MIMO 15.2.0 2019-03 RAN#83 R5-192420 0261 1 F Introduction of FR1 7.8D.2 Wide band Intermodulation for UL-MIMO 15.2.0 2019-03 RAN#83 R5-192421 0276 1 F Correction of FR1 7.4 Maximum input level 15.2.0 2019-03 RAN#83 R5-192510 0322 1 F Asymmetric CH BWs test configuration for Reference Sensitivity 15.2.0 2019-03 RAN#83 R5-192544 0230 1 F Correction to TC 6.4A.2.2 Carrier leakage for CA 15.2.0 2019-03 RAN#83 R5-192545 0248 1 F Update of test case 6.5.2.4.2, UTRA ACLR in 38.521-1 15.2.0 2019-03 RAN#83 R5-192547 0273 1 F Update of FR1 6.2D.1 MOP for MIMO 15.2.0 2019-03 RAN#83 R5-192548 0275 1 F Update of 6.2D.4 Configured Output Power for MIMO 15.2.0 2019-03 RAN#83 R5-192549 0284 1 F Update of FR1 test case 6.3D.1 Minimum output power for UL-MIMO 15.2.0 2019-03 RAN#83 R5-192550 0296 1 F Update of TC 6.5D.1 15.2.0 2019-03 RAN#83 R5-192551 0297 1 F Update of TC 6.5D.2.2 15.2.0 2019-03 RAN#83 R5-192553 0298 1 F Introduction of TC 6.5D.2.3 15.2.0 2019-03 RAN#83 R5-192554 0299 1 F Update of TC 6.5D.2.4.1 15.2.0 2019-03 RAN#83 R5-192555 0300 1 F Update of TC 6.5D.2.4.2 15.2.0 2019-03 RAN#83 R5-192556 0301 1 F Update of 6.5D.3.1 15.2.0 2019-03 RAN#83 R5-192557 0302 1 F Update of 6.5D.3.2 15.2.0 2019-03 RAN#83 R5-192558 0303 1 F Update of 6.5D.3.3 15.2.0 2019-03 RAN#83 R5-192559 0304 1 F Update of 6.5D.4 15.2.0 2019-03 RAN#83 R5-192561 0313 1 F Addition of FR1 6.3A.3 Transmit ON/OFF time mask for CA 15.2.0 2019-03 RAN#83 R5-192562 0325 1 F Update of FR1 6.2D.2 MPR for MIMO 15.2.0 2019-03 RAN#83 R5-192563 0233 1 F Introduction of TC 7.7A.1 Spurious response for 2DL CA 15.2.0 2019-03 RAN#83 R5-192564 0234 1 F Introduction of TC 7.7A.2 Spurious response for 3DL CA 15.2.0 2019-03 RAN#83 R5-192565 0235 1 F Introduction of TC 7.7A.3 Spurious response for 4DL CA 15.2.0 2019-03 RAN#83 R5-192566 0258 1 F Introduction of FR1 7.6D.2 Inband blocking for UL-MIMO 15.2.0 2019-03 RAN#83 R5-192567 0285 1 F Update on TC 6.4A.1.1 Frequency error for CA 15.2.0 2019-03 RAN#83 R5-192570 0286 1 F Update on TCs in section 6.4A.2 Transmit modulation quality for CA 15.2.0 2019-03 RAN#83 R5-192576 0287 1 F Update on TC 6.5A.2.2.1 Spectrum emission mask for CA 15.2.0 2019-03 RAN#83 R5-192577 0288 1 F Update on TC 6.5A.2.4.1.1 NR ACLR for CA 15.2.0 2019-03 RAN#83 R5-192578 0289 1 F Update on TC 6.5A.2.4.2.1 UTRA ACLR for CA 15.2.0 2019-03 RAN#83 R5-192579 0290 1 F Update on TC 6.5A.3.1.1 General spurious emissions for CA 15.2.0 2019-03 RAN#83 R5-192580 0291 1 F Update on TC 6.5A.3.2.1 Spurious emissions for UE co- existence for CA 15.2.0 2019-03 RAN#83 R5-192581 0292 1 F Update on TC 6.5A.4.1 TX IM for CA 15.2.0 2019-03 RAN#83 R5-192583 0268 1 F Addition of 7.5A.0 Minimum conformance requirements 15.2.0 2019-03 RAN#83 R5-192584 0269 1 F Addition of 7.5A.1 Adjacent channel selectivity for 2DL CA 15.2.0 2019-03 RAN#83 R5-192585 0270 1 F Addition of 7.5A.2 Adjacent channel selectivity for 3DL CA 15.2.0 2019-03 RAN#83 R5-192586 0271 1 F Addition of 7.5A.3 Adjacent channel selectivity for 4DL CA 15.2.0 2019-03 RAN#83 R5-192587 0282 1 F FR1 Text update for 7.3A.2 Reference sensitivity power level for CA 15.2.0 2019-03 RAN#83 R5-192588 0283 1 F FR1 Text update for 7.3.2_1 Reference sensitivity level with 4 Rx antenna ports 15.2.0 2019-03 RAN#83 R5-192589 0305 1 F Update of 7.3D.2 15.2.0 2019-03 RAN#83 R5-192590 0306 1 F Update of TC 7.4D 15.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2331 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2019-03 RAN#83 R5-192591 0307 1 F Introduction of TC 7.5D 15.2.0 2019-03 RAN#83 R5-192592 0324 1 F Update of TC 7.7D Spurious response for UL-MIMO 15.2.0 2019-03 RAN#83 R5-192593 0243 1 F Updates of TT in TS38.521-1 Annex F during RAN5#82 15.2.0 2019-03 RAN#83 R5-192594 0265 1 F Correction of HARQ-ACK transmission timing for DL RMC for FR1 TDD SCS=60kHz 15.2.0 2019-03 RAN#83 R5-192597 0319 1 F Updating test case 7.3.2 Reference sensitivity power level Table 7.3.2.4.1-3 15.2.0 2019-03 RAN#83 R5-192598 0323 1 F Update OBW, SEM and ACLR in TS 38.521-1 15.2.0 2019-03 RAN#83 R5-192682 0236 1 F Introduction of TC 7.9A.0 Minimum conformance requirements 15.2.0 2019-03 RAN#83 R5-192683 0237 1 F Introduction of TC 7.9A.1 Spurious emission for 2DL CA 15.2.0 2019-03 RAN#83 R5-192685 0312 2 F Addition of FR1 6.3A.2 Transmit OFF power for CA 15.2.0 2019-03 RAN#83 R5-192693 0293 1 F Introduction of Annex on Characteristics of the Interfering Signal FR1 15.2.0 2019-03 RAN#83 R5-192837 0326 1 F Update of operating bands and channel arrangement to TS 38.521-1 15.2.0 2019-03 RAN#83 - - - - Editorial correction of references to TS 38.508-1 clause 4.6 tables 15.2.0 2019-06 RAN#84 R5-193535 0389 - F Update of test case 6.5.2.4.2, UTRA ACLR in 38.521-1 15.3.0 2019-06 RAN#84 R5-193536 0390 - F Update of test case 6.3.4.3, Power Control Relative power tolerance 15.3.0 2019-06 RAN#84 R5-193567 0394 - F Correction of 38.521-1 7.6D.2 15.3.0 2019-06 RAN#84 R5-193569 0395 - F Correction of 38.521-1 7.6D.3 15.3.0 2019-06 RAN#84 R5-193571 0396 - F Correction of 38.521-1 7.6D.4 15.3.0 2019-06 RAN#84 R5-193573 0397 - F Correction of 38.521-1 7.8D.2 15.3.0 2019-06 RAN#84 R5-193574 0398 - F Correction of 38.521-1 6.2.2 15.3.0 2019-06 RAN#84 R5-193585 0400 - F Update of TC 7.7A.0 Spurious response for CA 15.3.0 2019-06 RAN#84 R5-193586 0401 - F Correction of section number for UE diagram in Initial conditions of 38.521-1 Clause 6 15.3.0 2019-06 RAN#84 R5-193589 0404 - F Correction of section number for UE diagram in Initial conditions of 38.521-1 Clause 7 15.3.0 2019-06 RAN#84 R5-193593 0405 - F Unify Outer_1RB and Edge_1RB in Test Configuration Table of 38.521-1 15.3.0 2019-06 RAN#84 R5-193753 0413 - F Update of 6.3D Output power dynamics for UL-MIMO 15.3.0 2019-06 RAN#84 R5-193915 0417 - F Update of NR FR1 6.2.3 A-MPR NS_04 15.3.0 2019-06 RAN#84 R5-193917 0418 - F Update of SA FR1 RF 6.5D.2.3 15.3.0 2019-06 RAN#84 R5-193918 0419 - F Update of SA FR1 RF 6.5D.2.4.2 15.3.0 2019-06 RAN#84 R5-193920 0420 - F Update of SA FR1 RF 6.5D.3.3 15.3.0 2019-06 RAN#84 R5-193930 0421 - F Addition of NR FR1 6.2D.3 A-MPR for UL-MIMO 15.3.0 2019-06 RAN#84 R5-193955 0423 - F Update of clause 5 to TS 38.521-1 15.3.0 2019-06 RAN#84 R5-194125 0425 - F Update Out of band emission test cases in TS 38.521-1 15.3.0 2019-06 RAN#84 R5-194126 0426 - F Update ACS and Inbanblocking interferer definition in TS 38.521-1 15.3.0 2019-06 RAN#84 R5-194161 0428 - F Update of test case 6.2.3 UE A-MPR, NS_35 15.3.0 2019-06 RAN#84 R5-194162 0429 - F Update of test case 6.5.2.3; Additional spectrum emission mask 15.3.0 2019-06 RAN#84 R5-194226 0435 - F Correction to In-band emission test case 15.3.0 2019-06 RAN#84 R5-194228 0437 - F Correction to PRACH configurations 15.3.0 2019-06 RAN#84 R5-194256 0439 - F Correction to FR1 Reference Sensitivity 15.3.0 2019-06 RAN#84 R5-194268 0440 - F Update of 7.5A.0 Minimum conformance requirements 15.3.0 2019-06 RAN#84 R5-194304 0442 - F Correction to time domain allocation of DMRS 15.3.0 2019-06 RAN#84 R5-194305 0443 - F Updating 7.8.2 Wide band Intermodulation 15.3.0 2019-06 RAN#84 R5-194307 0445 - F Correction to ON/OFF time mask test 15.3.0 2019-06 RAN#84 R5-194308 0446 - F Correction to carrier leakage and in-band emission tests 15.3.0 2019-06 RAN#84 R5-194312 0447 - F FR1 Update for 7.3A Reference sensitivity for CA 15.3.0 2019-06 RAN#84 R5-194313 0448 - F FR1 Update for 7.3.2 Reference sensitivity power level 15.3.0 2019-06 RAN#84 R5-194314 0449 - F FR1 Update for 7.3.3 Ref sensitivity ?RIB,c 15.3.0 2019-06 RAN#84 R5-194315 0450 - F FR1 Update for 7.3C Reference sensitivity for SUL 15.3.0 2019-06 RAN#84 R5-194316 0451 - F FR1 Update for 6.5.3.2 Spurious emission for UE co- existence 15.3.0 2019-06 RAN#84 R5-194377 0454 - F FR1 Update for 6.5.3.3 Additional spurious emissions 15.3.0 2019-06 RAN#84 R5-194383 0455 - F Update of 7.5A.2 Adjacent channel selectivity for 3DL CA 15.3.0 2019-06 RAN#84 R5-194905 0414 1 F Update of 6.3D.4.1 Absolute Power tolerance for UL-MIMO 15.3.0 2019-06 RAN#84 R5-194906 0415 1 F Update of 6.3D.4.2 Relative Power Tolerance for UL-MIMO 15.3.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2332 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2019-06 RAN#84 R5-194908 0465 1 F Update of TC 6.3A.3 Transmit ON/OFF time mask for CA 15.3.0 2019-06 RAN#84 R5-194910 0463 1 F Update of TC 6.3A.1 Minimum output power for CA FR1 15.3.0 2019-06 RAN#84 R5-194911 0434 1 F Update of 6.2.3 for UE additional maximum output power reduction 15.3.0 2019-06 RAN#84 R5-194912 0430 1 F Update of test case 6.2.3 UE A-MPR FR1, general part and minimum requirements 15.3.0 2019-06 RAN#84 R5-194915 0438 1 F Correction to SRS time mask test 15.3.0 2019-06 RAN#84 R5-194916 0444 1 F Correction to transmit signal quality test cases 15.3.0 2019-06 RAN#84 R5-194917 0461 1 F Introduction of 6.2A.4.0.2 TIB for CA into Rel-15 15.3.0 2019-06 RAN#84 R5-194918 0468 1 F Update of transmit signal quality test cases for FR1 15.3.0 2019-06 RAN#84 R5-194919 0407 1 F Update of TC 7.9A.1 Spurious emissions for 2DL CA 15.3.0 2019-06 RAN#84 R5-194920 0456 1 F Update of 7.5A.3 Adjacent channel selectivity for 4DL CA 15.3.0 2019-06 RAN#84 R5-194921 0469 1 F Correction to FR1 Reference Sensitivity test configurations with n70 15.3.0 2019-06 RAN#84 R5-194922 0431 1 F Update of clause 3 to TS 38.521-1 15.3.0 2019-06 RAN#84 R5-194923 0432 1 F Update of clause 4 to TS 38.521-1 15.3.0 2019-06 RAN#84 R5-194924 0433 1 F Update of clause 5 for operating bands and channel arrangement 15.3.0 2019-06 RAN#84 R5-194925 0452 1 F General clause updated for FR1 spec 15.3.0 2019-06 RAN#84 R5-194926 0467 1 F Update of Global In-channel Tx Test Annex for FR1 15.3.0 2019-06 RAN#84 R5-194957 0392 1 F Updates of MU and TT in TS 38.521-1 Annex F during RAN5#NR5 15.3.0 2019-06 RAN#84 R5-194973 0402 1 F Update of TC 7.9A.0 Spurious emissions for CA 15.3.0 2019-06 RAN#84 R5-194974 0403 1 F Update of TC 7.7D Spurious response for UL-MIMO 15.3.0 2019-06 RAN#84 R5-195090 0470 1 F Update of FR1 ON_ON time mask test cases 15.3.0 2019-06 RAN#84 R5-195092 0441 1 F Update of 7.5A.1 Adjacent channel selectivity for 2DL CA 15.3.0 2019-06 RAN#84 R5-195140 0416 1 F Update of 6.3D.4.3 Aggregate Power tolerance for UL- MIMO 15.3.0 2019-06 RAN#84 R5-195142 0422 1 F Addition of TT values for NR FR1 UL-MIMO test cases 15.3.0 2019-06 RAN#84 R5-195143 0457 1 F Introduction of Occupied bandwidth for Inter-band CA in NR SA FR1 15.3.0 2019-06 RAN#84 R5-195144 0458 1 F Update of 6.4D.3 Time alignment error for UL-MIMO FR1 15.3.0 2019-06 RAN#84 R5-195145 0464 1 F Update of TC 6.3A.2 Transmit OFF power for CA FR1 15.3.0 2019-06 RAN#84 R5-195198 0436 1 F Correction to power control test cases 15.3.0 2019-06 RAN#84 R5-195403 0459 1 F Addition of 6.2A.1.3 FR1 MOP for inter-band CA 15.3.0 2019-06 RAN#84 R5-195430 0393 1 F Updates of MU and TT in TS 38.521-1 15.3.0 2019-06 RAN#84 R5-195431 0424 1 F Core alignment with TS 38.101-1 15.3.0 2019-06 RAN#84 R5-193550 0391 - F Introduction of CA_n41A-n79A into Rel-16 16.0.0 2019-06 RAN#84 R5-195053 0462 1 F Introduction of 6.2A.4.0.2 TIB for CA into Rel-16 16.0.0 2019-06 RAN#84 R5-195056 0399 1 F Introduction of CA_n41 into Rel-16 TS 38.521-1 16.0.0 2019-06 RAN#84 R5-195405 0460 1 F Introduction of 6.2A.1.3 FR1 MOP for inter-band CA into Rel-16 16.0.0 2019-09 RAN#85 R5-195732 0472 - F Update Clause 6.2A.4.0.2 TIB for CA 16.1.0 2019-09 RAN#85 R5-195804 0474 - F Update of UE A_MPR test case in 6.2.3 16.1.0 2019-09 RAN#85 R5-196191 0477 - F Update of Minimum conformance requirements and addition of test points in TC 6.2.2 16.1.0 2019-09 RAN#85 R5-196231 0483 - F Correction to 6.5.2.3 Additional spectrum emission mask 16.1.0 2019-09 RAN#85 R5-196233 0485 - F Correction to 6.3.4.3 Power Control Relative power tolerance 16.1.0 2019-09 RAN#85 R5-196234 0486 - F Correction to PUCCH format in EVM and In-band emissions test 16.1.0 2019-09 RAN#85 R5-196291 0488 - F Add Annex F.4 Uplink Power window explanation for SA test cases 16.1.0 2019-09 RAN#85 R5-196396 0489 - F Update of Minimum output power for CA FR1 16.1.0 2019-09 RAN#85 R5-196402 0492 - F Update of NR test case 6.2A.1-UE maximum output power for CA 16.1.0 2019-09 RAN#85 R5-196413 0498 - F Update of FR1 6.4D.1 Frequency error for UL MIMO 16.1.0 2019-09 RAN#85 R5-196421 0502 - F Update of FR1 6.4D.2.4 EVM equalizer spectrum flatness for UL MIMO 16.1.0 2019-09 RAN#85 R5-196425 0504 - F Update of DL RB allocation in Annex C 16.1.0 2019-09 RAN#85 R5-196481 0514 - F Remove references to 4Rx Reference Sensitivity test case 7.3.2_1 from Annex F 16.1.0 2019-09 RAN#85 R5-196499 0517 - F Updated to Annex A for RF FR1 tests 16.1.0 2019-09 RAN#85 R5-196500 0518 - F General clause updated for FR1 spec 16.1.0 2019-09 RAN#85 R5-196653 0521 - F Update TT for 6.3D.4.1 16.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2333 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2019-09 RAN#85 R5-196696 0523 - F Update of Minimum conformance requirements and Test requirement in TC 7.4 16.1.0 2019-09 RAN#85 R5-196699 0524 - F Update of Minimum conformance requirements in TC 6.3.2 16.1.0 2019-09 RAN#85 R5-196711 0525 - F Addition of TT for 6.3D.4.2 16.1.0 2019-09 RAN#85 R5-196726 0526 - F Addition of TT for 6.3D.4.3 16.1.0 2019-09 RAN#85 R5-197307 0476 1 F Update UL-MIMO to UL MIMO to align with RAN4 terminology in FR1 16.1.0 2019-09 RAN#85 R5-197308 0506 1 F Update for 6.5.3.1 General spurious emissions 16.1.0 2019-09 RAN#85 R5-197309 0508 1 F Update for 6.5.3.3 Additional spurious emissions 16.1.0 2019-09 RAN#85 R5-197312 0473 1 F Update of Additional spectrum emission mask test case 6.5.2.3 16.1.0 2019-09 RAN#85 R5-197313 0480 1 F Add TT to 6.3D.1 Minimum output power for UL-MIMO 16.1.0 2019-09 RAN#85 R5-197314 0484 1 F Correction to PRACH configurations 16.1.0 2019-09 RAN#85 R5-197316 0494 1 F Addition of NR test case 6.2A.3-UE additional maximum output power reduction for CA 16.1.0 2019-09 RAN#85 R5-197318 0495 1 F Addition of NR test case 6.2A.4-Configured output power for CA 16.1.0 2019-09 RAN#85 R5-197319 0499 1 F Update of FR1 6.4D.2.1 EVM for UL MIMO 16.1.0 2019-09 RAN#85 R5-197321 0500 1 F Update of FR1 6.4D.2.2 Carrier leakage for UL MIMO 16.1.0 2019-09 RAN#85 R5-197324 0501 1 F Update of FR1 6.4D.2.3 Inband emission for UL MIMO 16.1.0 2019-09 RAN#85 R5-197327 0511 1 F Update for 7.3C.0 Minimum conformance requirements for SUL 16.1.0 2019-09 RAN#85 R5-197328 0512 1 F Update for 7.3A.0 Minimum conformance requirements for CA 16.1.0 2019-09 RAN#85 R5-197329 0522 1 F Update of Minimum conformance requirements and Test requirement in TCs 7.6.3 7.6.4 and 7.7 16.1.0 2019-09 RAN#85 R5-197330 0527 1 F Update of 7.5A.0 16.1.0 2019-09 RAN#85 R5-197492 0503 1 F Update of UL power configuration for ON/OFF and Absolute power tolerance 16.1.0 2019-09 RAN#85 R5-197514 0478 1 F Correction of uplink power setting for SA FR1 transmitter test cases 16.1.0 2019-09 RAN#85 R5-197515 0479 1 F Correction of uplink power setting for SA FR1 receiver test cases 16.1.0 2019-09 RAN#85 R5-197519 0493 1 F Addition of NR test case 6.2A.2-UE maximum output power reduction for CA 16.1.0 2019-09 RAN#85 R5-197520 0497 1 F Update of FR1 6.2D.1 MOP for UL MIMO 16.1.0 2019-09 RAN#85 R5-197521 0507 1 F Update for 6.5.3.2 Spurious emission for UE co-existence 16.1.0 2019-09 RAN#85 R5-197522 0515 1 F Update to Occupied bandwidth for CA in NR SA FR1 16.1.0 2019-09 RAN#85 R5-197523 0496 1 F Addition of FR1 7.4A Maximum input level for CA 16.1.0 2019-09 RAN#85 R5-197608 0510 1 F Update for 7.3C.2 Reference sensitivity power level for SUL 16.1.0 2019-09 RAN#85 R5-197609 0513 1 F Update for 7.3.2 Reference sensitivity power level 16.1.0 2019-09 RAN#85 R5-197610 0471 1 F Updates of MU and TT in TS 38.521-1 16.1.0 2019-09 RAN#85 R5-197634 0475 2 F Update of operating bands and channel arrangement to TS38.521-1 g00 16.1.0 2019-09 RAN#85 R5-197635 0491 2 F Update of Transmit ON/OFF time mask for CA FR1 16.1.0 2019-09 RAN#85 R5-197639 0482 2 F Correction to power control TC 6.3.4.2 and 6.3.4.4 16.1.0 2019-09 RAN#85 R5-197640 0509 2 F Update for 7.3A Reference sensitivity for CA 16.1.0 2019-09 RAN#85 R5-197641 0528 2 F Addition of the connection setup in TS 38.521-1 16.1.0 2019-10 RAN#85 - - - - Deletion of R5-197560 which was added by mistake but was withdrawn and belonged to another spec 16.1.1 2019-12 RAN#86 R5-197917 0705 - F Addition of FR1 SUL test case 6.2C.5 16.2.0 2019-12 RAN#86 R5-197923 0711 - F Editorial update of test case 6.4D.2.1 16.2.0 2019-12 RAN#86 R5-198044 0714 - F Update of Clause 7.9A.1 Spurious emission for 2DL CA 16.2.0 2019-12 RAN#86 R5-198103 0715 - F Correction of Clause 7.9 Spurious emissions 16.2.0 2019-12 RAN#86 R5-198134 0716 - F Updating incorrect note in test procedure 16.2.0 2019-12 RAN#86 R5-198237 0723 - F Alignment with core specification for test case 6.3.4.3 16.2.0 2019-12 RAN#86 R5-198397 0739 - F Correction to Test Configuration for In-band emissions 16.2.0 2019-12 RAN#86 R5-198398 0740 - F Editorial correction to test configuration table in MPR test 16.2.0 2019-12 RAN#86 R5-198399 0741 - F Correction to the test procedure for frequency error 16.2.0 2019-12 RAN#86 R5-198401 0743 - F Correction to Common Uplink Configuration 16.2.0 2019-12 RAN#86 R5-198479 0747 - F Correction of UL RMCs 16.2.0 2019-12 RAN#86 R5-198526 0753 - F Update of test case 6.2.3 UE A_MPR NS_43 16.2.0 2019-12 RAN#86 R5-198546 0760 - F Message Contents Update for TC 6.2.4 and 6.2D.4 of TS 38.521-1 16.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2334 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2019-12 RAN#86 R5-198547 0761 - F Addition of NR FR1 intraband non-contiguous 2CA tests to 7.4A.1 and 7.5A.1 and updating 7.5A.1 to 38.521-1 to enable testing of CA combinations involving bands n66, n70 and n71 16.2.0 2019-12 RAN#86 R5-198635 0764 - F Updated to Annex A for RF FR1 tests 16.2.0 2019-12 RAN#86 R5-198747 0774 - F Update for 7.3.3 16.2.0 2019-12 RAN#86 R5-198755 0777 - F Introduction of n65 to 38.521-1 Chapter 7 16.2.0 2019-12 RAN#86 R5-199085 0701 1 F Updates of MU and TT in TS 38.521-1 16.2.0 2019-12 RAN#86 R5-199308 0724 1 F Correction of 6.3D.3 Transmit ONOFF time mask for UL- MIMO 16.2.0 2019-12 RAN#86 R5-199309 0725 1 F Correction of 6.3D.4.1 16.2.0 2019-12 RAN#86 R5-199310 0727 1 F Correction of 6.3D.4.2 Relative power tolerance for UL- MIMO 16.2.0 2019-12 RAN#86 R5-199311 0731 1 F Corrections to 6.3A.1.1 Minimum output power for CA 2UL CA FR1 16.2.0 2019-12 RAN#86 R5-199313 0702 1 F Update of FR1 SUL test case 6.2C.1 16.2.0 2019-12 RAN#86 R5-199314 0703 1 F Addition of FR1 SUL test case 6.2C.3 16.2.0 2019-12 RAN#86 R5-199315 0704 1 F Addition of FR1 SUL test case 6.2C.4 16.2.0 2019-12 RAN#86 R5-199316 0706 1 F Addition of FR1 SUL test case 6.4C.1 16.2.0 2019-12 RAN#86 R5-199317 0707 1 F Addition of FR1 SUL test case 6.4C.2.1 16.2.0 2019-12 RAN#86 R5-199318 0708 1 F Addition of FR1 SUL test case 6.4C.2.2 16.2.0 2019-12 RAN#86 R5-199319 0709 1 F Addition of FR1 SUL test case 6.4C.2.3 16.2.0 2019-12 RAN#86 R5-199320 0710 1 F Addition of FR1 SUL test case 6.4C.2.4 16.2.0 2019-12 RAN#86 R5-199321 0712 1 F Update test points in transmit quality to replace -40dBm by minimum output power 16.2.0 2019-12 RAN#86 R5-199322 0746 1 F Correction to UL Power Control Window in FR1 16.2.0 2019-12 RAN#86 R5-199323 0749 1 F Corrections on A-MPR requirements in 38.521-1 16.2.0 2019-12 RAN#86 R5-199324 0750 1 F Update of UE A_MPR Minimum Conformance requirements in 6.2.3 16.2.0 2019-12 RAN#86 R5-199325 0751 1 F Update of test case 6.2.3 for UE A_MPR, NS_03 and NS_03U 16.2.0 2019-12 RAN#86 R5-199329 0752 1 F Update of test case 6.2.3 UE A_MPR, NS_05 and NS_05U 16.2.0 2019-12 RAN#86 R5-199330 0754 1 F Update of test case 6.2.3 UE A_MPR NS_43U 16.2.0 2019-12 RAN#86 R5-199331 0755 1 F Adding of test requirements for UE A_MPR NS_100 16.2.0 2019-12 RAN#86 R5-199332 0756 1 F Adding of test requirements for UE A_MPR NS_18 16.2.0 2019-12 RAN#86 R5-199333 0758 1 F Update of Additional spectrum emission mask test case in 6.5.2.3 16.2.0 2019-12 RAN#86 R5-199334 0775 1 F Update for 6.5.3.3 Additional spurious emissions 16.2.0 2019-12 RAN#86 R5-199335 0718 1 F Correction of test applicability and minimum conformance requirements for SA FR1 7.6.4 16.2.0 2019-12 RAN#86 R5-199336 0719 1 F Correction of minimum conformance requirements for SA FR1 7.6.3 7.7 and 7.9 16.2.0 2019-12 RAN#86 R5-199337 0717 1 F Correction and addition of uplink power measurement MUs for SA FR1 TCs 16.2.0 2019-12 RAN#86 R5-199338 0728 1 F Update of Operating bands and Channel arrangement to TS 38.521-1 R15 16.2.0 2019-12 RAN#86 R5-199339 0766 1 F Update of Annex C.3.1 16.2.0 2019-12 RAN#86 R5-199412 0765 1 F Update of clause 5 for R16 CA configurations in 38.521-1 16.2.0 2019-12 RAN#86 R5-199433 0736 1 F Addition of reference sensitivity test for NR CA combination n29-n66 16.2.0 2019-12 RAN#86 R5-199434 0729 1 F Update of Operating bands and Channel arrangement to TS 38.521-1 R16 16.2.0 2019-12 RAN#86 R5-199435 0767 1 F Introduction of n29 and n65 to 38.521-1 Chapter 5 and 6.2.1 16.2.0 2019-12 RAN#86 R5-199484 0720 1 F Correction of test procedure of SA FR1 6.5.3.1 16.2.0 2019-12 RAN#86 R5-199485 0768 1 F Update to ACLR test case 16.2.0 2019-12 RAN#86 R5-199486 0776 1 F Update for 6.5.3.2 Spurious emission for UE co-existence 16.2.0 2019-12 RAN#86 R5-199490 0748 1 F update of 7.5A.2 16.2.0 2019-12 RAN#86 R5-199491 0773 1 F Update for 7.3C.0 Minimum conformance requirements for SUL 16.2.0 2019-12 RAN#86 R5-199493 0770 1 F Add section 4.5 Applicability and test coverage rules 16.2.0 2019-12 RAN#86 R5-199502 0721 1 F Correction of test description for SA FR1 6.5.2.4.2 16.2.0 2019-12 RAN#86 R5-199503 0730 1 F Addition of almost contiguous allocation test points and update of minimum conformance requirements for SA FR1 6.2.2 16.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2335 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2019-12 RAN#86 R5-199556 0735 1 F Introduction of 3CA reference sensitivity case 7.3A.2 for NR and addition of reference sensitivity test for many combinations involving bands n66, n70 and n71 to 38.521-1 16.2.0 2019-12 RAN#86 R5-199557 0762 1 F Introduction of CA blocking case 7.6A to 38.521-1 16.2.0 2019-12 RAN#86 R5-199563 0732 1 F Addition of 7.6A.3.1 Out-of-band blocking for CA (2DL CA) for SA FR1 16.2.0 2019-12 RAN#86 R5-199564 0733 1 F Addition of 7.6A.4.1 Narrow band blocking for CA (2DL CA) for SA FR1 16.2.0 2019-12 RAN#86 R5-199565 0734 1 F Addition of 7.8A.2.1 Wide band Intermodulation for CA (2DL CA) for SA FR1 16.2.0 2020-03 RAN#87 R5-200393 0789 F Adding MU and TT for FR1 Rx CA test cases 16.3.0 2020-03 RAN#87 R5-200397 0791 F Updating power configuration for PRACH time mask 16.3.0 2020-03 RAN#87 R5-200438 0792 F Clarification of measurement interval of frequency error in FR1 16.3.0 2020-03 RAN#87 R5-200440 0794 F Correction to 6.3.4.3 Power Control Relative power tolerance 16.3.0 2020-03 RAN#87 R5-200441 0795 F Correction to SEM and ACLR test cases 16.3.0 2020-03 RAN#87 R5-200443 0797 F Correction to UL power window description for 6.3.4.4 16.3.0 2020-03 RAN#87 R5-200461 0798 F Update of 7.6A.3.1 Out-of-band blocking for 2DL CA 16.3.0 2020-03 RAN#87 R5-200462 0799 F Update of 7.6A.4.1 Narrow band blocking for 2DL CA 16.3.0 2020-03 RAN#87 R5-200463 0800 F Update of 7.8A.2.1 Wide band Intermodulation for 2DL CA 16.3.0 2020-03 RAN#87 R5-200570 0804 F Update of NR test case 6.5.3.2-Spurious emission for UE co-existence 16.3.0 2020-03 RAN#87 R5-200640 0808 F Update of Minimum requirements of 6.2.2 UE maximum output power reduction 16.3.0 2020-03 RAN#87 R5-200658 0810 F Update of 6.1 common part of Tx in TS38.521-1 16.3.0 2020-03 RAN#87 R5-200659 0811 F Core spec alignment for test case 6.3.4.3 Relative power tolerance 16.3.0 2020-03 RAN#87 R5-200664 0812 F Correction of UL configuration for almost contiguous allocation in 6.2.2 16.3.0 2020-03 RAN#87 R5-200666 0813 F Update measurement bandwidth references in 6.5.4 16.3.0 2020-03 RAN#87 R5-200693 0814 F Update for 6.5.3.2 Spurious emission for UE co-existence 16.3.0 2020-03 RAN#87 R5-200700 0817 F Removal of square brackets for DCI format for test cases in 7.6 and 7.7 of SA FR1 16.3.0 2020-03 RAN#87 R5-200721 0818 F Addition of new Rel-16 70MHz CBW for 6.3.2 and 7.4 of SA FR1 16.3.0 2020-03 RAN#87 R5-200725 0819 F Correction of A-SE for NS_04 16.3.0 2020-03 RAN#87 R5-200755 0823 F Removing text from a Void clause 16.3.0 2020-03 RAN#87 R5-200757 0825 F Correction of A_MPR test for NS_05 and NS_05U 16.3.0 2020-03 RAN#87 R5-200759 0826 F Update of test case 6.2.3 UE A_MPR, NS_37 16.3.0 2020-03 RAN#87 R5-200761 0827 F Update of test case 6.2.3 UE A_MPR, NS_38 16.3.0 2020-03 RAN#87 R5-200763 0828 F Update of test case 6.2.3 UE A_MPR, NS_39 16.3.0 2020-03 RAN#87 R5-200765 0829 F Corrections of NS_43 in 38.521-1 section 6 16.3.0 2020-03 RAN#87 R5-200767 0830 F Corrections of NS_43U in 38.521-1 section 6 16.3.0 2020-03 RAN#87 R5-200892 0815 1 F Update for 6.5.3.3 Additional spurious emissions 16.3.0 2020-03 RAN#87 R5-200893 0809 1 F Core spec alignment for 7.6.3 and 7.8 16.3.0 2020-03 RAN#87 R5-200895 0787 1 F Introduction of n95 SUL band test cases 16.3.0 2020-03 RAN#87 R5-200906 0824 1 F Aligning A-MPR clause with TS 38.101-1 Rel-15 16.3.0 2020-03 RAN#87 R5-200907 0781 1 F Update of TC 7.7A.1 16.3.0 2020-03 RAN#87 R5-200908 0782 1 F Update of Clause 4 in TS 38.521-1 16.3.0 2020-03 RAN#87 R5-200909 0783 1 F Update of clause 5 to TS 38.521-1 in R15 16.3.0 2020-03 RAN#87 R5-200922 0822 1 F Introduction of Rel-16 spurious emissions co-existence requirements for bands n48, n65 and n95 16.3.0 2020-03 RAN#87 R5-200924 0788 1 F Adding statistical testing condition in Annex H for CA testing 16.3.0 2020-03 RAN#87 R5-200962 0786 1 F Corrections to TC 6.3A.3 transmit On OFF time mask for CA FR1 16.3.0 2020-03 RAN#87 R5-200971 0780 1 F Correction of reference numbers in TS 38.521-1 16.3.0 2020-03 RAN#87 R5-200972 0793 1 F Correction to 6.2.3 A-MPR test case 16.3.0 2020-03 RAN#87 R5-200974 0802 1 F Update of test requirements for NR test case 6.5D.2.2 and 6.5D.2.4 16.3.0 2020-03 RAN#87 R5-200975 0803 1 F Update of NR SUL test cases 16.3.0 2020-03 RAN#87 R5-200976 0820 1 F Update of NR test case 6.2.4-ConfigTP 16.3.0 2020-03 RAN#87 R5-200977 0805 1 F Update of NR test case 7.4A Maximum input level for CA 16.3.0 2020-03 RAN#87 R5-200978 0806 1 F Update of NR test case 7.6A.2 Inband Blocking for CA 16.3.0 2020-03 RAN#87 R5-200979 0821 1 F Cleaning up of Rx 2DL CA test cases in FR1 16.3.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2336 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2020-03 RAN#87 R5-201054 0785 1 F Update of R16 new bands and CBWs to TS 38.521-1 clause 5 16.3.0 2020-03 RAN#87 R5-201069 0832 1 F Adding n65 A-MPR and Emission Requirements 16.3.0 2020-03 RAN#87 R5-201247 0790 2 F Cleaning up of power class 2 test cases in FR1 16.3.0 2020-03 RAN#87 R5-201238 0831 1 F Corrections of NS_18 in 38.521-1 section 6 16.3.0 2020-06 RAN#88 R5-201597 0835 - F Correction of 4RX Reference requirement for n77 high range in 7.3.2 16.4.0 2020-06 RAN#88 R5-201598 0836 - F Correction of lower limit for test ID 55 in test 6.2.3 16.4.0 2020-06 RAN#88 R5-201734 0841 - F Addition of NR test case 6.3C.1 Minimum output power for SUL 16.4.0 2020-06 RAN#88 R5-201735 0842 - F Addition of NR test case 6.3C.2 Transmit OFF power for SUL 16.4.0 2020-06 RAN#88 R5-201736 0843 - F Addition of NR test case 6.3C.3 Transmit ON/OFF time mask for SUL 16.4.0 2020-06 RAN#88 R5-201739 0846 - F Addition of NR test case 6.3C.4.3 Aggregate power tolerance for SUL 16.4.0 2020-06 RAN#88 R5-201741 0848 - F Update of NR test case 6.5C.3.3-Additional spurious emissions for SUL 16.4.0 2020-06 RAN#88 R5-201742 0849 - F Update test description of NR test case 7.6.3-Out-of-band blocking 16.4.0 2020-06 RAN#88 R5-201744 0851 - F Addition of NR test case 7.6C.3 Out-of-band blocking for SUL 16.4.0 2020-06 RAN#88 R5-201745 0852 - F Update of Annex F.3.2 and F.3.3 16.4.0 2020-06 RAN#88 R5-201749 0854 - F Update of NR test case 7.4A.1 Maximum input level for 2DL CA 16.4.0 2020-06 RAN#88 R5-201750 0855 - F Addition of NR test case 7.4A.2 Maximum input level for 3DL CA 16.4.0 2020-06 RAN#88 R5-201752 0857 - F Addition of NR test case 7.6A.2.2 IBB for 3DL CA 16.4.0 2020-06 RAN#88 R5-201764 0861 - F Adding NS_27 A_MPR and Emission Requirements for band n48 16.4.0 2020-06 RAN#88 R5-201772 0865 - F Adding NS_47 A_MPR and Emission Requirements for band n41 16.4.0 2020-06 RAN#88 R5-201801 0866 - F Update of clause 5 to TS 38.521-1 in R15 16.4.0 2020-06 RAN#88 R5-201833 0867 - F Update of Refsense requirements for n79 16.4.0 2020-06 RAN#88 R5-201834 0868 - F Correction of FR1 PUCCH EVM definition 16.4.0 2020-06 RAN#88 R5-201845 0871 - F Editorial correction of 6.2.1 test requirements 16.4.0 2020-06 RAN#88 R5-201847 0873 - F Updating 6.3.4.3 alternating sub-test 16.4.0 2020-06 RAN#88 R5-201861 0875 - F Addition of asymmetric BW combination set 1 of n66 16.4.0 2020-06 RAN#88 R5-201934 0877 - F Update of Operating bands and Channel arrangement to TS 38.521-1 for R16 CADC configurations 16.4.0 2020-06 RAN#88 R5-202034 0883 - F Addition of new test case 7.6A.3.2 Out-of-band blocking for CA 3DL CA R16 16.4.0 2020-06 RAN#88 R5-202035 0884 - F Addition of new test case 7.6A.3.3 Out-of-band blocking for CA 4DL CA R16 16.4.0 2020-06 RAN#88 R5-202036 0885 - F Addition of new test case 7.6A.4.2 Narrow band blocking for CA 3DL CA R16 16.4.0 2020-06 RAN#88 R5-202037 0886 - F Addition of new test case 7.6A.4.3 Narrow band blocking for CA 4DL CA R16 16.4.0 2020-06 RAN#88 R5-202039 0888 - F Addition of new test case 7.8A.2.3 Wide band Intermodulation for CA 4DL CA R16 16.4.0 2020-06 RAN#88 R5-202041 0890 - F Correction of test procedure and some typos in 7.6A.4.1 Narrow band blocking for CA 2DL CA R16 16.4.0 2020-06 RAN#88 R5-202042 0891 - F Correction of test procedure and test requirement in 7.8A.2.1 R16 16.4.0 2020-06 RAN#88 R5-202109 0893 - F Correction to n70 asymmetric test points in Rx tests 16.4.0 2020-06 RAN#88 R5-202217 0899 - F Corrections on transmitter power for CA in 38.521-1 16.4.0 2020-06 RAN#88 R5-202422 0906 - F Update F.1.2 with Relative Uplink power measurement uncertainty as 6.3.4.3 16.4.0 2020-06 RAN#88 R5-202430 0909 - F Add Reference sensitivity requirement for n48 16.4.0 2020-06 RAN#88 R5-202484 0913 - F Update of Reference sensitivity power level for R16 new CBW of n1 16.4.0 2020-06 RAN#88 R5-202503 0914 - F CR on EVM Window Centre Timing Definition in FR1 16.4.0 2020-06 RAN#88 R5-202710 0840 1 F Update of NR test case 6.2A.3 AMPR for CA 16.4.0 2020-06 RAN#88 R5-202711 0844 1 F Addition of NR test case 6.3C.4.1-Absolute power tolerance for SUL 16.4.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2337 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2020-06 RAN#88 R5-202712 0845 1 F Addition of NR test case 6.3C.4.2 Power Control Relative power tolerance for SUL 16.4.0 2020-06 RAN#88 R5-202713 0847 1 F Update of NR test case 6.5.2.4 ACLR 16.4.0 2020-06 RAN#88 R5-202714 0864 1 F Update of test case 6.2.3 UE A_MPR, NS_42 16.4.0 2020-06 RAN#88 R5-202715 0905 1 F Update Uplink power control window size for SA TX TCs 16.4.0 2020-06 RAN#88 R5-202716 0910 1 F Update for 6.5.3.1 General spurious emissions 16.4.0 2020-06 RAN#88 R5-202717 0850 1 F Addition of NR test case 7.6C.2-Inband Blocking for SUL 16.4.0 2020-06 RAN#88 R5-202718 0902 1 F Update of UL configuration in REFSENS 16.4.0 2020-06 RAN#88 R5-202719 0903 1 F Diversity Characteristics requirements alignment 16.4.0 2020-06 RAN#88 R5-202765 0880 1 F Updates to test case 6.5.2.2, Spectrum Emission Mask 16.4.0 2020-06 RAN#88 R5-202781 0859 1 F Adding several new 2CA and 3CA combinations to 7.3A and corrections to 7.3A.1 16.4.0 2020-06 RAN#88 R5-202783 0881 1 F Adding REFSENS requirements for 30 MHz channel bandwidth in band n41 16.4.0 2020-06 RAN#88 R5-202791 0869 1 F Update of general clause 7.1 16.4.0 2020-06 RAN#88 R5-202807 0904 1 F Receiver characteristics testing update to 38.521-1 16.4.0 2020-06 RAN#88 R5-202821 0862 1 F Update of test case 6.2.3 UE A_MPR, NS_40 16.4.0 2020-06 RAN#88 R5-202822 0863 1 F Update of test case 6.2.3 UE A_MPR, NS_41 16.4.0 2020-06 RAN#88 R5-202823 0908 1 F Update for 6.5.3.3 Additional spurious emissions 16.4.0 2020-06 RAN#88 R5-202860 0912 1 F Update of Spurious emission for UE co-existence for CA_n1-n78 16.4.0 2020-06 RAN#88 R5-202886 0860 1 F Aligning A-MPR clause with TS 38.101-1 Rel-15 16.4.0 2020-06 RAN#88 R5-202887 0894 1 F NS_05 corrections related to n65 16.4.0 2020-06 RAN#88 R5-202888 0896 1 F Corrections on network signalling value abbreviation in 38.521-1 16.4.0 2020-06 RAN#88 R5-202889 0897 1 F Corrections on NS signalling label for band n39 in 38.521-1 16.4.0 2020-06 RAN#88 R5-202890 0900 1 F Correction on txDirectCurrentLocation in FR1 SA tests 16.4.0 2020-06 RAN#88 R5-202891 0911 1 F Updated MOP UL MIMO test case to include steps for per port testing 16.4.0 2020-06 RAN#88 R5-202892 0834 1 F Correction and clarifications of default DL physical channels power in annex C 16.4.0 2020-06 RAN#88 R5-202927 0876 1 F Update of Operating bands and Channel arrangement to TS 38.521-1 for R16 new bands and CBWs 16.4.0 2020-06 RAN#88 R5-202928 0856 1 F Update for NR test case 7.6A.2.1 Inband Blocking for 2DL CA 16.4.0 2020-06 RAN#88 R5-202929 0887 1 F Addition of new test case 7.8A.2.2 Wide band Intermodulation for CA 3DL CA R16 16.4.0 2020-06 RAN#88 R5-202930 0889 1 F Correction of CW interference setting for OOBB Inter-band 2DL CA in TC 7.6A.3.1 R16 16.4.0 2020-06 RAN#88 R5-202931 0892 1 F Alignment of minimum conformance requirements in 7.6A.3.0 and 7.8A.2.0 with core spec R16 16.4.0 2020-06 RAN#88 R5-202940 0879 1 F Updates to test case 6.5.2.4.1, NR ACLR 16.4.0 2020-06 RAN#88 R5-202941 0870 1 F Skipping 2Rx testing on bands where UE support 4Rx for SA test cases 16.4.0 2020-06 RAN#88 R5-202942 0901 1 F Re-organization of CA refsens test cases 16.4.0 2020-06 RAN#88 R5-202957 0853 1 F Update of NR test case 6.2.2 UE maximum output power reduction 16.4.0 2020-09 RAN#89 R5-203260 0917 - F Adding NS_47 to Additional spurious emissions test case 16.5.0 2020-09 RAN#89 R5-203261 0918 - F Adding UL MIMO additional spurious emissions test for NS_47 16.5.0 2020-09 RAN#89 R5-203290 0926 - F Clarification of Interferer frequency selection in FR1 IBB test case 7.6.2 16.5.0 2020-09 RAN#89 R5-203291 0927 - F Correction of K1 to achieve PUCCH Format 3 in FDD in EVM and in-band emission 16.5.0 2020-09 RAN#89 R5-203572 0932 - F Corrected test config for NS_24 in additional spurious emission test 6.5.3.3 16.5.0 2020-09 RAN#89 R5-203678 0935 - F Adding MU and TTs for Inter-band UL CA test cases 16.5.0 2020-09 RAN#89 R5-203679 0936 - F Updating message content in SUL test cases 16.5.0 2020-09 RAN#89 R5-203682 0937 - F Updating test case 6.5A.2.4.1-NR ACLR for CA 16.5.0 2020-09 RAN#89 R5-203687 0939 - F Updating channel configurations for Intra-band UL contiguous CA 16.5.0 2020-09 RAN#89 R5-203688 0940 - F Updating intra-band CA UL and DL configurations 16.5.0 2020-09 RAN#89 R5-203689 0941 - F Adding MU and TTs for Intra-band UL CA test cases 16.5.0 2020-09 RAN#89 R5-203690 0942 - F Introduce general requirement for UL CA test cases 16.5.0 2020-09 RAN#89 R5-203691 0943 - F Updating NR test case 6.2A.1- MOP for CA 16.