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683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.3 Signal quality under TUhigh propagation conditions - TCH/AHS | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.3.1 Definition | The MS shall be capable of measuring the received signal quality, which is specified in terms of bit error ratio (BER) before channel decoding averaged over the reporting period of length of one SACCH multiframe defined in subclause 8.4 of 3GPP TS 05.08. The MS shall map this BER into RXQUAL values using the coding sch... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.3.2 Conformance requirement | 1. The received signal quality shall be measured by the MS in a manner that can be related to an equivalent average BER before channel decoding (i.e. chip error ratio), assessed over the reporting period of 1 SACCH multiframe. The assessed equivalent BER before channel decoding shall be mapped to the eight levels of RX... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.3.3 Test purpose | 1. To verify, under TUhigh conditions, that the received signal quality is measured and reported to the eight levels of RXQUAL_FULL by the MS in a manner that can be related to an equivalent average BER before channel decoding (i.e. chip error ratio), assessed over the reporting period of length one SACCH multiframe fo... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.3.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.3.4.1 Initial conditions | A call is set up according to the generic call set up procedure on a TCH/AHS with in the Mid ARFCN range, power control level set to maximum power. The RADIO_LINK_TIMEOUT parameter value is set to maximum.
Specific PICS Statements:
-
PIXIT Statements:
- Loop C delay Half rate
The multirate configuration indicates the u... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.3.4.2 Procedure | a) The SS sets the level of the unwanted signal such that the BER of the looped back bursts, averaged over the reporting period as defined in 3GPP TS 05.08, subclause 8.4, is covered by one of the cases 1 to 13 of table 21.4.3.5.
b) The SS verifies that the MS reports RXQUAL and whether or not the reported level is cor... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.3.5 Test requirements | The sets of test results for sample counter (i) and event counter (i) should be combined as follows.
sum i=0..14 ((event counter i * 100) / test limit i)
-----------------------------------------------------------
sum i=0..14 (sample counter i)
A result of <1 is a pass, >=1 is a fail.
Table 21.4.3.5: Test criteria and ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.4 Signal quality under TU High propagation conditions - O-TCH/WFS | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.4.1 Definition | The MS shall be capable of measuring the received signal quality, which is specified in terms of bit error ratio (BER) before channel decoding averaged over the reporting period of length of one SACCH multiframe defined in subclause 8.4 of 3GPP TS 05.08. The MS shall map this BER into RXQUAL values using the coding sch... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.4.2 Conformance requirement | 1. The received signal quality shall be measured by the MS and BSS in a manner that can be related to an equivalent average BER before channel decoding (i.e. chip error ratio), assessed over the reporting period of 1 SACCH block; 3GPP TS 05.08 subclauses 8.2.2.
When the quality is assessed over the full‑set and sub‑set... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.4.3 Test purpose | 1. To verify, under TUhigh conditions, that the received signal quality is measured and reported to the eight levels of RXQUAL_FULL by the MS in a manner that can be related to an equivalent average BER before channel decoding (i.e. chip error ratio), assessed over the reporting period of length one SACCH multiframe fo... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.4.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.4.4.1 Initial conditions | A call is set up according to the generic call set up procedure on a O-TCH/WFS with an ARFCN in the Mid ARFCN range, power control level set to maximum power. The RADIO_LINK_TIMEOUT parameter value is set to maximum.
Specific PICS Statements:
-
PIXIT Statements:
- Loop C delay Full rate
The multirate configuration indi... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.4.4.2 Procedure | a) The SS sets the level of the unwanted signal such that the BER of the looped back bursts, averaged over the reporting period as defined in 3GPP TS 05.08, subclause 8.4, is covered by one of the cases 1 to 13 of table 21.4.4.5.
b) The SS verifies that the MS reports RXQUAL and whether or not the reported level is cor... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.4.4.5 Test requirements | The sets of test results for sample counter (i) and event counter (i) should be combined as follows.
sum i=0..14 ((event counter i * 100) / test limit i)
-----------------------------------------------------------
sum i=0..14 (sample counter i)
A result of <1 is a pass, >=1 is a fail.
