6.2.5G Configured UE transmitted Output Power for V2X Communication

36.521-13GPPEvolved Universal Terrestrial Radio Access (E-UTRA)Part 1: Conformance testingRadio transmission and receptionRelease 17TSUser Equipment (UE) conformance specification

6.2.5G.1 Configured UE transmitted Output Power for V2X Communication / Non-concurrent with E-UTRA uplink transmission

6.2.5G.1.1 Test purpose

To verify the UE does not exceed the minimum between the P_EMAX maximum allowed UL TX Power signalled by the E-UTRAN and the P_UMAX maximum UE power the UE power class.

6.2.5G.1.2 Test applicability

This test applies to all types of UE that support V2X Sidelink Communication and Band 47.

6.2.5G.1.3 Minimum conformance requirements

When UE is configured for E-UTRA V2X sidelink transmissions non-concurrent with E-UTRA uplink transmissions for E-UTRA V2X operating bands specified in Table 5.2G-1, the V2X UE is allowed to set its configured maximum output power P_CMAX,c for component carrier c. The configured maximum output power P_CMAX,c is set within the following bounds:

P_{CMAX_L,c} ≤ P_CMAX,c ≤ P_{CMAX_H,c} with

P_{CMAX_L,c} = MIN {P_EMAX,c – T_C,c, P_PowerClass –– MAX(MPR_c + A-MPR_c + ΔT_IB,c + T_C,c + T_ProSe, P-MPR_c), P_Regulatory,c }

P_{CMAX_H,c} = MIN {P_EMAX,c, P_PowerClass, P_Regulatory,c }

where

– For the total transmitted power P_CMAX,c of PSSCH and PSCCH, P_EMAX,c is the value given by IE maxTxPower, defined by [5], when the UE is not associated with a serving cell on the V2X carrier.

– For, P_EMAX,c is the value given by the IE maxTxPower in [5] when the UE is not associated with a serving cell on the V2X carrier.

– For, the value is as calculated for and applying the MPR for SSSS as specified in Section 6.2.3D.

– P_PowerClass is the maximum UE power specified in Table 6.2.2.3-1 without taking into account the tolerance specified in the Table 6.2.2.3-1;

– MPR_c and A-MPR_c for serving cell c are specified in subclause 6.2.3G and subclause 6.2.4G, respectively;

– T_IB,c, T_C,c, T_ProSe and P-MPR_c are specified in subclause 6.2.5

– P_Regulatory,c= 10 dBm when the V2X UE is within the protected zone [13] of CEN DSRC tolling system and operating in Band 47; P_Regulatory,c= 33 dBm otherwise.

The maximum output power P_CMAX,PSSCH and P_CMAX,PSCCH are derived from P_CMAX,c based on the PSD offset following subclause 14.1.1.5 in [10]. For all cases, the PSD difference between PSCCH and PSSCH shall be the same as the PSD offset value.

For the measured configured maximum output power P_UMAX,c for E-UTRA V2X sidelink transmissions non-concurrent with E-UTRA uplink transmissions, the same requirement as in subclause 6.2.5 shall be applied.

The normative reference for this requirement is TS 36.101 [2] clause 6.2.5G.

6.2.5G.1.4 Test description

6.2.5G.1.4.1 Initial conditions

Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state.

The initial test configurations consist of environmental conditions, test frequencies, and channel bandwidths based on E-UTRA operating bands specified in Table 5.4.2G.1-1. All of these configurations shall be tested with applicable test parameters for each channel bandwidth, and are shown in table 6.2.5G.1.4.1-1. The details of the V2X reference measurement channels (RMCs) are specified in Annex A.8.3 and the GNSS configuration in TS 36.508 [7] subclause 4.11.