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2338 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2020-09 RAN#89 R5-203696 0946 - F Addition of general clause 7.1A 16.5.0 2020-09 RAN#89 R5-203697 0947 - F Updating REFSENS minimum requirements for Intra-band non-contiguous CA 16.5.0 2020-09 RAN#89 R5-203698 0948 - F Update of 7.4A.2-Maximum input level for 3DL CA 16.5.0 2020-09 RAN#89 R5-203700 0950 - F Update of test case 7.6A.2-Inband blocking for CA 16.5.0 2020-09 RAN#89 R5-203701 0951 - F Update of test case 7.6A.2.2 Inband blocking for 3DL CA 16.5.0 2020-09 RAN#89 R5-203735 0956 - F Add intra-band contiguous CA to 6.3A.2 16.5.0 2020-09 RAN#89 R5-203748 0958 - F Change of RB allocation start for test case 6.3.4.3 16.5.0 2020-09 RAN#89 R5-203777 0960 - F Update of NR test case 6.2.1 UE MOP for n30 16.5.0 2020-09 RAN#89 R5-203778 0961 - F Update of NR test case 6.2.2 UE MPR for n30 16.5.0 2020-09 RAN#89 R5-203780 0962 - F Update of NR test case 6.2D.1 UE MOP for UL MIMO for n30 16.5.0 2020-09 RAN#89 R5-203783 0964 - F Update of NR test case 6.5.3.2 Spurious Emissions for UE Co-Ex for n30 16.5.0 2020-09 RAN#89 R5-203786 0965 - F Update of NR test case 7.3 UE Ref Sens for n30 16.5.0 2020-09 RAN#89 R5-203788 0967 - F Update of NR test case 7.6.3 UE OBB for n30 16.5.0 2020-09 RAN#89 R5-203789 0968 - F Update of NR test case 7.6.4 UE NBB for n30 16.5.0 2020-09 RAN#89 R5-203879 0972 - F Correction of diversity characteristics requirement in section 7.2 16.5.0 2020-09 RAN#89 R5-203880 0973 - F Correction of UE mean power requirements Table numbers in SEM and ACLR test cases for SA FR1 16.5.0 2020-09 RAN#89 R5-203881 0974 - F Adding NOTEs to the test requirement tables in 6.2D.2 16.5.0 2020-09 RAN#89 R5-203885 0978 - F Correction of test requirement for 6.2.1 16.5.0 2020-09 RAN#89 R5-203967 0983 - F Editorial correction of 6.2.4 16.5.0 2020-09 RAN#89 R5-204010 0986 - F Correction to target power level Pmin for SA UL MIMO TCs 16.5.0 2020-09 RAN#89 R5-204035 0987 - F Updating NR test case 7.6A.3 for n48 16.5.0 2020-09 RAN#89 R5-204040 0989 - F Update of NR test case 7.7A Spurious response for CA 16.5.0 2020-09 RAN#89 R5-204054 0990 - F Correction to test Configuration of flatness for Pi/2 BPSK 16.5.0 2020-09 RAN#89 R5-204103 0991 - F Correction of QPSK UL RMC 16.5.0 2020-09 RAN#89 R5-204195 0996 - F Update 6.5.3.2 Spurious emission for UE co-existence 16.5.0 2020-09 RAN#89 R5-204202 0997 - F Update for 7.3A.0 Minimum conformance requirements for CA 16.5.0 2020-09 RAN#89 R5-204263 1001 - F Update of CSI-RS definition for DL RMCs in TS 38.521-1 16.5.0 2020-09 RAN#89 R5-204711 0933 1 F Updating 6.2A.3-AMPR for CA for NS_43 and NS_01,NS_43U and NS_01 16.5.0 2020-09 RAN#89 R5-204760 0934 1 F Cleaning up of Tx inter-band CA test cases 16.5.0 2020-09 RAN#89 R5-204761 1000 1 F Editorial correction to FR1 co-existence requirements 16.5.0 2020-09 RAN#89 R5-204762 0923 1 F Update of clause5 into TS 38.521-1 R15 16.5.0 2020-09 RAN#89 R5-204807 0993 1 F Update of UE co-existence for CA_n1-n78 16.5.0 2020-09 RAN#89 R5-204808 0925 1 F Update of R16 CADC combos in TS 38.521-1 16.5.0 2020-09 RAN#89 R5-204823 0916 1 F Correction of test frequencies for NS_47 16.5.0 2020-09 RAN#89 R5-204824 0919 1 F Adding band n48 to maximum output power and maximum output power reduction tests 16.5.0 2020-09 RAN#89 R5-204825 0984 1 F Addition of 25MHz for NR band n1 16.5.0 2020-09 RAN#89 R5-204826 0985 1 F Addition of AMPR NS_48 for NR band n1 16.5.0 2020-09 RAN#89 R5-204827 0992 1 F Addition of n1 R16 new CBW into 38.521-1 Refsense test 16.5.0 2020-09 RAN#89 R5-204828 0924 1 F Update of R16 new bands and CBWs in 38.521-1 16.5.0 2020-09 RAN#89 R5-204832 0952 1 F Introduce of new TC 6.3A.4.1 16.5.0 2020-09 RAN#89 R5-204833 0953 1 F Introduce of new TC 6.3A.4.2 16.5.0 2020-09 RAN#89 R5-204834 0954 1 F Introduce of new TC 6.3A.4.3 16.5.0 2020-09 RAN#89 R5-204835 0955 1 F Add intra-band contiguous CA to 6.3A.1 16.5.0 2020-09 RAN#89 R5-204836 0957 1 F Add intra-band contiguous CA to 6.3A.3 16.5.0 2020-09 RAN#89 R5-204837 0949 1 F Adding band n48 for Blocking characteristics testing 16.5.0 2020-09 RAN#89 R5-204839 0995 1 F Updated to FR1 general clauses for NRSL eV2X 16.5.0 2020-09 RAN#89 R5-204854 0959 1 F Correct UE output power configuration to some UL MIMO cases 16.5.0 2020-09 RAN#89 R5-204855 0969 1 F Removal of editor's note about missing of Rel-15 In-gap OOB blocking requirement in RAN4 spec 16.5.0 2020-09 RAN#89 R5-204897 0929 1 F Update to 7.5A.2 ACS for 3DL CA 16.5.0 2020-09 RAN#89 R5-204898 0988 1 F Update of NR test case 7.5A Adjacent Channel selectivity for CA 16.5.0 2020-09 RAN#89 R5-204905 0975 1 F Correction of 6.2D.1 and Test applicability of 6.5.2.4.2 16.5.0 2020-09 RAN#89 R5-204906 0976 1 F Correction of test requirement for 6.2.4 16.5.0 2020-09 RAN#89 R5-204907 0977 1 F Addition of test procedure and test requirement for PC2 fallback to PC3 for network signalling value NS_04 16.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2339 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2020-09 RAN#89 R5-204908 0979 1 F Adding additional tolerance to test requirement of 6.2.1, 6.2.2, 6.2.3 and 6.2.4 16.5.0 2020-09 RAN#89 R5-204909 0980 1 F Update of 6.2.3 for minimum conformance requirements for A-MPR 16.5.0 2020-09 RAN#89 R5-204910 0970 1 F Alignment of requirements in 7.6.3 and 7.6A.3 with the core spec 16.5.0 2020-09 RAN#89 R5-204911 0971 1 F Removal of SDL bands from single carrier Rx TCs 7.6.2, 7.6.3 and 7.6.4 16.5.0 2020-09 RAN#89 R5-204912 0981 1 F Update of SA Rx test cases for 4Rx UEs 16.5.0 2020-09 RAN#89 R5-204913 0998 1 F Update Uplink power control window size for SA RX TCs 16.5.0 2020-09 RAN#89 R5-204960 0928 1 F Addition of test cases for n28 with CBW of 30MHz 16.5.0 2020-09 RAN#89 R5-204961 0922 1 F n26 Rx requirements in 38.521-1 16.5.0 2020-09 RAN#89 R5-204962 0966 1 F Update of NR test case 7.6.2 UE IBB for n30 16.5.0 2020-09 RAN#89 R5-204974 0945 1 F Updating of NR test case 6.2A.4-Configured output power for CA 16.5.0 2020-09 RAN#89 R5-204980 0930 2 F Corrections and additions to 7.3A 16.5.0 2020-09 RAN#89 R5-204981 0931 2 F Completing 3CA Rx cases 7.5A.2 and 7.7A.2 16.5.0 2020-09 RAN#89 R5-204984 0944 1 F Update of NR test case 6.2A.2-MPR for CA 16.5.0 2020-09 RAN#89 RP-201670 1002 - F Adding FR1 PDCCH Aggregation Level in Annex C.3 16.5.0 2020-12 RAN#90 R5-205252 1005 - F Adding NR Band n53 to UE maximum output power and MPR test cases 16.6.0 2020-12 RAN#90 R5-205254 1007 - F Adding NR Band n53 into Spurious emission for UE co- existence 16.6.0 2020-12 RAN#90 R5-205299 1011 - F Update of clause 5 in TS 38.521-1 R15 16.6.0 2020-12 RAN#90 R5-205490 1014 - F Update of Reference sensitivity power level for R16 new CBW of n3 16.6.0 2020-12 RAN#90 R5-205493 1015 - F Correction of diversity characteristics requirement in section 7.2 16.6.0 2020-12 RAN#90 R5-205494 1016 - F Correction of minimum conformance requirements and test requirement for narrow band blocking for Intra-band contiguous CA 16.6.0 2020-12 RAN#90 R5-205495 1017 - F Correction of Allocated slots per Frame for DL reference measurement channels 16.6.0 2020-12 RAN#90 R5-205535 1018 - F Correcting RB start for test case 6.3C.4.2 16.6.0 2020-12 RAN#90 R5-205537 1019 - F Update of NR test case 6.2.1 UE MOP for n14 16.6.0 2020-12 RAN#90 R5-205550 1023 - F Update of NR test case 7.3 UE Ref Sens for n14 16.6.0 2020-12 RAN#90 R5-205551 1024 - F Update of NR test case 7.6.2 UE IBB for n14 16.6.0 2020-12 RAN#90 R5-205552 1025 - F Update of NR test case 7.6.3 UE OBB for n14 16.6.0 2020-12 RAN#90 R5-205553 1026 - F Update of NR test case 7.6.4 UE NBB for n14 16.6.0 2020-12 RAN#90 R5-205557 1028 - F Updating abbreviation list 16.6.0 2020-12 RAN#90 R5-205569 1031 - F Adding 30 MHz channel bandwidth to test requirements for UL MIMO Spurious 16.6.0 2020-12 RAN#90 R5-205574 1032 - F Co-existence Table corrections related to n65 16.6.0 2020-12 RAN#90 R5-205700 1043 - F Addition of V2X reference measurement channels 16.6.0 2020-12 RAN#90 R5-205731 1045 - F Introduce General requirement for CA configurations 16.6.0 2020-12 RAN#90 R5-205732 1046 - F Adding RB allocation for channel BW 70MHz 16.6.0 2020-12 RAN#90 R5-205733 1047 - F Updating test configuration tables for intra-band UL CA test cases 16.6.0 2020-12 RAN#90 R5-205734 1048 - F Updating NR test case MOP for MIMO for several NR bands 16.6.0 2020-12 RAN#90 R5-205735 1049 - F Updating NR test case MPR for MIMO for several NR bands 16.6.0 2020-12 RAN#90 R5-205736 1050 - F Updating minimum requirement for OBW for inter-band CA 16.6.0 2020-12 RAN#90 R5-205737 1051 - F Update OBW testing for intra-band UL CA 16.6.0 2020-12 RAN#90 R5-205743 1055 - F Updating NR test case 7.4A.2-Maximum input level for 3 DL CA 16.6.0 2020-12 RAN#90 R5-205745 1056 - F Updating NR test case 7.5A.2- Adjacent channel selectivity for 3DL CA 16.6.0 2020-12 RAN#90 R5-205746 1057 - F Updating NR test case 7.6A.2.2- In-band Blocking for 3DL CA 16.6.0 2020-12 RAN#90 R5-205748 1058 - F Updating Narrow band blocking for CA for band n48 16.6.0 2020-12 RAN#90 R5-205790 1061 - F Removing the highest SCS from test configuration for Tx spurious emissions for UL MIMO 16.6.0 2020-12 RAN#90 R5-205791 1062 - F Update of MPR for PC3 half Pi BPSK DMRS in 6.2.2 16.6.0 2020-12 RAN#90 R5-205796 1066 - F Update of MOP for UL MIMO with ULFPTx in 6.2D.1 16.6.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2340 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2020-12 RAN#90 R5-205799 1068 - F Addition of new test case 6.5D.3_1.2 UE co-existence spurious emissions for Rel-16 UL MIMO 16.6.0 2020-12 RAN#90 R5-205800 1069 - F Addition of new test case 6.5D.3_1.3 additional spurious emissions for Rel-16 UL MIMO 16.6.0 2020-12 RAN#90 R5-205852 1070 - F Correction of RAR timing for PRACH TC 6.3.3.4 and EVM TC 6.4.2.1 16.6.0 2020-12 RAN#90 R5-205872 1073 - F Editorial correction to minimum requirements of REFSENS for CA 16.6.0 2020-12 RAN#90 R5-205879 1075 - F Update of Rx test cases to add 40MHz for NR band n38 16.6.0 2020-12 RAN#90 R5-205882 1076 - F Update of A-MPR for NS_18 16.6.0 2020-12 RAN#90 R5-206022 1082 - F Update of 6.3.1 for UE minimum output power test 16.6.0 2020-12 RAN#90 R5-206088 1088 - F Correction to ASEM for NS_27 16.6.0 2020-12 RAN#90 R5-206160 1102 - F Correction of Test Message Table 6.3.3.4.4.3-2 in section 6.3.3.4 16.6.0 2020-12 RAN#90 R5-206638 1071 1 F Handling of delta Tib for UE supporting multiple band combinations 16.6.0 2020-12 RAN#90 R5-206639 1077 1 F Update of A-MPR for NS_46 16.6.0 2020-12 RAN#90 R5-206640 1090 1 F Update for 6.5.3.2 Spurious emission for UE co-existence 16.6.0 2020-12 RAN#90 R5-206641 1092 1 F Correction for 6.3.3.6 SRS time mask 16.6.0 2020-12 RAN#90 R5-206642 1098 1 F Correction to spurious co-existence requirements for n28 and n83 16.6.0 2020-12 RAN#90 R5-206643 1044 1 F CR to update DMRS position in UL RMC for FR1 16.6.0 2020-12 RAN#90 R5-206718 1037 1 F Addition of UL CA combinations to maximum output power for Inter-band CA 16.6.0 2020-12 RAN#90 R5-206719 1035 1 F Update of 7.5A.3 Adjacent channel selectivity for 4DL CA 16.6.0 2020-12 RAN#90 R5-206740 1006 1 F Adding NR Band n53 to UE additional maximum output power reduction test cases 16.6.0 2020-12 RAN#90 R5-206741 1008 1 F Adding NS_45 to Additional spurious emissions test case for NR Band n53 16.6.0 2020-12 RAN#90 R5-206742 1020 1 F Update of NR test case 6.2.2 UE MPR for n14 16.6.0 2020-12 RAN#90 R5-206743 1021 1 F Update of NR test case 6.2.3 UE A-MPR for n14 16.6.0 2020-12 RAN#90 R5-206744 1022 1 F Update of NR test case 6.5.3.2 Spurious Emissions for UE Co-Ex for n14 16.6.0 2020-12 RAN#90 R5-206745 1029 1 F Adding A-MPR test for band n30 with NS_21 16.6.0 2020-12 RAN#90 R5-206746 1030 1 F Adding additional Spectrum emission test for band n30 with NS_21 16.6.0 2020-12 RAN#90 R5-206747 1041 1 F Update of NR test case 6.5.2.3 Additional Spectrum Emission Mask for n30 16.6.0 2020-12 RAN#90 R5-206748 1074 1 F Update of Tx test cases to add 40MHz for NR band n38 16.6.0 2020-12 RAN#90 R5-206749 1080 1 F Correction of 6.3.2 for UE transmit OFF power test 16.6.0 2020-12 RAN#90 R5-206750 1096 1 F Adding n26 Tx requirements 16.6.0 2020-12 RAN#90 R5-206751 1009 1 F Adding NR Band n53 Receiver requirements 16.6.0 2020-12 RAN#90 R5-206761 1010 1 F Update of Test case 6.3A.4.1 16.6.0 2020-12 RAN#90 R5-206762 1034 1 F Update of Test case 6.3A.4.3 16.6.0 2020-12 RAN#90 R5-206763 1059 1 F Updating NR test case 7.8A.2.2-Wide band Intermodulation for 3DL CA 16.6.0 2020-12 RAN#90 R5-206764 1078 1 F Addition of 6.2E.1.1 V2X MOP for non-concurrent 16.6.0 2020-12 RAN#90 R5-206765 1079 1 F Addition of 7.3E.2 V2X REFSENS for non-concurrent 16.6.0 2020-12 RAN#90 R5-206766 1063 1 F Update of SEM for PC3 half Pi BPSK DMRS in 6.5.2.2 16.6.0 2020-12 RAN#90 R5-206767 1064 1 F Update of NR ACLR for PC3 half Pi BPSK DMRS in 6.5.2.4.1 16.6.0 2020-12 RAN#90 R5-206768 1067 1 F Addition of new test case 6.5D.3_1.1 general spurious emissions for Rel-16 UL MIMO 16.6.0 2020-12 RAN#90 R5-206863 1060 1 F Update of signalling configuration for almost contiguous allocation across clause 6 16.6.0 2020-12 RAN#90 R5-206864 1053 1 F Updating NR test case REFSENS for 2DL CA 16.6.0 2020-12 RAN#90 R5-206879 1036 1 F Addition of 2UL CA exception to reference sensitivity test case 16.6.0 2020-12 RAN#90 R5-206880 1039 1 F Update of Refsense test case for CA_n1A-n78A into 38.521-1 16.6.0 2020-12 RAN#90 R5-206881 1040 1 F Update of Refsense test case for CA_n1A-n77A into 38.521-1 16.6.0 2020-12 RAN#90 R5-206882 1042 1 F Update of R16 CADC configurations into 38.521-1 clause 5 16.6.0 2020-12 RAN#90 R5-206888 1089 1 F Update for 6.5D.3.3 Additional spurious emissions for UL MIMO 16.6.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2341 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2020-12 RAN#90 R5-206889 1094 1 F Update for 6.5.3.3 Additional spurious emission 16.6.0 2020-12 RAN#90 R5-206890 1012 1 F Update of R16 new band and CBWs into TS 38.521-1 clause 5 16.6.0 2020-12 RAN#90 R5-206891 1033 1 F Update of Test case 6.3A.4.2 16.6.0 2020-12 RAN#90 R5-206892 1054 1 F Updating NR test case REFSENS for 3DL CA 16.6.0 2020-12 RAN#90 R5-206894 1027 1 F Addition of test case 6.5D.1_1, Occupied bandwidth for UL MIMO (Rel-16 onward) 16.6.0 2020-12 RAN#90 R5-206901 1093 1 F Update for 6.5A.3.2 Spurious emission for UE co-existence 16.6.0 2020-12 RAN#90 R5-206912 1091 1 F Update for 6.5A.3.1 General spurious emissions for CA 16.6.0 2021-03 RAN#91 R5-210169 1106 - F Addition of TC 7.3A.0.3.2.4 RIB,c for four bands 16.7.0 2021-03 RAN#91 R5-210170 1107 - F Update of TC 7.7A.3 16.7.0 2021-03 RAN#91 R5-210290 1108 - F Clarification of uplink power measurement uncertainty in test case 6.3.4.3 16.7.0 2021-03 RAN#91 R5-210291 1109 - F Message exceptions definition in test case 6.2.2 16.7.0 2021-03 RAN#91 R5-210384 1114 - F Add TT to power control for UL CA 16.7.0 2021-03 RAN#91 R5-210385 1115 - F Update MU/TT on power control for UL CA 16.7.0 2021-03 RAN#91 R5-210419 1116 - F Addition of new test case 6.4E.2.2.1 Error Vector Magnitude for V2X for non-concurrent operation 16.7.0 2021-03 RAN#91 R5-210423 1118 - F Addition of 6.5E.2.2.1D 16.7.0 2021-03 RAN#91 R5-210424 1119 - F Addition of 6.5E.2.3.1 16.7.0 2021-03 RAN#91 R5-210425 1120 - F Addition of 6.5E.2.3.1D 16.7.0 2021-03 RAN#91 R5-210426 1121 - F Addition of 6.5E.2.4.1 16.7.0 2021-03 RAN#91 R5-210427 1122 - F Addition of 6.5E.2.4.1D 16.7.0 2021-03 RAN#91 R5-210428 1123 - F Addition of 6.5E.3.2.1 16.7.0 2021-03 RAN#91 R5-210429 1124 - F Addition of 6.5E.3.2.1D 16.7.0 2021-03 RAN#91 R5-210485 1125 - F Correction of test purpose for 6.3.2 and 6.3D.2 16.7.0 2021-03 RAN#91 R5-210487 1127 - F Editorial correction for error in Table 7.6.4.4.1-1 16.7.0 2021-03 RAN#91 R5-210539 1129 - F Introduction 4CA Reference Sensitivity test 7.3A.3 16.7.0 2021-03 RAN#91 R5-210540 1130 - F Introduction 4CA Maximum Input Level test 7.4A.3 16.7.0 2021-03 RAN#91 R5-210541 1131 - F Introduction 4CA In-Band Blocking test 7.6A.2.3 16.7.0 2021-03 RAN#91 R5-210723 1133 - F Omitting of FR1 Rx cases with UL-MIMO on TDD bands 16.7.0 2021-03 RAN#91 R5-210782 1136 - F Update of A-MPR minimum requirements for Rel-16 DMRS 16.7.0 2021-03 RAN#91 R5-210787 1139 - F Adding additional TP for half Pi BPSK DMRS to SEM test case for SUL 16.7.0 2021-03 RAN#91 R5-210788 1140 - F Adding additional TP for half Pi BPSK DMRS to NR ACLR test case for SUL 16.7.0 2021-03 RAN#91 R5-210793 1142 - F Update of the test configuration for carrier leakage for SUL 16.7.0 2021-03 RAN#91 R5-210899 1146 - F Removal of the highest SCS from test configuration for Tx spurious emissions for CA 16.7.0 2021-03 RAN#91 R5-210902 1147 - F Updating test case 7.3A.1_1 for 4Rx test requirements 16.7.0 2021-03 RAN#91 R5-210903 1148 - F Editorial correction to clause 7.3.1 16.7.0 2021-03 RAN#91 R5-210906 1150 - F Updating A-SEM for MIMO testing for NS_04 16.7.0 2021-03 RAN#91 R5-210908 1152 - F Updating test applicability of test case 6.5D.2.4.2-UTRA ACLR for UL MIMO 16.7.0 2021-03 RAN#91 R5-210911 1154 - F Correction to test configuration table Test IDs for test case 6.5D.3.3 16.7.0 2021-03 RAN#91 R5-210912 1155 - F Correction to test case 6.2.3 AMPR for NS_24 16.7.0 2021-03 RAN#91 R5-210918 1160 - F Updating MOP and MPR for MIMO testing for several NR bands 16.7.0 2021-03 RAN#91 R5-210919 1161 - F Updating 6.5A.3.1.0 for intra-band CA 16.7.0 2021-03 RAN#91 R5-210920 1162 - F Updating test requirement of CA test cases for CA configurations including n90 16.7.0 2021-03 RAN#91 R5-210922 1164 - F Updating test case 7.6A.4 for band n48 16.7.0 2021-03 RAN#91 R5-210991 1174 - F Update for 7.3.2 Reference sensitivity power level 16.7.0 2021-03 RAN#91 R5-210995 1175 - F Update for 6.5.3.2 Spurious emission for UE co- existence_R15 16.7.0 2021-03 RAN#91 R5-210996 1176 - F Addition of test case 6.5D.2_1.4.2, UTRA ACLR for UL MIMO (Rel-16 onward) 16.7.0 2021-03 RAN#91 R5-211008 1178 - F Update of CA_n1A-n78C into 3DL CA Refsense TC 7.3A.2 16.7.0 2021-03 RAN#91 R5-211026 1180 - F Update of CA_n1A-n78C into 3DL CA maximum input level TC 7.4A.2 16.7.0 2021-03 RAN#91 R5-211037 1181 - F Addition of minimum requirement for intra-band UL CA in the test case 6.4A.2 16.7.0 2021-03 RAN#91 R5-211040 1182 - F Addition of 70M into 38.521-1 TC6.3A.1 16.7.0 2021-03 RAN#91 R5-211041 1183 - F Addition of 70M into 38.521-1 TC6.3D 16.7.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2342 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2021-03 RAN#91 R5-211048 1185 - F Correction to test tolerance for FR1 blocking tests 16.7.0 2021-03 RAN#91 R5-211092 1186 - F Test ID separation to powerBoostPiBPSK 1 and 0 in Table 6.5.2.2.4.1-1 16.7.0 2021-03 RAN#91 R5-211109 1187 - F Corrections to subclauses in 38.521-1 with appropriate subclause level and heading styles 16.7.0 2021-03 RAN#91 R5-211113 1188 - F Corrections to reference figures for transmission bandwidth in FR1 16.7.0 2021-03 RAN#91 R5-211133 1189 - F Addition of ULFPTx in MPR test case 16.7.0 2021-03 RAN#91 R5-211176 1191 - F Reference to measurement BW corrected in 6.5D.4 TX intermodulation test case 16.7.0 2021-03 RAN#91 R5-211274 1195 - F Updating 6.5A.3.2 for CA_n1A-n79A 16.7.0 2021-03 RAN#91 R5-211613 1184 1 F Spurious emissions for UE co-existence update to core specs 16.7.0 2021-03 RAN#91 R5-211657 1192 1 F PC1 and PC3 Updates for Band n14 16.7.0 2021-03 RAN#91 R5-211676 1110 1 F Clarifications for ON/OFF time mask for UL MIMO test case 16.7.0 2021-03 RAN#91 R5-211677 1126 1 F Correction of test frequencies for NR band n28 30MHz test channel bandwidth of CA SUL and UL MIMO test cases in section 6 16.7.0 2021-03 RAN#91 R5-211678 1151 1 F Updating AMPR for MIMO test case for NS_35 16.7.0 2021-03 RAN#91 R5-211679 1153 1 F Correction to RB allocation start for test case 6.3D.4.2 16.7.0 2021-03 RAN#91 R5-211680 1128 1 F Correction of test frequencies for NR band n28 30MHz test channel bandwidth of CA SUL and UL MIMO test cases in section 7 16.7.0 2021-03 RAN#91 R5-211681 1149 1 F Updating test case 7.3C.2-Reference sensitivity power level for SUL 16.7.0 2021-03 RAN#91 R5-211682 1143 1 F Update of clause 5 to R15 TS 38.521-1 16.7.0 2021-03 RAN#91 R5-211764 1113 1 F Update of 7.5A.3 Adjacent channel selectivity for 4DL CA 16.7.0 2021-03 RAN#91 R5-211765 1144 1 F Update of R16 CADC configurations into TS38.521-1 clause 5 16.7.0 2021-03 RAN#91 R5-211786 1134 1 F Correction of test points for NS_48 16.7.0 2021-03 RAN#91 R5-211787 1135 1 F Addition of A-MPR test for NS_49 16.7.0 2021-03 RAN#91 R5-211788 1177 1 F Update for 6.5.3.2 Spurious emission for UE co- existence_R16 16.7.0 2021-03 RAN#91 R5-211804 1172 1 F Updating Editors Note in 6.2A.2 and 6.2A.4 for intra-band UL CA 16.7.0 2021-03 RAN#91 R5-211805 1159 1 F Updating general requirements for intra-band non- contiguous CA 16.7.0 2021-03 RAN#91 R5-211806 1117 1 F Addition of 6.5E.2.2.1 16.7.0 2021-03 RAN#91 R5-211807 1137 1 F Adding test point for Rel-16 DMRS in EVM equalizer spectrum flatness test case 16.7.0 2021-03 RAN#91 R5-211808 1141 1 F Addition of new test case 6.4C.2.5 EVM equalizer spectrum flatness for half Pi BPSK DMRS for SUL 16.7.0 2021-03 RAN#91 R5-211911 1165 1 F Adding NR test case-Time mask for Uplink carriers switching 16.7.0 2021-03 RAN#91 R5-211912 1166 1 F Adding MU and TT for Uplink carriers switching testing 16.7.0 2021-03 RAN#91 R5-211915 1138 1 F Adding additional TP for half Pi BPSK DMRS to MPR test case for SUL 16.7.0 2021-03 RAN#91 R5-210804 1145 - F Update of R17 CADC configurations into TS38.521-1 clause 5 17.0.0 2021-03 RAN#91 R5-210932 1169 - F Updating Additional spurious emissions testing for SUL band n83 and n84 17.0.0 2021-03 RAN#91 R5-210933 1170 - F Updating clause 6.2C.2 for Rel-17 SUL combinations 17.0.0 2021-03 RAN#91 R5-210934 1171 - F Updating REFSENS for SUL for new R17 configurations 17.0.0 2021-03 RAN#91 R5-211174 1190 - F Addition of R17 new CBWs into 38.521-1 clause 5 17.0.0 2021-03 RAN#91 R5-211837 1167 1 F Updating MPR testing for SUL band n83 17.0.0 2021-03 RAN#91 R5-211838 1168 1 F Updating AMPR testing for SUL band n83 and n84 17.0.0 2021-06 RAN#92 R5-212029 1198 - F Updating clause 6.2C.2 for Rel-17 SUL combinations 17.1.0 2021-06 RAN#92 R5-212168 1201 - F Removal of technical content in 38.521-1 v16.7.0 and substitution with pointer to the next Release 17.1.0 2021-06 RAN#92 R5-212340 1216 - F Typos in references of clause 6.5.3.2 17.1.0 2021-06 RAN#92 R5-212619 1218 - F Correction to A-MPR test ID for NS_24 in TC6.2.3 17.1.0 2021-06 RAN#92 R5-212668 1220 - F Correction of A-MPR test requirements for NS_04 band n41 17.1.0 2021-06 RAN#92 R5-212671 1222 - F Addition of A-MPR test requirements for NS_03 band n70 17.1.0 2021-06 RAN#92 R5-212682 1227 - F Update of 70M CBW into TC 6.3D.3 17.1.0 2021-06 RAN#92 R5-212704 1228 - F Update of 70M CBW into TC 6.3.3.2 17.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2343 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2021-06 RAN#92 R5-212739 1229 - F Update of V2X in Section 5 17.1.0 2021-06 RAN#92 R5-212740 1230 - F Update to FR1 test case title in clause 6 17.1.0 2021-06 RAN#92 R5-212741 1231 - F Update to FR1 test case title in clause 7 17.1.0 2021-06 RAN#92 R5-212839 1235 - F Update of clause 3 for symbols and abbreviations 17.1.0 2021-06 RAN#92 R5-212856 1240 - F Correction of the test step number in the test requirement section 17.1.0 2021-06 RAN#92 R5-212914 1241 - F Editorial correction of 6.2.1 17.1.0 2021-06 RAN#92 R5-212926 1243 - F Addition of 6.1E General section 17.1.0 2021-06 RAN#92 R5-212927 1244 - F Addition of 6.2E.2.1 V2X MPR non-concurrent 17.1.0 2021-06 RAN#92 R5-212928 1245 - F Addition of 6.3E.1.1 V2X minimum output power non- concurrent 17.1.0 2021-06 RAN#92 R5-212969 1246 - F Updating AMPR for SUL test case for n84 17.1.0 2021-06 RAN#92 R5-212970 1247 - F Updating UTRA ACLR for SUL testing for n84 17.1.0 2021-06 RAN#92 R5-212971 1248 - F Updating test case 7.6C.2 Inband Blocking for SUL 17.1.0 2021-06 RAN#92 R5-212972 1249 - F Updating test case 7.6C.3 Out-of-band blocking for SUL 17.1.0 2021-06 RAN#92 R5-212974 1251 - F Updating H.2.2 for NR SA FR1 testing 17.1.0 2021-06 RAN#92 R5-212979 1252 - F Correction to RB allocations for test case 6.2.3 A-MPR for NS_46 17.1.0 2021-06 RAN#92 R5-212980 1253 - F Updating test case general spurious emission for CA_n28A- n41A 17.1.0 2021-06 RAN#92 R5-212981 1254 - F Updating Spurious emission for UE co-existence for CA_n28A-n41A 17.1.0 2021-06 RAN#92 R5-212983 1255 - F Updating Transmitter power for CA requirements for CA_n28A-n41A 17.1.0 2021-06 RAN#92 R5-212988 1257 - F Updating 6.2D.3 A-MPR for UL MIMO for band n1 17.1.0 2021-06 RAN#92 R5-212989 1258 - F Updating UTRA ACLR for MIMO testing for NR band n1 17.1.0 2021-06 RAN#92 R5-212992 1260 - F Updating 6.2C.2 for new R17 SUL configurations 17.1.0 2021-06 RAN#92 R5-212993 1261 - F Updating test case 6.2A.1 MOP for CA for R17 configuration CA_n28A-n79A 17.1.0 2021-06 RAN#92 R5-212994 1262 - F Correction to wrong RB allocations in NR test case 6.5C.3.3 17.1.0 2021-06 RAN#92 R5-212998 1265 - F Updating test case 7.3C.2 REFSENS for SUL for new R17 SUL configurations 17.1.0 2021-06 RAN#92 R5-212999 1266 - F Updating REFSENS for SUL 3CC testing for new R17 SUL configurations 17.1.0 2021-06 RAN#92 R5-213000 1267 - F Updating 7.6C.3 Out-of-band blocking for SUL_n79A-n83A 17.1.0 2021-06 RAN#92 R5-213015 1270 - F Updating test description to enable DFT-s-OFDM modulation across clause 6 17.1.0 2021-06 RAN#92 R5-213016 1271 - F Updating message contents to enable DFT-s-OFDM modulation in 7.3 refsens 17.1.0 2021-06 RAN#92 R5-213058 1275 - F Update of test configuration for UTRA ACLR for Rel-16 UL MIMO 17.1.0 2021-06 RAN#92 R5-213100 1278 - F Updating 6.5D.3_1.3 Additional spurious emissions for UL MIMO Rel-16 onward for NR band n1 17.1.0 2021-06 RAN#92 R5-213101 1279 - F Correction to Reference sensitivity test requirements in DL CA 17.1.0 2021-06 RAN#92 R5-213102 1280 - F Corrections to band n70 reference sensitivity testing 17.1.0 2021-06 RAN#92 R5-213160 1285 - F Correction to Message Contents Condition for NR ACLR 17.1.0 2021-06 RAN#92 R5-213882 1202 1 F Change Editors note in 6.2D.2 17.1.0 2021-06 RAN#92 R5-213883 1208 1 F Update p-Max of PCC to 6.2A.1.1 17.1.0 2021-06 RAN#92 R5-213884 1209 1 F Update p-Max of PCC to 6.2A.2.1 17.1.0 2021-06 RAN#92 R5-213885 1210 1 F Update p-Max of PCC to 6.5A.1.1 17.1.0 2021-06 RAN#92 R5-213886 1211 1 F Update p-Max of PCC to out of band emission for CA 17.1.0 2021-06 RAN#92 R5-213887 1212 1 F Update p-Max of PCC to spurious emission for CA 17.1.0 2021-06 RAN#92 R5-213888 1213 1 F Correct message content to 6.2A.4.1 17.1.0 2021-06 RAN#92 R5-213889 1214 1 F Cleanup for TS 38.521-1spurious emission for UE co- existence table (non CA) 17.1.0 2021-06 RAN#92 R5-213890 1215 1 F Cleanup for TS 38.521-1 spurious emission for UE co- existence table (CA Bands) 17.1.0 2021-06 RAN#92 R5-213891 1221 1 F Correction of A-MPR and A-SEM test requirements for NS_06 band n12 17.1.0 2021-06 RAN#92 R5-213892 1242 1 F Addition of A-MPR NS_10 test 17.1.0 2021-06 RAN#92 R5-213893 1250 1 F Updating NR SA test frequency selection for NR band n28 17.1.0 2021-06 RAN#92 R5-213894 1224 1 F Update of R15 38.521-1 clause 5 17.1.0 2021-06 RAN#92 R5-213970 1256 1 F Updating test case REFSENS for CA for CA_n28A-n41A 17.1.0 2021-06 RAN#92 R5-213971 1272 1 F Corrections to NR Rx CA cases 17.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2344 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2021-06 RAN#92 R5-213972 1284 1 F Update of CA_n1A-n78C into 3DL CA TCs in 38.521-1 17.1.0 2021-06 RAN#92 R5-213978 1232 1 F Correction of 6.5.1 for test of channel occupied bandwidth 17.1.0 2021-06 RAN#92 R5-213979 1233 1 F Correction of 6.5.2.2 for test of spectrum emission mask 17.1.0 2021-06 RAN#92 R5-213980 1234 1 F Correction of 6.5.2.4 for test of adjacent channel leakage ratio 17.1.0 2021-06 RAN#92 R5-213981 1282 1 F Update of 70M CBW into TC 6.3.3.4 PRACH time mask 17.1.0 2021-06 RAN#92 R5-213982 1283 1 F Update of 70M CBW into 38.521-1 TC 6.3A.4.1 17.1.0 2021-06 RAN#92 R5-213983 1223 1 F Update of R16 new CBW configurations into TS38.521-1 clause 5 17.1.0 2021-06 RAN#92 R5-213995 1239 1 F Update of minimum conformance requirements for Occupied bandwidth for CA in TC 6.5A.1 17.1.0 2021-06 RAN#92 R5-213998 1203 1 F Update of 6.5E.2.2.1 17.1.0 2021-06 RAN#92 R5-213999 1204 1 F Update of 6.5E.2.3.1 17.1.0 2021-06 RAN#92 R5-214000 1205 1 F Update of 6.5E.2.4.1 17.1.0 2021-06 RAN#92 R5-214001 1206 1 F Update of 6.5E.3.2.1 17.1.0 2021-06 RAN#92 R5-214002 1207 1 F Addition of 6.5E.3.3.1 17.1.0 2021-06 RAN#92 R5-214003 1236 1 F Addition of new test case 6.4E.2.2.1D Error Vector Magnitude for V2X for non-concurrent operation SL-MIMO 17.1.0 2021-06 RAN#92 R5-214004 1237 1 F Addition of new test case 6.4E.2.4.1 In band emissions for V2X for non-concurrent operation 17.1.0 2021-06 RAN#92 R5-214005 1238 1 F Addition of new test case 6.4E.2.4.1D In band emissions for V2X for non-concurrent operation SL-MIMO 17.1.0 2021-06 RAN#92 R5-214007 1274 1 F Test case 6.2D.4 updated for ULFPTx 17.1.0 2021-06 RAN#92 R5-214021 1199 1 F Updating clause 7.3C for Rel-17 SUL combinations 17.1.0 2021-06 RAN#92 R5-214022 1263 1 F Updating REFSENS for CA test case for CA_n28A-n79A 17.1.0 2021-06 RAN#92 R5-214023 1268 1 F Adding new test case 7.6C.2_1 Inband Blocking for SUL and DL CA 17.1.0 2021-06 RAN#92 R5-214024 1269 1 F Adding new test case 7.6C.3_1 Out-of-band blocking for SUL and DL CA 17.1.0 2021-06 RAN#92 R5-214025 1226 1 F Update of R17 CADC configurations into TS38.521-1 clause 5 17.1.0 2021-06 RAN#92 R5-214110 1225 1 F Update of R16 new CADC configurations into TS38.521-1 clause 5 17.1.0 2021-09 RAN#93 R5-214221 1288 - F Updating clause 6.2C.2 for Rel-17 SUL combinations in TS 38.521-1 17.2.0 2021-09 RAN#93 R5-214224 1289 - F Update clause 7 for R17 CA and SUL RX characteristics in TS 38.521-1 17.2.0 2021-09 RAN#93 R5-214476 1294 - F Addition of Configured Tx Power Minimum Conformance Requirements for n41 Power Class 1.5 17.2.0 2021-09 RAN#93 R5-214477 1295 - F Addition of MOP for UL MIMO Minimum Conformance Requirements for n41 Power Class 1.5 17.2.0 2021-09 RAN#93 R5-214479 1297 - F Update of NR ACLR Test Requirement for n41 Power Class 1.5 17.2.0 2021-09 RAN#93 R5-214598 1305 - F Addition of reference section for TDD DL reference measurement channels in 7.1 17.2.0 2021-09 RAN#93 R5-214599 1306 - F Correction of test SCS in the test configuration table 17.2.0 2021-09 RAN#93 R5-214600 1307 - F Correction of Test Frequencies in the test configuration table 17.2.0 2021-09 RAN#93 R5-214601 1308 - F Correction of Test Frequencies for NR band n28 and30MHz test channel bandwidth in the test configuration table 17.2.0 2021-09 RAN#93 R5-214603 1310 - F Unify the Terminology of normal condition in the test configuration tables 17.2.0 2021-09 RAN#93 R5-214604 1311 - F Correction of subclause titles with appropriate styles 17.2.0 2021-09 RAN#93 R5-215043 1313 - F Correcting test frequencies in test case 6.2D.4 17.2.0 2021-09 RAN#93 R5-215073 1316 - F Addition of 6.2E.1.1D MOP for non-concurrent with SL- MIMO 17.2.0 2021-09 RAN#93 R5-215074 1317 - F Addition of 6.2E.2.1D MPR for non-concurrent with SL- MIMO 17.2.0 2021-09 RAN#93 R5-215075 1318 - F Addition of 6.3E.1.1D Minimum output power for non- concurrent with SL-MIMO 17.2.0 2021-09 RAN#93 R5-215080 1319 - F Addition of NR ACLR for intra-band CA 17.2.0 2021-09 RAN#93 R5-215165 1321 - F Correction of test frequencies for A-MPR NS_47 17.2.0 2021-09 RAN#93 R5-215185 1323 - F Update of 6.2D.2 MPR for UL MIMO with supporting ULFPTx 17.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2345 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2021-09 RAN#93 R5-215214 1331 - F Corrections on power tolerance for intra-band contiguous CA 17.2.0 2021-09 RAN#93 R5-215282 1334 - F Introduction of CA_n71(2A) to Rx cases 17.2.0 2021-09 RAN#93 R5-215284 1335 - F Updating message contents for SUL test cases 17.2.0 2021-09 RAN#93 R5-215285 1336 - F Removal of SUL band in NR single-carrier test cases 17.2.0 2021-09 RAN#93 R5-215286 1337 - F Editorial correction to test case 6.2A.1 and 6.2A.2 17.2.0 2021-09 RAN#93 R5-215287 1338 - F Correction to test procedure of test case 6.5.2.3 Additional SEM 17.2.0 2021-09 RAN#93 R5-215297 1339 - F Updating the test requirement of NR test case MPR for MIMO 17.2.0 2021-09 RAN#93 R5-215298 1340 - F Updating NR test case 6.2A.1 MOP for intra-band non- contiguous UL CA 17.2.0 2021-09 RAN#93 R5-215305 1344 - F Updating test case 6.5A.1.1 occupied bandwidth for intra- band CA 17.2.0 2021-09 RAN#93 R5-215307 1345 - F Updating test case 6.3A.2 Transmit OFF power for intra- band non-contiguous UL CA 17.2.0 2021-09 RAN#93 R5-215311 1346 - F Updating MOP testing for SUL band n97 17.2.0 2021-09 RAN#93 R5-215312 1347 - F Updating MPR testing for SUL band n97 17.2.0 2021-09 RAN#93 R5-215332 1350 - F Update of requirement for spurious emission test case in 6.5A.3.2.1 17.2.0 2021-09 RAN#93 R5-215334 1352 - F Correction of A-MPR test configuration for NS_27 in 6.2.3 17.2.0 2021-09 RAN#93 R5-215335 1353 - F Correction of A-SPR test configuration for NS_17 in 6.5.3.3 17.2.0 2021-09 RAN#93 R5-215373 1354 - F Update Test applicability to FR1 TC 6.3C.2 17.2.0 2021-09 RAN#93 R5-215406 1359 - F Update of CBW 70MHz into TC 6.3.4.2 absolute power tolerance 17.2.0 2021-09 RAN#93 R5-215438 1360 - F Update of CBW 70MHz into TC 6.3.4.3 relative power tolerance 17.2.0 2021-09 RAN#93 R5-215439 1361 - F Update of CBW 70MHz into TC 6.3A.3.1 17.2.0 2021-09 RAN#93 R5-215463 1366 - F Correct the abbreviations for network signalling value in 38.521-1 17.2.0 2021-09 RAN#93 R5-215472 1368 - F Correction of test configuration in test case 6.5.2.2.2 17.2.0 2021-09 RAN#93 R5-215513 1372 - F Update of CBW 70MHz into TC 6.3A.3.1_1 17.2.0 2021-09 RAN#93 R5-215562 1374 - F Introduction of Reference sensitivity for NR-U 17.2.0 2021-09 RAN#93 R5-215564 1376 - F Introduction of Spectrum emission mask for NR-U 17.2.0 2021-09 RAN#93 R5-215573 1378 - F Update for 6.5.4 Transmit intermodulation 17.2.0 2021-09 RAN#93 R5-215845 1315 1 F Correction of UTRA ACLR for inter-band CA 17.2.0 2021-09 RAN#93 R5-215846 1320 1 F Adding A-MPR NS_06 test case for band 14 power class 1 17.2.0 2021-09 RAN#93 R5-215847 1312 1 F Update of FR1 UL RMCs 17.2.0 2021-09 RAN#93 R5-215929 1356 1 F Update of R16 new CBW configurations into TS38.521-1 clause 5 17.2.0 2021-09 RAN#93 R5-215962 1325 1 B Introduction of MOP, MPR and configured Tx power test cases for n24 and n99 17.2.0 2021-09 RAN#93 R5-215963 1327 1 B Introduction of n24 and n99 to spurious emissions and addition spurious emission test cases 17.2.0 2021-09 RAN#93 R5-215964 1348 1 F Updating Spurious emissions for UE co-existence test cases for R17 requirements 17.2.0 2021-09 RAN#93 R5-215965 1328 1 B Introduction of n24 to receiver sensitivity test cases 17.2.0 2021-09 RAN#93 R5-215966 1329 1 B Introduction of n24 - blocking test cases 17.2.0 2021-09 RAN#93 R5-215967 1358 1 F Update of R17 new band and CBWs into TS38.521-1 clause 5 17.2.0 2021-09 RAN#93 R5-215983 1292 1 F Introduction of NR-U MOP test case 17.2.0 2021-09 RAN#93 R5-215984 1293 1 F Introduction of NR-U in general clauses 17.2.0 2021-09 RAN#93 R5-215985 1375 1 F Introduction of general spurious emission for NR-U 17.2.0 2021-09 RAN#93 R5-215986 1298 1 F Update of Tx test cases for PC2 CA_n3A-n41A with UL CA_n3A-n41A 17.2.0 2021-09 RAN#93 R5-215987 1299 1 F Update of Tx test cases for PC2 CA_n28A-n79A with UL CA_n28A-n79A 17.2.0 2021-09 RAN#93 R5-215988 1300 1 F Update of Tx test cases for PC2 CA_n28A-n41A with UL CA_n28A-n41A 17.2.0 2021-09 RAN#93 R5-215989 1301 1 F Update of Tx test cases for PC2 CA_n40A-n41A with UL CA_n40A-n41A 17.2.0 2021-09 RAN#93 R5-215990 1302 1 F Update of Tx test cases for PC2 CA_n3A-n41A with UL PC2 n41A 17.2.0 2021-09 RAN#93 R5-215991 1303 1 F Update of Tx test cases for PC2 CA_n28A-n79A with UL PC2 n79A 17.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2346 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2021-09 RAN#93 R5-215992 1304 1 F Update of Tx test cases for PC2 CA_n28A-n41A with UL PC2 n41A 17.2.0 2021-09 RAN#93 R5-215999 1296 1 F Addition of MOP for UL MIMO Test Requirements for n41 Power Class 1.5 17.2.0 2021-09 RAN#93 R5-216000 1369 1 F Adding Power Class 1.5 for LTE Band 41and NR Band n41 MOP 17.2.0 2021-09 RAN#93 R5-216001 1370 1 F Adding Power Class 1.5 for LTE Band 41and NR Band n41 MPR 17.2.0 2021-09 RAN#93 R5-216002 1371 1 F Adding Power Class 1.5 for LTE Band 41and NR Band n41 A-MPR 17.2.0 2021-09 RAN#93 R5-216029 1290 1 F Update of NR FR1 General ON-OFF time mask test case 17.2.0 2021-09 RAN#93 R5-216030 1291 1 F Update of NR FR1 SRS time mask test case 17.2.0 2021-09 RAN#93 R5-216031 1330 1 F Cleanup for spurious emission for UE co-existence table 17.2.0 2021-09 RAN#93 R5-216032 1332 1 F Update intra-band CA to 6.2A.2.1 17.2.0 2021-09 RAN#93 R5-216033 1373 1 F Update to the coherent UL-MIMO test case 17.2.0 2021-09 RAN#93 R5-216034 1377 1 F Correction to test applicability for different NS value 17.2.0 2021-09 RAN#93 R5-216035 1351 1 F Correction to test configuration in 7.3A.1 17.2.0 2021-09 RAN#93 R5-216065 1341 1 F Updating test case 6.3A.4.1 Absolute power tolerance for intra-band non-contiguous UL CA 17.2.0 2021-09 RAN#93 R5-216066 1342 1 F Updating test case 6.3A.4.2 Relative power tolerance for intra-band non-contiguous UL CA 17.2.0 2021-09 RAN#93 R5-216067 1343 1 F Updating test case 6.3A.4.3 Aggregate power tolerance for intra-band non-contiguous UL CA 17.2.0 2021-09 RAN#93 R5-216080 1357 1 F Update of R17 CADC configurations into TS38.521- 1 clause 5 17.2.0 2021-09 RAN#93 R5-216084 1333 1 F Update p-Max of PCC of intra-band CA to 6.5A.1.1 17.2.0 2021-09 RAN#93 R5-216085 1364 1 F Correction of 6.2.3 for UE additional maximum output power reduction 17.2.0 2021-09 RAN#93 R5-216086 1365 1 F Correction of 6.2.1 for UE capability IE for maximum output power 17.2.0 2021-09 RAN#93 R5-216107 1363 1 F Update of 6.2A.1 for UE maximum output power for CA 17.2.0 2021-09 RAN#93 R5-216110 1362 1 F Update of 6.3.3.6 for SRS time mask test for BW 70MHz 17.2.0 2021-09 RAN#93 R5-216114 1326 1 B Introduction of A-MPR test cases for n24 and n99 17.2.0 2021-09 RAN#93 R5-216141 1322 1 F Correction to IE and UE capability for low PAPR DMRS across Tx cases 17.2.0 2021-12 RAN#94 R5-216512 1391 - F Updates on FR1 On-Off time mask for UL MIMO test 6.3D.3 upon RAN4 clarifications 17.3.0 2021-12 RAN#94 R5-216514 1392 - F Editorial corrections for NS_47 in A-MPR FR1 test 6.2.3 17.3.0 2021-12 RAN#94 R5-216515 1393 - F Corrections for NS_27 in A-MPR FR1 test 6.2.3 17.3.0 2021-12 RAN#94 R5-216533 1399 - F Addition of asymmetric channel bandwidths for n24 17.3.0 2021-12 RAN#94 R5-217111 1410 - F Clarifications for inter-band testing in 7.4.A.1 2DL CA MIL test 17.3.0 2021-12 RAN#94 R5-217112 1411 - F Clarifications for inter-band testing in 7.5.A.1 2DL CA ACS test 17.3.0 2021-12 RAN#94 R5-217199 1412 - F Update for 6.3.3.1 Transmit ON/OFF time mask general 17.3.0 2021-12 RAN#94 R5-217200 1413 - F Update for 6.3.3.6 SRS time mask 17.3.0 2021-12 RAN#94 R5-217202 1415 - F Addition of Annex E.4.7 Modified signal under test 17.3.0 2021-12 RAN#94 R5-217215 1416 - F Correction to IE and UE capability for low PAPR DMRS 17.3.0 2021-12 RAN#94 R5-217216 1417 - F Removal of low PAPR test points from 6.2.3 A-MPR 17.3.0 2021-12 RAN#94 R5-217234 1418 - F Introduction of ACLR for NR-U 17.3.0 2021-12 RAN#94 R5-217235 1419 - F Introduction of 7.3F.3 for NR-U 17.3.0 2021-12 RAN#94 R5-217261 1421 - F Addition of CA_n26A-66A, CA_n26A-70A, CA_n48A-66A, CA_n48A-70A and CA_n48A-n71A to the UL CA Maximum output power and Tx Spurious emissions 17.3.0 2021-12 RAN#94 R5-217262 1422 - F Addition of Reference Sensitivity test for CA combinations CA_n26A-66A, CA_n26A-70A, CA_n48A-66A and CA_n48A-70A 17.3.0 2021-12 RAN#94 R5-217263 1423 - F Addition of intra-band non-contiguous + intra-band non- contiguous to 4CA Reference sensitivity, Maximum input level and blocking cases 17.3.0 2021-12 RAN#94 R5-217427 1431 - F Correction to test configuration of NS_49 in 6.2.3 17.3.0 2021-12 RAN#94 R5-217476 1437 - F Cleaning up General sections of NR SA test cases 17.3.0 2021-12 RAN#94 R5-217479 1440 - F Correction to PDCCH DCI format for test case 6.4A.2.3.1 17.3.0 2021-12 RAN#94 R5-217482 1443 - F Update to test case Transmit ON/OFF time mask for SUL 17.3.0 2021-12 RAN#94 R5-217485 1446 - F Updating title of clause 6.4D 17.3.