6.6.3G Transmitter Spurious emissions for V2X

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

6.6.3G.1 Transmitter Spurious emissions for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

6.6.3G.1.1 Test purpose

To verify that UE transmitter does not cause unacceptable interference to other channels or other systems in terms of transmitter spurious emissions for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

6.6.3G.1.2 Test applicability

This test case applies to UE which support V2X Sidelink communication and Band 47.

6.6.3G.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 subclause 5.2G, the transmitter spurious emissions limit in table 6.6.3G.1.3-2 apply for the frequency ranges more than FOOB listed in table 6.6.3G.1.3-1 from the edge of the transmission bandwidth.

Table 6.6.3G.1.3-1: Boundary between E-UTRA out of band and spurious emission domain

Channel bandwidth

1.4

MHz

3.0

MHz

5

MHz

10

MHz

15

MHz

20

MHz

OOB boundary FOOB (MHz)

2.8

6

10

15

20

25

Table 6.6.3G.1.3-2: Spurious emissions limits

Frequency Range

Maximum Level

Measurement bandwidth

NOTE

9 kHz ≤ f < 150 kHz

-36 dBm

1 kHz

150 kHz ≤ f < 30 MHz

-36 dBm

10 kHz

30 MHz ≤ f < 1000 MHz

-36 dBm

100 kHz

1 GHz ≤ f < 12.75 GHz

-30 dBm

1 MHz

12.75 GHz ≤ f < 5th harmonic of the upper frequency edge of the UL operating band in GHz

-30 dBm

1 MHz

1

12.75 GHz < f < 26GHz

-30dBm

1MHz

2

NOTE 1: Applies for Band 22, Band 42, Band 43 and Band 48.

NOTE 2: Applies for Band 46 and Band 47.
6.6.3G.1.4 Test description
6.6.3G.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 bands specified in sub-clause 5.2G. All of these configurations shall be tested with applicable test parameters for each channel bandwidth, and are shown in table 6.6.3G.1.4.1-1 the details of the V2X reference measurement channels (RMCs) are specified in sub-clause A.8.3 and the GNSS configuration in TS 36.508 [7] subclause 4.11.

Table 6.6.3G.1.4.1-1: Test Configuration for V2X sidelink transmission

Initial Conditions

Test Environment

(as specified in TS 36.508 [7] subclause 4.1)

NC

Test Frequencies

(as specified in TS36.508 [7] subclause 4.3.1)

Low range, Mid range, High range

Test Channel Bandwidths

(as specified in subclause 5.4.2G)

Lowest, Highest

Test Parameters for Channel Bandwidths

V2X Configuration to Transmit

Ch BW

Mod’n

PSSCH RB Allocation

10MHz

QPSK

3 (Note 2)

10MHz

QPSK

48@2

20MHz

QPSK

3 (Note 2)

20MHz

QPSK

96@2

Note 1: Test Channel Bandwidths are checked separately for each E-UTRA band, which applicable channel bandwidths are specified in Table 5.4.2.1-1.

Note 2: The test shall be performed with allocated sub-channel(s) at low and high end of the channel bandwidth respectively.

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

2. The parameter settings for the V2X sidelink transmission over PC5 for both SS and UE are pre-configured according to TS 36.508 [7] subclause 4.10.1 with the exception specified in clause 6.6.2G.1.4.3-1.

3. The V2X reference measurement channel is set according to Table 6.6.3G.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.

6.6.3G.1.4.2 Test procedure

1. The V2X UE schedules the V2X RMC with transmission power at PUMAX level according to SL-V2X-Preconfiguration which is in line with the test configuration in Table 6.6.3G.1.4.1-1;

2. Measure the power of the transmitted signal with a measurement filter of bandwidths according to table 6.6.3G.1.5-1. The centre frequency of the filter shall be stepped in contiguous steps according to table 6.6.3G.1.5-1. The measured power shall be verified for each step. During measurement the resolution bandwidth is 1% of the measurement bandwidth, and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set larger than (symbol length)*(number of points in sweep) to improve the measurement accuracy. The measurement period shall capture the active time slots. During measurement the spectrum analyser shall be set to ‘Detector’ = RMS, ‘Trace mode’ = average.

6.6.3G.1.4.3 Message contents

Message contents are according to TS 36.508 [7] subclause 4.6, with the following exception

Table 6.6.3G.1.4.3-1: SL-V2X-Preconfiguration-r14

Derivation Path: 36.508 Table 4.10.1.1-1

Information Element

Value/remark

Comment

Condition

SL-V2X-Preconfiguration-r14 ::= SEQUENCE {

v2x-PreconfigFreqList-r14 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

One entry of v2x-PreconfigFreqInfo

SL-V2X-PreconfigFreqInfo-r14[1] ::= SEQUENCE {

v2x-CommPreconfigGeneral-r14 SEQUENCE {

SL-PreconfigGeneral-r12

maxTxPower-r12

23

Power class3

26

Power class2

sl-bandwidth-r12

n50

10Mhz

n100

20Mhz

}

v2x-CommPreconfigSync-r14 SEQUENCE {

SL-PreconfigSync-r12

syncOffsetIndicators-r14 SEQUENCE {

syncOffsetIndicator1-r14

Not Present

Double synchronization signal transmission

}

}

v2x-CommRxPoolList-r14 SEQUENCE (SIZE (1..maxSL-V2X-RxPoolPreconf-r14)) OF SL-V2X-PreconfigCommPool-r14 {

1 entry

SL-V2X-PreconfigCommPool-r14[1]

SL-V2X-PreconfigCommPool-r14-DEFAULT using condition BITMAP_6 and exception listed in Table 6.6.3G.1.4.3-2

}

v2x-CommTxPoolList-r14 SEQUENCE (SIZE (1..maxSL-V2X-TxPoolPreconf-r14)) OF SL-V2X-PreconfigCommPool-r14 {

SL-V2X-PreconfigCommPool-r14[1]

SL-V2X-PreconfigCommPool-r14-DEFAULT using condition BITMAP_6 and exception listed in Table 6.6.3G.1.4.3-2

}

}

Table 6.6.3G.1.4.3-2: SL-V2X-PreconfigCommPool-r14-DEFAULT

Derivation Path: 36.508 Table 4.6.3-20J

Information Element

Value/remark

Comment

Condition

SL-CommResroucePoolV2X-r14-DEFAULT ::= SEQUENCE {

sl-Subframe-r14 CHOICE {

bs20-r14

11111111111111111111

BITMAP_6

}

sizeSubchannel-r14

n5

PSSCH RB allocation is 3

n50

PSSCH RB allocation is 48

n100

PSSCH RB allocation is 96

dataTxParameters-r14 SEQUENCE {

p0-r12

31

It’s set to the maximum value to disable its effect on transmission power.

}

}
6.6.3G.1.5 Test requirement

The measured average power of transmitter spurious emissions measured in step2 shall not exceed the value in table 6.6.3G.1.5-1.The spurious emission limits apply for the frequency ranges that are more than ΔfOOB (MHz) from the edge of the channel bandwidth shown in Table 6.6.3G.1.3-1.

NOTE: For measurement conditions at the edge of each frequency range, the lowest frequency of the measurement position in each frequency range should be set at the lowest boundary of the frequency range plus MBW/2. The highest frequency of the measurement position in each frequency range should be set at the highest boundary of the frequency range minus MBW/2. MBW denotes the measurement bandwidth defined for the protected band.

Table 6.6.3G.1.5-1: General spurious emissions test requirements

Frequency Range

Maximum Level

Measurement bandwidth

NOTE

9 kHz ≤ f < 150 kHz

-36 dBm

1 kHz

150 kHz ≤ f < 30 MHz

-36 dBm

10 kHz

30 MHz ≤ f < 1000 MHz

-36 dBm

100 kHz

1 GHz ≤ f < 12.75 GHz

-30 dBm

1 MHz

12.75 GHz ≤ f < 5th harmonic of the upper frequency edge of the UL operating band in GHz

-30 dBm

1 MHz

1

12.75 GHz < f < 26GHz

-30dBm

1MHz

2

NOTE 1: Applies for Band 22, Band 42, Band 43 and Band 48.

NOTE 2: Applies for Band 46 and Band 47.

6.6.3G.1_1 Spurious emission band UE co-existence for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

6.6.3G.1_1.1 Test purpose

To verify that UE transmitter does not cause unacceptable interference to co-existing systems for the specified bands which has specific requirements in terms of transmitter spurious emissions.

