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40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.3.3.3 Test purpose | While the receiver tests in clause 6 aims for the RF hardware, this performance requirement aims for the receiver's signal processing.
The test purpose is to verify the ability of the receiver to receive a predefined test signal ,representing a multipath propagation channel for the wanted and for the co-channel signals from serving and adjacent cells, with a block error ratio (BLER) not exceeding a specified value. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.3.3.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.3.3.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect the SS, the fading simulator, the AWGN generator and additional components to the UE antenna connector as shown in figure A.10.
2) A call is set up according to the Generic call setup procedure. The characteristic of the call shall be according to the DL reference measurement channels (12,2 kbit/s)(64 kbit/s), (144 kbit/s), and (384 kbit/s) specified in annex C for 3.84 Mcps TDD option and 1.28Mcps TDD option. The characteristic of the call shall be according to the DL reference measurement channels (12,2 kbit/s) for 7.68 Mcps TDD option.
3) Enter the UE into loopback test mode and start the loopback test. (test 1) and/or activate the Ack/Nack test mode (test 1 to test 4).
4) The levels of the wanted signal and the co-channel signals are set according to table 7.3.3.2.1a and b for the 3,84 Mcps TDD Option, table 7.3.3.2.2a and b for the 1,28 Mcps TDD Option and table 7.3.3.2.3a and b for the 7,68 Mcps TDD Option, respectively. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.3.3.4.2 Procedure | Measure the BLER of DCH received from the UE at the SS for all tests specified in table 7.3.3.2.1a for the 3,84 Mcps TDD Option, table 7.3.3.2.2a for the 1,28 Mcps TDD Option and table 7.3.3.2.3a for the 7,68 Mcps TDD Option, respectively. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.3.3.5 Test requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.3.3.5.1 3.84Mcps TDD Option | The measured BLER shall not exceed the values indicated in table 7.3.3.2.1b for the 3,84 Mcps TDD Option |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.3.3.5.2 1.28Mcps TDD Option | The measured BLER shall not exceed the values indicated in table 7.3.3.5.2b for the1.28 Mcps TDD Option
Table 7.3.3.5.2b: Performance requirements in multipath Case 3 channel (1,28 Mcps TDD Option)
Test Number
[dB]
BLER
1
12.3
10-2
2
9.6
10-1
12.3
10-2
14.9
10-3
3
10.0
10-1
11.8
10-2
13.3
10-3
4
10.5
10-1
11.8
10-2
13.0
10-3 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.3.3.5.3 7.68Mcps TDD Option | The measured BLER shall not exceed the values indicated in table 7.3.3.2.3b for the 7.68Mcps TDD Option.
NOTE: If the Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in clause F.4.
7.3A Demodulation of DCH in High speed train conditions
7.3A.1 Definition and applicability
7.3A.1.1 3,84 Mcps TDD Option
<void>
7.3A.1.2 1,28 Mcps TDD Option
The performance requirement of DCH in high speed train conditions is determined by the maximum Block Error Ratio (BLER ). The BLER is specified for each individual data rate of the DCH. DCH is mapped into the Dedicated Physical Channel (DPCH).
The UE shall be tested only according to the data rates, supported. The data-rate-corresponding requirements shall apply to the UE.
The requirements and this test apply to all types of 1.28 Mcps TDD UE of Release 9 and later.
7.3A.1.3 3,84 Mcps TDD Option
<void>
7.3A.2 Minimum requirements
7.3A.2.1 3,84 Mcps TDD Option
<void>
7.3A.2.2 1,28 Mcps TDD Option
For the parameters specified in table 7.3A.2.2a the BLER should not exceed the piece-wise linear BLER curve specified in table 7.3A.2.2b. The reference for this requirement is TS 25.102 [1] clause 8.3A.2.2.
Table 7.3A.2.2a: DCH parameters in high speed train condition
Parameters
Unit
Test 1
Test 2
Number of DPCHo
8
2
Scrambling code and basic midamble code number*
0
0
DPCH Channelization Codes*
C(i,16)
i=1,2
C(i,16)
i=1…8
DPCHo Channelization Codes*
C(k,Q)
C(i,16)
3≤ i ≤10
C(i,16)
9≤ i ≤10
C(k,Q)
-10
-10
Ioc
dBm/1.28MHz
-60
Information Data Rate
Kbps
12.2
64
*Note: Refer to TS 25.223 for definition of channelization codes and cell parameter.
Table 7.3A.2.2b: Performance requirements in high speed train condition
Test Number
BLER
1
8.5
10-2
2
6.2
10-1
8.5
10-2
7.3A.2.3 7,68 Mcps TDD Option
<void>
7.3A.3 Test purpose
While the receiver tests in clause 6 aims for the RF hardware, this performance requirement aims for the receiver's signal processing.
