6.2B.3 UE additional maximum output power reduction for EN-DC

38.521-33GPPNRPart 3: Range 1 and Range 2 Interworking operation with other radiosRadio transmission and receptionRelease 17TSUser Equipment (UE) conformance specification

6.2B.3.1 UE Additional Maximum Output Power reduction for Intra-band contiguous EN-DC

Editor’s note:

– Test requirements for non-overlapping transmission of non-DPS UE need further investigation

6.2B.3.1.1 Test purpose

Additional emission requirements can be signalled by the network with network signalling value indicated by the field additionalSpectrumEmission. To meet these additional requirements, additional maximum power reduction (A-MPR) is allowed for the maximum output power as specified in Table 6.2B.1.1.3-1. Unless stated otherwise, an A-MPR of 0 dB shall be used.

6.2B.3.1.2 Test applicability

The requirements of this test apply in test case 6.5B.2.1.2 Additional spectrum emission mask for network signalled values NS_04 and NS_35 to all types of E-UTRA power class 3 and power class 2 UE release 15 and forward, supporting intra-band contiguous EN-DC.

6.2B.3.1.3 Minimum conformance requirements

For intra-band contiguous EN-DC band combinations with additional requirements the allowed A-MPR is specified in table 6.2B.3.1.3-1 for UEs configured with EN-DC and combinations of network signalling values indicated in the E-UTRA and NR cell groups.

Unless otherwise stated the A-MPR specified insubclause 6.2B.3.1 for intra-band contiguous EN-DC configurations is the total power reduction allowed including MPR.

Table 6.2B.3.1.3-1: Additional maximum power reduction for Intra-band contiguous EN-DC

DC configuration

Requirement (subclause)

E-UTRA network signalling value

NR network signalling value

A-MPR

(clause)

DC_(n)71AA

6.5B.2.1.2.3.1

NS_35

NS_35

6.2B.3.1.3.13

DC_(n)41AA1

6.5B.2.1.2.3.2

NS_01 or NS_04

NS_04

6.2B.3.1.3.24

NOTE 1: Only applies to UEs that support dual UL transmission for this EN-DC combination.

NOTE 2: The additional emission requirement is indicated when the combination of network signalling values in the two CGs is set (only for UEs configured with EN-DC).

NOTE 3: The A-MPR is applied as MPR if NS_35 is not signalled.

NOTE 4: Void.

The normative reference for this requirement is TS 38.101-3 [4] clause 6.2B.3.1.

Exception requirements for both NR and E-UTRA are defined for this test when transmission on E-UTRA overlap in time with NR.LTE anchor agnostic approach is not applied for this case. E-UTRA test point analysis is included and E-UTRA measurements are performed.

Exception requirements for both NR and E-UTRA are defined for this test when transmission on E-UTRA doesn’t overlap in time with NR, for a UE that doesn’t support dynamic power sharing. LTE anchor agnostic approach is not applied for this case. E-UTRA test point analysis is included and E-UTRA measurements are performed.

No exception requirements for NR or E-UTRA are defined for this test when transmission on E-UTRA doesn’t overlap in time with NR, for a UE that supports dynamic power sharing. LTE anchor agnostic approach is not applied for this case.

6.2B.3.1.3.1 A-MPR for DC_(n)71AA

For UE supporting dynamic power sharing the following:

– for the MCG, A-MPRc in accordance with TS 36.101 [5]

– for the SCG, A-MPR’c = [A-MPRDC]

– for the total configured transmission power, A-MPRtot = A-MPRDC

with A-MPRDC as defined in this subclause.

For UEs not supporting dynamic power sharing the following

– for the MCG,

A-MPRc = A-MPRE-UTRA

– for the SCG,

A-MPR’c = A-MPRNR

with A-MPRE-UTRA and A-MPRNR as defined in this subclause.

For DC_(n)71AA with configured with network signaling values as per Table 6.2B.3.1.0-1 the allowed A-MPR is defined by

– for UE indicating support of dynamicPowerSharing in the UE-MRDC-Capability IE

A-MPRDC = CEIL{ MA,DC (A), 0.5}

where A-MPRDC is the total power reduction allowed (dB),

– for OFDM:

MA,DC = 11.00 – 11.67*A; 0.00 < A ≤ 0.30

8.10 – 2.00*A; 0.30 < A ≤ 0.80

6.50; 0.80 < A ≤ 1.00

– for DFT-S-OFDM:

MA,DC = 11.00 – 13.33*A; 0.00 < A ≤ 0.30

8.00 – 3.33*A; 0.30 < A ≤ 0.60

6.00; 0.60 < A ≤ 1.00

where:

with LCRB, E-UTRA and NRB, E-UTRA the number of allocated PRB and transmission bandwidth for MCG, LCRB,NR and NRB,NR the number of allocated PRB and transmission bandwidth for SCG with SCS = 15 kHz.

– for UE not indicating support of dynamicPowerSharing

A- MPRE-UTRA = CEIL{ MA, E-UTRA, 0.5}

A-MPRNR = CEIL{ MA,NR, 0.5}

where A-MPR is the total power reduction allowed per CG with

Where LCRB,NR and NRB,NR the number of allocated PRB and transmission bandwidth for SCG with SCS = 15 kHz.

6.2B.3.1.3.2 A-MPR for NS_04

6.2B.3.1.3.2.0 General

When the UE is configured for B41/n41 intra-band contiguous EN-DC and it receives IE NS_04, the UE determines the total allowed maximum output power reduction as specified in this clause. The A-MPR for EN-DC defined in this clause is used instead of MPR defined in 6.2B.2.2, not additively, so EN-DC MPR = 0 when NS_04 is signaled. For UEs scheduled with single uplink transmission, AMPR in subclause 6.2.4 of [5] and 6.2.3 of [2] apply.

For UE supporting dynamic power sharing the following:

– for the MCG, A-MPRc in accordance with 36.101 [5]

– for the SCG,

A-MPR’c = A-MPRNR = MAX( A-MPRsingle,NR, A-MPRIM3)

– for the total configured transmission power,

A-MPRtot = PPowerClass,EN-DC – min(PPowerClass,EN-DC ,10*log10(10^((PPowerClass,E-UTRA – A-MPRE-UTRA)/10) + 10^((PPowerClass,NR – A-MPRNR)/10))

where

A-MPRE-UTRA = MAX( A-MPRsingle,E-UTRA + MPRsingle,E-UTRA, A-MPRIM3 )

with

– A-MPRsingle, E-UTRA is the A-MPR defined for the E-UTRA transmission in TS 36.101 [5]

– A-MPRsingle,NR is the A-MPR defined for the NR transmission in TS 38.101-1 [2]

– MPRsingle,E-UTRA is the MPR defined for the E-UTRA transmission in TS 36.101 [5]

For UEs not supporting dynamic power sharing the following

– for the MCG,

A-MPRc = MAX( A-MPRsingle, E-UTRA + MPRsingle,E-UTRA, A-MPRIM3 )

– for the SCG,

A-MPR’c = MAX( A-MPRsingle,NR, A-MPRIM3 )

where

– A-MPRsingle, E-UTRA is the A-MPR defined for the E-UTRA transmission in TS 36.101 [5]

– A-MPRsingle,NR is the A-MPR defined for the NR transmission in TS 38.101-1 [2]

– MPRsingle,E-UTRA is the MPR defined for the E-UTRA transmission in TS 36.101 [5]

The UE determines the Channel Configuration Case and the value of A-MPRIM3 as follows:

If FIM3,low_block,low < 2490.5 MHz

Channel Configuration Case B. A-MPRIM3 defined in clause 6.2B.3.1.3.2.2.

Else

Channel Configuration Case A. A-MPRIM3 defined in clause 6.2B.3.1.3.2.1.

where

– FIM3,low_block,low = (2 * Flow_channel,low_edge) – Fhigh_channel,high_edge

– Flow_channel,low_edge is the lowermost frequency of lower transmission bandwidth configuration.

– Fhigh_channel,high_edge is the uppermost frequency of upper transmission bandwidth configuration.

Where the transmission bandwidth configuration for NR is the maximum frequency span covering all the configured SCSSpecificCarrier for scenarios that carrier bandwidths with different SCS can be fully overlapped.

6.2B.3.1.3.2.1 A-MPRIM3 for NS_04 to meet -13 dBm / 1MHz for 26dBm UE power

A-MPR in this subclause is relative to 26 dBm for a power class 2 Cell Group. The same A-MPR is used relative to 23 dBm for a power class 3 Cell Group. For the UE is configured with channel configurations Case A or Case C (defined in Clause 6.2B.3.2.3.1), the allowed maximum output power reduction for IM3s applied to transmission on the MCG and the SCG with non-contiguous resource allocation is defined as follows:

A-MPRIM3 = MA

Where MA is defined as follows

MA = 15 ; 0 ≤ B < 0.5

10 ; 0.5 ≤ B < 1.0

8 ; 1.0 ≤ B < 2.0

6 ; 2.0 ≤ B

Where:

For UEs supporting dynamic power sharing,

B = (LCRB_alloc, E-UTRA * 12* SCSE-UTRA + LCRB_alloc,NR * 12 * SCSNR)/1,000,000

For UEs not supporting dynamic power sharing,

For E-UTRA

B = (LCRB_alloc, E-UTRA * 12* SCSE-UTRA + 12 * SCSNR)/1,000,000

Where SCSNR =15 kHz is assumed in calculation of B.

For NR

B = (12* SCSE-UTRA + LCRB_alloc,NR * 12 * SCSNR)/1,000,000

Where SCSE-UTRA =15 kHz is assumed in calculation of B

and MA is reduced by 1 dB for B < 2.0.

6.2B.3.1.3.2.2 A-MPR for NS_04 to meet -25 dBm / 1MHz for 26 dBm UE power

A-MPR in this subclause is relative to 26 dBm for a power class 2 Cell Group. The same A-MPR is used relative to 23 dBm for a power class 3 Cell Group. For the UE is configured with channel configurations Case B or Case D (defined in clause 6.2B.3.2.1), the allowed maximum output power reduction for IM3s applied to transmission on the MCG and the SCG with non-contiguous resource allocation is defined as follows:

A-MPRIM3 = MA

Where MA is defined as follows

MA = 15 ; 0 ≤ B < 1.0

14 ; 1.0 ≤ B < 2.0

13 ; 2.0 ≤ B < 5.0

12 ; 5.0 ≤ B

Where:

For UEs supporting dynamic power sharing,

B = (LCRB_alloc, E-UTRA * 12* SCSE-UTRA + LCRB_alloc,NR * 12 * SCSNR)/1,000.000

For UEs not supporting dynamic power sharing,

For E-UTRA

B = (LCRB_alloc,E-UTRA * 12* SCSE-UTRA + 12 * SCSNR)/1,000,000

Where SCSNR =15 kHz is assumed in calculation of B.

For NR

B = (12* SCSE-UTRA + LCRB_alloc,NR * 12 * SCSNR)/1,000,000

Where SCSE-UTRA =15 kHz is assumed in calculation of B

and MA is reduced by 1 dB.

6.2B.3.1.4 Test description

6.2B.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 NR operating bands specified in clause 5.3B.1.2, channel bandwidths and sub-carrier spacings for the NR cell specified in TS 38.521-1 [8] clause 5.3 and channel bandwidth for the E-UTRA cell are specified in TS 36.521-1 [10] clause 5.4.2. All these configurations shall be tested with applicable test parameters for each EN-DC configuration specified in clause 5.3B.1.2 and are shown in table 6.2B.3.1.4.1-1 through 6.2B.3.1. 4.1-2. The details of the uplink reference measurement channels (RMCs) are specified in Annex A.2. Configurations of PDSCH and PDCCH before measurement are specified in TS 36.521-1 [10] Annex C.2 and in TS 38.521-1 [8] Annex C.2 for E-UTRA CG and NR CG respectively.