Table 21.4.4.5: Test criteria and ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8 GMSK_MEAN_BEP Measurement for PDTCH | In order to have a testing performance corresponding to that in clause 14 for high error rates, the multiplication factor of the tested error rate with respect to the specified error rate have been increased. The following figures have been used (static propagation conditions):
Specified error rate
Multiplication facto... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.1 Definition | The MS must be capable of measuring the MEAN_BEP parameters under static channel conditions, which is specified in terms of bit error probability (BEP) before channel decoding averaged over the four bursts in a radio block and then filtered for the measurement report. The MS has to map this filtered BEP into MEAN_BEP v... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.2 Conformance requirement | The mapping of the MEAN_BEP to the equivalent BEP and the accuracies to which an MS shall be capable of estimating the quality parameters under static channel conditions are given for EGPRS GMSK in table 21.8-1. The accuracy requirements below apply for sensitivity limited operation for signal levels above the referenc... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.3 Test purpose | To verify for EGPRS, under static channel conditions, that the BEP is measured and mapped to the MEAN_BEP values defined in subclause 8.2.5 of 3GPP TS 45.008 by the MS in a manner that can be related to an equivalent average BEP before channel decoding. The probability that the correct MEAN_BEP value is reported shall ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.4 Method of test | The SS compares the long-term BER average calculated by counting bit errors determined in EGPRS loop-back mode to a set of related MEAN_BEP values.
The MEAN_BEP values correspond to the same MS-received bits that are looped-back for calculation of the long-term BER average (one-phase approach). For acquiring these MEAN... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.4.1 Initial conditions | The SS produces a wanted signal and a white noise signal as an interferer (random signal) known as unwanted signal, both with static propagation characteristics. The SS transmits the wanted signal (standard test signal C1) on the PDTCH channel using the MCS-4 at the nominal frequency of the receiver and with a level of... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.4.2 Procedure | a) The unwanted signal is switched off and the forgetting factor “e” is set to 0.03. The SS orders the MS into the EGPRS Switched Radio Block Loopback Mode as specified in 3GPP TS 44.014 Section 5.5.1. The SS commands the MS into Radio Block Loopback Sub-mode: OFF.
b) The SS commands the MS into Radio Block Loopback Su... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.5 Test requirements | Testing of the conformance requirement can be done either with fixed minimum number of samples or based on the statistical test method that could lead to an early pass/fail decision with test time significantly reduced for a MS not on the limit. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.5.1 Fixed limit test with minimum number of samples | The fixed testing of the conformance requirement is done using the minimum number of samples and the limit error rate given in table 21.8-3.
The number of error events determined in steps d), g) and j) stored in error counters N_high, N_mid and N_low shall not exceed the error event limit defined in table 21.8-3 for ea... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.8.5.2 Statistical test with early pass / fail decision | Specific details on statistical testing of performance are defined in Annex 7.
The calculation of the error rate for this test shall be done according to the values specified in tables 21.8-4.
Table 21.8-4: Statistical error limits for MEAN_BEP_GMSK
Range
Block
per s
Org. error rate requirement
Derived test limit
Targe... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9 8PSK_MEAN_BEP Measurement for PDTCH | In order to have a testing performance corresponding to that in clause 14 for high error rates, the multiplication factor of the tested error rate with respect to the specified error rate have been increased. The following figures have been used (static propagation conditions):
Specified error rate
Multiplication facto... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.1 Definition | The MS must be capable of measuring the MEAN_BEP parameters under static channel conditions, which is specified in terms of bit error probability (BEP) before channel decoding averaged over the four bursts in a radio block and then filtered for the measurement report. The MS has to map this filtered BEP into MEAN_BEP v... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.2 Conformance requirement | The mapping of the MEAN_BEP to the equivalent BEP and the accuracies to which an MS shall be capable of estimating the quality parameters under static channel conditions are given for EGPRS 8PSK in table 21.9-1. The accuracy requirements below apply for sensitivity limited operation for signal levels above the referenc... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.3 Test purpose | To verify for EGPRS, under static channel conditions, that the BEP is measured and mapped to the MEAN_BEP values defined in subclause 8.2.5 of 3GPP TS 45.008 by the MS in a manner that can be related to an equivalent average BEP before channel decoding. The probability that the correct MEAN_BEP value is reported shall ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.4 Method of test | The SS compares the long-term BER average calculated by counting bit errors determined in EGPRS loop-back mode to a set of related MEAN_BEP values.