The test purpose is to verify the ability of the receiver to receive a predefined test signal ,representing a high speed train channel for the wanted and for the co-channel signals from serving and adjacent cells, with a block error ratio (BLER) not exceeding a specified value.
7.3A.4 Method of test
7.3A.4.1 Initial conditions
Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect the SS, the AWGN noise source and additional components to the UE antenna connector as shown in figure A.10.
2) A call is set up according to the Generic call setup procedure. The characteristic of the call shall be according to the DL reference measurement channels (12,2 kbit/s) and (64 kbit/s) specified in annex C 1.28Mcps TDD option.
3) Enter the UE into loopback test mode and start the loopback test.
4) Setup fading simulation as High speed train conditions, which is described in clause D.2.4A.
5) The levels of the wanted signal and the co-channel signals are set according to table 7.3A.2.2a for the 1,28 Mcps TDD Option.
7.3A.4.2 Procedure
Measure the BLER of DCH received from the UE at the SS for all tests specified in table 7.3A.2.2a for the 1,28 Mcps TDD Option.
7.3A.5 Test requirements
7.3A.5.1 3.84Mcps TDD Option
<void>
7.3A.5.2 1.28Mcps TDD Option
The measured BLER shall not exceed the values indicated in table 7.3A.3.2a for the1.28 Mcps TDD Option
Table 7.3A.5.2a: Performance requirements in high speed train condition
Test Number
BLER
1
9.1
10-2
2
6.8
10-1
9.1
10-2
7.3A.5.3 7.68Mcps TDD Option
<void>
NOTE: If the Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.4 Base station transmit diversity mode for 3,84 Mcps TDD Option | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.4.1 Demodulation of BCH in SCTD mode | This is not tested. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5 Power control in downlink | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.1 Definition and applicability | Power control in the uplink is the ability of the UE to converge to the required link quality set by the network while using minimum uplink power. The requirements of this test shall apply to the UTRA-TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.2 Power control in downlink for 3,84 Mcps TDD option, constant BLER Target | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.2.1 Minimum requirements | For the parameters specified in table 7.5.2.1 the downlink averaged over one timeslot shall be below the specified value in table 7.5.2 more than 90% of the time. BLER shall be as shown in table 7.5.2.2 Downlink power control is ON during the test.
Table 7.5.2.1: Test parameters for downlink power control - constant BLER Target
Parameter
Unit
Test 1
dB
0
dBm/3,84 MHz
-60
Information Data Rate
kbps
12,2
Target quality value on DTCH
BLER
0,01
Propagation condition
Case 1
DL Power Control step size, TPC
dB
1
Maximum_DL_power (note)
dB
0
Minimum_DL_power (note)
dB
-27
NOTE: Refer to TS 25.224 for description and definition
NOTE: DL power is relative to P-CCPCH power.
Table 7.5.2.2: Requirements for downlink power control - constant BLER Target
Parameter
Unit
Test 1
dB
8,5
Measured quality on DTCH
BLER
0,01±30%
The reference for this requirement is TS 25.102 [1] clause 8.5.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.2.2 Test purpose | To verify that the UE receiver is capable of converging to the required link quality set by the network while using as low power as possible. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.2.3 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.2.3.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect SS, multipath fading simulator and an AWGN source to the UE antenna connector as shown in figure A.10.
2) Set up a call according to the Generic call setup procedure.
3) RF parameters are set up according to table 7.5.2.1
4) Enter the UE into loopback test mode and start the loopback test.
5) SS signals to UE target quality value on DTCH as specified in table 7.5.2.1. SS will vary the physical channel power in downlink according to the TPC commands from UE, and at the same time measure BLER. This is continued until the target quality value on DTCH is met, within the minimum accuracy requirement.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure and loopback test. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.2.3.2 Procedure | 1) After the target quality on DTCH is met, BLER is measured. Simultaneously the downlink power ratio averaged over one slot is measured. This is repeated until adequate amount of measurements is done to reach the required confidence level.
2) The measured quality on DTCH (BLER) and the measured downlink power ratio values averaged over one slot are compared to the limits in table 7.5.2.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.2.4 Test Requirements | a) The measured quality on DTCH does not exceed the values in table 7.5.2.2.
b) The downlink power ratio values, which are averaged over one slot, shall be below the values in table 7.5.2.2 more than 90 % of the time. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.3 Power control in downlink for 1,28 Mcps TDD option, constant BLER Target(Release 6 and earlier) | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.3.1 Definition and applicability | Power control in the downlink is the ability of the UE receiver to converge to required link quality set by the network while using as low power as possible in downlink. If a BLER target has been assigned to a DCCH (See clause C.3), then it has to be such that outer loop is based on DTCH and not on DCCH. The requirements and this test apply to all types of UTRA for the 1,28 Mcps TDD UE Release 6 and earlier releases. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.3.2 Minimum requirements | For the parameters specified in table 7.5.3.1 the downlink averaged over one timeslot power shall be below the specified value in table 7.5.3.2 more than 90% of the time. BLER shall be as shown in table 7.5.3.2. Downlink power control is ON during the test.