6.6.3G.1_1.2 Test applicability

This test case applies to UE which support V2X Sidelink communication and Band 47.

6.6.3G.1_1.3 Minimum conformance requirements

This clause specifies the requirements for the specified E-UTRA band for coexistence with protected bands as indicated in Tables 6.6.3G.1_1.3-1.

NOTE: For measurement conditions at the edge of each frequency range, the lowest frequency of the measurement position in each frequency range should be set at the lowest boundary of the frequency range plus MBW/2. The highest frequency of the measurement position in each frequency range should be set at the highest boundary of the frequency range minus MBW/2. MBW denotes the measurement bandwidth defined for the protected band.

Table 6.6.3G.1_1.3-1: Spurious emission band UE co-existence limits Rel-14

E-UTRA Band

Spurious emission

Protected band

Frequency range (MHz)

Maximum Level (dBm)

MBW (MHz)

NOTE

47

E-UTRA Band 1, 3, 5, 7, 8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 65, 68

FDL_low

FDL_high

-50

1

Frequency range

5925

5950

-30 EIRP

1

38, 40, 41

Frequency range

5815

5855

-30 EIRP

1

38, 41, 43

NOTE 1: FDL_low and FDL_high refer to each E-UTRA frequency band specified in Table 5.5-1

NOTE 2: As exceptions, measurements with a level up to the applicable requirements defined in Table 6.6.3.1-2 are permitted for each assigned E-UTRA carrier used in the measurement due to 2nd, 3rd, 4th [or 5th] harmonic spurious emissions. Due to spreading of the harmonic emission the exception is also allowed for the first 1 MHz frequency range immediately outside the harmonic emission on both sides of the harmonic emission. This results in an overall exception interval centred at the harmonic emission of (2MHz + N x LCRB x 180kHz), where N is 2, 3, 4, [5] for the 2nd, 3rd, 4th [or 5th] harmonic respectively. The exception is allowed if the measurement bandwidth (MBW) totally or partially overlaps the overall exception interval.

NOTE 3: To meet these requirements some restriction will be needed for either the operating band or protected band

NOTE 4: N/A

NOTE 5: For non synchronised TDD operation to meet these requirements some restriction will be needed for either the operating band or protected band

NOTE 6: N/A

NOTE 7: Applicable when co-existence with PHS system operating in 1884.5 -1919.6MHz.

NOTE 8: Applicable when co-existence with PHS system operating in 1884.5 -1915.7MHz.

NOTE 9: N/A

NOTE 10: N/A

NOTE 11: Whether the applicable frequency range should be 793-805MHz instead of 799-805MHz is TBD

NOTE 12: The emissions measurement shall be sufficiently power averaged to ensure a standard deviation < 0.5 dB

NOTE 13: This requirement applies for 5, 10, 15 and 20 MHz E-UTRA channel bandwidth allocated within 1744.9MHz and 1784.9MHz.

NOTE 14: N/A

NOTE 15: These requirements also apply for the frequency ranges that are less than FOOB (MHz) in Table 6.6.3.1-1 and Table 6.6.3.1A-1 from the edge of the channel bandwidth.

NOTE 16: N/A

NOTE 17: N/A

NOTE 18: N/A

NOTE 19: Applicable when the assigned E-UTRA carrier is confined within 718 MHz and 748 MHz and when the channel bandwidth used is 5 or 10 MHz.

NOTE 20: N/A

NOTE 21: This requirement is applicable for any channel bandwidths within the range 2500 – 2570 MHz with the following restriction: for carriers of 15 MHz bandwidth when carrier centre frequency is within the range 2560.5 – 2562.5 MHz and for carriers of 20 MHz bandwidth when carrier centre frequency is within the range 2552 – 2560 MHz the requirement is applicable only for an uplink transmission bandwidth less than or equal to 54 RB.

NOTE 22: This requirement is applicable for any channel bandwidths within the range 2570 – 2615 MHz with the following restriction: for carriers of 15 MHz bandwidth when carrier centre frequency is within the range 2605.5 – 2607.5 MHz and for carriers of 20 MHz bandwidth when carrier centre frequency is within the range 2597 – 2605 MHz the requirement is applicable only for an uplink transmission bandwidth less than or equal to 54 RB.
For carriers with channel bandwidth overlapping the frequency range 2615 – 2620 MHz the requirement applies with the maximum output power configured to +19 dBm in the IE P-Max.

NOTE 23: This requirement is applicable only for the following cases:
– for carriers of 5 MHz channel bandwidth when carrier centre frequency (Fc) is within the range 902.5 MHz ≤ Fc < 907.5 MHz with an uplink transmission bandwidth less than or equal to 20 RB
– for carriers of 5 MHz channel bandwidth when carrier centre frequency (Fc) is within the range 907.5 MHz ≤ Fc ≤ 912.5 MHz without any restriction on uplink transmission bandwidth.
– for carriers of 10 MHz channel bandwidth when carrier centre frequency (Fc) is Fc = 910 MHz with an uplink transmission bandwidth less than or equal to 32 RB with RBstart > 3.

NOTE 24: As exceptions, measurements with a level up to the applicable requirement of -38 dBm/MHz is permitted for each assigned E-UTRA carrier used in the measurement due to 2nd harmonic spurious emissions. An exception is allowed if there is at least one individual RB within the transmission bandwidth (see Figure 5.6-1) for which the 2nd harmonic totally or partially overlaps the measurement bandwidth (MBW).

NOTE 25: As exceptions, measurements with a level up to the applicable requirement of -36 dBm/MHz is permitted for each assigned E-UTRA carrier used in the measurement due to 3rd harmonic spurious emissions. An exception is allowed if there is at least one individual RB within the transmission bandwidth (see Figure 5.6-1) for which the 3rd harmonic totally or partially overlaps the measurement bandwidth (MBW).

NOTE 26: For these adjacent bands, the emission limit could imply risk of harmful interference to UE(s) operating in the protected operating band.

NOTE 27: This requirement is applicable for any channel bandwidths within the range 1920 – 1980 MHz with the following restriction: for carriers of 15 MHz bandwidth when carrier centre frequency is within the range 1927.5 – 1929.5 MHz and for carriers of 20 MHz bandwidth when carrier centre frequency is within the range 1930 – 1938 MHz the requirement is applicable only for an uplink transmission bandwidth less than or equal to 54 RB.

NOTE 28: N/A

NOTE 29: N/A

NOTE 30: This requirement applies when the E-UTRA carrier is confined within 2545-2575MHz or 2595-2645MHz and the channel bandwidth is 10 or 20 MHz

NOTE 31: N/A

NOTE 32: Void

NOTE 33: This requirement is only applicable for carriers with bandwidth confined within 1885-1920 MHz (requirement for carriers with at least 1RB confined within 1880 – 1885 MHz is not specified). This requirement applies for an uplink transmission bandwidth less than or equal to 54 RB for carriers of 15 MHz bandwidth when carrier centre frequency is within the range 1892.5 – 1894.5 MHz and for carriers of 20 MHz bandwidth when carrier centre frequency is within the range 1895 – 1903 MHz.

NOTE 34: This requirement is applicable for 5 and 10 MHz E-UTRA channel bandwidth allocated within 718-728MHz. For carriers of 10 MHz bandwidth, this requirement applies for an uplink transmission bandwidth less than or equal to 30 RB with RBstart > 1 and RBstart<48.

NOTE 35: This requirement is applicable in the case of a 10 MHz E-UTRA carrier confined within 703 MHz and 733 MHz, otherwise the requirement of -25 dBm with a measurement bandwidth of 8 MHz applies.

NOTE 36: This requirement is applicable for E-UTRA channel bandwidth allocated within 1920-1980 MHz.

NOTE 37: Applicable when the upper edge of the channel bandwidth frequency is greater than 1980MHz.

NOTE 38: Applicable when NS_33 or NS_34 is configured by the pre-configured radio parameters.

NOTE 39: Applicable only when the assigned E-UTRA carrier is confined within 824 MHz and 849 MHz for UE category M1, M2 and UE category NB1 and NB2.

NOTE 40: In the frequency range x-5950MHz, SE requirement of -30dBm/MHz should be applied; where x = max (5925, fc + 15), where fc is the channel centre frequency.

NOTE 41: The EIRP requirement is converted to conducted requirement depend on the supported post antenna connector gain Gpost connector declared by the UE following the principle described in annex I.

NOTE 42: For category NB1 and NB2 UE when carrier centre frequency is 1920.1 MHz, in case of single-tone uplink transmission the requirement is applicable only for sub-carrier index > 2.