Table 6.2.5G.1.4.1-1: Test Configuration Table

Initial Conditions
Test Environment as specified in TS 36.508 [7] subclause 4.1		Normal, TL/VL, TL/VH, TH/VL, TH/VH
Test Frequencies as specified in TS 36.508 [7] subclause 4.3.1		Mid range
Test Channel Bandwidths as specified in TS 36.508 [7] subclause 4.3.1		Lowest, Highest
Test Parameters for Channel Bandwidths
	V2X Configuration to Transmit
Ch BW	Modulation		PSSCH RB allocation
10MHz	QPSK		48@2
20MHz	QPSK		96@2

1. Connect the SS and GNSS simulator to the UE antenna connectors as shown in TS 36.508 [7] Annex A, Figure A.92.

2. The parameter settings for the V2X sidelink transmission over PC5 are pre-configured according to TS 36.508 [7] subclause 6.8.2. Message content exceptions are defined in clause 6.2.5G.1.4.3.

3. The V2X Reference Measurement channel is set according to Table 6.2.5G.1.4.1-1.

4. The GNSS simulator is configured for Scenario #1: static in Geographical area #1, as defined in TS36.508 [7] Table 4.11.2-2. Geographical area #1 is also pre-configured in the UE.

5. Propagation conditions are set according to Annex B.0.

6. Ensure the UE is in State 5A-V2X in Transmit Mode according to TS 36.508 [7] clause 4.5.9.

7. The GNSS simulator is triggered to start step 1 of Scenario #1 to simulate a location in the centre of Geographical area #1. Wait for the UE to acquire the GNSS signal and start to transmit.

6.2.5G.1.4.2 Test procedure

1. The UE starts to perform the V2X sidelink communication according to SL-V2X-Preconfiguration. Since the UE has no payload and no loopback data to send the UE sends uplink MAC padding bits on the V2X RMC.

2. Measure the mean power of the UE in the channel bandwidth for each test point in table 6.2.5G.1.5-1 according to the test configuration from Table 6.2.5G.1.4.1-1. The period of measurement shall be at least continuous duration of one sub-frame (1ms).

6.2.5G.1.4.3 Message contents

Message contents are according to TS 36.508 [7] clause 4.6, 4.7.I and 4.10 with the following exceptions:

Table 6.2.5G.1.4.3-1: SL-V2X-PreconfigFreqInfo-r14-DEFAULT: Test point 1

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20E SL-V2X-PreconfigFreqInfo-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
v2x-CommPreconfigGeneral-r14 SEQUENCE {
maxTxPower-r12	-10
}

Table 6.2.5G.1.4.3-2: SL-V2X-PreconfigFreqInfo-r14-DEFAULT: Test point 2

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20E SL-V2X-PreconfigFreqInfo-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
v2x-CommPreconfigGeneral-r14 SEQUENCE {
maxTxPower-r12	10
}

Table 6.2.5G.1.4.3-3: SL-V2X-PreconfigFreqInfo-r14-DEFAULT: Test point 3

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20E SL-V2X-PreconfigFreqInfo-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
v2x-CommPreconfigGeneral-r14 SEQUENCE {
maxTxPower-r12	15
}

6.2.5G.1.5 Test requirements

The maximum output power measured shall not exceed the values specified in Table 6.2.5G.1.5-1.

Table 6.2.5G.1.5-1: P_CMAX configured UE output power

	maximum output power
Measured UE output power test point 1	For carrier frequency 4.2GHz < f ≤ 6.0GHz: -10 dBm ± 8.5
Measured UE output power test point 2	For carrier frequency 4.2GHz < f ≤ 6.0GHz: 10 dBm ± 7.3
Measured UE output power test point 3	For carrier frequency -4.2GHz < f ≤ 6.0GHz: 15 dBm ± 6.3

6.2.5G.2 Configured UE transmitted Output Power for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmission

6.2.5G.2.1 Test purpose

To verify the UE does not exceed the minimum between the P_EMAX maximum allowed UL TX Power signalled by the E-UTRAN and the P_UMAX maximum UE power the UE power class.

6.2.5G.2.2 Test applicability

This test applies to all types of E-UTRA UE release 14 and forward that support V2X Communication.