Table 7.5.3.1: Test parameters for downlink power control – constant BLER Target
Parameter
Unit
Value
dB
0
dBm/1.28 MHz
-60
Information data rate
kbps
12.2
Target quality on DTCH
BLER
0.01
Propagation condition
Case 1
DL Power Control step size, TPC
dB
1
Maximum_DL_power *
dB
0
Minimum_DL_power *
dB
-27
NOTE: DL power is compared to P-CCPCH power.
Table 7.5.3.2: Requirements for downlink power control – constant BLER Target
Parameter
Unit
Test 1
dB
7.5
Measured quality on DTCH
BLER
0,01±30%
The reference for this requirement is TS 25.102 [1] clause 8.5.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.3.3 Test purpose | To verify that the UE receiver is capable of converging to the required link quality set by the network while using as low power as possible. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.3.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.3.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect SS, multipath fading simulator and an AWGN source to the UE antenna connector as shown in figure A.10.
2) Set up a call according to the Generic call setup procedure.
3) RF parameters are set up according to table 7.5.3.1
4) Enter the UE into loopback test mode and start the loopback test.
5) SS signals to UE target quality value on DTCH as specified in table 7.5.3.1. SS will vary the physical channel power in downlink according to the TPC commands from UE, and at the same time measure BLER. This is continued until the target quality value on DTCH is met, within the minimum accuracy requirement.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure and loopback test. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.3.4.2 Procedure | 1) After the target quality on DTCH is met, BLER is measured. Simultaneously the downlink power ratio averaged over one slot is measured. This is repeated until adequate amount of measurements is done to reach the required confidence level.
2) The measured quality on DTCH (BLER) and the measured downlink power ratio values averaged over one slot are compared to the limits in table 7.5.3.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.3.5 Test Requirements | a) The measured quality on DTCH does not exceed the values in table 7.5.3.2.
b) The downlink power ratio values, which are averaged over one slot, shall be below the values in table 7.5.3.2.
7.5.3A Power control in downlink for 1,28 Mcps TDD option, constant BLER Target(Release 7 and later)
7.5.3A.1 Definition and applicability
Power control in the downlink is the ability of the UE receiver to converge to required link quality set by the network while using as low power as possible in downlink. If a BLER target has been assigned to a DCCH (See clause C.3), then it has to be such that outer loop is based on DTCH and not on DCCH. The requirements and this test apply to all types of UTRA for the 1,28 Mcps TDD UE Release 7 and later releases.
7.5.3A.2 Minimum requirements
For the parameters specified in table 7.5.3A.1 the downlink averaged over one timeslot power shall be below the specified value in table 7.5.3A.2 more than 90% of the time. BLER shall be as shown in table 7.5.3A.2. Downlink power control is ON during the test.
Table 7.5.3A.1: Test parameters for downlink power control – constant BLER Target
Parameter
Unit
Test 1
Test2
Test3
Test4
Test5
Test6
dB
0
0
0
0
0
0
dBm/1.28 Mhz
-60
-60
-60
-60
-60
-60
Information data rate
kbps
12.2
12.2
64
64
64
64
Target quality on DTCH
BLER
0.01
0.01
0. 1
0.1
0.001
0.001
Propagation condition
Case 1
Case3
Case 1
Case3
Case1
Case3
DL Power Control step size, TPC
dB
1
1
1
1
1
1
Maximum_DL_power *
dB
0
0
0
0
0
0
Minimum_DL_power *
dB
-27
-27
-27
-27
-27
-27
NOTE: DL power is compared to P-CCPCH power.
Table 7.5.3A.2: Requirements for downlink power control – constant BLER Target
Parameter
Unit
Test 1
Test 2
Test 3
Test 4
Test5
Test 6
dB
7.5
4.8
9.1
8.9
17.9
13.1
Measured quality on DTCH
BLER
0.01±30%
0.01±30%
0.1±30%
0.1±30%
0.001±30%
0.001±30%
The reference for this requirement is TS 25.102 [1] clause 8.5.1.
7.5.3A.3 Test purpose
To verify that the UE receiver is capable of converging to the required link quality set by the network while using as low power as possible.
7.5.3A.4 Method of test
7.5.3A.4.1 Initial conditions
Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect SS, multipath fading simulator and an AWGN source to the UE antenna connector as shown in figure A.10.