NOTE 43: Resolution BW is 10% of the measurement BW and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set at least as 10*symbol length to improve the measurement accuracy.

The normative reference for this requirement is TS 36.101 [2] subclause 6.6.3.2.

6.6.3G.1_1.4 Test description
6.6.3G.1_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 bands specified in sub-clause 5.2G. All of these configurations shall be tested with applicable test parameters for each channel bandwidth, and are shown in table 6.6.3G.1_1.4.1-1 the details of the V2X reference measurement channels (RMCs) are specified in sub-clause A.8.3 and the GNSS configuration in TS 36.508 [7] subclause 4.11.

Table 6.6.3G.1_1.4.1-1: Test Configuration for V2X sidelink transmission

Initial Conditions

Test Environment

(as specified in TS 36.508 [7] subclause 4.1)

NC

Test Frequencies

(as specified in TS36.508 [7] subclause 4.3.1)

Low range, Mid range, High range

Test Channel Bandwidths

(as specified in subclause 5.4.2G)

Lowest, Highest

Test Parameters for Channel Bandwidths

V2X Configuration to Tansmit

Ch BW

Mod’n

PSSCH RB Allocation

10MHz

QPSK

3 (Note 2)

10MHz

QPSK

48@2

20MHz

QPSK

3 (Note 2)

20MHz

QPSK

96@2

Note 1: Test Channel Bandwidths are checked separately for operating bands for V2X sidelink communication specified in 5. 2G.

Note 2: The test shall be performed with allocated sub-channel(s) at low and high end of the channel bandwidth respectively.

Note 3: In case test frequency is operating on Band 47, NS_33 or NS_34 and no NS_XX indication shall be tested respectively.

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

2. The parameter settings for the V2X sidelink transmission over PC5 for both SS and UE are pre-configured according to TS 36.508 [7] subclause 4.10.1 with the exception specified in clause 6.6.3G.1_1.4.3-1.

3. The V2X reference measurement channel is set according to Table 6.6.3G.1_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.

6.6.3G.1_1.4.2 Test procedure

TP1: General requirement, applicable to test frequency operating on Band 47 without NS_33 or NS_34 signalled

1. The V2X UE schedules the V2X RMC with transmission power at PUMAX level (UE should be already transmitting PUMAX after Initial Conditions setting following the message contents for TP1) according to SL-V2X-Preconfiguration which is in line with the test configuration in Table 6.6.3G.1_1.4.1-1;

2. Measure the power of the transmitted signal with a measurement filter of bandwidths according to table 6.6.3G.1_1.5-1. The centre frequency of the filter shall be stepped in contiguous steps according to table 6.6.3G.1_1.5-1. The measured power shall be verified for each step. During measurement the resolution bandwidth is 1% of the measurement bandwidth, and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set larger than (symbol length)*(number of points in sweep) to improve the measurement accuracy. The measurement period shall capture the active time slots. During measurement the spectrum analyser shall be set to ‘Detector’ = RMS, ‘Trace mode’ = average.

TP2: Additional requirement applicable to test frequency operating on Band 47 with NS_33 or NS_34 signalled

1. The V2X UE schedules the V2X RMC with transmission power at PUMAX level (UE should be already transmitting PUMAX after Initial Conditions setting following the message contents for TP2) according to SL-V2X-Preconfiguration which is in line with the test configuration in Table 6.6.3G.1_1.4.1-1;

2. Measure the power of the transmitted signal with a measurement filter of bandwidths according to table 6.6.3G.1_1.5-1. The centre frequency of the filter shall be stepped in contiguous steps according to table 6.6.3G.1_1.5-1. The measured power shall be verified for each step. During measurement the resolution bandwidth is 1% of the measurement bandwidth, and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set larger than (symbol length)*(number of points in sweep) to improve the measurement accuracy. The measurement period shall capture the active time slots. During measurement the spectrum analyser shall be set to ‘Detector’ = RMS, ‘Trace mode’ = average.

6.6.3G.1_1.4.3 Message contents

For TP1: Refer to clause 6.6.3G.1.4.3.

For TP2: Refer to clause 6.6.3G.1.4.3 with the exception specified in Table 6.6.3G.1_1.4.3-1.

Table 6.6.3G.1_1.4.3-1: SL-V2X-Preconfiguration-r14

Derivation Path: 36.521 Table 6.6.3G.1.4.3-1

Information Element

Value/remark

Comment

Condition

SL-V2X-Preconfiguration-r14 ::= SEQUENCE {

v2x-PreconfigFreqList-r14 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

One entry of v2x-PreconfigFreqInfo

SL-V2X-PreconfigFreqInfo-r14 [1] ::= SEQUENCE {

v2x-CommPreconfigGeneral-r14 SEQUENCE {

maxTxPower-r12

23

When NS_33 or NS_34 is signalled, the max tx power is restricted to 23dBm

additionalSpectrumEmission-v1440

33

NS_33

Power class3

34

NS_34

Power class2

}

}

}

}
6.6.3G.1_1.5 Test requirement

The measured average power of spurious emission, derived in step 2, shall not exceed the described value in table 6.6.3G.1_1.5-1 for the operating bands for V2X sidelink communication specified in 5.2G.

Table 6.6.3G.1_1.5-1: Spurious emission band UE co-existence limits Rel-14(TP2)

E-UTRA Band

Spurious emission

Protected band

Frequency range (MHz)

Maximum Level (dBm)

MBW (MHz)

NOTE

47

E-UTRA Band 1, 3, 5, 7, 8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 65,68

FDL_low

FDL_high

-50

1

Frequency range

5925

5950

-30 EIRP

1

38, 40, 41

Frequency range

5815

5855

-30 EIRP

1

38, 41, 43

NOTE 38: Applicable when NS_33 or NS_34 is configured by the pre-configured radio parameters.

NOTE 40: In the frequency range x-5950MHz, SE requirement of -30dBm/MHz should be applied; where x = max (5925, fc + 15), where fc is the channel centre frequency.

NOTE 41: The EIRP requirement is converted to conducted requirement depend on the supported post antenna connector gain Gpost connector declared by the UE following the principle described in annex I.

NOTE 43: Resolution BW is 10% of the measurement BW and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set at least as 10*symbol length to improve the measurement accuracy.

6.6.3G.2 Spurious emission for V2X Communication / Sidelink simultaneous with E-UTRA uplink transmissions

6.6.3G.2.1 Test purpose

To verify that UE transmitter does not cause unacceptable interference to other channels or other systems in terms of transmitter spurious emissions in case of simultaneous V2X sidelink and E-UTRA uplink transmissions for inter-band E-UTRA V2X/E-UTRAN bands specified in 36.101 [2] subclause 5.5G-2.

6.6.3G.2.2 Test applicability

This test case applies to all types of E-UTRA UE release 14 and forward that supports V2X communication and is capable of V2X sidelink communication simultaneous with E-UTRA uplink/downlink.

6.6.3G.2.3 Minimum conformance requirements

In this specification the Minimum Requirements are specified as general requirements and additional requirements. Where the Requirement is specified as a general requirement, the requirement is mandated to be met in all scenarios

In terms of general spurious emission requirement, refer to clauses 6.6.3.1.3 for single carrier and 6.6.3.1A.0.

When 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 36.101 [2] Table 5.5G-2, the transmitter spurious emission limit in the table 6.6.3G.2.3-2 apply for the frequency ranges more than FOOB listed in table 6.6.3G.2.3-1 from the edge of the transmission bandwidth as specified for the corresponding inter-band con-current operation with uplink assigned to two bands.

Table 6.6.3G.2.3-1: Boundary between E-UTRA out of band and spurious emission domain

Channel bandwidth

1.4

MHz

3.0

MHz

5

MHz

10

MHz

15

MHz

20

MHz

OOB boundary FOOB (MHz)

2.8

6

10

15

20

25

Table 6.6.3G.2.3-2: Spurious emissions limits

Frequency Range

Maximum Level

Measurement bandwidth

NOTE

9 kHz ≤ f < 150 kHz

-36 dBm

1 kHz

150 kHz ≤ f < 30 MHz

-36 dBm

10 kHz

30 MHz ≤ f < 1000 MHz

-36 dBm

100 kHz

1 GHz ≤ f < 12.75 GHz

-30 dBm

1 MHz

12.75 GHz ≤ f < 5th harmonic of the upper frequency edge of the UL operating band in GHz

-30 dBm

1 MHz

1

12.75 GHz < f < 26GHz

-30dBm

1MHz

2

NOTE 1: Applies for Band 22, Band 42, Band 43 and Band 48.

