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40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.1.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.1.4.1 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 (node B emulator) and fader and AWGN noise source to the UE antenna connector as shown in figure A.10.
2) Set up an HSDPA call according to TS 34.108 [3] clause 7.3.6.3 with levels according to Annex E.3.
3) Set the node B emulator ACK/NACK/DTX behaviour according to table 9.2.1. Set the test parameters and levels for tests 1-4 according to tables 9.2.1.1. The reference channel configuration is defined in section C.4.1. The configuration of the TX power for downlink physical channels is annex in E.3.
4) The information bit data shall be pseudo random and not repeated before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM, test 1,2,3): The information bit payload block is 52996 bits long. Hence the PRBSequence must be at least 52996 * 10 bits long. ) Use a PRBS from ITU-T O.153 Ref [25].
5) Setup the fading simulator with fading conditions as described in table D.2.2.1A. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.1.4.2 Procedure | a. Once the HSDPA connection is setup, start transmitting HSDPA data.
b. For all relevant propagation conditions, for all relevant Ioc levels, for all relevant Ec/Ior, for all relevant Îor/Ioc defined in Tables 9.2 and 9.4 count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.3 and F.6.3.5.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.1.5 Test Requirements | Tables 9.2.1.1 to 9.2.1.4 define the primary level settings including test tolerance for all relevant throughput tests. The pass / fail decision for throughput is done according to Annex F.6.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.2 HS-DSCH throughput for Variable Reference Channels | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.2.1 Definition and applicability | The HS-DSCH data throughput for variable reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 3.84 Mcps TDD UE from release 5 and later that support HSDPA. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.2.2 Minimum requirements | For the parameters specified in Table 9.2.2.1 the measured throughput R shall exceed the throughput specified in Table 9.2.2.2 for each radio condition. The variable Reference Channel is specified in Annex C.4.3.
Table 9.2.2.1: Test parameters for variable reference measurement channel requirements for 7,3 Mbps – Category 8 - UE (3,84 Mcps TDD Option)
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
Scrambling code and basic midamble code number*
-
0, 1
Number of TS
-
8
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..16
Number of Hybrid ARQ processes**
-
4
Maximum number of Hybrid ARQ transmissions
-
1
Redundancy and constellation version coding sequence
(Xrv, s, r, b)
(0, 1, 0, 0)
HS-PDSCHi_Ec/Ior
dB
–12,04
dB
0
Ioc
dBm/3,84MHz
-60
Note *: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Note **: For timing requirements, HARQ is not active
Table 9.2.2.2: Performance requirements for variable reference measurement channel requirement in multipath channels for 7,3 Mbps – Category 8 - UE (3,84 Mcps TDD Option)
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
8,8
1240
14,8
2500
18,8
3600
24,8
5000
2
PB3
8,8
1220
14,8
2430
20,8
4030
24,8
5080
3
VA30
10,1
1190
16,1
2290
20,1
3220
24,1
4260
4
VA120
7,1
590
11,1
1180
15,1
1840
19,1
2390 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.2.3 Test purpose | To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, with the selection of QPSK and 16QAM modulation, and appropriate blocksize being determined by the SS based on the CQI reported by the UE.. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.2.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.2.4.1 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 (node B emulator) and fader and AWGN noise source to the UE antenna connector as shown in figure A.10.
2) Set up an HSDPA call according to TS 34.108 [3] clause 7.3.6.3 with levels according to Annex E.3.
3) Set the node B emulator ACK/NACK/DTX behaviour according to table 9.2.1. Set the test parameters and levels for tests 1-4 according to tables 9.2.2.1. The reference channel configuration is defined in section C.4.3. The configuration of the TX power for downlink physical channels is annex in E.3.
4) The information bit data shall be pseudo random and not repeated before 10 different information bit payload blocks are processed. Use a PRBS from ITU-T O.153 Ref [25]
5) Setup the fading simulator with fading conditions as described in table D.2.2.1A. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.2.4.2 Procedure | 1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value,then SS will decode the CQI report and transmit a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.
3) For any HSDPA block transmitted by the SS, record transmitted block size and relevant received ACK, NACK and statDTX reported by UE. If UE reports ACK,the transmitted block is correctly received by UE.Continue transmission of the HS-PDSCH data and record transmitted block size until [2000] records have been reached.
4) For all relevant propagation conditions ,calculate the throughput, which is the ratio of the sum of correctly received transport bits over the testing time. [2000] multiplied by transmission time interval is the testing time. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.2.5 Test Requirements | Table 9.2.2.1 define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.2.2.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.3 Reporting of HS-DSCH Channel Quality Indicator | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.3.1 Definition and applicability | The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 3.84 Mcps TDD UE from release 5 and later that support HSDPA. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.3.2 Minimum requirements | For the parameters specified in Table 9.2.3.1, the reported CQI value shall be in the range of +/-10 of the reported median more than 90% of the time. The BLER for the reported median CQI shall be less than 10%.
Table 9.2.3.1: Test parameters for variable reference measurement channel requirements for 7,3 Mbps – Category 8 - UE (3,84 Mcps TDD Option)
Parameters
Unit
Test 1
Test 2
Scrambling code and basic midamble code number*
-
0, 1
Number of TS
-
8
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..16
Number of Hybrid ARQ processes**
-
4
Maximum number of Hybrid ARQ transmissions
-
1
Redundancy and constellation version coding sequence
(Xrv, s, r, b)
(0, 1, 0, 0)
HS-PDSCHi_Ec/Ior
dB
–12,04
dB
0
dB
5
10
Ioc
dBm/3,84MHz
-60
Note*: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Note**: For timing requirements, HARQ is not active
Table 9.3.3.2 Performance requirements for CQI reporting measurement channel requirements for 7.3 Mbps – Category 9- UE (3.84 Mcps TDD Option)
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 10
90
10%
Test 2 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.3.3 Test purpose | To verify that the variance of the CQI reports in an AWGN channel is within the limits defined and that a BLER of better than 10% is obtained for the median reported CQI. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.3.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.3.4.1 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 and an AWGN source to the UE antenna connector as shown in figure A.9.
2) Set up an HSDPA call according to TS 34.108 [3] clause 7.3.6.3 with levels according to Annex E.3.
3) Set the node B emulator ACK/NACK/DTX behaviour according to table 9.2.1. Set the test parameters and levels for tests 1-2 according to tables 9.2.3.1. The reference channel configuration is defined in section C.4.1. The configuration of the TX power for downlink physical channels is annex in E.3.
4) The information bit data shall be pseudo random and not repeated before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM, test 1,2,3): The information bit payload block is 52996 bits long. Hence the PRBSequence must be at least 52996 * 10 bits long. ) Use a PRBS from ITU-T O.153 Ref [25]. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.3.4.2 Procedure | Note: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
1) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
2) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
3) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - 10) ≤ Median CQI ≤ ( Median CQI + 10) then continue with next step , otherwise fail the UE.
4) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
5) Repeat the same procedure (steps 2 to 5 ) with test conditions according to the table 9.3.3.1 for Test 2, Test 3 and Test 4 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.3.5 Test Requirements | The pass fail decision as specified in the test procedure in 9.3.1.4.2.
No test tolerance is applied to the test parameters. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.4 HS-SCCH Detection Performance | void
9.2.4A HS-SCCH Detection Performance |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.4.1 Definition and applicability | The detection performance of the HS-SCCH is determined by the probability of event Em, which is declared when the UE is signaled on HS-SCCH, but DTX is observed in the corresponding HS-SICH ACK/NACK field. The probability of event Em is denoted P(Em).
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 3.84 Mcps TDD UE from release 5 and later that support HSDPA. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.4.2 Minimum requirements | For the test parameters in Table 9.2.4.1, for each value of HS-SCCH-1 Ec/Ior specified in Table 9.2.4.2, the measured P(Em) shall be less than or equal to the corresponding specified value of P(Em).
Table 9.2.4.1: Test parameters for HS-SCCH detection (3.84 Mcps TDD option)
Parameter
Unit
Test 1
Test 2
Test 3
Number of TS under test
-
1
Number of HS-SCCH codes per timeslot
-
4
HS-SCCH UE Identity
(,, …, )
-
UE1 = 0000000000000000
(UE1 under test)
UE2 = 0101010101010101
UE3 = 1010101010101010
UE4 = 1111111111111111
HS-SCCH Channelization Codes*
C(k,Q)
HS-SCCH-1 = C(1, 16), for UE1 (UE under test)
HS-SCCH-2 = C(2, 16) for UE2
HS-SCCH-3 = C(3, 16) for UE3
HS-SCCH-4 = C(4, 16) for UE4
HS-SCCH Ec/Ior
dB
HS-SCCH-2_Ec/Ior = HS-SCCH-3_Ec/Ior = HS-SCCH-4_Ec/Ior,
Where, HS-SCCH-X_Ec/Ior = 1, where X = 1, 2, 3, 4
Table 9.2.4.2: Minimum requirement for HS-SCCH detection (3.84 Mcps TDD option)
Test Number
Propagation Conditions
Reference value
HS-SCCH-1
(dB)
(dB)
1
PA3
-1.6
0
0.05
2
PA3
-3.0
5
0.01
3
VA30
-2.5
0
0.01
The reference for this requirement is TS 25.102 [2] clause 9.1.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.4.3 Test purpose | To verify that P(Em) does not exceed the limit in table 9.2.4.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.4.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.4.4.1 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 noise source to the UE antenna connector as shown in figure A.10.
2. Setup fading simulators as fading condition, which are described in table D.2.2.1A.
3. Set the node B emulator ACK/NACK/DTX behaviour according to table 9.2.1. Set the test parameters and levels for tests 1-3 according to tables 9.2.4.1 and 9.2.4.2. The reference channel configuration is defined in section C.4.1. The configuration of the TX power for downlink physical channels is annex in E.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.4.4.2 Procedure | 1. The UE is switched on.
2. Set up an HSDPA call according to TS 34.108 [3] clause 7.3.6.3.
3. Count the number of NACK, ACK and statDTX on the UL HS-DPCCH during the test interval and decide pass or fail according to Annex F.6.1 and table F.6.1.8. NACK and ACK are counted as a pass and statDTX is counted as a failure. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.2.4.5 Test Requirements | The probability of event Em denoted as P(Em) (test procedure step 3) shall not exceed the specified value in table 9.2.4.2.
No test tolerance is applied to the test parameters. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3 Performance requirements for 1.28 Mcps TDD option | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.1 HS-DSCH throughput for Fixed Reference Channels | The overall performance metric for HS-DSCH requirements is the throughput “R” measured on HS-DSCH.
During the Fixed Reference Channel tests the behaviour of the Node-B emulator in response to the ACK/NACK signalling field of the HS-SICH is specified in Table 9.3.1.1:
Table 9.3.1.1: Node-B Emulator Behaviour in response to ACK/NACK/DTX (Fixed reference channel)
HS-DPCCH ACK/NACK Field State
Node-B Emulator Behaviour
ACK
ACK: new transmission using 1st redundancy version (RV)
NACK
NACK: retransmission using the next RV (up to the maximum permitted number or RV’s)
DTX
DTX: retransmission using the RV previously transmitted to the same H-ARQ process
9.3.1A HS-DSCH throughput for Fixed Reference Channels 0.5 Mbps UE class QPSK
9.3.1A.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 0.5 Mbps UE class.
9.3.1A.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows table specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1A.1: Test parameters for fixed reference measurement channel requirements for 0.5 Mbps UE class QPSK
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
HS-PDSCH Modulation
-
QPSK
Scrambling code and basic midamble code number*
-
1
Midamble
Common midamble
Number of TS**
2
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..10
Number of Hybrid ARQ processes
-
4
Maximum number of Hybrid ARQ transmissions
-
4
Redundancy and constellation version coding sequence
-
{0,0,0,0}
dB
-10
Ioc
dBm/1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
**Note: The timeslot just after the second switch point should be included.
Table 9.3.1A.2: Minimum performance requirements for fixed reference measurement channel requirement in multipath channels for 0.5Mbps UE class QPSK
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10
160
2
PB3
10
170
3
VA30
10
161
4
VA120
10
153
9.3.1A.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above for QPSK modulation.
9.3.1A.4 Method of test
9.3.1A.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 Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1A.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM): The information bit payload block is 3650 bits long. Hence the PRBSequence must be at least 3650 * 10 bits long. ) Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3, table F.6.3.5.1..
9.3.1A.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.1A.3 of test requirement.
Table 9.3.1A.3: Test requirements for fixed reference measurement channel requirement in multipath channels for 0.5Mbps UE class QPSK
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10.6
160
2
PB3
10.6
170
3
VA30
10.6
161
4
VA120
10.6
153
The pass / fail decision for throughput is done according to Annex F.6.3.9.3.1B HS-DSCH throughput for Fixed Reference Channels 1.1 Mbps UE class 16QAM
9.3.1B.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 1.1 Mbps UE class..