2) Set up a call according to the Generic call setup procedure.
3) RF parameters are set up according to table 7.5.3A.1
4) Enter the UE into loopback test mode and start the loopback test.
5) SS signals to UE target quality value on DTCH as specified in table 7.5.3A.1. SS will vary the physical channel power in downlink according to the TPC commands from UE, and at the same time measure BLER. This is continued until the target quality value on DTCH is met, within the minimum accuracy requirement.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure and loopback test.
7.5.3A.4.2 Procedure
1) After the target quality on DTCH is met, BLER is measured. Simultaneously the downlink power ratio averaged over one slot is measured. This is repeated until adequate amount of measurements is done to reach the required confidence level.
2) The measured quality on DTCH (BLER) and the measured downlink power ratio values averaged over one slot are compared to the limits in table 7.5.3A.2.
7.5.3A.5 Test Requirements
a) The measured quality on DTCH does not exceed the values in table 7.5.3A.2.
b) The downlink power ratio values, which are averaged over one slot, shall be below the values in table 7.5.3A.2.7.5.4 Power control in downlink for 7,68 Mcps TDD option, constant BLER Target
FFS |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.4 Power control in the downlink for 1,28 Mcps TDD option, wind up effects | 7.5.4.1 Definition and applicability
This requirement verifies that, after the downlink maximum power is limited in the UTRAN and it has been released again, the downlink power control in the UE does not have a wind up effect, i.e. the required DL power has increased during time period the DL power was limited.
The requirements and this test apply to all types of 1.28 Mcps TDD UE of Release 7 and later. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.4.2 Minimum requirements | This test is run in three stages where stage 1 is for convergence of the power control loop. In stage two the maximum downlink power for the dedicated channel is limited not to be higher than the parameter specified in table 7.5.4.1. All parameters used in the three stages are specified in table 7.5.4.1. The downlink Ior/Ioc power ratio measured values, which are averaged over one timeslot, during stage 3 shall be lower than the value specified in table 7.5.4.2 more than 90 % of the time. Power control of the UE is ON during the test.
Table 7.5.4.1: Test parameter for downlink power control, wind-up effects
Parameter
Test 1
Unit
Stage 1
Stage 2
Stage 3
Time in each stage
5
40
5
S
-60
dBm/1,28 MHz
Information Data Rate
12,2
Kbps
Quality target on DTCH
0,01
BLER
Propagation condition
Case 1
Maximum_DL_Power (Note 2)
0
P (Note 1)
0
dB
Minimum_DL_Power (Note 2)
-27
dB
DL Power Control step size, TPC
1
dB
Note 1: P is the level corresponding to the average Ior/Ioc power ratio - 3 dB compared to the P-CCPCH level. The average Ior/Ioc power ratio is measured during the initialisation stage after the power control loop has converged before the actual test starts.
Note 2: Power is compared to P-CCPCH.
Table 7.5.4.2: Requirements in downlink power control, wind-up effects
Parameter
Test 1, stage 3
Unit
Ior/Ioc
9.1
dB
The reference for this requirement is TS 25.102 [1] clause 8.5.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.4.3 Test purpose | To verify that the UE downlink power control does not require too high downlink power during a period after the downlink power is limited by the UTRAN. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.4.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.4.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect SS, multipath fading simulator and an AWGN source to the UE antenna connector as shown in figure A.10.
2) Set up a call according to the Generic call setup procedure.
3) Enter the UE into loopback test mode and start the loopback test. RF parameters are set up according to table 7.5.4.1. SS waits 15 seconds and then collects the Ior/Ioc power ratio measured values, which are averaged over one timeslot, over 80 second period. The average of these Ior/Ioc values is then calculated and 3dB is subtracted from it to get the power value P, which will then be used during the stage 2 in the test procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure and loopback test. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.4.4.2 Procedure | 1) RF parameters are set up according to table 7.5.4.1. Stage 1 is used for the power control to converge and During Stage 2 the maximum downlink power is limited by UTRAN.
2) SS will vary the physical channel power in downlink according to the TPC commands from UE during stages 1, 2, and 3.
3) Measure Ior/Ioc power ratio during stage 3 according to table 7.5.4.1.
4) Repeat steps 1) to 3) 230 times.
NOTE: The number of repetitions (230) is derived from minimum testing time for 3 km/h fading channels (Table F.6.1.6.2; 1168 seconds). |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.4.5 Test Requirements | The downlink Ior/Ioc power ratio values, which are averaged over one timeslot during stage 3, shall be lower than the level specified in table 7.5.4.2 during stage 3 more than 90 % of the time. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.5 Power control in the downlink for 1,28 Mcps TDD option, initial convergence | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.5.1 Definition and applicability | This requirement verifies that DL power control works properly during the first seconds after DPCH connection is established.