NOTE 2: Applies for Band 46 and Band 47.

The normative reference for this requirement is TS 36.101 [2] subclause 4.2, 4.3A and 6.6.3G.

6.6.3G.2.4 Test description
6.6.3G.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 CC combinations based on Inter-band con-current V2X configurations specified in table clauses 5.2G and 5.4.2G. All of these configurations shall be tested with applicable test parameters for each V2X con-current band Configuration, and are shown in table 6.6.3G.2.4.1-1. The details of the uplink and V2X reference measurement channels (RMCs) are specified in sub-clause A.2 and A.8.3 respectively. Configurations of PDSCH and PDCCH before measurement are specified in Annex C.2.

Table 6.6.3G.2.4.1-1: Test Configuration

Initial Conditions

Test Environment as specified in

TS 36.508 [7] subclause 4.1

Normal

Test Frequencies as specified in

TS 36.508 [7] subclause 4.3.1

Low range for E-UTRA link and V2X sidelink,

High range for E-UTRA link and V2X sidelink

Test Channel Bandwidth combination sets as specified in table 5.4.2G.1-2

Lowest of E-UTRA link and V2X sidelink bandwidth

Highest of E-UTRA link and V2X sidelink bandwidth

Test Parameters configurations for simultaneous V2X sidelink and E-UTRA uplink

E-UTRA Uplink and V2X Sidelink Configuration / NRB_agg

DL Allocation

CC
MOD

UL Allocation

E-UTRA Uplink
NRB

E-UTRA

V2X Sidelink NRB

E-UTRA Downlink RB allocation

E-UTRA Uplink RB allocation(LCRB @ RBstart)

V2X Sidelink PSSCH RB allocation(LCRB @ RBstart)

6

50

N/A

QPSK

1@0

3@2

6

50

QPSK

1@5

3@47

6

50

QPSK

6@0

48@2

6

100

QPSK

1@0

8@2

6

100

QPSK

1@5

8@92

6

100

QPSK

6@0

96@2

15

50

QPSK

1@0

3@2

15

50

QPSK

1@14

3@47

15

50

QPSK

15@0

48@2

15

100

QPSK

1@0

8@2

15

100

QPSK

1@14

8@92

15

100

QPSK

15@0

96@2

25

50

QPSK

1@0

3@2

25

50

QPSK

1@24

3@47

25

50

QPSK

25@0

48@2

25

100

QPSK

1@0

8@2

25

100

QPSK

1@24

8@92

25

100

QPSK

25@0

96@2

50

50

QPSK

1@0

3@2

50

50

QPSK

1@49

3@47

50

50

QPSK

50@0

48@2

50

100

QPSK

1@0

8@2

50

100

QPSK

1@49

8@92

50

100

QPSK

50@0

96@2

75

50

QPSK

1@0

3@2

75

50

QPSK

1@74

3@47

75

50

QPSK

75@0

48@2

75

100

QPSK

1@0

8@2

75

100

QPSK

1@74

8@92

75

100

QPSK

75@0

96@2

100

50

QPSK

1@0

3@2

100

50

QPSK

1@99

3@47

100

50

QPSK

100@0

48@2

100

100

QPSK

1@0

8@2

100

100

QPSK

1@99

8@92

100

100

QPSK

100@0

96@2

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 6.6.3G.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 6.6.3G.2.4.1-1.

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

6. Ensure the UE is in the state 3A-RF-V2X according to TS 36.508 [7] clause 5.2A.2C.

6.6.3G.2.4.2 Test procedure

1. SS sends RRC reconfiguration message specified in clause 6.6.3G.2.4.3 to enable PSCCH and PSSCH transmission at the PUMAX level.

2. 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 6.6.3G.2.4.1-1. Since the UE has no payload and no loopback data to send the UE sends MAC padding bits on the UL and V2X RMCs.

3. SS sends continuously uplink power control "up" commands in the uplink scheduling information to the UE to ensure that the UE transmits at PUMAX level.

4. Measure the power of the transmitted signal for E-UTRA uplink with a measurement filter of bandwidths according to table 6.6.3G.2.5-1, as applicable. The centre frequency of the filter shall be stepped in continuous steps according to the same table. The measured power shall be recorded for each step. During measurement the resolution bandwidth is 1% of the measurement bandwidth, and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set larger than (symbol length)*(number of points in sweep) to improve the measurement accuracy. The measurement period shall capture the active TSs. During measurement the spectrum analyser shall be set to ‘Detector’ = RMS, ‘Trace mode’ = average.

5. Measure the power of the transmitted signal for V2X sidelink with a measurement filter of bandwidths according to table 6.6.3G.2.5-1, as applicable. The centre frequency of the filter shall be stepped in continuous steps according to the same table. The measured power shall be recorded for each step. During measurement the resolution bandwidth is 1% of the measurement bandwidth, and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set larger than (symbol length)*(number of points in sweep) to improve the measurement accuracy. The measurement period shall capture the active TSs. During measurement the spectrum analyser shall be set to ‘Detector’ = RMS, ‘Trace mode’ = average.

6.6.3G.2.4.3 Message contents

Message contents are according to TS 36.508 [7] subclause 4.6.

6.6.3G.2.5 Test requirement

For frequencies ΔfOOB greater than FOOB as specified in Table 6.6.3G.2.3-1 the measured average power of spurious emission, derived in step 4 and 5, shall not exceed the described value in Table 6.6.3G.2.5-1.

NOTE: For measurement conditions at the edge of each frequency range, the lowest frequency of the measurement position in each frequency range should be set at the lowest boundary of the frequency range plus MBW/2. The highest frequency of the measurement position in each frequency range should be set at the highest boundary of the frequency range minus MBW/2. MBW denotes the measurement bandwidth defined for the protected band.

Table 6.6.3G.2.5-1: Spurious emissions limits

Frequency Range

Maximum
Level

Measurement
Bandwidth

Notes

Test requirements for V2X_3A-47A Configuration

2285 MHz  f  2505 MHz 4070 MHz  f 4215 MHz 7565 MHz  f 7710 MHz 9275 MHz  f 9495 MHz

9925 MHz  f 10140 MHz

-30 dBm

1 MHz

13420 MHz  f 13635 MHz

-30 dBm

1 MHz

2

Test requirements for V2X_5A-47A Configuration

4157 MHz<=f< 4277 MHz
5006 MHz<=f< 5101 MHz
6679 MHz<=f< 6774 MHz
7503 MHz<=f< 7623 MHz
10861 MHz<=f< 11026 MHz
12534 MHz<=f< 12699 MHz

-30 dBm

1 MHz

Test requirements for V2X_7A-47A Configuration

715 MHz<=f< 925 MHz

-36 dBm

100 kHz

3285 MHz<=f< 3425 MHz
8355 MHz<=f< 8495 MHz
9140 MHz<=f< 9350 MHz
10855 MHz<=f< 11065 MHz

-30 dBm

1 MHz

14210 MHz<=f< 14420 MHz

-30 dBm

1 MHz

2

Test requirements for V2X_8A-47A Configuration

4025 MHz<=f< 4165 MHz
4940 MHz<=f< 5045 MHz
6735 MHz<=f< 6840 MHz
7615 MHz<=f< 7755 MHz
10795 MHz<=f< 10970 MHz
12590 MHz<=f< 12765 MHz

-30 dBm

1 MHz

12590 MHz<=f< 12765 MHz

-30 dBm

1 MHz

2

Test requirements for V2X_20A-47A Configuration

4131 MHz<=f< 4261 MHz
4993 MHz<=f< 5093 MHz
6687 MHz<=f< 6787 MHz
7519 MHz<=f< 7649 MHz
10848 MHz<=f< 11018 MHz
12542 MHz<=f< 12712 MHz

-30 dBm

1 MHz

Test requirements for V2X_28A-47A Configuration

4359 MHz<=f< 4519 MHz
5107 MHz<=f< 5222 MHz
6558 MHz<=f< 6673 MHz
7261 MHz<=f< 7421 MHz
10962 MHz<=f< 11147 MHz
12413 MHz<=f< 12598 MHz