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2347 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2021-12 RAN#94 R5-217487 1448 - F Adding intra-band contiguous CA non-contiguous RB allocations in 6.1A 17.3.0 2021-12 RAN#94 R5-217492 1453 - F Updating 6.3A.4.3 Aggregate power tolerance for intra-band CA 17.3.0 2021-12 RAN#94 R5-217552 1455 - F Addition of n3 CBW 50MHz into TC 7.3.2 Reference sensitivity power level 17.3.0 2021-12 RAN#94 R5-217553 1456 - F Editorial cleanup of message exceptions in PRACH time mask 17.3.0 2021-12 RAN#94 R5-217608 1463 - F Update to 5G V2X RMCs 17.3.0 2021-12 RAN#94 R5-217609 1464 - F Correction to 5G V2X RF tests 17.3.0 2021-12 RAN#94 R5-217631 1466 - F Update of R16 new band and CBWs into TS38.521-1 clause 5 17.3.0 2021-12 RAN#94 R5-217660 1469 - F Update of R17 new band and CBWs into TS38.521-1 clause 5 17.3.0 2021-12 RAN#94 R5-217665 1471 - F Update of CBW 70MHz into TC 6.3D.4.2 17.3.0 2021-12 RAN#94 R5-217686 1477 - F Update of R16 CADC configurations into TS38.521-1 clause 5 17.3.0 2021-12 RAN#94 R5-217746 1478 - F Update 7.5A.3 Adjacent channel selectivity for 4DL CA within RF1 17.3.0 2021-12 RAN#94 R5-218223 1379 1 F Update of 6.3.3.4 PRACH time mask 17.3.0 2021-12 RAN#94 R5-218224 1408 1 F Corrections for CA MPR table reference 17.3.0 2021-12 RAN#94 R5-218225 1420 1 F 6.5.3 Spurious emissions-Editorial correction 17.3.0 2021-12 RAN#94 R5-218226 1433 1 F Correction to the number of HARQ process for PUCCH format 3 with FDD condition 17.3.0 2021-12 RAN#94 R5-218227 1438 1 F Updating SRS time mask test case 17.3.0 2021-12 RAN#94 R5-218228 1439 1 F Correction to PDCCH DCI format for test case 6.4.2.3 17.3.0 2021-12 RAN#94 R5-218229 1441 1 F Correction to NR test case 6.4A.1.1 - Frequency error for CA 17.3.0 2021-12 RAN#94 R5-218230 1442 1 F Update to NR FR1 ON-OFF time mask for CA (2UL CA) 17.3.0 2021-12 RAN#94 R5-218232 1475 1 F Update of NR FR1 TC 6.3A.3 Transmit ON/OFF time mask for CA 17.3.0 2021-12 RAN#94 R5-218233 1432 1 F Correction to the periodicity of CSI-RS for tracking 17.3.0 2021-12 RAN#94 R5-218280 1470 1 F Update of CBW 70MHz into TC 6.3D.4.1 17.3.0 2021-12 RAN#94 R5-218281 1473 1 F Update of CBW 70MHz into 6.5A of 38.521-1 17.3.0 2021-12 RAN#94 R5-218282 1474 1 F Update of CBW 70MHz into 6.5C of 38.521-1 17.3.0 2021-12 RAN#94 R5-218292 1450 1 F Updating 6.2A.4 Configured output power for intra-band UL CA 17.3.0 2021-12 RAN#94 R5-218300 1401 1 F Update to test case 6.4E.2.4.1 In-band emissions for V2X / non-concurrent operation 17.3.0 2021-12 RAN#94 R5-218301 1402 1 F Update to test case 6.4E.2.4.1D In-band emissions for V2X / non-concurrent operation / SL-MIMO 17.3.0 2021-12 RAN#94 R5-218302 1403 1 F Addition of new test case 6.4E.2.4.2 In-band emissions for V2X / con-current operation 17.3.0 2021-12 RAN#94 R5-218303 1404 1 F Addition of new test case 6.4E.2.5.1 EVM equalizer spectrum flatness for V2X / non-concurrent operation 17.3.0 2021-12 RAN#94 R5-218304 1405 1 F Addition of new test case 6.4E.2.5.1D EVM equalizer spectrum flatness for V2X / non-concurrent operation / SL- MIMO 17.3.0 2021-12 RAN#94 R5-218305 1406 1 F Addition of new test case 6.4E.2.5.2 EVM equalizer spectrum flatness for V2X / con-current operation 17.3.0 2021-12 RAN#94 R5-218362 1397 1 F Updates to A-MPR test case for n24 and n99 17.3.0 2021-12 RAN#94 R5-218363 1398 1 F Updates to additional spurious emission test case for n24 and n99 17.3.0 2021-12 RAN#94 R5-218365 1467 1 F Update of R17 CADC configurations into TS38.521-1 clause 5 17.3.0 2021-12 RAN#94 R5-218373 1425 1 F Update of MOP test cases for PC2 CA_n3A-n78A with UL CA_n3A-n78A 17.3.0 2021-12 RAN#94 R5-218379 1380 1 F Update of PC1.5 n41 MOP test requirement 17.3.0 2021-12 RAN#94 R5-218380 1381 1 F Adding Power Class 1.5 for NR Band n79 MOP 17.3.0 2021-12 RAN#94 R5-218381 1382 1 F Introduction of PC1.5 n79 MOP for UL MIMO 17.3.0 2021-12 RAN#94 R5-218382 1383 1 F Introduction of PC1.5 n79 MPR 17.3.0 2021-12 RAN#94 R5-218383 1384 1 F Introduction of PC2 n34 MOP 17.3.0 2021-12 RAN#94 R5-218384 1385 1 F Introduction of PC2 n34 MOP for UL MIMO 17.3.0 2021-12 RAN#94 R5-218385 1386 1 F Introduction of PC2 n34 MPR 17.3.0 2021-12 RAN#94 R5-218386 1387 1 F Introduction of PC2 n39 MOP 17.3.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2348 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2021-12 RAN#94 R5-218387 1388 1 F Introduction of PC2 n39 MOP for UL MIMO 17.3.0 2021-12 RAN#94 R5-218388 1389 1 F Introduction of PC2 n39 MPR 17.3.0 2021-12 RAN#94 R5-218389 1390 1 F Introduction of PC2 n39 A-MPR for NS_50 17.3.0 2021-12 RAN#94 R5-218411 1468 1 F Introduction of NR-U A-MPR test case 17.3.0 2021-12 RAN#94 R5-218416 1409 1 F Clarifications on additional UE co-ex requirements for 2 Band UL CA 17.3.0 2021-12 RAN#94 R5-218417 1429 1 F Update of 6.2.2 for UE maximum output power reduction 17.3.0 2021-12 RAN#94 R5-218418 1430 1 F Update of 6.2.3.3.28 for alignment of NS_56 with RAN4 specification 17.3.0 2021-12 RAN#94 R5-218419 1444 1 F Update to test case Transmit ON/OFF time mask for UL MIMO 17.3.0 2021-12 RAN#94 R5-218420 1445 1 F Updating test applicability to FR1 test cases 17.3.0 2021-12 RAN#94 R5-218421 1465 1 F Update of A-MPR NS_04 for band n41 17.3.0 2021-12 RAN#94 R5-218422 1476 1 F 38.521-1_Corrections of test cases having impact on ETSI EN 301 908 25 17.3.0 2021-12 RAN#94 R5-218423 1435 1 F Updating 7.3A.2 Reference sensitivity for CA_n1A-n78A- n79A 17.3.0 2021-12 RAN#94 R5-218456 1434 1 F Addition of UE co-existence requirements for band n40 to TS 38.521-1 17.3.0 2021-12 RAN#94 R5-218457 1449 1 F Updating 6.2A.2 MPR for CA test case for intra-band UL CA 17.3.0 2021-12 RAN#94 R5-218458 1451 1 F Updating 6.3A.4.1 Absolute power tolerance for intra-band CA 17.3.0 2021-12 RAN#94 R5-218459 1454 1 F Updating 6.5A.1.1 Occupied bandwidth for CA 17.3.0 2021-12 RAN#94 R5-218471 1462 1 F Addition of CA_n1A-n3A into TC 7.3A Reference sensitivity for CA 17.3.0 2021-12 RAN#94 R5-218476 1424 1 F Update of MOP test cases for PC2 CA_n1A-n78A with UL CA_n1A-n78A 17.3.0 2021-12 RAN#94 R5-218477 1394 1 F PC1.5 MPR n77 n78 17.3.0 2021-12 RAN#94 R5-218478 1395 1 F PC1.5 MOP n77 n78 17.3.0 2021-12 RAN#94 R5-218481 1414 1 F Introduction of new test case 6.4.2.1a 17.3.0 2022-03 RAN#95 R5-220071 1481 - F Addition of Test description and Test requirement for 6.3A.2.1 Transmit OFF power for 2UL CA 17.4.0 2022-03 RAN#95 R5-220072 1482 - F Correction of Table number in step 4 of 6.3A.4.2.1.4.1 17.4.0 2022-03 RAN#95 R5-220073 1483 - F Correction of Test SCS in Table 6.2D.2.4.1-1 17.4.0 2022-03 RAN#95 R5-220074 1484 - F Addition of missing clause titles for 6.5B, 6.5D.2_1.4 and 6.5D.2_1.4.1 17.4.0 2022-03 RAN#95 R5-220075 1485 - F Correction of clause title styles 17.4.0 2022-03 RAN#95 R5-220076 1486 - F Correction of Test SCS in Table 7.3C.2.4.1-1 17.4.0 2022-03 RAN#95 R5-220077 1487 - F Correction of style in Table 7.4D.4.1-1 17.4.0 2022-03 RAN#95 R5-220078 1488 - F Correction of Test frequency in Table 7.6C.3_1.1.4.1-1 17.4.0 2022-03 RAN#95 R5-220080 1489 - F Adding additional tolerance to test requirement of Transmitter power test cases 17.4.0 2022-03 RAN#95 R5-220081 1490 - F Removal of Editor note about PC1 requirements in Rel-15 and Rel-16 17.4.0 2022-03 RAN#95 R5-220082 1491 - F Correction of table numbers in 7.6C.2_1.1 and 7.6C.3_1.1 17.4.0 2022-03 RAN#95 R5-220084 1493 - F Introduction of new V2X test cases in 7.6E 17.4.0 2022-03 RAN#95 R5-220086 1495 - F Introduction of new V2X test cases in 7.8E 17.4.0 2022-03 RAN#95 R5-220138 1497 - F Update test requirements of PC2 n34 MOP for UL MIMO 17.4.0 2022-03 RAN#95 R5-220139 1498 - F Update test requirements of PC2 n39 MOP for UL MIMO 17.4.0 2022-03 RAN#95 R5-220249 1510 - F Corrected REFSENS reference in SUL Frequency error test 17.4.0 2022-03 RAN#95 R5-220250 1511 - F Correction of test requirements in spurious test 7.7D 17.4.0 2022-03 RAN#95 R5-220251 1512 - F DL RMC correction for TDD SCS 60kHz 17.4.0 2022-03 RAN#95 R5-220252 1513 - F Editorial correction to minimum requirements in test 6.2D.2 17.4.0 2022-03 RAN#95 R5-220253 1514 - F General corrections in FR1 6.3A.3.1 ONOFF time mask CA 17.4.0 2022-03 RAN#95 R5-220254 1515 - F Frequency correction for NS_27 in A-MPR test 17.4.0 2022-03 RAN#95 R5-220255 1516 - F n71 IBNC - UL allocation correction for testing REFSENS without exceptions 17.4.0 2022-03 RAN#95 R5-220273 1518 - F Clarifications on 5G NR connectivity options for RF FR1 17.4.0 2022-03 RAN#95 R5-220280 1520 - F Update CA configurations for CA_n41A-n79A BCS1 17.4.0 2022-03 RAN#95 R5-220349 1522 - F Adding NR bands for UL MIMO in FR1 17.4.0 2022-03 RAN#95 R5-220362 1527 - F Introduction of CA_n7A-n78A reference sensitivity test requirements 17.4.0 2022-03 RAN#95 R5-220537 1531 - F Correction on test procedure and initial condition for power tolerance test cases 17.4.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2349 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-03 RAN#95 R5-220639 1532 - F Editorial, correction of clause numbering in test case 6.5D.2.4.1 17.4.0 2022-03 RAN#95 R5-220752 1536 - F Updating on additional UE co-ex requirements for 2 Band UL CA 17.4.0 2022-03 RAN#95 R5-220753 1537 - F Updating on n74 co-existence for TS 38.521-1 17.4.0 2022-03 RAN#95 R5-220870 1547 - F Updating MOP and Configured Tx Power TCs for CA_n24A-n41A 17.4.0 2022-03 RAN#95 R5-220871 1548 - F Updating MOP and Configured Tx Power TCs for CA_n24A-n48A 17.4.0 2022-03 RAN#95 R5-220872 1549 - F Updating MOP and Configured Tx Power TCs for CA_n24A-n77A 17.4.0 2022-03 RAN#95 R5-220873 1550 - F Updating reference sensitivity test requirement for CA combination of n24 and n41 17.4.0 2022-03 RAN#95 R5-220874 1551 - F Updating Delta_RIB_c and reference sensitivity test requirement for CA combination of n24 and n48 17.4.0 2022-03 RAN#95 R5-220893 1558 - F Correction to test procedure of SRS time mask 17.4.0 2022-03 RAN#95 R5-220899 1560 - F Correction to test requirement of NS_27 in 6.2.3 17.4.0 2022-03 RAN#95 R5-220900 1561 - F Correction to test requirement of NS_47 in 6.2.3 17.4.0 2022-03 RAN#95 R5-220905 1563 - F Correction to test CBW for Non-SUL carrier in 6.4C.2.2 17.4.0 2022-03 RAN#95 R5-220906 1564 - F Correction to test requirement of 6.5C.3.2 17.4.0 2022-03 RAN#95 R5-220914 1566 - F Correction to RMC for PUCCH format 1 test cases 17.4.0 2022-03 RAN#95 R5-220915 1567 - F Correction to connection diagram and test configuration for Tx SUL test cases 17.4.0 2022-03 RAN#95 R5-220919 1568 - F Correction to transmission slot in SRS time mask test case 17.4.0 2022-03 RAN#95 R5-221046 1570 - F Addition of 6.5.2.3 on new CBW to A-SEM for NS_04 17.4.0 2022-03 RAN#95 R5-221051 1571 - F Correction of 6.2A.1 for UE maximum output power for CA 17.4.0 2022-03 RAN#95 R5-221052 1572 - F Correction of 6.2A.2 on UE MPR for CA 17.4.0 2022-03 RAN#95 R5-221106 1573 - F Correcting test applicabilities for MIMO test cases 17.4.0 2022-03 RAN#95 R5-221107 1574 - F Correcting to NR test case 6.2A.1 MOP for CA 17.4.0 2022-03 RAN#95 R5-221109 1576 - F Updating test case 6.2.3 AMPR for NS_03 and NS_03U 17.4.0 2022-03 RAN#95 R5-221113 1577 - F Updating General Spurious testing for CA_n41A-n79A 17.4.0 2022-03 RAN#95 R5-221114 1578 - F Updating A-MPR for CA testing for CA_n41A-n79A 17.4.0 2022-03 RAN#95 R5-221116 1579 - F Updating minimum requirements for test case 6.2.3 AMPR 17.4.0 2022-03 RAN#95 R5-221117 1580 - F Updating test case Additional spurious emissions for NS_46 17.4.0 2022-03 RAN#95 R5-221119 1582 - F Updating UTRA ACLR for UL MIMO Rel-16 onward for NS_100 17.4.0 2022-03 RAN#95 R5-221120 1583 - F Updating Additional spurious emissions for UL MIMO Rel- 16 onward for several bands 17.4.0 2022-03 RAN#95 R5-221121 1584 - F Updating 6.1A for intra-band contiguous CA Outer1 RB allocation 17.4.0 2022-03 RAN#95 R5-221122 1585 - F Updating test case 6.2A.2 MPR for intra-band non- contiguous CA 17.4.0 2022-03 RAN#95 R5-221128 1588 - F Updating FR1 Spectrum emission mask for intra-band CA test case 17.4.0 2022-03 RAN#95 R5-221130 1589 - F Updating Relative power control tolerance testing for intra- band CA 17.4.0 2022-03 RAN#95 R5-221198 1591 - F Addition of CBW 70MHz into TC 6.5D 17.4.0 2022-03 RAN#95 R5-221200 1592 - F Addition of CBW 70MHz into Rx TCs 17.4.0 2022-03 RAN#95 R5-221209 1593 - F Updating MPR minimum requirement for NR band n97 17.4.0 2022-03 RAN#95 R5-221244 1596 - F Addition of CA_n1A-n3A into TC 6.2A 17.4.0 2022-03 RAN#95 R5-221266 1604 - F Correction of in-band emissions test cases 17.4.0 2022-03 RAN#95 R5-221267 1605 - F Correction of SRS time mask test case 17.4.0 2022-03 RAN#95 R5-221322 1606 - F Update for 6.5C.3.3 Additional spurious emissions for SUL 17.4.0 2022-03 RAN#95 R5-221339 1610 - F A-MPR updates for n77 17.4.0 2022-03 RAN#95 R5-221361 1613 - F Editorial update within channel raster section 17.4.0 2022-03 RAN#95 R5-221675 1480 1 F Correction of test applicability of A-MPR 17.4.0 2022-03 RAN#95 R5-221676 1528 1 F Alignment of test points of ACLR with MPR 17.4.0 2022-03 RAN#95 R5-221677 1539 1 F Corrections of Tx TCs having impact on ETSI EN 301 908- 25 17.4.0 2022-03 RAN#95 R5-221678 1557 1 F Correction to note of general spurious emissions 17.4.0 2022-03 RAN#95 R5-221679 1559 1 F Correction to test requirement of 6.2.4 17.4.0 2022-03 RAN#95 R5-221680 1562 1 F Correction to measurement timing for inter-band CA with FDD and TDD 17.4.0 2022-03 RAN#95 R5-221681 1565 1 F Editorial correction to SUL test cases 17.4.0 2022-03 RAN#95 R5-221682 1607 1 F Editorial correction to clause 6.5.3.2 and 6.5.3.3 17.4.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2350 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-03 RAN#95 R5-221683 1541 1 F Update to statistical testing 17.4.0 2022-03 RAN#95 R5-221684 1603 1 F Correction to FR1 UL RMCs 17.4.0 2022-03 RAN#95 R5-221758 1509 1 F Update Spurious emissions for UE co-existence for CA_n3A-n41A 17.4.0 2022-03 RAN#95 R5-221759 1517 1 F Update Spurious emissions for UE co-existence for CA_n41A-n79A 17.4.0 2022-03 RAN#95 R5-221760 1508 1 F Update Reference sensitivity test case for CA_n3A-n41A 17.4.0 2022-03 RAN#95 R5-221761 1526 1 F Introduction of CA_n5A-n78A reference sensitivity test requirements 17.4.0 2022-03 RAN#95 R5-221762 1538 1 F Introduction of CA_n5A-n7A and CA_n7A_n78A maximum output power test requirements 17.4.0 2022-03 RAN#95 R5-221763 1611 1 F MSD test configurations modification for US inter-band CA combinations with n77 17.4.0 2022-03 RAN#95 R5-221764 1507 1 F Update operating bands and CA configurations for CA_n3A- n41A 17.4.0 2022-03 RAN#95 R5-221765 1553 1 F General updates of clause 5 for R16 CADC configurations 17.4.0 2022-03 RAN#95 R5-221788 1597 1 F New channel bandwidth for n25. UL-MIMO. 17.4.0 2022-03 RAN#95 R5-221789 1602 1 F Addition of CBHWs 25 MHz, 30 MHz, 40 MHz for n25 17.4.0 2022-03 RAN#95 R5-221790 1598 1 F New channel bandwidth for n25. refsens and UL-MIMO 17.4.0 2022-03 RAN#95 R5-221791 1540 1 F General updates of clause 5 for R16 new CBW configurations 17.4.0 2022-03 RAN#95 R5-221794 1581 1 F Updating test case AMPR for MIMO 17.4.0 2022-03 RAN#95 R5-221795 1586 1 F Updating Absolute power tolerance for intra-band non- contiguous CA 17.4.0 2022-03 RAN#95 R5-221796 1587 1 F Updating FR1 ACLR for intra-band CA test case 17.4.0 2022-03 RAN#95 R5-221817 1492 1 F Introduction of new V2X test cases in 6.3E.2 17.4.0 2022-03 RAN#95 R5-221818 1542 1 F Update to NR V2X test cases with non-concurrent operation 17.4.0 2022-03 RAN#95 R5-221819 1543 1 F Addition of 6.2E.2.2 MPR for concurrent operation 17.4.0 2022-03 RAN#95 R5-221820 1494 1 F Introduction of new V2X test cases in 7.7E 17.4.0 2022-03 RAN#95 R5-221870 1601 1 F Update of R17 new CBW 45M into refsense TC 17.4.0 2022-03 RAN#95 R5-221877 1519 1 F Update of R17 NR inter-band CA Tx requirements within FR1 17.4.0 2022-03 RAN#95 R5-221878 1521 1 F Update of R17 NR inter-band CA Rx requirements within FR1 17.4.0 2022-03 RAN#95 R5-221879 1552 1 F Updating Delta_RIB_c and reference sensitivity test requirement for CA combination of n24 and n77 17.4.0 2022-03 RAN#95 R5-221880 1569 1 F Addition of several CA combinations to Reference Sensitivity test case 17.4.0 2022-03 RAN#95 R5-221881 1554 1 F General updates of clause 5 for R17 CADC configurations 17.4.0 2022-03 RAN#95 R5-221882 1590 1 F Updating clause 5.2C for R17 SUL configurations 17.4.0 2022-03 RAN#95 R5-221894 1599 1 F Introduction of NR-U OFF power test case 17.4.0 2022-03 RAN#95 R5-221895 1600 1 F Introduction of NR-U General ON/OFF time mask test case 17.4.0 2022-03 RAN#95 R5-221896 1529 1 F Update of MOP test cases for PC2 CA_n1A-n78A with UL CA_n1A-n78A 17.4.0 2022-03 RAN#95 R5-221897 1530 1 F Update of MOP test cases for PC2 CA_n3A-n78A with UL CA_n3A-n78A 17.4.0 2022-03 RAN#95 R5-221898 1534 1 F Update superscripts of power class for inter-band CA 17.4.0 2022-03 RAN#95 R5-221899 1535 1 F Update MOP for 2 bands DL and 1 band UL CA 17.4.0 2022-03 RAN#95 R5-221900 1594 1 F Update MOP for Intra-band contiguous CA 17.4.0 2022-03 RAN#95 R5-221901 1595 1 F Update MOP for Intra-band non-contiguous CA 17.4.0 2022-03 RAN#95 R5-221902 1505 1 F Update UL CA configurations for PC2 and PC1.5 CA_n41C 17.4.0 2022-03 RAN#95 R5-221903 1506 1 F Update configuration for PC2 CA_n3A-n41A 17.4.0 2022-03 RAN#95 R5-221904 1502 1 F Update NR ACLR test case for PC1.5 17.4.0 2022-03 RAN#95 R5-221905 1496 1 F Update TC Frequency Error for DSS 17.4.0 2022-03 RAN#95 R5-221906 1499 1 F Update TC Frequency Error for UL MIMO for DSS 17.4.0 2022-03 RAN#95 R5-221907 1500 1 F Update TC Frequency Error for CA for DSS 17.4.0 2022-03 RAN#95 R5-221912 1609 1 F Update for 6.4.2.1a EVM including symbols with transient period 17.4.0 2022-03 RAN#95 R5-221930 1575 1 F Updating message contents for REFSENS for 2DL CA exceptions testing 17.4.0 2022-06 RAN#96 R5-222174 1616 - F Correction to n46 ARFCN 17.5.0 2022-06 RAN#96 R5-222200 1617 - F Removing the empty space in the table number of Table 7.3.2.3-1a and correct the style of table title of Table 7.3.2.3-1b 17.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2351 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-06 RAN#96 R5-222201 1618 - F Correction of test metric of out of band emission for UL MIMO 17.5.0 2022-06 RAN#96 R5-222202 1619 - F Correction of Test Environment in Table 6.5A.2.2.1.4.1-2 17.5.0 2022-06 RAN#96 R5-222203 1620 - F Correction of test applicability of 6.4.2.5 17.5.0 2022-06 RAN#96 R5-222204 1621 - F Moving test requirement of 6.3E.1.1D to the correct section and correction of style of some table notes 17.5.0 2022-06 RAN#96 R5-222205 1622 - F Correction of clause style in 6.2E.2.2 17.5.0 2022-06 RAN#96 R5-222206 1623 - F Removing FFS for the test configuration table in 6.2E.1.1.4.1 17.5.0 2022-06 RAN#96 R5-222241 1629 - F Update Spurious emissions for UE co-existence for CA_n41C 17.5.0 2022-06 RAN#96 R5-222310 1631 - F Introduction of Transmitter power for NR-DC 17.5.0 2022-06 RAN#96 R5-222311 1632 - F Introduction of UE maximum output power reduction for NR- DC 17.5.0 2022-06 RAN#96 R5-222312 1633 - F Introduction of UE additional maximum output power reduction for NR-DC 17.5.0 2022-06 RAN#96 R5-222313 1634 - F Introduction of Configured output power for inter-band NR- DC in FR1 17.5.0 2022-06 RAN#96 R5-222327 1648 - F Editorial correction for references to Table 5.5A.3-1 17.5.0 2022-06 RAN#96 R5-222331 1649 - F FR1 - 6.5A.3.2 - Spurious for co-existence - correction for CA_n41-n79 17.5.0 2022-06 RAN#96 R5-222334 1652 - F Reference correction in test case 6.5C.4 17.5.0 2022-06 RAN#96 R5-222335 1653 - F Correction of min value for A-MPR - FR1 - NS_44 - Test ID 17 17.5.0 2022-06 RAN#96 R5-222336 1654 - F Replace n79C by n77C in test case 6.2A.2.1 17.5.0 2022-06 RAN#96 R5-222337 1655 - F Editorial correction in Test IDs in FR1 test case 7.5A.2 17.5.0 2022-06 RAN#96 R5-222338 1656 - F Corrections for n50 and n79 in FR1 test case 7.3.2 17.5.0 2022-06 RAN#96 R5-222339 1657 - F Editorial corrections for FR1 in annex F.1.2 17.5.0 2022-06 RAN#96 R5-222351 1659 - F Update of reference sense test case 7.3.2 for n48 and CWBs 30 and 70 MHz 17.5.0 2022-06 RAN#96 R5-222352 1660 - F Update of reference sense test case 7.3.2 for n2 and CWBs 25 30 and 40 MHz 17.5.0 2022-06 RAN#96 R5-222353 1661 - F Update of reference sense test case 7.3.2 for n5 and CWB 25 MHz 17.5.0 2022-06 RAN#96 R5-222354 1662 - F Introducing CBW 70 MHz for Default Downlink Power levels in Annex C 17.5.0 2022-06 RAN#96 R5-222355 1663 - F Introducing CBW 30 MHz for Characteristics of the Interfering Signalling in Annex D 17.5.0 2022-06 RAN#96 R5-222356 1664 - F Introducing CBW 70 MHz for Characteristics of the Interfering Signalling in Annex D 17.5.0 2022-06 RAN#96 R5-222448 1667 - F Editorial correction of REFSENS test case 7.3.2 17.5.0 2022-06 RAN#96 R5-222450 1669 - F Correction of REFSENS test case for n66 and CBW 25 and 30 MHz 17.5.0 2022-06 RAN#96 R5-222481 1671 - F Correction to EVM measurement point for DFTs-OFDM DM-RS Type 2 17.5.0 2022-06 RAN#96 R5-222540 1674 - F Correction of REFSENS test case for n66 and CBW 40 MHz 17.5.0 2022-06 RAN#96 R5-222571 1676 - F Addition of reference sensitivity test for several CA combinations 17.5.0 2022-06 RAN#96 R5-222655 1678 - F Addition of UE co-existence requirements for band n18 to TS 38.521-1 17.5.0 2022-06 RAN#96 R5-222664 1682 - F General updates of clause 5 for R17 new CBW configurations 17.5.0 2022-06 RAN#96 R5-222683 1693 - F Update of R17 CADC configurations into refsense TC 17.5.0 2022-06 RAN#96 R5-222738 1696 - F Update 7.3F.2 Ref sensitivity power level 17.5.0 2022-06 RAN#96 R5-222739 1697 - F Introduction of 7.6F.2 IBB for NR_U 17.5.0 2022-06 RAN#96 R5-222745 1700 - F Update 6.5.3.2 Spurious emissions for UE co-existence 17.5.0 2022-06 RAN#96 R5-222746 1701 - F Introduction of ACS for NR_U 17.5.0 2022-06 RAN#96 R5-222808 1703 - F Correction of A-MPR regions for NS_46 17.5.0 2022-06 RAN#96 R5-222857 1706 - F Updates of clause 5 for R15 bands and CBW configurations 17.5.0 2022-06 RAN#96 R5-222873 1707 - F Aligning test case Occupied bandwidth for UL MIMO with the latest work plan version 17.5.0 2022-06 RAN#96 R5-222930 1719 - F Update of the definition of uplink RB allocation for power class 1.5 UE 17.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2352 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-06 RAN#96 R5-222939 1720 - F Aligning test case 6.5D.2.4.1 NR ACLR for UL MIMO with the latest work plan version 17.5.0 2022-06 RAN#96 R5-222955 1722 - F Aligning test case 6.5D.2.4.2 UTRA ACLR for UL MIMO with the latest work plan version 17.5.0 2022-06 RAN#96 R5-222975 1723 - F Addition of CA_n1A-n8A into MOP TC 17.5.0 2022-06 RAN#96 R5-222993 1724 - F Corrections of DCI format for Tx TCs having impact on ETSI EN 301 908-25 17.5.0 2022-06 RAN#96 R5-222997 1725 - F Removal of brackets for DCI for Rx test cases 17.5.0 2022-06 RAN#96 R5-223018 1727 - F Update of Annex F for UL MIMO test cases 17.5.0 2022-06 RAN#96 R5-223022 1728 - F Addition of CA_n1A-n8A into Refsens TC 17.5.0 2022-06 RAN#96 R5-223124 1731 - F Updating minimum requirement for 7.6A.3 OOB for CA testing 17.5.0 2022-06 RAN#96 R5-223130 1734 - F Updating almost contiguous RB allocation for 45MHz CBW 17.5.0 2022-06 RAN#96 R5-223133 1736 - F Updating Additional spurious emissions for NS_48 for 45MHz CBW 17.5.0 2022-06 RAN#96 R5-223134 1737 - F Updating test case 6.3.1 Minimum output power for CBW 45MHz 17.5.0 2022-06 RAN#96 R5-223135 1738 - F Updating transmit ON_OFF time mask test case for 45MHz CBW 17.5.0 2022-06 RAN#96 R5-223136 1739 - F Updating test case 7.4 Maximum input level for new Rel-17 CBWs 17.5.0 2022-06 RAN#96 R5-223137 1740 - F Updating 6.3D.1 Minimum output power for UL MIMO for 45MHz CBW 17.5.0 2022-06 RAN#96 R5-223138 1741 - F Updating transmit ON_OFF time mask for MIMO test case for 45MHz CBW 17.5.0 2022-06 RAN#96 R5-223159 1746 - F Update TC 6.5.3.3 Additional spurious emissions for PC2 n39 17.5.0 2022-06 RAN#96 R5-223198 1748 - F Addition of redcap requirement into sub-clause 7.1 and 7.2 17.5.0 2022-06 RAN#96 R5-223655 1753 1 F Introduction of test specifications for additional Rel-16 CA combos to Clause 6 17.5.0 2022-06 RAN#96 R5-223656 1650 1 F Test procedure correction in FR1 CA test case 7.6A.4.3 17.5.0 2022-06 RAN#96 R5-223657 1721 1 F General updates of clause 5 for R16 CADC configurations 17.5.0 2022-06 RAN#96 R5-223693 1750 1 F Update test configuration table for NS_27 of A-MPR 17.5.0 2022-06 RAN#96 R5-223694 1694 1 F Update of CBW 70MHz into refsens TC 17.5.0 2022-06 RAN#96 R5-223695 1692 1 F General updates of clause 5 for R16 new CBW configurations 17.5.0 2022-06 RAN#96 R5-223697 1666 1 F Corrections in message exceptions and test points for FR1 test case 6.3A.4.1.1 17.5.0 2022-06 RAN#96 R5-223698 1702 1 F Update 6.5.3.2 Spur-emiss R16_17 for UE co-exist 17.5.0 2022-06 RAN#96 R5-223699 1732 1 F Correction to NS_27 in test case AMPR for MIMO 17.5.0 2022-06 RAN#96 R5-223700 1651 1 F Test procedure correction in FR1 CA test case 7.6A.4.2 17.5.0 2022-06 RAN#96 R5-223705 1726 1 F Addition of spectrum emission mask testing for UL MIMO with ULFPTx 17.5.0 2022-06 RAN#96 R5-223729 1733 1 F Updating RB allocation for CBW 45MHz 17.5.0 2022-06 RAN#96 R5-223730 1735 1 F Updating AMPR test case for NS_48 for CBW 45MHz 17.5.0 2022-06 RAN#96 R5-223731 1658 1 F Update of reference sense test case 7.3.2 for n41 and CWB 70 MHz 17.5.0 2022-06 RAN#96 R5-223734 1679 1 F Updating General Spurious Emissions TC for CA_n24-n41 17.5.0 2022-06 RAN#96 R5-223735 1680 1 F Updating General Spurious Emissions TCs for CA_n24-n48 17.5.0 2022-06 RAN#96 R5-223736 1681 1 F Updating General Spurious Emissions TCs for CA_n24-n77 17.5.0 2022-06 RAN#96 R5-223737 1683 1 F Updating Spurious emission for UE co-existence TC for CA_n24-n41 17.5.0 2022-06 RAN#96 R5-223738 1684 1 F Updating Spurious emission for UE co-existence TC for CA_n24-n48 17.5.0 2022-06 RAN#96 R5-223739 1685 1 F Updating Spurious emission for UE co-existence TC for CA_n24-n77 17.5.0 2022-06 RAN#96 R5-223740 1686 1 F Updating AMPR TC for Rel-17 CA_n24-n41 17.5.0 2022-06 RAN#96 R5-223741 1687 1 F Updating AMPR TC for Rel-17 CA_n24-n48 17.5.0 2022-06 RAN#96 R5-223742 1689 1 F Updating AMPR TC for Rel-17 CA_n24-n77 17.5.0 2022-06 RAN#96 R5-223743 1690 1 F General updates of clause 5 for R17 CADC configurations 17.5.0 2022-06 RAN#96 R5-223754 1695 1 F Add MU and TT for 7.5F.1 and 7.6F.2 17.5.0 2022-06 RAN#96 R5-223756 1635 1 F Introduction of Output power dynamics and Minimum output power for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223757 1636 1 F Introduction of Transmit OFF power for NR-DC in FR1 17.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2353 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-06 RAN#96 R5-223758 1637 1 F Introduction of Transmit ON/OFF time mask for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223759 1638 1 F Introduction of Transmit signal quality and Frequency error for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223760 1639 1 F Introduction of Error Vector Magnitude for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223761 1640 1 F Introduction of Carrier leakage for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223762 1641 1 F Introduction of In-band emissions for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223763 1642 1 F Introduction of Output RF spectrum emissions and Occupied bandwidth for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223764 1643 1 F Introduction of Out of band emission Spectrum emission mask for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223765 1644 1 F Introduction of Adjacent channel leakage ratio for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223766 1645 1 F Introduction of Spurious emission for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223767 1646 1 F Introduction of Transmit intermodulation for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223768 1647 1 F Introduction of NR-DC references to transmitter test requirements 17.5.0 2022-06 RAN#96 R5-223769 1630 1 F Introduction of configuration DC_n48A-n70A for NR-DC in FR1 17.5.0 2022-06 RAN#96 R5-223770 1665 1 F UL MIMO MOP requirements for PC1.5 in n77 and n78 17.5.0 2022-06 RAN#96 R5-223773 1625 1 F Removal of PC1.5 from TC 6.2.1 MOP 17.5.0 2022-06 RAN#96 R5-223774 1626 1 F Removal of PC1.5 from TC 6.2.2 MPR 17.5.0 2022-06 RAN#96 R5-223775 1627 1 F Removal of PC1.5 from TC 6.2.3 A-MPR 17.5.0 2022-06 RAN#96 R5-223776 1628 1 F Removal of PC1.5 from TC 6.5.2.4.1 ACLR 17.5.0 2022-06 RAN#96 R5-223777 1713 1 F Addition of new test case 6.2G.1 maximum output power for Tx Diversity 17.5.0 2022-06 RAN#96 R5-223778 1714 1 F Addition of new test case 6.2G.2 maximum output power reduction for Tx Diversity 17.5.0 2022-06 RAN#96 R5-223779 1715 1 F Addition of new test case 6.2G.3 additional maximum output power reduction for Tx Diversity 17.5.0 2022-06 RAN#96 R5-223780 1716 1 F Addition of new test case 6.5G.2.3 Adjacent channel leakage ratio for Tx Diversity 17.5.0 2022-06 RAN#96 R5-223781 1729 1 F Introduce SRS IL for UE with NR TxD 17.5.0 2022-06 RAN#96 R5-223782 1718 1 F Addition of Annex F for Tx Diversity test cases 17.5.0 2022-06 RAN#96 R5-223785 1709 1 F Addition of Redcap MOP 6.2I.1 17.5.0 2022-06 RAN#96 R5-223786 1710 1 F Addition of Redcap MPR 6.2I.2 17.5.0 2022-06 RAN#96 R5-223787 1711 1 F Addition of Redcap AMPR 6.2I.3 17.5.0 2022-06 RAN#96 R5-223788 1712 1 F Addition of Redcap configured output power 6.2I.4 17.5.0 2022-06 RAN#96 R5-223789 1704 1 F Addition of Reference sensitivity TC for RedCap 17.5.0 2022-06 RAN#96 R5-223790 1705 1 F Addition of redcap general requirement into clause 3-5 17.5.0 2022-06 RAN#96 R5-223804 1624 1 F Moving additional tolerance in 6.2A.3.1.5 and 6.2D.3.5 to end of the section 17.5.0 2022-06 RAN#96 R5-223805 1670 1 F Correction to time mask test cases 17.5.0 2022-06 RAN#96 R5-223806 1672 1 F Correction to RB allocation and test requirement in 6.2.3 17.5.0 2022-06 RAN#96 R5-223807 1673 1 F Correction to DCI format in 6.4.2.1 17.5.0 2022-06 RAN#96 R5-223809 1708 1 F Update to MPR test requirements to remove ambiguity of T_LC 17.5.0 2022-06 RAN#96 R5-223810 1743 1 F Correction to Test Channel Bandwidths for FR1 CA 17.5.0 2022-06 RAN#96 R5-223811 1744 1 F Editorial correction to test requirement of Aggregate power tolerance for UL MIMO 17.5.0 2022-06 RAN#96 R5-223812 1752 1 F Update 6.2.3 for additional maximum power reduction 17.5.0 2022-06 RAN#96 R5-223813 1675 1 F Clarification of BCS in test configuration of CA test cases 17.5.0 2022-06 RAN#96 R5-223872 1698 1 F Update 6.4.2.1a EVM including symbols with transient period 17.5.0 2022-06 RAN#96 R5-223873 1755 1 F Update for 6.3.3.1 General clause of Tx ON-OFF time mask 17.5.0 2022-06 RAN#96 R5-223875 1699 2 F Update AMPR for NS_04 17.5.0 2022-09 RAN#97 R5-224167 1757 - F Addition of NR-DC into symbols clause 3.2 17.6.0 2022-09 RAN#97 R5-224169 1758 - F Introduction of General spurious emissions requirements for CA_n48A-n70A 17.6.0 2022-09 RAN#97 R5-224170 1759 - F Introduction of Spurious emissions band UE co-existence Test configurations for CA_n48A-n70A 17.6.0 2022-09 RAN#97 R5-224171 1760 - F Introduction of Reference sensitivity for inter-band NR-DC in FR1 17.6.0 2022-09 RAN#97 R5-224172 1761 - F Introduction of Maximum input level for inter-band NR-DC in FR1 17.6.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2354 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-09 RAN#97 R5-224173 1762 - F Introduction of Adjacent channel selectivity for inter-band NR-DC in FR1 17.6.0 2022-09 RAN#97 R5-224174 1763 - F Introduction of Blocking characteristics for inter-band NR- DC in FR1 17.6.0 2022-09 RAN#97 R5-224175 1764 - F Introduction of Spurious response for inter-band NR-DC in FR1 17.6.0 2022-09 RAN#97 R5-224176 1765 - F Introduction of Intermodulation characteristics for inter-band NR-DC in FR1 17.6.0 2022-09 RAN#97 R5-224177 1766 - F Introduction of Spurious emissions for inter-band NR-DC in FR1 17.6.0 2022-09 RAN#97 R5-224205 1767 - F Addition of 30 MHz ChBW to NS_27 for testing of A-MPR 17.6.0 2022-09 RAN#97 R5-224206 1768 - F Addition of 30 MHz ChBW for testing of NS_27 additional spectrum emission mask and spurious emissions 17.6.0 2022-09 RAN#97 R5-224222 1771 - F Update of A-SE for n39 17.6.0 2022-09 RAN#97 R5-224231 1772 - F Update Reference sensitivity exceptions for CA_n3A-n41A 17.6.0 2022-09 RAN#97 R5-224241 1776 - F Correction of additional tolerance to test requirement in 6.2F.1.5 and 6.2F.3.5 17.6.0 2022-09 RAN#97 R5-224242 1777 - F Adding additional tolerance to test requirement of TxD Transmitter power test cases 17.6.0 2022-09 RAN#97 R5-224243 1778 - F Correction of additional test points for asymmetric channel bandwidths in Rx test cases 17.6.0 2022-09 RAN#97 R5-224244 1779 - F Correction of Table 7.3F.2.4.1-1 17.6.0 2022-09 RAN#97 R5-224245 1780 - F Removing of n91, n92, n93 and n94 from 7.3I.2 17.6.0 2022-09 RAN#97 R5-224246 1781 - F Removing of n91, n92, n93 and n94 from 7.6.2 17.6.0 2022-09 RAN#97 R5-224274 1786 - F Update of MOP test case for UL CA_n1A-n78A 17.6.0 2022-09 RAN#97 R5-224289 1792 - F Updates of clause 5 for R15 bands and CBW configurations 17.6.0 2022-09 RAN#97 R5-224291 1793 - F 7.3A.1_1 - Test requirements corrections 17.6.0 2022-09 RAN#97 R5-224292 1794 - F NS_15 minimum requirements missing in test case 6.5.3.3 17.6.0 2022-09 RAN#97 R5-224293 1795 - F Requirement correction for ON power in test 6.3D.3 17.6.0 2022-09 RAN#97 R5-224300 1802 - F 7.3.2 - Test requirements corrections 17.6.0 2022-09 RAN#97 R5-224301 1803 - F General clean up in 38.521-1 annex F 17.6.0 2022-09 RAN#97 R5-224617 1808 - F Addition of test requirement for CA_n77C in 7.3A.1 17.6.0 2022-09 RAN#97 R5-224628 1811 - F Correction to interference values in Rx test cases 17.6.0 2022-09 RAN#97 R5-224765 1812 - F Update to 6.2D.3 to add AMPR NS_04 for ULFPTx 17.6.0 2022-09 RAN#97 R5-224767 1814 - F Update to 6.5D.2.3 to add A-SEM NS_04 for ULFPTx 17.6.0 2022-09 RAN#97 R5-224779 1815 - F Addition of 6.3G.1 Minimum output power for Tx Diversity 17.6.0 2022-09 RAN#97 R5-224780 1816 - F Addition of 6.3G.2 Transmit OFF power for Tx Diversity 17.6.0 2022-09 RAN#97 R5-224781 1817 - F Addition of 6.3G.3.1 General ON/OFF time mask for Tx Diversity 17.6.0 2022-09 RAN#97 R5-224782 1818 - F Addition of 6.3G.3.2 PRACH time mask for Tx Diversity 17.6.0 2022-09 RAN#97 R5-224783 1819 - F Addition of 6.3G.3.3 SRS time mask for Tx Diversity 17.6.0 2022-09 RAN#97 R5-224784 1820 - F Addition of 6.3G.4.2 Relative power tolerance for Tx Diversity 17.6.0 2022-09 RAN#97 R5-224785 1821 - F Addition of 6.3G.4.3 Aggregate power tolerance for Tx Diversity 17.6.0 2022-09 RAN#97 R5-224790 1826 - F Update of Annex F to add 6.3G and 6.4G new test cases 17.6.0 2022-09 RAN#97 R5-224811 1827 - F Addition of 6.3F.1 Minimum output power for NR-U 17.6.0 2022-09 RAN#97 R5-224812 1828 - F Addition of 6.4F.1 Frequency error for NR-U 17.6.0 2022-09 RAN#97 R5-224830 1832 - F Update configuration table of 6.5D.2.3 to refer to AMPR 17.6.0 2022-09 RAN#97 R5-224831 1833 - F Update to SEM for CA 17.6.0 2022-09 RAN#97 R5-224832 1834 - F Update to SEM for SUL 17.6.0 2022-09 RAN#97 R5-224834 1835 - F Update to MOP for CA to add CA_41C PC2 17.6.0 2022-09 RAN#97 R5-224835 1836 - F Update to MPR for CA to add CA_41C PC2 17.6.0 2022-09 RAN#97 R5-224837 1837 - F Update to configured output power for CA to add CA_41C PC2 17.6.0 2022-09 RAN#97 R5-224838 1838 - F Update to SEM for CA to add CA_41C PC2 17.6.0 2022-09 RAN#97 R5-224843 1840 - F Update to MOP to add PC2 TxD requirements for band n1 and n3 17.6.0 2022-09 RAN#97 R5-224857 1843 - F Addition of n3 CBW 35MHz, 45MHz into refsens 17.6.0 2022-09 RAN#97 R5-224874 1847 - F Updating A-MPR Test Case for CA_n24-n41 17.6.0 2022-09 RAN#97 R5-224875 1848 - F Updating A-MPR Test Case for CA_n24-n48 17.6.0 2022-09 RAN#97 R5-224876 1849 - F Updating A-MPR Test Case for CA_n24-n77 17.6.0 2022-09 RAN#97 R5-224885 1850 - F Correction of 6.5.3.3 for NS_14 17.6.0 2022-09 RAN#97 R5-224899 1852 - F Update IBB for NR-U 17.6.0 2022-09 RAN#97 R5-224900 1853 - F Adding OOB blocking for NR-U 17.6.