The requirements and this test apply to all types of 1.28 Mcps TDD UE of Release 7 and later. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.5.2 Minimum requirements | For the parameters specified in table 7.5.5.1 the downlink DPCH_ power ratio measured values, which are averaged over 50 ms, shall be within the range specified in table 7.5.5.2 more than 90 % of the time. T1 equals to 5 s and it starts 100 ms after the uplink DPCH physical channel is considered established. T2 equals to 5 s and it starts when T1 has expired. Power control is ON during the test.
The first 100 ms shall not be used for averaging, i.e. the first sample to be input to the averaging filter is at the beginning of T1. The averaging shall be performed with a sliding rectangular window averaging filter. The window size of the averaging filter is linearly increased from 0 up to 50 ms during the first 50 ms of T1, and then kept equal to 50ms.
Table 7.5.5.1: Test parameters for downlink power control, initial convergence
Parameter
Unit
Test 1
Test 2
Test 3
Test 4
Target quality value on DTCH
BLER
0.01
0.01
0.1
0.1
Initial
dB
5
-15
9.4
-10.6
Information Data Rate
kbps
12.2
12.2
64
64
dBm/1.28 MHz
-60
Propagation condition
Static
Maximum_DL_Power
dB
0
Minimum_DL_Power
dB
-27
DL Power Control step size, TPC
dB
1
Table 7.5.5.2: Requirements in downlink power control, initial convergence
Parameter
Unit
Test 1 and Test 2
Test 3 and Test 4
during T1
dB
-8.5 0
-4.1 4.4
during T2
dB
-8.5 -3
-4.1 1.4
The reference for this requirement is TS 25.102 [1] clause 8.5.3.2.
NOTE: DTCH shall be transmitted during the whole test. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.5.3 Test purpose | To verify that DL power control works properly during the first seconds after DPCH connection is established. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.5.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.5.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect SS and an AWGN source to the UE antenna connector as shown in figure A.9. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.5.4.2 Procedure | 1) Enter the UE into loopback test mode according to the Generic call setup procedure. System simulator shall activate power control at the activation time of the Radio Bearer Setup message (At RRC connection setup only DCCH is established). The uplink DPCH physical channel is considered established at the activation time of the Radio Bearer Setup message.
2) RF parameters are set up according to table 7.5.5.1 for the test running. After the transmission of Radio Bearer Setup message, initial DPCH is set to the specified level at the activation time.
3) SS will vary the physical channel power in downlink according to the TPC commands from UE.
4) Measure power ratio averaged over 50 ms during T1. T1 starts 100 ms after the uplink DPCH physical channel is considered established and T1 equals to 5 s. The first 100 ms shall not be used for averaging, i.e. the first sample to be input to the averaging filter is at the beginning of T1. The averaging shall be performed with a sliding rectangular window averaging filter. The window size of the averaging filter is linearly increased from 0 up to 50 ms during the first 50 ms of T1, and then kept equal to 50ms. At the first slot where the averaging window crosses the T1 - T2 boundary, the average power level within the window begins to test against the T2 requirements.
5) Measure power ratio averaged over 50 ms during T2. T2 starts, when T1 has expired and T2 equals to 5 s.
The reception of the "RB setup complete" and the "CLOSE UE TEST LOOP COMPLETE" messages is not necessary to pass this test. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.5.5.5 Test Requirements | a) The downlink power ratio values shall be within the range specified in table 7.5.5.2 during T1 more than 90 % of the time.
b) The downlink power ratio values shall be within the range specified in table 7.5.5.2 during T2 more than 90 % of the time. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.6 Uplink Power Control | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.6.1 Definition and applicability | Power control in the uplink is the ability of the UE to converge to the required link quality set by the network while using minimum uplink power. The requirements of this test shall apply to all types of the UTRA-TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.6.2 Minimum requirements | During period T1, the PCCPCH and a second Beacon Channel are transmitted in the DL in designated slots within each frame and at the same power level.
The UE transmits, using the channel of TS25.105, Annex A.2.1 UL reference measurement channel (12.2 kbps) in one UL slot. For different parts of the test, different UL slots will be designated.
The values of table 7.6.1, period T1 shall be selected. Then, with the received PCCPCH and Beacon power set at –60 dBm, the value of DPCH constant value shall be adjusted so that the mean UE output power is 5 dBm. These conditions are held steady during period T1.
Periods T1 and T2 are each 5 seconds long.