-30 dBm

1 MHz

Test requirements for V2X_34A-47A Configuration

1805 MHz<=f< 1905 MHz
3830 MHz<=f< 3915 MHz
7865 MHz<=f< 7950 MHz
9685 MHz<=f< 9840 MHz
9875 MHz<=f< 9975 MHz

-30 dBm

1 MHz

13720 MHz<=f< 13875 MHz

-30 dBm

1 MHz

2

Test requirements for V2X_39A-47A Configuration

2015 MHz<=f< 2165 MHz
3935 MHz<=f< 4045 MHz
7735 MHz<=f< 7845 MHz
9615 MHz<=f< 9765 MHz
9790 MHz<=f< 9970 MHz

-30 dBm

1 MHz

13590 MHz<=f< 13770 MHz

-30 dBm

1 MHz

2

Test requirements for V2X_41A-47A Configuration

475 MHz<=f< 933 MHz

-36 dBm

100 kHz

3165 MHz<=f< 3429 MHz
8351 MHz<=f< 8615 MHz
9020 MHz<=f< 9354 MHz
10847 MHz<=f< 11305 MHz

-30 dBm

1 MHz

14206 MHz<=f< 14540 MHz

-30 dBm

1 MHz

2

Test requirements for V2X_71A-47A Configuration

4459 MHz<=f< 4599 MHz
5157 MHz<=f< 5262 MHz
6518 MHz<=f< 6623 MHz
7181 MHz<=f< 7321 MHz
11012 MHz<=f< 11187 MHz
12373 MHz<=f< 12548 MHz

-30 dBm

1 MHz

6.6.3G.2_1 Spurious emission band UE co-existence for V2X Communication / Sidelink simultaneous with E-UTRA uplink transmissions

6.6.3G.2_1.1 Test purpose

To verify that UE transmitter does not cause unacceptable interference to other channels or other systems in terms of transmitter spurious emissions band UE co-existence in case of simultaneous V2X sidelink and E-UTRA uplink transmissions for inter-band E-UTRA V2X/E-UTRAN bands specified in 36.101 [2] subclause 5.5G-2.

6.6.3G.2_1.2 Test applicability

This test case applies to all types of E-UTRA UE release 14 and forward that supports V2X communication and is capable of V2X sidelink communication simultaneous with E-UTRA uplink/downlink.

6.6.3G.2_1.3 Minimum conformance requirements

When 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 36.101 [2] Table 5.5G-2, the UE-coexistence requirements in Table 6.6.3G.2_1.3-1 apply as specified for the corresponding inter-band con-current operation with uplink assigned to two bands.

Table 6.6.3G.2_1.3-1: Requirements for inter-band con-current V2X operation

V2X con-current band Configuration

Spurious emission

Protected band

Frequency range (MHz)

Maximum Level (dBm)

MBW (MHz)

NOTE

V2X_3A-47A

E-UTRA Band 1, 5, 7, 8, 26, 28, 34, 39, 40, 44, 45, 65, 87, 88

FDL_low

FDL_high

-50

1

E-UTRA Band 3

FDL_low

FDL_high

-50

1

3

E-UTRA Band 22, 41, 42, 52

FDL_low

FDL_high

-50

1

2

Frequency range

5925

5950

-30

1

7,8

Frequency range

5815

5855

-30

1

7

V2X_5A-47A

E-UTRA Band 1, 3, 5, 7, 8, 10, 12, 13, 14, 17, 40, 53, 65, 103

FDL_low

FDL_high

-50

1

E-UTRA Band 26

859

869

-27

1

E-UTRA Band 41, 52

FDL_low

FDL_high

-50

1

2

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_7A-47A

E-UTRA Band 1, 3, 5, 7, 8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 52, 65, 87, 88

FDL_low

FDL_high

-50

1

Frequency range

2570

2575

+1.6

5

3, 6, 4

Frequency range

2575

2595

-15.5

5

3, 6, 4

Frequency range

2595

2620

-40

1

3, 6

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_8A-47A

E-UTRA Band 1, 5, 26, 28, 34, 39, 40, 44, 45, 65, 87, 88

FDL_low

FDL_high

-50

1

E-UTRA Band 7, 22, 41, 42, 52

FDL_low

FDL_high

-50

1

2

E-UTRA Band 3, 8

FDL_low

FDL_high

-50

1

2, 3

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_20A-47A

E-UTRA Band 1, 3, 7, 8, 22, 31, 32, 33, 34, 40, 43, 65, 67, 87, 88

FDL_low

FDL_high

-50

1

E-UTRA Band 20

FDL_low

FDL_high

-50

1

3

E-UTRA Band 38, 42, 52, 69

FDL_low

FDL_high

-50

1

2

Frequency range

758

788

-50

1

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_28A-47A

E-UTRA Band 1, 22, 42, 43, 65, 87, 88

FDL_low

FDL_high

-50

1

2

E-UTRA Band 1

FDL_low

FDL_high

-50

1

10, 11

E-UTRA Band 3, 7, 8, 20, 31, 38, 40

FDL_low

FDL_high

-50

1

Frequency range

470

694

-42

8

3, 12

Frequency range

470

710

-26.2

6

13

Frequency range

662

694

-26.2

6

3

Frequency range

758

773

-32

1

3

Frequency range

773

803

-50

1

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_34A-47A

E-UTRA Band 1, 3, 5, 7, 8, 11, 18, 19, 20, 21, 22, 26, 28, 31, 32, 33, 34, 38,39, 40, 41, 42, 43, 44, 45, 52, 65, 67, 69, 87, 88

FDL_low

FDL_high

-50

1

9

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_39A-47A

E-UTRA Band 1, 3,5,7,8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 52, 65

FDL_low

FDL_high

-50

1

Frequency range

1805

1855

[-40]

1

5

Frequency range

1855

1880

[-15.5]

5

3, 4, 5

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_41A-47A

E-UTRA Band 1, 3, 5, 7, 8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 52, 65

FDL_low

FDL_high

-50

1

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_71A-47A

E-UTRA Band 5, 26, 53

FDL_low

FDL_high

-50

1

E-UTRA Band 41

FDL_low

FDL_high

-50

1

2

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

NOTE 1: FDL_low and FDL_high refer to each E-UTRA frequency band specified in 36.101 [2] Table 5.5-1

NOTE 2: As exceptions, measurements with a level up to the applicable requirements defined in 36.101 [2] Table 6.6.3.1-2 are permitted for each assigned E-UTRA carrier used in the measurement due to 2nd, 3rd, 4th [or 5th] harmonic spurious emissions. In case the exceptions are allowed due to spreading of the harmonic emission the exception is also allowed for the first 1 MHz frequency range immediately outside the harmonic emission on both sides of the harmonic emission. This results in an overall exception interval centred at the harmonic emission of (2MHz + N x LCRB x 180kHz), where N is 2, 3 or 4 for the 2nd, 3rd or 4th harmonic respectively. The exception is allowed if the measurement bandwidth (MBW) totally or partially overlaps the overall exception interval.

NOTE 3: These requirements also apply for the frequency ranges that are less than FOOB (MHz) in 36.101 [2] Table 6.6.3.1-1 and 36.101 [2] Table 6.6.3.1A-1 from the edge of the aggregated channel bandwidth.

NOTE 4: For these adjacent bands, the emission limit could imply risk of harmful interference to UE(s) operating in the protected operating band.

NOTE 5: This requirement is only applicable for carriers with bandwidth confined within 1885-1920 MHz (requirement for carriers with at least 1RB confined within 1880 – 1885 MHz is not specified). This requirement applies for an uplink transmission bandwidth less than or equal to 54 RB for carriers of 15 MHz bandwidth when carrier centre frequency is within the range 1892.5 – 1894.5 MHz and for carriers of 20 MHz bandwidth when carrier centre frequency is within the range 1895 – 1903 MHz.

NOTE 6: As exceptions, measurements with a level up to the applicable requirement of -38 dBm/MHz is permitted for each assigned E-UTRA carrier used in the measurement due to 2nd harmonic spurious emissions. An exception is allowed if there is at least one individual RB within the transmission bandwidth (see 36.101 [2] Figure 5.6-1) for which the 2nd harmonic totally or partially overlaps the measurement bandwidth (MBW).

NOTE 7: Applicable when NS_33 or NS_34 is configured by the pre-configured radio parameters.

NOTE 8: In the frequency range x-5950MHz, SE requirement of -30dBm/MHz should be applied; where x = max (5925, fc + 15), where fc is the channel centre frequency.

NOTE 9: For non synchronised TDD operation to meet these requirements some restriction will be needed for either the operating band or protected band

NOTE 10: Applicable when the assigned E-UTRA carrier is confined within 718 MHz and 748 MHz and when the channel bandwidth used is 5 or 10 MHz.