9.3.1B.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows table specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1B.1: Test parameters for fixed reference measurement channel requirements for 1.1 Mbps UE class, 16QAM
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
HS-PDSCH Modulation
-
16QAM
Scrambling code and basic midamble code number*
-
1
Midamble
Common midamble
Number of TS**
-
2
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..12
Number of Hybrid ARQ processes
-
4
Maximum number of Hybrid ARQ transmissions
-
4
Redundancy and constellation version coding sequence
-
{6,2,1,5}
dB
-10.8
Ioc
dBm/1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
**Note: The timeslot just after the second switch point should be included.
Table 9.3.1B.2: Minimum performance requirements for fixed reference measurement channel requirement in multipath channels for 1.1Mbps UE class, 16QAM
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15
388
2
PB3
15
347
3
VA30
15
316
4
VA120
15
274
9.3.1B.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above for 16QAM modulation.
9.3.1B.4 Method of test
9.3.1B.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 Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1B.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM): The information bit payload block is 3650 bits long. Hence the PRBSequence must be at least 3650 * 10 bits long. ) Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3, table F.6.3.5.2.
9.3.1B.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.1B.3 of test requirement.
Table 9.3.1B.3: Test requirements for fixed reference measurement channel requirement in multipath channels for 1.1Mbps UE class, 16QAM
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15.6
388
2
PB3
15.6
347
3
VA30
15.6
316
4
VA120
15.6
274
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1C HS-DSCH throughput for Fixed Reference Channels 1.6 Mbps UE class QPSK/16QAM
9.3.1C.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 1.6 Mbps UE class..
9.3.1C.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows table specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1C.1: Test parameters for fixed reference measurement channel requirements for 1.6 Mbps UE class
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
Test 5
Test 6
Test 7
Test 8
HS-PDSCH Modulation
-
QPSK
16QAM
Scrambling code and basic midamble code number*
-
1
Midamble
Common midamble
Number of TS**
-
3
Number of Hybrid ARQ processes
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..10
C(i,16)
i=1..12
Redundancy and constellation version coding sequence
-
{0,0,0,0}
{6,2,1,5}
dB
-10
-10.8
Ioc
dBm/
1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
**Note: The timeslot just after the second switch point should be included.
Table 9.3.1C.2: Minimum performance requirements for fixed reference measurement channel requirement in multipath channels for 1.6Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10
270
2
PB3
10
278
3
VA30
10
259
4
VA120
10
242
5
PA3
15
488
6
PB3
15
471
7
VA30
15
431
8
VA120
15
377
9.3.1C.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above for QPSK and 16QAM modulation.
9.3.1C.4 Method of test
9.3.1C.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 Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1C.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM): The information bit payload block is 3650 bits long. Hence the PRBSequence must be at least 3650 * 10 bits long. ) Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3, tables F.6.3.5.3 and F.6.3.5.4.
9.3.1C.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.1C.3 of test requirement.
Table 9.3.1C.3: Test requirements for fixed reference measurement channel requirement in multipath channels for 1.6Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10.6
270
2
PB3
10.6
278
3
VA30
10.6
259
4
VA120
10.6
242
5
PA3
15.6
488
6
PB3
15.6
471
7
VA30
15.6
431
8
VA120
15.6
377
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1D HS-DSCH throughput for Fixed Reference Channels 2.2 Mbps UE class QPSK/16QAM
9.3.1D.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 2.2 Mbps UE class..
9.3.1D.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows table specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1D.1: Test parameters for fixed reference measurement channel requirements for 2.2 Mbps UE class
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
Test 5
Test 6
Test 7
Test 8
HS-PDSCH Modulation
-
QPSK
16QAM
Scrambling code and basic midamble code number*
-
1
Minimum
Common midamble
Number of TS**
-
4
Number of Hybrid ARQ processes
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..10
C(i,16)
i=1..12
Redundancy and constellation version coding sequence
-
{0,0,0,0}
{6,2,1,5}
dB
-10
-10.8
Ioc
dBm/
1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
**Note: The timeslot just after the second switch point should be included.
Table 9.3.1D.2: Minimum performance requirements for fixed reference measurement channel requirement in multipath channels for 2.2Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10
360
2
PB3
10
343
3
VA30
10
320
4
VA120
10
275
5
PA3
15
615
6
PB3
15
606
7
VA30
15
554
8
VA120
15
493
9.3.1D.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above for QPSK and 16QAM modulation.
9.3.1D.4 Method of test
9.3.1D.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 Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1D.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM): The information bit payload block is 3650 bits long. Hence the PRBSequence must be at least 3650 * 10 bits long. ) Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3, tables F.6.3.5.5 and F.6.3.5.6.
9.3.1D.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.1D.3 of test requirement.
Table 9.3.1D.3: Test requirements for fixed reference measurement channel requirement in multipath channels for 2.2Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10.6
360
2
PB3
10.6
343
3
VA30
10.6
320
4
VA120
10.6
275
5
PA3
15.6
615
6
PB3
15.6
606
7
VA30
15.6
554
8
VA120
15.6
493
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1E HS-DSCH throughput for Fixed Reference Channels 2.8 Mbps UE class QPSK/16QAM
9.3.1E.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 2.8 Mbps UE class..
9.3.1E.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows table specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1E.1: Test parameters for fixed reference measurement channel requirements for 2.8 Mbps UE class
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
Test 5
Test 6
Test 7
Test 8
HS-PDSCH Modulation
-
QPSK
16QAM
Scrambling code and basic midamble code number*
-
1
Midamble
Common midamble
Number of TS
-
5
Number of Hybrid ARQ processes
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..10
C(i,16)
i=1..12
Redundancy and constellation version coding sequence
-
{0,0,0,0}
{6,2,1,5}
dB
-10
-10.8
Ioc
dBm/
1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1E.2: Minimum performance requirements for fixed reference measurement channel requirement in multipath channels for 2.8Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10
461
2
PB3
10
470
3
VA30
10
438
4
VA120
10
409
5
PA3
15
890
6
PB3
15
810
7
VA30
15
730
8
VA120
15
630
9.3.1E.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above for QPSK and 16QAM modulation.
9.3.1E.4 Method of test
9.3.1E.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 Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1E.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM): The information bit payload block is 3650 bits long. Hence the PRBSequence must be at least 3650 * 10 bits long. ) Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3, tables F.6.3.5.7and F.6.3.5.8.
9.3.1E.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.1E.3 of test requirement.
Table 9.3.1E.3: Test requirements for fixed reference measurement channel requirement in multipath channels for 2.8Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10.6
461
2
PB3
10.6
470
3
VA30
10.6
438
4
VA120
10.6
409
5
PA3
15.6
890
6
PB3
15.6
810
7
VA30
15.6
730
8
VA120
15.6
630
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1F HS-DSCH throughput for Fixed Reference Channels Categories 16-18- 64QAM
The overall performance metric for HS-DSCH requirements is the throughput “R” measured on HS-DSCH.
9.3.1F.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 8 and later that support HSDPA UE capability categories 16 - 24.
9.3.1F.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows table specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1F.1: Test parameters for fixed reference measurement channel requirements for category 16-18 UE
Parameters
Unit
Test 1
(Category 16-18)
HS-PDSCH Modulation
-
64QAM
Scrambling code and basic midamble code number*
-
1
Number of TS
-
3
Number of Hybrid ARQ processes
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..14
Redundancy and constellation version coding sequence
-
{6,5,4,0}
dB
-11.46
Ioc
dBm/
1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1F.2: Minimum performance requirements for fixed reference measurement channel requirement in multipath channels for category 16-18 UE
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
18
660
9.3.1F.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above for 64QAM modulation.
9.3.1F.4 Method of test
9.3.1F.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 Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.6.
9.3.1F.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [25].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1F.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.1F.3 of test requirement.
Table 9.3.1F.3: Test requirements for fixed reference measurement channel requirement in multipath channels for category 16-18 UE
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
18.6
660
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1G HS-DSCH throughput for Fixed Reference Channels – Categories 19-21 64QAM
9.3.1G.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24], and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 8 and later that support HSDPA UE capability categories 19 - 21.
9.3.1G.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows table specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1G.1: Test parameters for fixed reference measurement channel requirements for category 19-21 UE
Parameters
Unit
Test 1
(Category 19-21)
HS-PDSCH Modulation
-
64QAM
Scrambling code and basic midamble code number*
-
1
Number of TS
-
4
Number of Hybrid ARQ processes
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..14
Redundancy and constellation version coding sequence
-
{6,5,4,0}
dB
-11.46
Ioc
dBm/
1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1G.2: Minimum performance requirements for fixed reference measurement channel requirement in multipath channels for category 19-21 UE
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
18
875
9.3.1G.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above for 64QAM modulation.
9.3.1G.4 Method of test
9.3.1G.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 Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.6.
9.3.1G.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [25].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1G.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.1G.3 of test requirement.
Table 9.3.1G.3: Test requirements for fixed reference measurement channel requirement in multipath channels for category 19-21 UE
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
18.6
875
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1H HS-DSCH throughput for Fixed Reference Channels – Categories 22-24 64QAM
9.3.1H.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24], and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 8 and later that support HSDPA UE capability categories 16 - 18.
9.3.1H.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows table specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1H.1: Test parameters for fixed reference measurement channel requirements for category 22-24 UE
Parameters
Unit
Test 1
(Category 22-24)
HS-PDSCH Modulation
-
64QAM
Scrambling code and basic midamble code number*
-
1
Number of TS
-
5
Number of Hybrid ARQ processes
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..14
Redundancy and constellation version coding sequence
-
{6,5,4,0}
dB
-11.46
Ioc
dBm/
1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1H.2: Minimum performance requirements for fixed reference measurement channel requirement in multipath channels for category 22-24 UE
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
18
1090
9.3.1H.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above for 64QAM modulation.
9.3.1H.4 Method of test
9.3.1H.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 Ack/Nack/ DTX handling at the SS as table 9.3.1A.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.6.
9.3.1H.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [25].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1H.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.1H.3 of test requirement.
The pass / fail decision for throughput is done according to Annex F.6.3.
Table 9.3.1H.3: Test requirements for fixed reference measurement channel requirement in multipath channels for category 22-24 UE
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
18.6
1090
9.3.1I HS-DSCH throughput for Fixed Reference Channels –MIMO UE Category 25
9.3.1I.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and tests for category25 apply to 1,28 Mcps TDD UEs from release 8 and later that MIMO is configured.
If MIMO is not configured, a category 25 UE should have the capability of category 18.
9.3.1I.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows tables specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1I.1: Test parameters for fixed reference measurement channels for Category 25 UE class
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
HS-PDSCH Modulation
-
QPSK
16QAM
Scrambling code and basic midamble code number*
-
0
Number of TS
-
3
Number of Hybrid ARQ processes per stream
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..16
C(i,16)
i=1..16
Redundancy and constellation version coding sequence
-
{0,0,0,0}
{6,2,1,5}
dB
-12.04
-12.04
Stream Number Configuration
-
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Ioc
dBm/ 1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1I.2: Performance requirements for fixed reference channels for Category 25 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10
390
2
PA3
6
160
3
PA3
16
860
4
PA3
12
370
9.3.1I.3 Test purpose
To verify that the MIMO configured UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, for QPSK and 16QAM modulation.
9.3.1I.4 Method of test
9.3.1I.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..11010a8
2) Set Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1I.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM): The information bit payload block is 3650 bits long. Hence the PRBSequence must be at least 3650 * 10 bits long. ) Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1I.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in tables above of test requirement.
Table 9.3.1I.3: Test requirements for fixed reference channels for Category 25 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10.6
390
2
PA3
6.6
160
3
PA3
16.6
860
4
PA3
12.6
370
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1J HS-DSCH throughput for Fixed Reference Channels –MIMO UE Category 26
9.3.1J.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and tests for category 26 apply to 1,28 Mcps TDD UEs from release 8 and later that MIMO is configured.
If MIMO is not configured, a category 26 UE should have the capability of category 21
9.3.1J.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows tables specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1J.1: Test parameters for fixed reference measurement channels for Category 26 UE class
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
HS-PDSCH Modulation
-
QPSK
16QAM
Scrambling code and basic midamble code number*
-
0
Number of TS
-
4
Number of Hybrid ARQ processes per stream
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..16
C(i,16)
i=1..16
Redundancy and constellation version coding sequence
-
{0,0,0,0}
{6,2,1,5}
dB
-12.04
-12.04
Stream Number Configuration
-
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Ioc
dBm/ 1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1J.2: Performance requirements for fixed reference channels for Category 26 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10
650
2
PA3
6
220
3
PA3
16
950
4
PA3
12
380
9.3.1J.3 Test purpose
To verify that the MIMO configured UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, for QPSK and 16QAM modulation.
9.3.1J.4 Method of test
9.3.1J.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.10aA.18
2) Set Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1J.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1J.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in tables above of test requirement.
Table 9.3.1J.3: Test requirements for fixed reference channels for Category 26 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10.6
650
2
PA3
6.6
220
3
PA3
16.6
950
4
PA3
12.6
380
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1K HS-DSCH throughput for Fixed Reference Channels –MIMO UE Category 27
9.3.1K.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and tests for category 27 apply to 1,28 Mcps TDD UEs from release 8 and later that MIMO is configured.