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2355 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-09 RAN#97 R5-224902 1854 - F Introduction of Spurious response for NR_U 17.6.0 2022-09 RAN#97 R5-224904 1855 - F Addition of Wide band Intermodulation for NR_U 17.6.0 2022-09 RAN#97 R5-224905 1856 - F Update TT for NR_U test cases 17.6.0 2022-09 RAN#97 R5-224935 1859 - F Corrections on requirements of A-MPR for NS_05 and NS_05U 17.6.0 2022-09 RAN#97 R5-224941 1860 - F Update of reference sensitivity power level for 3DL CA 17.6.0 2022-09 RAN#97 R5-224982 1863 - F Update of MOP TC to add PC2 requirements for band n1 and n3 17.6.0 2022-09 RAN#97 R5-225003 1865 - F Editorial correction to UTRA ACLR test cases 17.6.0 2022-09 RAN#97 R5-225011 1866 - F Add new test case 6.5G.3.1 17.6.0 2022-09 RAN#97 R5-225033 1869 - F Update to test coverage rules in FR1 SA RF tests 17.6.0 2022-09 RAN#97 R5-225058 1873 - F Addition of 4Rx for FDD band n8 into TC 7.3.2 17.6.0 2022-09 RAN#97 R5-225063 1874 - F Update MOP PC2 testing for CA_n41A-n79A 17.6.0 2022-09 RAN#97 R5-225064 1875 - F Updating test configurations for SUL test cases 17.6.0 2022-09 RAN#97 R5-225068 1877 - F Correction to AMPR test requirement for NS_04 17.6.0 2022-09 RAN#97 R5-225069 1878 - F Updating structure of clause 6.3C.3 Transmit ON/OFF time mask for SUL 17.6.0 2022-09 RAN#97 R5-225070 1879 - F Updating TT in Annex F for R15 time mask test cases 17.6.0 2022-09 RAN#97 R5-225071 1880 - F Updating test case 6.3.3.2 General ON/OFF time mask 17.6.0 2022-09 RAN#97 R5-225072 1881 - F Updating AMPR for NS_47 PC2 almost contiguous RB allocation testing 17.6.0 2022-09 RAN#97 R5-225078 1884 - F Updating MU and TT in Annex F for several time mask test cases 17.6.0 2022-09 RAN#97 R5-225079 1885 - F Updating Occupied bandwidth for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225080 1886 - F Updating Occupied bandwidth for UL MIMO for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225081 1887 - F Updating SRS time mask test case for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225082 1888 - F Updating Spectrum Emission Mask for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225083 1889 - F Updating Absolute power tolerance for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225084 1890 - F Updating Absolute power tolerance for UL MIMO for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225085 1891 - F Updating Relative power tolerance for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225086 1892 - F Updating Relative power tolerance for UL MIMO for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225089 1895 - F Adding new test case MOP for SUL with UL MIMO 17.6.0 2022-09 RAN#97 R5-225091 1896 - F Adding MU and TT for new SUL and UL MIMO test case 17.6.0 2022-09 RAN#97 R5-225113 1897 - F Correction for CA_n41A-n79A 17.6.0 2022-09 RAN#97 R5-225114 1898 - F Editorial correction of common uplink configuration 17.6.0 2022-09 RAN#97 R5-225168 1900 - F Updating ACLR for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225169 1901 - F Updating Maximum input level for UL MIMO for 45MHz CBW 17.6.0 2022-09 RAN#97 R5-225683 1858 1 F Update of Refsens TC for RedCap UE in 7.3I 17.6.0 2022-09 RAN#97 R5-225687 1769 1 F Update test procedure of MOP for TxD 17.6.0 2022-09 RAN#97 R5-225689 1770 1 F Update test procedure of MOP 17.6.0 2022-09 RAN#97 R5-225702 1805 1 F Updating Spurious emission for UE co-existence TC for CA_n2-n77, CA_n5-n77, CA_n66-n77 17.6.0 2022-09 RAN#97 R5-225703 1806 1 F Update Rx Requirements for additional Rel-16 CA combos 17.6.0 2022-09 RAN#97 R5-225704 1902 1 F General updates of clause 5 for R16 CADC configurations 17.6.0 2022-09 RAN#97 R5-225718 1756 1 F Correction to UL Configuration for Band n14 REFSENS 17.6.0 2022-09 RAN#97 R5-225720 1851 1 F Update 6.5.3 Spur-emiss R16_17 17.6.0 2022-09 RAN#97 R5-225721 1882 1 F Adding ON/OFF time mask for Tx Uplink switching testing for SUL 17.6.0 2022-09 RAN#97 R5-225722 1883 1 F Updating test case 6.3A.3.1_1 Time mask for switching between two uplink carriers 17.6.0 2022-09 RAN#97 R5-225723 1810 1 F Correction to CA configuration in 7.4A.2 17.6.0 2022-09 RAN#97 R5-225728 1844 1 F Addition of n8 CBW 35MHz into refsens 17.6.0 2022-09 RAN#97 R5-225729 1791 1 F General updates of clause 5 for R17 new CBW configurations 17.6.0 2022-09 RAN#97 R5-225733 1845 1 F Addition of TX spurious emissions test points for seven UL CA combinations 17.6.0 2022-09 RAN#97 R5-225734 1846 1 F Addition many 4CA NR combinations to reference sensitivity test 17.6.0 2022-09 RAN#97 R5-225735 1868 1 F General updates of clause 5 for R17 CADC configurations 17.6.0 2022-09 RAN#97 R5-225750 1829 1 F Add PC2 test configuration and requirement table for n1 A- MPR 17.6.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2356 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-09 RAN#97 R5-225751 1785 1 F Introduction of REFSENS test requirements for PC2 UL CA_n1A-n78A 17.6.0 2022-09 RAN#97 R5-225753 1788 1 F TxD MPR test requirements for PC 1.5 FWA UEs 17.6.0 2022-09 RAN#97 R5-225754 1790 1 F UL MIMO MPR Tests for PC1.5 UEs 17.6.0 2022-09 RAN#97 R5-225756 1789 1 F TxD A-MPR test requirements for NS_04 17.6.0 2022-09 RAN#97 R5-225757 1822 1 F Addition of 6.4G.1 Frequency error for Tx Diversity 17.6.0 2022-09 RAN#97 R5-225758 1823 1 F Addition of 6.4G.2.2 Carrier leakage for Tx Diversity 17.6.0 2022-09 RAN#97 R5-225759 1824 1 F Addition of 6.4G.2.3 In-band emissions for Tx Diversity 17.6.0 2022-09 RAN#97 R5-225760 1825 1 F Addition of 6.4G.2.4 EVM equalizer spectrum flatness for Tx Diversity 17.6.0 2022-09 RAN#97 R5-225761 1862 1 F Add new test case 6.5G.1 17.6.0 2022-09 RAN#97 R5-225762 1867 1 F Add new test case 6.5G.4 17.6.0 2022-09 RAN#97 R5-225763 1871 1 F Updates to receiver requirements for TxD scenarios 17.6.0 2022-09 RAN#97 R5-225768 1864 1 F Update of PC2 UE requirements for band n1 and n3 into TC 7.3.2 17.6.0 2022-09 RAN#97 R5-225784 1775 1 F Correction of additional tolerance to test requirement of R15 Transmitter power test cases 17.6.0 2022-09 RAN#97 R5-225785 1782 1 F Editorial correction to TC 6.5.3.3 17.6.0 2022-09 RAN#97 R5-225786 1787 1 F Corrections to A-MPR test requirements for NS_04 17.6.0 2022-09 RAN#97 R5-225787 1796 1 F Test procedure and requirement correction in OBW test 6.5D.1 17.6.0 2022-09 RAN#97 R5-225788 1831 1 F Update to 6.2D.3 to align NS_04 test configuration with 6.2.3 17.6.0 2022-09 RAN#97 R5-225789 1876 1 F Updating Additional emission test cases for NS_xxU 17.6.0 2022-09 RAN#97 R5-225790 1899 1 F Correction of UL MIMO A-MPR test case 17.6.0 2022-09 RAN#97 R5-225791 1773 1 F Addition of Operating bands in Table 5.2-1 17.6.0 2022-09 RAN#97 R5-225869 1809 1 F Correction to EVM measurement point for DFTs-OFDM DM-RS Type 2 17.6.0 2022-10 RAN#97 R5-225687 1769 1 F re-implementation of R5-225687 which was only partly according to latest spec 17.6.1 2022-12 RAN#98 R5-225950 1904 F Editorial and reference corrections to MPR for NR-DC 17.7.0 2022-12 RAN#98 R5-225955 1905 F Adding UE maximum output power for new NR bands n91, n92, n93 and n94 17.7.0 2022-12 RAN#98 R5-225957 1907 F Adding UE additional maximum output power reduction for new NR bands n91, n92, n93 and n94 17.7.0 2022-12 RAN#98 R5-225958 1908 F Adding spurious emissions for UE co-existence for new NR bands n91, n92, n93 and n94 17.7.0 2022-12 RAN#98 R5-225959 1909 F Adding Reference sensitivity power level for new NR bands n91, n92, n93 and n94 17.7.0 2022-12 RAN#98 R5-225960 1910 F Adding in-band blocking for new NR bands n91, n92, n93 and n94 17.7.0 2022-12 RAN#98 R5-225961 1911 F Adding Out-of-band blocking for new NR bands n91, n92, n93 and n94 17.7.0 2022-12 RAN#98 R5-226013 1913 F Corrections and additions of Rel-15 band combinations in NR CA spurious emission UE co-existence test case 6.5A.3.2.1 17.7.0 2022-12 RAN#98 R5-226014 1914 F Corrections and additions of Rel-16 band combinations in NR CA spurious emission UE co-existence test case 6.5A.3.2.1 17.7.0 2022-12 RAN#98 R5-226015 1915 F Corrections and additions of Rel-17 band combinations in NR CA spurious emission UE co-existence test case 6.5A.3.2.1 17.7.0 2022-12 RAN#98 R5-226087 1919 F FR1 Narrow band blocking - corrections for inter-band and intra-band non-contiguous 17.7.0 2022-12 RAN#98 R5-226334 1943 F Update A-MPR test requirement for NS_47 for CA_n41A- n79A 17.7.0 2022-12 RAN#98 R5-226358 1945 F Removal of R15 FR1 pending CA configs from cl 6 17.7.0 2022-12 RAN#98 R5-226362 1949 F Removal of R16 FR1 pending CA configs from cl 7 17.7.0 2022-12 RAN#98 R5-226363 1950 F Removal of R17 FR1 pending CA configs from cl 5 17.7.0 2022-12 RAN#98 R5-226520 1958 F Corrections and additions of Rel-15 band combinations in NR CA general spurious emission test case 6.5A.3.1 17.7.0 2022-12 RAN#98 R5-226595 1965 F Update for 7.3I Ref sensitivity for RedCap 17.7.0 2022-12 RAN#98 R5-226722 1971 F General updates of clause 5 for R17 new CBW configurations 17.7.0 2022-12 RAN#98 R5-226729 1975 F General updates of clause 5 for R17 CADC configurations 17.7.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2357 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-12 RAN#98 R5-226753 1979 F Editorial correction to UTRA ACLR test cases 17.7.0 2022-12 RAN#98 R5-226755 1980 F Updated to test applicability of UL MIMO test 6.2D.3 17.7.0 2022-12 RAN#98 R5-226762 1981 F Correction to title in Annex F for TC7.8D.2 17.7.0 2022-12 RAN#98 R5-226763 1982 F Correction to title of TC7.8F.2 17.7.0 2022-12 RAN#98 R5-226765 1983 F Editorial correction to clause 4.3 description 17.7.0 2022-12 RAN#98 R5-226849 1993 F Adding new FR1 test case Configured Transmitted Power for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226850 1994 F Adding new FR1 test case Minimum output power for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226851 1995 F Adding new FR1 test case Transmit OFF power for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226853 1997 F Adding new FR1 test case REFSENS for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226854 1998 F Adding new FR1 test case REFSENS for SUL with UL MIMO and DL CA 17.7.0 2022-12 RAN#98 R5-226855 1999 F Adding new FR1 test case Maximum input level for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226856 2000 F Adding new FR1 test case Adjacent channel selectivity for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226857 2001 F Adding new FR1 test case In-band blocking for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226858 2002 F Adding new FR1 test case Out-of-band blocking for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226859 2003 F Adding new FR1 test case Narrow band blocking for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226860 2004 F Adding new FR1 test case Spurious response for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226861 2005 F Adding new FR1 test case Wide band Intermodulation for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-226866 2007 F Updating Spectrum emission mask for UL MIMO for 45MHz CBW 17.7.0 2022-12 RAN#98 R5-226914 2024 F Updating Annex E for TxD test cases 17.7.0 2022-12 RAN#98 R5-226915 2025 F Updating Annex F for TxD test cases 17.7.0 2022-12 RAN#98 R5-226920 2026 F Correction to spurious emission co-existence 17.7.0 2022-12 RAN#98 R5-226937 2027 F Updating MU and TT for new test cases for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-227064 2028 F Suffix definition for Tx Diversity clauses 17.7.0 2022-12 RAN#98 R5-227079 2032 F Correction to DFT-s RB allocation for CBW 45 MHz 17.7.0 2022-12 RAN#98 R5-227080 2033 F Correction to test configuration and test requirements tables in 6.2.3 17.7.0 2022-12 RAN#98 R5-227081 2034 F Addition of intra-band CA configurations to 3CA Rx test cases 17.7.0 2022-12 RAN#98 R5-227082 2035 F Correction to test procedure of 7.6A.2.2 17.7.0 2022-12 RAN#98 R5-227083 2036 F Correction to applicability of 7.3A.2 17.7.0 2022-12 RAN#98 R5-227102 2038 F Updates to common uplink configuration 17.7.0 2022-12 RAN#98 R5-227103 2039 F Editorial updates to common uplink configuration 17.7.0 2022-12 RAN#98 R5-227116 2041 F Update of MOP TC for RedCap 17.7.0 2022-12 RAN#98 R5-227221 2042 F Corrections and additions of Rel-17 band combinations in NR CA general spurious emission test case 6.5A.3.1 17.7.0 2022-12 RAN#98 R5-227237 2044 F Update CBW 35MHz for n3, n8 into TC 6.3.1, 6.3.2 and 6.3.3.6 17.7.0 2022-12 RAN#98 R5-227246 2045 F Update CBW 35MHz into clause 6.5.1 17.7.0 2022-12 RAN#98 R5-227301 2051 F Introduction of CA_n48A-n77A and CA_n71A-n77A Rx requirements 17.7.0 2022-12 RAN#98 R5-227320 2052 F Addition of new annex I for ModifiedMPR-Behavior 17.7.0 2022-12 RAN#98 R5-227321 2053 F Updates to annex I ModifiedMPR-Behavior for band n30 17.7.0 2022-12 RAN#98 R5-227323 2055 F Updates to annex I ModifiedMPR-Behavior for bands n77 and n78 17.7.0 2022-12 RAN#98 R5-227324 2056 F Updates to annex I ModifiedMPR-Behavior for band n79 17.7.0 2022-12 RAN#98 R5-227728 1941 1 F Style correction in 7.8A.2 17.7.0 2022-12 RAN#98 R5-227729 1936 1 F Style correction for 6.3C.3.2 17.7.0 2022-12 RAN#98 R5-227730 1931 1 F Style correction in 6.2B.4.0 17.7.0 2022-12 RAN#98 R5-227731 1933 1 F Style correction in 6.2D.2.5 17.7.0 2022-12 RAN#98 R5-227732 1951 1 F Removal of R17 FR1 pending CA configs from cl 7 17.7.0 2022-12 RAN#98 R5-227733 1921 1 F Correct Table 6.2.3.4.1-4a A-MPR test configuration table 17.7.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2358 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-12 RAN#98 R5-227734 1922 1 F Correction of A-MPR setting in Table 6.2.3.5-6a 17.7.0 2022-12 RAN#98 R5-227735 1923 1 F Correct Table 6.2.3.3.4-5 A-MPR specification table number 17.7.0 2022-12 RAN#98 R5-227736 1920 1 F Update Table 6.2A.2.1.4.1-1 band definition 17.7.0 2022-12 RAN#98 R5-227737 1924 1 F Update Table 6.5A.2.2.1.4.1-1 definition of powerBoostPi2BPSK setting 17.7.0 2022-12 RAN#98 R5-227738 1926 1 F Correct n41 MSD test frequency of 7.3A 17.7.0 2022-12 RAN#98 R5-227739 1927 1 F Update 7.3C.1 frequency description 17.7.0 2022-12 RAN#98 R5-227740 2054 1 F Updates to annex I ModifiedMPR-Behavior for band n41 power class 1.5 17.7.0 2022-12 RAN#98 R5-227741 1959 1 F Addition of 6.4F.2.1 EVM for NR-U 17.7.0 2022-12 RAN#98 R5-227742 1957 1 F Correction on REFSENS test requirements for CA PC2 17.7.0 2022-12 RAN#98 R5-227743 1952 1 F Update a few NRCA combos in deltaTIB,c table 17.7.0 2022-12 RAN#98 R5-227744 1963 1 F Update General spurious emissions for CA_n2A-n5A 17.7.0 2022-12 RAN#98 R5-227745 1964 1 F General spurious emissions for CA_n2A-n48A 17.7.0 2022-12 RAN#98 R5-227746 1962 1 F Update Ref sense for CA_n2A-n5A 17.7.0 2022-12 RAN#98 R5-227747 2037 1 F Update to Transmit ON OFF time mask for UL MIMO 17.7.0 2022-12 RAN#98 R5-227748 2040 1 F Addition of test point in ref sensitivity for CA_n41A-n66A/- 17.7.0 2022-12 RAN#98 R5-227749 1978 1 F General updates of clause 5 for R16 CADC configurations 17.7.0 2022-12 RAN#98 R5-227750 1934 1 F Removal of FFS for Table 6.2E.1.1.4.1-1 and Table 6.2E.1.1D.4.1-1 17.7.0 2022-12 RAN#98 R5-227751 1940 1 F Correction of clause number in 7.7F.1.4.1 17.7.0 2022-12 RAN#98 R5-227753 1929 1 F Correction of test applicability and test requirement of 6.2.3 17.7.0 2022-12 RAN#98 R5-227754 1930 1 F Addition of message contents exceptions for network signalling value NS_03 of n86 17.7.0 2022-12 RAN#98 R5-227755 1932 1 F Correction of 6.2C.5 for n86 17.7.0 2022-12 RAN#98 R5-227756 1935 1 F Correction of initial condition description in 6.3.4.2.4.1 17.7.0 2022-12 RAN#98 R5-227757 1939 1 F Addition of NS_3U in 6.5C.2.3 for n86 17.7.0 2022-12 RAN#98 R5-227758 2006 1 F Updating REFSENS testing for n79 new CBW 17.7.0 2022-12 RAN#98 R5-227759 1992 1 F Adding new FR1 test case MOP for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-227760 2046 1 F Corrections on MOP band edge relaxation for intra-band contiguous and non-contiguous CA band combinations 17.7.0 2022-12 RAN#98 R5-227761 2049 1 F Introduction of CA_n71A-n77A Transmitter power requirements 17.7.0 2022-12 RAN#98 R5-227870 1976 1 F General updates of clause 5 for R16 new CBW configurations 17.7.0 2022-12 RAN#98 R5-227896 1953 1 F Update Rx Requirements for CA_n66A-n77A 17.7.0 2022-12 RAN#98 R5-227898 1954 1 F Update a few frequency selections in test configuration tables 17.7.0 2022-12 RAN#98 R5-227899 1955 1 F Update reference sensitivity requirement table 17.7.0 2022-12 RAN#98 R5-227900 1916 1 F almost contiguous allocation correction in MPR and A-MPR test cases 17.7.0 2022-12 RAN#98 R5-227901 1917 1 F almost contiguous allocation correction in SEM test case 17.7.0 2022-12 RAN#98 R5-227902 1918 1 F almost contiguous allocation correction in TxD MPR test case 17.7.0 2022-12 RAN#98 R5-227903 1966 1 F Test configuration table correction for NS_04 in 6.5D.2.3 17.7.0 2022-12 RAN#98 R5-227905 2008 1 F Updating AMPR for NS_49 for 45MHz CBW 17.7.0 2022-12 RAN#98 R5-227906 2009 1 F Updating Additional Spurious emission testing for NS_49 for 45MHz 17.7.0 2022-12 RAN#98 R5-227913 2011 1 F Updating 6.2.2, 6.2D.2 and 6.2G.2 to coordinate the MPR test 17.7.0 2022-12 RAN#98 R5-227917 1984 1 F Corrections and additions of Rel-16 band combinations in NR CA general spurious emission test case 6.5A.3.1 17.7.0 2022-12 RAN#98 R5-227918 2050 1 F Introduction of CA_n71A-n77A Spurious emissions requirements 17.7.0 2022-12 RAN#98 R5-227919 1947 1 F Removal of R16 FR1 pending CA configs from cl 5 17.7.0 2022-12 RAN#98 R5-227920 1906 1 F Adding UE maximum output power reduction for new NR bands n91, n92, n93 and n94 17.7.0 2022-12 RAN#98 R5-227921 1960 1 F Addition of 6.5F.1 Occupied bandwidth for NR-U 17.7.0 2022-12 RAN#98 R5-227922 1970 1 F Adding 6.5F.4 Transmit intermod for NR-U 17.7.0 2022-12 RAN#98 R5-227923 1973 1 F Introduction of 6.4F.2.2 Carrier leakage for NR-U 17.7.0 2022-12 RAN#98 R5-227924 1977 1 F Update 6.5F.3.1 General spurious emissions for NR-U 17.7.0 2022-12 RAN#98 R5-227925 1968 1 F Update 7.5F.1 ACS for NR-U 17.7.0 2022-12 RAN#98 R5-227926 1969 1 F Update 7.3F.2 Ref sensitivity for NR-U 17.7.0 2022-12 RAN#98 R5-227927 1972 1 F Update 7.6F.2.1 IBB for NR-U 17.7.0 2022-12 RAN#98 R5-227928 1974 1 F Update MU and TT for NR_U test cases 17.7.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2359 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2022-12 RAN#98 R5-227930 1991 1 F Update MOP PC2 testing for CA_n41A-n79A 17.7.0 2022-12 RAN#98 R5-227931 1996 1 F Adding new FR1 test case Transmit ON/OFF time mask for SUL with UL MIMO 17.7.0 2022-12 RAN#98 R5-227934 2031 1 F Limit transmit modulation quality for Tx Diversity to power per any antenna connector higher than a threshold 17.7.0 2022-12 RAN#98 R5-227935 2043 1 F Update of 7.3.2 Reference sensitivity power level for redcap 17.7.0 2022-12 RAN#98 R5-227936 2057 1 F Additional requirements and A-MPR for NS_21 and n30 17.7.0 2022-12 RAN#98 R5-227938 1938 1 F Addition of test configuration, test procedure and test requirement for NS_41 and NS_42 in 6.5.3.3 17.7.0 2022-12 RAN#98 R5-227939 1946 1 F Removal of R15 FR1 pending CA configs from cl 7 17.7.0 2022-12 RAN#98 R5-227940 1944 1 F Removal of R15 FR1 pending CA configs from cl 5 17.7.0 2022-12 RAN#98 R5-227942 1948 1 F Removal of R16 FR1 pending CA configs from cl 6 17.7.0 2022-12 RAN#98 R5-228045 1956 1 F Correction on configured transmitted power requirements for CA PC2 17.7.0 2022-12 RAN#98 R5-228053 1985 1 F Add new test case 6.5G.3.2 17.7.0 2022-12 RAN#98 R5-228054 1986 1 F Add new test case 6.5G.3.3 17.7.0 2022-12 RAN#98 R5-228055 1987 1 F Configured transmitted power for Tx Diversity 17.7.0 2022-12 RAN#98 R5-228056 2010 1 F Updating 6.2.1, 6.2D.1 and 6.2G.1 to coordinate the MOP test 17.7.0 2022-12 RAN#98 R5-228057 2012 1 F Updating 6.2.4 and 6.2D.4 to coordinate the Configured transmitted power test 17.7.0 2022-12 RAN#98 R5-228058 2013 1 F Updating 6.3, 6.3D and 6.3G to coordinate the output power dynamic test 17.7.0 2022-12 RAN#98 R5-228059 2014 1 F Addition of 6.3G.4.1 absolute power tolerance for TxD 17.7.0 2022-12 RAN#98 R5-228060 2015 1 F Updating 6.4, 6.4D and 6.4G to coordinate the transmit signal quality test 17.7.0 2022-12 RAN#98 R5-228061 2016 1 F Addition of 6.4G.2.1 EVM for TxD 17.7.0 2022-12 RAN#98 R5-228062 2017 1 F Updating 6.5, 6.5D and 6.5G to coordinate the output spectrum emission test 17.7.0 2022-12 RAN#98 R5-228063 2018 1 F Addition of 6.5G.2.1 SEM for TxD 17.7.0 2022-12 RAN#98 R5-228064 2019 1 F Addition of 6.5G.2.2 A-SEM for TxD 17.7.0 2022-12 RAN#98 R5-228065 2020 1 F Addition of 6.5G.2.3.2 UTRA ACLR for TxD 17.7.0 2022-12 RAN#98 R5-228066 2023 1 F Updating section 7 for TxD 17.7.0 2023-03 RAN#99 R5-230068 2059 - F Adding UE maximum output power for new NR bands n100, n101 17.8.0 2023-03 RAN#99 R5-230069 2060 - F Adding UE maximum output power reduction for new NR bands n100, n101 17.8.0 2023-03 RAN#99 R5-230070 2061 - F Adding UE additional maximum output power reduction for new NR bands n100, n101 17.8.0 2023-03 RAN#99 R5-230072 2063 - F Adding Reference sensitivity power level for new NR bands n100, n101 17.8.0 2023-03 RAN#99 R5-230073 2064 - F Adding in-band blocking for new NR bands n100, n101 17.8.0 2023-03 RAN#99 R5-230074 2065 - F Adding Out-of-band blocking for new NR bands n100, n101 17.8.0 2023-03 RAN#99 R5-230075 2066 - F Adding Narrowband blocking for new NR bands n100, n101 17.8.0 2023-03 RAN#99 R5-230091 2069 - F Update of the conformance requirements for the configured transmitted power for Inter-band CA 17.8.0 2023-03 RAN#99 R5-230218 2070 - F Clarification on editors note of EVM including symbols with transient period 17.8.0 2023-03 RAN#99 R5-230283 2077 - F Update minimum requirements of reference sensitivity exceptions due to intermodulation interference for 3DL/2UL cases of CA_n2A-n5A-n77A, CA_n2A-n66A-n77A, and CA_n5A-n66A-n77A 17.8.0 2023-03 RAN#99 R5-230284 2078 - F Update delta TIB,c for CA_n2A-n5A-n77A, CA_n2A-n66A- n77A, and CA_n5A-n66A-n77A 17.8.0 2023-03 RAN#99 R5-230285 2079 - F Update delta RIB,c for CA_n2A-n5A-n77A, CA_n2A-n66A- n77A, and CA_n5A-n66A-n77A 17.8.0 2023-03 RAN#99 R5-230286 2080 - F Update Chapter 5 for inter-band NR CA configurations of three bands CA_n2A-n5A-n77A, CA_n2A-n66A-n77A, and CA_n5A-n66A-n77A 17.8.0 2023-03 RAN#99 R5-230303 2081 - F FR1 - ACLR requirements for PC3 missing in 6.5G.2.3.1 17.8.0 2023-03 RAN#99 R5-230304 2082 - F FR1 - Out-of-band blocking 3DL and 4DL CA - carrier selection correction 17.8.0 2023-03 RAN#99 R5-230311 2089 - F FR1 ACS and IBB 2DL CA - Corrections for n48-n77 case 17.8.0 2023-03 RAN#99 R5-230312 2090 - F FR1 - SRS time mask - P-max to be limited to 23dBm 17.8.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2360 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-03 RAN#99 R5-230551 2092 - F Style correction in 6.2.2.2 and removal of PC 1.5 from 6.2.2.3 17.8.0 2023-03 RAN#99 R5-230552 2093 - F Correction of test applicability of 6.2.3 17.8.0 2023-03 RAN#99 R5-230553 2094 - F Editorial correction of style for clause heading of 6.3A.3.1 17.8.0 2023-03 RAN#99 R5-230554 2095 - F Editorial correction of style for table heading of Table 6.3D.3.4.3-1 17.8.0 2023-03 RAN#99 R5-230555 2096 - F Editorial correction for test applicability in 6.5.2.3.2 17.8.0 2023-03 RAN#99 R5-230556 2097 - F Correction of test applicability and test description of 6.5.3.3 17.8.0 2023-03 RAN#99 R5-230557 2098 - F Editorial correction for table titles in 6.5C 17.8.0 2023-03 RAN#99 R5-230558 2099 - F Editorial correction for subclause number in 6.5E.3.2.1D 17.8.0 2023-03 RAN#99 R5-230561 2102 - F Editorial correction for content style in test applicability section of some TxD test cases 17.8.0 2023-03 RAN#99 R5-230562 2103 - F Addition of subclause F.1.0 17.8.0 2023-03 RAN#99 R5-230678 2110 - F Correction in 6.2D.4 to cover power boost Pi/2 BPSK 17.8.0 2023-03 RAN#99 R5-230806 2111 - F Introduction of CA_n3A-n78A PC2 REFSENS test requirements 17.8.0 2023-03 RAN#99 R5-230808 2112 - F General updates of clause 5 for R16 CADC configurations 17.8.0 2023-03 RAN#99 R5-230888 2126 - F Correcting the definition of RedCap UE 17.8.0 2023-03 RAN#99 R5-230915 2127 - F Adding 6.4F.2.2 Carrier leakage for NR-U 17.8.0 2023-03 RAN#99 R5-230916 2128 - F Adding 6.4F.2.3 In-band emissions for NR-U 17.8.0 2023-03 RAN#99 R5-230917 2129 - F Update_MU_TT for NR-U 17.8.0 2023-03 RAN#99 R5-230918 2130 - F Introduction of 6.4F.2.4_for NR-U 17.8.0 2023-03 RAN#99 R5-230919 2131 - F Adding 6.5F.4 Transmit intermod for NR-U 17.8.0 2023-03 RAN#99 R5-230967 2133 - F Clarification on relationship between CBW applicability and order of CC 17.8.0 2023-03 RAN#99 R5-230968 2134 - F Clarification of notes in test configuration tables of Rx test cases for CA 17.8.0 2023-03 RAN#99 R5-230972 2138 - F Addition of CBW 35 MHz, 45 MHz, 70 MHz to IBB and OBB for CA 17.8.0 2023-03 RAN#99 R5-230974 2140 - F Correction to test procedure of SEM for intra-band non- contiguous CA 17.8.0 2023-03 RAN#99 R5-230975 2141 - F Addition of new annex for difference of relative phase and power errors for UL coherent MIMO 17.8.0 2023-03 RAN#99 R5-230995 2142 - F Update of PUCCH aggregate power TC 17.8.0 2023-03 RAN#99 R5-230998 2144 - F Update of new NR Bands into TC 7.3I.2 Reference sensitivity power level for redcap 17.8.0 2023-03 RAN#99 R5-231073 2145 - F Updating test case Occupied bandwidth for SUL 17.8.0 2023-03 RAN#99 R5-231075 2147 - F Correction to RB allocations for intra-band contiguous CA 17.8.0 2023-03 RAN#99 R5-231076 2148 - F Updating test requirement of test case Absolute power tolerance for SUL 17.8.0 2023-03 RAN#99 R5-231077 2149 - F Updating test case Relative power tolerance for SUL 17.8.0 2023-03 RAN#99 R5-231078 2150 - F Correction to test case Relative power tolerance for UL MIMO 17.8.0 2023-03 RAN#99 R5-231080 2151 - F Updating clause 4.3 to align with core specification 17.8.0 2023-03 RAN#99 R5-231081 2152 - F Updating MOP for MIMO testing for band n24 17.8.0 2023-03 RAN#99 R5-231082 2153 - F Updating MPR for MIMO test case for band n24 17.8.0 2023-03 RAN#99 R5-231083 2154 - F Adding new FR1 test case Absolute power tolerance for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231085 2156 - F Adding new FR1 test case Aggregate power tolerance for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231086 2157 - F Adding new FR1 test case Occupied bandwidth for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231087 2158 - F Adding new FR1 test case Frequency error for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231089 2160 - F Adding new FR1 test case Spectrum emission mask for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231090 2161 - F Updating MU and TT for new test cases for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231092 2162 - F Editorial correction to In-band blocking for Intra-band contiguous CA 17.8.0 2023-03 RAN#99 R5-231097 2166 - F Adding new FR1 test case EVM equalizer spectrum flatness for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231098 2167 - F Adding new FR1 test case Time alignment error for SUL with UL MIMO 17.8.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2361 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-03 RAN#99 R5-231099 2168 - F Adding new FR1 test case Transmit intermodulation for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231175 2169 - F Update of MOP TC for CA_n3A-n8A 17.8.0 2023-03 RAN#99 R5-231179 2170 - F Updated to TC6.5.1 for n14 with 10MHz CBW 17.8.0 2023-03 RAN#99 R5-231191 2171 - F Update of delta TIB,c for new R16 CA configurations 17.8.0 2023-03 RAN#99 R5-231291 2180 - F Corrections on scaling factors for MPR and NS_04 SEM requirements 17.8.0 2023-03 RAN#99 R5-231295 2181 - F Corrections on the requirements for UE MPR for intra-band contiguous CA in FR1 17.8.0 2023-03 RAN#99 R5-231299 2182 - F Editorial update of MPR test cases 17.8.0 2023-03 RAN#99 R5-231300 2183 - F Update of NR ACLR test case 17.8.0 2023-03 RAN#99 R5-231302 2184 - F Editorial correction of in-band emissions for SUL 17.8.0 2023-03 RAN#99 R5-231379 2187 - F Correction for wrong reference in NS_50 17.8.0 2023-03 RAN#99 R5-231380 2188 - F Correction on band combinations for UE co-existence 17.8.0 2023-03 RAN#99 R5-231618 2101 1 F Editorial correction for content style in 6.2.1.2, 6.5.2.4.1.2, 6.5.3.1.2, 6.5.3.2.2 and 6.5.4.2 17.8.0 2023-03 RAN#99 R5-231619 2179 1 F Corrections on the test for UE maximum output power 17.8.0 2023-03 RAN#99 R5-231626 2172 1 F Update of Spurious emissions for UE co-existence for CA_n1A-n8A 17.8.0 2023-03 RAN#99 R5-231627 2173 1 F Update of general spurious emissions for CA_n1A-n8A 17.8.0 2023-03 RAN#99 R5-231628 2073 1 F Introduction of CA_n41A-n66A, RIB,c and sensitivity exception. 17.8.0 2023-03 RAN#99 R5-231629 2074 1 F Introduction of CA_n41A-n66A new test point. 17.8.0 2023-03 RAN#99 R5-231630 2075 1 F Introduction of CA_n41A-n66A, exception test point due to CBI 17.8.0 2023-03 RAN#99 R5-231631 2174 1 F Introduction of CA_n41A-n71A configuration, RIB,c and sensitivity exception. 17.8.0 2023-03 RAN#99 R5-231637 2071 1 F Correction to RB allocation configuration for intra-band contiguous CA in Table 6.1A-1b 17.8.0 2023-03 RAN#99 R5-231638 2137 1 F Addition of CBW 35 MHz and 45 MHz to NS_03 in Additional SEM 17.8.0 2023-03 RAN#99 R5-231639 2123 1 F Updating Annex F for intra-band contiguous CA test cases 17.8.0 2023-03 RAN#99 R5-231640 2125 1 F Removing redundant test cases 17.8.0 2023-03 RAN#99 R5-231641 2117 1 F Adding PC2 intra-band contiguous testing to 6.2A.3.1 17.8.0 2023-03 RAN#99 R5-231642 2118 1 F Adding PC2 intra-band contiguous testing to 6.5A.2.3 17.8.0 2023-03 RAN#99 R5-231643 2119 1 F Adding PC2 intra-band contiguous testing to 6.5A.3.3 17.8.0 2023-03 RAN#99 R5-231644 2120 1 F Adding PC2 intra-band contiguous testing to 6.5A.2.4.1 17.8.0 2023-03 RAN#99 R5-231645 2121 1 F Adding PC2 intra-band contiguous testing to 6.5A.3.1.1 17.8.0 2023-03 RAN#99 R5-231646 2122 1 F Adding PC2 intra-band contiguous testing to 6.5A.3.2.1 17.8.0 2023-03 RAN#99 R5-231647 2115 1 F Adding 45MHz PC2 test configuration to 6.2.3 NS_49 17.8.0 2023-03 RAN#99 R5-231648 2113 1 F Update to minimum requirement of 6.2.3 NS_27 17.8.0 2023-03 RAN#99 R5-231649 2114 1 F Update to configuration table of 6.2.3 NS_18 17.8.0 2023-03 RAN#99 R5-231650 2155 1 F Adding new FR1 test case Relative power tolerance for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231651 2159 1 F Adding new FR1 test case Error Vector Magnitude for SUL with UL MIMO 17.8.0 2023-03 RAN#99 R5-231652 2163 1 F Correction to Additional spurious emissions for UL MIMO 17.8.0 2023-03 RAN#99 R5-231653 2165 1 F Correction to RB allocation for test case A-MPR_for NS_48 17.8.0 2023-03 RAN#99 R5-231654 2084 1 F FR1 PC2 NS_49 A-MPR - RB allocations inconsistent vs applicable A-MPR 17.8.0 2023-03 RAN#99 R5-231655 2072 1 F Corrections of test requirement tables for spurious emission for UE co-existence for NR CA 17.8.0 2023-03 RAN#99 R5-231656 2076 1 F Update test configuration and test requirement for three band interband reference sensitivity for CA_n2A-n5A-n77A, CA_n2A-n66A-n77A, and CA_n5A-n66A-n77A 17.8.0 2023-03 RAN#99 R5-231657 2067 1 F Adding UE maximum output power reduction for new NR bands n91, n92, n93, n94 17.8.0 2023-03 RAN#99 R5-231659 2177 1 F Corrections on additional reference channels parameters for TDD 17.8.0 2023-03 RAN#99 R5-231700 2085 1 F FR1 Refsens - RB allocation alignment to core specs 17.8.0 2023-03 RAN#99 R5-231701 2106 1 F Update CBW 35MHz into sub-clauses 6.3.1, 6.3.2, 6.3.3.2, 6.3.4 17.8.0 2023-03 RAN#99 R5-231702 2107 1 F Update CBW 35MHz into sub-clause 6.3D.1 17.8.0 2023-03 RAN#99 R5-231703 2108 1 F Update CBW 35MHz into sub-clauses 6.5.2.2, 6.5.2.4.1, 6.5D.1, 6.5D.2 17.8.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2362 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-03 RAN#99 R5-231704 2109 1 F Update CBW 35MHz into sub-clause 7.4D 17.8.0 2023-03 RAN#99 R5-231705 2104 1 F General updates of clause 5 for R17 new CBW configurations 17.8.0 2023-03 RAN#99 R5-231796 2164 1 F Correction to Uplink configuration RB allocation for n78 in REFSENS testing 17.8.0 2023-03 RAN#99 R5-231807 2100 1 F Correction of test case title of 7.6D.2_1 and 7.8D.2_1 17.8.0 2023-03 RAN#99 R5-231857 2062 1 F Adding spurious emissions for UE co-existence for new NR bands n100, n101 17.8.0 2023-03 RAN#99 R5-231858 2124 1 F Update to applicability of legacy test cases 17.8.0 2023-03 RAN#99 R5-231861 2105 1 F Update CBW 35MHz into sub-clause 6.2.2 17.8.0 2023-03 RAN#99 R5-231863 2132 1 F Update of inter-band CA reference sensitivity to handle simultaneous Rx/Tx capability 17.8.0 2023-03 RAN#99 R5-231885 2176 1 F Updates to A-MPR and A-SEM for NS_21 17.8.0 2023-03 RAN#99 R5-231889 2175 2 F Introduction of CA_n41A-n71A new test point. 17.8.0 2023-03 RAN#99 R5-231952 2136 1 F Correction to SDL band for blocking test cases 17.8.0 2023-03 RAN#99 R5-231953 2143 1 F Addition of configuration for carrier aggregation RMCs 17.8.0 2023-03 RAN#99 R5-231964 2178 1 F Corrections on channel bandwidth for V2X 17.8.0 2023-06 RAN#100 R5-232109 2190 - F Introduction of Output power requirements for CA_n28A- n78A 17.9.0 2023-06 RAN#100 R5-232111 2192 - F Introduction of General spurious emissions test requirements for CA_n28A-n78A 17.9.0 2023-06 RAN#100 R5-232113 2194 - F Introduction of Spurious emissions for UE co-existence test requirements for CA_n28A-n78A 17.9.0 2023-06 RAN#100 R5-232119 2196 - F Add Reference sensitivity power level test requirements for CA_n28A-n78A 17.9.0 2023-06 RAN#100 R5-232241 2197 - F Update general spurious emissions for CA_n2A-n77A, CA_n5A-n77A, and CA_n66A-n77A 17.9.0 2023-06 RAN#100 R5-232243 2199 - F Update inter-band NR CA PC3 reference sensitivity test configuration and test requirement tables 17.9.0 2023-06 RAN#100 R5-232276 2203 - F Addition of refsence sensitivity for n28A-n77A 17.9.0 2023-06 RAN#100 R5-232278 2205 - F Addition of refsence sensitivity for n3A-n77A 17.9.0 2023-06 RAN#100 R5-232341 2207 - F Corrections for certain FR1 combos in section 7.3A.1_1 17.9.0 2023-06 RAN#100 R5-232348 2211 - F p-Max conditions corrections in 6.5A.3.1.1 17.9.0 2023-06 RAN#100 R5-232353 2212 - F Test configuration table update for NS 46 in A-MPR test 17.9.0 2023-06 RAN#100 R5-232355 2214 - F K1 and number of HARQ processes for CA exceptions updates 17.9.0 2023-06 RAN#100 R5-232410 2221 - F General updates of clause 5 for R17 new CBW configurations 17.9.0 2023-06 RAN#100 R5-232411 2222 - F Addition of 7.3A.1 for CA_n1A-n8A and CA_n3A-n8A 17.9.0 2023-06 RAN#100 R5-232413 2224 - F Addition of general spurious emissions for CA_n1A-n3A 17.9.0 2023-06 RAN#100 R5-232414 2225 - F Addition of Spurious emissions for UE co-existence for CA_n1A-n3A 17.9.0 2023-06 RAN#100 R5-232444 2226 - F Adding UE maximum output power for new NR band n13 17.9.0 2023-06 RAN#100 R5-232445 2227 - F Adding UE maximum output power reduction for new NR band n13 17.9.0 2023-06 RAN#100 R5-232579 2229 - F Addition of test case 6.5F.2.4.2, Shared spectrum channel access ACLR with additional requirement for NS_29 17.9.0 2023-06 RAN#100 R5-232611 2230 - F General SE for CA_n5A-n48A 17.9.0 2023-06 RAN#100 R5-232612 2231 - F TX SE_Co_exist for CA_n5A-n48A 17.9.0 2023-06 RAN#100 R5-232613 2232 - F Update 7.3A.1 for CA_n5A-n48A 17.9.0 2023-06 RAN#100 R5-232614 2233 - F Update 6.2A.1.1 for CA_n5A-n48A 17.9.0 2023-06 RAN#100 R5-232616 2234 - F Update 6.2A.4.0.2.3 for CA_n5A-n48A 17.9.0 2023-06 RAN#100 R5-232625 2235 - F Update 6.2A.4.0.2.3 for CA_n2A-n5A and CA_n2A-n48A 17.9.0 2023-06 RAN#100 R5-232636 2236 - F Update 7.1 for NR-U 17.9.0 2023-06 RAN#100 R5-232637 2237 - F Update 5.2 note 14 for NR-U 17.9.0 2023-06 RAN#100 R5-232695 2238 - F Update 6.5F.3.1 General SE for NR-U 17.9.0 2023-06 RAN#100 R5-232697 2239 - F Update 6.5F.2.4.1 ACLR for NR-U 17.9.0 2023-06 RAN#100 R5-232726 2242 - F Addition of abbreviation and clause 4 general description for Tx diversity 17.9.0 2023-06 RAN#100 R5-232732 2243 - F Addition of new test case 6.2D.2_1 UE MPR for SUL with UL MIMO 17.9.0 2023-06 RAN#100 R5-232733 2244 - F Addition of new test case 6.2D.3_1 UE A-MPR for SUL with UL MIMO 17.9.0 2023-06 RAN#100 R5-232734 2245 - F Addition of new test case 6.4D.2.2_1 Carrier leakage for SUL with UL MIMO 17.9.