Table 6.2B.3.1.4.1-0: Void

Table 6.2B.3.1.4.1-1: Test configuration table (network signalled value "NS_35")

Initial Conditions

Test Environment

as specified in TS 38.508-1 [6] clause 4.1

Normal

Test Frequencies

as specified in TS 38.508-1 [6] clause 4.3.1

Low range, High range

Test EN-DC bandwidth combination as specified in Table 5.3B.1.2-1

Lowest NRB_agg, Highest NRB_agg

(Note 2)

Test SCS for the NR cell as specified in TS 38.521-1 [8] Table 5.3.5-1

Lowest, Highest

Test Parameters

Test ID

Freq

Downlink Configuration

EN-DC Uplink Configuration

E-UTRA Cell

NR Cell

Common

Modulation

RB allocation
(Note 5)

Modulation

RB allocation (Note 1)

Power config (Note 8)

1

Default

N/A

16QAM

Outer_Full

DFT-s-OFDM Pi/2 BPSK

Outer_Full

B

2 (Note 3)

Default

16QAM

Outer_1RB_Left

DFT-s-OFDM Pi/2 BPSK

Edge_1RB_Right

B

3 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM Pi/2 BPSK

N/A

A

4 (Note 3)

High

16QAM

N/A

DFT-s-OFDM Pi/2 BPSK

Edge_1RB_Right

A

5 (Note 4)

Default

16QAM

Outer_1RB_Right

DFT-s-OFDM Pi/2 BPSK

Edge_1RB_Left

B

6 (Note 4)

Low

16QAM

N/A

DFT-s-OFDM Pi/2 BPSK

Edge_1RB_Left

A

7 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM Pi/2 BPSK

N/A

A

8

Default

16QAM

Outer_Full

DFT-s-OFDM QPSK

Outer_Full

B

9 (Note 3)

Default

16QAM

Outer_1RB_Left

DFT-s-OFDM QPSK

Edge_1RB_Right

B

10 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM QPSK

N/A

A

11 (Note 3)

High

16QAM

N/A

DFT-s-OFDM QPSK

Edge_1RB_Right

A

12 (Note 4)

Default

16QAM

Outer_1RB_Right

DFT-s-OFDM QPSK

Edge_1RB_Left

B

13 (Note 4)

Low

16QAM

N/A

DFT-s-OFDM QPSK

Edge_1RB_Left

A

14 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM QPSK

N/A

A

15

Default

16QAM

Outer_Full

DFT-s-OFDM 16QAM

Outer_Full

B

16 (Note 3)

Default

16QAM

Outer_1RB_Left

DFT-s-OFDM

16QAM

Edge_1RB_Right

B

17 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM 16QAM

N/A

A

18 (Note 3)

High

16QAM

N/A

DFT-s-OFDM 16QAM

Edge_1RB_Right

A

19 (Note 4)

Default

16QAM

Outer_1RB_Right

DFT-s-OFDM 16QAM

Edge_1RB_Left

B

20 (Note 4)

Low

16QAM

N/A

DFT-s-OFDM 16QAM

Edge_1RB_Left

A

21 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM 16QAM

N/A

A

22

Default

16QAM

Outer_Full

DFT-s-OFDM 64QAM

Outer_Full

B

23 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM 64QAM

Edge_1RB_Right

B

24 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM 64QAM

Edge_1RB_Left

B

25

Default

16QAM

Outer_Full

DFT-s-OFDM 256QAM

Outer_Full

B

26 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM 256QAM

Edge_1RB_Right

B

27 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM 256QAM

Edge_1RB_Left

B

28

Default

16QAM

Outer_Full

CP-OFDM QPSK

Outer_Full

B

29 (Note 3)

Default

16QAM

Outer_1RB_Left

CP-OFDM QPSK

Edge_1RB_Right

B

30 (Note 3)

Low

16QAM

Outer_1RB_Left

CP-OFDM QPSK

N/A

A

31 (Note 3)

High

16QAM

N/A

CP-OFDM QPSK

Edge_1RB_Right

A

32 (Note 4)

Default

16QAM

Outer_1RB_Right

CP-OFDM QPSK

Edge_1RB_Left

B

33 (Note 4)

Low

16QAM

N/A

CP-OFDM QPSK

Edge_1RB_Left

A

34 (Note 4)

High

16QAM

Outer_1RB_Right

CP-OFDM QPSK

N/A

A

35

Default

16QAM

Outer_Full

CP-OFDM 16QAM

Outer_Full

B

36 (Note 3)

Default

16QAM

Outer_1RB_Left

CP-OFDM 16QAM

Edge_1RB_Right

B

37 (Note 3)

Low

16QAM

Outer_1RB_Left

CP-OFDM 16QAM

N/A

A

38 (Note 3)

High

16QAM

N/A

CP-OFDM 16QAM

Edge_1RB_Right

A

39 (Note 4)

Default

16QAM

Outer_1RB_Right

CP-OFDM 16QAM

Edge_1RB_Left

B

40 (Note 4)

Low

16QAM

N/A

CP-OFDM 16QAM

Edge_1RB_Left

A

41 (Note 4)

High

16QAM

Outer_1RB_Right

CP-OFDM 16QAM

N/A

A

42

Default

16QAM

Outer_Full

CP-OFDM 64QAM

Outer_Full

B

43 (Note 3)

Low

16QAM

Outer_1RB_Left

CP-OFDM 64QAM

Edge_1RB_Right

B

44 (Note 4)

High

16QAM

Outer_1RB_Right

CP-OFDM 64QAM

Edge_1RB_Left

B

45

Default

16QAM

Outer_Full

CP-OFDM 256QAM

Outer_Full

B

46 (Note 3)

Low

16QAM

Outer_1RB_Left

CP-OFDM 256QAM

Edge_1RB_Right

B

47 (Note 4)

High

16QAM

Outer_1RB_Right

CP-OFDM 256QAM

Edge_1RB_Left

B

48 (Note 4)

Default

16QAM

Edge_Full_Right

CP-OFDM 256QAM

Edge_Full_Left

B

NOTE 1: The specific configuration of each RB allocation is defined in Table 6.1-1 in TS 38.521-1 [8].

NOTE 2: If the UE supports multiple CC combinations in the EN-DC configuration with the same NRB_agg, select the combination to test as follows:

– Lowest ENBW: NR component with lowest NRB is tested.

– Highest ENBW: NR component with highest NRB is tested.

NOTE 3: Applicable when E-UTRA cell carrier frequency is lower than NR cell carrier.

NOTE 4: Applicable when NR cell carrier frequency is lower than E-UTRA cell carrier.

NOTE 5: Outer_Full defined as the transmission bandwidth configuration NRB per channel bandwidth for the E-UTRA component as indicated in TS 36.521 [10] Table 5.4.2-1. Outer_1RB_Left defined as 1 RB allocated at the left edge of the E-UTRA component. Edge_Full_Right is defined as 2 RBs allocated at the right edge of the E-UTRA component. Outer_1RB_Right defined as 1 RB allocated at the right edge of the E-UTRA component.

NOTE 6: DFT-s-OFDM Pi/2 BPSK test applies only for UEs which supports Pi/2 BPSK in FR1.

NOTE 7: Test IDs with simultaneous E-UTRA and NR UL transmission only apply for UEs indicating dualPA-Architecture.

NOTE 8: Power config as specified in Table 6.2B.3.1.4.3-1-1 to 6.2B.3.1.4.3-2 (PC3) or Table 6.2B.3.1.4.3-3 to 6.2B.3.1.4.3-4 (PC2).

Table 6.2B.3.1.4.1-2: NR test configuration table for NS_04

Initial Conditions

Test Environment

as specified in TS 38.508-1 [6] clause 4.1

Normal

Test Frequencies

as specified in TS 38.508-1 [6] clause 4.3.1

Low range, High range (Note 7)

Test EN-DC bandwidth combination as specified in Table 5.3B.1.2-1

Lowest NRB_agg, Highest NRB_agg

(Note 2)

Test SCS for the NR cell as specified in TS 38.521-1 [8] Table 5.3.5-1

Lowest, Highest

Test Parameters

Test ID

Freq

Downlink Configuration

EN-DC Uplink Configuration

E-UTRA Cell

NR Cell

Common

Modulation

RB allocation
(Note 5)

Modulation

RB allocation (Note 1)

Power config (Note 8)

1

Default

N/A

16QAM

Outer_Full

DFT-s-OFDM Pi/2 BPSK

Outer_Full

B

2 (Note 3)

Default

16QAM

Outer_1RB_Left

DFT-s-OFDM Pi/2 BPSK

Edge_1RB_Right

B

3 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM Pi/2 BPSK

N/A

A

4 (Note 3)

High

16QAM

N/A

DFT-s-OFDM PiI/2 BPSK

Edge_1RB_Right

A

5 (Note 4)

Default

16QAM

Outer_1RB_Right

DFT-s-OFDM Pi/2 BPSK

Edge_1RB_Left

B

6 (Note 4)

Low

16QAM

N/A

DFT-s-OFDM Pi/2 BPSK

Edge_1RB_Left

A

7 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM Pi/2 BPSK

N/A

A

8

Default

16QAM

Outer_Full

DFT-s-OFDM QPSK

Outer_Full

B

9 (Note 3)

Default

16QAM

Outer_1RB_Left

DFT-s-OFDM QPSK

Edge_1RB_Right

B

10 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM QPSK

N/A

A

11 (Note 3)

High

16QAM

N/A

DFT-s-OFDM QPSK

Edge_1RB_Right

A

12 (Note 4)

Default

16QAM

Outer_1RB_Right

DFT-s-OFDM QPSK

Edge_1RB_Left

B

13 (Note 4)

Low

16QAM

N/A

DFT-s-OFDM QPSK

Edge_1RB_Left

A

14 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM QPSK

N/A

A

15

Default

16QAM

Outer_Full

DFT-s-OFDM 16QAM

Outer_Full

B

16 (Note 3)

Default

16QAM

Outer_1RB_Left

DFT-s-OFDM

16QAM

Edge_1RB_Right

B

17 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM 16QAM

N/A

A

18 (Note 3)

High

16QAM

N/A

DFT-s-OFDM 16QAM

Edge_1RB_Right

A

19 (Note 4)

Default

16QAM

Outer_1RB_Right

DFT-s-OFDM 16QAM

Edge_1RB_Left

B

20 (Note 4)

Low

16QAM

N/A

DFT-s-OFDM 16QAM

Edge_1RB_Left

A

21 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM 16QAM

N/A

A

22

Default

16QAM

Outer_Full

DFT-s-OFDM 64QAM

Outer_Full

B

23 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM 64QAM

Edge_1RB_Right

B

24 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM 64QAM

Edge_1RB_Left

B

25

Default

16QAM

Outer_Full

DFT-s-OFDM 256QAM

Outer_Full

B

26 (Note 3)

Low

16QAM

Outer_1RB_Left

DFT-s-OFDM 256QAM

Edge_1RB_Right

B

27 (Note 4)

High

16QAM

Outer_1RB_Right

DFT-s-OFDM 256QAM

Edge_1RB_Left

B

28

Default

16QAM

Outer_Full

CP-OFDM QPSK

Outer_Full

B

29 (Note 3)

Default

16QAM

Outer_1RB_Left

CP-OFDM QPSK

Edge_1RB_Right

B

30 (Note 3)

Low

16QAM

Outer_1RB_Left

CP-OFDM QPSK

N/A

A

31 (Note 3)

High

16QAM

N/A

CP-OFDM QPSK

Edge_1RB_Right

A

32 (Note 4)

Default

16QAM

Outer_1RB_Right

CP-OFDM QPSK

Edge_1RB_Left

B

33 (Note 4)

Low

16QAM

N/A

CP-OFDM QPSK

Edge_1RB_Left

A

34 (Note 4)

High

16QAM

Outer_1RB_Right

CP-OFDM QPSK

N/A

A

35

Default

16QAM

Outer_Full

CP-OFDM 16QAM

Outer_Full

B

36 (Note 3)

Default

16QAM

Outer_1RB_Left

CP-OFDM 16QAM

Edge_1RB_Right

B

37 (Note 3)

Low

16QAM

Outer_1RB_Left

CP-OFDM 16QAM

N/A

A

38 (Note 3)

High

16QAM

N/A

CP-OFDM 16QAM

Edge_1RB_Right

A

39 (Note 4)

Default

16QAM

Outer_1RB_Right

CP-OFDM 16QAM

Edge_1RB_Left

B

40 (Note 4)

Low

16QAM

N/A

CP-OFDM 16QAM

Edge_1RB_Left

A

41 (Note 4)

High

16QAM

Outer_1RB_Right

CP-OFDM 16QAM

N/A

A

42

Default

16QAM

Outer_Full

CP-OFDM 64QAM

Outer_Full

B

43 (Note 3)

Low

16QAM

Outer_1RB_Left

CP-OFDM 64QAM

Edge_1RB_Right

B

44 (Note 4)

High

16QAM

Outer_1RB_Right

CP-OFDM 64QAM

Edge_1RB_Left

B

45

Default

16QAM

Outer_Full

CP-OFDM 256QAM

Outer_Full

B

46 (Note 3)

Low

16QAM

Outer_1RB_Left

CP-OFDM 256QAM

Edge_1RB_Right

B

47 (Note 4)

High

16QAM

Outer_1RB_Right

CP-OFDM 256QAM

Edge_1RB_Left

B

48 (Note 4)

Default

16QAM

Edge_Full_Right

CP-OFDM 256QAM

Edge_Full_Left

B

NOTE 1: The specific configuration of each RB allocation is defined in Table 6.1-1 in TS 38.521-1 [8].