The MEAN_BEP values correspond to the same MS-received bits that are looped-back for calculation of the long-term BER average (one-phase approach). For acquiring these MEAN... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.4.1 Initial conditions | The SS produces a wanted signal and a white noise signal as an interferer (random signal) known as unwanted signal, both with static propagation characteristics. The SS transmits the wanted signal (standard test signal C1) on the PDTCH channel using the MCS-9 at the nominal frequency of the receiver and with a level of... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.4.2 Procedure | a) The unwanted signal is switched off and the forgetting factor “e” is set to 0.03. The SS orders the MS into the EGPRS Switched Radio Block Loopback Mode as specified in 3GPP TS 44.014 Section 5.5.1. The SS commands the MS into Radio Block Loopback Sub-mode: OFF.
b) The SS commands the MS into Radio Block Loopback Su... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.5 Test requirements | Testing of the conformance requirement can be done either with fixed minimum number of samples or based on the statistical test method that could lead to an early pass/fail decision with test time significantly reduced for a MS not on the limit. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.5.1 Fixed limit test with minimum number of samples | The fixed testing of the conformance requirement is done using the minimum number of samples and the limit error rate given in table 21.9-3.
The number of error events determined in steps d), g) and j) stored in error counters N_high, N_mid and N_low shall not exceed 200 for each of the error counters.
Table 21.9-3: Te... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.9.5.2 Statistical test with early pass / fail decision | Specific details on statistical testing of performance are defined in Annex 7.
The calculation of the error rate for this test shall be done according to the values specified in tables 21.8-4.
Table 21.9-4: Statistical error limits for MEAN_BEP_8PSK
Range
Block
per s
Org. error rate requirement
Derived test limit
Targe... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10 Measurement accuracy for inter-RAT system (TDD) | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1 1,28Mcps TDD Option | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1.1 1.28Mcps TDD / P-CCPCH RSCP Measurement absolute accuracy in AWGN propagation condition | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1.1.1 Definition | The P-CCPCH_RSCP measurement absolute accuracy in GSM(GPRS) cell is defined as the P-CCPCH_RSCP measured from UE in GSM(GPRS) cell compared to the actual neighbor TD-SCDMA cell P-CCPCH_RSCP. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1.1.2 Minimum Requirements | The accuracy requirements in Table 21.10.1.1.2-1 are valid under the following conditions:
P-CCPCH RSCP -102 dBm
P-CCPCH Ec/Io > -8 dB
DwPCH_Ec/Io > -5 dB
Table 21.10.1.1.2-1: P-CCPCH_RSCP absolute accuracy
Parameter
Unit
Accuracy [dB]
Conditions
Normal condition
Extreme condition
Io [dBm/ 1.28 MHz]
P-CCPCH_RSCP
dBm
... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1.1.3 Test Purpose | The purpose of this test is to verify that the relative P-CCPCH RSCP measurement accuracy is within the specified limits. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1.1.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1.1.4.1 Initial conditions | Test environment: normal, TL/VL, TL/VH, TH/VL, TH/VH; see TS 34.122 clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see TS 34.122 clause G.2.4.
Cell 1 is a GSM cell and cell 2 is a UTRA TDD cell. In the measurement information message it is indicated to the UE that periodic reporting of the UTRA TDD PCCPC... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1.1.4.2 Procedure | 1) Initial cell configured according to table 21.10.1.1.4.1-1 and table 21.10.1.1.4.1-2 a call is set up on cell1.
2) SS shall transmit MEASUREMENT INFORMATION message to indicate cell 2 neighbor cell description information based on table 21.10.1.1.4.1-2.
3) UE shall transmit periodically MEASUREMENT REPORT messages.
... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.10.1.1.5 Test requirements | The P-CCPCH RSCP measurement accuracy shall meet the minimum requirements in clause 21.10.1.1.2 for at least 900 of the 1000 measurement reports in step 4.