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2363 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-06 RAN#100 R5-232735 2246 - F Addition of new test case 6.4D.2.3_1 In-band emissions for SUL with UL MIMO 17.9.0 2023-06 RAN#100 R5-232736 2247 - F Addition of new test case 6.5D.2.4.1_1 NR ACLR for SUL with UL MIMO 17.9.0 2023-06 RAN#100 R5-232737 2248 - F Addition of new test case 6.5D.2.4.2_1 UTRA ACLR for SUL with UL MIMO 17.9.0 2023-06 RAN#100 R5-232738 2249 - F Addition of new test case 6.5D.3_2.1 General spurious emissions 17.9.0 2023-06 RAN#100 R5-232739 2250 - F Addition of new test case 6.5D.3_2.2 Spurious emissions for UE co-existence 17.9.0 2023-06 RAN#100 R5-232740 2251 - F Addition of new test case 6.5D.3_2.3 Additional spurious emissions 17.9.0 2023-06 RAN#100 R5-232741 2252 - F Addition of Annex F for new test cases for SUL with UL MIMO 17.9.0 2023-06 RAN#100 R5-232747 2254 - F Update of PC2 UE maximum output power for inter-band CA configurations 17.9.0 2023-06 RAN#100 R5-232750 2256 - F Addition of UL MIMO SEM and NR ACLR test cases for Power Class 1.5 17.9.0 2023-06 RAN#100 R5-232751 2257 - F Editorial correction of reference table numbers for SUL test cases 17.9.0 2023-06 RAN#100 R5-232791 2259 - F Update of delta TIB,c for CA_n39A-n41A 17.9.0 2023-06 RAN#100 R5-232792 2260 - F Update of delta RIB,c for CA_n39A-n41A 17.9.0 2023-06 RAN#100 R5-232796 2262 - F Update of delta TIB,c for CA_n28A-n41A-n79A 17.9.0 2023-06 RAN#100 R5-232797 2263 - F Update of delta RIB,c for CA_n28A-n41A-n79A 17.9.0 2023-06 RAN#100 R5-232804 2265 - F Update for PC2 n39 A-SE 17.9.0 2023-06 RAN#100 R5-232874 2268 - F Correction of delta RIB,c , Core spec alignment 17.9.0 2023-06 RAN#100 R5-232879 2269 - F Addition of Delta RIB,c for CA_n41A-n66A-n71A 17.9.0 2023-06 RAN#100 R5-232880 2270 - F Addition of CA_n41A-n66A-n71A in Table 7.3A.2.5-1 17.9.0 2023-06 RAN#100 R5-232897 2271 - F Update of applicability of simultaneous RxTx capability for CA_n28-n79 17.9.0 2023-06 RAN#100 R5-232978 2273 - F Adding additional spectrum emission mask requirement for new NR band n13 17.9.0 2023-06 RAN#100 R5-232979 2274 - F Adding spurious emissions for UE co-existence for new NR band n13 17.9.0 2023-06 RAN#100 R5-232980 2275 - F Adding additional spurious emissions for new NR band n13 17.9.0 2023-06 RAN#100 R5-232993 2276 - F Correction to inter-band test frequencies exceptions in Rx CA test cases 17.9.0 2023-06 RAN#100 R5-232996 2279 - F Update of Annex D.2 for interference signals lower than 2700 MHz 17.9.0 2023-06 RAN#100 R5-233023 2281 - F Removing redundant parameter setting from time mask testing 17.9.0 2023-06 RAN#100 R5-233036 2283 - F Correction of P-max in AMPR for CA 17.9.0 2023-06 RAN#100 R5-233037 2284 - F Adding PC2 intra-band contiguous testing to 6.5A.3.2.1 17.9.0 2023-06 RAN#100 R5-233083 2286 - F Updating test case UTRA ACLR for UL MIMO 17.9.0 2023-06 RAN#100 R5-233084 2287 - F Updating test case AMPR for UL MIMO 17.9.0 2023-06 RAN#100 R5-233085 2288 - F Updating test requirement of test case AMPR for UL MIMO 17.9.0 2023-06 RAN#100 R5-233090 2292 - F Correction to NS_04 test configuration for Additional spurious emissions for UL MIMO 17.9.0 2023-06 RAN#100 R5-233092 2293 - F Correction to test frequency description for intra-band UL non-contiguous CA 17.9.0 2023-06 RAN#100 R5-233100 2295 - F Updating test case AMPR for UL MIMO 17.9.0 2023-06 RAN#100 R5-233101 2296 - F Updating PUCCH configuration in Aggregate power tolerance for SUL with UL MIMO 17.9.0 2023-06 RAN#100 R5-233102 2297 - F Updating MOP for PC2 configuration CA_n78C 17.9.0 2023-06 RAN#100 R5-233103 2298 - F Updating MPR for PC2 configuration CA_n78C 17.9.0 2023-06 RAN#100 R5-233186 2302 - F Correction to clauses using void table 5.5A.3-x 17.9.0 2023-06 RAN#100 R5-233193 2303 - F Editorial correction to TC6.2.3 configuration table for NS_06 17.9.0 2023-06 RAN#100 R5-233207 2304 - F Corrections on blocking characteristics requirements for V2X 17.9.0 2023-06 RAN#100 R5-233210 2305 - F Corrections on intermodulation characteristics requirements for V2X 17.9.0 2023-06 RAN#100 R5-233211 2306 - F Corrections on NR V2X reference sensitivity test requirements 17.9.0 2023-06 RAN#100 R5-233212 2307 - F Corrections on NR V2X spurious response requirements 17.9.0 2023-06 RAN#100 R5-233218 2309 - F Corrections on the minimum guardband calculation for FR1 17.9.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2364 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-06 RAN#100 R5-233236 2310 - F Clarification of UL Tx Switching in SA RF test case 17.9.0 2023-06 RAN#100 R5-233510 2191 1 F Introduction of additional maximum output power reduction for CA_n28A-n78A 17.9.0 2023-06 RAN#100 R5-233511 2193 1 F Introduction of Spurious emissions for UE co-existence requirements for CA_n28A-n78A 17.9.0 2023-06 RAN#100 R5-233515 2294 1 F Updating Transmit ON/OFF time mask for CA for intra-band non-contiguous CA 17.9.0 2023-06 RAN#100 R5-233517 2195 1 F Adding Reference sensitivity exceptions due to UL harmonic interference for CA_n28A-n78A 17.9.0 2023-06 RAN#100 R5-233524 2272 1 F Adding UE additional maximum output power reduction for new NR band n13 17.9.0 2023-06 RAN#100 R5-233525 2291 1 F Correction to REFSENS exceptions testing for CA_n7A- n78A 17.9.0 2023-06 RAN#100 R5-233532 2299 1 F Correction for CA_n66A-n71A 17.9.0 2023-06 RAN#100 R5-233533 2206 1 F Update for CA_n2A-n48A and CA_n2A-n77A combos in section 7.3A.0 17.9.0 2023-06 RAN#100 R5-233534 2267 1 F Editorial changes in Table 7.3A.1.5-1 17.9.0 2023-06 RAN#100 R5-233536 2308 1 F Corrections on supported channel bandwidths for SUL configurations 17.9.0 2023-06 RAN#100 R5-233537 2311 1 F Addition of new FR1 phase continuity test 17.9.0 2023-06 RAN#100 R5-233538 2200 1 F Update inter-band NR CA PC2 MOP configurations for 2UL CA_n2A-n77A, CA_n5A-n77A, and CA_n66A-n77A 17.9.0 2023-06 RAN#100 R5-233539 2261 1 F Addition of R17 new CA PC2 configs for Ref sens exceptions TC 7.3A.0 17.9.0 2023-06 RAN#100 R5-233540 2301 1 F Correction of ON/OFF time mask for Tx Diversity 17.9.0 2023-06 RAN#100 R5-233541 2213 1 F NS_27 - corrections for 30MHz RBStart for condition A1 17.9.0 2023-06 RAN#100 R5-233542 2280 1 F Addition of BW condition to 6.5D.2.3 A-SEM for UL MIMO 17.9.0 2023-06 RAN#100 R5-233543 2282 1 F Clarification of spurious emission testing configuration - Part 1 17.9.0 2023-06 RAN#100 R5-233547 2285 1 F Updating FR1 test case Additional spectrum emission mask for UL MIMO 17.9.0 2023-06 RAN#100 R5-233548 2289 1 F Updating PUCCH aggregated power tolerance test case for SUL and for MIMO 17.9.0 2023-06 RAN#100 R5-233549 2290 1 F Updating MU values for NR FR1 Relative power tolerance for UL MIMO 17.9.0 2023-06 RAN#100 R5-233555 2312 - F General updates of clause 5 for R16 CA configurations 17.9.0 2023-06 RAN#100 R5-233556 2313 - F General updates of clause 5 for R17 CA configurations 17.9.0 2023-06 RAN#100 R5-233705 2198 1 F Update minimum requirement table for reference sensitivity exceptions and uplink/downlink configurations due to harmonic mixing from a PC3 aggressor 17.9.0 2023-06 RAN#100 R5-233706 2228 1 F Correction UL RB configuration for CA_n1-n3-n78 17.9.0 2023-06 RAN#100 R5-233711 2201 1 F Update inter-band NR CA PC2 reference sensitivity minimum requirements for a few 2DL band configurations 17.9.0 2023-06 RAN#100 R5-233712 2202 1 F Update PC2 information for 2DL test configuration exception table and test requirement table for a few NR CA 2DL 2UL combos 17.9.0 2023-06 RAN#100 R5-233720 2240 1 F Update of 6.4G.2.4 EVM equalizer spectrum flatness for Tx Diversity 17.9.0 2023-06 RAN#100 R5-233721 2264 1 F Update for PC2 PC3 n39 A-MPR 17.9.0 2023-06 RAN#100 R5-233722 2277 1 F Correction to transmission power in 7.6.3 Out-of-band blocking 17.9.0 2023-09 RAN#101 R5-233946 2314 - F Introduction of Output power requirements for CA_n20A- n78A 17.10.0 2023-09 RAN#101 R5-233962 2318 - F Introduction of Out-of-band blocking requirements for new NR band n13 17.10.0 2023-09 RAN#101 R5-233965 2319 - F Editorial correction to UE additional maximum output power reduction for new NR band n13 17.10.0 2023-09 RAN#101 R5-234044 2320 - F Adding FRC configurations for 1024QAM 17.10.0 2023-09 RAN#101 R5-234119 2326 - F Correction of table number in NOTE 4 of Table 6.2I.1.5-1 17.10.0 2023-09 RAN#101 R5-234163 2336 - F CA n48A-n66A PCC SCC swap in 7.3A.1_1 needed for 2 UL exception case 17.10.0 2023-09 RAN#101 R5-234164 2337 - F CA n48A-n77A PCC frequency correction for n77 in 7.8A.2.1 17.10.0 2023-09 RAN#101 R5-234165 2338 - F FR1 ACS and IBB 2DL CA - Corrections for n48-n77 case 17.10.0 2023-09 RAN#101 R5-234168 2341 - F n5 asymmetric band declaration missing in section 5.3.6 17.10.0 2023-09 RAN#101 R5-234169 2342 - F Pending MU and TT update for FR1 RedCap 17.10.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2365 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-09 RAN#101 R5-234177 2349 - F Missing MU definition for 7.6C.2 in annex F.1.3 17.10.0 2023-09 RAN#101 R5-234179 2350 - F Missing REFSENS requirements for certain n7 BWs 17.10.0 2023-09 RAN#101 R5-234180 2351 - F Pending BW addition in 6.5D.2.3 17.10.0 2023-09 RAN#101 R5-234197 2353 - F Update Clause 6 common requirements for additional 3DL inter-band NR CA configurations 17.10.0 2023-09 RAN#101 R5-234199 2355 - F Update test configurations and test requirements for interband reference sensitivity of additional three band configurations 17.10.0 2023-09 RAN#101 R5-234201 2356 - F Update common clause requirements for high power support for some inter-band NR CA configurations 17.10.0 2023-09 RAN#101 R5-234203 2357 - F Update inter-band NR CA PC2 reference sensitivity minimum requirements and test cases for a few 3DL band configurations 17.10.0 2023-09 RAN#101 R5-234296 2359 - F Addition of delta TIBc and UE maximum output power for new NRCA comb within FR1 17.10.0 2023-09 RAN#101 R5-234533 2364 - F Addition of spur emission requirements of CA_n5A-n66A. 17.10.0 2023-09 RAN#101 R5-234591 2370 - F Update Transmit intermod for NR-U 17.10.0 2023-09 RAN#101 R5-234637 2374 - F Remove duplicated AMPR test configurations for NS_24 17.10.0 2023-09 RAN#101 R5-234639 2375 - F Editorial correction for 7.8A.2.1 wideband intermodulation for 2DL CA in FR1 17.10.0 2023-09 RAN#101 R5-234641 2376 - F update for 6.5F.1 Occupied bandwidth for NR-U 17.10.0 2023-09 RAN#101 R5-234707 2377 - F Update of IE p-Max value for MPR and SEM for inter-band CA Power Class 3 17.10.0 2023-09 RAN#101 R5-234708 2378 - F Addition of MPR test requirements for inter-band CA Power Class 2 17.10.0 2023-09 RAN#101 R5-234709 2379 - F Addition of A-MPR test requirements for inter-band CA Power Class 2 17.10.0 2023-09 RAN#101 R5-234710 2380 - F Update of IE p-Max value for SEM for inter-band CA Power Class 2 17.10.0 2023-09 RAN#101 R5-234712 2381 - F Addition of MPR requirements for UEs supporting higher power limit 17.10.0 2023-09 RAN#101 R5-234713 2382 - F Addition of A-MPR requirements for UEs supporting higher power limit 17.10.0 2023-09 RAN#101 R5-234746 2387 - F Addition of PC2 n40 MOP 17.10.0 2023-09 RAN#101 R5-234773 2392 - F Clear-up CR for misalignment Ref Sense table 17.10.0 2023-09 RAN#101 R5-234787 2394 - F Update of 6.2G.2 MPR for Power Class 1.5 for TxD 17.10.0 2023-09 RAN#101 R5-234829 2398 - F Correction of 5.2A.1 intra-band CA operating bands 17.10.0 2023-09 RAN#101 R5-234836 2402 - F Update to 6.3A.3.1_1 of 1Tx-2Tx UL switching for inter- band CA 17.10.0 2023-09 RAN#101 R5-234843 2407 - F Addition of AMPR for CA_n28-n79 17.10.0 2023-09 RAN#101 R5-234844 2408 - F Adding DeltaTIB for CA_n28-n79 17.10.0 2023-09 RAN#101 R5-234845 2409 - F Addition of spurious emission co-existence for CA_n28-n79 17.10.0 2023-09 RAN#101 R5-234847 2410 - F Addition of AMPR for PC2 CA_n28A-n79A 17.10.0 2023-09 RAN#101 R5-234848 2411 - F Update to 6.3A.3.3 of 2Tx-2Tx UL switching for inter-band CA 17.10.0 2023-09 RAN#101 R5-234863 2412 - F Addition of additional test frequencies for AMPR NS_50 17.10.0 2023-09 RAN#101 R5-234907 2415 - F Correction to title of Reference sensitivity for RedCap 17.10.0 2023-09 RAN#101 R5-234908 2416 - F Correction to A-MPR for NS_44 17.10.0 2023-09 RAN#101 R5-234909 2417 - F Correction to message contents of 6.5A.2.2.1 17.10.0 2023-09 RAN#101 R5-234910 2418 - F Correction to REFSENS formula for n41, n77, n78 17.10.0 2023-09 RAN#101 R5-234911 2419 - F Correction to A-MPR for UL MIMO 17.10.0 2023-09 RAN#101 R5-235012 2421 - F Addition of TC 6.5A.3.1.1 general spurious emissions for CA_n3A-n8A 17.10.0 2023-09 RAN#101 R5-235038 2425 - F Editorial: Removing editor’s Note in test case 6.5D.2.2_1 17.10.0 2023-09 RAN#101 R5-235048 2428 - F Editorial: Removing editor’s note in test case 6.3C.3.2 17.10.0 2023-09 RAN#101 R5-235049 2429 - F Updating REFSENS for CA test case for CA_n39A-n41A 17.10.0 2023-09 RAN#101 R5-235142 2443 - F Correction of A-MPR test case 17.10.0 2023-09 RAN#101 R5-235149 2445 - F Correction of ACS for CA test case 17.10.0 2023-09 RAN#101 R5-235151 2446 - F Editorial correction of PRACH time mask test case 17.10.0 2023-09 RAN#101 R5-235163 2448 - F Rel-15 Alignment of channel bandwidth between 38.521-1 and 38.101-1 17.10.0 2023-09 RAN#101 R5-235236 2458 - F Introducing modification for NS_43 A-MPR region 17.10.0 2023-09 RAN#101 R5-235237 2459 - F Adding missing channel bandwidth for NS_01 17.10.0 2023-09 RAN#101 R5-235619 2315 1 F Introduction of spurious emissions test requirements for CA_n20A-n78A 17.10.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2366 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-09 RAN#101 R5-235624 2362 1 F Addition of several NR CA combos to reference sensitivity cases 17.10.0 2023-09 RAN#101 R5-235625 2430 1 F Updating REFSENS for CA testing for CA_n28A-n41A- n79A 17.10.0 2023-09 RAN#101 R5-235627 2431 1 F Updating PC2 REFSENS testing for CA configurations 17.10.0 2023-09 RAN#101 R5-235628 2404 1 F Addition of intra-band non-contiguous CA to spurious emission for CA 17.10.0 2023-09 RAN#101 R5-235630 2372 1 F Update ACLR for NR-U 17.10.0 2023-09 RAN#101 R5-235631 2396 1 F Addition of 6.2F.2 UE maximum output power reduction for shared spectrum access 17.10.0 2023-09 RAN#101 R5-235634 2414 1 F Update for FR1 EVM including symbols with transient period 17.10.0 2023-09 RAN#101 R5-235636 2366 1 F Addition of delta TIB for CA_n5-n66. 17.10.0 2023-09 RAN#101 R5-235637 2406 1 F Addition of minimum requirement of AMPR for CA_n77(2A) 17.10.0 2023-09 RAN#101 R5-235638 2335 1 F Addition of CA_n3A-n8A into TC 7.3A Reference sensitivity for CA 17.10.0 2023-09 RAN#101 R5-235639 2323 1 F Adding REFSENS exception requirements for CA_n3A- n78A PC2 17.10.0 2023-09 RAN#101 R5-235640 2403 1 F Update to 6.2A.1.1 MOP for CA 17.10.0 2023-09 RAN#101 R5-235641 2405 1 F Correction of minimum requirement of 7.3A.0.2.2 17.10.0 2023-09 RAN#101 R5-235642 2393 1 F Update of 6.2G.1 MOP test requirements for TxD 17.10.0 2023-09 RAN#101 R5-235643 2451 1 F Add max UE power for ULCA with NR-U 17.10.0 2023-09 RAN#101 R5-235644 2399 1 F Editorial correction of AMPR for CA test requirements 17.10.0 2023-09 RAN#101 R5-235645 2348 1 F Core specs alignment in FR1 test case 7.6.4 17.10.0 2023-09 RAN#101 R5-235646 2400 1 F Correction to test requirements of EVM for CA 17.10.0 2023-09 RAN#101 R5-235647 2449 1 F Rel-16 Alignment of channel bandwidth between 38.521-1 and 38.101-1 17.10.0 2023-09 RAN#101 R5-235648 2360 1 F Addition of spurious emissions for CA_n3A-n77A 17.10.0 2023-09 RAN#101 R5-235650 2361 1 F Addition of spurious emissions for CA_n28A-n77A 17.10.0 2023-09 RAN#101 R5-235651 2432 1 F Removal of the delta RIB values for configuration CA_n66- n70-n71 17.10.0 2023-09 RAN#101 R5-235652 2434 1 F Corrections on notation for SUL CA configuration for transmitter power 17.10.0 2023-09 RAN#101 R5-235653 2437 1 F Alignments on the terms for NR DC configured maximum UE output power 17.10.0 2023-09 RAN#101 R5-235654 2435 1 F Corrections on notation for SUL CA configuration for reference sensitivity 17.10.0 2023-09 RAN#101 R5-235655 2438 1 F Corrections on the delta TIB values for NR DC configurations 17.10.0 2023-09 RAN#101 R5-235656 2439 1 F Corrections on the maximum output power tolerance 17.10.0 2023-09 RAN#101 R5-235657 2440 1 F Corrections on channel bandwidth for wide band intermodulation test 17.10.0 2023-09 RAN#101 R5-235658 2442 1 F FRC corrections for maximum input level receiver requirements 17.10.0 2023-09 RAN#101 R5-235659 2333 1 F General updates of TS 38.521-1 clause 5 for R16 CA configurations 17.10.0 2023-09 RAN#101 R5-235660 2352 1 F Update delta TIB,c for CA_n2A-n66A 17.10.0 2023-09 RAN#101 R5-235661 2354 1 F Update Clause 7 common requirements for additional 3DL inter-band NR CA configurations 17.10.0 2023-09 RAN#101 R5-235662 2339 1 F n66 4Rx requirements missing for certain combos in 7.3A.1_1 17.10.0 2023-09 RAN#101 R5-235663 2334 1 F General updates of TS 38.521-1 clause 5 for R17 CA configurations 17.10.0 2023-09 RAN#101 R5-235664 2317 1 F Introduction of Reference sensitivity requirements for new NR band n13 17.10.0 2023-09 RAN#101 R5-235813 2365 2 F Addition of spur emission co-existence requirements of CA_n5A-n66A. 17.10.0 2023-09 RAN#101 R5-235821 2427 1 F Updating RB allocations in table 6.1A-1b 17.10.0 2023-09 RAN#101 R5-235828 2363 1 F Update of UL MIMO Maximum Output Power TC 17.10.0 2023-09 RAN#101 R5-235829 2426 1 F Updating REFSENS for 2DL CA exceptions test case for PC3 UE 17.10.0 2023-09 RAN#101 R5-235830 2450 1 F Rel-17 Alignment of channel bandwidth between 38.521-1 and 38.101-1 17.10.0 2023-09 RAN#101 R5-235847 2316 1 F Adding Reference sensitivity power level test requirements for CA_n20A-n78A 17.10.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2367 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-09 RAN#101 R5-235849 2422 1 F Addition of TC 6.5A.3.2 Spurious emissions UE co- existence for CA_n3A-n8A 17.10.0 2023-09 RAN#101 R5-235850 2343 1 F TT and editor note update in NR-U Tx test cases for FR1 bands above 6GHz 17.10.0 2023-09 RAN#101 R5-235851 2344 1 F TT and editor note update in NR-U Rx test cases for FR1 bands above 6GHz 17.10.0 2023-09 RAN#101 R5-235852 2345 1 F MU and TT definition for FR1 bands above 6GHz - Annex F update 17.10.0 2023-09 RAN#101 R5-235853 2371 1 F Update SEM for NR-U 17.10.0 2023-09 RAN#101 R5-235859 2453 1 F Corrections on the higher power limit requirements for CA band combinations 17.10.0 2023-09 RAN#101 R5-235863 2369 1 F Update 6.2.2 for 38.521-1 17.10.0 2023-09 RAN#101 R5-235864 2401 1 F Clarification of unwanted emission testing configuration - Part 1 17.10.0 2023-09 RAN#101 R5-235867 2329 1 F Correction of requirements of Spurious emissions for UE co-existence for NR 17.10.0 2023-09 RAN#101 R5-235935 2454 1 F Updates to FR1 phase continuity test 17.10.0 2023-09 RAN#101 R5-235938 2321 1 F Update 7.4 max input level for 1024QAM 17.10.0 2023-09 RAN#101 R5-235939 2322 1 F Update 7.4A max input level for 1024QAM 17.10.0 2023-09 RAN#101 R5-235957 2433 1 F Removal of the delta RIB values for configuration CA_n26- n66-n70 17.10.0 2023-09 RAN#101 R5-234742 2383 - F Addition of PC1.5 n34 and n40 MOP 18.0.0 2023-09 RAN#101 R5-234743 2384 - F Addition of PC1.5 n34 and n40 MPR 18.0.0 2023-09 RAN#101 R5-234744 2385 - F Update of PC1.5 n34 Configured tx power requirements 18.0.0 2023-09 RAN#101 R5-234747 2388 - F Addition of n28 UL MIMO Operating band 18.0.0 2023-09 RAN#101 R5-234748 2389 - F Addition of n28 UL MIMO MOP 18.0.0 2023-09 RAN#101 R5-234749 2390 - F Addition of n28 UL MIMO MPR 18.0.0 2023-09 RAN#101 R5-234828 2397 - F Update of Operating bands for UL MIMO band n8 and n80 18.0.0 2023-09 RAN#101 R5-235016 2423 - F Addition of n1 n3 and n8 into TC 6.2D.1 MOP for UL MIMO 18.0.0 2023-09 RAN#101 R5-235154 2447 - F Addition of PC2 configuration n80 and n84 into TC 6.2D.1_1 18.0.0 2023-09 RAN#101 R5-235180 2452 - F Addition of n8 into TC 6.2D.2 MPR for UL MIMO 18.0.0 2023-09 RAN#101 R5-235617 2373 2 F Updates to spurious emissions UE coexistence test cases as part of introduction of LTE Band 54 18.0.0 2023-09 RAN#101 R5-235861 2358 1 F Introduction of PC1 transmitter requirements for railway bands n100 and n101 18.0.0 2023-12 RAN#102 R5-236083 2464 - F Add general spurious emissions for UE co-existence requirements for CA_n25A-n66A, CA_n25A-n77A, CA_n25A-n78A, CA_n66A-n78A 18.1.0 2023-12 RAN#102 R5-236084 2465 - F Add Spurious emissions for UE co-existence test requirements for CA_n25A-n66A, CA_n25A-n77A, CA_n25A-n78A, CA_n66A-n78A, CA_n78(2A) 18.1.0 2023-12 RAN#102 R5-236141 2470 - F Error correction for 7.8 Intermodulation characteristics 18.1.0 2023-12 RAN#102 R5-236142 2471 - F Correction of message contents for some receiver test cases 18.1.0 2023-12 RAN#102 R5-236279 2473 - F Correction of RB allocation for ChBW 40 MHz and SCS 30 kHz in Table 6.2.3.4.1-16a 18.1.0 2023-12 RAN#102 R5-236286 2474 - F Adding PC2 allowed indication for completed inter-band and intra-band CA combinations 18.1.0 2023-12 RAN#102 R5-236326 2475 - F UL frequency correction for n66 in CA_n48A-n66A combo in test 7.3A.1_1 18.1.0 2023-12 RAN#102 R5-236329 2476 - F IBNC CA - n2 and n71 - undefined frequencies for custom Wgap 18.1.0 2023-12 RAN#102 R5-236334 2477 - F Incorrect table reference in FR1 test case 7.6A.4.1 18.1.0 2023-12 RAN#102 R5-236335 2478 - F Editorial correction in FR1 test case 6.2.4 18.1.0 2023-12 RAN#102 R5-236336 2479 - F DL frequency correction for n78 in CA_n3A-n78A combo in test 7.3A.1_1 18.1.0 2023-12 RAN#102 R5-236337 2480 - F Update applicability for NS_47 in FR1 test case 6.5.3.3 18.1.0 2023-12 RAN#102 R5-236338 2481 - F Test procedure update in test case 6.5A.4.1 to skip IMPs overlapping with UL signal 18.1.0 2023-12 RAN#102 R5-236344 2482 - F Editorial correction for referred tables for NS_04 in FR1 test 6.5G.2.2 18.1.0 2023-12 RAN#102 R5-236354 2485 - F Addition of spurious emissions test for several NR CA combos 18.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2368 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-12 RAN#102 R5-236379 2489 - F Test configuration table modification due to core specification alignments and CR implementation mismatch 18.1.0 2023-12 RAN#102 R5-236445 2493 - F Corrections to Spurious emissions for UE co-existence requirements 18.1.0 2023-12 RAN#102 R5-236494 2494 - F Aligning test configuration for SEM, ACLR and MPR test cases with TP analysis 18.1.0 2023-12 RAN#102 R5-236497 2496 - F Addition of test case 6.3F.4.2, Absolute power tolerance for shared spectrum access 18.1.0 2023-12 RAN#102 R5-236498 2497 - F Addition of test case 6.2F.4, Configured transmitted power for shared spectrum access 18.1.0 2023-12 RAN#102 R5-236510 2499 - F Correction of test requirement for absolute power tolerance test case 18.1.0 2023-12 RAN#102 R5-236517 2500 - F Correction of prach-ConfigurationIndex for time mask and EVM 18.1.0 2023-12 RAN#102 R5-236519 2501 - F Editorial correction in test case 7.4A.3 18.1.0 2023-12 RAN#102 R5-236529 2503 - F Correction to relative power tolerance test cases 18.1.0 2023-12 RAN#102 R5-236650 2505 - F Update for PC3 n39 A-MPR 18.1.0 2023-12 RAN#102 R5-236668 2506 - F Update of MOP for PC3 n28 UL MIMO 18.1.0 2023-12 RAN#102 R5-236677 2508 - F Addition of PC1.5 n34 and n40 Modified MPR behaviour 18.1.0 2023-12 RAN#102 R5-236803 2509 - F Correction to message exception for TDD UL DL pattern in 6.2.1 18.1.0 2023-12 RAN#102 R5-236804 2510 - F Editorial correction to 6.5A.2.2.1 18.1.0 2023-12 RAN#102 R5-236806 2512 - F Correction to UL assignment for different SCS in 6.3A.3.1 18.1.0 2023-12 RAN#102 R5-236807 2513 - F Editorial correction to 7.3A.1_1 18.1.0 2023-12 RAN#102 R5-236808 2514 - F Correction to test requirements of A-MPR for NS_44 18.1.0 2023-12 RAN#102 R5-236809 2515 - F Correction to RB allocation of A-MPR for NS_07 18.1.0 2023-12 RAN#102 R5-236810 2516 - F Correction to RB allocation of A-MPR for NS_27 18.1.0 2023-12 RAN#102 R5-236902 2521 - F Addition of new test case 6.2H.1.1 MOP for intra-band UL contiguous CA with UL MIMO 18.1.0 2023-12 RAN#102 R5-236908 2527 - F Addition of new test case 6.5H.1.2.1 SEM for CA with UL MIMO 18.1.0 2023-12 RAN#102 R5-236910 2529 - F Addition of Annex F measurement uncertainties for CA with UL MIMO test cases 18.1.0 2023-12 RAN#102 R5-236914 2530 - F Correction to test configuration for 6.3D.1 minimum output power for UL MIMO 18.1.0 2023-12 RAN#102 R5-236915 2531 - F Correction to test procedure for 6.5D.2.4 NR ACLR for UL MIMO 18.1.0 2023-12 RAN#102 R5-236926 2532 - F Corrections to 6.3A.1 on minimum output power for CA 18.1.0 2023-12 RAN#102 R5-236927 2533 - F Corrections to 6.3A.2 on Transmit OFF power for CA 18.1.0 2023-12 RAN#102 R5-236928 2534 - F Corrections to 6.3A.3 on Transmit ON OFF time mask for CA 18.1.0 2023-12 RAN#102 R5-236929 2535 - F Corrections to 7.6A.2.1.5 on In-band blocking test for 2DL CA 18.1.0 2023-12 RAN#102 R5-236930 2536 - F Corrections to 7.6A.2.2.5 on In-band blocking test for 3DL CA 18.1.0 2023-12 RAN#102 R5-236932 2537 - F Corrections to 5.5B on inter-band NR DC configuration table 18.1.0 2023-12 RAN#102 R5-236935 2539 - F Corrections to 7.3I on reference sensitivity power level test for RedCap 18.1.0 2023-12 RAN#102 R5-236936 2540 - F Editorial corrections to 7.2 on diversity characteristics for RedCap 18.1.0 2023-12 RAN#102 R5-236941 2541 - F Corrections to 7.6.2 and 7.6A.2 on symbols for In-band blocking 18.1.0 2023-12 RAN#102 R5-236942 2542 - F Editorial corrections to 7.3A.5 on symbols for CA reference sensitivity 18.1.0 2023-12 RAN#102 R5-236949 2543 - F Update delta TIB for NR CA configuration CA_n1A-n3A- n78A 18.1.0 2023-12 RAN#102 R5-236950 2544 - F Update test configuration and test requirement for 3DL CA reference sensitivity exceptions for CA_n1A-n3A-n78A 18.1.0 2023-12 RAN#102 R5-236951 2545 - F Update delta RIB for NR CA configuration CA_n1A-n3A- n78A 18.1.0 2023-12 RAN#102 R5-236952 2546 - F Update minimum requirements of REFSENS exceptions due to intermodulation interference for 3D2U CA configuration of CA_n1A-n3A-n78A 18.1.0 2023-12 RAN#102 R5-237039 2551 - F Removing n85 in Narrow band blocking test case 18.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2369 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-12 RAN#102 R5-237040 2552 - F Removing test case Narrow band blocking for SUL with UL MIMO 18.1.0 2023-12 RAN#102 R5-237042 2553 - F Core specification alignment for almost contiguous RB allocation 18.1.0 2023-12 RAN#102 R5-237043 2554 - F Cleaning up mentioned standardization groups name in specification 18.1.0 2023-12 RAN#102 R5-237044 2555 - F Correcting wrong RB allocations for NS_05 and NS_05U 18.1.0 2023-12 RAN#102 R5-237045 2556 - F Correcting wrong RB allocations for NS_46 18.1.0 2023-12 RAN#102 R5-237046 2557 - F Correcting wrong RB allocations for NS_48 18.1.0 2023-12 RAN#102 R5-237047 2558 - F Correcting wrong RB allocations for NS_49 18.1.0 2023-12 RAN#102 R5-237057 2564 - F Updating additional spurious emissions for MIMO for n39 18.1.0 2023-12 RAN#102 R5-237064 2568 - F Updating In-band emissions for intra-band UL CA 18.1.0 2023-12 RAN#102 R5-237072 2571 - F Removing unnecessary testing details for not testable V2X cases 18.1.0 2023-12 RAN#102 R5-237091 2572 - F Addition of PC2 configuration n80 and n84 into TC 6.2D.2_1 18.1.0 2023-12 RAN#102 R5-237147 2574 - F Editorial correction to 6.2D.2.5 18.1.0 2023-12 RAN#102 R5-237238 2576 - F Updates to Annex for FR1 RF Phase continuity test 18.1.0 2023-12 RAN#102 R5-237248 2579 - F Correction of TDD configuration in SRS time mask test case 18.1.0 2023-12 RAN#102 R5-237251 2581 - F Correction of almost contiguous allocation in A-MPR test 18.1.0 2023-12 RAN#102 R5-237262 2583 - F Correction of maximum input power test cases 18.1.0 2023-12 RAN#102 R5-237263 2584 - F Update for DC location in carrier leakage test cases 18.1.0 2023-12 RAN#102 R5-237473 2518 1 F Correction to average count for EVM including transient period 18.1.0 2023-12 RAN#102 R5-237614 2461 1 F Adding Reference sensitivity test requirements for CA_n1A- n3A-n28A-n78A 18.1.0 2023-12 RAN#102 R5-237616 2468 1 F Addition of delta RIBc and reference sensitivity for new R16 NR CA comb within FR1 18.1.0 2023-12 RAN#102 R5-237618 2462 1 F Adding Reference sensitivity test requirements for CA_n25A-n66A-n77(2A) and CA_n25A-n66A-n78(2A) 18.1.0 2023-12 RAN#102 R5-237620 2469 1 F Addition of delta RIBc and reference sensitivity for new R17 NR CA comb within FR1 18.1.0 2023-12 RAN#102 R5-237621 2487 1 F Update requirements for additional NR CA configurations 18.1.0 2023-12 RAN#102 R5-237624 2522 1 F Addition of new test case 6.2H.1.2 MPR for CA with UL MIMO 18.1.0 2023-12 RAN#102 R5-237625 2523 1 F Addition of new test case 6.2H.1.4 configured transmitted power for CA with UL MIMO 18.1.0 2023-12 RAN#102 R5-237626 2524 1 F Addition of new test case 6.3H.1.1 minimum output power for CA with UL MIMO 18.1.0 2023-12 RAN#102 R5-237627 2525 1 F Addition of new test case 6.3H.1.2 Transmit OFF power for CA with UL MIMO 18.1.0 2023-12 RAN#102 R5-237628 2526 1 F Addition of new test case 6.3H.1.3 Transmit ON/OFF time mask for CA with UL MIMO 18.1.0 2023-12 RAN#102 R5-237629 2528 1 F Addition of new test case 6.5H.1.2.3 NR ACLR for CA with UL MIMO 18.1.0 2023-12 RAN#102 R5-237631 2562 1 F Updating Frequency error for CA test case for intra-band UL CA 18.1.0 2023-12 RAN#102 R5-237632 2565 1 F Updating Transmit intermodulation testing for intra-band UL CA 18.1.0 2023-12 RAN#102 R5-237634 2502 1 F Update of 6.2F.3 UE additional maximum output power reduction for shared spectrum access 18.1.0 2023-12 RAN#102 R5-237637 2550 1 F Addition of PC2 configuration n1 and n3 into MPR UL MIMO TC 6.2D.2 18.1.0 2023-12 RAN#102 R5-237638 2547 1 F Update 6.2A.4.0.2.3 delta TIB for NR CA configuration CA_n1A-n8A-n78A 18.1.0 2023-12 RAN#102 R5-237639 2548 1 F Update 7.3A.0.3.2.3 delta RIB for NR CA configuration CA_n1A-n8A-n78A 18.1.0 2023-12 RAN#102 R5-237640 2549 1 F Update 7.3A.0.5 reference sensitivity exceptions due to intermodulation interference for 3DL/2UL NR CA configuration of CA_n1A-n8A-n78A 18.1.0 2023-12 RAN#102 R5-237641 2520 1 F Addition the missing 6.5A.3.1.1.5 general spurious emissions test requirements for CA_n1A-n78A 18.1.0 2023-12 RAN#102 R5-237642 2490 1 F General updates of TS 38.521-1 clause 5 for R16 CA configurations 18.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2370 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2023-12 RAN#102 R5-237643 2463 1 F Add UE maximum power requirements for CA_n25A-n66A, CA_n25A-n77A, CA_n25A-n78A, CA_n66A-n78A, CA_n78(2A) 18.1.0 2023-12 RAN#102 R5-237644 2467 1 F Addition of delta TIBc for new R17 NR CA comb within FR1 18.1.0 2023-12 RAN#102 R5-237645 2484 1 F Addition of max power requirements for several NR CA combos 18.1.0 2023-12 RAN#102 R5-237647 2486 1 F Update minimum requirements for additional four bands NR CA configurations 18.1.0 2023-12 RAN#102 R5-237648 2488 1 F Remove Editors Notes which are no longer needed and core specification alignment 18.1.0 2023-12 RAN#102 R5-237649 2491 1 F General updates of TS 38.521-1 clause 5 for R17 CA configurations 18.1.0 2023-12 RAN#102 R5-237650 2560 1 F Updating AMPR for MIMO for band n39 18.1.0 2023-12 RAN#102 R5-237651 2483 1 F TxDiversity - in-band emissions test procedure correction 18.1.0 2023-12 RAN#102 R5-237652 2511 1 F Correction to message contents for P-max in ACLR and Transmit intermodulation for CA 18.1.0 2023-12 RAN#102 R5-237653 2573 1 F Clarification of number of measured UL connectors for Tx requirements 18.1.0 2023-12 RAN#102 R5-237654 2517 1 F Correction to DL RB allocation for ChBW 45 MHz 18.1.0 2023-12 RAN#102 R5-237655 2580 1 F Correction of single carrier Refsens test case 18.1.0 2023-12 RAN#102 R5-237828 2466 1 F Addition of spurious emissions, delta TIBc and UE maximum output power for new R16 NR CA comb within FR1 18.1.0 2023-12 RAN#102 R5-237849 2495 1 F Addition of general clause 6.1F 18.1.0 2023-12 RAN#102 R5-237861 2492 1 F Corrections to spurious emissions co-existence for 2 UL Inter-band CA 18.1.0 2023-12 RAN#102 R5-237902 2559 1 F Updating Configured output power for intra-band non- contiguous CA 18.1.0 2023-12 RAN#102 R5-237903 2561 1 F Updating minimum output power for UL non-contiguous CA 18.1.0 2023-12 RAN#102 R5-237904 2563 1 F Updating Spurious emission testing for intra-band non- contiguous CA 18.1.0 2023-12 RAN#102 R5-237905 2566 1 F Updating EVM testing for intra-band UL CA 18.1.0 2023-12 RAN#102 R5-237906 2567 1 F Updating carrier leakage testing for intra-band UL CA 18.1.0 2023-12 RAN#102 R5-237907 2569 1 F Updating annexF MU and TT for intra-band UL CA testing 18.1.0 2023-12 RAN#102 R5-237910 2498 1 F MU ad TT values for newly introduced NR-U test cases 18.1.0 2023-12 RAN#102 R5-237911 2570 1 F Updating AMPR for CA test case for CA_n28A-n41A 18.1.0 2023-12 RAN#102 R5-237912 2575 1 F Updates to FR1 RF phase continuity test 18.1.0 2023-12 RAN#102 R5-237940 2582 1 F Tx signal quality for UL MIMO per layer 18.1.0 2023-12 RAN#102 R5-237949 2519 1 F Correction to minimum conformance requirements of A- MPR for NS_07 18.1.0 2024-03 RAN#103 R5-240049 2585 - F Introduction of common parts for ATG UE RF test cases 18.2.0 2024-03 RAN#103 R5-240053 2589 - F Introduction of General description of Occupied bandwidth for ATG UE 18.2.0 2024-03 RAN#103 R5-240055 2591 - F Introduction of General description of Out of band emission for ATG UE 18.2.0 2024-03 RAN#103 R5-240056 2592 - F Introduction of General description of Spurious emissions for ATG UE 18.2.0 2024-03 RAN#103 R5-240058 2594 - F Introduction of General description of Rx TCs for ATG UE 18.2.0 2024-03 RAN#103 R5-240059 2595 - F Introduction of Diversity characteristics description for ATG UE 18.2.0 2024-03 RAN#103 R5-240060 2596 - F Introduction of General description of Reference sensitivity for ATG UE 18.2.0 2024-03 RAN#103 R5-240061 2597 - F Introduction of General description of Blocking characteristics for ATG UE 18.2.0 2024-03 RAN#103 R5-240063 2599 - F Introduction of General description of Intermodulation characteristics for ATG UE 18.2.0 2024-03 RAN#103 R5-240080 2602 - F Addition of PC1.5 n39 MOP 18.2.0 2024-03 RAN#103 R5-240081 2603 - F Addition of PC2 n40 MOP 18.2.0 2024-03 RAN#103 R5-240082 2604 - F Addition of PC1.5 n39 MPR 18.2.0 2024-03 RAN#103 R5-240083 2605 - F Addition of PC1.5 n39 Configured tx power requirements 18.2.0 2024-03 RAN#103 R5-240084 2606 - F Addition of PC1.5 n39 Modified MPR behavior 18.2.0 2024-03 RAN#103 R5-240228 2609 - F General updates of TS 38.521-1 clause 5 for R16 CA configurations 18.2.0 2024-03 RAN#103 R5-240232 2612 - F Update 3DL CA reference sensitivity exceptions TC for CA_n1A-n8A-n78A 18.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2371 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-03 RAN#103 R5-240273 2620 - F Addition of asymmetric UL and DL channel bandwidth combinations of band n8 in 5.3.6 18.2.0 2024-03 RAN#103 R5-240279 2621 - F Addition of PC2 for n8 into TC 6.2.1 MOP 18.2.0 2024-03 RAN#103 R5-240281 2623 - F Addition of PC2 for n8 into TC 7.3.2 Reference Sensitivity 18.2.0 2024-03 RAN#103 R5-240307 2624 - F Updating test case AMPR for inter-band CA 18.2.0 2024-03 RAN#103 R5-240310 2625 - F Updating test frequency range for SUL band n83 18.2.0 2024-03 RAN#103 R5-240315 2628 - F Editorial correction to test requirement of MPR for CA test case 18.2.0 2024-03 RAN#103 R5-240319 2630 - F Updating AMPR testing for SUL band n81 18.2.0 2024-03 RAN#103 R5-240320 2631 - F Updating UTRA ACLR testing for SUL band n81 18.2.0 2024-03 RAN#103 R5-240333 2636 - F Updating PC2 test requirements in MPR test case for band n1 and n3 18.2.0 2024-03 RAN#103 R5-240336 2638 - F Addition of new test case 6.3G.4.1 Absolute power tolerance for Tx Diversity 18.2.0 2024-03 RAN#103 R5-240375 2640 - F Addition of new test case 6.2H.3.2 MPR for inter-band CA with UL MIMO 18.2.0 2024-03 RAN#103 R5-240443 2641 - F Corrections to spurious emissions for CA_n3A-n28A 18.2.0 2024-03 RAN#103 R5-240454 2642 - F Editorial correction to UE Power Class for n100 and n101 18.2.0 2024-03 RAN#103 R5-240465 2646 - F Add UE maximum power requirements for CA_n71A-n78A 18.2.0 2024-03 RAN#103 R5-240466 2647 - F Add general spurious emissions for UE co-existence requirements for CA_n71A-n77A and CA_n71A-n78A 18.2.0 2024-03 RAN#103 R5-240469 2648 - F Addition of reference sensitivity channel bandwidths for n25 and n71 18.2.0 2024-03 RAN#103 R5-240470 2649 - F Addition of 35 MHz CBW for transmitter requirements 18.2.0 2024-03 RAN#103 R5-240619 2650 - F FR1 CA - Test requirement correction for n2-n48 combo in test 7.3A.1_1 18.2.0 2024-03 RAN#103 R5-240620 2651 - F Corrections for combo n48A-n66A in test case 7.3A.1_1 18.2.0 2024-03 RAN#103 R5-240621 2652 - F TT Formula vs MU to be added for FR1 EVM test as in FR2 18.2.0 2024-03 RAN#103 R5-240623 2654 - F MBW table reference corrected for inter-band case in test case 6.5A.4.1 18.2.0 2024-03 RAN#103 R5-240772 2657 - F Addition of new test case 7.4A.4 Maximum input level for CA (5DL CA) 18.2.0 2024-03 RAN#103 R5-240773 2658 - F Addition of new test case 7.5A.4 Adjacent channel selectivity for (5DL CA) 18.2.0 2024-03 RAN#103 R5-240777 2659 - F Adding Reference sensitivity test requirements for CA_n1A- n28A-n78A and CA_n3A-n28A-n78A 18.2.0 2024-03 RAN#103 R5-240817 2663 - F Addition of test case 6.3F.4.3 relative power tolerance for shared spectrum channel access 18.2.0 2024-03 RAN#103 R5-240819 2664 - F Addition of MU and TT for NR-U test cases 18.2.0 2024-03 RAN#103 R5-240821 2665 - F Updates of test case 6.2F.4 Configured transmitted power for shared spectrum access 18.2.0 2024-03 RAN#103 R5-240826 2666 - F Editorial, correcting Test case title for 7.3I.2 in Annex A 18.2.0 2024-03 RAN#103 R5-240828 2667 - F Addition of RMC tables for shared spectrum access in Annex A 18.2.0 2024-03 RAN#103 R5-240835 2668 - F Update of 6.3C.1 for minimum output power for SUL bands 18.2.0 2024-03 RAN#103 R5-240836 2669 - F Update of 6.3C.2 for transmit OFF power for SUL bands 18.2.0 2024-03 RAN#103 R5-240888 2671 - F Update reference sensitivity requirement table for additional band configurations 18.2.0 2024-03 RAN#103 R5-240894 2673 - F Addition of PC2 max power requirements for bands CA_n77(2A) and CA_n14A-n77A 18.2.0 2024-03 RAN#103 R5-241002 2679 - F Update to ASEM test cases for V2X 18.2.0 2024-03 RAN#103 R5-241003 2680 - F Update to ASE test case for V2X 18.2.0 2024-03 RAN#103 R5-241007 2681 - F Adding the support of NS_47 for PC 1.5 18.2.0 2024-03 RAN#103 R5-241010 2683 - F Addition of 6.3H.1.4 power control for CA with UL MIMO 18.2.0 2024-03 RAN#103 R5-241023 2696 - F Update to minimum requirement of 6.4D.4 for UL switching 18.2.0 2024-03 RAN#103 R5-241099 2706 - F Correction to UL configuration for intra-band contiguous CA 18.2.0 2024-03 RAN#103 R5-241101 2708 - F Correction to Rel-16 A-MPR 18.2.0 2024-03 RAN#103 R5-241103 2710 - F Correction to applicability of powerBoosting for PC3 UE 18.2.0 2024-03 RAN#103 R5-241104 2711 - F Addition of CBW 35 MHz and 45 MHz to OBW for inter- band CA 18.2.0 2024-03 RAN#103 R5-241105 2712 - F Addition of CBW 35 MHz, 45 MHz, 70 MHz to ACS for CA 18.2.0 2024-03 RAN#103 R5-241154 2716 - F Editorial correction in FR1 test case 6.4G.2.1 18.2.0 2024-03 RAN#103 R5-241156 2718 - F Editorial correction in FR1 test case 6.2A.2.1 18.2.0 2024-03 RAN#103 R5-241208 2722 - F Correction to test case 6.4E.2.4.1D In-band emissions for V2X / non-concurrent operation / SL-MIMO 18.