6.2.5G.2.3 Minimum conformance requirements

When a UE is configured for simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions for inter-band E-UTRA V2X / E-UTRA bands specified in Table 5.2G-2, the UE is allowed to set its configured maximum output power P_{CMAX,c,E-UTRA} and P_CMAX,c,V2X for the configured E-UTRA uplink carrier and the configured E-UTRA V2X carrier, respectively, and its total configured maximum output power P_CMAX,c. The T_IB,c of P_{CMAX,c,E-UTRA} is specified in Table 6.2.5G.2.3-2.

The configured maximum output power P_{CMAX c,E-UTRA}(p) in subframe p for the configured E-UTRA uplink carrier shall be set within the bounds:

P_{CMAX_L,c,E-UTRA} (p) ≤ P_{CMAX,c,E-UTRA} (p) ≤ P_{CMAX_H,c,E-UTRA} (p)

where P_{CMAX_L,c,E-UTRA} and P_{CMAX_H,c,E-UTRA} are the limits for a serving cell c as specified in subclause 6.2.5.

The configured maximum output power P_{CMAX c,V2X} (q) in subframe q for the configured E-UTRA V2X carrier shall be set within the bounds:

P_CMAX,c,V2X (q) ≤ P_{CMAX_H,c,V2X} (q)

where P_{CMAX_H,c,V2X} is the limit as specified in subclause 6.2.5G.

The total UE configured maximum output power P_CMAX (p,q) in a subframe p of an E-UTRA uplink carrier and a subframe q of an E-UTRA V2X sidelink that overlap in time shall be set within the following bounds for synchronous and asynchronous operation unless stated otherwise:

P_{CMAX_L} (p,q) ≤ P_CMAX (p,q) ≤ P_{CMAX_H} (p,q)

with

P_{CMAX_L} (p,q) = P_{CMAX_L,c,E-UTRA} (p)

P_{CMAX_H} (p,q) = MIN {10 log₁₀ [p_{CMAX_H,c,E-UTRA} (p) + p_{CMAX_H,c,V2X} (q)], P_PowerClass}

where p_{CMAX_H,c,V2X} and p_{CMAX_H,c,E-UTRA} are the limits P_{CMAX_H,c,V2X} (q) and P_{CMAX_H,c,E-UTRA} (p) expressed in linear scale.

The measured total maximum output power P_UMAX over both the E-UTRA uplink and E-UTRA V2X carriers is

P_UMAX = 10 log₁₀ [p_{UMAX,c,E-UTRA} + p_UMAX,c,V2X],

where p_{UMAX,c,E-UTRA} denotes the measured output power of serving cell c for the configured E-UTRA uplink carrier, and p_UMAX,c,V2X denotes the measured output power for the configured E-UTRA V2X carrier expressed in linear scale.

When a UE is configured for synchronous V2X sidelink and uplink transmissions,

P_{CMAX_L}(p, q) – T_LOW (P_{CMAX_L}(p, q)) ≤ P_UMAX ≤ P_{CMAX_H}(p, q) + T_HIGH (P_{CMAX_H}(p, q))

where P_{CMAX_L} (p,q) and P_{CMAX_H} (p,q) are the limits for the pair (p,q) and with the tolerances T_LOW(P_CMAX) and T_HIGH(P_CMAX) for applicable values of P_CMAX specified in Table 6.2.5G.2.3-1. P_{CMAX_L} may be modified for any overlapping portion of subframes (p, q) and (p +1, q+1).

When a UE is configured for asynchronous V2X and uplink transmissions, the subframe p for the E-UTRA uplink carrier and subframe q for the E-UTRA V2X carrier overlap in time and

1. if uplink carrier leads in time over q and V2X UE sidelink transmission has SCI whose “Priority” field is set to a value less than the high layer parameter thresSL-TxPrioritization, then p is the reference subframe and the (p,q) and (p,q-1) pairs are considered for determining the PCMAX tolerance

2. if uplink carrier leads in time over q and V2X UE sidelink transmission has SCI whose “Priority” field is set to a value larger than the high layer parameter thresSL-TxPrioritization, then q is the reference subframe and the (p,q) and (p+1,q) pairs are considered for determining the PCMAX tolerance