NOTE 2: If the UE supports multiple CC combinations in the EN-DC configuration with the same NRB_agg, select the combination to test as follows:

– Lowest ENBW: NR component with lowest NRB is tested.

– Highest ENBW: NR component with highest NRB is tested.

NOTE 3: Applicable when E-UTRA cell carrier frequency is lower than NR cell carrier.

NOTE 4: Applicable when NR cell carrier frequency is lower than E-UTRA cell carrier.

NOTE 5: Outer_Full defined as the transmission bandwidth configuration NRB per channel bandwidth for the E-UTRA component as indicated in TS 36.521 [10] Table 5.4.2-1. Outer_1RB_Left defined as 1 RB allocated at the left edge of the E-UTRA component. Edge_Full_Right is defined as 2 RBs allocated at the right edge of the E-UTRA component. Outer_1RB_Right defined as 1 RB allocated at the right edge of the E-UTRA component.

NOTE 6: DFT-s-OFDM Pi/2 BPSK test applies only for UEs which supports Pi/2 BPSK in FR1.

NOTE 7: Additional IM3 test frequencies may apply.

NOTE 8: Power config as specified in Table 6.2B.3.1.4.3-1 to 6.2B.3.1.4.3-2 (PC3) or Table 6.2B.3.1.4.3-3 to 6.2B.3.1.4.3-4 (PC2).

NOTE 9: Test IDs with simultaneous E-UTRA and NR UL transmission only apply for UEs indicating dualPA-Architecture.

Table 6.2B.3.1.4.1-3: Additional IM3 Test Frequencies for NS_04 intra-band contiguous EN-DC

Additional Initial Condition

Additional IM3 Test Frequencies

if SCS 15 kHz, 15 kHz NR raster, and NR ChBw 40 MHz or 50 MHz then IM3 test frequencies as specified in Table 6.2B.3.1.4.1-4.

if SCS 30 kHz, 30 kHz NR raster, and NR ChBw 40 MHz, 50 MHz or 60 MHz then IM3 test frequencies as specified in Table 6.2B.3.1.4.1-5.

if SCS 60 kHz, 15 kHz NR raster, and NR ChBw 40 MHz, 50 MHz or 60 MHz then IM3 test frequencies as specified in Table 6.2B.3.1.4.1-6.

Table 6.2B.3.1.4.1-4: EN-DC combination DC_(n)41AA, intra-band contiguous, SCS 15 kHz, 15 kHz NR raster, IM3 test frequencies

EN-DC channel bandwidth combination

CC

Bandwidth [MHz]

carrierBandwidth

[PRBs]

Range

Carrier centre

[MHz]

Note 2

Carrier centre

[ARFCN]

point A
[MHz]

absoluteFrequencyPointA
[ARFCN]

offsetToCarrier [Carrier PRBs]

SS block SCS

[kHz]

GSCN

absoluteFrequencySSB

[ARFCN]

E-UTRA: 20MHz + NR: 40MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2600.400

40694

NR CC1

40

216

Downlink & Uplink

IM3

2570.400

514080

2550.96

510192

0

15

6384

514080

E-UTRA: 20MHz + NR: 50MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2620.400

40894

NR CC1

50

270

Downlink & Uplink

IM3

2585.400

517080

2561.1

512220

0

15

6408

517080

Table 6.2B.3.1.4.1-5: EN-DC combination DC_(n)41AA, intra-band contiguous, SCS 30 kHz, 30 kHz NR raster, IM3 test frequencies

EN-DC channel bandwidth combination

CC

Bandwidth [MHz]

carrierBandwidth

[PRBs]

Range

Carrier centre

[MHz]

Note 2

Carrier centre

[ARFCN]

point A
[MHz]

absoluteFrequencyPointA
[ARFCN]

offsetToCarrier [Carrier PRBs]

SS block SCS

[kHz]

GSCN

absoluteFrequencySSB

[ARFCN]

E-UTRA: 20MHz + NR: 40MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2600.400

40694

NR CC1

40

216

Downlink & Uplink

IM3

2570.400

514080

2550.96

510192

0

15

6384

514080

E-UTRA: 20MHz + NR: 50MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2620.400

40894

NR CC1

50

270

Downlink & Uplink

IM3

2585.400

517080

2561.1

512220

0

15

6408

517080

E-UTRA: 20MHz + NR: 60MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2640.500

41095

NR CC1

60

162

Downlink & Uplink

IM3

2600.500

520100

2571.34

514268

0

30

6438

520100

Table 6.2B.3.1.4.1-6: EN-DC combination DC_(n)41AA, intra-band contiguous, SCS 60 kHz, 15 kHz NR raster, IM3 test frequencies

EN-DC channel bandwidth combination

CC

Bandwidth [MHz]

carrierBandwidth

[PRBs]

Range

Carrier centre

[MHz]

Note 2

Carrier centre

[ARFCN]

point A
[MHz]

absoluteFrequencyPointA
[ARFCN]

offsetToCarrier [Carrier PRBs]

SS block SCS

[kHz]

GSCN

absoluteFrequencySSB

[ARFCN]

E-UTRA: 20MHz + NR: 40MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2600.400

40694

NR CC1

40

51

Downlink & Uplink

IM3

2570.400

514080

2552.04

510408

0

15

6387

514080

E-UTRA: 20MHz + NR: 50MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2620.400

40894

NR CC1

50

65

Downlink & Uplink

IM3

2585.400

517080

2562

512400

0

15

6411

517080

E-UTRA: 20MHz + NR: 60MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2640.500

41095

NR CC1

60

79

Downlink & Uplink

IM3

2600.500

520100

2572.06

514412

0

15

6435

520100

Editor’s note: The following lines belong at the end of clause 6.2B.3.1.4.1. As new tables are added to this clause, these lines should always follow the tables.

The initial test configurations for E-UTRA consist of test frequency based on E-UTRA operating band and test channel bandwidth as specified in Table 4.6-1.

1. Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [6] Annex A, Figure A.3.1.1 for TE diagram and clause A.3.2.1 for UE diagram.

2. The parameter settings for E-UTRA the cell are set up according to TS 36.508 [11] clause 4.4.3, and the parameter settings for the NR cell are set up according to TS 38.508-1 [6] clause 4.4.3.

3. Downlink signals are initially set up according to TS 36.521-1 [10] Annex C.0 and TS 38.521-1 [8] Annex C.0 for E-UTRA CG and NR CG respectively, and uplink signals according to TS 36.521-1 [10] Annex H and TS 38.521-1 [8] Annex G for E-UTRA CG and NR CG respectively.

4. NR downlink signals are initially set up according to Annex C.0, C.1, and C.2 and uplink signals according to Annex G.0, G.1, G.2, and G.3.0 of TS 38.521-1 [8].

5. The UL Reference Measurement channels are set according to TS 36.521-1 [10] Annex A.2 and TS 38.521-1 [8] Annex A.2 for E-UTRA CG and NR CG link respectively.

6. Propagation conditions are set according to TS 36.521-1 [10] Annex B.0 and TS 38.521-1 [8] Annex B.0 for E-UTRA CG and NR CG respectively.

7. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity EN-DC, DC bearer MCG and SCG, Connected without release On according to TS 38.508-1 [6] clause 4.5. Message contents are defined in clause 6.2B.3.1.4.3.

8. For the case of testing overlapping E-UTRA and NR UL transmission scenario when both bands are TDD, ensure E-UTRA UL transmission overlaps with NR UL transmission in time by giving SCG a delay of 3 E-UTRA subframes, or by giving MCG a delay of 2 subframes.

6.2B.3.1.4.2 Test procedure

1. SS sends uplink scheduling information for each UL HARQ process via PDCCH DCI format 0 and DCI format 0_1 for C_RNTI to schedule the UL RMC according to table 6.2B.3.1.4.1-1 or 6.2B.3.1.4.1-2 on both EN-DC component carriers. Since the UL has no payload and no loopback data to send the UE sends uplink MAC padding bits on the UL RMC.

2. Send continuously uplink power control "up" commands to the UE for NR and E-UTRA carrier until the UE transmits at its PUMAX level; allow at least 200 ms starting from the first TPC command in this step for the UE to reach PUMAX level.

3. Measure the mean power over all component carriers for the EN-DC configuration, which shall meet the requirements described in table 6.2B.3.1.5.1-1 through to 6.2B.3.1.5.2-6. The period of the measurement shall be at least the continuous duration of one active sub-frame (1ms). For TDD, only slots consisting of only UL symbols are under test.

NOTE 1: When switching to DFT-s-OFDM waveform, as specified in the test configuration table 6.2B.3.1.4.1-1 or 6.2B.3.1.4.1-2, send an NR RRCReconfiguration message according to TS 38.508-1 [6] clause 4.6.3 Table 4.6.3-118 PUSCH-Config with TRANSFORM_PRECODER_ENABLED condition.

6.2B.3.1.4.3 Message contents

Message contents are according to TS 38.508-1 [6] clause 4.6.1, with the following exceptions.

Table 6.2B.3.1.4.3-1: RRCConnectionReconfiguration: nr-Config-r15 for PC3

Derivation Path: TS 36.508 [11], Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

p-MaxEUTRA-r15

23

Power config A (NOTE 1)

20

Power config B (NOTE 2)

NOTE 1: Applies when E-UTRA UL transmission not overlapping with NR UL transmission in time.

NOTE 2: Applies when E-UTRA UL transmission overlapping with NR UL transmission in time.

Table 6.2B.3.1.4.3-2: PhysicalCellGroupConfig for PC3

Derivation Path: TS 38.508-1 [6], Table 4.6.3-106

Information Element

Value/remark

Comment

Condition

p-NR-FR1

23

Power config A (NOTE 1)

20

Power config B (NOTE 2)

NOTE 1: Applies when E-UTRA UL transmission not overlapping with NR UL transmission in time.

NOTE 2: Applies when E-UTRA UL transmission overlapping with NR UL transmission in time.

Table 6.2B.3.1.4.3-3: RRCConnectionReconfiguration: nr-Config-r15 for PC2

Derivation Path: TS 36.508 [11], Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

p-MaxEUTRA-r15

26

Power config A (NOTE 1)

23

Power config B (NOTE 2)

NOTE 1: Applies when E-UTRA UL transmission not overlapping with NR UL transmission in time.

NOTE 2: Applies when E-UTRA UL transmission overlapping with NR UL transmission in time.

Table 6.2B.3.1.4.3-4: PhysicalCellGroupConfig for PC2

Derivation Path: TS 38.508-1 [6], Table 4.6.3-106

Information Element

Value/remark

Comment

Condition

p-NR-FR1

26

Power config A (NOTE 1)

23

Power config B (NOTE 2)

NOTE 1: Applies when E-UTRA UL transmission not overlapping with NR UL transmission in time.

NOTE 2: Applies when E-UTRA UL transmission overlapping with NR UL transmission in time.

6.2B.3.1.4.3-5: SystemInfomationBlockType1: tdd-Config if E-UTRA on TDD band

Derivation Path: TS 36.508 [11], Table 4.6.3-23

Information Element

Value/remark

Comment

Condition

TDD-Config-DEFAULT ::= SEQUENCE {

Operating on TDD band

subframeAssignment

sa2

specialSubframePatterns

ssp7

}

Table 6.2B.3.1.4.3-6: RRCConnectionReconfiguration: tdm-PatternConfig if E-UTRA on FDD band and UE does not support dynamic power sharing

Derivation Path: TS 36.508 [11], Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

tdm-PatternConfig-r15 CHOICE{

Power config A (NOTE 1)

setup SEQUENCE {

subframeAssignment-r15

sa2

harq-Offset-r15

0

}

}

NOTE 1: Applies when E-UTRA UL transmission not overlapping with NR UL transmission in time.