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2372 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-03 RAN#103 R5-241210 2723 - F Correction to test case 6.4E.2.4.2 In-band emissions for V2X / con-current operation 18.2.0 2024-03 RAN#103 R5-241260 2725 - F Update of Operating bands for UL MIMO band n5 18.2.0 2024-03 RAN#103 R5-241263 2727 - F Addition of n5 into TC 6.2D.2 MPR for UL MIMO 18.2.0 2024-03 RAN#103 R5-241354 2730 - F Correction in A-MPR test case 18.2.0 2024-03 RAN#103 R5-241369 2732 - F Update of Refsens TC for RedCap UE 18.2.0 2024-03 RAN#103 R5-241683 2586 2 F Introduction of General description for ATG UE Tx TCs 18.2.0 2024-03 RAN#103 R5-241727 2608 1 F Update test configuration table for NS_13 18.2.0 2024-03 RAN#103 R5-241728 2632 1 F Addition of delta TIBc and UE maximum output power for new R16 NR CA combos within FR1 18.2.0 2024-03 RAN#103 R5-241729 2660 1 F Add UE maximum power requirements for CA_n1A-n28A and CA_n3A-n28A 18.2.0 2024-03 RAN#103 R5-241730 2661 1 F Add spurious emissions for UE co-existence requirements for CA_n1A_n28A 18.2.0 2024-03 RAN#103 R5-241731 2634 1 F Addition of delta RIBc and reference sensitivity for new R16 NR CA combos within FR1 18.2.0 2024-03 RAN#103 R5-241732 2703 1 F Correction to Reference sensitivity for Rel-16 CA 18.2.0 2024-03 RAN#103 R5-241733 2678 1 F Adding AMPR test cases for V2X 18.2.0 2024-03 RAN#103 R5-241734 2633 1 F Addition of spurious emissions, delta TIBc and UE maximum output power for new R17 NR CA combos within FR1 18.2.0 2024-03 RAN#103 R5-241735 2635 1 F Addition of delta RIBc and reference sensitivity for new R17 NR CA combos within FR1 18.2.0 2024-03 RAN#103 R5-241736 2645 1 F Adding Reference sensitivity test requirements for CA_n66A-n71A-n77(2A) and CA_n66A-n71A-n78(2A) 18.2.0 2024-03 RAN#103 R5-241737 2704 1 F Correction to Reference sensitivity for CA_n28A-n41A-n79A 18.2.0 2024-03 RAN#103 R5-241738 2705 1 F Clarification of asymmetric BW in Rx test cases for CA 18.2.0 2024-03 RAN#103 R5-241739 2662 1 F Updates to NR-U Tx test cases 18.2.0 2024-03 RAN#103 R5-241740 2719 1 F Addition of test case 6.5F.3.3 Additional spurious emissions for shared spectrum channel access 18.2.0 2024-03 RAN#103 R5-241741 2720 1 F Updates of test case 6.2F.3 UE additional maximum output power reduction for shared spectrum access 18.2.0 2024-03 RAN#103 R5-241742 2724 1 F Updates of test case 6.5F.2.4.2, Shared spectrum channel access ACLR with additional requirement for NS_29 18.2.0 2024-03 RAN#103 R5-241745 2726 1 F Addition of n5 into TC 6.2D.1 MOP for UL MIMO 18.2.0 2024-03 RAN#103 R5-241746 2674 1 F Addition of band CA_n14A-n77A PC2 reference sensitivity test 18.2.0 2024-03 RAN#103 R5-241747 2672 1 F Addition of CA_n14A-n77A PC2 and CA_n77(2A) PC2 to Ch 5 18.2.0 2024-03 RAN#103 R5-241751 2587 1 F Introduction of MOP TC for ATG UE 18.2.0 2024-03 RAN#103 R5-241752 2588 1 F Introduction of Configured transmitted power TC for ATG UE 18.2.0 2024-03 RAN#103 R5-241753 2590 1 F Introduction of Occupied bandwidth TC for ATG UE 18.2.0 2024-03 RAN#103 R5-241754 2593 1 F Introduction of General Spurious emissions TC for ATG UE 18.2.0 2024-03 RAN#103 R5-241755 2614 1 F Addition of new test case 6.3J.2 Transmit OFF power for ATG 18.2.0 2024-03 RAN#103 R5-241756 2615 1 F Addition of new test case 6.3J.1 Minimum output power for ATG 18.2.0 2024-03 RAN#103 R5-241757 2598 1 F Introduction of Spurious response TC for ATG UE 18.2.0 2024-03 RAN#103 R5-241758 2600 1 F Introduction of Wide band intermodulation TC for ATG UE 18.2.0 2024-03 RAN#103 R5-241759 2601 1 F Introduction of Spurious emissions TC for ATG UE 18.2.0 2024-03 RAN#103 R5-241760 2616 1 F Addition of new test case 7.4J Maximum input level for ATG 18.2.0 2024-03 RAN#103 R5-241761 2617 1 F Addition of new test case 7.5J Adjacent channel selectivity for ATG 18.2.0 2024-03 RAN#103 R5-241762 2618 1 F Addition of new test case 7.6J.2 In-band blocking for ATG 18.2.0 2024-03 RAN#103 R5-241763 2619 1 F Addition of new test case 7.6J.3 Out-of-band blocking for ATG 18.2.0 2024-03 RAN#103 R5-241764 2637 1 F Addition of Measurement Uncertainties and Test Tolerances for ATG UE 18.2.0 2024-03 RAN#103 R5-241766 2656 1 F p-Max and p-NR-FR1 adjustment when higherPowerLimit- r17 applies 18.2.0 2024-03 RAN#103 R5-241767 2675 1 F Clarification of trace mode in emission testing_FR1 18.2.0 2024-03 RAN#103 R5-241768 2677 1 F Update to AMPR, ASEM and ASE for intra-band CA for CA_NS_04 18.2.0 2024-03 RAN#103 R5-241769 2717 1 F Editorial correction in FR1 test case 6.5A.2.4.1.1 18.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2373 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-03 RAN#103 R5-241772 2643 1 F Correction to Reference sensitivity power level test configuration for CA_n28A-n78A 18.2.0 2024-03 RAN#103 R5-241773 2713 1 F Addition of CBW 35 MHz, 45 MHz, 70 MHz to Narrow band blocking for inter-band CA 18.2.0 2024-03 RAN#103 R5-241774 2721 1 F Correction of 7.6A.2 for inband blocking for CA 18.2.0 2024-03 RAN#103 R5-241775 2611 1 F General updates of clause 5 for R17 new CBW configurations 18.2.0 2024-03 RAN#103 R5-241776 2655 1 F Added 30kHz SCS for SSB in n53 to be aligned with core specs 18.2.0 2024-03 RAN#103 R5-241779 2735 1 F Corrections for 6.3G.3.3 18.2.0 2024-03 RAN#103 R5-241868 2610 1 F General updates of TS 38.521-1 clause 5 for R17 CA configurations 18.2.0 2024-03 RAN#103 R5-241870 2626 2 F Updating FR1 PC2 REFSENS exceptions testing 18.2.0 2024-03 RAN#103 R5-241871 2627 2 F Correcting errors in REFSENS for CA test case for PC3 CA configurations 18.2.0 2024-03 RAN#103 R5-241872 2629 2 F Updating REFSENS testing for SUL configuration 18.2.0 2024-03 RAN#103 R5-241879 2639 1 F Removal of square brackets for Tx Diversity capability 18.2.0 2024-03 RAN#103 R5-241880 2731 1 F General updates of Spurious emissions for UE co-existence for Inter-band CA 18.2.0 2024-03 RAN#103 R5-241907 2728 1 F Update of 4DL CA test cases 18.2.0 2024-03 RAN#103 R5-241922 2707 1 F Correction to Rel-15 A-MPR 18.2.0 2024-03 RAN#103 R5-241941 2613 1 F Addition of DL interruption allowed indication for CA_n1-n3- n78 18.2.0 2024-03 RAN#103 R5-241945 2714 1 F Correction to note for inter-band CA including n48 18.2.0 2024-03 RAN#103 R5-241947 2733 1 F Updates to FR1 RF phase continuity test 18.2.0 2024-03 RAN#103 R5-241948 2734 1 F Updates and corrections to Annex in FR1 RF spec 18.2.0 2024-03 RAN#103 R5-241969 2709 1 F Correction to test configuration in 6.2D.2 18.2.0 2024-03 RAN#103 R5-241970 2682 1 F Addition of 6.2H.1.3 AMPR for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241971 2684 1 F Addition of 6.4H.1.1 frequency error for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241972 2685 1 F Addition of 6.4H.1.2.1 EVM for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241973 2686 1 F Addition of 6.4H.1.2.2 Carrier leakage for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241974 2687 1 F Addition of 6.4H.1.2.3 In-band emission for CA with UL- MIMO 18.2.0 2024-03 RAN#103 R5-241975 2688 1 F Addition of 6.4H.1.3 time alignment error for CA with UL- MIMO 18.2.0 2024-03 RAN#103 R5-241976 2689 1 F Addition of 6.4H.1.4 Coherent requirement for CA with UL- MIMO 18.2.0 2024-03 RAN#103 R5-241977 2690 1 F Addition of 6.5H.1.1 Occupied bandwidth for CA with UL- MIMO 18.2.0 2024-03 RAN#103 R5-241978 2691 1 F Addition of 6.5H.1.2.2 ASEM for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241979 2692 1 F Addition of 6.5H.1.3.1 General spurious emission for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241980 2693 1 F Addition of 6.5H.1.3.2 Spurious emission UE co-existence for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241981 2694 1 F Addition of 6.5H.1.3.3 Additional spurious emission for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241982 2695 1 F Addition of 6.5H.1.4 Transmit intermodulation for CA with UL-MIMO 18.2.0 2024-03 RAN#103 R5-241983 2697 1 F Addition of 6.3A.3.4 1Tx-2Tx UL switching between two bands 18.2.0 2024-03 RAN#103 R5-241984 2698 1 F Addition of 6.3A.3.5 2Tx-2Tx UL switching between two bands 18.2.0 2024-03 RAN#103 R5-241985 2699 1 F Addition of 6.3C.3.3 2Tx-2Tx UL switching between two uplink carriers in SUL configuration 18.2.0 2024-03 RAN#103 R5-241986 2700 1 F Addition of 6.3C.3.4 1Tx-2Tx UL switching between two bands in SUL configuration 18.2.0 2024-03 RAN#103 R5-241987 2701 1 F Addition of 6.3C.3.5 2Tx-2Tx UL switching between two bands in SUL configuration 18.2.0 2024-03 RAN#103 R5-242015 2715 1 F Correction to Reference sensitivity for CA_n26A-n70A 18.2.0 2024-06 RAN#104 R5-242247 2736 - F Addition of delta TIBc for CA_n28A-n40A 18.3.0 2024-06 RAN#104 R5-242250 2739 - F Addition of delta RIBc and reference sensitivity for CA_n3A- n28A-n41A-n77A 18.3.0 2024-06 RAN#104 R5-242287 2742 - F Addition of n66 UL MIMO MOP 18.3.0 2024-06 RAN#104 R5-242288 2743 - F Addition of n66 UL MIMO MPR 18.3.0 2024-06 RAN#104 R5-242365 2745 - F Adding transmitter requirements for band n85 18.3.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2374 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-06 RAN#104 R5-242391 2753 - F Update to spurious emissions UE coexistence as part of introduction of LTE Band 106 18.3.0 2024-06 RAN#104 R5-242463 2757 - F Update for additional NRCA band configurations 18.3.0 2024-06 RAN#104 R5-242466 2758 - F Addition of n41 PC1 MOP TC 18.3.0 2024-06 RAN#104 R5-242467 2759 - F Addition of n41 PC1 MPR TC 18.3.0 2024-06 RAN#104 R5-242468 2760 - F Update n41 PC1 UTRA ACLR TC 18.3.0 2024-06 RAN#104 R5-242516 2765 - F Corrected MU and TT definition for FR1 UL MIMO test case 6.5D.2.3 18.3.0 2024-06 RAN#104 R5-242519 2767 - F Absolute power control - test requirements correction 18.3.0 2024-06 RAN#104 R5-242521 2769 - F Clarification for Rx test requirements for PC1.5 18.3.0 2024-06 RAN#104 R5-242538 2773 - F Addition of CA_n48C reference sensitivity requirement 18.3.0 2024-06 RAN#104 R5-242571 2774 - F General updates of clause 5 for R17 new CBW configurations 18.3.0 2024-06 RAN#104 R5-242572 2775 - F General updates of TS 38.521-1 clause 5 for R16 CA configurations 18.3.0 2024-06 RAN#104 R5-242918 2783 - F Correction to initial condition for SUL Tx switching TC 6.3C.3.2.4.1 18.3.0 2024-06 RAN#104 R5-242921 2784 - F Update of configured transmitted power requirements for 3Tx NR CA 18.3.0 2024-06 RAN#104 R5-242922 2785 - F Addition of new test case 6.2H.3.1 MOP for inter-band CA with MIMO 18.3.0 2024-06 RAN#104 R5-242923 2786 - F Addition of new test cases 6.2H.3.x for inter-band CA with MIMO 18.3.0 2024-06 RAN#104 R5-242924 2787 - F Addition of new test case 6.2L.3.1 MOP for inter-band CA with TxD 18.3.0 2024-06 RAN#104 R5-242926 2789 - F Addition of MU and TT analysis for 3Tx NR CA test cases 18.3.0 2024-06 RAN#104 R5-242944 2791 - F Update to FR1 CA Configurations for n78A-n79A with 1UL 18.3.0 2024-06 RAN#104 R5-242945 2792 - F Core spec alignment Missing DMRS configuration restriction for intra ULCA 18.3.0 2024-06 RAN#104 R5-242952 2794 - F Addition of REFSENS for PC2 CA n78A-n79A with 1UL 18.3.0 2024-06 RAN#104 R5-243009 2795 - F Correction to note for inter-band CA including n48 18.3.0 2024-06 RAN#104 R5-243010 2796 - F Correction to test configuration and test requirements for NS_49 A-MPR 18.3.0 2024-06 RAN#104 R5-243011 2797 - F Correction to test configuration and test requirements for NS_21 A-MPR 18.3.0 2024-06 RAN#104 R5-243012 2798 - F Correction to notes for NS_21 A-SEM 18.3.0 2024-06 RAN#104 R5-243027 2802 - F Addition of delta TIB into 6.2A.4.0.2.3 for CA_n3A-n8A- n78A 18.3.0 2024-06 RAN#104 R5-243029 2804 - F Addition of 3DL CA minimum requirements of reference sensitivity exceptions into 7.3A.0.5 for CA_n3A-n8A-n78A 18.3.0 2024-06 RAN#104 R5-243037 2807 - F Update to ATG RF Tx TCs 18.3.0 2024-06 RAN#104 R5-243038 2808 - F Update to ATG RF Rx TCs 18.3.0 2024-06 RAN#104 R5-243045 2809 - F Update to REFSENSE TC for CA_n79C 18.3.0 2024-06 RAN#104 R5-243046 2810 - F Update delta TIBc of CA_n39A-n41A for simultaneous RxTx capability 18.3.0 2024-06 RAN#104 R5-243047 2811 - F Update delta RIBc of CA_n39A-n41A for simultaneous RxTx capability 18.3.0 2024-06 RAN#104 R5-243049 2813 - F Update REFSENSE exceptions due to CBI for CA_n39A- n41A 18.3.0 2024-06 RAN#104 R5-243065 2815 - F Addition of PC1.5 n39 A-MPR 18.3.0 2024-06 RAN#104 R5-243123 2816 - F Addition of PC2 for n8 UL MIMO into 6.2D.1 MOP TC 18.3.0 2024-06 RAN#104 R5-243126 2817 - F Adding clarification of trace mode in emission test cases 18.3.0 2024-06 RAN#104 R5-243127 2818 - F Correction to general RB allocation in 6.1A 18.3.0 2024-06 RAN#104 R5-243128 2819 - F Cleaning up test applicability for ULFPTx in test cases 18.3.0 2024-06 RAN#104 R5-243130 2820 - F Editorial correction of Annex F for R17 FR1 test cases 18.3.0 2024-06 RAN#104 R5-243134 2821 - F Addition of NR V2X MOP for inter-band concurrent operation 18.3.0 2024-06 RAN#104 R5-243136 2822 - F Update of NR V2X MPR test cases 18.3.0 2024-06 RAN#104 R5-243138 2824 - F Addition of NR V2X NR configured transmit power test cases 18.3.0 2024-06 RAN#104 R5-243140 2825 - F Update to NR V2X minimum output power test cases 18.3.0 2024-06 RAN#104 R5-243141 2826 - F Update to NR V2X transmit off power test cases 18.3.0 2024-06 RAN#104 R5-243142 2827 - F Addition of NR V2X ON/OFF time mask test cases 18.3.0 2024-06 RAN#104 R5-243145 2828 - F Addition of NR V2X MOP minimum requirement for sidelink enhancement 18.3.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2375 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-06 RAN#104 R5-243146 2829 - F Update to NR V2X MPR test cases to add PC2 and intra- band concurrent operation 18.3.0 2024-06 RAN#104 R5-243148 2830 - F Update to NR V2X AMPR test cases to add PC2 and intra- band concurrent operation 18.3.0 2024-06 RAN#104 R5-243201 2831 - F Updating AMPR requirements for PC3 UE supporting power boosting 18.3.0 2024-06 RAN#104 R5-243202 2832 - F Updating AMPR testing for CA_n41A-n79A 18.3.0 2024-06 RAN#104 R5-243205 2833 - F Updating AMPR testing for NS_43 for band n8 18.3.0 2024-06 RAN#104 R5-243208 2835 - F Updating general clause for Uplink switching across up to four bands 18.3.0 2024-06 RAN#104 R5-243256 2842 - F Correction of spurious emission minimum conformance requirements for UE co-ex to align with RAN4 specs 18.3.0 2024-06 RAN#104 R5-243279 2848 - F Updates to Reference sensitivity for SUL 18.3.0 2024-06 RAN#104 R5-243285 2849 - F Corrections on 6.2F.3 for UE A-MPR requirements for shared spectrum access 18.3.0 2024-06 RAN#104 R5-243296 2851 - F Corrections on 6.2.3 for UE additional maximum output power reduction requirements 18.3.0 2024-06 RAN#104 R5-243297 2852 - F Corrections on 6.5.2.2 for UE spectrum emission mask 18.3.0 2024-06 RAN#104 R5-243298 2853 - F Corrections on 6.5.3.3 for UE additional spurious emissions 18.3.0 2024-06 RAN#104 R5-243299 2854 - F Corrections on clause 6 for removal of power class capable UE denotation 18.3.0 2024-06 RAN#104 R5-243300 2855 - F Cleanups on 7.3.2 for reference sensitivity power level test 18.3.0 2024-06 RAN#104 R5-243319 2857 - F Update of Refsens TC for RedCap UE 18.3.0 2024-06 RAN#104 R5-243442 2859 - F Update for PC1.5 n39 A-SE 18.3.0 2024-06 RAN#104 R5-243617 2805 1 F Addition of 3DL CA reference sensitivity TC into 7.3A.2 for CA_n3A-n8A-n78A 18.3.0 2024-06 RAN#104 R5-243620 2838 1 F Adding new SUL test case Time mask for switching across three uplink bands 18.3.0 2024-06 RAN#104 R5-243623 2771 1 F Apply interlaced RB allocation in test configuration table in test case 6.4F.2.2 18.3.0 2024-06 RAN#104 R5-243625 2740 1 F Update of Rx test cases to add 50MHz for NR band n7 18.3.0 2024-06 RAN#104 R5-243626 2781 1 F Addition of test case 6.3H.3.1 Minimum output power for inter-band UL CA with UL MIMO 18.3.0 2024-06 RAN#104 R5-243627 2782 1 F Addition of test case 6.5H.3.1 Occupied bandwidth for inter- band UL CA with UL MIMO 18.3.0 2024-06 RAN#104 R5-243628 2788 1 F Addition of new test cases 6.2L.3.x for inter-band CA with TxD 18.3.0 2024-06 RAN#104 R5-243629 2823 1 F Update of NR V2X AMPR test cases 18.3.0 2024-06 RAN#104 R5-243630 2841 1 F Update to Annex F for V2X test cases 18.3.0 2024-06 RAN#104 R5-243631 2834 1 F Updating PC2 AMPR testing for NS_100 for band n8 18.3.0 2024-06 RAN#104 R5-243632 2803 1 F Addition of delta RIB into 7.3A.0.3.2.3 for CA_n3A-n8A- n78A 18.3.0 2024-06 RAN#104 R5-243633 2843 1 F Correction of spurious emission minimum conformance requirements for UE co-ex for intra-band contiguous CA 18.3.0 2024-06 RAN#104 R5-243634 2847 1 F Correction of spurious emission test requirements for UE co-ex for CA (2UL CA) Rel-17 18.3.0 2024-06 RAN#104 R5-243635 2750 1 F Correction to reference sensitivity test requirements for CA_n25A-n77A, CA_n25A-n78A and CA_n66A-n78A 18.3.0 2024-06 RAN#104 R5-243636 2776 1 F General updates of TS 38.521-1 clause 5 for R17 CA configurations 18.3.0 2024-06 RAN#104 R5-243637 2755 1 F Addition of 3 MHz channel bandwidth for transmitter requirements 18.3.0 2024-06 RAN#104 R5-243638 2756 1 F Addition of 3 MHz channel bandwidth for receiver requirements 18.3.0 2024-06 RAN#104 R5-243639 2754 1 F Introduction of dedicated spectrum less than 5MHz for FR1 to clause 5 and annex A 18.3.0 2024-06 RAN#104 R5-243640 2748 1 F Adding transmitter requirements for band n106 18.3.0 2024-06 RAN#104 R5-243641 2749 1 F Adding receiver requirements for band n106 18.3.0 2024-06 RAN#104 R5-243642 2752 1 F Adding reference sensitivity requirements for UEs that support optional symmetric UL/DL in band n71 18.3.0 2024-06 RAN#104 R5-243643 2747 1 F Introduction of new band n106 into clause 5 18.3.0 2024-06 RAN#104 R5-243644 2839 1 F Adding new SUL test case Time mask for switching across four uplink bands 18.3.0 2024-06 RAN#104 R5-243645 2840 1 F Updating MU and TT for Time mask for switching across up to four bands testing 18.3.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2376 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-06 RAN#104 R5-243646 2763 1 F Updates to editors note in NR-U Tx test cases 18.3.0 2024-06 RAN#104 R5-243647 2777 1 F Correction to Table 6.F-1 18.3.0 2024-06 RAN#104 R5-243649 2844 1 F Correction of spurious emission minimum conformance requirements for UE co-ex for inter-band 2UL 18.3.0 2024-06 RAN#104 R5-243650 2860 1 F Updates to FR1 RF phase continuity test 18.3.0 2024-06 RAN#104 R5-243651 2746 1 F Adding receiver requirements for band n85 18.3.0 2024-06 RAN#104 R5-243655 2778 1 F Addition of CA_n2A-n30A, CA_n5A-n30A, CA_n30A-n66A and CA_n30A-n77A Tx test cases 18.3.0 2024-06 RAN#104 R5-243656 2779 1 F Addition of reference sensitivity tests for CA_n2A-n30A, CA_n5A-n30A, CA_n30A-n66A and CA_n30A-n77A 18.3.0 2024-06 RAN#104 R5-243658 2836 1 F Adding new test case Time mask for switching across three uplink bands 18.3.0 2024-06 RAN#104 R5-243659 2837 1 F Adding new test case Time mask for switching across four uplink bands 18.3.0 2024-06 RAN#104 R5-243816 2845 1 F Correction of spurious emission minimum conformance requirements for UE co-ex for inter-band 2UL Rel16 18.3.0 2024-06 RAN#104 R5-243817 2846 1 F Correction of spurious emission test requirements for UE co-ex for CA (2UL CA) Rel-16 18.3.0 2024-06 RAN#104 R5-243818 2850 1 F Corrections on 6.2 and 6.2A for almost contiguous A-MPR requirements for HPUE 18.3.0 2024-06 RAN#104 R5-243819 2856 1 F Updates on 3.1 and 4.3 for Definitions and Specification suffix information 18.3.0 2024-06 RAN#104 R5-243821 2738 1 F Addition of reference sensitivity for CA_n28A-n40A 18.3.0 2024-06 RAN#104 R5-243822 2737 1 F Addition of delta TIBc for CA_n3A-n28A-n41A-n77A 18.3.0 2024-06 RAN#104 R5-243824 2793 1 F Addition of REFSENS for PC3 CA n78A-n79A with 1UL 18.3.0 2024-06 RAN#104 R5-243834 2800 1 F Correction to LCRB of CA_n5-n48-n66 in 7.3A.0.5 18.3.0 2024-06 RAN#104 R5-243837 2812 1 F Update REFSENSE exceptions due to UL harmonic interference for CA_n39A-n41A 18.3.0 2024-06 RAN#104 R5-243838 2814 1 F Update REFSENSE TC 7.3A.1_1 for CA_n39A-n41A 18.3.0 2024-06 RAN#104 R5-243839 2799 1 F Update for EVM including symbols with transient period 18.3.0 2024-06 RAN#104 R5-243877 2751 1 F Introduction of PC1 transmitter requirements for bands n7, n41 and n78 18.3.0 2024-06 RAN#104 R5-243878 2790 1 F Addition of general information for 3Tx NR CA 18.3.0 2024-06 RAN#104 R5-243879 2858 1 F Addition of suffix information for Carrier Aggregation (CA) with UL MIMO 18.3.0 2024-06 RAN#104 R5-243884 2764 1 F Addition of MU and TT for new NR-U test cases 18.3.0 2024-06 RAN#104 R5-243885 2762 1 F Addition of test case 6.3F.4.4, Aggregate power tolerance for shared spectrum channel access 18.3.0 2024-06 RAN#104 R5-243886 2761 1 F Addition of test case 7.4F, Maximum input level for shared spectrum channel access 18.3.0 2024-06 RAN#104 R5-243897 2766 1 F Introduction of new SUL test case 7.7C 18.3.0 2024-06 RAN#104 R5-243898 2770 1 F MU and TT definition for TxD EVM test case 6.4G.2.1 18.3.0 2024-06 RAN#104 R5-243912 2801 1 F Correction to notes for support of SCS and CBW in CA configurations 18.3.0 2024-06 RAN#104 R5-244009 2806 2 F Update to ATG Definitions and Symbols 18.3.0 2024-09 RAN#105 R5-244097 2863 - F Addition of delta TIBc for CA_n28A-n41A-n77A 18.4.0 2024-09 RAN#105 R5-244098 2864 - F Addition of delta RIBc and reference sensitivity for CA_n28A-n41A-n77A 18.4.0 2024-09 RAN#105 R5-244105 2865 - F Addition of PC2 for n70 UL MIMO into test case 6.2D.1 MOP 18.4.0 2024-09 RAN#105 R5-244106 2866 - F Addition of PC2 for n70 UL MIMO into test case 6.2D.2 MPR 18.4.0 2024-09 RAN#105 R5-244284 2867 - F Editorial correction of reference sensitivity for PC3 CA_n3A- n77A 18.4.0 2024-09 RAN#105 R5-244317 2869 - F Addition of MU and TT for NR-U test case 18.4.0 2024-09 RAN#105 R5-244328 2870 - F Updates for test configuration of CA_n2A-n5A-n66A 18.4.0 2024-09 RAN#105 R5-244377 2872 - F FR1 UL MIMO - Spurious test cases corrections 18.4.0 2024-09 RAN#105 R5-244391 2874 - F Adding transmitter requirements for bands n31 and n72 18.4.0 2024-09 RAN#105 R5-244392 2875 - F Adding receiver requirements for bands n31 and n72 18.4.0 2024-09 RAN#105 R5-244397 2876 - F Editorial CR implementation correction for CBWs and notes 18.4.0 2024-09 RAN#105 R5-244404 2877 - F Addition of PC1 operation for bands n25, n40, n66 and n77 18.4.0 2024-09 RAN#105 R5-244405 2878 - F Addition of PC1 operation for bands n71 and n85 18.4.0 2024-09 RAN#105 R5-244453 2879 - F General updates of TS 38.521-1 clause 5 for R16 CA configurations 18.4.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2377 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-09 RAN#105 R5-244454 2880 - F General updates of TS 38.521-1 clause 5 for R17 CA configurations 18.4.0 2024-09 RAN#105 R5-244477 2883 - F Update to definitions and symbols for ATG UE 18.4.0 2024-09 RAN#105 R5-244478 2884 - F Update to general description of ATG Tx TCs 18.4.0 2024-09 RAN#105 R5-244482 2888 - F Update to general description of ATG Rx TC 18.4.0 2024-09 RAN#105 R5-244489 2891 - F Update to UTRA ACLR TC 18.4.0 2024-09 RAN#105 R5-244493 2892 - F Addition of Ref Sense power level for CA_n41C-n79A 18.4.0 2024-09 RAN#105 R5-244496 2893 - F Addition of Ref Sense power level for CA_n28A-n41C 18.4.0 2024-09 RAN#105 R5-244501 2894 - F Addition of Ref Sense power level for CA_n41A-n79C 18.4.0 2024-09 RAN#105 R5-244545 2897 - F Update NR-U editor note for tc 6.2F.3, 6.5F.2.4.2 and 6.5F.3.3 18.4.0 2024-09 RAN#105 R5-244569 2898 - F Addition of CA_30A_n77A PC2 to Ch5 18.4.0 2024-09 RAN#105 R5-244590 2899 - F Addition of CA_n30A-n77A PC2 to Max Power case 18.4.0 2024-09 RAN#105 R5-244591 2900 - F Addition of CA_n30A-n77A PC2 to reference sensitivity case 18.4.0 2024-09 RAN#105 R5-244592 2901 - F Addition of max power requirements for CA_n2A-n30A, CA_n5A-n30A, CA_n30A-n66A and CA_n30A-n77A 18.4.0 2024-09 RAN#105 R5-244690 2905 - F Addition of test case 6.3L.3.1 Minimum output power for inter-band UL CA with Tx Diversity 18.4.0 2024-09 RAN#105 R5-244746 2906 - F Addition of test case 6.5L.3.1 Occupied bandwidth for inter- band UL CA with Tx Diversity 18.4.0 2024-09 RAN#105 R5-244814 2907 - F Definition of RB allocation for intra-band contiguous CA with DFT-s 70 MHz CC 18.4.0 2024-09 RAN#105 R5-244816 2909 - F Addition of note for CA_n3A-n77A in 6.5A.3.2.1 18.4.0 2024-09 RAN#105 R5-244817 2910 - F Correction to test configuration of CA_n2A-n14A in 6.5A.3.2.1 18.4.0 2024-09 RAN#105 R5-244818 2911 - F Definition of Highest N_RB_agg and Lowest N_RB_agg 18.4.0 2024-09 RAN#105 R5-244819 2912 - F Correction to test frequency exceptions in 6.5.1 18.4.0 2024-09 RAN#105 R5-244820 2913 - F Clarification of the number of measured UL connectors during Rx TCs 18.4.0 2024-09 RAN#105 R5-244821 2914 - F Clarification of test condition in Narrow band blocking for CA 18.4.0 2024-09 RAN#105 R5-244822 2915 - F Correction to CA_n78A-n79A in 7.3A.1_1 18.4.0 2024-09 RAN#105 R5-244823 2916 - F Correction to test requirement table of 7.3A.1_1 for Release 15 CA configurations 18.4.0 2024-09 RAN#105 R5-244826 2919 - F Correction to test requirement table of 7.3A.1_1 for PC2 CA configurations 18.4.0 2024-09 RAN#105 R5-244861 2921 - F Updating PC3 AMPR testing for NS_43 18.4.0 2024-09 RAN#105 R5-244864 2923 - F Correction to the p-max value in general spurious emission testing for inter-band CA 18.4.0 2024-09 RAN#105 R5-244868 2926 - F Adding new test case 7.6C.2_1.2 Inband Blocking for SUL with 3 DL CA 18.4.0 2024-09 RAN#105 R5-244869 2927 - F Adding new test case 7.6C.3_1.2 Out-of-band Blocking for SUL with 3 DL CA 18.4.0 2024-09 RAN#105 R5-244870 2928 - F Updating delta T_IB,c for new SUL with inter-band CA configuration 18.4.0 2024-09 RAN#105 R5-244871 2929 - F Updating Rx requirements for new SUL with inter-band CA configuration 18.4.0 2024-09 RAN#105 R5-244874 2930 - F Updating Time mask for switching across three uplink bands test case 18.4.0 2024-09 RAN#105 R5-244875 2931 - F Adding new uplink switching time mask test case 6.3C.3.6_1 18.4.0 2024-09 RAN#105 R5-244877 2932 - F Updating MU and TT for SUL uplink switching across three bands testing 18.4.0 2024-09 RAN#105 R5-244901 2933 - F Correction of A-MPR for TxD test case 18.4.0 2024-09 RAN#105 R5-244915 2935 - F Update delta TIB for NR CA configuration CA_n1A-n5A- n78A 18.4.0 2024-09 RAN#105 R5-244916 2936 - F Update test configuration and test requirement for 3DL CA reference sensitivity exceptions for CA_n1A-n5A-n78A 18.4.0 2024-09 RAN#105 R5-244917 2937 - F Update delta RIB for NR CA configuration CA_n1A-n5A- n78A 18.4.0 2024-09 RAN#105 R5-244918 2938 - F Update minimum requirements of REFSENS exceptions due to intermodulation interference for 3D2U CA configuration of CA_n1A-n5A-n78A 18.4.0 2024-09 RAN#105 R5-244922 2939 - F Addition to 7.3.2 for 4Rx reference sensitivity power level for band n25 18.4.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2378 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-09 RAN#105 R5-244924 2940 - F Corrections on 6.5.2.3.3.4 for additional requirements for NS_06 and NS_07 for less than 5MHz channel BW 18.4.0 2024-09 RAN#105 R5-244925 2941 - F Corrections on 6.2B.4 for transmitter power for the Pcmax tolerance for inter-band NR-DC 18.4.0 2024-09 RAN#105 R5-244926 2942 - F Corrections on 6.2D for test requirements for UL MIMO transmitter power 18.4.0 2024-09 RAN#105 R5-244927 2943 - F Corrections on 6.2A for inter-band CA transmitter power for the Pcmax tolerance 18.4.0 2024-09 RAN#105 R5-244928 2944 - F Corrections on 6.2A for A-MPR test requirements for PC2 inter-band CA configurations 18.4.0 2024-09 RAN#105 R5-244930 2946 - F Corrections on 6.2E for V2X test requirements for transmitter power 18.4.0 2024-09 RAN#105 R5-244932 2947 - F Corrections on 6.2F for transmitter power for shared spectrum channel access 18.4.0 2024-09 RAN#105 R5-244997 2956 - F Update to NR V2X configured output power test cases to add PC2 and intra-band concurrent operation 18.4.0 2024-09 RAN#105 R5-244999 2957 - F Update to NR V2X minimum output power test cases to add intra-band concurrent operation 18.4.0 2024-09 RAN#105 R5-245000 2958 - F Update to NR V2X Transmit OFF power test cases to add intra-band concurrent operation 18.4.0 2024-09 RAN#105 R5-245003 2960 - F Introducing testing of n40 PC2 requirements 18.4.0 2024-09 RAN#105 R5-245007 2962 - F Addition of Global In-channel Test for V2X 18.4.0 2024-09 RAN#105 R5-245008 2963 - F Addition of 6.3E.4 NR V2X Absolute Power Tolerance 18.4.0 2024-09 RAN#105 R5-245010 2964 - F Addition of 6.4E.1 NR V2X Frequency Error 18.4.0 2024-09 RAN#105 R5-245012 2965 - F Update to 6.4E.2.2 NR V2X EVM 18.4.0 2024-09 RAN#105 R5-245014 2966 - F Addition of 6.4E.2.3 NR V2X Carrier leakage 18.4.0 2024-09 RAN#105 R5-245016 2967 - F Editorial correction of transmit ON/OFF time mask for V2X 18.4.0 2024-09 RAN#105 R5-245017 2968 - F Update to Annex F for R16 V2X 18.4.0 2024-09 RAN#105 R5-245146 2973 - F Addition of 4Rx reference sensitivity for handheld UE 18.4.0 2024-09 RAN#105 R5-245147 2974 - F Addition of inter-band CA 4Rx reference sensitivity for handheld UE 18.4.0 2024-09 RAN#105 R5-245149 2975 - F Correction to clause 5 for 3Tx inter-band CA configurations 18.4.0 2024-09 RAN#105 R5-245151 2977 - F Addition of new test case 6.5H.3.3.2 for inter-band CA with UL MIMO 18.4.0 2024-09 RAN#105 R5-245153 2979 - F Addition of new test case 6.5L.3.3.2 for inter-band CA with TxD 18.4.0 2024-09 RAN#105 R5-245155 2981 - F Addition of Rx requirements for inter-band UL CA with 3Tx 18.4.0 2024-09 RAN#105 R5-245218 2982 - F Introduction of eRedCap into general clause 5 18.4.0 2024-09 RAN#105 R5-245309 2984 - F Update of FRC in Annex for eRedCap UE 18.4.0 2024-09 RAN#105 R5-245395 2986 - F Correction of SCS selection in configuration tables in 7.6.4 and 7.6A.4 18.4.0 2024-09 RAN#105 R5-245722 2980 2 F Addition of Annex F for spurious emissions test cases for inter-band CA with 3Tx 18.4.0 2024-09 RAN#105 R5-245817 2861 1 F Addition of reference sensitivity for PC2 CA_n3A-n77A 18.4.0 2024-09 RAN#105 R5-245819 2871 1 F REFSENS testing corrections for CA n39A-n41A 18.4.0 2024-09 RAN#105 R5-245820 2945 1 F Corrections on 6.2D for UL MIMO transmitter power for HPUE 18.4.0 2024-09 RAN#105 R5-245821 2908 1 F Clean up of test configuration table and editorial corrections in 6.5A.3.2 18.4.0 2024-09 RAN#105 R5-245824 2917 1 F Correction to test requirement table of 7.3A.1_1 for Release 16 CA configurations 18.4.0 2024-09 RAN#105 R5-245825 2868 1 F Correction of reference sensitivity for PC3 CA_n41A-n77A 18.4.0 2024-09 RAN#105 R5-245826 2918 1 F Correction to test requirement table of 7.3A.1_1 for Release 17 CA configurations 18.4.0 2024-09 RAN#105 R5-245827 2881 1 F General updates of TS 38.521-1 clause 5 for R18 CA configurations 18.4.0 2024-09 RAN#105 R5-245828 2882 1 F General updates of clause 5 for R18 new CBW configurations 18.4.0 2024-09 RAN#105 R5-245830 2985 1 F Addition of MOP TC for eRedCap 18.4.0 2024-09 RAN#105 R5-245831 2983 1 F Introduction of Reference sensitivity power level for eRedCap 18.4.0 2024-09 RAN#105 R5-245832 2959 1 F Update to Annex F for R17 sidelink enhancement 18.4.0 2024-09 RAN#105 R5-245833 2862 1 F Addition of reference sensitivity for PC2 CA_n41A-n77A 18.4.0 2024-09 RAN#105 R5-245836 2961 1 F Update to test configuration of NS_17 18.4.0 2024-09 RAN#105 R5-245837 2873 1 F SUL ON-OFF power test case - k2 correction if mixing SCS 18.4.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2379 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-09 RAN#105 R5-245838 2987 1 F Remove TT in Table 6.5A.3.2.1.5-1 18.4.0 2024-09 RAN#105 R5-245839 2920 1 F Editorial update to 38.521-1 Annex H 18.4.0 2024-09 RAN#105 R5-245991 2970 1 F Adding receiver requirements for band n54 18.4.0 2024-09 RAN#105 R5-245992 2969 1 F Adding transmitter requirements for band n54 18.4.0 2024-09 RAN#105 R5-245994 2934 1 F Correction of maximum input level test cases 18.4.0 2024-09 RAN#105 R5-245996 2988 1 F Introduction of Reference sensitivity power level test for XR UEs 18.4.0 2024-09 RAN#105 R5-246011 2924 1 F Updating SUL test cases for SUL operation with inter-band CA 18.4.0 2024-09 RAN#105 R5-246012 2925 1 F Adding new test case Reference sensitivity power level for SUL (4CC) 18.4.0 2024-09 RAN#105 R5-246027 2948 1 F Updates on 6.2F for delta TIB description for shared spectrum channel access transmitter power 18.4.0 2024-09 RAN#105 R5-246032 2949 1 F Updates on 6.2 for delta TIB description for single carrier transmitter power 18.4.0 2024-09 RAN#105 R5-246033 2950 1 F Updates on 6.2A for delta TIB description for CA transmitter power 18.4.0 2024-09 RAN#105 R5-246034 2951 1 F Updates on 6.2B for delta TIB description for NR-DC transmitter power 18.4.0 2024-09 RAN#105 R5-246035 2952 1 F Updates on 6.2C for delta TIB description for SUL transmitter power 18.4.0 2024-09 RAN#105 R5-246037 2976 1 F Addition of new test case 6.5H.3.3.1 for inter-band CA with UL MIMO 18.4.0 2024-09 RAN#105 R5-246038 2978 1 F Addition of new test case 6.5L.3.3.1 for inter-band CA with TxD 18.4.0 2024-09 RAN#105 R5-246041 2953 1 F Updates on 6.2D and 6.2H for delta TIB description for UL MIMO transmitter power 18.4.0 2024-09 RAN#105 R5-246042 2954 1 F Updates on 6.2G for delta TIB description for Tx diversity transmitter power 18.4.0 2024-09 RAN#105 R5-246043 2955 1 F Updates on 6.2I for delta TIB description for Redcap transmitter power 18.4.0 2024-09 RAN#105 R5-246055 2885 1 F Update to ATG MOP TC 18.4.0 2024-09 RAN#105 R5-246056 2886 1 F Update to ATG Configured Tx power TC 18.4.0 2024-09 RAN#105 R5-246057 2887 1 F Update to Editor notes and Message contents of ATG Tx TCs 18.4.0 2024-09 RAN#105 R5-246058 2904 1 F Update of 6.3J for the uncompleted contents 18.4.0 2024-09 RAN#105 R5-246059 2889 1 F Update to ATG Rx TCs 18.4.0 2024-09 RAN#105 R5-246060 2903 1 F Update of ATG Receiver test cases for the uncompleted contents 18.4.0 2024-09 RAN#105 R5-246061 2890 1 F Update to MU and TT of ATG TCs 18.4.0 2024-09 RAN#105 R5-246062 2902 1 F Update of MU and TT for ATG test cases 18.4.0 2024-09 RAN#105 R5-246065 2895 2 F Addition of new test case 7.6A.4.4 Narrow band blocking for CA (5DL CA) 18.4.0 2024-09 RAN#105 R5-246066 2896 2 F Addition of new test case 7.7A.4 Spurious response for CA (5DL CA) 18.4.0 2024-12 RAN#106 R5-246133 2989 - F Addition of spurious emissions, delta TIBc and UE maximum output power for new R16 2CC NRCA combos with n40 18.5.0 2024-12 RAN#106 R5-246134 2990 - F Addition of spurious emissions, delta TIBc and UE maximum output power for CA_n40A-n77A 18.5.0 2024-12 RAN#106 R5-246268 2997 - F Adding bands n100 and n101 note for NB blocking 18.5.0 2024-12 RAN#106 R5-246269 2998 - F Adding reference related to bands n100 and n101 NB blocking 18.5.0 2024-12 RAN#106 R5-246272 3000 - F CR implementation correction for band n85 receiver requirements 18.5.0 2024-12 RAN#106 R5-246273 3001 - F Addition of 3 MHz CBW for Annexes C and D 18.5.0 2024-12 RAN#106 R5-246278 3004 - F Update of UE A-MPR Rel-18 CBWs 25,30,35 MHz for band n71 NS_35 18.5.0 2024-12 RAN#106 R5-246279 3005 - F Addition of 35 MHz CBW to NS_35 for Output power dynamics for Tx Diversity 18.5.0 2024-12 RAN#106 R5-246308 3007 - F Editorial update of TC 7.3A.0.5 18.5.0 2024-12 RAN#106 R5-246435 3009 - F FR1 SRS Time Mask test case corrections 18.5.0 2024-12 RAN#106 R5-246438 3011 - F Corrections in additional spurious test for UL MIMO Rel-16 onwards 18.5.0 2024-12 RAN#106 R5-246440 3013 - F A-MPR for UL MIMO - added missing CBWs for Rel-17 - NS 48 18.