If MIMO is not configured, a category 27 UE should have the capability of category 24
9.3.1K.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows tables specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1K.1: Test parameters for fixed reference measurement channels for Category 27 UE class
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
HS-PDSCH Modulation
-
QPSK
16QAM
Scrambling code and basic midamble code number*
-
0
Number of TS
-
5
Number of Hybrid ARQ processes per stream
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..16
C(i,16)
i=1..16
Redundancy and constellation version coding sequence
-
{0,0,0,0}
{6,2,1,5}
dB
-12.04
-12.04
Stream Number Configuration
-
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Ioc
dBm/ 1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1K.2: Performance requirements for fixed reference channels for Category 27 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10
850
2
PA3
6
280
3
PA3
16
1200
4
PA3
12
500
9.3.1K.3 Test purpose
To verify that the MIMO configured UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, for QPSK and 16QAM modulation.
9.3.1K.4 Method of test
9.3.1K.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.10aA.18
2) Set Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1K.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1K.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in tables above of test requirement.
Table 9.3.1K.3: Test requirements for fixed reference channels for Category 27 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
10.6
850
2
PA3
6.6
280
3
PA3
16.6
1200
4
PA3
12.6
500
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1L HS-DSCH throughput for Fixed Reference Channels –MIMO UE Category 28
9.3.1L.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and tests for category 28 apply to 1,28 Mcps TDD UEs from release 8 and later that MIMO is configured.
9.3.1L.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows tables specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1L.1: Test parameters for fixed reference measurement channels for Category 28 UE class
Parameters
Unit
Test 1
Test 2
HS-PDSCH Modulation
-
64QAM
Scrambling code and basic midamble code number*
-
0
Number of TS
-
3
Number of Hybrid ARQ processes per stream
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..16
Redundancy and constellation version coding sequence
-
{6,5,4,0}
dB
-12.04
Stream Number Configuration
-
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Ioc
dBm/ 1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1L.2: Performance requirements for fixed reference channels for Category 28 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
20
800
2
PA3
18
540
9.3.1L.3 Test purpose
To verify that the MIMO configured UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, for 64QAM modulation.
9.3.1L.4 Method of test
9.3.1L.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.10aA.18
2) Set Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1L.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1L.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in tables above of test requirement.
Table 9.3.1L.3: Performance requirements for fixed reference channels for Category 28 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
20.6
800
2
PA3
18.6
540
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1M HS-DSCH throughput for Fixed Reference Channels –MIMO UE CategoriesCategory 29
9.3.1M.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and tests for category 29 apply to 1,28 Mcps TDD UEs from release 8 and later that MIMO is configured.
9.3.1M.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows tables specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1M.1: Test parameters for fixed reference measurement channels for Category 29 UE class
Parameters
Unit
Test 1
Test 2
HS-PDSCH Modulation
-
64QAM
Scrambling code and basic midamble code number*
-
0
Number of TS
-
4
Number of Hybrid ARQ processes per stream
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..16
Redundancy and constellation version coding sequence
-
{6,5,4,0}
dB
-12.04
Stream Number Configuration
-
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Ioc
dBm/ 1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1M.2: Performance requirements for fixed reference channels for Category 29 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
20
1200
2
PA3
18
780
9.3.1M.3 Test purpose
To verify that the MIMO configured UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, for 64QAM modulation.
9.3.1M.4 Method of test
9.3.1M.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.18
2) Set Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1M.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1M.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in tables above of test requirement.
Table 9.3.1M.3: Performance requirements for fixed reference channels for Category 28 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
20.6
1200
2
PA3
18.6
780
The pass / fail decision for throughput is done according to Annex F.6.3.
9.3.1N HS-DSCH throughput for Fixed Reference Channels –MIMO UE CategoriesCategory 30
9.3.1N.1 Definition and applicability
The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and tests for category 30 apply to 1,28 Mcps TDD UEs from release 8 and later that MIMO is configured.
9.3.1N.2 Minimum requirements
For the parameters specified in below tables the measured throughput shall be equal to or better than the the specified value in belows tables specified the performance requirement. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.1N.1: Test parameters for fixed reference measurement channels for Category 30 UE class
Parameters
Unit
Test 1
Test 2
HS-PDSCH Modulation
-
64QAM
Scrambling code and basic midamble code number*
-
0
Number of TS
-
5
Number of Hybrid ARQ processes per stream
-
4
Maximum number of Hybrid ARQ transmissions
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
i=1..16
Redundancy and constellation version coding sequence
-
{6,5,4,0}
dB
-12.04
Stream Number Configuration
-
Fixed Dual Stream
Fixed Single Stream
(2nd Stream is not used)
Ioc
dBm/ 1.28MHz
-60
*Note: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.1N.2: Performance requirements for fixed reference channels for Category 30 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
20
1570
2
PA3
18
1000
9.3.1N.3 Test purpose
To verify that the MIMO configured UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, for 64QAM modulation.
9.3.1N.4 Method of test
9.3.1N.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.18
2) Set Ack/Nack/ DTX handling at the SS as table 9.3.1.1,Setup fading simulators as fading conditions, which are described in table D.2.2.1.A.
3) Set up a HSDPA connection according to the Generic HSDPA setup procedure. See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
4) Set the test parameters according to above tables of test parameters. The configuration of the downlink channels is defined in table C.4.2.
9.3.1N.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
2) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
3) For all relevant propagation conditions,count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.1 and F.6.3.5.2.
9.3.1N.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in tables above of test requirement.
Table 9.3.1N.3: Performance requirements for fixed reference channels for Category 28 UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
20.6
1570
2
PA3
18.6
1000
The pass / fail decision for throughput is done according to Annex F.6.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.2 HS-DSCH throughput for Variable Reference Channels | The overall performance metric for HS-DSCH requirements is the throughput “R” measured on HS-DSCH.
9.3.2A HS-DSCH throughput for Variable Reference Channels 0.5 Mbps UE class
9.3.2A.1 Definition and applicability
The HS-DSCH data throughput for variable reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 0.5Mbps UE class.
9.3.2A.2 Minimum requirements
For the parameters specified in tables 9.3.2A.1 the measured throughput shall be equal to or better than the the specified value in table 9.3.2A.2. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.2A.1: Test parameters for variable reference measurement channel requirements for 0.5 Mbps UE class
Parameter
Unit
Test 1
Test 2
Test 3
HS-PDSCH Modulation and TBS
-
*
Scrambling code and basic midamble code Number **
-
1
Midamble
Common midamble
Number of TS****
-
2
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
Redundancy and constellation version coding sequence
Xrv
0
HS-PDSCH Channelization Codes**
C(k,Q)
C(i,16)
1i10
HS-PDSCHi_Ec/Ior
dB
-10
Ioc
dBm
-60
* Note 1 As requested by the last received CQI report
**Note 2 Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
***Note 3 If the indicated CQI is 0, the Node-B emulator shall format the next HS-PDSCH transmission with the transport block size and the modulation scheme that were previously used.
****Note: The timeslot just after the second switch point should be included.
Table 9.3.2A.2: Minimum performance requirements for variable reference measurement channel requirement in multipath channels for 0.5 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15
242
2
PB3
15
244
3
VA30
15
211
9.3.2A.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined in table 9.3.2A.1, with the selection of QPSK and 16QAM modulation, and appropriate blocksize being determined by the SS based on the CQI reported by the UE.
9.3.2A.4 Method of test
9.3.2A.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Setup fading simulators as fading conditions , which are described in table D.2.2.1.A.
4) Set up a HSDPA connection according to the Generic HSDPA setup procedure,See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
5) Set the test parameters for tests according to above tables of test paramters
6) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
9.3.2A.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63(the first HSDPA block size isn’t recorded),then SS will decode the CQI report and transmit a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.
2) For any HSDPA block transmitted by the SS, record transmitted block size and relevant received ACK, NACK and statDTX reported by UE. If UE reports ACK,the transmitted block is correctly received by UE.Continue transmission of the HS-PDSCH data and record transmitted block size until [2000] records have been reached.
3) For all relevant propagation conditions ,calculate the throughput, which is the ratio of the sum of correctly received transport bits over the testing time. [2000] multiplied by transmission time interval is the testing time.
9.3.2A.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.2A.3 of test requirement.
Table 9.3.2A.3: Test requirements for variable reference measurement channel requirement in multipath channels for 0.5 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15.6
242
2
PB3
15.6
244
3
VA30
15.6
211
9.3.2B HS-DSCH throughput for Variable Reference Channels 1.1 Mbps UE class
9.3.2B.1 Definition and applicability
The HS-DSCH data throughput for variable reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 1.1Mbps UE class.
9.3.2B.2 Minimum requirements
For the parameters specified in tables 9.3.2B.1 the measured throughput shall be equal to or better than the the specified value in table 9.3.2B.2. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.2B.1: Test parameters for variable reference measurement channel requirements for 1.1 Mbps UE class
Parameter
Unit
Test 1
Test 2
Test 3
HS-PDSCH Modulation and TBS
-
*
Scrambling code and basic midamble code Number **
-
1
Midamble
Common midamble
Number of TS****
-
2
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
Redundancy and constellation version coding sequence
Xrv
0
HS-PDSCH Channelization Codes**
C(k,Q)
C(i,16)
1i10
HS-PDSCHi_Ec/Ior
dB
-10
Ioc
dBm
-60
* Note 1 As requested by the last received CQI report
**Note 2 Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
***Note 3 If the indicated CQI is 0, the Node-B emulator shall format the next HS-PDSCH transmission with the transport block size and the modulation scheme that were previously used.
****Note: The timeslot just after the second switch point should be included.
Table 9.3.2B.2: Minimum performance requirements for variable reference measurement channel requirement in multipath channels for 1.1 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15
318
2
PB3
15
323
3
VA30
15
213
9.3.2B.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined in table 9.3.2B.1, with the selection of QPSK and 16QAM modulation, and appropriate blocksize being determined by the SS based on the CQI reported by the UE.
9.3.2B.4 Method of test
9.3.2B.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Setup fading simulators as fading conditions , which are described in table D.2.2.1.A.
4) Set up a HSDPA connection according to the Generic HSDPA setup procedure,See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
5) Set the test parameters for tests according to above tables of test paramters
6) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
9.3.2B.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63(the first HSDPA block size isn’t recorded),then SS will decode the CQI report and transmit a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.
2) For any HSDPA block transmitted by the SS, record transmitted block size and relevant received ACK, NACK and statDTX reported by UE. If UE reports ACK,the transmitted block is correctly received by UE.Continue transmission of the HS-PDSCH data and record transmitted block size until [2000] records have been reached.
3) For all relevant propagation conditions ,calculate the throughput, which is the ratio of the sum of correctly received transport bits over the testing time. [2000] multiplied by transmission time interval is the testing time.
9.3.2B.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.2B.3 of testrequirement.
Table 9.3.2B.3: Test requirements for variable reference measurement channel requirement in multipath channels for 1.1 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15.6
318
2
PB3
15.6
323
3
VA30
15.6
213
9.3.2C HS-DSCH throughput for Variable Reference Channels 1.6 Mbps UE class
9.3.2C.1 Definition and applicability
The HS-DSCH data throughput for variable reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 1.6Mbps UE class.
9.3.2C.2 Minimum requirements
For the parameters specified in tables 9.3.2C.1 the measured throughput shall be equal to or better than the the specified value in table 9.3.2C.2. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.2C.1: Test parameters for variable reference measurement channel requirements for 1.6 Mbps UE class
Parameter
Unit
Test 1
Test 2
Test 3
HS-PDSCH Modulation and TBS
-
*
Scrambling code and basic midamble code Number **
-
1
Midamble
Common midamble
Number of TS****
-
3
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
Redundancy and constellation version coding sequence
Xrv
0
HS-PDSCH Channelization Codes**
C(k,Q)
C(i,16)
1i10
HS-PDSCHi_Ec/Ior
dB
-10
Ioc
dBm
-60
* Note 1 As requested by the last received CQI report
**Note 2 Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
***Note 3 If the indicated CQI is 0, the Node-B emulator shall format the next HS-PDSCH transmission with the transport block size and the modulation scheme that were previously used.
****Note: The timeslot just after the second switch point should be included.
Table 9.3.2C.2: Minimum performance requirements for variable reference measurement channel requirement in multipath channels for 1.6 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15
480
2
PB3
15
483
3
VA30
15
323
9.3.2C.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined in table 9.3.2C.1, with the selection of QPSK and 16QAM modulation, and appropriate blocksize being determined by the SS based on the CQI reported by the UE.
9.3.2C.4 Method of test
9.3.2C.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Setup fading simulators as fading conditions , which are described in table D.2.2.1.A.
4) Set up a HSDPA connection according to the Generic HSDPA setup procedure,See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
5) Set the test parameters for tests according to above tables of test paramters
6) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
9.3.2C.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63(the first HSDPA block size isn’t recorded),then SS will decode the CQI report and transmit a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.
2) For any HSDPA block transmitted by the SS, record transmitted block size and relevant received ACK, NACK and statDTX reported by UE. If UE reports ACK,the transmitted block is correctly received by UE.Continue transmission of the HS-PDSCH data and record transmitted block size until [2000] records have been reached.
3) For all relevant propagation conditions ,calculate the throughput, which is the ratio of the sum of correctly received transport bits over the testing time. [2000] multiplied by transmission time interval is the testing time.