Table 7.6.1: UL Power Control Test Conditions
Period T1
Period T2
IBTS all slots
dBm
-60
PCCPCH Power -Broadcast
dBm
18
PCCPCH Power - Received
dBm
-60
-70
Mean UE transmit power
dBm
5
According to tables 7.6.2 and 7.6.3
SIRTARGET
dB
6
Ioc in PCCPCH and Beacon Slots
dBm
-60
IE (information element) Alpha
As defined in 25.331
1.0
PCCPCH slot position
Integer 0 -14
0
Beacon slot position
Integer 0 -14
8
Figure 7.6.1
At the end of period T1, the PCCPCH and Beacon Received power shall be simultaneously decreased by 10 dB. These conditions are summarized in table 7.6.1, period T2.
For the first frame including the change in received power the UE output power shall satisfy the values in table 7.6.2.
For the 20th frame after the change in received power the UE output power shall satisfy the values in table 7.6.3.
Table 7.6.2: Required UE Output Power, Frame Containing Power Level Change
Parameter
Units
Value
UL transmission slot position
1,9
7,14
UE output power
dBm
15 ±4.0
5 ±0.5
Table 7.6.3: Required UE Output Power, 20 Frames after Power Level Change
Parameter
Units
Value
UL transmission slot position
1,9
7,14
UE output power
dBm
15 ±4.0
15 ±4.0 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.6.3 Test purpose | To verify the ability of the UE to converge to the required link quality set by the network while using minimum uplink power. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.6.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.6.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect SS and an AWGN source to the UE antenna connector as shown in figure A.9.
2) Set up a call according to the Generic call setup procedure using SS levels and signalling values as specified in table 7.6.1 for Period P1 and table 7.6.4 . The UE shall be signalled to transmit in timeslot position 1.
Table 7.6.4: Test parameters for Uplink Power Control Test
Parameter
Value/description
UL Reference measurement channel
12,2kbps, according to annex C.2.1
DPCH constant value
0
Data content
real life (sufficient irregular)
3) Enter the UE into loopback test mode and start the loopback test.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure and loopback test. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.6.4.2 Procedure | 1) The SS adjusts the DPCH constant value until the UE transmit power is 5 dBm.
2) After the UE output power has been held constant at 5 dBm for at least 5 seconds, the received PCCPCH power shall be decreased by 10 dB to -70 dBm as shown in figure 7.6.1.
3) Measure the transmit power according to annex B for the first frame including the pathloss change and the 20th frame after the pathloss change.
4) Set the received PCCPCH power to -60 dBm.
5) SS signals UE to transmit in timeslot 7. Repeat step 1 - 4.
6) SS signals UE to transmit in timeslot 9. Repeat step 1 - 4.
7) SS signals UE to transmit in timeslot 14. Repeat step 1 - 4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.6.5 Test Requirements | The measured transmit power shall not exceed the prescribed tolerance in tables 7.6.5 and 7.6.6.
Table 7.6.5: Required UE Output Power, Frame Containing Power Level Change
Parameter
Units
Value
UL transmission slot position
1,9
7,14
UE output power
dBm
15 ±5.5
5 ±0.5
Table 7.6.6: Required UE Output Power, 20 Frames after Power Level Change
Parameter
Units
Value
UL transmission slot position
1,9
7,14
UE output power
dBm
15 ±5.5
15 ±5.5
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in Annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7 Demodulation of DCH in moving conditions | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.1 Definition and applicability | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.1.1 3,84 Mcps TDD Option | <void> |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.1.2 1,28 Mcps TDD Option | The receive characteristics of the Dedicated Channel (DCH) in dynamic moving propagation conditions are determined by the Block Error Ratio (BLER) values. BLER is measured for the each of the individual data rate specified for the DPCH. DCH is mapped into in Dedicated Physical Channel (DPCH).
The requirements and this test apply to all types of 1.28 Mcps TDD UE of Release 7 and later. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.1.3 7,68 Mcps TDD Option | <void> |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.2 Minimum requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.2.1 3.84 Mcps TDD Option | Void |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.2.2 1.28 Mcps TDD Option | For the parameters specified in Table7.7.1 the BLER should not exceed the piece-wise linear BLER curve specified in Table 7.7.2.
Table 7.7.1: DCH parameters in moving propagation conditions (1.28 Mcps TDD Option)
Parameters
Unit
Test 1
Test 2
Number of DPCHo
8
2
Scrambling code and basic midamble code number*
0
0
DPCH Channelization Codes*
C(k,Q)
C(i,16)
i=1,2
C(i,16)
i=1…8
DPCHo Channelization Codes*
C(k,Q)
C(i,16)
3≤ i ≤10
C(i,16)
9≤ i ≤10
DB
-10
-10
Ioc
dBm/1.28MHz
-60
Information Data Rate
Kbps
12.2
64
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 7.7.2: Performance requirements in moving propagation conditions (1.28 Mcps TDD Option)
Test Number
[dB]
BLER
1
7.1
10-2
2
6.7
10-2 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.2.3 7.68 Mcps TDD Option | void |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.3 Test purpose | To verify the ability of the receiver to receive a predefined test signal, representing a moving propagation channel for the wanted and for the co-channel signals from serving and adjacent cells, with a BLER not exceeding a specified value. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1. Connect the SS and an AWGN noise source to the UE antenna connector as shown in figure A.10. In case of UE-receive diversity connect according to figure A.17.