6.2B.3.1.4.3.1 Message contents exceptions (network signalled value "NS_04")

Message contents are according to TS 38.508-1 [6] clause 4.6.1 with the following exceptions for NS_04:

Table 6.2B.3.1.4.3.1-1: AdditionalSpectrumEmission for MCG and "NS_04"

Derivation Path: 36.508 [11] clause 4.6.3, Table 4.4.3.3-1

Information Element

Value/remark

Comment

Condition

AdditionalSpectrumEmission

1 (NS_04)

Table 6.2B.3.1.4.3.1-2: AdditionalSpectrumEmission for SCG and "NS_04"

Derivation Path: TS 38.508-1 [6] clause 4.6.3, Table 4.6.3-1

Information Element

Value/remark

Comment

Condition

AdditionalSpectrumEmission

1 (NS_04)

6.2B.3.1.4.3.2 Message contents exceptions (network signalled value "NS_35")

Message contents are according to TS 38.508-1 [6] clause 4.6.1 with the following exceptions for NS_35:

Table 6.2B.3.1.4.3.2-1: AdditionalSpectrumEmission for MCG and "NS_35"

Derivation Path: 36.508 [11] clause 4.6.3, Table 4.4.3.3-1

Information Element

Value/remark

Comment

Condition

AdditionalSpectrumEmission

1 (NS_35)

Table 6.2B.3.1.4.3.2-2: AdditionalSpectrumEmission for for SCG "NS_35"

Derivation Path: TS 38.508-1 [5] clause 4.6.3, Table 4.6.3-1

Information Element

Value/remark

Comment

Condition

AdditionalSpectrumEmission

1 (NS_35)

6.2B.3.1.5 Test requirement

Table: 6.2B.3.1.5-1: Test Tolerance for UE maximum output power (LTE, NR TX separately)

Uplink TX

f ≤ 3.0GHz

3.0GHz < f ≤ 4.2GHz

4.2GHz < f ≤ 6GHz

LTE

BW ≤ 20MHz

0.7

1.0

1.3

NR

BW ≤ 40MHz

0.7 dB

1.0 dB

1.0

40MHz < BW ≤ 100MHz

1.0 dB

1.0 dB

1.0

6.2B.3.1.5.1 Test requirement for network signalled value "NS_35"

The maximum output power, derived in step 3 shall be within the range prescribed by the nominal maximum output power and tolerance in table 6.2B.3.1.5.1-1. The allowed A-MPR values specified in table 6.2B.3.1.3-1 are in addition to the allowed MPR requirements specified in clause 6.2B.1.1.3. For the UE maximum output power modified by MPR and/or A-MPR, the power limits specified in table 6.2B.1.1.3-1 apply.

Table 6.2B.3.1.5.1-1: UE Power Class test requirements for network signalled value "NS_35"for UEs not supporting dynamic power sharing

Test ID

Test freq. range

E-UTRA BW

NR BW

Modulation

PPowerClass (dBm)

ΔPPowerClass (dB)

A-MPRc (dB)

ΔTC,c (dB)

Note 7

PCMAX,c (dBm)

T(PCMAX_L,f,c)
(dB)

TL,c (dB)

Upper limit

Lower limit

1, 8, 15, 22, 25

Low

5

5

E-UTRA/NR

23

0

6.0

0

17.0

5

+2/-3

25+TT

12-TT

1, 8, 15, 22, 25

Low

5

15

E-UTRA/NR

23

0

6.0

0

17.0

5

+2/-3

25+TT

12-TT

1, 8, 15, 22, 25

High

5

5

E-UTRA/NR

23

0

6.0

0

17.0

5

+2/-3

25+TT

12-TT

1, 8, 15, 22, 25

High

15

5

E-UTRA/NR

23

0

6.0

0

17.0

5

+2/-3

25+TT

12-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

Low

5

5

E-UTRA/NR

23

0

10.5

0

12.5

6

+2/-3

25+TT

6.5-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

Low

5

15

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

High

5

5

E-UTRA/NR

23

0

10.5

0

12.5

6

+2/-3

25+TT

6.5-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

High

15

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

3, 10, 17

Low

5

5

E-UTRA/NR

23

0

12.5

0

10.5

6

+2/-3

25+TT

4.5-TT

3, 14, 17

Low

5

15

E-UTRA/NR

23

0

16.0

0

7.0

7

+2/-3

25+TT

0-TT

4, 11, 18

High

5

5

E-UTRA/NR

23

0

12.5

0

10.5

12.5

+2/-3

25+TT

4.5-TT

4, 11, 18

High

15

5

E-UTRA/NR

23

0

16.0

0

7.0

16.0

+2/-3

25+TT

0-TT

6, 13, 20

Low

5

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

6, 13, 20

Low

5

15

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

7, 14, 21

High

5

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

7, 14, 21

High

15

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

28, 35, 42, 45

Low

5

5

E-UTRA/NR

23

0

6.5

0

16.5

5

+2/-3

25+TT

11.5-TT

28, 35, 42, 45

Low

5

15

E-UTRA/NR

23

0

6.5

0

16.5

5

+2/-3

25+TT

11.5-TT

28, 35, 42, 45

High

5

5

E-UTRA/NR

23

0

6.5

0

16.5

5

+2/-3

25+TT

11.5-TT

28, 35, 42, 45

High

15

5

E-UTRA/NR

23

0

6.5

0

16.5

5

+2/-3

25+TT

11.5-TT

29, 35, 42, 45

Low

5

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6.5-TT

29, 35, 42, 45

Low

5

15

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

29, 35, 42, 45

High

5

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6.5-TT

29, 35, 42, 45

High

15

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

30, 34, 37, 41

Low

5

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

30, 34, 37, 41

Low

5

15

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

31, 33, 38, 40

High

5

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

31, 33, 38, 40

High

15

5

E-UTRA/NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

Table 6.2B.3.1.5.1-1A: UE Power Class test requirements for network signalled value "NS_35" for UEs supporting dynamic power sharing

Test ID

Test freq. range

E-UTRA BW

NR BW

Modulation

PPowerClass (dBm)

ΔPPowerClass (dB)

A-MPRc (dB)

ΔTC,c (dB)

Note 7

PCMAX,c (dBm)

T(PCMAX_L,f,c)
(dB)

TL,c (dB)

Upper limit

Lower limit

1, 8, 15, 22, 25

Low

5

5

E-UTRA

23

0

8.5

0

14.5

5

+2/-3

25+TT

9.5-TT

1, 8, 15, 22, 25

Low

5

5

NR

23

0

8.5

0

14.5

5

+2/-3

25+TT

9.5-TT

1, 8, 15, 22, 25

Low

5

15

E-UTRA

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

1, 8, 15, 22, 25

Low

5

15

NR

23

0

6.5

0

16.5

5

+2/-3

25+TT

11.5-TT

1, 8, 15, 22, 25

High

5

5

E-UTRA

23

0

8.5

0

14.5

5

+2/-3

25+TT

9.5-TT

1, 8, 15, 22, 25

High

5

5

NR

23

0

8.5

0

14.5

5

+2/-3

25+TT

9.5-TT

1, 8, 15, 22, 25

High

15

5

E-UTRA

23

0

6.5

0

16.5

5

+2/-3

25+TT

11.5-TT

1, 8, 15, 22, 25

High

15

5

NR

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

Low

5

5

E-UTRA

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

Low

5

5

NR

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

Low

5

15

E-UTRA

23

0

16.0

0

7.0

7

+2/-3

25+TT

0-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

Low

5

15

NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

High

5

5

E-UTRA

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

High

5

5

NR

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

High

15

5

E-UTRA

23

0

11.5

0

11.5

6

+2/-3

25+TT

5.5-TT

2, 5, 9, 12, 16, 19, 23, 24, 2, 26, 27

High

15

5

NR

23

0

16.0

0

7.0

7

+2/-3

25+TT

0-TT

3, 10, 17

Low

5

5

E-UTRA/

23

0

12.5

0

10.5

6

+2/-3

25+TT

4.5-TT

3, 10, 17

Low

5

15

E-UTRA

23

0

16.0

0

7.0

7

+2/-3

25+TT

0-TT

4, 11, 18

High

5

5

NR

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

4, 11, 18

High

15

5

NR

23

0

16.0

0

7.0

7

+2/-3

25+TT

0-TT

6, 17, 20

Low

5

5

E-UTRA/

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

6, 17, 20

Low

5

15

E-UTRA

23

0

16.5

0

6.5

7

+2/-3

25+TT

-0.5-TT

7, 14, 21

High

5

5

NR

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

7, 14, 21

High

15

5

NR

23

0

16.0

0

7.0

7

+2/-3

25+TT

0-TT

28, 35, 42, 45

Low

5

5

E-UTRA

23

0

9.5

0

13.5

5

+2/-3

25+TT

8.5-TT

28, 35, 42, 45

Low

5

5

NR

23

0

9.5

0

13.5

5

+2/-3

25+TT

8.5-TT

28, 35, 42, 45

Low

5

15

E-UTRA

23

0

13.5

0

9.5

6

+2/-3

25+TT

3.5-TT

28, 35, 42, 45

Low

5

15

NR

23

0

7.0

0

16.0

5

+2/-3

25+TT

11-TT

28, 35, 42, 45

High

5

5

E-UTRA

23

0

9.5

0

13.5

5

+2/-3

25+TT

8.5-TT

28, 35, 42, 45

High

5

5

NR

23

0

9.5

0

13.5

5

+2/-3

25+TT

8.5-TT

28, 35, 42, 45

High

15

5

E-UTRA

23

0

7.0

0

16.0

5

+2/-3

25+TT

11-TT

28, 35, 42, 45

High

15

5

NR

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

29, 36, 43, 46

Low

5

5

E-UTRA

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

29, 36, 43, 46

Low

5

5

NR

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

29, 36, 43, 46

Low

5

15

E-UTRA

23

0

16.0

0

7.0

7

+2/-3

25+TT

0-TT

29, 36, 43, 46

Low

5

15

NR

23

0

11.0

0

12.0

6

+2/-3

25+TT

6-TT

29, 36, 43, 46

High

5

5

E-UTRA

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

29, 36, 43, 46

High

5

5

NR

23

0

13.0

0

10.0

6

+2/-3

25+TT

4-TT

29, 36, 43, 46

High

15

5

E-UTRA

23

0

11.5

0

11.5

6

+2/-3

25+TT

0-TT

29, 36, 43, 46

High

15

5

NR

23

0

16.0

0

7.0

7

+2/-3

25+TT

5.5-TT

30, 37

Low

5

5

E-UTRA/

23

0

13.0

0

10.0

6

25+TT

4-TT

30, 37

Low

5

15

E-UTRA

23

0

16.0

0

7.0

7

25+TT

0-TT

31, 38

High

5

5

NR

23

0

13.0

0

10.0

6

25+TT

4-TT

31, 38

High

15

5

NR

23

0

16.0

0

7.0

7

25+TT

0-TT

34, 41

High

5

5

NR

23

0

13.0

0

10.0

6

25+TT

4-TT

34, 41

High

15

5

NR

23

0

16.0

0

7.0

7

25+TT

0-TT

33, 40

Low

5

5

E-UTRA/

23

0

13.0

0

10.0

6

25+TT

4-TT

33, 40

Low

5

15

E-UTRA

23

0

16.5

0

6.5

7

25+TT

-0.5-TT

NOTE 8: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.1.5-1.

6.2B.3.1.5.2 Test requirement for network signalled value "NS_04"

Table 6.2B.3.1.5.2-1: UE Power Class 3 test requirements for NS_04, supporting dynamic power sharing and E-UTRA UL transmission overlapping with NR UL transmission

Test ID

Test SCS (kHz)

A-MPRtot (dB)

PEN-DC, tot_L (dBm)

PEN-DC, tot_H (dBm)

TLOW (PCMAX_L) (dB)

THIGH (PCMAX_H) (dB)

Upper limit (dBm)

Lower limit (dBm)

1, 8, 15, 22, 25, 28, 35, 42, 45 (Note 1, 4)

15, 30, 60

3

20

23

6

2

25+TT

14-TT

1, 8, 15, 22, 25, 28, 35, 42, 45 (Note 1, 5)

15, 30, 60

9

14

23

6

2

25+TT

8-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 4, 5)

15

11

12

23

6

2

25+TT

6-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 4)

30, 60

6

17

23

5

2

25+TT

12-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 5)

30, 60

11

12

23

6

2

25+TT

6-TT

48 (Note 3, 4)

15

7

16

23

5

2

25+TT

11-TT

48 (Note 3, 4)

30, 60

12

11

23

6

2

25+TT

5-TT

48 (Note 3, 5)

15, 30, 60

7

16

23

5

2

25+TT

11-TT

NOTE 1: Test configuration IDs with transmission overlap with full RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 2: Test configuration IDs with transmission overlap with 1RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 3: Test configuration IDs with transmission overlap with edge full RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 4: When FIM3,low_block,low ≥ 2490.5 MHz (Case A)

NOTE 5: When FIM3,low_block,low < 2490.5 MHz (Case B)

NOTE 6: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.1.5-1.