9.3.2C.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.2C.3 of testrequirement.
Table 9.3.2C.3: Test requirements for variable reference measurement channel requirement in multipath channels for 1.6 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15.6
480
2
PB3
15.6
483
3
VA30
15.6
323
9.3.2D HS-DSCH throughput for Variable Reference Channels 2.2 Mbps UE class
9.3.2D.1 Definition and applicability
The HS-DSCH data throughput for variable reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 2.2Mbps UE class.
9.3.2D.2 Minimum requirements
For the parameters specified in tables 9.3.2D.1 the measured throughput shall be equal to or better than the the specified value in table 9.3.2D.2. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.2D.1: Test parameters for variable reference measurement channel requirements for 2.2 Mbps UE class
Parameter
Unit
Test 1
Test 2
Test 3
HS-PDSCH Modulation and TBS
-
*
Scrambling code and basic midamble code Number **
-
1
Midamble
Common midamble
Number of TS****
-
4
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
Redundancy and constellation version coding sequence
Xrv
0
HS-PDSCH Channelization Codes**
C(k,Q)
C(i,16)
1i10
HS-PDSCHi_Ec/Ior
dB
-10
Ioc
dBm
-60
* Note 1 As requested by the last received CQI report
**Note 2 Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
***Note 3 If the indicated CQI is 0, the Node-B emulator shall format the next HS-PDSCH transmission with the transport block size and the modulation scheme that were previously used.
****Note: The timeslot just after the second switch point should be included.
Table 9.3.2D.2: Minimum performance requirements for variable reference measurement channel requirement in multipath channels for 2.2 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15
625
2
PB3
15
631
3
VA30
15
418
9.3.2D.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined in table 9.3.2D.1, with the selection of QPSK and 16QAM modulation, and appropriate blocksize being determined by the SS based on the CQI reported by the UE.
9.3.2D.4 Method of test
9.3.2D.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Setup fading simulators as fading conditions , which are described in table D.2.2.1.A.
4) Set up a HSDPA connection according to the Generic HSDPA setup procedure,See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
5) Set the test parameters for tests according to above tables of test paramters
6) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
9.3.2D.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63(the first HSDPA block size isn’t recorded),then SS will decode the CQI report and transmit a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.
2) For any HSDPA block transmitted by the SS, record transmitted block size and relevant received ACK, NACK and statDTX reported by UE. If UE reports ACK,the transmitted block is correctly received by UE.Continue transmission of the HS-PDSCH data and record transmitted block size until [2000] records have been reached.
3) For all relevant propagation conditions ,calculate the throughput, which is the ratio of the sum of correctly received transport bits over the testing time. [2000] multiplied by transmission time interval is the testing time.
9.3.2D.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.2D.3 of testrequirement.
Table 9.3.2D.3: Test requirements for variable reference measurement channel requirement in multipath channels for 2.2 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15.6
625
2
PB3
15.6
631
3
VA30
15.6
418
9.3.2E HS-DSCH throughput for Variable Reference Channels 2.8 Mbps UE class
9.3.2E.1 Definition and applicability
The HS-DSCH data throughput for variable reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 2.2Mbps UE class.
9.3.2E.2 Minimum requirements
For the parameters specified in tables 9.3.2E.1 the measured throughput shall be equal to or better than the the specified value in table 9.3.2E.2. The reference for this requirement is TS 25.102 [1] section 9.
Table 9.3.2E.1: Test parameters for variable reference measurement channel requirements for 2.8 Mbps UE class
Parameter
Unit
Test 1
Test 2
Test 3
HS-PDSCH Modulation and TBS
-
*
Scrambling code and basic midamble code Number **
-
1
Midamble
Common midamble
Number of TS
-
5
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
Redundancy and constellation version coding sequence
Xrv
0
HS-PDSCH Channelization Codes**
C(k,Q)
C(i,16)
1i10
HS-PDSCHi_Ec/Ior
dB
-10
Ioc
dBm
-60
* Note 1 As requested by the last received CQI report
**Note 2 Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
***Note 3 If the indicated CQI is 0, the Node-B emulator shall format the next HS-PDSCH transmission with the transport block size and the modulation scheme that were previously used.
Table 9.3.2E.2: Minimum performance requirements for variable reference measurement channel requirement in multipath channels for 2.8 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15
783
2
PB3
15
792
3
VA30
15
544
9.3.2E.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined in table 9.3.2E.2, with the selection of QPSK and 16QAM modulation, and appropriate blocksize being determined by the SS based on the CQI reported by the UE.
9.3.2E.4 Method of test
9.3.2E.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Setup fading simulators as fading conditions , which are described in table D.2.2.1.A.
4) Set up a HSDPA connection according to the Generic HSDPA setup procedure,See TS 34.108 [3] and TS 34.109 [4] for details regarding generic HSDPA setup procedure.
5) Set the test parameters for tests according to above tables of test paramters
6) The information bit data shall be pseudo random and not repeated not before 10 different information bit payload blocks are processed. Use a PRBS from ITU-R O.153 Ref [26].
9.3.2E.4.2 Procedure
1) Once the HSDPA connection is setup, start transmitting HSDPA Data.
The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63(the first HSDPA block size isn’t recorded),then SS will decode the CQI report and transmit a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.
2) For any HSDPA block transmitted by the SS, record transmitted block size and relevant received ACK, NACK and statDTX reported by UE. If UE reports ACK,the transmitted block is correctly received by UE.Continue transmission of the HS-PDSCH data and record transmitted block size until [2000] records have been reached.
3) For all relevant propagation conditions ,calculate the throughput, which is the ratio of the sum of correctly received transport bits over the testing time. [2000] multiplied by transmission time interval is the testing time.
9.3.2E.5 Test Requirements
Tables of test parameters define the primary level settings including test tolerance for all relevant throughput tests. the measured throughput shall be equal to or better than the the specified value in table 9.3.2E.3 of testrequirement.
Table 9.3.2E.3: Test requirements for variable reference measurement channel requirement in multipath channels for 2.8 Mbps UE class
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
15.6
783
2
PB3
15.6
792
3
VA30
15.6
544 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.3 Reporting of HS-DSCH Channel Quality Indicator | 9.3.3A Reporting of HS-DSCH Channel Quality Indicator-0.5Mbps UE class
9.3.3A.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 0.5 Mbps UE class.
9.3.3A.2 Minimum requirements
For the parameters specified in tables 9.3.3.1 the UE shall report a CQI value within the limits of table 9.3.3A.2.
Table 9.3.3A.1: Test parameters for CQI reporting measurement channel requirements for 0.5Mbps UE class
0.5Mbps UE
Parameter
Unit
Test 1
Number of TS
-
2
Number of HS-PDSCH codes per TS
-
10
HS-PDSCHi_Ec/Ior
dB
-10
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
1i10
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
dB
1
Table 9.3.3A.2 Performance requirements for CQI reporting measurement channel requirements for 0.5Mbps UE class
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 3
90
10%
9.3.3A.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, such that CQI reported by the UE falls within the acceptable range.
9.3.3A.4 Method of test
9.3.3A.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 and an AWGN source to the UE antenna connector as shown in figure A.9.
2) Set Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
Note: The following value of x is derived from Table 9.3.3A.2
9.3.3A.4.2 Procedure
1) Set test conditions according to test 1 according table 9.3.3A.1.
Note: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
9.3.3A.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3A.4.2.
No test tolerance is applied to the test parameters.
9.3.3B Reporting of HS-DSCH Channel Quality Indicator-1.1Mbps UE class
9.3.3B.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 1.1 Mbps UE class..
9.3.3B.2 Minimum requirements
For the parameters specified in tables 9.3.3B.1 the UE shall report a CQI value within the limits of table 9.3.3B.2.
Table 9.3.3B.1: Test parameters for CQI reporting measurement channel requirements for 1.1Mbps UE class
1.1Mbps UE
Parameter
Unit
Test 1
Test 2
Number of TS
-
2
Number of HS-PDSCH codes per TS
-
10
HS-PDSCHi_Ec/Ior
dB
-10
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
1i10
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
dB
1
8
Table 9.3.3B.2 Performance requirements for CQI reporting measurement channel requirements for 1.1Mbps U E class
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 3
90
10%
Test 2
+/- 2
90
9.3.3B.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, such that CQI reported by the UE falls within the acceptable range.
9.3.3B.4 Method of test
9.3.3B.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
Note: The following value of x is derived from Table 9.3.3B.2
9.3.3B.4.2 Procedure
1) Set test conditions according to test 1 according table 9.3.3B.1.
Note: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
6) Repeat the same procedure (steps 2 to 5) with test conditions according to the table 9.3.3B.1.
9.3.3B.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3B.4.2.
No test tolerance is applied to the test parameters.
9.3.3C Reporting of HS-DSCH Channel Quality Indicator-1.6Mbps UE class
9.3.3C.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 1.6 Mbps UE class..
9.3.3C.2 Minimum requirements
For the parameters specified in tables 9.3.3C.1 the UE shall report a CQI value within the limits of table 9.3.3C.2.
Table 9.3.3C.1: Test parameters for CQI reporting measurement channel requirements for 1.6Mbps UE class
1.6Mbps UE
Parameter
Unit
Test 1
Test 2
Number of TS
-
3
Number of HS-PDSCH codes per TS
-
10
HS-PDSCHi_Ec/Ior
dB
-10
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
1i10
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
dB
1
8
Table 9.3.3C.2 Performance requirements for CQI reporting measurement channel requirements for 1.6Mbps U E class
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
Test 2
+/- 2
90
9.3.3C.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, such that CQI reported by the UE falls within the acceptable range.
9.3.3C.4 Method of test
9.3.3C.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
Note: The following value of x is derived from Table 9.3.3C.2
9.3.3C.4.2 Procedure
1) Set test conditions according to test 1 according table 9.3.3C.1.
Note: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
6) Repeat the same procedure (steps 2 to 5) with test conditions according to the table 9.3.3C.1.
9.3.3C.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3C.4.2.
No test tolerance is applied to the test parameters.
9.3.3D Reporting of HS-DSCH Channel Quality Indicator-2.2Mbps UE class
9.3.3D.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 2.2 Mbps UE class..
9.3.3D.2 Minimum requirements
For the parameters specified in tables 9.3.3D.1 the UE shall report a CQI value within the limits of table 9.3.3D.2.
Table 9.3.3D.1: Test parameters for CQI reporting measurement channel requirements for 2.2Mbps UE class
1.6Mbps UE
Parameter
Unit
Test 1
Test 2
Number of TS
-
4
Number of HS-PDSCH codes per TS
-
10
HS-PDSCHi_Ec/Ior
dB
-10
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
1i10
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
dB
1
8
Table 9.3.3D.2 Performance requirements for CQI reporting measurement channel requirements for 2.2Mbps U E class
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
Test 2
+/- 2
90
9.3.3D.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, such that CQI reported by the UE falls within the acceptable range.
9.3.3D.4 Method of test
9.3.3D.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
Note: The following value of x is derived from Table 9.3.3D.2
9.3.3D.4.2 Procedure
1) Set test conditions according to test 1 according table 9.3.3D.1.
Note: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
6) Repeat the same procedure (steps 2 to 5) with test conditions according to the table 9.3.3D.1.
9.3.3D.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3D.4.2.
No test tolerance is applied to the test parameters.
9.3.3E Reporting of HS-DSCH Channel Quality Indicator-2.8Mbps UE class
9.3.3E.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA which is 2.8 Mbps UE class..
9.3.3E.2 Minimum requirements
For the parameters specified in tables 9.3.3E.1 the UE shall report a CQI value within the limits of table 9.3.3E.2.
Table 9.3.3E.1: Test parameters for CQI reporting measurement channel requirements for 2.8Mbps UE class
2.2Mbps UE
Parameter
Unit
Test 1
Test 2
Number of TS
-
5
Number of HS-PDSCH codes per TS
-
10
HS-PDSCHi_Ec/Ior
dB
-10
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
1i10
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
dB
1
8
Table 9.3.3E.2 Performance requirements for CQI reporting measurement channel requirements for 2.8Mbps U E class
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
Test 2
+/- 2
90
9.3.3E.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, such that CQI reported by the UE falls within the acceptable range.
9.3.3E.4 Method of test
9.3.3E.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
Note: The following value of x is derived from Table 9.3.3E.2
9.3.3E.4.2 Procedure
1) Set test conditions according to test 1 according table 9.3.3E.1.
Note: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
6) Repeat the same procedure (steps 2 to 5) with test conditions according to the table 9.3.3E.1.
9.3.3E.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3E.4.2.
No test tolerance is applied to the test parameters.
9.3.3F Reporting of HS-DSCH Channel Quality Indicator – 64QAM UE capability categories 16 - 18
9.3.3F.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 8 and later that support HSDPA UE capability categories 16 - 18.
9.3.3F.2 Minimum requirements
For the parameters specified in tables 9.3.3A.1 the UE shall report a CQI value within the limits of table 9.3.3F.2.