2. Set up a call according to the Generic call setup procedure TS34.108 [3] sub clause 7.3.2.
3. Set the test parameters as specified in table 7.7.1.
4. Enter the UE into loopback test mode and start the loopback test.
5. Setup fading simulator as moving propagation condition, which is described in clause D.2.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.4.2 Procedure | 1. Measure BLER of DCH. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.5 Test Requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.5.1 3.84 Mcps option | Void. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.5.2 1.28 Mcps option | For the parameters specified in table 7.7.3 the average downlink power ratio shall be below the specified value for the BLER shown in table 7.7.4.
Table 7.7.3: DCH parameters in moving propagation conditions
Parameters
Unit
Test 1
Test 2
Number of DPCHo
8
2
Scrambling code and basic midamble code number*
0
0
DPCH Channelization Codes*
C(k,Q)
C(i,16)
i=1,2
C(i,16)
i=1…8
DPCHo Channelization Codes*
C(k,Q)
C(i,16)
3≤ i ≤10
C(i,16)
9≤ i ≤10
DB
-10
-10
Ioc
dBm/1.28MHz
-60
Information Data Rate
Kbps
12.2
64
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 7.7.4: DCH requirements in moving propagation conditions
Test Number
[dB]
BLER
1
7.8
10-2
2
7.4
10-2
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.7.5.3 7.68Mcps option | Void. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8 Demodulation of DCH in birth-death conditions | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.1 Definition and applicability | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.1.1 3,84 Mcps TDD Option | <void> |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.1.2 1,28 Mcps TDD Option | The receive characteristics of the Dedicated Channel (DCH) in birth-death propagation conditions are determined by the Block Error Ratio (BLER) values. BLER is measured for the each of the individual data rate specified for the DPCH. DCH is mapped into in Dedicated Physical Channel (DPCH).
The requirements and this test apply to all types of 1.28 Mcps TDD UE of Release 7 and later. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.1.3 7,68 Mcps TDD Option | <void> |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.2 Minimum requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.2.1 3.84 Mcps TDD Option | Void |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.2.2 1.28 Mcps TDD Option | For the parameters specified in Table7.8.1 the BLER should not exceed the piece-wise linear BLER curve specified in Table 7.8.2.
Table 7.8.1: DCH parameters in birth-death propagation conditions (1.28 Mcps TDD Option)
Parameters
Unit
Test 1
Test 2
Number of DPCHo
8
2
Scrambling code and basic midamble code number*
0
0
DPCH Channelization Codes*
C(k,Q)
C(i,16)
i=1,2
C(i,16)
i=1…8
DPCHo Channelization Codes*
C(k,Q)
C(i,16)
3≤ i ≤10
C(i,16)
9≤ i ≤10
DB
-10
-10
Ioc
dBm/1.28MHz
-60
Information Data Rate
Kbps
12.2
64
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 7.8.2: Performance requirements in birth-death propagation conditions (1.28 Mcps TDD Option)
Test Number
[dB]
BLER
1
7.3
10-2
2
6.5
10-2 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.2.3 7.68 Mcps TDD Option | void |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.3 Test purpose | To verify the ability of the receiver to receive a predefined test signal, representing a moving propagation channel for the wanted and for the co-channel signals from serving and adjacent cells, with a BLER not exceeding a specified value. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1. Connect the SS and an AWGN noise source to the UE antenna connector as shown in figure A.10. In case of UE-receive diversity connect according to figure A.17.
2. Set up a call according to the Generic call setup procedure TS34.108 [3] sub clause 7.3.2.
3. Set the test parameters as specified in table 7.8.1.
4. Enter the UE into loopback test mode and start the loopback test.
5. Setup fading simulator as moving propagation condition, which is described in clause D.2.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.4.2 Procedure | 1. Measure BLER of DCH. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.5 Test Requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.5.1 3.84 Mcps option | Void. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.5.2 1.28 Mcps option | For the parameters specified in table 7.8.3 the average downlink power ratio shall be below the specified value for the BLER shown in table 7.8.4.