NOTE: If the above Test Requirements differ from the Minimum Requirement, then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this tes... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13 AQPSK_MEAN_BEP measurement for VAMOS I/II/III | In order to have a testing performance corresponding to that in clause 14 for high error rates, the multiplication factor of the tested error rate with respect to the specified error rate have been increased. The following figures have been used (static propagation conditions):
Specified error rate
Multiplication facto... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.1 Definition | The MS must be capable of measuring the MEAN_BEP parameters under static channel conditions, which is specified in terms of bit error probability (BEP) before channel decoding averaged over the four bursts of a Speech frame and then filtered for the measurement report. The MS has to map this filtered BEP into MEAN_BEP ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.2 Conformance requirement3GPP TS 45.008 subclause 8.2.5 | The mapping of the MEAN_BEP to the equivalent BEP and the accuracies to which an MS shall be capable of estimating the quality parameters under static channel conditions are given in the following tables for GMSK, 8-PSK and AQPSK respectively. The accuracy requirements below apply for sensitivity limited operation for ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.3 Test purpose | To verify for VAMOS I/II/III, under static channel conditions, that the BEP is measured and mapped to the MEAN_BEP values defined in subclause 8.2.5 of 3GPP TS 45.008 by the MS in a manner that can be related to an equivalent average BEP before channel decoding. The probability that the correct MEAN_BEP value is report... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.4 Method of test | The SS compares the long term BER average calculated by counting bit errors determined in loop-back type C mode over a SACCH multi frame period to a set of related MEAN_BEP values.
The MEAN_BEP values correspond to the same MS received bits that are looped-back for calculation of the long-term BER average (one-phase ap... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.4.1 Initial conditions | The SS transmits a Standard Test Signal C1 (AQPSK) (wanted signal) on the active VAMOS subchannel (subchannel 2) using trainings sequence 5 from TSC set 2 on the TCH channel using the VAMOS TCH/AFS 12.2 at the nominal frequency of the receiver and with a level of –82 dBm and the other VAMOS subchannel (subchannel 1) us... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.4.2 Procedure | a) The unwanted signal is switched off and the SS commands the MS to create traffic channel loop back signalling Type C: ON
The SS sends 6000 speech frames to the MS. During this period for 250 times, the MS will report MEAN BEP in Enhanced Measurement Report for every SACCH multi-frame period. For each reported Mean_B... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.5 Test requirements | Testing of the conformance requirement can be done either with fixed minimum number of samples or based on the statistical test method that could lead to an early pass/fail decision with test time significantly reduced for a MS not on the limit. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.5.1 Fixed limit test with minimum number of samples | The fixed testing of the conformance requirement is done using the minimum number of samples and the limit error rate given in table 21.13.5-1.
The number of error events determined in steps b), e) and h) stored in error counters N_high, N_mid_high, N_mid_low and N_low shall not exceed the error event limit as defined ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 21.13.5.2 Statistical test with early pass / fail decision | Specific details on statistical testing of performance are defined in Annex 7.
The calculation of the error rate for this test shall be done according to the values specified in table 21.13.5-2.
Table 21.13.5-2: Statistical error limits for MEAN_BEP_AQPSK
Range
Block
per s
Org. error rate requirement
Derived test limit... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22 Transmit power control timing and confirmation | Unless otherwise specified all tests in clauses 22.1 to 22.10 are applicable for all MSs supporting the bands referred to in clause 1. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.1 Transmit power control timing and confirmation, single slot | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.1.1 Definition | The RF power level to be employed by the MS is indicated by means of the 5 bit TXPWR field sent in the layer 1 header of each downlink SACCH message block and may be sent in a dedicated signalling block.
When a power change is signalled the MS must change its power control level to the new level at a certain rate of ch... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.1.2 Conformance requirement | 1. The RF power control level to be employed by the MS is indicated by means of the power control information sent in the layer 1 header of each downlink SACCH message block and may be sent in a dedicated signalling block; 3GPP TS 05.08, subclause 4.2.
2. The MS shall confirm the power level that it is currently employ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.1.3 Test purpose | 1. To verify that the MS will set its transmitter output power in accordance with conformance requirement 1.