Table 9.3.3F.1: Test parameters for CQI reporting measurement channel requirements for UE capability categories 16 - 18
Category
16-18
Parameter
Unit
Test 1
Number of TS
-
3
Number of HS-PDSCH codes per TS
-
14
HS-PDSCHi_Ec/Ior
dB
-11.46
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
1i14
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
Ioc**
dBm/1.28MHz
-60
dB
18
Propagation
Channel
-
AWGN
*Note 1: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
**Note 2: For multi-carrier reception, it refers to on each carrier.
Table 9.3.3F.2: Performance requirements for CQI reporting measurement channel requirements for UE capability categories 16 - 18
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
9.3.3F.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, such that CQI reported by the UE falls within the acceptable range.
9.3.3F.4 Method of test
9.3.3F.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
NOTE: The following value of x is derived from Table 9.3.3F.2
9.3.3F.4.2 Procedure
1) Set test conditions according to test 1 according table 9.3.3F.1.
NOTE: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
9.3.3F.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3F.4.2.
No test tolerance is applied to the test parameters.
9.3.3G Reporting of HS-DSCH Channel Quality Indicator – 64QAM UE capability categories 19 - 21
9.3.3G.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 8 and later that support HSDPA UE capability categories 19 - 21.
9.3.3G.2 Minimum requirements
For the parameters specified in tables 9.3.3G.1 the UE shall report a CQI value within the limits of table 9.3.3G.2.
Table 9.3.3G.1: Test parameters for CQI reporting measurement channel requirements for UE capability categories 19 - 21
Category
19-21
Parameter
Unit
Test 1
Number of TS
-
4
Number of HS-PDSCH codes per TS
-
14
HS-PDSCHi_Ec/Ior
dB
-11.46
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
1i14
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
Ioc**
dBm/1.28MHz
-60
dB
18
Propagation
Channel
-
AWGN
*Note 1: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
**Note 2: For multi-carrier reception, it refers to on each carrier.
Table 9.3.3G.2: Performance requirements for CQI reporting measurement channel requirements for UE capability categories 19 - 21
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
9.3.3G.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, such that CQI reported by the UE falls within the acceptable range.
9.3.3G.4 Method of test
9.3.3G.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
NOTE: The following value of x is derived from Table 9.3.3G.2
9.3.3G.4.2 Procedure
1) Set test conditions according to test 1 according table 9.3.3G.1.
NOTE: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
9.3.3G.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3G.4.2.
No test tolerance is applied to the test parameters.
9.3.3H Reporting of HS-DSCH Channel Quality Indicator – 64QAM UE capability categories 22 - 24
9.3.3H.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [1], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 8 and later that support HSDPA UE capability categories 22 - 24.
9.3.3H.2 Minimum requirements
For the parameters specified in tables 9.3.3H.1 the UE shall report a CQI value within the limits of table 9.3.3H.2.
Table 9.3.3H.1: Test parameters for CQI reporting measurement channel requirements for UE capability categories 22 - 24
Category
22-24
Parameter
Unit
Test 1
Number of TS
-
5
Number of HS-PDSCH codes per TS
-
14
HS-PDSCHi_Ec/Ior
dB
-11.46
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,16)
1i14
Number of DPCHo
-
0
Number of HARQ Process
-
4
Number of transmission
-
1
Ioc**
dBm/1.28MHz
-60
dB
18
Propagation
Channel
-
AWGN
*Note 1: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
**Note 2: For multi-carrier reception, it refers to on each carrier.
Table 9.3.3H.2: Performance requirements for CQI reporting measurement channel requirements for UE capability categories 22 - 24
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
9.3.3H.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, such that CQI reported by the UE falls within the acceptable range.
9.3.3H.4 Method of test
9.3.3H.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 Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
NOTE: The following value of x is derived from Table 9.3.3H.2
9.3.3H.4.2 Procedure
1) Set test conditions according to test 1 according table 9.3.3H.1.
NOTE: the following part of the procedure will test, if the UE reports a limited range of CQI indicator under the predefined channel conditions.
2) The SS shall transmit a HSDPA block to UE selecting any TBS value excluding 0 or 63,then SS will decodes the CQI report and transmits a new block on the HS-DSCH with the transport block size and modulation scheme recommended by the UE.For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side). This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
9.3.3H.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3H.4.2.
No test tolerance is applied to the test parameters.
9.3.3I Reporting of HS-DSCH Channel Quality Indicator – category 25 MIMO
9.3.3I.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN and static orthogonal environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [21], section 9.
The requirements and this test apply to 1,28 Mcps TDD MIMO capable UEs category 25 from release 8 and later.
9.3.3I.2 Minimum requirements
For the parameters specified in tables 9.3.3I.1 the UE categories 25 shall report a CQI value within the limits of table 9.3.3I.2.
The MIMO dual stream static orthogonal propagation conditions are defined in Annex D.2.5.1. For UE supporting Spreading Factor 1 only in dual stream transmission, the number of HS-PDSCH codes per TS should be configured to 1 in dual stream transmission, and the HS-PDSCHi_Ec/Ior should be 0dB.
Table 9.3.3I.1: Test parameters for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Category 25
Parameter
Unit
Test 1
Test 2
Number of TS
-
3
Number of HS-PDSCH codes per TS
-
16
Number of HS-PDSCH codes per TS
-
16
HS-PDSCHi_Ec/Ior
dB
-12.04
HS-PDSCH Channelization Codes
C(k,Q)
C(i,16)
1i16
Number of DPCHo
-
0
Number of HARQ Process per stream
-
4
Number of transmission
-
1
Ioc
dBm
-60
dB
8
10
Stream Number
configuration
-
Single
Stream
Dual
Stream
Propagation Channel
-
AWGN
Static Orthogonal
Table 9.3.3I.2: Performance requirements for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
Test 2
+/- 2
90
9.3.3I.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above, such that CQI reported by the UE falls within the acceptable range.
9.3.3I.4 Method of test
9.3.3I.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.18
2) Set Ack/Nack/DTX handling at the SS such that regardless of the response from the UE (Ack, Nack or DTX) new data is sent each time, this is because HARQ transmissions are set to one, i.e. no re-transmission of failed blocks.
3) Set up a call according to the Generic call setup procedure.
See TS 34.108 [3] and TS 34.109 [4] for details regarding generic call setup procedure.
9.3.3I.4.2 Procedure
For test 1, the test procedure is as followed:
1) Set test conditions according to test 1 according table 9.3.3I.1.
2) The SS shall transmit a HSDPA block on one antenna to UE, selecting any TBS value excluding 0 or 63, then SS will decodes CQI report and transmits a new block on HS-DSCH with the transport block size and modulation scheme recommended by the UE on the other antenna. For any HSDPA block transmitted by the SS, record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of the HS-PDSCH data and collect RTBS value of CQI until [2000] reports have been gathered.
3) Set up a relative frequency distribution for the RTBS value of CQI indicator reported. Calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side) . This RTBS value of CQI indicator is declared as Median CQI value,
4) If [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI - x) ≤ Median CQI ≤ ( Median CQI + x) then continue with next step , otherwise fail the UE.
5) Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
For test 2, the test procedure is as followed:
1) Set test conditions according to test 1 according table 9.3.3I.1.
2) The SS shall transmit two streams on each antenna to UE, each with a sequence of HSDPA blocks. For each stream, SS firstly transmit a HSDPA block, selecting any TBS value excluding 0 or 63, then SS will decodes CQI report and transmits a new block on HS-DSCH with the transport block size and modulation scheme recommended by the UE. For any HSDPA block transmition, the SS shall record the received RTBS value of CQI indicator and the ACK, NACK and statDTX . Continue transmission of each streams of HS-PDSCH data and collect RTBS value of CQI until [2000] reports for this stream have been gathered.
3) For each stream, the SS set up a relative frequency distribution for the RTBS value of CQI indicator reported, then calculate the median value (Median RTBS is the RTBS that is at or crosses 50% distribution from the lower RTBS side) for this stream. This RTBS value of CQI indicator is declared as Median CQI-stream value,
4) For each stream, if [1800] or more of the RTBS value of CQI indicator are in the range (Median CQI-stream - x) ≤ Median CQI-stream ≤ ( Median CQI-stream + x) then continue with next step , otherwise fail the UE.
5) For each stream, Calculate the the ratio ( NACK + statDTX / ACK + NACK + statDTX) when the SS transmit the TBS according to the median-CQI-stream value.If the ratio< 0.1 ,then pass the UE,otherwise fail the UE.
9.3.3I.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3I.4.2.
No test tolerance is applied to the test parameters.
9.3.3J Reporting of HS-DSCH Channel Quality Indicator – category 26 MIMO
9.3.3J.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN and static orthogonal environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [21], section 9.
The requirements and this test apply to 1,28 Mcps TDD MIMO capable UEs category 26 from release 8 and later.
9.3.3J.2 Minimum requirements
For the parameters specified in tables 9.3.3J.1 the UE categories 26 shall report a CQI value within the limits of table 9.3.3J.2.
The MIMO dual stream static orthogonal propagation conditions are defined in Annex D.2.5.1. For UE supporting Spreading Factor 1 only in dual stream transmission, the number of HS-PDSCH codes per TS should be configured to 1 in dual stream transmission, and the HS-PDSCHi_Ec/Ior should be 0dB.
Table 9.3.3J.1: Test parameters for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Category 26
Parameter
Unit
Test 1
Test 2
Number of TS
-
4
Number of HS-PDSCH codes per TS
-
16
Number of HS-PDSCH codes per TS
-
16
HS-PDSCHi_Ec/Ior
dB
-12.04
HS-PDSCH Channelization Codes
C(k,Q)
C(i,16)
1i16
Number of DPCHo
-
0
Number of HARQ Process per stream
-
4
Number of transmission
-
1
Ioc
dBm
-60
dB
8
10
Stream Number
configuration
-
Single
Stream
Dual
Stream
Propagation Channel
-
AWGN
Static Orthogonal
Table 9.3.3J.2: Performance requirements for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
Test 2
+/- 2
90
9.3.3J.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above, such that CQI reported by the UE falls within the acceptable range.
9.3.3J.4 Method of test
9.3.3J.4.1 Initial conditions
<FFS> According to 9.3.3I
9.3.3J.4.2 Procedure
<FFS> According to 9.3.3I
9.3.3J.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3J.4.2.
No test tolerance is applied to the test parameters.
9.3.3K Reporting of HS-DSCH Channel Quality Indicator – category 27 MIMO
9.3.3K.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN and static orthogonal environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [21], section 9.
The requirements and this test apply to 1,28 Mcps TDD MIMO capable UEs category 27 from release 8 and later.
9.3.3K.2 Minimum requirements
For the parameters specified in tables 9.3.3K.1 the UE categories 27 shall report a CQI value within the limits of table 9.3.3K.2.
The MIMO dual stream static orthogonal propagation conditions are defined in Annex D.2.5.1. For UE supporting Spreading Factor 1 only in dual stream transmission, the number of HS-PDSCH codes per TS should be configured to 1 in dual stream transmission, and the HS-PDSCHi_Ec/Ior should be 0dB.
Table 9.3.3K.1: Test parameters for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Category 27
Parameter
Unit
Test 1
Test 2
Number of TS
-
5
Number of HS-PDSCH codes per TS
-
16
Number of HS-PDSCH codes per TS
-
16
HS-PDSCHi_Ec/Ior
dB
-12.04
HS-PDSCH Channelization Codes
C(k,Q)
C(i,16)
1i16
Number of DPCHo
-
0
Number of HARQ Process per stream
-
4
Number of transmission
-
1
Ioc
dBm
-60
dB
8
10
Stream Number
configuration
-
Single
Stream
Dual
Stream
Propagation Channel
-
AWGN
Static Orthogonal
Table 9.3.3K.2: Performance requirements for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/-2
90
10%
Test 2
+/-2
90
9.3.3K.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above, such that CQI reported by the UE falls within the acceptable range.
9.3.3K.4 Method of test
9.3.3K.4.1 Initial conditions
<FFS> According to 9.3.3I
9.3.3K.4.2 Procedure
<FFS> According to 9.3.3I
9.3.3K.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3K.4.2.
No test tolerance is applied to the test parameters.
9.3.3L Reporting of HS-DSCH Channel Quality Indicator – category 28 MIMO
9.3.3L.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN and static orthogonal environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [21], section 9.
The requirements and this test apply to 1,28 Mcps TDD MIMO capable UEs category 28 from release 8 and later.
9.3.3L.2 Minimum requirements
For the parameters specified in tables 9.3.3L.1 the UE categories 28 shall report a CQI value within the limits of table 9.3.3L.2.
The MIMO dual stream static orthogonal propagation conditions are defined in Annex D.2.5.1. For UE supporting Spreading Factor 1 only in dual stream transmission, the number of HS-PDSCH codes per TS should be configured to 1 in dual stream transmission, and the HS-PDSCHi_Ec/Ior should be 0dB.