Table 7.8.3: DCH parameters in birth-death propagation conditions
Parameters
Unit
Test 1
Test 2
Number of DPCHo
8
2
Scrambling code and basic midamble code number*
0
0
DPCH Channelization Codes*
C(k,Q)
C(i,16)
i=1,2
C(i,16)
i=1…8
DPCHo Channelization Codes*
C(k,Q)
C(i,16)
3≤ i ≤10
C(i,16)
9≤ i ≤10
DB
-10
-10
Ioc
dBm/1.28MHz
-60
Information Data Rate
Kbps
12.2
64
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 7.8.4: DCH requirements in birth-death propagation conditions
Test Number
[dB]
BLER
1
8.0
10-2
2
7.2
10-2
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 7.8.5.3 7.68 Mcps option | Void.
8 Requirements for Support of RRM |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.1 General | Void. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2 Idle Mode Tasks | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.1 RF Cell Selection Scenario | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.1.1 Introduction | After a UE has switched on and a PLMN has been selected, the Cell selection process takes place, as described in TS 25.304. This process allows the UE to select a suitable cell where to camp on in order to access available services. In this process the UE can use stored information (Stored information cell selection) or not (Initial cell selection). |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2 Cell Re-Selection | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1 Scenario 1: Cell re-selection to intra frequency TDD cell | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.1 Definition and applicability | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.1.1 3,84 Mcps TDD Option | The cell re-selection delay is defined as the time from a change of cell levels to the moment when this change causes the UE to camp on a new cell , and starts to send the RRC CONNECTION REQUEST message to perform a Location Registration on the new cell.
The requirements and this test apply to the 3,84 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.1.2 1,28 Mcps TDD Option | The cell re-selection delay is defined as the time from the beginning of time period T2, to the moment when the UE camps on Cell 2, and starts to send SYNCH-UL sequence in the UpPTS for sending the RRC CONNECTION REQUEST to perform a Location Registration on cell 2.
This test is applicable to 1,28 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.1.3 7,68 Mcps TDD Option | The cell re-selection delay is defined as the time from a change of cell levels to the moment when this change causes the UE to camp on a new cell , and starts to send the RRC CONNECTION REQUEST message to perform a Location Registration on the new cell.
The requirements and this test apply to the 7,68 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.2 Minimum requirement | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.2.1 3,84 Mcps TDD Option | The cell re-selection delay shall be less than 8 s when the DRX cycle length is 1,28 s.
The rate of correct cell reselections observed during repeated tests shall be at least 90% with a confidence level of [FFS]%.
NOTE:
The cell re-selection delay can be expressed as: TevaluateTDD + TSI, where:
TevaluateTDD A DRX cycle length of 1280ms is assumed for this test case, this leads to a Tevaluate TDD of 6.4s according to table 4.1 in clause 4.2.2.7 in [2].
TSI Maximum repetition rate of relevant system info blocks that needs to be received by the UE to camp on a cell. 1280 ms is assumed in this test case.
This gives a total of 7.68 s, allow 8s in the test case.
The normative reference for this requirement is TS 25.123 [2] clauses 4.2.2 and A.4.2.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.2.2 1,28 Mcps TDD Option | The cell re-selection delay shall be less than 8 s when the DRX cycle length is 1,28 s.
The rate of correct cell reselections observed during repeated tests shall be at least 90% with a confidence level of 95%.
NOTE:
The cell re-selection delay can be expressed as: TevaluateNTDD + TSI, where:
TevaluateNTDD: A DRX cycle length of 1280ms is assumed for this test case, this leads to a Tevaluate NTDD of 6.4s according to table 4.1A in clause 4.2 in [2].
TSI: Time required for receiving all the relevant system information data according to the reception procedure and the RRC procedure delay of system information blocks defined in 25.331 for a UTRAN cell (ms). 1280 ms is assumed in this test case.
This gives a total of 7.68 s, allow 8s in the test case.
The normative reference for this requirement is TS 25.123 [2] clauses 4.2.2 and A.4.2.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.2.3 7,68 Mcps TDD Option | The cell re-selection delay shall be less than 8 s when the DRX cycle length is 1,28 s.
The rate of correct cell reselections observed during repeated tests shall be at least 90% with a confidence level of 95%.
NOTE:
The cell re-selection delay can be expressed as: TevaluateTDD + TSI, where:
TevaluateTDD A DRX cycle length of 1280ms is assumed for this test case, this leads to a Tevaluate TDD of 6.4s according to table 4.1B in clause 4.2.2.7.3 in [2].
TSI Maximum repetition rate of relevant system info blocks that needs to be received by the UE to camp on a cell. 1280 ms is assumed in this test case.
This gives a total of 7.68 s, allow 8s in the test case.
The normative reference for this requirement is TS 25.123 [2] clauses 4.2.2 and A.4.2.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.3 Test purpose | This test is to verify the requirement for the cell re-selection delay in the single carrier case |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 8.2.2.1.4 Method of test |
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