3. if V2X carrier leads in time over p and V2X UE sidelink transmission has SCI whose “Priority” field is set to a value less than the high layer parameter thresSL-TxPrioritization, then p is the reference subframe and the (p,q) and (p,q+1) pairs are considered for determining the PCMAX tolerance

4. if V2X carrier leads in time over p and V2X UE sidelink transmission has SCI whose “Priority” field is set to a value larger than the high layer parameter thresSL-TxPrioritization,, then q is the reference subframe and the (p-1,q) and (p,q) pairs are considered for determining the PCMAX tolerance

For the reference subframe p duration when uplink carrier leads:

P’_{CMAX_L} = P_{CMAX_L,,cE-UTRA} (p)

P’_{CMAX_H} = MAX {P_{CMAX_H} (p,q-1) , P_{CMAX_H} (p,q)}

For the reference subframe p duration when V2X carrier leads:

P’_{CMAX_L} = P_{CMAX_L,c,E-UTRA} (p)

P’_{CMAX_H} = MAX {P_{CMAX_H} (p,q) , P_{CMAX_H} (p,q+1)}

For the reference subframe q duration when uplink carrier leads:

P’_{CMAX_L} = P_{CMAX_L,c,V2X} (q)

P’_{CMAX_H} = MAX {P_{CMAX_H} (p,q) , P_{CMAX_H} (p+1,q)}

For the reference subframe q duration when V2X carrier leads:

P’_{CMAX_L} = P_{CMAX_L,cE-UTRA} (p)

P’_{CMAX_H} = MAX {P_{CMAX_H} (p-1,q) , P_{CMAX_H} (p,q)}

where P_{CMAX_L,,cE-UTRA} (p) and P_{CMAX_H} are the applicable limits for each overlapping subframe pairs above 4case with (p,q), (p, q-1) or (p,q), (p, q+1) or (p,q), (p+1,q) or (p,q), (p-1, q). The measured total configured maximum output power P_UMAX shall be within the following bounds:

P’_{CMAX_L} – T_LOW (P’_{CMAX_L}) ≤ P_UMAX ≤ P’_{CMAX_H} + T_HIGH (P’_{CMAX_H})

with the tolerances T_LOW(P_CMAX) and T_HIGH(P_CMAX) for applicable values of P_CMAX specified in Table 6.2.5G.2.3-1.

Table 6.2.5G.2.3-1: P_CMAX tolerance

PCMAX(dBm)	Tolerance TLOW (PCMAX_L)(dB)	Tolerance THIGH (PCMAX_H)(dB)
PCMAX = 23	3.0	2.0
22 ≤PCMAX,< 23	5.0	2.0
21 ≤ PCMAX< 22	5.0	3.0
20 ≤ PCMAX, < 21	6.0	4.0
16 ≤ PCMAX < 20	5.0
11 ≤ PCMAX, < 16	6.0
-40 ≤ PCMAX < 11	7.0

Table 6.2.5G.2.3-2: ΔT_IB,c for inter-band con-current V2X operation (two bands)

V2X con-current band Configuration	E-UTRA or V2X Operating Band	ΔTIB,c [dB]
V2X_3A-47A	3	0.0
V2X_5A-47A	5	0.2
V2X_7A-47A	7	0.0
V2X_8A-47A	8	0.0
V2X_20A-47A	20	0.2
V2X_34A-47A	34	0.0
V2X_39A-47A	39	0.0
V2X_41A-47A	41	0.0

The normative reference for this requirement is TS 36.101 [2] clause 6.2.5G.

6.2.5G.2.4 Test description

6.2.5G.2.4.1 Initial conditions

Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state.

The initial test configurations consist of environmental conditions, test frequencies, and channel bandwidths based on E-UTRA operating bands specified in Table 5.4.2G.1-2. All of these configurations shall be tested with applicable test parameters for each channel bandwidth, and are shown in table 6.2.5G.2.4.1-1. The details of the uplink and V2X reference measurement channels (RMCs) are specified in Annexes A.2 and A.8.3 respectively. Configurations of PDSCH and PDCCH before measurement are specified in Annex C.2.