Table 9.3.3L.1: Test parameters for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Category 28
Parameter
Unit
Test 1
Test 2
Number of TS
-
3
Number of HS-PDSCH codes per TS
-
16
Number of HS-PDSCH codes per TS
-
16
HS-PDSCHi_Ec/Ior
dB
-12.04
HS-PDSCH Channelization Codes
C(k,Q)
C(i,16)
1i16
Number of DPCHo
-
0
Number of HARQ Process per stream
-
4
Number of transmission
-
1
Ioc
dBm
-60
dB
16
18
Stream Number
-
Single
Stream
Dual
Stream
Propagation Channel
-
AWGN
Static Orthogonal
Table 9.3.3L.2: Performance requirements for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
Test 2
+/- 2
90
9.3.3L.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above, such that CQI reported by the UE falls within the acceptable range.
9.3.3L.4 Method of test
9.3.3L.4.1 Initial conditions
<FFS> According to 9.3.3I
9.3.3L.4.2 Procedure
<FFS> According to 9.3.3I
9.3.3L.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3L.4.2.
No test tolerance is applied to the test parameters.
9.3.3M Reporting of HS-DSCH Channel Quality Indicator – category 29 MIMO
9.3.3M.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN and static orthogonal environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [21], section 9.
The requirements and this test apply to 1,28 Mcps TDD MIMO capable UEs category 29 from release 8 and later.
9.3.3M.2 Minimum requirements
For the parameters specified in tables 9.3.3M.1 the UE categories 29 shall report a CQI value within the limits of table 9.3.3M.2.
The MIMO dual stream static orthogonal propagation conditions are defined in Annex D.2.5.1. For UE supporting Spreading Factor 1 only in dual stream transmission, the number of HS-PDSCH codes per TS should be configured to 1 in dual stream transmission, and the HS-PDSCHi_Ec/Ior should be 0dB.
Table 9.3.3M.1: Test parameters for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Category 29
Parameter
Unit
Test 1
Test 2
Number of TS
-
4
Number of HS-PDSCH codes per TS
-
16
Number of HS-PDSCH codes per TS
-
16
HS-PDSCHi_Ec/Ior
dB
-12.04
HS-PDSCH Channelization Codes
C(k,Q)
C(i,16)
1i16
Number of DPCHo
-
0
Number of HARQ Process per stream
-
4
Number of transmission
-
1
Ioc
dBm
-60
dB
16
18
Stream Number
-
Single
Stream
Dual
Stream
Propagation Channel
-
AWGN
Static Orthogonal
Table 9.3.3M.2: Performance requirements for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
Test 2
+/- 2
90
9.3.3M.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above, such that CQI reported by the UE falls within the acceptable range.
9.3.3M.4 Method of test
9.3.3M.4.1 Initial conditions
<FFS> According to 9.3.3I
9.3.3M.4.2 Procedure
<FFS> According to 9.3.3I
9.3.3M.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3M.4.2.
No test tolerance is applied to the test parameters.
9.3.3N Reporting of HS-DSCH Channel Quality Indicator – category 30 MIMO
9.3.3N.1 Definition and applicability
The reporting accuracy of channel quality indicator (CQI) under AWGN and static orthogonal environments is determined by the reporting variance and the BLER performance using the transport format indicated by the reported CQI median. The CQI is measured while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [21], section 9.
The requirements and this test apply to 1,28 Mcps TDD MIMO capable UEs category 30 from release 8 and later.
9.3.3N.2 Minimum requirements
For the parameters specified in tables 9.3.3L.1 the UE categories 30 shall report a CQI value within the limits of table 9.3.3L.2.
The MIMO dual stream static orthogonal propagation conditions are defined in Annex D.2.5.1. For UE supporting Spreading Factor 1 only in dual stream transmission, the number of HS-PDSCH codes per TS should be configured to 1 in dual stream transmission, and the HS-PDSCHi_Ec/Ior should be 0dB.
Table 9.3.3N.1: Test parameters for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Category 30
Parameter
Unit
Test 1
Test 2
Number of TS
-
5
Number of HS-PDSCH codes per TS
-
16
Number of HS-PDSCH codes per TS
-
16
HS-PDSCHi_Ec/Ior
dB
-12.04
HS-PDSCH Channelization Codes
C(k,Q)
C(i,16)
1i16
Number of DPCHo
-
0
Number of HARQ Process per stream
-
4
Number of transmission
-
1
Ioc
dBm
-60
dB
16
18
Stream Number
-
Single
Stream
Dual
Stream
Propagation Channel
-
AWGN
Static Orthogonal
Table 9.3.3N.2: Performance requirements for CQI reporting measurement channel requirements (1.28 Mcps TDD Option)
Test
Permitted CQI range from median (x)
% of time that CQI must be within +/- x of median (Y)
Maximum BLER for median reported CQI
Test 1
+/- 2
90
10%
Test 2
+/- 2
90
9.3.3N.3 Test purpose
To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined above, such that CQI reported by the UE falls within the acceptable range.
9.3.3N.4 Method of test
9.3.3N.4.1 Initial conditions
<FFS> According to 9.3.3I
9.3.3N.4.2 Procedure
<FFS> According to 9.3.3I
9.3.3N.5 Test Requirements
The pass fail decision as specified in the test procedure in 9.3.3N.4.2.
No test tolerance is applied to the test parameters. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.4 HS-SCCH Detection Performance | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.4.1 Definition and applicability | The detection performance of the HS-SCCH is determined by the probability of event Em, which is declared when the UE is signaled on HS-SCCH, but DTX is observed in the corresponding HS-SICH ACK/NACK field. The probability of event Em is denoted P(Em).
This corresponds to case when the SS indicates to the UE via the HS-SCCH that HSDPA data is to be sent, but the UE fails to decode this correctly.
The normative reference for this test is 25.102 [2], section 9.
The requirements and this test apply to 1,28 Mcps TDD UE from release 5 and later that support HSDPA. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.4.2 Minimum requirements | For the parameters specified in tables 9.3.4.1, for each value of HS-SCCH specified in Table 9.3.4.3 the measured P(Em) shall be less than or equal to the corresponding specified value of P(Em). The reference for this requirement is TS 25.102 [1] section 9. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.4.3 Test purpose | To verify that the UE receiver is capable meeting the minimum requirements for support of HSDPA in the conditions defined below, and does not report a DTX when valid data was sent, more often than the performance limits allow.
Table 9.3.4.1: Test parameters for HS-SCCH detection (1.28Mcps TDD option)
Parameter
Unit
Test 1
Test2
Number of TS under test
-
1
Number of HS-SCCH codes per timeslot
-
8 (4 x2)
Scrambling code and basic midamble code number*
-
0
Midamble
Common midamble
Number of DPCHo
-
2
Number of H-ARQ process
-
4
HS-SCCH UE Identity
(,, …, )
-
UE1 = 0000000000000000
(UE1 under test)
UE2 = 0101010101010101
UE3 = 1010101010101010
UE4 = 1111111111111111
HS-SCCH Channelization Codes*
C(k,Q)
C(i,16)
1i8
HS-SCCH Channelization Codes for UE under test
C(k,Q)
C(i,16)
1i2
DPCHo Channelization Codes
C(k,Q)
C(i,16)
9i10
dB
-10
Ioc
dBm/1.28MHz
-60
Note *: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Table 9.3.4.2: Test parameters for HS-PDSCH (1.28Mcps TDD option)
Parameter
Unit
Test 1
Test2
Number of TS under test
-
2
Number of HS-PDSCH codes per timeslot
-
10
Scrambling code and basic midamble code number*
-
0
HS-PDSCH Channelization Codes for UE under test
C(k,Q)
C(i,16)
1i10
dB
-10
Ioc
dBm/1.28MHz
-60
dB
**
Note *: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Note **: Allocate a sufficient power to so that probability of missing HS-DPSCH is very low.
Table 9.3.4.3: Minimum requirement for HS-SCCH detection (1.28Mcps TDD option)
Test Number
Propagation Conditions
(dB)
1
PA3
16
0.01
2
VA30
12
0.01
The propagation conditions are described in Annex D. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.4.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.4.4.1 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 Ack/Nack handling at the SS as table 9.3.1.1 (Fixed channel test)
3) Set up test parameter according to table 9.3.4.1 and able 9.3.4.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.4.4.2 Procedure | 1. The UE is switched on.
2. An RRC connection is set-up according to the generic HSDPA set-up procedure specified in TS 34.108 [3].
3. Count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.1 and table F.6.1.8. NACK and ACK are counted as a pass and statDTX is counted as a failure. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.3.4.5 Test Requirements | The probability of event Em denoted as P(Em) (test procedure step 3) shall not exceed the specified value in table 9.3.4.4.
Table 9.3.4.4: Test requirement for HS-SCCH detection (1.28Mcps TDD option)
Test Number
Propagation Conditions
(dB)
1
PA3
16.6
0.01
2
VA30
12.6
0.01 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4 Performance requirement for 7.68 Mcps TDD option | During the Fixed Reference Channel tests the behaviour of the Node-B emulator in response to the ACK/NACK signalling field of the HS-DPCCH is specified in Table 9.4.1:
Table 9.4.1: Node-B Emulator Behaviour in response to ACK/NACK/DTX
HS-DPCCH ACK/NACK Field State
Node-B Emulator Behaviour
ACK
ACK: new transmission using 1st redundancy and constellation version (RV)
NACK
NACK: retransmission using the next RV (up to the maximum permitted number or RV’s)
DTX
DTX: retransmission using the RV previously transmitted to the same H-ARQ process |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.1 HS-DSCH throughput for Fixed Reference Channels | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.1.1 Definition and applicability | The HS-DSCH data throughput for fixed reference channels is defined by the capabilities of the UE as defined in [24] , and the throughput is measured by counting the amount of data succeesfully received at the UE by monitoring the ACK/NACK signalling field of the HS-SICH received at the SS, while random data is streamed from the SS to the UE.
The normative reference for this test is 25.102 [2], section 9.3.
The requirements and this test apply to 7.68 Mcps TDD UE from release 7 and later that support HSDPA. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.1.2 Minimum requirements | The requirements are specified in terms of minimum information bit throughput R for the DL reference channels specified in Annex C.4.2A with the addition of the relevant parameters in Tables 9.4.1.1 and 9.4.1.3.
Using this configuration the throughput shall meet or exceed the minimum requirements specified in tables 9.4.1.2 and 9.4.1.4.
Table 9.4.1.1: Test parameters for fixed reference measurement channel requirements for 5,3 Mbps – Category 8 - UE (7,68 Mcps TDD Option) QPSK
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
HS-PDSCH Modulation
-
QPSK
Scrambling code and basic midamble code number*
-
0, 1
Number of TS
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,32)
i=1..32
Number of Hybrid ARQ processes
-
3
Maximum number of Hybrid ARQ transmissions
-
4
Redundancy and constellation version coding sequence**
-
{0,0,0,0}
s=1, R=0, b=0
dB
-15,05
dB
0
Ioc
dBm/7,68MHz
-60
Note *: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Note **: This sequence implies Chase combining
Table 9.4.1.2: Performance requirements for fixed reference measurement channel requirement in multipath channels for 5,3 Mbps – Category 8 - UE (7,68 Mcps TDD Option) QPSK
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
5,2
880
2
PB3
5,5
880
3
VA30
6,2
880
4
VA120
6,2
880
Table 9.4.1.3: Test parameters for fixed reference measurement channel requirements for 5,3 Mbps – Category 8 - UE (7,68 Mcps TDD Option) 16QAM
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
HS-PDSCH Modulation
-
16QAM
Scrambling code and basic midamble code number*
-
0, 1
Number of TS
-
4
HS-PDSCH Channelization Codes*
C(k,Q)
C(i,32)
i=1..32
Number of Hybrid ARQ processes
-
3
Maximum number of Hybrid ARQ transmissions
-
4
Redundancy and constellation version coding sequence**
-
{0,0,0,0}
s=1, R=0, b=0
dB
-15,05
dB
0
Ioc
dBm/7,68MHz
-60
Note *: Refer to TS 25.223 for definition of channelization codes, scrambling code and basic midamble code.
Note **: This sequence implies Chase combining
Table 9.4.1.4: Performance requirements for fixed reference measurement channel requirement in multipath channels for 5,3 Mbps – Category 8 - UE (7,68 Mcps TDD Option) 16QAM
Test Number
Propagation conditions
[dB]
R (Throughput) [kbps]
1
PA3
11,1
1765
2
PB3
13,2
1765
3
VA30
13,7
1765
4
VA120
13,6
1765
The reference for this requirement is TS 25.102 [1] clauses 9.3.1.1 and 9.3.1.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.1.3 Test purpose | To verify the ability of the receiver to receive a predefined test signal, representing a multi-path fading channel with information bit throughput R not falling below a specified value. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.1.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.1.4.1 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 (node B emulator) and fader and AWGN noise source to the UE antenna connector as shown in figure A.10.
2) Set up an HSDPA call according to TS 34.108 [3] clause 7.3.6.3 with levels according to Annex E.3.
3) Set the node B emulator ACK/NACK/DTX behaviour according to table 9.4.1. Set the test parameters and levels for tests 1-4 according to tables 9.4.1.1. The reference channel configuration is defined in section C.4.2A. The configuration of the TX power for downlink physical channels is annex in E.3.