Table 6.2B.3.1.5.2-2: UE Power Class 3 test requirements for NS_04, supporting dynamic power sharing and E-UTRA UL transmission not overlapping with NR UL transmission

Test ID

Test SCS (kHz)

MPR (dB)

A-MPR (dB)

PEN-DC, tot_L (dBm)

PEN-DC, tot_H (dBm)

TLOW (PCMAX_L) (dB)

THIGH (PCMAX_H) (dB)

Upper limit (dBm)

Lower limit (dBm)

3, 7, 10, 14, 17, 21, 30, 34, 37, 41 (Note 1)

15, 30, 60

0

3

20

23

4

2

25+TT

16-TT

4 (Note 2)

15, 30, 60

0.5

0

22.5

23

2

2

25+TT

20.5-TT

6 (Note 2)

15, 30, 60

0

3.5

19.5

23

3.5

2

25+TT

16-TT

11 (Note 2)

15, 30, 60

1

0

22

23

2

2

25+TT

20-TT

13 (Note 2)

15, 30, 60

0

4

19

23

3.5

2

25+TT

15.5-TT

18 (Note 2)

15, 30, 60

2

0

21

23

2

2

25+TT

19-TT

20 (Note 2)

15, 30, 60

0

4

19

23

3.5

2

25+TT

15.5-TT

31 (Note 2)

15, 30, 60

3

0

20

23

2.5

2

25+TT

17.5-TT

33 (Note 2)

15, 30, 60

0

5.5

17.5

23

5

2

25+TT

12-TT

38 (Note 2)

15, 30, 60

3

0

20

23

2.5

2

25+TT

17.5-TT

40 (Note 2)

15, 30, 60

0

5.5

17.5

23

5

2

25+TT

12-TT

NOTE 1: Test configuration IDs without transmission overlap, 1RB E-UTRA allocation, A-MPR requirements in TS 36.101 [5] apply

NOTE 2: Test configuration IDs without transmission overlap, 1RB NR allocation, A-MPR requirements in TS 38.101-1 [2] apply.

NOTE 3: Void.

NOTE 4: Void.

NOTE 5: Void.

NOTE 6: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.1.5-1.

Table 6.2B.3.1.5.2-3: UE Power Class 3 test requirements for NS_04, not supporting dynamic power sharing and E-UTRA UL transmission overlapping with NR UL transmission

Test ID

Test SCS (kHz)

A-MPRtot (dB)

PEN-DC, tot_L (dBm)

PEN-DC, tot_H (dBm)

TLOW (PCMAX_L) (dB)

THIGH (PCMAX_H) (dB)

Upper limit (dBm)

Lower limit (dBm)

1, 8, 15, 22, 25, 28, 35, 42, 45 (Note 1, 4)

15, 30, 60

6

17

23

5

2

25+TT

12-TT

1, 8, 15, 22, 25, 28, 35, 42, 45 (Note 1, 5)

15, 30, 60

12

11

23

6

2

25+TT

5-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 4, 5)

15

14

9

23

7

2

25+TT

2-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 4)

30, 60

9

14

23

6

2

25+TT

8-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 5)

30, 60

14

9

23

7

2

25+TT

2-TT

48 (Note 3, 4)

15

10

13

23

6

2

25+TT

7-TT

48 (Note 3, 4)

30, 60

15

8

23

7

2

25+TT

1-TT

48 (Note 3, 5)

15, 30, 60

10

13

23

6

2

25+TT

7-TT

NOTE 1: Test configuration IDs with transmission overlap with full RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 2: Test configuration IDs with transmission overlap with 1RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 3: Test configuration IDs with transmission overlap with edge full RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 4: When FIM3,low_block,low ≥ 2490.5 MHz (Case A)

NOTE 5: When FIM3,low_block,low < 2490.5 MHz (Case B)

NOTE 6: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.1.5-1.

Table 6.2B.3.1.5.2-4: UE Power Class 2 test requirements for NS_04, supporting dynamic power sharing and E-UTRA UL transmission overlapping with NR UL transmission

Test ID

Test SCS (kHz)

A-MPRtot (dB)

PEN-DC, tot_L (dBm)

PEN-DC, tot_H (dBm)

TLOW (PCMAX_L) (dB)

THIGH (PCMAX_H) (dB)

Upper limit (dBm)

Lower limit (dBm)

1, 8, 15, 22, 25, 28, 35, 42, 45 (Note 1, 4)

15, 30, 60

3

23

26

3

2

28+TT

20-TT

1, 8, 15, 22, 25, 28, 35, 42, 45 (Note 1, 5)

15, 30, 60

9

17

26

5

2

28+TT

12-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 4, 5)

15

11

15

26

6

2

28+TT

9-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 4)

30, 60

6

20

26

6

2

28+TT

14-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 5)

30, 60

11

15

26

6

2

28+TT

9-TT

48 (Note 3, 4)

15

7

19

26

5

2

28+TT

14-TT

48 (Note 3, 4)

30, 60

12

14

26

6

2

28+TT

8-TT

48 (Note 3, 5)

15, 30, 60

7

19

26

5

2

28+TT

14-TT

NOTE 1: Test configuration IDs with transmission overlap with full RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 2: Test configuration IDs with transmission overlap with 1RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 3: Test configuration IDs with transmission overlap with edge full RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 4: When FIM3,low_block,low ≥ 2490.5 MHz (Case A)

NOTE 5: When FIM3,low_block,low < 2490.5 MHz (Case B)

NOTE 6: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.1.5-1.

Table 6.2B.3.1.5.2-5: UE Power Class 2 test requirements for NS_04, supporting dynamic power sharing and E-UTRA UL transmission not overlapping with NR UL transmission (Rel-15 UE indicates PC2 on NR band, Rel-16 and forward UE reporting (PC2 by PPowerClass,NR, and PC2 or Not present by powerClassNRPart-r16))

Test ID

Test SCS (kHz)

MPR (dB)

A-MPR (dB)

PEN-DC, tot_L (dBm)

PEN-DC, tot_H (dBm)

TLOW (PCMAX_L) (dB)

THIGH (PCMAX_H) (dB)

Upper limit (dBm)

Lower limit (dBm)

3, 7, 10, 14, 17, 21, 30, 34, 37, 41 (Note 1)

15, 30, 60

0

3

23

26

2

2

28+TT

21-TT

4 (Note 2)

15, 30, 60

3.5

0

22.5

26

2

2

28+TT

20.5-TT

6 (Note 2)

15, 30, 60

0

5.5

20.5

26

2.5

2

28+TT

18-TT

11 (Note 2)

15, 30, 60

3.5

0

22.5

26

2

2

28+TT

20.5-TT

13 (Note 2)

15, 30, 60

0

6

20

26

2.5

2

28+TT

17.5-TT

18 (Note 2)

15, 30, 60

3.5

0

22.5

26

2

2

28+TT

20.5-TT

20 (Note 2)

15, 30, 60

0

6

20

26

2.5

2

28+TT

17.5-TT

31 (Note 2)

15, 30, 60

3.5

0

22.5

26

2

2

28+TT

20.5-TT

33 (Note 2)

15, 30, 60

0

7.5

18.5

26

4

2

28+TT

14.5-TT

38 (Note 2)

15, 30, 60

3.5

0

22.5

26

2

2

28+TT

20.5-TT

40 (Note 2)

15, 30, 60

0

7.5

18.5

26

4

2

28+TT

14.5-TT

NOTE 1: Test configuration IDs without transmission overlap, 1RB E-UTRA allocation, A-MPR requirements in TS 36.101 [5] apply.

NOTE 2: Test configuration IDs without transmission overlap, 1RB NR allocation, A-MPR requirements in TS 38.101-1 [2] apply.

NOTE 3: Void.

NOTE 4: Void.

NOTE 5: Void.

NOTE 6: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.1.5-1.

Table 6.2B.3.1.5.2-5a: UE Power Class 2 test requirements for NS_04, E-UTRA UL transmission not overlapping with NR UL transmission (Rel-15 and forward UE indicates PC3 on NR band, Rel-16 and forward UE reporting (PC2 by PPowerClass,NR, and PC3 by powerClassNRPart-r16))

Test ID

Test SCS (kHz)

MPR (dB)

A-MPR (dB)

PEN-DC, tot_L (dBm)

PEN-DC, tot_H (dBm)

TLOW (PCMAX_L) (dB)

THIGH (PCMAX_H) (dB)

Upper limit (dBm)

Lower limit (dBm)

3, 7, 10, 14, 17, 21, 30, 34, 37, 41 (Note 1)

15, 30, 60

0

3

23

26

2

2

28+TT

21+TT

4 (Note 2)

15, 30, 60

0.5

0

22.5

23

2

2

25+TT

20.5+TT

6 (Note 2)

15, 30, 60

0

3.5

19.5

23

3.5

2

25+TT

16+TT

11 (Note 2)

15, 30, 60

1

0

22

23

2

2

25+TT

20+TT

13 (Note 2)

15, 30, 60

0

4

19

23

3.5

2

25+TT

15.5+TT

18 (Note 2)

15, 30, 60

2

0

21

23

2

2

25+TT

19+TT

20 (Note 2)

15, 30, 60

0

4

19

23

3.5

2

25+TT

15.5+TT

31 (Note 2)

15, 30, 60

3

0

20

23

2.5

2

25+TT

17.5+TT

33 (Note 2)

15, 30, 60

0

5.5

17.5

23

5

2

25+TT

12.5+TT

38 (Note 2)

15, 30, 60

3

0

20

23

2.5

2

25+TT

17.5+TT

40 (Note 2)

15, 30, 60

0

5.5

17.5

23

5

2

25+TT

12.5+TT

NOTE 1: Test configuration IDs without transmission overlap, 1RB E-UTRA allocation, A-MPR requirements in TS 36.101 [5] apply.

NOTE 2: Test configuration IDs without transmission overlap, 1RB NR allocation, A-MPR requirements in TS 38.101- [2] apply.

NOTE 3: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.1.5-1.

Table 6.2B.3.1.5.2-6: UE Power Class 2 test requirements for NS_04, not supporting dynamic power sharing and E-UTRA UL transmission overlapping with NR UL transmission

Test ID

Test SCS (kHz)

A-MPRtot (dB)

PEN-DC, tot_L (dBm)

PEN-DC, tot_H (dBm)

TLOW (PCMAX_L) (dB)

THIGH (PCMAX_H) (dB)

Upper limit (dBm)

Lower limit (dBm)

1, 8, 15, 22, 25, 28, 35, 42, 45 (Note 1, 4)

15, 30, 60

6

20

26

6

2

28+TT

14-TT

1, 8, 15, 22, 25, 28, 35, 42, 45 (Note 1, 5)

15, 30, 60

12

14

26

6

2

28+TT

8-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 4, 5)

15

14

12

26

6

2

28+TT

6-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 4)

30, 60

9

17

26

5

2

28+TT

12-TT

2, 5, 9, 12, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, 47 (Note 2, 5)

30, 60

14

12

26

6

2

28+TT

6-TT

48 (Note 3, 4)

15

10

16

26

5

2

28+TT

11-TT

48 (Note 3, 4)

30, 60

15

11

26

6

2

28+TT

5-TT

48 (Note 3, 5)

15, 30, 60

10

16

26

5

2

28+TT

11-TT

NOTE 1: Test configuration IDs with transmission overlap with full RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 2: Test configuration IDs with transmission overlap with 1RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 3: Test configuration IDs with transmission overlap with edge full RB allocation, requirements in TS 38.101-3 [4] apply.

NOTE 4: When FIM3,low_block,low ≥ 2490.5 MHz (Case A)

NOTE 5: When FIM3,low_block,low < 2490.5 MHz (Case B)

NOTE 6: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.1.5-1.

6.2B.3.2 UE Additional Maximum Output Power reduction for Intra-Band Non-Contiguous EN-DC

Editor’s note: This test case is incomplete. The following aspects are either missing or not yet determined:

– Test frequencies for the Minimum WGAP

– Test requirements for non-overlapping transmission of non-DPS UE need further investigation

6.2B.3.2.1 Test purpose

Additional emission requirements can be signalled by the network with network signalling value indicated by the field additionalSpectrumEmission. To meet these additional requirements, additional maximum power reduction (A-MPR) is allowed for the maximum output power as specified in Table 6.2B.1.1.3-1. Unless stated otherwise, an A-MPR of 0 dB shall be used.

6.2B.3.2.2 Test applicability

The requirements of this test apply in test case 6.5B.2.2.2 Additional spectrum emission mask for network signalled values NS_04 to all types of E-UTRA UE release 15 and forward, supporting intra-band non-contiguous EN-DC.

6.2B.3.2.3 Minimum conformance requirements

For intra-band non-contiguous EN-DC band combinations with additional requirements the A-MPR allowed are specified in table 6.2B.3.2.3-1 for UEs configured with EN-DC and combinations of network signalling values indicated in the E-UTRA and NR cell group(s). Unless otherwise stated the A-MPR specified in subclause6.2B.3.2 for intra-band non-contiguous EN-DC configurations is the total power reduction allowed including MPR. For UEs scheduled with single uplink transmission, AMPR in subclause 6.2.4 of [4] and 6.2.3 of [2] apply.