Table 6.2.5G.2.4.1-1: Test Configuration Table

Initial Conditions
Test Environment as specified in TS 36.508 [7] subclause 4.1			Normal, TL/VL, TL/VH, TH/VL, TH/VH
Test Frequencies as specified in TS 36.508 [7] subclause 4.3.1			Mid range
Test Channel Bandwidths as specified in TS 36.508 [7] subclause 4.3.1			Lowest NRB_agg,Highest NRB_agg
Test Parameters for Channel Bandwidths
	Downlink	Uplink Configuration		V2X Configuration
Ch BW	N/A for Configured UE transmitted Output Power test case	Mod’n	RB allocation	Ch BW	Mod’n	PSSCH RB allocation
1.4 MHz		QPSK	5	10 MHz	QPSK	48@2
3 MHz		QPSK	4	20 MHz	QPSK	96@2
5 MHz		QPSK	8
10 MHz		QPSK	12
15 MHz		QPSK	16
20 MHz		QPSK	18
Note 1: V2X con-current band configurations are checked separately for each band configuration, which applicable aggregated channel bandwidths are specified in Table 5.4.2G.1-2. Note 2: For the uplink RB allocation on the E-UTRA carrier the RBstart shall be RB #0.

1. Connect the SS to the UE antenna connectors as shown in TS 36.508 [7] Annex A, Figure A.93a.

2. The parameter settings for the cell are set up according to TS 36.508 [7] subclause 4.4.3. Message content exceptions are defined in clause 6.2.5G.2.4.3

3. Downlink signals are initially set up according to Annex C.0, C.1, and C.3.0, and uplink signals according to Annex H.1 and H.3.0.

4. The UL and V2X Reference Measurement Channels are set according to Table 6.2.5G.2.4.1-1

5. Propagation conditions are set according to Annex B.0.

6. Ensure the UE is in State 3A-RF-V2X according to TS 36.508 [7] clause 5.2A.2C. Message content exceptions are defined in clause 6.2.5G.2.4.3.

6.2.5G.2.4.2 Test procedure

1. The SS simultaneously sends uplink scheduling information for each UL HARQ process via PDCCH DCI format 0 for C_RNTI to schedule the UL RMC and V2X scheduling information via PDCCH DCI format 5A for SL_V_RNTI to schedule the V2X RMC according to Table 6.2.5G.2.4.1-1. Since the UE has no payload and no loopback data to send the UE sends uplink MAC padding bits on the UL and V2X RMCs.

2. Send continuously uplink power control "up" commands in the uplink scheduling information to the UE to ensure that the UE transmits at P_UMAX level. Configure the UE to transmit PSCCH and PSSCH with the P_UMAX level of each test points. Allow at least 200ms for the UE to reach the P_UMAX level of the test point.

3. Measure the mean power over all component carriers in the V2X con-current band configuration. The period of measurement shall be at least continuous duration of one sub-frame (1ms). On E-UTRA carrier, the TDD slots with transient periods are not under test.

6.2.5G.2.4.3 Message contents

Message contents are according to TS 36.508 [7] subclause 4.6 with the following exceptions:

Table 6.2.5G.2.4.3-1: SystemInformationBlockType1: Test point 1

Derivation Path: TS 36.508 [7] clause 4.4.3.2, Table 4.4.3.2-3 SystemInformationBlockType1
Information Element	Value/remark	Comment	Condition
p-Max	-10

Table 6.2.5G.2.4.3-2: SL-InterFreqInfoV2X-r14-DEFAULT: Test point 1

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20E SL-InterFreqInfoV2X-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
SL-InterFreqInfoV2X-r14-DEFAULT ::= SEQUENCE {
sl-MaxTxPower-r14	-10	INTEGER (-30..33)
}

Table 6.2.5G.2.4.3-3: SystemInformationBlockType1: Test point 2

Derivation Path: TS 36.508 [7] clause 4.4.3.2, Table 4.4.3.2-3 SystemInformationBlockType1
Information Element	Value/remark	Comment	Condition
p-Max	10