4) The information bit data shall be pseudo random and not repeated before 10 different information bit payload blocks are processed. (e.g. Fixed reference Channel Definition (16 QAM, test 1,2,3): The information bit payload block is 52996 bits long. Hence the PRBSequence must be at least 52996 * 10 bits long. ) Use a PRBS from ITU-T O.153 Ref [25].
5) Setup the fading simulator with fading conditions as described in table D.2.2.3.2 or D.2.2.3.4 depending on the frequency band. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.1.4.2 Procedure | a. Once the HSDPA connection is setup, start transmitting HSDPA data.
b. For all relevant propagation conditions, for all relevant Ioc levels, for all relevant Ec/Ior, for all relevant Îor/Ioc defined in Tables 9.4.1.2 and 9.4.1.4 count the number of NACK, ACK and statDTX on the UL HS-SICH during the test interval and decide pass or fail according to Annex F.6.3 tables F.6.3.5.5 and F.6.3.5.6. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.1.5 Test Requirements | Tables 9.4.1.1 to 9.4.1.4 define the primary level settings including test tolerance for all relevant throughput tests. The pass / fail decision for throughput is done according to Annex F.6.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.2 HS-DSCH throughput for Variable Reference Channels | FFS |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.3 Reporting of HS-DSCH Channel Quality Indicator | FFS |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.4 HS-SCCH Detection Performance | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.4.1 Definition and applicability | The detection performance of the HS-SCCH is determined by the probability of event Em, which is declared when the UE is signaled on HS-SCCH, but DTX is observed in the corresponding HS-SICH ACK/NACK field. The probability of event Em is denoted P(Em).
The normative reference for this test is 25.102 [2], section 9.3.4.
The requirements and this test apply to 7.68 Mcps TDD UE from release 7 and later that support HSDPA. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.4.2 Minimum requirements | For the test parameters in Table 9.4.4.1, for each value of HS-SCCH-1 Ec/Ior specified in Table 9.4.4.2, the measured P(Em) shall be less than or equal to the corresponding specified value of P(Em).
Table 9.4.4.1: Test parameters for HS-SCCH detection (7.68 Mcps TDD option)
Parameter
Unit
Test 1
Test 2
Test 3
Number of TS under test
-
1
Number of HS-SCCH codes per timeslot
-
4
HS-SCCH UE Identity
(,, …, )
-
UE1 = 0000000000000000
(UE1 under test)
UE2 = 0101010101010101
UE3 = 1010101010101010
UE4 = 1111111111111111
HS-SCCH Channelization Codes*
C(k,Q)
HS-SCCH-1 = C(1, 32), for UE1 (UE under test)
HS-SCCH-2 = C(2, 32) for UE2
HS-SCCH-3 = C(3, 32) for UE3
HS-SCCH-4 = C(4, 32) for UE4
HS-SCCH Ec/Ior
dB
HS-SCCH-2_Ec/Ior = HS-SCCH-3_Ec/Ior = HS-SCCH-4_Ec/Ior,
Where, HS-SCCH-X_Ec/Ior = 1, where X = 1, 2, 3, 4
Table 9.4.4.2: Minimum requirement for HS-SCCH detection (7.68 Mcps TDD option)
Test Number
Propagation Conditions
Reference value
HS-SCCH-1
(dB)
(dB)
1
PA3
-6.0
0
0.05
2
PA3
-7.5
5
0.01
3
VA30
-6.0
0
0.01
The reference for this requirement is TS 25.102 [2] clause 9.3.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.4.3 Test purpose | To verify that P(Em) does not exceed the limit in table 9.4.4.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.4.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.4.4.1 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 noise source to the UE antenna connector as shown in figure A.10.
2. Setup fading simulators as fading condition, which are described in table D.2.2.3.1.
3. Set the node B emulator ACK/NACK/DTX behaviour according to table 9.2.1. Set the test parameters and levels for tests 1-3 according to tables 9.4.4.1 and 9.4.4.2. The reference channel configuration is defined in section C.4.2A. The configuration of the TX power for downlink physical channels is annex in E.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.4.4.2 Procedure | 1. The UE is switched on.
2. Set up an HSDPA call according to TS 34.108 [3] clause 7.3.6.3.
3. Count the number of NACK, ACK and statDTX on the UL HS-DPCCH during the test interval and decide pass or fail according to Annex F.6.1 and table F.6.1.8. NACK and ACK are counted as a pass and statDTX is counted as a failure. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 9.4.4.5 Test Requirements | The probability of event Em denoted as P(Em) (test procedure step 3) shall not exceed the specified value in table 9.4.4.2.
No test tolerance is applied to the test parameters. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10 Performance requirements (MBMS) | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1 Demodulation of MCCH | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.1 Definition and applicability | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.1.1 3.84 Mcps TDD Option | The receive characteristic of the MCCH is determined by the RLC SDU error rate (RLC_SDU_ER). The requirement is valid for all RRC states for which the UE has capabilities.
The requirements and this test apply to the 3,84 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.1.2 7.68 Mcps TDD Option | The receive characteristic of the MCCH is determined by the RLC SDU error rate (RLC_SDU_ER). The requirement is valid for all RRC states for which the UE has capabilities.
The requirements and this test apply to the 7,68 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.2 Minimum requirement | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.2.1 3.84 Mcps TDD Option | For the parameters specified in Table 10.1.1, the measured average downlink S-CCPCH_Ec/Ior power ratio shall be below the specified value for the RLC_SDU_ER shown in Table 10.1.2.
Table 10.1.1: Test parameters for MCCH detection
Parameters
Unit
Test 1
Ioc
dBm/3.84 MHz
-60
dB
-3
Number of Interfering codes/timeslot
-
7 × SF16
MCCH Data Rate
kbps
7.2
Propagation condition
-
VA3
Table 10.1.2: Test requirements for MCCH detection
Test Number
S-CCPCH_Ec/Ior (dB)
RLC_SDU_ER
1
-1.25
0.01 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.2.2 7.68 Mcps TDD Option | For the parameters specified in Table 10.1.3, the measured average downlink S-CCPCH_Ec/Ior power ratio shall be below the specified value for the RLC_SDU_ER shown in Table 10.1.4.
Table 10.1.3: Test parameters for MCCH detection
Parameters
Unit
Test 1
Ioc
dBm/7.68 MHz
-60
dB
-3
Number of Interfering codes/timeslot
-
15 × SF32
MCCH Data Rate
kbps
7.2
Propagation condition
-
VA3
Table 10.1.4: Test requirements for MCCH detection
Test Number
S-CCPCH_Ec/Ior (dB)
RLC_SDU_ER
1
-4.7
0.01 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.3 Test Purpose | The aim of the test is to verify that the RLC SDU error rate (RLC SDU ER) for the MCCH channel does not exceed 0.01. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.4.1 Initial conditions | 1) Connect the SS and AWGN noise source and fading simulator to the UE antenna connector as shown in Figure A.10.
2) The MCCH Reference Measurement Channel parameters are defined in Annex C.5.1.
3) The configuration for the downlink channel for each radio link is defined in Annex.E.
4) The UE is switched on.
5) Set up a call according to the generic call setup procedure in TS34.108 [3] clause 7.3.10.
6) Setup the test parameter for MCCH detection test as specified in Table 10.1.1 and 10.1.2 for 3.84 Mcps TDD and Table 10.1.3. and 10.1.4 for 7.68 Mcps TDD. Set up fading simulator as per the fading conditionVA3, which is described in table D.2.2.
7) Enter the UE into loopback test mode 3. See TS 34.108 and TS 34.109 for details regarding loopback test mode 3 for MBMS.
8) Switch on the fading simulator. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.4.2 Procedure | 1) SS shall start the test by sending data on the MCCH radio bearer and maintain the count of transmitted RLC SDU blocks on the MCCH.
2) SS shall send a “UE TEST LOOP MODE 3 RLC SDU COUNTER REQUEST” message and wait for the UE to response with a “UE TEST LOOP MODE 3 RLC SDU COUNTER RESPONSE” reporting the received RLC SDU counter value.
3) SS shall compute the RLC SDU error rate based on the transmitted RLC SDUs count and received RLC SDU count reported by the UE.
4) The test shall be run until the statistical significance according to Annex to F.6.1.8 is achieved. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.5 Test Requirements | The RLC SDU error rate (RLC SDU ER) for all the MTCH demodulation tests shall not exceed 0.1 for the specified .
The RLC SDU error rate = the ratio of (transmitted RLC SDU count – received RLC SDU count) / (transmitted RLC SDU count) < 0.1 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2 Demodulation of MTCH | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.1 Definition and applicability | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.1.1 3.84 Mcps TDD Option | The receive characteristic of the MTCH is determined by RLC SDU error rate (RLC SDU ER). RLC SDU ER is specified for each individual data rate of the MTCH. The requirement is valid for all RRC states for which the UE has capabilities for MBMS.
The requirements and this test apply to the 3,84 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.1.2 1.28 Mcps TDD Option | The receive characteristic of the MTCH is determined by RLC SDU error rate (RLC SDU ER). RLC SDU ER is specified for each individual data rate of the MTCH. The requirement is valid for all RRC states for which the UE has capabilities for MBMS.
The requirements and this test apply to Release 6 and later releases for all types of UTRA for the 1.28Mcps TDD UE that support MBMS. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.1.3 7.68 Mcps TDD Option | The receive characteristic of the MTCH is determined by RLC SDU error rate (RLC SDU ER). RLC SDU ER is specified for each individual data rate of the MTCH. The requirement is valid for all RRC states for which the UE has capabilities for MBMS.
The requirements and this test apply to the 7,68 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.2 Minimum requirement | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.2.1 3.84 Mcps TDD Option | For the parameters specified in Table 10.2.1 the average downlink power ratio shall be below the specified value for the RLC SDU ER shown in Table 10.2.2.
Table 10.2.1: Parameters for MTCH detection for 3.84Mcps TDD
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
Ioc
dBm/3.84 MHz
-60
(S-CCPCH_Ec)/Ior per active timeslot
dB
0
0
0
0
MTCH Data Rate
Kbps
128
256
256
256
Propagation condition
-
VA3
Extended Delay Spread (see Table B.1D)
Number of Radio Links
-
2
3
1
1
S-CCPCH Modulation
-
QPSK
QPKS
16QAM
16QAM
Number of UE Rx Branches
-
1
1
1
2
Table 10.2.2: Test requirements for MTCH detection for 3.84Mcps TDD
Test Number
(dB)
RLC SDU ER
1
5.7
0.1
2
5.5
0.1
3
14.5
0.1
4
8.3
0.1 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.2.2 1.28 Mcps TDD Option | For the parameters specified in Table 10.2.3 the average downlink power ratio shall be below the specified value for the RLC SDU ER shown in Table 10.2.4.
Table 10.2.3: Parameters for MTCH detection
Parameters
Unit
Test 1
Test 2
Ioc
dBm/1.28 MHz
-60
(S-CCPCH_Ec)/Ior per active timeslot
dB
0
MTCH Data Rate
kbps
64
128
Number of codes per timeslot
-
8xSF16
14xSF16
Number of interfering codes per timeslot
-
0
0
Propagation condition
-
VA3
Number of Radio Links
-
3
3
Table 10.2.4: Test requirements for MTCH detection
Test Number
(dB)
RLC SDU ER
1
4.8
0.1
2
6.0
0.1 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.2.3 7.68 Mcps TDD Option | For the parameters specified in Table 10.2.5 the average downlink power ratio shall be below the specified value for the RLC SDU ER shown in Table 10.2.6.
Table 10.2.5.: Parameters for MTCH detection for 7.68 Mcps TDD
Parameters
Unit
Test 1
Test 2
Test 3
Test 4
Ioc
dBm/7.68 MHz
-60
(S-CCPCH_Ec)/Ior per active timeslot
dB
-3
-3
-3
-3
MTCH Data Rate
Kbps
128
256
256
256
Number of interfering codes/timeslot
-
16 × SF32
16 × SF32
16 × SF32
16 × SF32
Propagation condition
-
VA3
Extended Delay Spread (see Table B.8)
Number of Radio Links
-
2
3
1
1
S-CCPCH Modulation
-
QPSK
QPSK
16QAM
16QAM
Number of UE Rx Branches
-
1
1
1
2
Table 10.2.6: Test requirements for MTCH detection for 7.68 Mcps TDD
Test Number
(dB)
RLC SDU ER
1
6.1
0.1
2
5.0
0.1
3
14.7
0.1
4
8.2
0.1 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.3 Test Purpose | The aim of the test is to verify that the RLC SDU error rate (RLC SDU ER) for each individual data rate of the MTCH channel does not exceed 0.1. The test shall be performed in CELL_PCH state only. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.4.1 Initial conditions | 1) Connect the SS and AWGN noise source and fading simulator to the UE antenna connector as shown in Figure A.16.
2) The DL Reference Measurement Channel parameters are defined in Annex C.5.2.
3) The same MTCH data shall be sent in all radio links during the test.
4) The UE is switched on.
5) Set up a call according to the generic call setup procedure in TS34.108 [3] clause 7.3.10 with transition to the CELL_PCH state.