2. To verify that the MS will confirm the power level it is currently employing according to conformance requirement 2.
3. To verify that the MS, upon receipt of a command from the SACCH to change its RF power l... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.1.4 Method of test | NOTE: The method of measuring the MS transmitter output power is given in subclause 13.3. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.1.4.1 Initial conditions | A call is set up by the SS according to the generic call set up procedure on a channel with ARFCN in the Mid ARFCN range (see table 3.3), power control level set to maximum power. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.1.4.2 Procedure | a) The SS signals minimum power control level to the MS in the SACCH.
b) The SS measures the MS transmitter output power on TDMA frames 6, 19, 32 and every subsequent 13th TDMA frame to TDMA frame 214. The SS also monitors the MS_TXPWR_CONF field in the uplink SACCH L1 header for the four SACCH multiframes after the SS... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.1.5 Test requirements | NOTE: Refer to tables 13-2, 13-3 and 13-4 for relationship between the power class, power control level, transmitter output power and the relevant tolerances.
a) In steps b) and d), the transmitter output power shall change by one power step towards the new level signalled for each measured burst until the MS is operat... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.2 Void | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.3 GPRS Uplink Power Control - Use of and CH parameters | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.3.1 Definition | Power control is important for spectrum efficiency as well as for power consumption in a cellular system. Power control for a packet oriented connection is more complicated than for a circuit switched connection, since there is no continuous two-way connection.
The RF output power, PCH , to be employed by the MS on ea... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.3.2 Conformance requirement | The MS shall use the same output power on all four bursts within one radio block. 3GPP TS 05.08, subclause 10.2.1.
If a calculated output power is not supported by the MS, the MS shall use the supported output power which is closest to the calculated output power. 3GPP TS 05.08, subclause 10.2.1.
When the MS receives n... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.3.3 Test purpose | To verify the MS uses that the same output power on all four bursts of a radio block under normal conditions.
To verify that the highest power supported by the MS is used if the calculated power is greater.
To verify that the MS applies new CH or values 2 radio blocks after the end of the frame containing the last t... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.3.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.3.4.1 Initial conditions | The SS establishes a BCCH, and optionally a PBCCH on the same carrier, in the mid ARFCN range. GPRS_MS_TXPWR_MAX_CCH is set to the maximum level (39 dBm for GSM and 36 dBm for DCS and PCS). The CH value is set such that (0 - CH) equals the maximum power control level supported by the Power Class of the MS under tes... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.3.4.2 Procedure | a) The SS shall trigger a transmitter output power measurement on each of the four bursts of any radio block.
The method of power measurement is described in subclause 13.16.
b) The SS shall modify the CH value such that (0 - CH) equals the minimum power control level supported by the MS under test (0dBm for DCS 1 8... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.3.5 Test requirements | 1. The power of all four bursts within the radio block measured in step a) and c) shall be within the accuracies specified for the power class of the mobile under test, as indicated in the following table.
Power
class
Bands other than DCS 1 800 and PCS 1 900 Nominal Maximum output power
DCS 1 800
Nominal Maximum output... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.4 GPRS Uplink Power Control - Independence of TS Power Control | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.4.1 Definition | - |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.4.2 Conformance requirement | For a GPRS multislot MS supporting 2 or more uplink PDCHs, power control shall be employed by the MS on each individual uplink PDCH. 3GPP TS 05.08, subclause 10.2.1.
On a multislot uplink configuration the MS may restrict the interslot output power control range to a 10 dB window, on a TDMA frame basis. On those timesl... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.4.3 Test purpose | To verify that for a GPRS multislot MS supporting 2 or more uplink PDCHs, power control shall be employed by the MS on each individual uplink PDCH. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.4.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.4.4.1 Initial conditions | The MS shall transmit on the uplink with the maximum number of TS for the multislot class of the MS.. This is achieved using the GPRS test mode by first establishing a downlink TBF and transmitting a GPRS_TEST_MODE_CMD (see 3GPP TS 04.14, subclause 5.4). Each TS is transmitting on its maximum power. The ‑value is set ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.4.4.2 Procedure | a) The SS shall modify the CH value of one TS such that (0 - CH) equals the minimum power control level supported by the MS under test (0dBm for DCS 1 800 and PCS 1 900 and 5dBm for all other bands).
b) The SS shall trigger a transmitter output power measurement on each of the four bursts of any radio block of the T... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.4.5 Test requirements | 1. The power of all four bursts within the radio block measured in step b) shall be 0dBm for DCS 1 800 and PCS 1 900 and 5dBm for all other bands with an accuracy of 5 dB in both cases. For an MS using reduced interslot dynamic range, the power measured in step b) shall be within 10dB ± 3dB of the average power of the... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.5 Void | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.6 Normal transmit power control timing and confirmation in ECSD | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.6.1 Definition | The RF power level to be employed by the MS is indicated by means of the 5 bit TXPWR field sent in the layer 1 header of each downlink SACCH message block and may be sent in a dedicated signalling block.