NOTE 11: As exceptions, measurements with a level up to the applicable requirement of -36 dBm/MHz is permitted for each assigned E-UTRA carrier used in the measurement due to 3rd harmonic spurious emissions. An exception is allowed if there is at least one individual RB within the transmission bandwidth (see Figure 5.6-1) for which the 3rd harmonic totally or partially overlaps the measurement bandwidth (MBW).

NOTE 12: This requirement is applicable in the case of a 10 MHz E-UTRA carrier confined within 703 MHz and 733 MHz, otherwise the requirement of -25 dBm with a measurement bandwidth of 8 MHz applies.

NOTE 13: This requirement is applicable for 5 and 10 MHz E-UTRA channel bandwidth allocated within 718-728MHz. For carriers of 10 MHz bandwidth, this requirement applies for an uplink transmission bandwidth less than or equal to 30 RB with RBstart > 1 and RBstart<48.

The normative reference for this requirement is TS 36.101 [2] subclauses 4.3A, 6.6.3, and 6.6.3G.

6.6.3G.2_1.4 Test description
6.6.3G.2_1.4.1 Initial conditions

Refer to the subclause 6.6.3G.2.4.1 with the following exceptions:

Instead of Table 6.6.3G.2.4.1-1 🡪 use of Table 6.6.3G.2_1.4.1-1

Table 6.6.3G.2_1.4.1-1: Test Configuration Table

Initial Conditions

Test Environment as specified in TS 36.508[7] subclause 4.1

NC

Test Frequencies as specified in TS36.508 [7] subclause 4.3.1 for different CA bandwidth classes.

For test frequencies refer to “Range” columns.

Test Inter-band con-current V2X bandwidth combination sets as specified in Table 5.4.2G.1-2 for the Inter-band con-current V2X configuration across bandwidth combination sets supported by the UE.

Refer to “Uplink CC NRB”and “Sidelink CC NRB ” columns

Test Parameters for Inter-band con-current V2X Configurations

ID

Inter-band con-current V2X Configuration / NRB_agg

DL Allocation

UL and SL Allocation (Note 2,3)

Inter-band con-current V2X Configuration

Uplink CC NRB

Sidelink CC NRB

CC MOD

Uplink CC & Sidelink CC RB allocation

CC MOD

Uplink CC & Sidelink CC RB allocations
(LCRB @ RBstart)

Uplink CC

Sidelink CC

Uplink CC

Sidelink CC

Band

Range

Band

Range

Default Test Settings for a Inter-band con-current V2X _XA-YA Configuration

1

X

Low

Y

Low

Highest NRB

50

QPSK

NA

QPSK

1@0

3@2

2

X

High

Y

High

Highest NRB

50

QPSK

NA

QPSK

1@RBmax

3@47

3

X

Low

Y

Low

Highest NRB

100

QPSK

NA

QPSK

1@0

8@2

4

X

High

Y

High

Highest NRB

100

QPSK

NA

QPSK

1@RBmax

8@92

Test settings for V2X_3A_47A Configuration

1

3

Low

47

Low

100

100

QPSK

NA

QPSK

1@0

8@2

2

3

High

47

High

100

100

QPSK

NA

QPSK

1@99

8@92

3

3

Low

47

High

100

100

QPSK

NA

QPSK

1@0

8@92

Test settings for V2X_7A_47A Configuration

1

7

Low

47

Low

100

100

QPSK

NA

QPSK

1@0

8@2

2

7

High

47

High

100

100

QPSK

NA

QPSK

1@99

8@92

3

7

Low

47

Mid

100

100

QPSK

NA

QPSK

1@0

8@2

4

7

Low

47

High

100

100

QPSK

NA

QPSK

1@0

8@2

Test settings for V2X_34A_47A Configuration

1

34

Low

47

Low

75

100

QPSK

NA

QPSK

1@0

8@2

2

34

High

47

High

75

100

QPSK

NA

QPSK

1@99

8@92

3

34

Low

47

High

75

100

QPSK

NA

QPSK

1@0

8@2

4

34

Low

47

High

75

100

QPSK

NA

QPSK

1@0

8@92

Test settings for V2X_39A_47A Configuration

1

39

Low

47

Low

100

100

QPSK

NA

QPSK

1@0

8@2

2

39

High

47

High

100

100

QPSK

NA

QPSK

1@99

8@92

3

39

Low

47

Mid

100

100

QPSK

NA

QPSK

1@0

8@92

4

39

Low

47

High

100

100

QPSK

NA

QPSK

1@0

8@92

5

39

High

47

Low

100

100

QPSK

NA

QPSK

1@99

8@2

Test settings for V2X_41A_47A Configuration

1

41

Low

47

Low

100

100

QPSK

NA

QPSK

1@0

8@2

2

41

High

47

High

100

100

QPSK

NA

QPSK

1@99

8@92

3

41

Low

47

Low

100

100

QPSK

NA

QPSK

1@0

8@92

4

41

Low

47

High

100

100

QPSK

NA

QPSK

1@0

8@92

5

41

Note4

47

Mid

100

100

QPSK

NA

QPSK

1@0

8@2

6

41

Low

47

High

100

100

QPSK

NA

QPSK

1@0

8@2

7

41

Mid

47

High

100

100

QPSK

NA

QPSK

1@0

8@2

Note 1: Test Inter-band con-current V2X bandwidths combination sets are checked separately for each Inter-band con-current V2X Configuration.

Note 2: Use Inter-band con-current V2X Configuration – specific test points if present in the table. Otherwise use the Default Test Settings test points.

Note 3: X,Y correspond to the different bands in the Inter-band con-current V2X Configuration. E.g. for V2X_3A-47A,X=3,Y=47.

Note 4: EARFCN is 40250.
6.6.3G.2_1.4.2 Test procedure

Same as the subclause 6.6.3G.2.4.2, with the following exceptions:

Instead of Table 6.6.3G.2.5-1 🡪 use Table 6.6.3G.2_1.5-1

6.6.3G.2_1.4.3 Message contents

Refer to the subclause 6.6.3G.2.4.3.

6.6.3G.2_1.5 Test requirement

The measurement average power of spurious emission, derived in step 4 and 5, shall not exceed the described value specified in Table 6.6.3G.2_1.5-1.

6.6.3G.2_1.5-1 Test Requirement on Spurious Emission band UE co-existence for V2X Communication / Sidelink simultaneous with E-UTRA uplink transmissions

V2X con-current band Configuration

Spurious emission

Protected band

Frequency range (MHz)

Maximum Level (dBm)

MBW (MHz)

NOTE

V2X_3A-47A

E-UTRA Band 1, 5, 7, 8, 26, 28, 34, 39, 40, 44, 45, 65, 87, 88

FDL_low

FDL_high

-50

1

E-UTRA Band 3

FDL_low

FDL_high

-50

1

3

E-UTRA Band 22, 41, 42, 52

FDL_low

FDL_high

-50

1

2

Frequency range

5925

5950

-30

1

7,8

Frequency range

5815

5855

-30

1

7

V2X_5A-47A

E-UTRA Band 1, 3, 5, 7, 8, 10, 12, 13, 14, 17, 40, 65, 85, 103

FDL_low

FDL_high

-50

1

E-UTRA Band 26

859

869

-27

1

E-UTRA Band 41, 52

FDL_low

FDL_high

-50

1

2

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_7A-47A

E-UTRA Band 1, 3, 5, 7, 8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 52, 65, 87, 88

FDL_low

FDL_high

-50

1

Frequency range

2570

2575

+1.6

5

3, 6, 4

Frequency range

2575

2595

-15.5

5

3, 6, 4

Frequency range

2595

2620

-40

1

3, 6

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_8A-47A

E-UTRA Band 1, 5, 26, 28, 34, 39, 40, 44, 45, 65, 87, 88

FDL_low

FDL_high

-50

1

E-UTRA Band 7, 22, 41, 42, 52

FDL_low

FDL_high

-50

1

2

E-UTRA Band 3, 8

FDL_low

FDL_high

-50

1

2, 3

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_20A-47A

E-UTRA Band 1, 3, 7, 8, 22, 31, 32, 33, 34, 40, 43, 65, 67, 87, 88

FDL_low

FDL_high

-50

1

E-UTRA Band 20

FDL_low

FDL_high

-50

1

3

E-UTRA Band 38, 42, 52, 69

FDL_low

FDL_high

-50

1

2

Frequency range

758

788

-50

1

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_28A-47A

E-UTRA Band 1, 22, 42, 43, 65, 87, 88

FDL_low

FDL_high

-50

1

2

E-UTRA Band 1

FDL_low

FDL_high

-50

1

10, 11

E-UTRA Band 3, 7, 8, 20, 31, 38, 40

FDL_low

FDL_high

-50

1

Frequency range

470

694

-42

8

3, 12

Frequency range

470

710

-26.2

6

13

Frequency range

662

694

-26.2

6

3

Frequency range

758

773

-32

1

3

Frequency range

773

803

-50

1

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_34A-47A

E-UTRA Band 1, 3, 5, 7, 8, 11, 18, 19, 20, 21, 22, 26, 28, 31, 32, 33, 34, 38,39, 40, 41, 42, 43, 44, 45, 52, 65, 67, 69, 87, 88