6) Setup the test parameter for MTCH detection test as specified in Table 10.2.1 and 10.2.2 for 3.84 Mcps TDD , Table 10.2.3 and 10.2.4 for 1.28Mcps TDD and Table 10.2.5. and 10.2.6 for 7.68 Mcps TDD. Set up fading simulator as per the fading conditionVA3, which is described in table D.2.2.
7) Enter the UE into loopback test mode 3. See TS 34.108 and TS 34.109 for details regarding loopback test mode 3 for MBMS.
8) Switch on the fading simulator. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.4.2 Procedure | 1) SS shall start the test by sending data on the MTCH radio bearer and maintain the count of transmitted RLC SDU blocks on the MTCH.
2) SS shall send a “UE TEST LOOP MODE 3 RLC SDU COUNTER REQUEST” message and wait for the UE to response with a “UE TEST LOOP MODE 3 RLC SDU COUNTER RESPONSE” reporting the received RLC SDU counter value.
3) SS shall compute the RLC SDU error rate based on the transmitted RLC SDUs count and received RLC SDU count reported by the UE.
4) The test shall be run until the statistical significance according to Annex to F.6.1.8 is achieved. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.2.5 Test Requirements | The RLC SDU error rate (RLC SDU ER) for all the MTCH demodulation tests does not exceed 0.1.
The RLC SDU error rate = the ratio of (transmitted RLC SDU count – received RLC SDU count) / (transmitted RLC SDU count) < 0.1
10.2A Demodulation of MTCH-for MBSFN capable UE
10.2A.1 Definition and applicability
10.2A.1.1 Void
10.2A.1.2 1.28 Mcps TDD Option
The receive characteristic of the MTCH is determined by RLC SDU error rate (RLC SDU ER). RLC SDU ER is specified for each individual data rate of the MTCH. The requirement is valid for all RRC states for which the UE has capabilities for MBMS.
The requirements and this test apply to Release 7 and later releases for all types of UTRA for the 1.28Mcps TDD UE that support MBSFN.
10.2A.1.3 Void
10.2A.2 Minimum requirement
10.2A.2.1 Void
10.2A.2.2 1.28 Mcps TDD Option
For the parameters specified in Table 10.2A.3A the average downlink power ratio shall be below the specified value for the RLC SDU ER shown in Table 10.2A.4A.
Table 10.2A.3A: Parameters for MTCH detection
Parameters
Unit
Test 11
Test 21
Test 32
Test 42
MTCH Data rate
Kbps
192
384
192
384
Rx antenna
-
1
2
1
2
Modulation
-
QPSK
16QAM
QPSK
16QAM
Ioc
dBm/1.28 MHz
-60
-60
-60
-60
(S-CCPCH_Ec)/Ior
dB
0
0
0
0
Propagation condition
-
MBSFN channel model 1 (Annex D)
MBSFN channel model 1 (Annex D)
MBSFN channel
model 2 (Annex D)
MBSFN channel model 2 (Annex D)
Slot Format #
-
04
24
44
74
NOTE1: Test 1 and Test 2 are specified for the UE supporting normal delay spread.
NOTE2: Test 3 and Test 4 are specified for the UE supporting extended delay spread.
NOTE3: In the case of Rx diversity, the fading of the signals and the AWGN signals applied to each receiver antenna connector shall be uncorrelated.
NOTE4: See Table 8Ha in TS25.221.
Table 10.2A.4A: Test requirements for MTCH detection
Test Number
(dB)
RLC SDU ER
1
13.3
0.1
2
14.7
0.1
3
13.3
0.1
4
15.1
0.1
10.2A.2.3 Void
10.2A.3 Test Purpose
The aim of the test is to verify that the RLC SDU error rate (RLC SDU ER) for each individual data rate of the MTCH channel does not exceed 0.1. The test shall be performed in CELL_PCH state only.
10.2A.4 Method of test
10.2A.4.1 Initial conditions
1) Connect the SS and AWGN noise source and fading simulator to the UE antenna connector as shown in Figure A.16.
2) The DL Reference Measurement Channel parameters are defined in Annex C.5.2.
3) The same MTCH data shall be sent in all radio links during the test.
4) The UE is switched on.
5) Set up a call according to the generic call setup procedure in TS34.108 [3] clause 7.3.10 with transition to the CELL_PCH state.
6) Setup the test parameter for MTCH detection test as specified in Table 10.2A.3A and 10.2A.4A for 1.28Mcps TDD. Set up fading simulator as per the fading condition, which is described in table D.2.2.2.3.
7) Enter the UE into loopback test mode 3. See TS 34.108 and TS 34.109 for details regarding loopback test mode 3 for MBMS.
8) Switch on the fading simulator.
10.2A.4.2 Procedure
1) SS shall start the test by sending data on the MTCH radio bearer and maintain the count of transmitted RLC SDU blocks on the MTCH.
2) SS shall send a “UE TEST LOOP MODE 3 RLC SDU COUNTER REQUEST” message and wait for the UE to response with a “UE TEST LOOP MODE 3 RLC SDU COUNTER RESPONSE” reporting the received RLC SDU counter value.
3) SS shall compute the RLC SDU error rate based on the transmitted RLC SDUs count and received RLC SDU count reported by the UE.
4) The test shall be run until the statistical significance according to Annex to F.6.1.8 is achieved.
10.2A.5 Test Requirements
The RLC SDU error rate (RLC SDU ER) for all the MTCH demodulation tests does not exceed 0.1.
The RLC SDU error rate = the ratio of (transmitted RLC SDU count – received RLC SDU count) / (transmitted RLC SDU count) < 0.1 |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3 Demodulation of MTCH and cell identification | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3.1 1.28Mcps TDD option | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3.1.1 Definition and applicability | MBMS combining is not controlled by a network but instead it is autonomously handled by a terminal. UE has to be able to receive MTCH and identify intra-frequency neighbour cells according to the requirements. The receive characteristic of the MTCH combined with cell identification is determined by RLC SDU error rate (RLC SDU ER).
The requirements and this test apply to Release 6 and later releases for1.28Mcps TDD UE that supports MBMS. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3.1.2 Minimum requirements | For the parameters specified in Table 10.3.1.1 the average downlink S-CCPCH power ratio shall be below the specified value for the RLC SDU error rate shown in Table 10.3.1.2. The cell reselection parameters are given in clause in Table 10.3.1.3. The different cells are assumed to be time aligned.
Table 10.3.1.1: Parameters for MTCH demodulation requirements with cell identification
Parameter
Unit
Test 1
Stage 1
Stage 2
Stage 3
Time in each stage
s
2s
800ms
2s
dBm/1.28MHz
-60
Propagation condition
VA 3
MTCH Data Rate
kbps
64kbps
Number of Radio Links
Cell 1, Cell 2
Cell 1, Cell2, Cell3
Cell 1, Cell 3
Table 10.3.1.2: Requirements for MTCH detection
Test Number
RLC SDU ER
1
6.1
0.05
Parameters for combined MTCH demodulation and cell identification requirements are defined in Table 10.3.1.3.
Table 10.3.1.3: Cell reselection parameters
Parameter
Unit
Value
Serving cell in the initial condition
Cell1
Neighbour cells
32 intra-frequency neighbour cells are indicated including Cell2 and Cell3
Cell_selection_and_reselection_quality_measure
PCCPCH RSCP
Qrxlevmin
dBm
-103
UE_TXPWR_MAX_
RACH
dB
21
Treselection
Seconds
4
Sintrasearch
dB
not sent
IE “FACH Measurement occasion info”
not sent
The reference for this requirement is TS 25.102 [1] clause 10.3.1 and TS 25.102 [1] annex A.4.2.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3.1.3 Test purpose | To verify that the RLC SDU error rate does not exceed the value at the S-CCPCH r specified in table 10.3.1.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3.1.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3.1.4.1 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 AWGN noise source and fading simulators to the UE antenna connector as shown in Figure A.16.
2) The DL Reference Measurement Channel parameters are defined in Annex C.5.1.2
3) The same MTCH data shall be sent in all active cells during the test.
4) The UE is switched on.
5) The UE selects the broadcast service provided by the SS (included in the MBMS_ACTIVATED_SERVICES variable).
6) Set up a call according to the generic call setup procedure specified in TS 34.108 [3] clause 7.3.10 to configure and activate an MBMS session with transition to CELL_PCH state. The SS broadcast the cell reselection parameters according to table 10.3.1.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3.1.4.2 Procedures | 1) The SS configures and activates cell 1 to 3 with RF parameters according to Stage 1 conditions in Table 10.3.1.1.
2) The SS transmits valid MAC headers and RLC SDUs on the MTCH radio bearer for 2 seconds. The SS counts the number of transmitted RLC SDUs on the MTCH with valid MAC headers (NSS_Stage1).
3) The SS transmits invalid MAC headers sets the test parameters for Cell 1, Cell 2 and Cell 3 as specified in table 10.3.1.1 and Stage 2.
4) The SS transmits valid MAC headers and RLC SDUs on the MTCH radio bearer for 0.8 seconds. The SS counts the number of transmitted RLC SDUs on the MTCH with valid MAC headers (NSS_Stage2).
5) The SS transmits invalid MAC headers sets the test parameters for Cell 1, Cell 2 and Cell 3 as specified in table 10.3.1.1 and Stage 3.
6) The SS transmits valid MAC headers and RLC SDUs on the MTCH radio bearer for 2 seconds. The SS counts the number of transmitted RLC SDUs on the MTCH with valid MAC headers (NSS_Stage3).
7) Repeat step 9) to 14) until the confidence level for RLC SDU’s according to annex F.6.1.8.
8) The SS transmits a PAGING TYPE 1 message to the UE on the PCH and the UE moves to CELL_FACH state, sending a CELL UPDATE message. The SS replies with a CELL UPDATE CONFIRM message.
9) The UE confirms the received C-RNTI to be used in CELL FACH state by transmitting a UTRAN MOBILITY INFORMATION CONFIRM message on the uplink DCCH.
10) The SS sends a “UE TEST LOOP MODE 3 RLC SDU COUNTER REQUEST” message.
11) The SS waits for the UE to respond by a “UE TEST LOOP MODE 3 RLC SDU COUNTER RESPONSE” message reporting the number of received RLC SDUs on MTCH (NUEOK).
12) The SS in Cell 1 calculates the SDU error rate as: (Number of SS transmitted RLC SDUs – UE received RLC SDUs) / Number of SS transmitted RLC SDUs; where Number of SS transmitted RLC SDUs = NSS_Stage1 + NSS_Stage2 + NSS_Stage3; and UE received RLC SDUs = NUEOK.
13) End the RRC connection according to the generic call setup procedure specified in TS 34.108 [3] clause 7.3.10.
Specific Message Contents
All messages indicated above shall use the same content as described in the default message content in clause 9 of 34.108 [3]. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.3.1.5 Test requirements | The test parameters are specified in table 10.3.1.4.
Table 10.3.1.4: Parameters for MTCH demodulation requirements with cell identification
Parameter
Unit
Test 1
Stage 1
Stage 2
Stage 3
Time in each stage
s
2s
800ms
2s
dBm/1.28MHz
-60
Propagation condition
VA 3
MTCH Data Rate
kbps
64kbps
Number of Radio Links
Cell 1, Cell 2
Cell 1, Cell2, Cell3
Cell 1, Cell 3
The RLC SDU ER shall not exceed the value specified in table 10.3.1.5 for the specified
Table 10.3.1.5: Requirements for MTCH detection
Test Number
RLC SDU ER
1
6.1
0.05
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 | 10.4 Demodulation of MCCH for a MBSFN capable UE | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.4.1 Definition and applicability | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.4.1.1 3.84 Mcps TDD Option | The test is only applicable for UEs with at least two receiver antenna connectors where the fading of the signals and the AWGN signals applied to each receiver antenna connector shall be uncorrelated.
The receive characteristic of the MCCH is determined by the RLC SDU error rate (RLC_SDU_ER). The requirement is valid for all RRC states for which the UE has capabilities.
The requirements and this test apply to the 3,84 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.4.1.2 7.68 Mcps TDD Option | The test is only applicable for UEs with at least two receiver antenna connectors where the fading of the signals and the AWGN signals applied to each receiver antenna connector shall be uncorrelated.
The receive characteristic of the MCCH is determined by the RLC SDU error rate (RLC_SDU_ER). The requirement is valid for all RRC states for which the UE has capabilities.
The requirements and this test apply to the 7,68 Mcps TDD UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 10.1.4.1 3.84 Mcps TDD Option | For the parameters specified in table 10.4.1, the measured average downlink S-CCPCH_Ec/Ior power ratio shall be below the specified value for the RLC_SDU_ER shown in table 10.4.2.
Table 10.4.1: Test parameters for MCCH detection for MBSFN enabled UE
Parameters
Unit
Test 1
Ioc
dBm/3.84 MHz
-60
dB
12
Number of Interfering codes/timeslot
-
7 × SF16
MCCH Data Rate
kbps
7.2
Propagation condition
-
Extended delay spread (see Appendix B)
Slot Format #i
-
20
Table 10.4.2: Test requirements for MCCH detection (at least two receiver antennas) for MBSFN enabled UE
Test Number
S-CCPCH_Ec/Ior (dB)
RLC_SDU_ER
1
-19.29
0.01 |
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