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2380 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-12 RAN#106 R5-246441 3014 - F A-MPR for UL MIMO - added missing CBWs for Rel-17 - NS 49 18.5.0 2024-12 RAN#106 R5-246442 3015 - F A-MPR for UL MIMO - added missing CBWs for Rel-17 - NS 27 18.5.0 2024-12 RAN#106 R5-246444 3017 - F Test requirements corrections in SUL test case 6.2C.4 18.5.0 2024-12 RAN#106 R5-246449 3021 - F Editorial correction in FR1 maximum input level test cases 18.5.0 2024-12 RAN#106 R5-246450 3022 - F Editorial correction in FR1 Spurious emissions for UE co- existence for 2 UL CA test case 18.5.0 2024-12 RAN#106 R5-246453 3023 - F Adding UL-MIMO bands n13, n26, n85, n105 into clause 5 18.5.0 2024-12 RAN#106 R5-246470 3027 - F CR 38.521-1 Clause 7 Definition of many NR CA combos with 2 bands and 3 bands 18.5.0 2024-12 RAN#106 R5-246497 3029 - F Introduction of new test case 7.6E.2.1 In-band blocking for V2X non-concurrent operation 18.5.0 2024-12 RAN#106 R5-246499 3031 - F Introduction of new test case 7.7E.1 Spurious response for V2X non-concurrent operation 18.5.0 2024-12 RAN#106 R5-246500 3032 - F Introduction of new test case 7.8E.2.1 Wide band Intermodulation for V2X non-concurrent operation 18.5.0 2024-12 RAN#106 R5-246519 3034 - F Adding TX-diversity transmitter requirements for bands n13 and n85 18.5.0 2024-12 RAN#106 R5-246568 3041 - F Removal of n38 from test case 7.3E.2 Reference sensitivity for V2X non-concurrent operation 18.5.0 2024-12 RAN#106 R5-246618 3044 - F Addition of new TC 7.3J.2 Reference sensitivity power level for ATG 18.5.0 2024-12 RAN#106 R5-246763 3061 - F Cleanup of editors note in NR-U Tx test cases 18.5.0 2024-12 RAN#106 R5-246764 3062 - F Updates in NR-U MPR test case 18.5.0 2024-12 RAN#106 R5-246873 3064 - F General updates of TS 38.521-1 clause 5 for R16 CA configurations 18.5.0 2024-12 RAN#106 R5-246874 3065 - F General updates of TS 38.521-1 clause 5 for R17 CA configurations 18.5.0 2024-12 RAN#106 R5-246875 3066 - F General updates of TS 38.521-1 clause 5 for R18 CA configurations 18.5.0 2024-12 RAN#106 R5-246912 3070 - F Addition of new test cases 6.3H.3.2 and 6.3H.3.3 for inter- band CA with UL MIMO 18.5.0 2024-12 RAN#106 R5-246913 3071 - F Addition of new test cases 6.3L.3.2 and 6.3L.3.3 for inter- band CA with TxD 18.5.0 2024-12 RAN#106 R5-246914 3072 - F Addition of new test cases 6.4H.3.x for inter-band CA with UL MIMO 18.5.0 2024-12 RAN#106 R5-246915 3073 - F Addition of new test cases 6.4L.3.x for inter-band CA with TxD 18.5.0 2024-12 RAN#106 R5-246965 3074 - F Editorial change in Table 6.5.2.3.5.2-1 18.5.0 2024-12 RAN#106 R5-246974 3075 - F Addition of new test case 7.6A.3.4 Out-of-band blocking for CA (5DL CA) 18.5.0 2024-12 RAN#106 R5-247007 3079 - F Updating test coverage rules for SA band configuration Spurious emission UE co-ex testing 18.5.0 2024-12 RAN#106 R5-247011 3080 - F Updating minimum requirements for 8Rx in Configured transmitted power test case 18.5.0 2024-12 RAN#106 R5-247013 3082 - F Updating minimum requirements in REFSENS for CA for 8Rx bands 18.5.0 2024-12 RAN#106 R5-247017 3086 - F Updating the test requirement for SUL REFSENS testing 18.5.0 2024-12 RAN#106 R5-247018 3087 - F Updating several REFSENS test cases for 8Rx UE 18.5.0 2024-12 RAN#106 R5-247021 3090 - F Updating Blocking test cases for 8Rx UE 18.5.0 2024-12 RAN#106 R5-247062 3092 - F Addition of 6.5E.1 NR V2X Occupied bandwidth 18.5.0 2024-12 RAN#106 R5-247064 3093 - F Update to 6.5E.2.2 NR V2X spectrum emission mask 18.5.0 2024-12 RAN#106 R5-247065 3094 - F Update to 6.5E.2.3 NR V2X additional spectrum emission mask 18.5.0 2024-12 RAN#106 R5-247066 3095 - F Update to 6.5E.2.4 NR V2X ACLR test case 18.5.0 2024-12 RAN#106 R5-247067 3096 - F Addition of 6.5E.3.1 NR V2X General spurious emissions 18.5.0 2024-12 RAN#106 R5-247069 3097 - F Addition of 6.5E.3.2 NR V2X Spurious emissions for UE co- existence 18.5.0 2024-12 RAN#106 R5-247071 3098 - F Addition of 6.5E.4 NR V2X Transmit Intermodulation 18.5.0 2024-12 RAN#106 R5-247073 3099 - F Removing n38 from V2X Tx test cases 18.5.0 2024-12 RAN#106 R5-247174 3101 - F Correction to RB allocation of A-MPR for NS_48 PC2 18.5.0 2024-12 RAN#106 R5-247175 3102 - F Editorial correction on how to describe SCS in test configuration tables 18.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2381 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-12 RAN#106 R5-247176 3103 - F Correction to test configuration of 7.3A.1_1 for Rel-16 CA configuration 18.5.0 2024-12 RAN#106 R5-247178 3105 - F Correction to test requirements of A-MPR for NS_07 18.5.0 2024-12 RAN#106 R5-247179 3106 - F Correction to requirements in 7.6.2 18.5.0 2024-12 RAN#106 R5-247210 3108 - F Update of MOP TC for eRedCap UE 18.5.0 2024-12 RAN#106 R5-247219 3111 - F Addition of PC3 for n81 UL MIMO into 5.2D 18.5.0 2024-12 RAN#106 R5-247220 3112 - F Addition of MOP and MPR TCs with UL MIMO for SUL band n81 18.5.0 2024-12 RAN#106 R5-247245 3114 - F Addition of PC2 for n14 into 6.2.1 MOP TC 18.5.0 2024-12 RAN#106 R5-247255 3116 - F Adding additional spurious emissions test configuration table and message contents for band n54 18.5.0 2024-12 RAN#106 R5-247256 3117 - F Adding transmitter requirements for band n98 18.5.0 2024-12 RAN#106 R5-247257 3118 - F Adding transmitter requirements for band n109 18.5.0 2024-12 RAN#106 R5-247258 3119 - F Adding receiver requirements for new CBW for band n8 18.5.0 2024-12 RAN#106 R5-247259 3120 - F Adding receiver requirements for new CBW for band n39 18.5.0 2024-12 RAN#106 R5-247261 3122 - F Adding downlink singals levels and interference signals for new CBW 35MHz 18.5.0 2024-12 RAN#106 R5-247336 3124 - F Correction of A-MPR for UL MIMO test case 18.5.0 2024-12 RAN#106 R5-247366 3125 - F Corrections on 7.3.2 for 4Rx reference sensitivity power level for FDD bands 18.5.0 2024-12 RAN#106 R5-247368 3126 - F Addition to 7.3.2 for 4Rx reference sensitivity power level for band n26 for FWA 18.5.0 2024-12 RAN#106 R5-247373 3128 - F Addition of delta TIB for NR CA configuration CA_n1A-n5A 18.5.0 2024-12 RAN#106 R5-247374 3129 - F Introduction of maximum output power requirements for CA_n1A-n5A 18.5.0 2024-12 RAN#106 R5-247375 3130 - F Introduction of spurious emissions test requirements for CA_n1A-n5A 18.5.0 2024-12 RAN#106 R5-247376 3131 - F Introduction of reference sensitivity power level test requirements for CA_n1A-n5A 18.5.0 2024-12 RAN#106 R5-247382 3133 - F Introduction of spurious emissions test requirements for CA_n5A-n78A 18.5.0 2024-12 RAN#106 R5-247390 3135 - F Update delta TIB for NR CA configuration CA_n3A-n5A-n78 18.5.0 2024-12 RAN#106 R5-247392 3137 - F Update delta RIB for NR CA configuration CA_n3A-n5A- n78A 18.5.0 2024-12 RAN#106 R5-247398 3138 - F Addition of 6.2.1 on TC for band n7 PC2 MOP 18.5.0 2024-12 RAN#106 R5-247399 3139 - F Addition of 7.3.2 on TC for band n7 PC2 Reference Sensitivity 18.5.0 2024-12 RAN#106 R5-247400 3140 - F Updating PC2 A-MPR NS_46 for band n7 18.5.0 2024-12 RAN#106 R5-247403 3142 - F Corrections on A-MPR reference table for shared spectrum channel access 18.5.0 2024-12 RAN#106 R5-247404 3143 - F Corrections on feature name for V2X concurrent operation 18.5.0 2024-12 RAN#106 R5-247432 3145 - F Update to 6.3E.3 to add intra-band concurrent operation 18.5.0 2024-12 RAN#106 R5-247433 3146 - F Update to 6.3E.4 to add intra-band concurrent operation 18.5.0 2024-12 RAN#106 R5-247682 3109 2 F Update of Reference sensitivity power level for eRedCap UE 18.5.0 2024-12 RAN#106 R5-247690 3030 1 F Introduction of new test case 7.6E.3.1 Out-of-band blocking for V2X non-concurrent operation 18.5.0 2024-12 RAN#106 R5-247691 3033 1 F Correction of Minimum conformance requirements for V2X receiver test cases 18.5.0 2024-12 RAN#106 R5-247694 3078 2 F Updates in general clause 4 and 5 for eRedCap 18.5.0 2024-12 RAN#106 R5-247718 3042 1 F Addition of new TC PRACH time mask for ATG 18.5.0 2024-12 RAN#106 R5-247719 3043 1 F Addition of new TC 6.3J.3.4 SRS time mask for ATG 18.5.0 2024-12 RAN#106 R5-247720 3123 1 F Addition of Annex F for ATG test cases 18.5.0 2024-12 RAN#106 R5-247722 3134 1 F Introduction of reference sensitivity power level test requirements for CA_n5A-n78A 18.5.0 2024-12 RAN#106 R5-247723 3136 1 F Update test configuration and test requirement for 3DL CA reference sensitivity exceptions for CA_n3A-n5A-n78A 18.5.0 2024-12 RAN#106 R5-247724 2992 1 F Addition of delta RIBc and reference sensitivity for CA_n40A-n77A 18.5.0 2024-12 RAN#106 R5-247725 2994 1 F Addition of delta RIBc and reference sensitivity for new 3CC NRCA combos within FR1 18.5.0 2024-12 RAN#106 R5-247726 3115 1 F Adding transmitter requirements for band n39 18.5.0 2024-12 RAN#106 R5-247729 3100 1 F Update of MU for configured output power and absolute power tolerance 18.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2382 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-12 RAN#106 R5-247731 3002 1 F Addition of four antenna port Reference sensitivity requirements for bands n13 and n85 18.5.0 2024-12 RAN#106 R5-247732 3144 1 F Update to Annex F for NR V2X test cases 18.5.0 2024-12 RAN#106 R5-247733 3069 1 F Update of DL interruption allowed note 18.5.0 2024-12 RAN#106 R5-247734 3028 1 F Update the UE power class table for n2 and n66 18.5.0 2024-12 RAN#106 R5-247735 3045 1 F Introduction of General description of Transmit ON/OFF time mask for ATG 18.5.0 2024-12 RAN#106 R5-247736 3046 1 F Introduction of Transmit power time mask TCs for ATG 18.5.0 2024-12 RAN#106 R5-247737 3047 1 F Addition to ATG Absolute power tolerance TC 18.5.0 2024-12 RAN#106 R5-247738 3048 1 F Addition to ATG Relative power tolerance TC 18.5.0 2024-12 RAN#106 R5-247739 3049 1 F Addition to ATG Aggregate power tolerance TC 18.5.0 2024-12 RAN#106 R5-247740 3050 1 F Addition to MU and TT for ATG Power control TCs 18.5.0 2024-12 RAN#106 R5-247741 3003 1 F Adding missing reference sensitivity exceptions due to IMD test requirements for CA_n25A-n66A, CA_n25A-n77A and CA_n25A-n78A 18.5.0 2024-12 RAN#106 R5-247742 3026 1 F Remove Editors Notes again 18.5.0 2024-12 RAN#106 R5-247743 3024 1 F Adding transmitter requirements for UL-MIMO bands n13, n26, n85, n105 18.5.0 2024-12 RAN#106 R5-247744 3051 1 F Editorial Correction to Power control TCs 18.5.0 2024-12 RAN#106 R5-247745 3113 1 F Addition of n8 into AMPR TC with UL-MIMO 18.5.0 2024-12 RAN#106 R5-247746 3016 1 F n71 intra-band non-contiguous CA - updates in test case 7.3A.1.1_1 18.5.0 2024-12 RAN#106 R5-247747 3104 1 F Correction to test configuration of 7.3A.1_1 for Rel-17 CA configuration 18.5.0 2024-12 RAN#106 R5-247748 2993 1 F Addition of delta TIBc for new 3CC NRCA combos within FR1 18.5.0 2024-12 RAN#106 R5-247749 3132 1 F Addition of delta TIB for NR CA configuration CA_n5A-n78A 18.5.0 2024-12 RAN#106 R5-247750 3081 1 F Updating REFSENS requirements for 8Rx UE 18.5.0 2024-12 RAN#106 R5-247751 3085 1 F Updating test requirement in REFSENS for 4DL CA testing 18.5.0 2024-12 RAN#106 R5-247752 3091 1 F Updating Wide band Intermodulation and Spurious emission test cases for 8Rx UE 18.5.0 2024-12 RAN#106 R5-247753 3088 1 F Updating maximum input level test cases for 8Rx UE 18.5.0 2024-12 RAN#106 R5-247754 3089 1 F Updating Adjacent channel selectivity test cases for 8Rx UE 18.5.0 2024-12 RAN#106 R5-247755 3121 1 F Adding receiver requirements for band n109 18.5.0 2024-12 RAN#106 R5-247756 3068 1 F General updates of clause 5 for R18 new CBW configurations 18.5.0 2024-12 RAN#106 R5-247757 2995 1 F Adding transmitter requirements for band n105 18.5.0 2024-12 RAN#106 R5-247758 3035 1 F Adding message content for NR-U SEM test case 18.5.0 2024-12 RAN#106 R5-247759 3038 1 F Updating editors note for NR-U Refsens test case 18.5.0 2024-12 RAN#106 R5-247760 3039 1 F Updated NR-U Rx blocking test case 18.5.0 2024-12 RAN#106 R5-247761 3036 1 F Adding message content for NR-U ACLR test case 18.5.0 2024-12 RAN#106 R5-247762 3147 1 F Updates to REFSENS power level test for XR UEs 18.5.0 2024-12 RAN#106 R5-247763 3052 1 F Update to UE AMPR for UL MIMO 18.5.0 2024-12 RAN#106 R5-247764 3053 1 F Editorial Correction to AMPR Tx Diversity TC 18.5.0 2024-12 RAN#106 R5-247765 3054 1 F Update AMPR TC for n41 CBW 5MHz 18.5.0 2024-12 RAN#106 R5-247766 3055 1 F Update ASEM TC for n41 CBW 5MHz 18.5.0 2024-12 RAN#106 R5-247767 3056 1 F Update ASE TC for n41 CBW 5MHz 18.5.0 2024-12 RAN#106 R5-247768 3057 1 F Update REFSENSE power level for n41 CBW 5MHz 18.5.0 2024-12 RAN#106 R5-247769 3008 1 F Editorial Correction to Uplink configuration RB allocation in REFSENS testing 18.5.0 2024-12 RAN#106 R5-247770 3012 1 F A-MPR for UL MIMO - added missing CBWs for Rel-16 18.5.0 2024-12 RAN#106 R5-247771 3025 1 F Update of Refsens TC for RedCap UE 18.5.0 2024-12 RAN#106 R5-247772 3067 1 F General updates of clause 5 for R17 new CBW configurations 18.5.0 2024-12 RAN#106 R5-247839 3058 1 F Update MPR for NR Coverage enh2 18.5.0 2024-12 RAN#106 R5-247840 3059 1 F Update Configured Tx power for NR Coverage enh2 18.5.0 2024-12 RAN#106 R5-247844 2996 1 F Adding receiver requirements for band n105 18.5.0 2024-12 RAN#106 R5-247848 3149 1 F Update to 7.3A.3 Reference sensitivity power level for 4DL CA 18.5.0 2024-12 RAN#106 R5-247850 3141 1 F Corrections on definition of symbols and abbreviations 18.5.0 2024-12 RAN#106 R5-247918 3083 1 F Updating test requirement in REFSENS for 2DL CA testing 18.5.0 2024-12 RAN#106 R5-247919 3084 1 F Updating test requirement in REFSENS for 3DL CA exceptions testing 18.5.0 2024-12 RAN#106 R5-247925 3060 1 F Update AMPR for NR Coverage enh2 18.5.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2383 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2024-12 RAN#106 R5-247937 3148 1 F Correction of RB allocation settings for FR1 intra-band non- contiguous CA scenarios 18.5.0 2024-12 RAN#106 R5-247938 3107 1 F Correction to requirement for n53 in 7.6.3 18.5.0 2024-12 RAN#106 R5-247939 3018 1 F ATG - Tx Tests - General updates on MU and core specs 18.5.0 2024-12 RAN#106 R5-247940 3019 1 F ATG - Rx Tests - General updates on MU and core specs 18.5.0 2024-12 RAN#106 R5-247941 3020 1 F ATG - Annex F - MU and TT updates 18.5.0 2024-12 RAN#106 R5-248004 3076 1 F Update of IBB requirements for intraband contiguous CA 18.5.0 2025-03 RAN#107 R5-250113 3150 - F Update to ATG Tx TCs 18.6.0 2025-03 RAN#107 R5-250119 3151 - F Addition of n104 PC3 Tx TCs 18.6.0 2025-03 RAN#107 R5-250120 3152 - F Addition of n104 PC3 Rx TCs 18.6.0 2025-03 RAN#107 R5-250124 3153 - F Addition of Ref Sense power level for CA_n41C-n79C 18.6.0 2025-03 RAN#107 R5-250143 3154 - F Editorial Correction to FR1 MPR TC 6.2.2 18.6.0 2025-03 RAN#107 R5-250175 3156 - F General updates of clause 5 for R17 new CBW configurations 18.6.0 2025-03 RAN#107 R5-250176 3157 - F General updates of TS 38.521-1 clause 5 for R17 CA configurations 18.6.0 2025-03 RAN#107 R5-250177 3158 - F General updates of TS 38.521-1 clause 5 for R18 CA configurations 18.6.0 2025-03 RAN#107 R5-250189 3163 - F Introduce new TC 6.5J.2.2 test case for ATG 18.6.0 2025-03 RAN#107 R5-250197 3167 - F CR 38.521-1 Clause 5 Definition of many PC2 NR CA combos with 2 bands 18.6.0 2025-03 RAN#107 R5-250198 3168 - F CR 38.521-1 Clause 5 Definition of many PC2 NR CA combos with 3 bands 18.6.0 2025-03 RAN#107 R5-250228 3170 - F Addition of delta TIBc for new 4CC NRCA combo within FR1 18.6.0 2025-03 RAN#107 R5-250234 3172 - F Addition of Reference sensitivity exceptions for CA_n28A- n78A PC2 18.6.0 2025-03 RAN#107 R5-250235 3173 - F Addition of transmitter requirements for CA_n28A-n78A PC2 18.6.0 2025-03 RAN#107 R5-250243 3175 - F Adding band n13 into NS_06 A-MPR 18.6.0 2025-03 RAN#107 R5-250272 3178 - F Addition of Rx requirements for many NR 3CA and 4CA combos 18.6.0 2025-03 RAN#107 R5-250296 3182 - F SUL test cases - MU definition in annex F 18.6.0 2025-03 RAN#107 R5-250298 3184 - F Corrections for CA_n48A-n66A combo in test case 7.3A.1_1 18.6.0 2025-03 RAN#107 R5-250432 3188 - F Adding new symbols for 8Rx UE 18.6.0 2025-03 RAN#107 R5-250433 3189 - F Editorial correction to 8Rx REFSENS test requirements for SUL 18.6.0 2025-03 RAN#107 R5-250434 3190 - F Updating PC2 AMPR testing for NS_43 and NS_43U for band n8 18.6.0 2025-03 RAN#107 R5-250436 3191 - F Adding n8 PC2 test requirements in MPR for UL MIMO test case 18.6.0 2025-03 RAN#107 R5-250443 3195 - F Cleaning up R15 requirements in Spurious emission for UE co-existence for CA 18.6.0 2025-03 RAN#107 R5-250444 3196 - F Updating test coverage rules in 4.5 for spurious emissions for UE co-existence testing 18.6.0 2025-03 RAN#107 R5-250448 3197 - F Addition of MOP for CA_n2A-n12A 18.6.0 2025-03 RAN#107 R5-250449 3198 - F Addition Reference sensitivity power for Inter-band CA operating bands CA_n2A-n12 18.6.0 2025-03 RAN#107 R5-250630 3202 - F Correction of Minimum conformance requirements for 7.3E Reference sensitivity for V2X 18.6.0 2025-03 RAN#107 R5-250631 3203 - F Introduction of new test case 7.6E.2.2 In-band blocking for V2X con-current operation 18.6.0 2025-03 RAN#107 R5-250642 3205 - F Core spec alignment, addition of definition of eRedCap 18.6.0 2025-03 RAN#107 R5-250647 3207 - F Updating test case 6.3F.3.2 General ON/OFF time mask 18.6.0 2025-03 RAN#107 R5-250648 3208 - F Updating test case 6.5F.1 Occupied bandwidth for shared spectrum channel access 18.6.0 2025-03 RAN#107 R5-250649 3209 - F Updating editors note in Tx test cases 18.6.0 2025-03 RAN#107 R5-250650 3210 - F Updating 7.4F Maximum input level for shared spectrum channel access 18.6.0 2025-03 RAN#107 R5-250651 3211 - F Updating MU and TT for NR-U test cases 18.6.0 2025-03 RAN#107 R5-250655 3212 - F Addition of NS_53 and NS_54 for TC6.2F.3 18.6.0 2025-03 RAN#107 R5-250656 3213 - F Addition of NS_53 and NS_54 for TC6.5F.3.3 18.6.0 2025-03 RAN#107 R5-250735 3219 - F Addition of MOP for Power Class 1.5 CA with UL MIMO 18.6.0 2025-03 RAN#107 R5-250736 3220 - F Addition of MOP for Power Class 1.5 CA with TxD 18.6.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2384 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2025-03 RAN#107 R5-250737 3221 - F Addition of new test cases 6.5H.3.2 OOBE for inter-band CA with UL MIMO 18.6.0 2025-03 RAN#107 R5-250738 3222 - F Addition of new test case 6.5H.3.4 for inter-band CA with UL MIMO 18.6.0 2025-03 RAN#107 R5-250739 3223 - F Addition of new test cases 6.5L.3.2 OOBE for inter-band CA with Tx Diversity 18.6.0 2025-03 RAN#107 R5-250740 3224 - F Addition of new test case 6.5L.3.4 for inter-band CA with Tx Diversity 18.6.0 2025-03 RAN#107 R5-250945 3227 - F Correction of statistical testing of receiver characteristics for NR SA FR1 18.6.0 2025-03 RAN#107 R5-250953 3229 - F Editorial correction to tables in Annex A 18.6.0 2025-03 RAN#107 R5-251027 3232 - F Correction to Reference Sensitivity downlink configuration 18.6.0 2025-03 RAN#107 R5-251043 3234 - F Addition of Annex F for ATG test cases 18.6.0 2025-03 RAN#107 R5-251066 3235 - F Corrections on 7.3.2.5 for test requirements for band n25 and n26 for 4Rx Refsens 18.6.0 2025-03 RAN#107 R5-251084 3238 - F Corrections on clause 5 for uplink Tx Switching IE names in TS 38.521-1 18.6.0 2025-03 RAN#107 R5-251087 3240 - F Corrections on clause 6 for IE names in TS 38.521-1 18.6.0 2025-03 RAN#107 R5-251088 3241 - F Corrections on clause 6.5A.2.4 for ACLR description for intra-band NC CA 18.6.0 2025-03 RAN#107 R5-251089 3242 - F Corrections on clause 4 and Annex I for IE names in TS 38.521-1 18.6.0 2025-03 RAN#107 R5-251115 3245 - F Completion of 6.4E.2.4 In-band emissions for V2X 18.6.0 2025-03 RAN#107 R5-251117 3246 - F Completion of 6.4E.2.5 EVM equalizer spectrum flatness for V2X 18.6.0 2025-03 RAN#107 R5-251124 3250 - F Update to Annex F for NR V2X test cases 18.6.0 2025-03 RAN#107 R5-251126 3251 - F Update of 6.4E test cases for intra-band concurrent operation 18.6.0 2025-03 RAN#107 R5-251127 3252 - F Update of 6.5E.1 Occupied bandwidth for V2X for intra- band concurrent operation 18.6.0 2025-03 RAN#107 R5-251128 3253 - F Update of 6.5E.2 Out-of-band emission for V2X for intra- band concurrent operation 18.6.0 2025-03 RAN#107 R5-251131 3255 - F Update of 6.5E.4 Transmit intermodulation for V2X intra- band concurrent operation 18.6.0 2025-03 RAN#107 R5-251135 3258 - F Correction to test configuration of Rx spurious emission 18.6.0 2025-03 RAN#107 R5-251136 3259 - F Correction to minimum requirements of CA configured output power 18.6.0 2025-03 RAN#107 R5-251140 3262 - F Correction of A-MPR for Band n8 with PC2 18.6.0 2025-03 RAN#107 R5-251141 3263 - F Editorial correction of headings 18.6.0 2025-03 RAN#107 R5-251507 3225 1 F Addition of MSD requirements for PC1.5 CA configurations 18.6.0 2025-03 RAN#107 R5-251510 3247 1 F Addition of 7.3E.3 Reference sensitivity for V2X concurrent operation 18.6.0 2025-03 RAN#107 R5-251511 3248 1 F Addition of 7.4E NR V2X Maximum input level 18.6.0 2025-03 RAN#107 R5-251512 3249 1 F Addition of 7.5E NR V2X Adjacent channel selectivity 18.6.0 2025-03 RAN#107 R5-251513 3201 1 F Editorial correction for some referenced Table numbers and Annex clause numbers in V2X receiver test cases 18.6.0 2025-03 RAN#107 R5-251514 3161 1 F Introduce new TC 6.4J.1 Frequency error for ATG 18.6.0 2025-03 RAN#107 R5-251516 3174 1 F Adding A-MPR requirements for UL-MIMO bands n13, n26 18.6.0 2025-03 RAN#107 R5-251517 3171 1 F Addition of delta RIBc and reference sensitivity for new 4CC NRCA combo within FR1 18.6.0 2025-03 RAN#107 R5-251520 3166 1 F Addition of reference sensitivity for PC1.5 CA_n41A-n77A 18.6.0 2025-03 RAN#107 R5-251524 3194 1 F Updating the test channel bandwidth for Out-of-band blocking test case 18.6.0 2025-03 RAN#107 R5-251527 3236 1 F Updates on 7.3.2.5 for Refsens symbol for degradation from PC3 to PC2 on FDD bands 18.6.0 2025-03 RAN#107 R5-251528 3260 1 F Update of MU of receiver test cases for 8Rx 18.6.0 2025-03 RAN#107 R5-251531 3214 1 F Addition of four antenna port Reference sensitivity requirements for bands n5 18.6.0 2025-03 RAN#107 R5-251532 3244 1 F Corrections on clause 6.2.1.5 for maximum output power test requirement 18.6.0 2025-03 RAN#107 R5-251533 3159 1 F Addition of PC2 for n14 into TC 7.3.2 Reference Sensitivity 18.6.0 2025-03 RAN#107 R5-251534 3165 1 F Addition of reference sensitivity for new PC2 2CC NRCA combos within FR1 18.6.0 2025-03 RAN#107 R5-251535 3169 1 F Addition of reference sensitivity for new PC1.5 2CC NRCA combos within FR1 18.6.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2385 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2025-03 RAN#107 R5-251536 3164 1 F Introduce new TC 6.5J.2.2 test case for ATG in Annex F 18.6.0 2025-03 RAN#107 R5-251537 3162 1 F Introduce Frequency error test case 6.4J.1 for ATG UE in Annex F 18.6.0 2025-03 RAN#107 R5-251538 3192 1 F Updating PC2 AMPR for UL MIMO testing for band n8 18.6.0 2025-03 RAN#107 R5-251539 3231 1 F Addition of PC3 n81 into AMPR TC with UL-MIMO 18.6.0 2025-03 RAN#107 R5-251540 3237 1 F Update TT notes for test requirements in Refsens for inter- band CA configuration 18.6.0 2025-03 RAN#107 R5-251541 3204 1 F Introduction of RedCap receiver requirements for band n105 18.6.0 2025-03 RAN#107 R5-251543 3254 1 F Update of 6.5E.3.2 Spurious emissions for UE co-existence for V2X intra-band concurrent operation 18.6.0 2025-03 RAN#107 R5-251544 3264 1 F Updates to REFSENS power level test for XR UEs 18.6.0 2025-03 RAN#107 R5-251545 3183 1 F Editorial corrections in FR1 A-MPR UL MIMO test 6.2D.3 18.6.0 2025-03 RAN#107 R5-251546 3193 1 F Editorial correction to test channel bandwidth in AMPR test case 18.6.0 2025-03 RAN#107 R5-251547 3239 1 F Corrections on clause 6 for frequency error test requirements 18.6.0 2025-03 RAN#107 R5-251548 3261 1 F Correction of A-MPR for UL-MIMO 18.6.0 2025-03 RAN#107 R5-251549 3243 1 F Corrections on clause 4 for applicability and test coverage rules in TS 38.521-1 18.6.0 2025-03 RAN#107 R5-251550 3155 1 F Update to R18 Coverage enh AMPR TC 18.6.0 2025-03 RAN#107 R5-251551 3177 1 F Addition of configured output power requirements for many 3 band NR CA combos 18.6.0 2025-03 RAN#107 R5-251675 3186 1 F Corrections for CA_n41A-n77A combo in test case 7.3A.1_1 18.6.0 2025-03 RAN#107 R5-251681 3233 1 F Addition of new TC Error Vector Magnitude for ATG 18.6.0 2025-03 RAN#107 R5-251682 3216 1 F Updates to NRU Tx Signal Quality TC 18.6.0 2025-03 RAN#107 R5-251683 3217 1 F Updates to NRU Tx IMD TC 18.6.0 2025-03 RAN#107 R5-251684 3218 1 F Updates to NRU Rx TC 18.6.0 2025-03 RAN#107 R5-251685 3200 1 F Update of 7.3I.3 Reference sensitivity TC for eRedCap UE 18.6.0 2025-03 RAN#107 R5-251687 3228 1 F Correction to reference sensitivity for 2DL CA for PC2 18.6.0 2025-03 RAN#107 R5-251690 3206 1 F Updating test case 6.2F.1 UE maximum output power for shared spectrum channel access 18.6.0 2025-03 RAN#107 R5-251702 3185 1 F Corrections for CA_n3A-n77A combo in test case 7.3A.1_1 18.6.0 2025-03 RAN#107 R5-251703 3179 1 F ATG - Tx Tests - General updates on MU and core specs 18.6.0 2025-03 RAN#107 R5-251704 3180 1 F ATG - Rx Tests - General updates on MU and core specs 18.6.0 2025-03 RAN#107 R5-251705 3181 1 F ATG - Annex F - MU and TT updates 18.6.0 2025-03 RAN#107 R5-251708 3215 1 F Updates to NRU MOP CA TC 18.6.0 2025-03 RAN#107 R5-251733 3187 1 F Updating REFSENS MSD testing for DL CA with single UL configuration 18.6.0 2025-03 RAN#107 R5-251735 3256 1 F Update to Annex F for NR V2X test cases 18.6.0 2025-06 RAN#108 R5-251831 3265 - F Addition of notes for PC2 and PC1.5 NRCA combos within FR1 18.7.0 2025-06 RAN#108 R5-251903 3266 - F Addition of notes for PC2 and PC1.5 CA_n41A-n77A 18.7.0 2025-06 RAN#108 R5-251904 3267 - F Addition of UE maximum output power for PC2 2CC NRCA combos within FR1 18.7.0 2025-06 RAN#108 R5-251974 3270 - F Addition of Reference sensitivity exceptions for CA_n1A- n3A-n78A PC2 18.7.0 2025-06 RAN#108 R5-251979 3272 - F Adding PC2 into configurations CA-n1A-n78A/n1A and CA- n3A-n78A/n3A 18.7.0 2025-06 RAN#108 R5-252005 3273 - F Editorial correction to V2X terminologies 18.7.0 2025-06 RAN#108 R5-252007 3274 - F Update to V2X REFSENS 18.7.0 2025-06 RAN#108 R5-252008 3275 - F Update to V2X adjacent selectivity 18.7.0 2025-06 RAN#108 R5-252065 3281 - F Completion of receiver test caes for V2V concurrent operation 18.7.0 2025-06 RAN#108 R5-252077 3282 - F Editorial Correction to Definitions for ATG UE 18.7.0 2025-06 RAN#108 R5-252078 3283 - F Update to ATG Tx TCs 18.7.0 2025-06 RAN#108 R5-252079 3284 - F Update to ATG Rx TCs 18.7.0 2025-06 RAN#108 R5-252091 3287 - F Addition of n104 UL MIMO Tx TCs 18.7.0 2025-06 RAN#108 R5-252097 3288 - F Update to REF SENSE test configuration of CA_n28A- n41A-n79A 18.7.0 2025-06 RAN#108 R5-252137 3292 - F ATG - Tx Tests - General updates 18.7.0 2025-06 RAN#108 R5-252138 3293 - F ATG - Rx Tests - General updates 18.7.0 2025-06 RAN#108 R5-252139 3294 - F ATG - Annex F - MU and TT updates 18.7.0 2025-06 RAN#108 R5-252140 3295 - F Corrections in FR1 test case 6.3A.3.2 18.7.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2386 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2025-06 RAN#108 R5-252145 3300 - F Extending testing in 7.8A.2.3 to more 4DL CA combinations 18.7.0 2025-06 RAN#108 R5-252146 3301 - F Definition of BCS 1 for CA_n28A-n78A 18.7.0 2025-06 RAN#108 R5-252152 3302 - F Correction to NS_14 A-MPR test frequencies 18.7.0 2025-06 RAN#108 R5-252153 3303 - F Introduction of Aerial UE requirements into clauses 2-5 18.7.0 2025-06 RAN#108 R5-252167 3305 - F Addition of new TC Error Vector Magnitude including symbols with transient period for ATG 18.7.0 2025-06 RAN#108 R5-252170 3306 - F Addition of new TC EVM equalizer spectrum flatness for ATG 18.7.0 2025-06 RAN#108 R5-252171 3307 - F Updates for a few band configurations with high power single UL of n77 18.7.0 2025-06 RAN#108 R5-252231 3309 - F Addition of many PC2 band combinations to Ch5 18.7.0 2025-06 RAN#108 R5-252234 3310 - F Addition of configured output power requirements for many 3 band NR CA combos 18.7.0 2025-06 RAN#108 R5-252235 3311 - F Addition of Rx requirements for many 3 band NR CA combos 18.7.0 2025-06 RAN#108 R5-252241 3312 - F Addition of new TC EVM equalizer spectrum flatness for Pi/2 BPSK for ATG 18.7.0 2025-06 RAN#108 R5-252249 3313 - F Addition of REFSENS for CA_n1A-n79A 18.7.0 2025-06 RAN#108 R5-252254 3314 - F Addition of delta TIBc for CA_n28A-n78A-n79A 18.7.0 2025-06 RAN#108 R5-252255 3315 - F Addition of delta RIB and REFSENS for CA_n28A-n78A- n79A 18.7.0 2025-06 RAN#108 R5-252258 3316 - F Addition of new test case 7.6A.2.4 In-band blocking for CA (5DL CA) 18.7.0 2025-06 RAN#108 R5-252316 3317 - F Addition of Annex F for ATG test cases 18.7.0 2025-06 RAN#108 R5-252318 3318 - F Addition of MOP for 4Tx UL-MIMO 18.7.0 2025-06 RAN#108 R5-252322 3321 - F Addition of 4Tx TxD test cases for ACS, Blocking and Spurious response 18.7.0 2025-06 RAN#108 R5-252336 3323 - F Editorial correction of 6.4.2.5 18.7.0 2025-06 RAN#108 R5-252352 3324 - F Correction of frequency error CA test case 18.7.0 2025-06 RAN#108 R5-252356 3325 - F Correction of RefSens for CA_n25A-n78A 18.7.0 2025-06 RAN#108 R5-252357 3326 - F Correction of RefSens for CA_n71(2A) 18.7.0 2025-06 RAN#108 R5-252361 3327 - F Correction of MPR for UL MIMO test case 18.7.0 2025-06 RAN#108 R5-252362 3328 - F Correction of test case 6.2A.2 18.7.0 2025-06 RAN#108 R5-252434 3337 - F General updates of TS 38.521-1 clause 5 for R17 CA configurations 18.7.0 2025-06 RAN#108 R5-252441 3338 - F General updates of TS 38.521-1 clause 5 for R18 CA configurations 18.7.0 2025-06 RAN#108 R5-252487 3340 - F Editorial Correction to Clause numbers for Tx test cases 18.7.0 2025-06 RAN#108 R5-252495 3342 - F Clarification of PCC SCC switching in 2UL CA 18.7.0 2025-06 RAN#108 R5-252496 3343 - F Correction to test requirements of A-MPR for Rel-15 CA 18.7.0 2025-06 RAN#108 R5-252497 3344 - F Correction to test requirements of A-MPR for Rel-16 CA 18.7.0 2025-06 RAN#108 R5-252499 3346 - F Update to 2DL CA REFSENS for Rel-17 18.7.0 2025-06 RAN#108 R5-252501 3348 - F Correction to test condition for 1024QAM in Maximum input level for CA 18.7.0 2025-06 RAN#108 R5-252502 3349 - F Update to note to avoid delta-MPR in MOP test cases 18.7.0 2025-06 RAN#108 R5-252518 3352 - F Correction to DL Fc of MSD due to cross band isolation for CA_n40-n77 18.7.0 2025-06 RAN#108 R5-252550 3354 - F Remove brackets for Partial_Left and Partial_Right definition for NR-U RB allocation 18.7.0 2025-06 RAN#108 R5-252551 3355 - F Editorial, correcting reference in RedCap definition 18.7.0 2025-06 RAN#108 R5-252562 3356 - F Update Spectrum emission mask for ATG in Annex F 18.7.0 2025-06 RAN#108 R5-252576 3357 - F Update frequency error for ATG UE in Annex F 18.7.0 2025-06 RAN#108 R5-252658 3358 - F Addition of new test case frequency error for Tx diversity for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-252661 3361 - F Addition of new test case reference sensitivity power level for UL MIMO for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-252662 3362 - F Addition of new test case adjacent channel selectivity for UL MIMO for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-252663 3363 - F Addition of new test case Blocking for UL MIMO for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-252664 3364 - F Addition of new test case spurious response for UL MIMO for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-252667 3367 - F Adding testing for NS_47 power class 1.5 in Additional spurious emissions for UL MIMO test case 18.7.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2387 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2025-06 RAN#108 R5-252668 3368 - F Adding testing for NS_47 power class 1.5 in Additional spurious emissions for Tx Diversity 18.7.0 2025-06 RAN#108 R5-252676 3374 - F Addition of new test case reference sensitivity for Tx Diversity for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-252705 3379 - F Addition of OBW GSE and transmit intermodulation test cases for 4Tx UL MIMO 18.7.0 2025-06 RAN#108 R5-252706 3380 - F Addition of ACS test case for 4Tx TxD 18.7.0 2025-06 RAN#108 R5-252707 3381 - F Addition of IBB test case for 4Tx TxD 18.7.0 2025-06 RAN#108 R5-252791 3384 - F Addition of new test case 6.2G.1_1 MOP for 4Tx TxD 18.7.0 2025-06 RAN#108 R5-252843 3387 - F Corrections on clause 6 for SL MIMO configurations 18.7.0 2025-06 RAN#108 R5-252844 3388 - F Corrections on clause 5 and 6 for the Tx switching capability name 18.7.0 2025-06 RAN#108 R5-252847 3390 - F Corrections on Annex and clause 7 for the terms on 2Tx and 1Tx denotation 18.7.0 2025-06 RAN#108 R5-252853 3392 - F Introduction of spurious emissions test requirements for CA_n3A-n5A 18.7.0 2025-06 RAN#108 R5-252865 3393 - F Corrections on 7.3A.0.6 for reference sensitivity exceptions due to cross band isolation for HPUE CA 18.7.0 2025-06 RAN#108 R5-252868 3394 - F Corrections on 7.3.2.5 for four antenna port Reference sensitivity for band n13 18.7.0 2025-06 RAN#108 R5-252869 3395 - F Corrections on 7.3.2.5 for four antenna port Reference sensitivity for band n85 18.7.0 2025-06 RAN#108 R5-253405 3319 1 F Addition of MPR, SEM and ACLR for 4Tx UL-MIMO 18.7.0 2025-06 RAN#108 R5-253406 3320 1 F Addition of minimum output power for 4Tx UL-MIMO 18.7.0 2025-06 RAN#108 R5-253408 3377 1 F Addition of OFF power and time mask test cases for 4Tx UL MIMO 18.7.0 2025-06 RAN#108 R5-253409 3359 1 F Addition of new test cases spurious emissions for UE co- existence for UL MIMO with 4Tx 18.7.0 2025-06 RAN#108 R5-253410 3378 1 F Addition of frequency error test case for 4Tx UL MIMO 18.7.0 2025-06 RAN#108 R5-253416 3285 1 F Addition of n104 PC2 Tx TCs 18.7.0 2025-06 RAN#108 R5-253417 3308 1 F Merge the UE power class tables 18.7.0 2025-06 RAN#108 R5-253418 3268 1 F Addition of reference sensitivity for new PC2 3CC NRCA combos within FR1 18.7.0 2025-06 RAN#108 R5-253419 3385 1 F Addition of new test cases MPR, SEM and NR ACLR for 4Tx TxD 18.7.0 2025-06 RAN#108 R5-253421 3396 1 F Updates to REFSENS power level test for XR UEs 18.7.0 2025-06 RAN#108 R5-253423 3341 1 F Update of common UL config of intra-band contiguous 2CA non-contiguous allocation 18.7.0 2025-06 RAN#108 R5-253424 3278 1 F Updates for a few band configurations with high power single UL of n77A 18.7.0 2025-06 RAN#108 R5-253425 3331 1 F Updates to Frequency error for ATG 18.7.0 2025-06 RAN#108 R5-253426 3332 1 F Update to Spectrum emission mask for ATG 18.7.0 2025-06 RAN#108 R5-253427 3391 1 F Updates on 7.3A for inter-band CA Refsens for CA_n3A- n5A due to intermodulation interference 18.7.0 2025-06 RAN#108 R5-253428 3345 1 F Update to 7.3A minimum requirements for alignment with latest Rel-18 TS 38.101-1 18.7.0 2025-06 RAN#108 R5-253429 3360 1 F Addition of new test cases OBW and transmit intermodulation for 4Tx Tx diversity 18.7.0 2025-06 RAN#108 R5-253430 3369 1 F Addition of new test case minimum output power for Tx Diversity for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-253431 3370 1 F Addition of new test case transmit OFF power for Tx Diversity for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-253432 3371 1 F Addition of new test case general ON/OFF time mask for Tx Diversity for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-253433 3372 1 F Addition of new test case general spurious emissions for Tx Diversity for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-253434 3373 1 F Addition of new test case spurious emissions for UE co- existence for Tx Diversity for UE supporting 4Tx 18.7.0 2025-06 RAN#108 R5-253435 3291 1 F Update to Tx TCs for R18 coverage enh 18.7.0 2025-06 RAN#108 R5-253441 3339 1 F Update of 7.3I Reference sensitivity TC for (e)RedCap UE 18.7.0 2025-06 RAN#108 R5-253442 3304 1 F Introduction of Aerial UE transmitter requirements 18.7.0 2025-06 RAN#108 R5-253443 3296 1 F Updates for PC1 and NS_06 in A-MPR and A-SEM tests 18.7.0 2025-06 RAN#108 R5-253444 3297 1 F SA FR1 - 7.3A.1_1 - CA n2A-n77A - Test ID 9 and minimum requirements update - Frequency correction 18.7.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2388 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2025-06 RAN#108 R5-253445 3298 1 F Editorial correction for combo CA_n66A-n77A in 7.3A.1_1 PC 1.5 test requirements 18.7.0 2025-06 RAN#108 R5-253446 3299 1 F Editorial correction for combo CA_n41A-n77A for PC2 and PC1.5 minimum and test requirements 18.7.0 2025-06 RAN#108 R5-253447 3286 1 F Correction to n104 REF SENSE TC 18.7.0 2025-06 RAN#108 R5-253448 3397 1 F NR-U Intra-band contiguous CA updates 18.7.0 2025-06 RAN#108 R5-253449 3347 1 F Update to 2DL CA REFSENS for Rel-17 PC2 and PC1.5 18.7.0 2025-06 RAN#108 R5-253450 3382 1 F Update of 6.2H.3.1 UE MOP for CA with MIMO 18.7.0 2025-06 RAN#108 R5-253451 3386 1 F Correction to 7.xD Rx test cases for UL MIMO 18.7.0 2025-06 RAN#108 R5-253452 3365 1 F Adding testing for NS_47 for power class 2 and 3 in AMPR for UL MIMO 18.7.0 2025-06 RAN#108 R5-253453 3366 1 F Updating AMPR for UL MIMO test case for band n41 for power class 1.5 18.7.0 2025-06 RAN#108 R5-253454 3389 1 F Corrections on clause 6 for the terms on 2Tx and 1Tx denotation 18.7.0 2025-06 RAN#108 R5-253455 3322 1 F Clarifying applicable CA configuration for each configuration table in AMPR CA 18.7.0 2025-06 RAN#108 R5-253606 3335 1 F Addition of new test case 7.8A.2.4 Wide band Intermodulation for CA (5DL CA) 18.7.0 2025-06 RAN#108 R5-253236 3351 2 F Clarification of sources of IMD in 7.3A.0.5 18.7.0 2025-06 RAN#108 R5-253642 3375 1 F Update to Annex F for UL MIMO and Tx Diversity for UE supporting 4Tx test cases 18.7.0 2025-06 RAN#108 R5-253643 3383 1 F Update to UE additional maximum output power reduction for UL MIMO test case 18.7.0 2025-06 RAN#108 R5-252101 3290 - F Update to REF SENSE TC for n28 PC2 40MHz 19.0.0 2025-06 RAN#108 R5-253438 3289 1 F Update to AMPR TC for n28 PC2 40MHz 19.0.0 2025-06 RAN#108 R5-253439 3333 1 F Update uplink configuration for reference sensitivity tables for n28 40MHz 19.0.0 2025-06 RAN#108 R5-253437 3334 1 F Update tables test requirements with two and four antenna port reference sensitivity for n28 with CBW=40MHz 19.0.0 2025-06 RAN#108 R5-253440 3399 1 F Update to Channel bandwidth for n28 PC2 40MHz 19.0.0 2025-09 RAN#109 R5-253869 3400 - F Addition of Aerial UE A-MPR and additional spurious emissions test requirements 19.1.0 2025-09 RAN#109 R5-253877 3401 - F Introduction of General description of Transmit modulation quality for ATG UE 19.1.0 2025-09 RAN#109 R5-253880 3404 - F Introduction of PUSCH-PUCCH and PUSCH-SRS time masks for ATG UE 19.1.0 2025-09 RAN#109 R5-253895 3407 - F Update to FR1 Tx TCs for config CA_n40A-n41A 19.1.0 2025-09 RAN#109 R5-253903 3408 - F Update to MOP TC for n28 PC2 40MHz 19.1.0 2025-09 RAN#109 R5-253912 3412 - F Update to MOP TC for n104 PC1.5 19.1.0 2025-09 RAN#109 R5-253913 3413 - F Update to MOP TxD TC for n104 PC1.5 19.1.0 2025-09 RAN#109 R5-253914 3414 - F Update to MPR TxD TC for n104 PC1.5 19.1.0 2025-09 RAN#109 R5-254066 3422 - F MU corrections for 2Tx tests 19.1.0 2025-09 RAN#109 R5-254070 3424 - F ATG Tests - MU and TT updates in Annex F 19.1.0 2025-09 RAN#109 R5-254079 3432 - F FR1 ACS CA tests - exceptions for combos including both n48A and n77A 19.1.0 2025-09 RAN#109 R5-254080 3433 - F Frequency error CA tests - optimization for intra-band contiguous 19.1.0 2025-09 RAN#109 R5-254092 3435 - F Adding transmitter requirements for band n110 19.1.0 2025-09 RAN#109 R5-254093 3436 - F Adding receiver requirements for band n110 19.1.0 2025-09 RAN#109 R5-254133 3437 - F General updates of TS 38.521-1 clause 5 for R16 CA configurations 19.1.0 2025-09 RAN#109 R5-254134 3438 - F General updates of TS 38.521-1 clause 5 for R17 CA configurations 19.1.0 2025-09 RAN#109 R5-254135 3439 - F General updates of TS 38.521-1 clause 5 for R18 CA configurations 19.1.0 2025-09 RAN#109 R5-254136 3440 - F General updates of TS 38.521-1 clause 5 for R19 CA configurations 19.1.0 2025-09 RAN#109 R5-254137 3441 - F General updates of clause 5 for R19 new CBW configurations 19.1.0 2025-09 RAN#109 R5-254324 3444 - F Corrections on Annex D.1 for adding channel bandwidth description 19.1.0 2025-09 RAN#109 R5-254328 3445 - F Corrections on suspended reference for ITU-R recommendation in 38.521-1 19.