FDL_low

FDL_high

-50

1

9

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_39A-47A

E-UTRA Band 1, 3,5,7,8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 52, 65

FDL_low

FDL_high

-50

1

Frequency range

1805

1855

[-40]

1

5

Frequency range

1855

1880

[-15.5]

5

3, 4, 5

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_41A-47A

E-UTRA Band 1, 3, 5, 7, 8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 52, 65

FDL_low

FDL_high

-50

1

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

V2X_71A-47A

E-UTRA Band 5, 26

FDL_low

FDL_high

-50

1

E-UTRA Band 41

FDL_low

FDL_high

-50

1

2

Frequency range

5925

5950

-30

1

7, 8

Frequency range

5815

5855

-30

1

7

NOTE 1: FDL_low and FDL_high refer to each E-UTRA frequency band specified in Table 5.5-1

NOTE 2: As exceptions, measurements with a level up to the applicable requirements defined in Table 6.6.3.1-2 are permitted for each assigned E-UTRA carrier used in the measurement due to 2nd, 3rd, 4th [or 5th] harmonic spurious emissions. In case the exceptions are allowed due to spreading of the harmonic emission the exception is also allowed for the first 1 MHz frequency range immediately outside the harmonic emission on both sides of the harmonic emission. This results in an overall exception interval centred at the harmonic emission of (2MHz + N x LCRB x 180kHz), where N is 2, 3 or 4 for the 2nd, 3rd or 4th harmonic respectively. The exception is allowed if the measurement bandwidth (MBW) totally or partially overlaps the overall exception interval.

NOTE 3: These requirements also apply for the frequency ranges that are less than FOOB (MHz) in Table 6.6.3.1-1 and Table 6.6.3.1A-1 from the edge of the aggregated channel bandwidth.

NOTE 4: For these adjacent bands, the emission limit could imply risk of harmful interference to UE(s) operating in the protected operating band.

NOTE 5: This requirement is only applicable for carriers with bandwidth confined within 1885-1920 MHz (requirement for carriers with at least 1RB confined within 1880 – 1885 MHz is not specified). This requirement applies for an uplink transmission bandwidth less than or equal to 54 RB for carriers of 15 MHz bandwidth when carrier center frequency is within the range 1892.5 – 1894.5 MHz and for carriers of 20 MHz bandwidth when carrier center frequency is within the range 1895 – 1903 MHz.

NOTE 6: As exceptions, measurements with a level up to the applicable requirement of -38 dBm/MHz is permitted for each assigned E-UTRA carrier used in the measurement due to 2nd harmonic spurious emissions. An exception is allowed if there is at least one individual RB within the transmission bandwidth (see Figure 5.6-1) for which the 2nd harmonic totally or partially overlaps the measurement bandwidth (MBW).

NOTE 7: Applicable when NS_33 or NS_34 is configured by the pre-configured radio parameters.

NOTE 8: In the frequency range x-5950MHz, SE requirement of -30dBm/MHz should be applied; where x = max (5925, fc + 15), where fc is the channel centre frequency.

NOTE 9: For non synchronised TDD operation to meet these requirements some restriction will be needed for either the operating band or protected band

NOTE 10: Applicable when the assigned E-UTRA carrier is confined within 718 MHz and 748 MHz and when the channel bandwidth used is 5 or 10 MHz.

NOTE 11: As exceptions, measurements with a level up to the applicable requirement of -36 dBm/MHz is permitted for each assigned E-UTRA carrier used in the measurement due to 3rd harmonic spurious emissions. An exception is allowed if there is at least one individual RB within the transmission bandwidth (see Figure 5.6-1) for which the 3rd harmonic totally or partially overlaps the measurement bandwidth (MBW).

NOTE 12: This requirement is applicable in the case of a 10 MHz E-UTRA carrier confined within 703 MHz and 733 MHz, otherwise the requirement of -25 dBm with a measurement bandwidth of 8 MHz applies.

NOTE 13: This requirement is applicable for 5 and 10 MHz E-UTRA channel bandwidth allocated within 718-728MHz. For carriers of 10 MHz bandwidth, this requirement applies for an uplink transmission bandwidth less than or equal to 30 RB with RBstart > 1 and RBstart<48.

6.6.3G.2_2 Additional Spurious emission band UE co-existence for V2X Communication / Sidelink simultaneous with E-UTRA uplink transmissions

Editor’s Note: Currently no inter-band con-current V2X operating bands exist with IMD products falling into the frequency ranges 5925MHz – 5950MHz, and 5815 MHz – 5855 MHz where additional requirements apply for NS_33 or NS_34. Therefore, the test case is omitted.

6.6.3G.3 Spurious emission for V2X Communication / Intra-band contiguous MCC operation

6.6.3G.3.1 Test purpose

To verify that transmitter of UE that support V2X MCC operation does not cause unacceptable interference to other channels or other systems in terms of transmitter spurious emissions.

6.6.3G.3.2 Test applicability

This test case applies to UE which support Intra-band contiguous multi-carrier operation V2X Sidelink communication and Band 47.

6.6.3G.3.3 Minimum conformance requirements

For intra-band contiguous carrier aggregation the spurious emission limits apply for the frequency ranges that are more than FOOB (MHz) in Table 6.6.3G.3.3-1from the edge of the aggregated channel bandwidth (Table 5.6A-1). For frequencies ΔfOOB greater than FOOB the spurious emission requirements in Table 6.6.3G.3.3-2 are applicable.

Table 6.6.3G.3.3-1: Boundary between E-UTRA out of band and spurious emission domain for intra-band contiguous carrier aggregation

CA Bandwidth Class

OOB boundary FOOB

(MHz)

A

Table 6.6.3.1.3-1

B

BWChannel_CA + 5

C

BWChannel_CA + 5

Table 6.6.3G.3.3-2: Spurious emissions limits

Frequency Range

Maximum Level

Measurement bandwidth

NOTE

9 kHz ≤ f < 150 kHz

-36 dBm

1 kHz

150 kHz ≤ f < 30 MHz

-36 dBm

10 kHz

30 MHz ≤ f < 1000 MHz

-36 dBm

100 kHz

1 GHz ≤ f < 12.75 GHz

-30 dBm

1 MHz

12.75 GHz ≤ f < 5th harmonic of the upper frequency edge of the UL operating band in GHz

-30 dBm

1 MHz

1

12.75 GHz < f < 26GHz

-30dBm

1MHz

2

NOTE 1: Applies for Band 22, Band 42, Band 43 and Band 48.

NOTE 2: Applies for Band 46 and Band 47.

The normative reference for this requirement is TS 36.101 [2] subclause 6.6.3G.

6.6.3G.3.4 Test description
6.6.3G.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 bands specified in sub-clause 5.2G. All of these configurations shall be tested with applicable test parameters for each channel bandwidth, and are shown in table 6.6.3G.3.4.1-1 the details of the V2X reference measurement channels (RMCs) are specified in sub-clause A.8.3 and the GNSS configuration in TS 36.508 [7] subclause 4.11.

Table 6.6.3G.3.4.1-1: Test Configuration for V2X sidelink transmission

Initial Conditions

Test Environment as specified in

TS 36.508 [7] subclause 4.1

Normal

Test Frequencies as specified in

TS 36.508 [7] subclause 4.3.1

Low range, High range

Test CC Combination setting(NRB_agg) 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+0@0

50

50

QPSK

3@2+0@0

50

50

QPSK

3@47+0@0

50

50

QPSK

3@2+3@47

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] Figure A.89a.