Table 6.2B.3.2.3-1: Allowed power reduction for intra-band non-contiguous EN-DC

DC configuration

Requirement (clause)

E-UTRA network signalling value

NR network signalling value

A-MPR (clause)

DC_41A_n41A1

6.6.3.3.19 and 6.6.2.2.2 of TS 36.101 [5] and 6.5.2.3.2 and 6.5.3.3.1 of TS 38.101-1 [2]

NS_01 or NS_04

NS_04

6.2B.3.2.3.1

NOTE 1: Only applies to UEs that support dual UL transmission for this EN-DC combination.

NOTE 2: The requirement applies when the combination of network signalling values in the two CGs is set (only for UEs configured with EN-DC).

The normative reference for this requirement is TS 38.101-3 [4] clause 6.2B.3.2.

Exception requirements for both NR and E-UTRA are defined for this test when transmission on E-UTRA overlap in time with NR.LTE anchor agnostic approach is not applied for this case and referred to as sub-test 1. E-UTRA test point analysis is included and E-UTRA measurements are performed.

Exception requirements for both NR and E-UTRA are defined for this test when transmission on E-UTRA doesn’t overlap in time with NR, for a UE that doesn’t support dynamic power sharing. LTE anchor agnostic approach is not applied for this case. E-UTRA test point analysis is included and E-UTRA measurements are performed.

No exception requirements for NR or E-UTRA are defined for this test when transmission on E-UTRA doesn’t overlap in time with NR, for a UE that supports dynamic power sharing. LTE anchor agnostic approach is not applied for this case.

6.2B.3.2.3.1 A-MPR for NS_04

When the UE is configured for B41/n41 intra-band non-contiguous EN-DC and it receives IE NS_04, the UE determines the total allowed maximum output power reduction as specified in this clause. The A-MPR for EN-DC defined in this clause is used instead of MPR defined in 6.2B.2.2, not additively, so EN-DC MPR=0 when NS_04 is signalled.

For UE supporting dynamic power sharing the following:

– for the MCG, A-MPRc in accordance with TS 36.101 [5]

– for the SCG,

A-MPR’c = A-MPRNR = MAX( A-MPRsingle,NR, A-MPREN-DC)

– for the total configured transmission power,

A-MPRtot = PPowerClass,EN-DC – min(PPowerClass,EN-DC ,10*log10(10^((PPowerClass,E-UTRA – A-MPRE-UTRA)/10) + 10^((PPowerClass,NR – A-MPRNR)/10))

where

A-MPRE-UTRA = MAX( A-MPRsingle,E-UTRA + MPRsingle,E-UTRA, A-MPREN-DC )

A-MPREN-DC = MAX(A-MPRIM3, A-MPRACLRoverlap )

with

– A-MPRsingle, E-UTRA is the A-MPR defined for the E-UTRA transmission in TS 38.101-3 [4]

– A-MPRsingle,NR is the A-MPR defined for the NR transmission in TS 38.101-1 [2]

– MPRsingle,E-UTRA is the MPR defined for the E-UTRA transmission in TS 38.101-3 [4]

For UEs not supporting dynamic power sharing the following

– for the MCG,

A-MPRc = MAX( A-MPRsingle, E-UTRA + MPRsingle,E-UTRA, A-MPRIM3, A-MPRACLRoverlap)

– for the SCG,

A-MPR’c = MAX( A-MPRsingle,NR, A-MPRIM3, A-MPRACLRoverlap)

where

– A-MPRsingle, E-UTRA is the A-MPR defined for the E-UTRA transmission in TS 36.101 [5]

– A-MPRsingle,NR is the A-MPR defined for the NR transmission in TS 38.101-1 [2]

– MPRsingle,E-UTRA is the MPR defined for the E-UTRA transmission in TS 36.101 [5]

The UE determines the Channel Configuration Case and the value of A-MPRIM3 as follows:

If AND( FIM3,low_block,high < Ffilter,low , MAX( SEM-13,high, FIM3,high_block,low ) > Ffilter,high )

Channel Configuration Case C. A-MPRIM3 defined in Clause 6.2B.3.1.3.2.1

Else

Channel Configuration Case D. A-MPRIM3 defined in Clause 6.2B.3.1.3.2.2

where

– FIM3,low_block,high = (2 * Flow_channel,high_edge ) – Fhigh_channel,low_edge

– FIM3,high_block,low = (2 * Fhigh_channel,low_edge) – Flow_channel,high_edge

– Flow_channel,low_edge is the lowermost frequency of lower transmission bandwidth configuration.

– Flow_channel,high_edge is the uppermost frequency of lower transmission bandwidth configuration.

– Fhigh_channel,low_edge is the lowermost frequency of upper transmission bandwidth configuration.

– Fhigh_channel,high_edge is the uppermost frequency of upper transmission bandwidth configuration.

– Ffilter,low = 2480 MHz

– Ffilter,high = 2745 MHz

– SEM-13,high = Threshold frequency where upper spectral emission mask for upper channel drops from -13 dBm / 1MHz to -25 dBm / 1MHz, as specified in Clause 6.6.2.2.2 in [5] and Subclause 6.5.2.3.2 in [2] respectively.

Where the transmission bandwidth configuration for NR is the maximum frequency span covering all the configured SCSSpecificCarrier for scenarios that carrier bandwidths with different SCS can be fully overlapped.

The UE determines the value of A-MPRACLRoverlap as specified in Table 6.2B.3.2.3.1-1:

Table 6.2B.3.2.3.1-1: A-MPRACLRoverlap

Wgap

A-MPRACLRoverlap

< BWchannel,E-UTRA + BWchannel,NR

4 dB

≥ BWchannel,E-UTRA + BWchannel,NR

0 dB

NOTE 1: Wgap = Fhigh_channel,low_edge – Flow_channel,high_edge

6.2B.3.2.4 Test description

6.2B.3.2.4.1 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, test channel bandwidths and sub-carrier spacing based on NR operating bands specified in table 5.5B.3-1. All of these configurations shall be tested with applicable test parameters for each combination of test channel bandwidth and sub-carrier spacing, and are shown in test configuration table 6.2B.3.1.4.1-1 through 6.2B.3.1.4.1-2 with additional IM3 test frequencies for NS_04 in 6.2B.3.2.4.1-1. The details of the uplink reference measurement channels (RMCs) are specified in Annex A2. Configurations of PDSCH and PDCCH before measurement are specified in Annex TS 36.521-1 [10] Annex C and in Annex C2 for LTE link and NR link respectively.

Table 6.2B.3.2.4.1-0: E-UTRA test configuration table

E-UTRA Test Parameters

E-UTRA Channel Bandwidth

E-UTRA Test Frequency
(Note 1)

Downlink

Uplink

N/A for A-MPR testing

Modulation

RB allocation

20 MHz

Low range and High range (Note 2)

QPSK

100

NOTE 1: E-UTRA Test Frequency as specified in TS 36.508 [6] clause 4.3.1

NOTE 2: NR carrier shall be the outermost carrier during test.

Table 6.2B.3.2.4.1-1: Additional IM3 Test Frquencies for NS_04 intra-band non-contiguous EN-DC

Additional Initial Condition

Additional IM3 Test Frquencies

if maximum WGAP > 88.4 MHz, and SCS 15 kHz, 15 kHz NR raster then IM3 test frequencies as specified in Table 6.2B.3.2.4.1-2.

if maximum WGAP > 88.4 MHz, and SCS 15 kHz, 30 kHz NR raster then IM3 test frequencies as specified in Table 6.2B.3.2.4.1-3.

if maximum WGAP > 88.4 MHz, and SCS 15 kHz, 60 kHz NR raster then IM3 test frequencies as specified in Table 6.2B.3.2.4.1-4.

Table 6.2B.3.2.4.1-2: EN-DC combination DC_41A_n41A, intra-band non-contiguous, SCS 15 kHz, 15 kHz NR raster, IM3 test frequencies

EN-DC channel bandwidth combination

CC

Bandwidth [MHz]

carrierBandwidth

[PRBs]

Range

Carrier centre

[MHz]

Note 2

Carrier centre

[ARFCN]

point A

[MHz]

absoluteFrequencyPointA

[ARFCN]

offsetToCarrier [Carrier PRBs]

SS block SCS

[kHz]

GSCN

absoluteFrequencySSB

[ARFCN]

E-UTRA: 20MHz + NR: 40MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2666.700

41357

NR CC1

40

216

Downlink & Uplink

IM3

2548.300

509660

2528.86

505772

0

15

6327

509660

NR: 40MHz +

E-UTRA: 20MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2558.300

40273

NR CC1

40

216

Downlink & Uplink

IM3

2676.700

535340

2657.26

531452

0

15

6648

535340

E-UTRA: 20MHz + NR: 50MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2524.900

39939

NR CC1

50

270

Downlink & Uplink

IM3

2665.000

533000

2640.7

528140

0

15

6606

533000

NR: 50MHz +

E-UTRA: 20MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2666.700

41357

NR CC1

50

270

Downlink & Uplink

IM3

2543.300

508660

2519

503800

0

15

6303

508660

Table 6.2B.3.2.4.1-3: EN-DC combination DC_41A_n41A, intra-band non-contiguous, SCS 30 kHz, 30 kHz NR raster, IM3 test frequencies

EN-DC channel bandwidth combination

CC

Bandwidth [MHz]

carrierBandwidth

[PRBs]

Range

Carrier centre

[MHz]

Note 2

Carrier centre

[ARFCN]

point A

[MHz]

absoluteFrequencyPointA

[ARFCN]

offsetToCarrier [Carrier PRBs]

SS block SCS

[kHz]

GSCN

absoluteFrequencySSB

[ARFCN]

E-UTRA: 20MHz + NR: 40MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2666.700

41357

NR CC1

40

106

Downlink & Uplink

IM3

2548.300

509660

2529.22

505844

0

30

6333

509660

NR: 40MHz +

E-UTRA: 20MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2558.300

40273

NR CC1

40

106

Downlink & Uplink

IM3

2676.700

535340

2657.62

531524

0

30

6654

535340

E-UTRA: 20MHz + NR: 50MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2524.900

39939

NR CC1

50

133

Downlink & Uplink

IM3

2665.000

533000

2641.06

528212

0

30

6612

533000

NR: 50MHz +

E-UTRA: 20MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2666.700

41357

NR CC1

50

133

Downlink & Uplink

IM3

2543.300

508660

2519.36

503872

0

30

6309

508660

Table 6.2B.3.2.4.1-4: EN-DC combination DC_41A_n41A, intra-band non-contiguous, SCS 60 kHz, 15 kHz NR raster, IM3 test frequencies

EN-DC channel bandwidth combination

CC

Bandwidth [MHz]

carrierBandwidth

[PRBs]

Range

Carrier centre

[MHz]

Note 2

Carrier centre

[ARFCN]

point A

[MHz]

absoluteFrequencyPointA

[ARFCN]

offsetToCarrier [Carrier PRBs]

SS block SCS

[kHz]

GSCN

absoluteFrequencySSB

[ARFCN]

E-UTRA: 20MHz + NR: 40MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2666.700

41357

NR CC1

40

51

Downlink & Uplink

IM3

2548.300

509660

2529.94

505988

0

15

6330

509660

NR: 40MHz +

E-UTRA: 20MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2558.300

40273

NR CC1

40

51

Downlink & Uplink

IM3

2676.700

535340

2658.34

531668

0

15

6651

535340

E-UTRA: 20MHz + NR: 50MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2524.900

39939

NR CC1

50

65

Downlink & Uplink

IM3

2665.000

535340

2653.3

530660

0

15

6639

535340

NR: 50MHz +

E-UTRA: 20MHz

E-UTRA CC1

20

100

Downlink & Uplink

IM3

2666.700

41357

NR CC1

50

65

Downlink & Uplink

IM3

2543.300

508660

2519.9

503980

0

15

6306

508660

Editor’s note: The following lines belong at the end of clause 6.2B.3.2.4.1. As new tables are added to this clause, these lines should always follow the tables.

1. Connect the SS to the UE antenna connectors as shown in TS 38.508-1 [6] Annex A, Figure A.3.1.1.1 for TE diagram and clause A.3.2.1 for UE diagram.

2. The parameter settings for the cell are set up according to TS 38.508-1 [6] clause 4.4.3.

3. Downlink signals are initially set up according to TS 36.521-1 [10] Annex C.0 and TS 38.521-1 [8] Annex C.0 for E-UTRA CG and NR CG respectively, and uplink signals according to TS 36.521-1 [10] Annex H and TS 38.521-1 [8] Annex G for E-UTRA CG and NR CG respectively.

4. NR downlink signals are initially set up according to Annex C.0, C.1, and C.2 and uplink signals according to Annex G.0, G.1, G.2, and G.3.0 of TS 38.521-1 [8].