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2389 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2025-09 RAN#109 R5-254347 3446 - F Corrections on symbols for NR carrier aggregation in 38.521-1 19.1.0 2025-09 RAN#109 R5-254383 3449 - F Correction of A-MPR for UL MIMO test case 19.1.0 2025-09 RAN#109 R5-254389 3452 - F Editorial correction in Annex F 19.1.0 2025-09 RAN#109 R5-254400 3454 - F Editorial Correction to Clause numbers for Rx test cases 19.1.0 2025-09 RAN#109 R5-254407 3455 - F Correction of Rel-17 UL Tx switching test cases 19.1.0 2025-09 RAN#109 R5-254435 3458 - F Addition of reference sensitivity for CA_n3A-n28A-n77(2A) within FR1 19.1.0 2025-09 RAN#109 R5-254448 3459 - F Update of 6.2.1 Note for power class 1.5 19.1.0 2025-09 RAN#109 R5-254449 3460 - F Addition of new test cases for configured transmitted power with 4Tx 19.1.0 2025-09 RAN#109 R5-254450 3461 - F Addition of new test cases for ON-OFF time mask and UTRA ACLR with 4Tx 19.1.0 2025-09 RAN#109 R5-254451 3462 - F Removal of Editor Note for 4Tx test cases 19.1.0 2025-09 RAN#109 R5-254469 3464 - F Addition of connection diagram for 2Tx TxD test cases 19.1.0 2025-09 RAN#109 R5-254470 3465 - F Removal of ULFPTx from 6.5D.2.4.2 UTRA ACLR for UL MIMO 19.1.0 2025-09 RAN#109 R5-254471 3466 - F Correction to MU and TT for EVM measurement for UL MIMO 19.1.0 2025-09 RAN#109 R5-254485 3468 - F Addition of reference sensitivity for Rel-19 3DL and 4DL NR CA configurations 19.1.0 2025-09 RAN#109 R5-254517 3469 - F Addition of reference sensitivity requirement for new 4DL CA combo within FR1 19.1.0 2025-09 RAN#109 R5-254556 3470 - F Correction to connection diagram used in 4T UL MIMO and TxD Tx test cases 19.1.0 2025-09 RAN#109 R5-254557 3471 - F Correction to connection diagram used in 4T UL MIMO and TxD Rx test cases 19.1.0 2025-09 RAN#109 R5-254559 3473 - F Addition of wide band IM test cases for 4T UL MIMO and TxD 19.1.0 2025-09 RAN#109 R5-254614 3476 - F Power control for UL MIMO and TxD for UE supporting 4Tx 19.1.0 2025-09 RAN#109 R5-254618 3477 - F Addition of new CA configurations including band n71 and n77 for transmitter characteristics 19.1.0 2025-09 RAN#109 R5-254619 3478 - F Adding CA configurations CA_n28-n40-n77 and CA_n40- n71-n77 for RENSENS 19.1.0 2025-09 RAN#109 R5-254626 3480 - F Updating time mask test cases for switching across three and four uplink bands 19.1.0 2025-09 RAN#109 R5-254629 3482 - F Updating additional spurious emissions test case for message contents 19.1.0 2025-09 RAN#109 R5-254632 3483 - F Addition of REFSENS for Rel17 PC3 NR CA configurations 19.1.0 2025-09 RAN#109 R5-254634 3484 - F Addition of REFSENS for Rel18 PC2 NR CA configurations 19.1.0 2025-09 RAN#109 R5-254636 3485 - F Correction of editors note in NR-U test case 7.3F 19.1.0 2025-09 RAN#109 R5-254650 3489 - F Addition of MOP for Rel18 PC2 NR CA configurations 19.1.0 2025-09 RAN#109 R5-254731 3492 - F Correction to test requirement of n26 in reference sensitivity 19.1.0 2025-09 RAN#109 R5-254745 3496 - F Correction to interferer offset of ACS for shared spectrum channel access 19.1.0 2025-09 RAN#109 R5-254753 3503 - F Addition of reference sensitivity requirements for Rel-19 2DL CA 19.1.0 2025-09 RAN#109 R5-254766 3504 - F Updating V2X Tx test cases for intra-band concurrent operation 19.1.0 2025-09 RAN#109 R5-254768 3505 - F Updating V2X Rx test cases for intra-band concurrent operation 19.1.0 2025-09 RAN#109 R5-254774 3509 - F Update of Annex E for 4Tx UL-MIMO and Tx diversity 19.1.0 2025-09 RAN#109 R5-254776 3511 - F Correcting spurious emission co-existence minimum requirements 19.1.0 2025-09 RAN#109 R5-254784 3517 - F Addition of AMPR NS_18 testing for n28 PC2 TxD test cases 19.1.0 2025-09 RAN#109 R5-254801 3520 - F Adding a few Rel-19 CA configurations 19.1.0 2025-09 RAN#109 R5-255219 3512 1 F Addition of AMPR NS_06 testing for n14 PC2 19.1.0 2025-09 RAN#109 R5-255221 3502 1 F Addition of reference sensitivity requirements for Rel-18 2DL CA for HPUE 19.1.0 2025-09 RAN#109 R5-255223 3498 1 F Addition of reference sensitivity requirements for Rel-16 2DL CA 19.1.0 2025-09 RAN#109 R5-255226 3467 1 F Addition of Tx testing for Rel-18 CA_n8A-n77A 19.1.0 2025-09 RAN#109 R5-255228 3501 1 F Addition of reference sensitivity requirements for Rel-18 2DL CA 19.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2390 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2025-09 RAN#109 R5-255232 3515 1 F Addition of AMPR NS_18 testing for n28 PC2 19.1.0 2025-09 RAN#109 R5-255233 3516 1 F Addition of AMPR NS_18 testing for n28 PC2 UL-MIMO test cases 19.1.0 2025-09 RAN#109 R5-255236 3421 1 F Updates for BCS4 and 5 introduced additional ref sense requirements 19.1.0 2025-09 RAN#109 R5-255239 3479 1 F Adding testing for NS_47 for power class 2 and 3 in AMPR for UL MIMO 19.1.0 2025-09 RAN#109 R5-255240 3402 1 F Introduction of General ON/OFF time mask for ATG UE 19.1.0 2025-09 RAN#109 R5-255243 3423 1 F ATG Tx Tests - Corrections and updates 19.1.0 2025-09 RAN#109 R5-255244 3506 1 F Addition of transmit modulation quality test cases for 4Tx UL-MIMO 19.1.0 2025-09 RAN#109 R5-255246 3507 2 F Addition of time alignment for 4Tx UL-MIMO 19.1.0 2025-09 RAN#109 R5-255247 3415 1 F Updates of transmit part for PC2 n2 and PC2 n66 19.1.0 2025-09 RAN#109 R5-255248 3417 1 F Updates of Reference Sensitivity requirements for PC2 n2 19.1.0 2025-09 RAN#109 R5-255249 3481 1 F Adding testing for CA_n8A-n78A for Power Class 2 UE in maximum output power 19.1.0 2025-09 RAN#109 R5-255250 3420 1 F Updates for some combos with UL high power support on n77 19.1.0 2025-09 RAN#109 R5-255251 3491 1 F Update to FR1 CA Configurations for R1 PC2 and PC1.5 band combos 19.1.0 2025-09 RAN#109 R5-255252 3416 1 F Updates of transmit part for PC2 n5 19.1.0 2025-09 RAN#109 R5-255253 3418 1 F Updates of Reference Sensitivity requirements for PC2 n5 19.1.0 2025-09 RAN#109 R5-255254 3403 1 F Update to Annex F MUTT for ATG UE 19.1.0 2025-09 RAN#109 R5-255255 3497 1 F Cleanup of Reference sensitivity for 2DL CA 19.1.0 2025-09 RAN#109 R5-255256 3499 1 F Addition of reference sensitivity requirements for Rel-17 2DL CA 19.1.0 2025-09 RAN#109 R5-255257 3518 1 F Addition of AMPR and Spurious emission of CA_n40A- n41A 19.1.0 2025-09 RAN#109 R5-255258 3474 1 F Addition of new test case AMPR, ASEM and ASE for 4Tx UL MIMO 19.1.0 2025-09 RAN#109 R5-255259 3472 1 F Addition of max input level test cases for 4T UL MIMO and TxD 19.1.0 2025-09 RAN#109 R5-255260 3519 1 F Jumbo CR for deltaTIB and deltaRIB 19.1.0 2025-09 RAN#109 R5-255261 3486 1 F Addition of delta TIBc and MOP for Rel16 NR CA configurations 19.1.0 2025-09 RAN#109 R5-255262 3487 1 F Addition of delta TIBc for Rel17 NR CA configurations 19.1.0 2025-09 RAN#109 R5-255263 3488 1 F Addition of delta TIBc and MOP for Rel18 PC3 NR CA configurations 19.1.0 2025-09 RAN#109 R5-255264 3409 1 F Update to MOP UL MIMO TC for n28 PC2 40MHz 19.1.0 2025-09 RAN#109 R5-255265 3410 1 F Update to MPR UL MIMO TC for n28 PC2 40MHz 19.1.0 2025-09 RAN#109 R5-255266 3411 1 F Update to MOP TxD TC for n28 PC2 40MHz 19.1.0 2025-09 RAN#109 R5-255267 3514 1 F Adding n28 PC2 to TxD MOP and MPR test cases 19.1.0 2025-09 RAN#109 R5-255268 3419 1 F Updates for UL n77 high power support on a few 3 TDD DL combos 19.1.0 2025-09 RAN#109 R5-255269 3510 1 F Correcting the MPR test requirements for band n40 and n97 19.1.0 2025-09 RAN#109 R5-255270 3490 1 F Update to FR1 CA Configurations for R17 PC2 band combo 19.1.0 2025-09 RAN#109 R5-255271 3521 1 F Corrected incorrect RB allocations for additional MOP TC 19.1.0 2025-09 RAN#109 R5-255272 3450 1 F Correction of UTRA ACLR for UL MIMO test case 19.1.0 2025-09 RAN#109 R5-255351 3463 1 F Addition of Annex F MU and TT for 4Tx test cases 19.1.0 2025-09 RAN#109 R5-255352 3434 1 F Test case 6.3C.3.2 update according to TP analysis update 19.1.0 2025-09 RAN#109 R5-255354 3475 1 F Addition of new test case AMPR, ASEM, ASE for 4Tx Tx Diversity 19.1.0 2025-09 RAN#109 R5-255359 3447 1 F Update of Rel-16 interferer CA test cases Note: CR has forbidden clause renumberings and was not implemented. 19.1.0 2025-09 RAN#109 R5-255360 3448 1 F Update of Rel-15 interferer CA test cases Note: CR has forbidden clause renumberings and was not implemented. 19.1.0 2025-09 RAN#109 R5-255377 3429 1 F 3CC intraband non-contiguous updates 19.1.0 2025-09 RAN#109 R5-255378 3425 1 F FR1 MUs up to 7.125GHz - RF single carrier UL SISO Tx tests update 19.1.0 2025-09 RAN#109 R5-255379 3426 1 F FR1 MUs up to 7.125GHz - RF single carrier UL SISO Rx tests update 19.1.0 2025-09 RAN#109 R5-255380 3427 1 F FR1 MUs up to 7.125GHz - RF single carrier UL SISO tests - MU and TT update in annex F 19.1.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2391 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI 2025-09 RAN#109 R5-255382 3508 1 F Addition of transmit modulation quality test cases for 4Tx Tx diversity 19.1.0 2025-09 RAN#109 R5-255398 3493 1 F Updated procedure to skip interferer overlapping with PCC in Rx TCs for 3CC later 19.1.0 2025-09 RAN#109 R5-255399 3495 1 F Clarification of LCRB in Figure 5.3.1-1 19.1.0 2025-09 RAN#109 R5-255401 3451 1 F Correction of Rel-16 UL Tx switching test cases 19.1.0 2025-09 RAN#109 R5-255402 3522 1 F Corrected incorrect K2 value for Tx on off test case 19.1.0 2025-09 RAN#109 - - - - several corrections in Table 7.3A.1_1.4.1-1, Table 7.3A.1_1.5-1, /-1b 19.2.0 3GPP TS 38.521-1 version 19.2.0 Release 19 2392 ETSI TS 138 521-1 V19.2.0 (2025-11) ETSI History Version Date Status V19.1.0 November 2025 Publication V19.2.0 November 2025 Publication
7155d9633c735a23b3bf00122d45e1b3	181 010	1 Scope	The present document provides a set of requirements for the session control service capability. The present document does not specify any particular requirement to the signalling protocol. However, it includes a list of general requirements that have to be considered when developing solutions to particular requirements.
7155d9633c735a23b3bf00122d45e1b3	181 010	2 Void
7155d9633c735a23b3bf00122d45e1b3	181 010	3 Abbreviations	For the purposes of the present document, the abbreviations given in TR 180 000 (see Bibliography) and the following apply: API Application Programming Interface BICC Bearer Independant Call Control ISUP Integrated Service digital network User Part NGN Next Generation Network SIP Session Initiation Protocol
7155d9633c735a23b3bf00122d45e1b3	181 010	4 General requirements
7155d9633c735a23b3bf00122d45e1b3	181 010	4.1 Minimum session setup time	All the procedures and mechanisms should have a minimum impact on the session setup time as perceived by the user. When there is a choice between performing tasks at session establishment or in transactions prior to the session establishment, then the tasks should be performed prior to the session establishment. An example of such a task is user authentication.
7155d9633c735a23b3bf00122d45e1b3	181 010	4.2 Minimum support required in the terminal	As terminals could be rather small and "basic" devices, compliant terminals shall have a minimal capability set. Mandating support for features by the terminal shall meet this requirement. Should terminals have additional capabilities, this shall be made clear during sign-on.
7155d9633c735a23b3bf00122d45e1b3	181 010	4.3 Minimum trust put by the network in the terminal	As terminals are out of the control of a network operator, the trust put by the network in the terminal for proper functioning of the service shall be kept minimum. Information provided by the terminal shall be labelled as user-provided, information provided by the network shall be labelled as network-provided. Processes using this information will then be able to make sound judgement on the validity of the information. E.g. session measurements provided by the terminal may be suspect in a dispute when there is different information available from the network on the same session.
7155d9633c735a23b3bf00122d45e1b3	181 010	4.4 Roaming and non-roaming scenarios	In case of nomadism, all the requirements must be met for both roaming and non-roaming scenarios. There should not be a significant change in the signalling procedures between roaming and non-roaming scenarios. ETSI ETSI TS 181 010 V1.1.1 (2005-06) 6
7155d9633c735a23b3bf00122d45e1b3	181 010	4.5 Access network independency	The network-based session control procedures shall be independent of the access network (and access network technology) where the user is located.
7155d9633c735a23b3bf00122d45e1b3	181 010	4.6 Internetworking	The services supported by the NGN session control shall be interoperable with other session control protocols (SIP, BICC, ISUP, H323, the 3GPP session control protocol, etc.). However, the requirements related to the support of end to end functionalities defined by these other session control protocols (e.g. overlap signalling in ISUP) with which interworking is desired are not presented in the present document. NGN session control protocols must be able to encapsulate unique, optional or custom elements of the adapted session control, in order to enable complete session management by the providers session control applications. The solution developed for a particular requirement expressed here shall not preclude the NGN control protocol to interwork with another profile of the same protocol. In order to fulfil this requirement, some control may be needed at the boundaries of the administrative domains controlled by the NGN control protocol. The interworking between two administrative domains controlled by the NGN control protocol, shall be supported. In order to fulfil this requirement, some control may be needed at the boundaries of the administrative domain controlled by the NGN control protocol.
7155d9633c735a23b3bf00122d45e1b3	181 010	5 Signalling Path Requirements
7155d9633c735a23b3bf00122d45e1b3	181 010	5.1 Signalling route	The route of the call control signalling shall be hidden from the terminal. Therefore the terminal shall only know of the route to its Session Server. This session server may however act as a proxy to the real session server in the home network. There may be a hot-standby session server, there may be a hot-standby session server proxy. Terminals may be aware of a hot-standby for their sessions.
7155d9633c735a23b3bf00122d45e1b3	181 010	5.2 Session Server Routing	All signalling messages exchanged during a session initiated by the end user terminal (outgoing session) or during a session initiated toward the end user terminal (incoming session) must transit through the end user terminal's Access Session server, so that the services provided by the Access Session server can be delivered. All signalling messages exchanged during either an outgoing session initiated by the end user terminal or an incoming session to the end user terminal must transit through the end user's Service call server, so that the Service call server can properly trigger the services allocated to that user.
7155d9633c735a23b3bf00122d45e1b3	181 010	5.3 Fraud containment	There shall be a way to prevent any malicious user from bypassing any network entity in the signalling path and still getting service. ETSI ETSI TS 181 010 V1.1.1 (2005-06) 7
7155d9633c735a23b3bf00122d45e1b3	181 010	6 Session control procedures
7155d9633c735a23b3bf00122d45e1b3	181 010	6.1 General requirement	An end user shall be able to request the establishment of a session with any other end user, of whom it knows the user Name E.164 number of other identifier as in use by the service provider. An end user shall be able to request the termination or modification of any established sessions in which it takes part. NOTE 1: The need for a permanently allocated "private" user identity assigned by the network to an end user, to which the end user does not have access is outside the scope of the present document. Such an identity could be used for purposes such as authentication, authorization, administration, and possibly charging and accounting. NOTE 2: There may be limitations on the ability to modify certain aspects of a session due to billing for reserved resources, scheduling, available route capabilities, etc. If it is desired to modify a session, and mid-session modification is impossible, there should be the option to immediately negotiate and establish a follow-on session with new session parameters.
7155d9633c735a23b3bf00122d45e1b3	181 010	6.2 Release of a session by the network	The network shall be able to initiate the release of a session of an end user terminal resulting in the release of all resources associated with it (e.g. in pre-paid calls when the user runs out of credit). This may be done without involving any intervention from the terminal. Such a request shall originate the release of all the network resources associated with the session of the end user terminal: bearer resources and signalling resources. It shall be possible to notify other parties involved in the session, if any, of the termination of the session of the end user terminal.
7155d9633c735a23b3bf00122d45e1b3	181 010	6.3 Identities used for session establishment
7155d9633c735a23b3bf00122d45e1b3	181 010	6.3.1 Calling user identity	The identity of the calling user shall be provided. It shall be possible, for the calling end user, to inform the called party of his user identity. On request of the originating user, the user identity may be withheld. There shall be users for which the user identity will never be withheld. Which parties these are, e.g. emergency services, is a matter of policy.
7155d9633c735a23b3bf00122d45e1b3	181 010	6.3.2 Called user identity	An end user terminal may be registered under a set of different user identities. As such, sessions destined to the user can be placed to any of the registered user identities. Certain filtering rules or services (done by the network or the called user terminal) may be based on the called user identity. As such, it must be possible, for all sessions, to deliver the user identity used to reach the called party to network entities in the forward direction up to called party terminal. It must also be possible, for all sessions, to deliver the user identity used to reach the called party to network entities in the backward direction up to calling party terminal. There shall be a way for the called end user to request any information related to his identity not to be divulgated to the calling end user or to any not-trusted network entity. Which mode is the default is a matter of policy. ETSI ETSI TS 181 010 V1.1.1 (2005-06) 8
7155d9633c735a23b3bf00122d45e1b3	181 010	6.3.3 Open service API	It shall be possible to bind third-party service notes to a session server for the purposes of providing service features over and above the basic service. This binding may be performed during registration or possibly later. These feature servers will be interrogated when the event they are registered for occurs. End-users will have given permission explicitly (acceptance of terms of service for the particular feature) or implicitly (lawful interception) for the establishment of these bindings.
7155d9633c735a23b3bf00122d45e1b3	181 010	7 Bearer establishment	The session control protocol shall be used in conjunction with a media control protocol that describes the mono or multi media session. Such a media control protocol may be encapsulated in the session control protocol (e.g. SDP and SIP) or invoked in parallel (e.g. H245 and H225). During the session initiation request, the calling user terminal shall give the parameters of the media session it wants to establish. The called user terminal shall have the possibility to participate in the media session parameters negotiation. A terminal receiving a request to establish a media flow may reject the media flow based on its media parameters. It shall be possible to offer multiple sets of media parameters for a particular media flow, the recipient may select one of these. For NGN release 1 there is no requirement for a terminal of network entity to modify the parameters to engage in a negotiation. This may change in future releases.
7155d9633c735a23b3bf00122d45e1b3	181 010	7.1 Successful bearer establishment	Successful bearer establishment must include the completion of any required end-to-end QoS signalling, negotiation and resource allocation.
7155d9633c735a23b3bf00122d45e1b3	181 010	7.2 Network intervention	Both the access and the service call server shall have access to the requested media session parameters (e.g. for charging or resource management purposes). The network shall have the possibility to participate in the media session parameters negotiation for the purposes of indicating that this session may or may not be supported by the network at this point in time. Both the access and the service call server shall be able to deny the session establishment due to requested media session parameters. In NGN release 1 it is not required to modify the media parameters for an established session. This may change post Release 1. 7.3 Independency between the session control protocol and QoS/Resource allocation Resource allocation schemes must be independent of the selected session control protocol. This allows for independent evolution. ETSI ETSI TS 181 010 V1.1.1 (2005-06) 9 7.4 Correlation between the session control protocol and QoS/Resource allocation A correlation shall be done between a dialog context in the control plane and, if existing, the resource requests originated by the end user terminal in the transport plane in order to ensure that an end user terminal which is requesting resource allocation has previously been authorized.
7155d9633c735a23b3bf00122d45e1b3	181 010	7.5 Resources allocation	In establishing a session, it must be possible for an application to request that the resources needed for bearer establishment are successfully allocated before the destination user is alerted.
7155d9633c735a23b3bf00122d45e1b3	181 010	7.6 Early media	Early media refers to media that is exchanged before a particular session is accepted by the called user (e.g. announcement). Support for early media is required.
7155d9633c735a23b3bf00122d45e1b3	181 010	8 Accounting	It shall be possible to account for session usage. The usage shall be reported containing session duration as well as session type, media flows supported (type and quality) and session participants.
7155d9633c735a23b3bf00122d45e1b3	181 010	9 Charging	On-line charging shall be possible. This means that the capability shall be able to generate appropriate accounting records in real-time. The means of (conveying) this charging is outside the scope of the present document.
7155d9633c735a23b3bf00122d45e1b3	181 010	10 Security requirements
7155d9633c735a23b3bf00122d45e1b3	181 010	10.1 Authentication	An end user shall be authenticated at registration time before the use of signalling resources is authorized. The Service call server is responsible for authenticating the end user. As a consequence, the authentication method must be able to work when there are signalling entities (e.g. the Access call server) in the signalling path between the authenticator and the authenticated user. The end-user shall not be able to use the services if they are not authenticated.
7155d9633c735a23b3bf00122d45e1b3	181 010	10.2 Message protection	Signalling entities (end user terminals and network entities) shall be able to communicate using integrity protection (ability to verify that the message has not been modified by a non authorized party) and replay protection. Signalling entities (end user terminals and network entities) shall be able to communicate confidentially.
7155d9633c735a23b3bf00122d45e1b3	181 010	10.3 Delegation	It must be possible to perform an initial authentication of the end user based on long-term authentication credentials, followed by subsequent protected signalling that uses short-term authentication credentials, such as session keys initialized during initial authentication. The used authentication mechanism is able to provide such session keys. ETSI ETSI TS 181 010 V1.1.1 (2005-06) 10 It shall be possible to apply subsequent message protection as soon as possible, even during the initial authentication period. The Service call server that performed the initial authentication must be able to securely delegate subsequent signalling protection (e.g., session keys for integrity or encryption) to the Access call server.
7155d9633c735a23b3bf00122d45e1b3	181 010	10.4 Establishment of mechanisms	A method must be provided to securely establish the security mechanisms to be used between the end user terminal and the Access call server.
7155d9633c735a23b3bf00122d45e1b3	181 010	10.5 Verification of messages
7155d9633c735a23b3bf00122d45e1b3	181 010	10.5.1 Verification at the Access call server	The Access call server must be able to guarantee the message origin and verify that the message has not been changed (e.g., it is integrity protected).
7155d9633c735a23b3bf00122d45e1b3	181 010	10.5.2 Verification at the Service call server	The Service call server needs to receive an indication if the Access call server was able to verify the message origin and whether it was integrity protected or not.
7155d9633c735a23b3bf00122d45e1b3	181 010	10.5.3 Confidentiality	Mechanisms shall exist so that messages may not be read by unauthorized third parties.
7155d9633c735a23b3bf00122d45e1b3	181 010	10.5.4 Prevention of denial of service	The risk of a call server to receive a denial of service attack shall be minimized. For instance, a malicious device could learn a call server IP address and port number and establish an attack to that call server.
7155d9633c735a23b3bf00122d45e1b3	181 010	10.5.5 Hiding requirement	The signalling messages that are sent between administrative domains shall reveal the least information possible about the underlying network configuration. A network operator need not be required to reveal the internal network structure to another network. A network operator need not be required to expose the explicit IP addresses of the nodes within the network (excluding firewalls and border gateways).
7155d9633c735a23b3bf00122d45e1b3	181 010	11 Emergency sessions	The establishment of an emergency session by a user shall be technically possible even if this user is not registered and not authenticated. NOTE: Local regulations may prompt a service provider to disable this aspect and hence it shall be possible to disable this for all or particular groups of terminals. ETSI ETSI TS 181 010 V1.1.1 (2005-06) 11
7155d9633c735a23b3bf00122d45e1b3	181 010	12 Lawful interception	Sessions shall allow for lawful interception. Depending on the local regulations and the mandates given to the law enforcement officers the session meta-data and/or the media flows shall be available in real-time. • Meta-data shall contain the presentation identities of the participants as well as the unique identifier of the user within the service provider, the terminal identities of all the participants of the session, the media flows opened as well as their end-point addresses. As well as the terminal locations shall be made available. • The media content shall be provided at the handoff point as transported. If the service provider provides and encryption service (i.e. is aware of the encryption method and the keys) the media shall be offered decrypted. ETSI ETSI TS 181 010 V1.1.1 (2005-06) 12 Annex A (informative): Bibliography • ETSI TS 122 228: "Digital cellular telecommunications system (Phase 2+); Universal Mobile Telecommunications System (UMTS); Service requirements for the Internet Protocol (IP) multimedia core network subsystem (IMS); Stage 1". • ETSI TS 181 014: "Telecommunications and Internet converged Services and Protocols for Advanced Networking (TISPAN); Services and Capabilities Requirements for TISPAN NGN Release 1". • ETSI TR 180 000: "Telecommunications and Internet converged Services and Protocols for Advanced Networking (TISPAN); NGN Terminology". ETSI ETSI TS 181 010 V1.1.1 (2005-06) 13 History Document history V1.1.1 June 2005 Publication
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	1 Scope	...................................................................................................................................................... 18
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	2 References	.............................................................................................................................................. 18
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	3 Definitions, symbols and abbreviations	................................................................................................. 19
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	3.1 Definitions	........................................................................................................................................................ 19
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	3.2 Symbols	............................................................................................................................................................ 21
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	3.3 Abbreviations	................................................................................................................................................... 23
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	4 General	................................................................................................................................................... 24
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	4.1 Relationship between minimum requirements and test requirements	.............................................................. 24
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	4.2 Applicability of minimum requirements	.......................................................................................................... 24
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	4.3 Specification suffix information	....................................................................................................................... 25
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	4.4 Test point analysis	............................................................................................................................................ 25
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	4.5 Applicability and test coverage rules	................................................................................................................ 26
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5 Operating bands and channel arrangement	............................................................................................. 26
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.1 General	............................................................................................................................................................. 26
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.2 Operating bands	................................................................................................................................................ 26
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.2A Operating bands for CA	................................................................................................................................... 27
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.2A.2 Void	............................................................................................................................................................ 27
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.2A.3 Inter-band CA	............................................................................................................................................. 27
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.2D Operating bands for UL MIMO	....................................................................................................................... 27
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.2K Operating bands for simultaneous reception or transmission in multiple directions	........................................ 27
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3 UE Channel bandwidth	.................................................................................................................................... 28
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3.1 General	........................................................................................................................................................ 28
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3.2 Maximum transmission bandwidth configuration	...................................................................................... 28
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3.3 Minimum guardband and transmission bandwidth configuration	............................................................... 29
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3.4 RB alignment	.............................................................................................................................................. 30
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3.5 Channel bandwidth per operating band	...................................................................................................... 30
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3A UE Channel bandwidth for CA	........................................................................................................................ 31
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3A.1 General	........................................................................................................................................................ 31
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3A.2 Minimum guardband and transmission bandwidth configuration for CA	.................................................. 31 5.3A.3 RB alignment with different numerologies for CA .................................................................................... 33
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3A.4 UE channel bandwidth per operating band for CA	..................................................................................... 33
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.3D Channel bandwidth for UL MIMO	................................................................................................................... 35
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.4 Channel arrangement	........................................................................................................................................ 35
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.4.1 Channel spacing	.......................................................................................................................................... 35
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.4.1.1 Channel spacing for adjacent NR carriers	............................................................................................. 35
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.4.2 Channel raster	............................................................................................................................................. 35
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.4.2.1 NR-ARFCN and channel raster	............................................................................................................. 35
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.4.2.2 Channel raster to resource element mapping	......................................................................................... 35
be45e2bb4610a7bd5c74cdc474430cc6	138 521-2	5.4.2.3 Channel raster entries for each operating band	..................................................................................... 36

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