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

3. Set the V2X sidelink communication parameters for both the V2X sidelink capable UE (hereinafter referred to as V2X UE) and SS according to SL-V2X-Preconfiguration in TS36.508 [7] subclause Table 6.8.2.1-1A with the exception specified in table 6.6.3G.3.4.3-1;

3a 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.

4. Ensure the UE is in Side link State 5A-V2X in Transmit Mode, according to TS 36.508 [7] clause 4.5.9. Message contents are defined in clause 6.6.3G.3.4.3.

5. 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.

6.6.3G.3.4.2 Test procedure

1. The V2X UE schedules the V2X RMC with transmission power at PUMAX level according to SL-V2X-Preconfiguration which is in line with the test configuration in Table 6.6.3G.3.4.1-1;

2. Measure the power of the transmitted signal with a measurement filter of bandwidths according to table 6.6.3G.3.5-1. The centre frequency of the filter shall be stepped in contiguous steps according to table 6.6.3G.3.5-1. The measured power shall be verified for each step. During measurement the resolution bandwidth is 1% of the measurement bandwidth, and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set larger than (symbol length)*(number of points in sweep) to improve the measurement accuracy. The measurement period shall capture the active time slots. During measurement the spectrum analyser shall be set to ‘Detector’ = RMS, ‘Trace mode’ = average.

6.6.3G.3.4.3 Message contents

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

Table 6.6.3G.3.4.3-1: SL-V2X-PreconfigFreqInfo-r14-DEFAULT for CC1 & CC2

Derivation Path: 36.331 clause 9.3.2

Information Element

Value/remark

Comment

Condition

SL-V2X-Preconfiguration-r14 ::= SEQUENCE {

v2x-PreconfigFreqList-r14 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

One entry of v2x-PreconfigFreqInfo

v2x-CommPreconfigGeneral-r14 SEQUENCE {

SL-PreconfigGeneral-r12

maxTxPower-r12

23

Power class3

sl-bandwidth-r12

n50

10Mhz

}

}

v2x-CommPreconfigSync-r14 SEQUENCE {

SL-PreconfigSync-r12

syncOffsetIndicators-r14 SEQUENCE {

syncOffsetIndicator1-r14

Not Present

Double synchronization signal transmission

}

}

v2x-CommRxPoolList-r14 SEQUENCE (SIZE (1..maxSL-V2X-RxPoolPreconf-r14)) OF SL-V2X-PreconfigCommPool-r14 {

1 entry

SL-V2X-PreconfigCommPool-r14[1]

SL-V2X-PreconfigCommPool-r14-DEFAULT using condition BITMAP_6 and exception listed in Table 6.6.3G.3.4.3-2

}

v2x-CommTxPoolList-r14 SEQUENCE (SIZE (1..maxSL-V2X-TxPoolPreconf-r14)) OF SL-V2X-PreconfigCommPool-r14 {

SL-V2X-PreconfigCommPool-r14[1]

SL-V2X-PreconfigCommPool-r14-DEFAULT using condition BITMAP_6 and exception listed in Table 6.6.3G.3.4.3-2

}

}

Table 6.6.3G.3.4.3-2: SL-V2X-PreconfigCommPool-r14-DEFAULT

Derivation Path: 36.331 clause 6.3.8

Information Element

Value/remark

Comment

Condition

SL-CommResroucePoolV2X-r14-DEFAULT ::= SEQUENCE {

sl-Subframe-r14 CHOICE {

bs20-r14

11111111111111111111

BITMAP_6

}

sizeSubchannel-r14

n5, n50

As required in Table 6.6.3G.3.4.1-1

BW10

numSubchannel-r14

n1

dataTxParameters-r14 SEQUENCE {

p0-r12

31

It’s set to the maximum value to disable its effect on transmission power

PSSCH+PSCCH TP1, PSSCH+PSCCH TP2,

PSSCH+PSCCH TP3

}

syncAllowed-r14 ::= SEQUENCE {

gnss-Sync-r14

True

The resource of CC1 can be used if the UE is directly or indirectly synchronized to GNSS

CC with LCRB >0

enb-Sync-r14

True

The resource of CC1 can be used if the UE is directly or indirectly synchronized to enb

CC with LCRB =0

}

}
6.6.3G.3.5 Test requirement

The measured average power of transmitter spurious emissions measured in step2 shall not exceed the value in table 6.6.3G.3.3-1.The spurious emission limits apply for the frequency ranges that are more than ΔfOOB (MHz) from the edge of the channel bandwidth shown in Table 6.6.3G.3.3-2.

6.6.3G.3_1 Spurious emission band UE co-existence for V2X Communication / Intra-band contiguous MCC operation

6.6.3G.3_1.1 Test purpose

To verify that V2X UE transmitter does not cause unacceptable interference to co-existing systems for the specified bands which has specific requirements in terms of transmitter spurious emissions, when UE is configured for E-UTRA V2X sidelink transmissions with Intra-band contiguous MCC operation.

6.6.3G.3_1.2 Test Applicability

This test case applies to UE which support Intra-band contiguous multi-carrier operation V2X Sidelink communication and Band 47.

6.6.3G.3_1.3 Minimum conformance requirements

When UE is configured for E-UTRA V2X sidelink transmissions with Intra-band contiguous MCC operation, for intra-band contiguous multi-carrier operation, the spurious emission requirements in Table 6.6.3G.3_1.3-1 shall apply for coexistence with protected bands.

NOTE: For measurement conditions at the edge of each frequency range, the lowest frequency of the measurement position in each frequency range should be set at the lowest boundary of the frequency range plus MBW/2. The highest frequency of the measurement position in each frequency range should be set at the highest boundary of the frequency range minus MBW/2. MBW denotes the measurement bandwidth defined for the protected band.

Table 6.6.3G.3_1.3-1: Requirements for intraband multi-carrier V2X operation

V2X multi-carrier Configuration

Spurious emission

Protected band

Frequency range (MHz)

Maximum Level (dBm)

MBW (MHz)

NOTE

V2X_47B

E-UTRA Band 1, 3, 5, 7, 8, 22, 26, 28, 34, 39, 40, 41, 42, 44, 45, 65

FDL_low

FDL_high

-50

1

The normative reference for this requirement is TS 36.101 [2] subclause 6.6.3G.

6.6.3G.3_1.4 Test Description
6.6.3G.3_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 bands specified in sub-clause 5.2G. All of these configurations shall be tested with applicable test parameters for each channel bandwidth, and are shown in table 6.6.3G.3_1.4.1-1 the details of the V2X reference measurement channels (RMCs) are specified in sub-clause A.8.3 and the GNSS configuration in TS 36.508 [7] subclause 4.11.

Table 6.6.3G.3_1.4-1: Test Configuration for V2X sidelink transmission

Initial Conditions

Test Environment as specified in

TS 36.508 [7] subclause 4.1

Normal

Test Frequencies as specified in

TS 36.508 [7] subclause 4.3.1

Low range, High range

Test CC Combination setting(NRB_agg) 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+0@0

50

50

QPSK

3@2+0@0

50

50

QPSK

3@47+0@0

50

50

QPSK

3@2+3@47

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] Figure A.89a.

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

3. Set the V2X sidelink communication parameters for both the V2X sidelink capable UE (hereinafter referred to as V2X UE) and SS according to SL-V2X-Preconfiguration in TS36.508 [7] subclause Table [6.8.2.1-1A] with the exception specified in subclause 6.6.3G.3_1.4.3.

3a 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.

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

5. 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.

6.6.3G.3_1.4.2 Test procedure

1. The V2X UE schedules the V2X RMC with transmission power at PUMAX level according to SL-V2X-Preconfiguration which is in line with the test configuration in Table 6.6.3G.3_1.4.1-1;

2. Measure the power of the transmitted signal with a measurement filter of bandwidths according to table 6.6.3G.3_1.4-1. The centre frequency of the filter shall be stepped in contiguous steps according to table 6.6.3G.3_1.4-1. The measured power shall be verified for each step. During measurement the resolution bandwidth is 1% of the measurement bandwidth, and the result should be integrated to achieve the measurement bandwidth. The sweep time shall be set larger than (symbol length)*(number of points in sweep) to improve the measurement accuracy. The measurement period shall capture the active time slots. During measurement the spectrum analyser shall be set to ‘Detector’ = RMS, ‘Trace mode’ = average.

6.6.3G.3_1.4.3 Message contents

The message contents are the same as in clause 6.6.3G.3.4.3

6.6.3G.3_1.5 Test requirement

The measured average power of transmitter spurious emissions measured in step2 shall not exceed the value in table 6.6.3G.3_1.3-1.