Table 6.2.5G.2.4.3-4: SL-InterFreqInfoV2X-r14-DEFAULT: Test point 2

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20E SL-InterFreqInfoV2X-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
SL-InterFreqInfoV2X-r14-DEFAULT ::= SEQUENCE {
sl-MaxTxPower-r14	10	INTEGER (-30..33)
}

Table 6.2.5G.2.4.3-5: SystemInformationBlockType1: Test point 3

Derivation Path: TS 36.508 [7] clause 4.4.3.2, Table 4.4.3.2-3 SystemInformationBlockType1
Information Element	Value/remark	Comment	Condition
p-Max	15

Table 6.2.5G.2.4.3-6: SL-InterFreqInfoV2X-r14-DEFAULT: Test point 3

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20E SL-InterFreqInfoV2X-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
SL-InterFreqInfoV2X-r14-DEFAULT ::= SEQUENCE {
sl-MaxTxPower-r14	15	INTEGER (-30..33)
}

6.2.5G.2.5 Test requirements

The maximum output power measured shall not exceed the values specified in Table 6.2.5G.2.5-1.

Table 6.2.5G.2.5-1: P_CMAX configured UE output power

	maximum output power
Measured UE output power test point 1	-7 dBm ± 8.5
Measured UE output power test point 2	13 dBm ± 7.3
Measured UE output power test point 3	18 dBm ± 6.3

6.2.5G.3 Configured UE transmitted Output Power for V2X Communication / Intra-band contiguous multi-carrier operation

6.2.5G.3.1 Test purpose

To verify the UE does not exceed the minimum between the P_EMAX maximum allowed UL TX Power signalled by the E-UTRAN and the P_UMAX maximum UE power the UE power class.

6.2.5G.3.2 Test applicability

This test applies to all types of UE that support Intra-band contiguous multi-carrier operation V2X Sidelink Communication and Band 47.

6.2.5G.3.3 Minimum conformance requirements

For intra-band contiguous multi-carrier operation, MPR_c = MPR and A-MPR_c = A-MPR with MPR and A-MPR specified in subclause 6.2.3G and subclause 6.2.4G respectively. There is one power management term for the UE, denoted P-MPR, and P-MPR _c = P-MPR. P_CMAX,c is calculated under the assumption that the transmit power is increased by the same amount in dB on all component carriers.

The total configured maximum output power P_CMAX shall be set within the following bounds:

P_{CMAX_L} ≤ P_CMAX ≤ P_{CMAX_H}

P_{CMAX_L} = MIN{10 log₁₀ ∑ p_EMAX,c – T_C , P_PowerClass – MAX(MPR + A-MPR + ΔT_IB,c + T_C + T_ProSe, P-MPR ), P_Regulatory }

P_{CMAX_H} = MIN{10 log₁₀ ∑ p_EMAX,c , P_PowerClass, P_Regulatory }

where

– p_EMAX,c is the linear value of P_EMAX,c which is given by IE maxTxPower in [5];

– P_PowerClass is the maximum UE power specified in Table 6.2.2G.2.3-1 without taking into account the tolerance specified in the Table 6.2.2G.2.3-1;

– MPR and A-MPR are specified in subclause 6.2.3G and subclause 6.2.4G respectively;

– T_IB,c is the additional tolerance for serving cell c as specified in Table 6.2.5.3-2;

– P-MPR is the power management term for the UE;

– T_C is the highest value T_C,c among all serving cells c in the subframe over both timeslots. T_C,c = 1.5 dB when NOTE 2 in Table 6.2.2.3-1 applies, otherwise T_C,c = 0 dB;

– T_ProSe applies as specified in subclause 6.2.5.

– P_Regulatory= 10 dBm when V2X UE is within the protected zone [23] of CEN DSRC tolling system and operating in Band 47; P_Regulatory= 33 dBm otherwise.

The normative reference for this requirement is TS 36.101 [2] clause 6.2.5G.

6.2.5G.3.4 Test description

6.2.5G.3.4.1 Initial conditions

Initial conditions are a set of test configurations the UE needs to be tested in and the steps for the SS to take with the UE to reach the correct measurement state.