5. The UL Reference Measurement channels are set according to TS 36.521-1 [10] Annex A.2 and Annex A for LTE link and NR link respectively.

6. Propagation conditions are set according to TS 36.521-1 [10] Annex B.0 and TS 38.521-1 [8] Annex B.0 for E-UTRA CG and NR CG respectively.

7. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity EN-DC, DC bearer MCG and SCG, Connected without release On according to TS 38.508-1 [6] clause 4.5. Message contents are defined in clause 6.2B.3.2.4.3.

8. For the case of testing overlapping E-UTRA and NR UL transmission scenario when both bands are TDD, ensure E-UTRA UL transmission overlaps with NR UL transmission in time by giving SCG a delay of 3 E-UTRA subframes, or by giving MCG a delay of 2 subframes.

6.2B.3.2.4.2 Test procedure

1. SS sends uplink scheduling information for each UL HARQ process via PDCCH DCI format 0 and DCI format 0_1 for C_RNTI to schedule the UL RMC according to table 6.2B.3.2.4.1-1 on both EN-DC component carriers. Since the UL has no payload and no loopback data to send the UE sends uplink MAC padding bits on the UL RMC.

2. Send continuously uplink power control "up" commands to the UE for NR and E-UTRA carrier until the UE transmits at its PUMAX level; allow at least 200 ms starting from the first TPC command in this step for the UE to reach PUMAX level.

3. Measure the mean power over all component carriers for the EN-DC configuration, which shall meet the requirements described in table 6.2B.3.2.5-1. The period of the measurement shall be at least the continuous duration of one sub-frame (1ms).

NOTE 1: When switching to DFT-s-OFDM waveform, as specified in the test configuration table 6.2B.3.1.4.1-2, send an NR RRCReconfiguration message according to TS 38.508-1 [6] clause 4.6.3 Table 4.6.3-118 PUSCH-Config with TRANSFORM_PRECODER_ENABLED condition.

6.2B.3.2.4.3 Message contents

Message contents are according to TS 38.508-1 [6] clause 4.6.1, with the following exceptions.

Table 6.2B.3.2.4.3-1: RRCConnectionReconfiguration: nr-Config-r15

Derivation Path: TS 36.508 [11], Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

p-MaxEUTRA-r15

23

Apply if run test points with E-UTRA UL transmission not overlapping with NR UL transmission in time for PC3 UE

20

Apply if run test points with E-UTRA UL transmission overlapping with NR UL transmission in time for PC3 UE, and UE doesn’t support dynamic power sharing.

P-Max

23

Apply if run test points with E-UTRA UL transmission not overlapping with NR UL transmission in time for PC3 UE

20

Apply if run test points with E-UTRA UL transmission overlapping with NR UL transmission in time for PC3 UE, and UE doesn’t support dynamic power sharing.

6.2B.3.2.4.3-2: SystemInfomationBlockType1: tdd-Config if E-UTRA on TDD band

Derivation Path: TS 36.508 [11], Table 4.6.3-23

Information Element

Value/remark

Comment

Condition

TDD-Config-DEFAULT ::= SEQUENCE {

Operating on TDD band

subframeAssignment

sa2

specialSubframePatterns

ssp7

}

Table 6.2B.3.2.4.3-3: RRCConnectionReconfiguration: tdm-PatternConfig if E-UTRA on FDD band and UE does not support dynamic power sharing

Derivation Path: TS 36.508 [11], Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

tdm-PatternConfig-r15 CHOICE{

Apply if run test points with E-UTRA UL transmission not overlapping with NR UL transmission in time for PC3 UE

setup SEQUENCE {

subframeAssignment-r15

sa2

harq-Offset-r15

0

}

}

NOTE 1: Applies when E-UTRA UL transmission not overlapping with NR UL transmission in time.

6.2B.3.2.4.3.1 Message contents exceptions (network signalled value "NS_04")

For "NS_04" see A-MPR test case in table 6.2B.3.1.4.3.1-1 and table 6.2B.3.1.4.3.1-2.

6.2B.3.2.5 Test requirement

The maximum output power, derived in step 3 shall be within the range prescribed by the nominal maximum output power and tolerance in Table 6.2B.3.2.5-0 to Table 6.2B.3.2.5-2a. The allowed A-MPR values specified in Table 6.2B.3.2.3-1 are in addition to the allowed MPR requirements specified in clause 6.2B.1.1.3. For the UE maximum output power modified by MPR and/or A-MPR, the power limits specified in Table 6.2B.1.1.3-1 apply.

Table 6.2B.3.2.5-0: Test Tolerance for UE maximum output power (LTE, NR TX separately)

Uplink TX

f ≤ 3.0GHz

3.0GHz < f ≤ 4.2GHz

4.2GHz < f ≤ 6GHz

LTE

BW ≤ 20MHz

0.7

1.0

1.3

NR

BW ≤ 40MHz

0.7 dB

1.0 dB

1.0

40MHz < BW ≤ 100MHz

1.0 dB

1.0 dB

1.0

Table 6.2B.3.2.5-1: UE Power Class 3 test requirements for network signalled value "NS_04"

Test ID

Modulation

ΔPPowerClass (dB)

MPR (dB)

A-MPR
(dB)

A-MPREN-DC
(dB)

A-MPRc (dB)

ΔTC,c (dB)

Note 7

PCMAX,c (dBm)

T(PCMAX_L,f,c)
(dB)

TL,c (dB)

Upper limit

Lower limit

1, 8, 15, 22, 25, 28, 35, 42 and 45

E-UTRA
Note 1

0

2

0

6

6

0
(1.5)

17
(15.5)

5
(5)

2
(3.5)

25+TT

12-TT
(10.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

E-UTRA
Note 2

0

2

0

11

11

0
(1.5)

12
(10.5)

6
(6)

2
(3.5)

25+TT

6-TT
(4.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

NR,

Note 1

0

Note 5

6

6

0
(1.5)

17
(15.5)

5
(5)

2
(3.5)

25+TT

12-TT
(10.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

NR,

Note 2

0

Note 5

11

11

0
(1.5)

12
(10.5)

6
(6)

2
(3.5)

25+TT

6-TT
(4.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 1, 3

0

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

25+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 1, 4

0

1

Note 6

9

9

0
(1.5)

14
(12.5)

5
(6)

2
(3.5)

25+TT

9-TT
(6.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 2

0

1

Note 6

14

14

0
(1.5)

9
(7.5)

6

2
(3.5)

25+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 1, 3

0

 –

Note 5

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

25+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 1, 4

0

Note 5

9

9

0
(1.5)

14
(12.5)

5
(6)

2
(3.5)

25+TT

9-TT
(6.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 2

0

 –

Note 5

11

11

0
(1.5)

9
(7.5)

6
(6)

2
(3.5)

25+TT

3-TT
(0.5-TT)

3, 7, 10, 14, 17, 21, 30, 34, 37, 41

E-UTRA
Note 1

0

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

25+TT

3-TT
(0.5-TT)

3, 7, 10, 14, 17, 21, 30, 34, 37 and 41

E-UTRA

Note 2

0

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

25+TT

3-TT
(0.5-TT)

4

NR

0

0.5

Note 9

0

0

0
(1.5)

22.5
(21)

2
(2)

2
(3.5)

25+TT

20.5-TT
(19-TT)

6

NR

0

0

Note 9

3.5

3.5

0
(1.5)

19.5
(18)

3.5
(4)

2
(3.5)

25+TT

16-TT
(14-TT)

11

NR

0

1

Note 9

0

0

0
(1.5)

22
(20.5)

2
(2.5)

2
(3.5)

25+TT

20-TT
(18-TT)

13

NR

0

0

Note 9

4

4

0
(1.5)

19
(17.5)

3.5
(5)

2
(3.5)

25+TT

15.5-TT
(12.5-TT)

18

NR

0

2

Note 9

0

0

0
(1.5)

21
(19.5)

2
(3.5)

2
(3.5)

25+TT

19-TT
(16-TT)

20

NR

0

0

Note 9

4

4

0
(1.5)

19
(17.5)

3.5
(5)

2
(3.5)

25+TT

15.5-TT
(12.5-TT)

31

NR

0

3

Note 9

0

0

0
(1.5)

20
(18.5)

2.5
(4)

2
(3.5)

25+TT

17.5-TT
(14.5-TT)

33

NR

0

0

Note 9

5.5

5.5

0
(1.5)

17.5
(16)

5
(5)

2
(3.5)

25+TT

12-TT
(11-TT)

38

NR

0

3

Note 9

0

0

0
(1.5)

20
(18.5)

2.5
(4)

2
(3.5)

25+TT

17.5-TT
(14.5-TT)

40

NR

0

0

Note 9

5.5

5.5

0
(1.5)

17.5
(16)

5
(5)

2
(3.5)

25+TT

12-TT
(11-TT)

NOTE 1: When FIM3,low_block,low ≥ 2490.5 MHz (Case A)

NOTE 2: When FIM3,low_block,low < 2490.5 MHz (Case B)

NOTE 3: When NR SCS = 15kHz.

NOTE 4: When NR SCS = 30 kHz or 60 kHz.

NOTE 5: NR A-MPR values for NS_04 are defined in Table 6.2.3.3.2-1.

NOTE 6: E-UTRA A-MPR= 3 dB for 1 RB and fc < 2517.5 MHz, otherwise 0 dB.

NOTE 7: ΔTC,c = 1.5 dB for transmission bandwidths confined within FUL_low and FUL_low + 4 MHz or FUL_high – 4 MHz and FUL_high, otherwise 0 dB.

NOTE 8: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.2.5-0.

NOTE 9: Apply for UE supporting dynamic power sharing. NR A-MPR values for NS_04 are defined in TS 38.101-1 [2].

Table 6.2B.3.2.5-2: UE Power Class 2 test requirements for network signalled value "NS_04" (Rel-15 UE indicates PC2 on NR band, Rel-16 and forward UE reporting (PC2 by PPowerClass,NR, and PC2 or Not present by powerClassNRPart-r16))

Test ID

Modulation

ΔPPowerClass (dB)

MPR (dB)

A-MPR
(dB)

A-MPREN-DC
(dB)

A-MPRc (dB)

ΔTC,c (dB)

Note 7

PCMAX,c (dBm)

T(PCMAX_L,f,c)
(dB)

TL,c (dB)

Upper limit

Lower limit

1, 8, 15, 22, 25, 28, 35, 42 and 45

E-UTRA
Note 1

3

2

0

6

6

0
(1.5)

17
(15.5)

5
(5)

2
(3.5)

28+TT

12-TT
(10.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

E-UTRA
Note 2

3

2

0

11

11

0
(1.5)

12
(10.5)

6
(6)

2
(3.5)

28+TT

6-TT
(4.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

NR,

Note 1

3

Note 5

6

6

0
(1.5)

17
(15.5)

5
(5)

2
(3.5)

28+TT

12-TT
(10.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

NR,

Note 2

3

Note 5

11

11

0
(1.5)

12
(10.5)

6
(6)

2
(3.5)

28+TT

6-TT
(4.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 1, 3

3

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

28+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 1, 4

3

1

Note 6

9

9

0
(1.5)

14
(12.5)

5
(6)

2
(3.5)

28+TT

9-TT
(6.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 2

3

1

Note 6

14

14

0
(1.5)

9
(7.5)

6

2
(3.5)

28+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 1, 3

3

 –

Note 5

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

28+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 1, 4

3

Note 5

9

9

0
(1.5)

14
(12.5)

5
(6)

2
(3.5)

28+TT

9-TT
(6.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 2

3

 –

Note 5

11

11

0
(1.5)

9
(7.5)

6
(6)

2
(3.5)

28+TT

3-TT
(0.5-TT)

3, 7, 10, 14, 17, 21, 30, 34, 37, 41

E-UTRA
Note 1

0

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

28+TT

3-TT
(0.5-TT)

3, 7, 10, 14, 17, 21, 30, 34, 37 and 41

E-UTRA

Note 2

0

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

28+TT

3-TT
(0.5-TT)

4

NR

0

3.5

Note 9

0

0

0
(1.5)

22.5
(21)

2
(2)

2
(3.5)

28+TT

20.5-TT
(19-TT)

6

NR

0

0

Note 9

5.5

5.5

0
(1.5)

20.5
(19)

2.5
(3.5)

2
(3.5)

28+TT

18-TT
(15.5-TT)

11

NR

0

3.5

Note 9

0

0

0
(1.5)

22.5
(21)

2
(2)

2
(3.5)

28+TT

20.5-TT
(19-TT)

13

NR

0

0

Note 9

6

6

0
(1.5)

20
(18.5)

2.5
(4)

2
(3.5)

28+TT

17.5-TT
(14.5-TT)

18

NR

0

3.5

Note 9

0

0

0
(1.5)

22.5
(21)

2
(2)

2
(3.5)

28+TT

20.5-TT
(19-TT)

20

NR

0

0

Note 9

6

6

0
(1.5)

20
(18.5)

2.5
(4)

2
(3.5)

28+TT

17.5-TT
(14.5-TT)

31

NR

0

3.5

Note 9

0

0

0
(1.5)

22.5
(21)

2
(2)

2
(3.5)

28+TT

20.5-TT
(19-TT)

33

NR

0

0

Note 9

7.5

7.5

0
(1.5)

18.5
(17)

4
(5)

2
(3.5)

28+TT

14.5-TT
(12-TT)

38

NR

0

3.5

Note 9

0

0

0
(1.5)

22.5
(21)

2
(2)

2
(3.5)

28+TT

20.5-TT
(19-TT)

40

NR

0

0

Note 9

7.5

7.5

0
(1.5)

18.5
(17)

4
(5)

2
(3.5)

28+TT

14.5-TT
(12-TT)

NOTE 1: When FIM3,low_block,low ≥ 2490.5 MHz (Case A).