When a power change is signalled the MS must change its power control level to the new level at a certain rate of ch... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.6.2 Test conformance | 1. The RF power control level to be employed by the MS is indicated by means of the power control information sent in the layer 1 header of each downlink SACCH message block and may be sent in a dedicated signalling block; 3GPP TS 05.08, subclause 4.2.
2. The MS shall confirm the power level that it is currently employ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.6.3 Test purpose | 1. To verify that the MS will set its transmitter output power in accordance with conformance requirement 1.
2. To verify that the MS will confirm the power level it is currently employing according to conformance requirement 2.
3. To verify that the MS, upon receipt of a command from the SACCH to change its RF power l... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.6.4 Test method | NOTE: The method of measuring the MS transmitter output power is given in subclause 13.3. For 8PSK modulation, a measurement method for estimating the long term average power from a single burst shall be employed. See subclause 13.17.3. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.6.4.1 Initial conditions | A call is set up by the SS according to the generic call set up procedure for multislot configuration on a channel with ARFCN in the Mid ARFCN range (see table 3.3), power control level set to maximum power.
The SS commands the MS to operate in multislot configuration where it has highest possible number of Tx slots. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.6.4.2 Procedure | If the MS supports both GMSK and 8PSK modulation on the uplink, the test is repeated with each modulation format.
a) The SS signals minimum power control level to the MS in the SACCH for one of the subchannels.
b) The SS measures the MS transmitter output power on TDMA frames 6, 19, 32 and every subsequent 13th TDMA fr... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.6.5 Test requirement | NOTE: Refer to tables 13.17.3-1, 13.17.3-2, 13.17.3-3 and 13.17.3-4 for relationship between the power class, power control level, transmitter output power and the relevant tolerances.
a) In steps b) and d), the transmitter output power shall change by one power step towards the new level signalled for each measured bu... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.7 ECSD Fast Power Control (FPC) timing and interworking with normal power control | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.7.1 Definition | Using the SACCH L1 header, normal uplink power control modifies the MS transmit power at a maximum rate of one power control level change per SACCH period (480ms). Under Fast Power Control the output power of an MS, in E‑TCH mode, is updated each fast power reporting period. There are 24 fast power reporting periods i... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.7.2 Test conformance | 1. In the E-TCH mode, the MS shall, if so indicated by the BSS in the SACCH L1 header or Assignment command, use FPC (fast power control); 3GPP TS 05.08, subclause 4.2
2. Switching between the normal power control mechanism and FPC shall be done if FPC is enabled or disabled via signalling in the SACCH L1 header. The r... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.7.3 Test purpose | 1. To verify that the MS switches between normal power control and fast power control mechanisms in accordance with conformance requirements 1 and 2.
2. To verify that the initial power control level used by the MS after switching between normal and fast power control mechanisms is in accordance with conformance requir... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.7.4 Test method | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.7.4.1 Initial conditions | A call is set up by the SS according to the generic call set up procedure for multislot configuration on a channel with ARFCN in the Mid ARFCN range (see table 3.3).
The SS commands the MS to operate in multislot configuration where it has the highest possible number of bi‑directional E-TCHs. Using normal power control... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.7.4.2 Procedure | For the purpose of this test the SS shall randomly select one bi-directional E-TCH to exercise. All other E-TCHs shall maintain the state defined under the initial conditions. In this procedure these other E-TCHs are referred to as the active but unselected channels.
a) Using the normal power control mechanism, the SS ... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.7.5 Test requirement | a) The powers measured for the unselected timeslots in steps a), c) and d) shall conform with the Pmax specification for the MS power class given in the following table.
Power
class
Bands other than DCS 1 800 and PCS 1 900
Nominal Maximum output power
(MS TX Level)
Bands other than DCS 1 800 and PCS 1 900 Tolerance (dB... |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 22.8 EGPRS Uplink Power Control - Use of and CH parameters |
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