The initial test configurations consist of environmental conditions, test frequencies, and channel bandwidths based on E-UTRA operating bands specified in Table 5.4.2G.1-4. All of these configurations shall be tested with applicable test parameters for each channel bandwidth, and are shown in table 6.2.5G.3.4.1-1. The details of the V2X reference measurement channels (RMCs) are specified in Annex A.8.3 and the GNSS configuration in TS 36.508 [7] subclause 4.11.

Table 6.2.5G.3.4.1-1: Test Configuration Table

Initial Conditions
Test Environment as specified in TS 36.508 [7] subclause 4.1				Normal, TL/VL, TL/VH, TH/VL, TH/VH
Test Frequencies as specified in TS 36.508 [7] subclause 4.3.1				Mid range
Test Channel Bandwidths as specified in subclause 5.4.2G				Lowest NRB_agg, Highest NRB_agg
Test Parameters for Channel Bandwidths
V2X Multi-carrier Configuration		V2X PSSCH Allocation
CC1 NRB	CC2 NRB	CC1 & CC2 Mod		CC1 and CC2 RB Allocation
50	50	QPSK		48@2+48@2

1. Connect the SS and GNSS simulator to the UE antenna connectors as shown in TS 36.508 [7] Annex A, Figure A.89a.

2. The parameter settings for the V2X sidelink transmission over PC5 are pre-configured according to TS 36.508 [7] subclause 4.10.1. Message content exceptions are defined in clause 6.2.5G.3.4.3.

3. The V2X reference measurement channel is set according to Table 6.2.5G.3.4.1-1.

4. The GNSS simulator is configured for Scenario #1: static in Geographical area #1, as defined in TS36.508 [7] Table 4.11.2-2. Geographical area #1 is also pre-configured in the UE.

5. Propagation conditions are set according to Annex B.0.

6. Ensure the UE is in State 5A-V2X according to TS 36.508 [7] clause 4.5.9.

7. The GNSS simulator is triggered to start step 1 of Scenario #1 to simulate a location in the centre of Geographical area #1. Wait for the UE to acquire the GNSS signal and start to transmit.

6.2.5G.3.4.2 Test procedure

1. The UE starts to perform the V2X sidelink communication according to SL-V2X-Preconfiguration. Since the UE has no payload and no loopback data to send the UE sends uplink MAC padding bits on the V2X RMC.

2. Measure the mean power of the UE in the channel bandwidth for each test point in Table 6.2.5G.3.5-1 according to the test configuration from Table 6.2.5G.3.4.1-1. The period of measurement shall be at least continuous duration of one sub-frame (1ms).

6.2.5G.3.4.3 Message contents

Message contents are according to TS 36.508 [7] clause 4.6, 4.7.I and 4.10 with the following exceptions:

Table 6.2.5G.3.4.3-1: SL-PSSCH-TxConfig-r14-DEFAULT: Test point 1

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20F SL-PSSCH-TxConfig-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
maxTxPower-r14	-10

Table 6.2.5G.3.4.3-2: SL-PSSCH-TxConfig-r14-DEFAULT: Test point 2

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20F SL-PSSCH-TxConfig-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
maxTxPower-r14	10

Table 6.2.5G.3.4.3-3: SL-PSSCH-TxConfig-r14-DEFAULT: Test point 3

Derivation Path: TS 36.508 [7] clause 4.6, Table 4.6.3-20F SL-PSSCH-TxConfig-r14-DEFAULT
Information Element	Value/remark	Comment	Condition
maxTxPower-r14	15

6.2.5G.3.5 Test requirement

The maximum output power measured shall not exceed the values specified in Table 6.2.5G.3.5-1.

Table 6.2.5G.3.5-1: P_CMAX configured UE output power

	maximum output power
Measured UE output power test point 1	For carrier frequency 4.2GHz < f ≤ 6.0GHz: -10 dBm ± 8.5
Measured UE output power test point 2	For carrier frequency 4.2GHz < f ≤ 6.0GHz: 10 dBm ± 7.3
Measured UE output power test point 3	For carrier frequency 4.2GHz < f ≤ 6.0GHz: 15 dBm ± 6.3