NOTE 2: When FIM3,low_block,low < 2490.5 MHz (Case B).

NOTE 3: When NR SCS = 15kHz.

NOTE 4: When NR SCS = 30 kHz or 60 kHz.

NOTE 5: NR A-MPR values for NS_04 are defined in Table 6.2.3.3.2-1.

NOTE 6: E-UTRA A-MPR= 3 dB for 1 RB and fc < 2517.5 MHz, otherwise 0 dB.

NOTE 7: ΔTC,c = 1.5 dB for transmission bandwidths confined within FUL_low and FUL_low + 4 MHz or FUL_high – 4 MHz and FUL_high, otherwise 0 dB.

NOTE 8: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.2.5-0.

NOTE 9: Apply for UE supporting dynamic power sharing. NR A-MPR values for NS_04 are defined in TS 38.101-1 [24].

Table 6.2B.3.2.5-2a: UE Power Class 2 test requirements for network signalled value "NS_04" (Rel-15 and forward UE indicates PC3 on NR band, Rel-16 and forward UE reporting (PC2 by PPowerClass,NR, and PC3 by powerClassNRPart-r16))

Test ID

Modulation

ΔPPowerClass (dB)

MPR (dB)

A-MPR
(dB)

A-MPREN-DC
(dB)

A-MPRc (dB)

ΔTC,c (dB)

Note 7

PCMAX,c (dBm)

T(PCMAX_L,f,c)
(dB)

TL,c (dB)

Upper limit

Lower limit

1, 8, 15, 22, 25, 28, 35, 42 and 45

E-UTRA
Note 1

3

2

0

6

6

0
(1.5)

17
(15.5)

5
(5)

2
(3.5)

28+TT

12-TT
(10.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

E-UTRA
Note 2

3

2

0

11

11

0
(1.5)

12
(10.5)

6
(6)

2
(3.5)

28+TT

6-TT
(4.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

NR,

Note 1

3

Note 5

6

6

0
(1.5)

17
(15.5)

5
(5)

2
(3.5)

28+TT

12-TT
(10.5-TT)

1, 8, 15, 22, 25, 28, 35, 42 and 45

NR,

Note 2

3

Note 5

11

11

0
(1.5)

12
(10.5)

6
(6)

2
(3.5)

28+TT

6-TT
(4.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 1, 3

3

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

28+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 1, 4

3

1

Note 6

9

9

0
(1.5)

14
(12.5)

5
(6)

2
(3.5)

28+TT

9-TT
(6.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

E-UTRA
Note 2

3

1

Note 6

14

14

0
(1.5)

9
(7.5)

6

2
(3.5)

28+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 1, 3

3

 –

Note 5

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

28+TT

3-TT
(0.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 1, 4

3

Note 5

9

9

0
(1.5)

14
(12.5)

5
(6)

2
(3.5)

28+TT

9-TT
(6.5-TT)

2, 5, 9, 16, 19, 23, 24, 26, 27, 29, 32, 36, 39, 43, 44, 46, and 47

NR
Note 2

3

 –

Note 5

11

11

0
(1.5)

9
(7.5)

6
(6)

2
(3.5)

28+TT

3-TT
(0.5-TT)

3, 7, 10, 14, 17, 21, 30, 34, 37, 41

E-UTRA
Note 1

3

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

28+TT

3-TT
(0.5-TT)

3, 7, 10, 14, 17, 21, 30, 34, 37 and 41

E-UTRA

Note 2

3

1

Note 6

14

14

0
(1.5)

9
(7.5)

6
(7)

2
(3.5)

28+TT

3-TT
(0.5-TT)

4

NR

0

0.5

Note 9

0

0

0
(1.5)

22.5
(21)

2
(2)

2
(3.5)

25+TT

20.5-TT
(19-TT)

6

NR

0

0

Note 9

3.5

3.5

0
(1.5)

19.5
(18)

3.5
(4)

2
(3.5)

25+TT

16-TT
(14-TT)

11

NR

0

1

Note 9

0

0

0
(1.5)

22
(20.5)

2
(2.5)

2
(3.5)

25+TT

20-TT
(18-TT)

13

NR

0

0

Note 9

4

4

0
(1.5)

19
(17.5)

3.5
(5)

2
(3.5)

25+TT

15.5-TT
(12.5-TT)

18

NR

0

2

Note 9

0

0

0
(1.5)

21
(19.5)

2
(3.5)

2
(3.5)

25+TT

19-TT
(16-TT)

20

NR

0

0

Note 9

4

4

0
(1.5)

19
(17.5)

3.5
(5)

2
(3.5)

25+TT

15.5-TT
(12.5-TT)

31

NR

0

3

Note 9

0

0

0
(1.5)

20
(18.5)

2.5
(4)

2
(3.5)

25+TT

17.5-TT
(14.5-TT)

33

NR

0

0

Note 9

5.5

5.5

0
(1.5)

17.5
(16)

5
(5)

2
(3.5)

25+TT

12-TT
(11-TT)

38

NR

0

3

Note 9

0

0

0
(1.5)

20
(18.5)

2.5
(4)

2
(3.5)

25+TT

17.5-TT
(14.5-TT)

40

NR

0

0

Note 9

5.5

5.5

0
(1.5)

17.5
(16)

5
(5)

2
(3.5)

25+TT

12-TT
(11-TT)

NOTE 1: When FIM3,low_block,low ≥ 2490.5 MHz (Case A).

NOTE 2: When FIM3,low_block,low < 2490.5 MHz (Case B).

NOTE 3: When NR SCS = 15kHz.

NOTE 4: When NR SCS = 30 kHz or 60 kHz.

NOTE 5: NR A-MPR values for NS_04 are defined in Table 6.2.3.3.2-1.

NOTE 6: E-UTRA A-MPR= 3 dB for 1 RB and fc < 2517.5 MHz, otherwise 0 dB.

NOTE 7: ΔTC,c = 1.5 dB for transmission bandwidths confined within FUL_low and FUL_low + 4 MHz or FUL_high – 4 MHz and FUL_high, otherwise 0 dB.

NOTE 8: TT for each frequency and channel bandwidth is specified in Table 6.2B.3.2.5-0.

NOTE 9: Apply for UE supporting dynamic power sharing. NR A-MPR values for NS_04 are defined in TS 38.101-1 [2].

6.2B.3.3 UE Additional Maximum Output Power reduction for Inter-Band EN-DC within FR1 (1 NR CC)

6.2B.3.3.1 Test purpose

Same test purpose as in clause 6.2.3.1 in TS 38.521-1 [8] for the NR carrier.

6.2B.3.3.2 Test applicability

The requirements of this test apply to all types of E-UTRA UE release 15 and forward, supporting inter-band EN-DC within FR1 with 1 NR UL CC.

NOTE: Test execution is not necessary if clause 6.5B.2.3.2, 6.5B.2.3.3.2 and 6.5B.4.3 are executed since A-MPR requirements are verified in these test cases.

6.2B.3.3.3 Minimum conformance requirements

For inter-band EN-DC between E-UTRA and FR1 NR, UE additional maximum output power reduction specified in TS 36.101 [5] and TS 38.101-1 [2] apply for E-UTRA and NR respectively.

The normative reference for this requirement is TS 38.101-3 [4] clause 6.2B.3.3.

No exception requirements applicable to NR or E-UTRA. LTE anchor agnostic approach is applied

6.2B.3.3.4 Test description

Same test description as in clause 6.2.3.4 in TS 38.521-1 [8] for the NR carrier with the following exceptions:

The initial test configurations for E-UTRA band consist of environmental conditions, test frequencies, and channel bandwidths based on E-UTRA bands specified in Table 4.6-1.

For Initial conditions as in clause 6.2.3.4.1 in TS 38.521-1 [8], the following steps will be added to configure E-UTRA component:

2.1. The parameter settings for the E-UTRA cell are set up according to TS 36.508 [11] clause 4.4.3 with E-UTRA channel bandwidth and test frequencies defined in Table 6.2B.3.3.4-1.

3.1. Downlink E-UTRA signals are initially set up according to TS 36.521-1 [10] Annex C0, C.1 and C.3.0, and uplink signals according to Annex H.1 and H.3.0.

4.1. The E-UTRA UL Reference Measurement channels are set according to Table 6.2B.3.3.4-1.

Step 6 of Initial conditions as in clause 6.2.3.4.1 in TS 38.521-1 [8] is replaced by the following two steps:

6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity EN-DC, DC bearer MCG and SCG, Connected without release On according to TS 38.508-1 [6] clause 4.5.

7. On the E-UTRA carrier, disable periodic and aperiodic CQI reports, disable SRS, set TimeAlignmentTimerDedicated IE to infinity and disable downlink and uplink scheduling, all as per Table 4.6-1 under clause 4.6.Same test procedure as in clause 6.2.3.4.2 in TS 38.521-1 [8].

6.2B.3.3.5 Test requirement

For PC3 UE, same test requirement as in clause 6.2.2.5 in TS 38.521-1 [8].

For PC2 UE (Rel-15 UE indicates PC2 on NR band, Rel-16 and forward UE reporting (PC2 by PPowerClass,NR, and PC2 or Not present by powerClassNRPart-r16)), same test requirement for PC2 UE as in clause 6.2.3.5 in TS 38.521-1 [8]. For PC2 UE (Rel-15 and forward UE indicates PC3 on NR band, Rel-16 and forward UE reporting (PC2 by PPowerClass,NR, and PC3 by powerClassNRPart-r16)), same test requirement for PC3 UE as in clause 6.2.3.5 in TS 38.521-1 [8].

6.2B.3.4 UE Additional Maximum Output Power reduction for Inter-Band EN-DC including FR2 (1 NR CC)

6.2B.3.4.1 Test purpose

Same test purpose as in clause 6.2.3.1 in TS 38.521-2 [9] for the NR carrier.

6.2B.3.4.2 Test applicability

This test case applies to all types of E-UTRA UE release 15 and forward, supporting inter-band EN-DC including FR2 with 1 NR UL CC.

6.2B.3.4.3 Minimum conformance requirements

Same minimum conformance requirements as in clause 6.2.2.3 in TS 38.521-2 [9] for the NR carrier.

No exception requirements applicable to NR or E-UTRA. LTE anchor agnostic approach is applied.

6.2B.3.4.4 Test description

6.2B.3.4.4.1 Initial conditions

Same test description as in clause 6.2.3.4 in TS 38.521-2 [9] for the NR carrier with the following exception:

The initial test configurations for E-UTRA band consist of environmental conditions, test frequencies, and channel bandwidths based on E-UTRA bands specified in Table 4.7-1. For Initial conditions as in clause 6.2.3.4.1 in TS 38.521-2 [9], the following steps will be added to configure E-UTRA component:

2.1. The parameter settings for E-UTRA cell are set up according to TS 36.508 [11] clause 4.4.3.

3.1. The E-UTRA downlink signal level, uplink signal level are set according to Table 4.7-1 and propagation conditions are set according to Annex B.0 of TS 36.521-1 [10].

Step 6 of Initial conditions as in clause 6.2.3.4.1 in TS 38.521-2 [9] is replaced by:

6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity EN-DC, DC bearer MCG and SCG, Connected without release On according to TS 38.508-1 [6] clause 4.5.

6.2B.3.4.4.2 Test procedure

Same test procedure as in clause 6.2.3.4.2 in TS 38.521-2 [9] with the following steps added for E-UTRA component:

1.1 On the E-UTRA carrier, disable periodic and aperiodic CQI reports, disable SRS, set TimeAlignmentTimerDedicated IE to infinity and disable downlink and uplink scheduling, all as per Table 4.7-1 under clause 4.7.

6.2B.3.4.4.3 Message contents

Message contents are according to TS 38.508-1 [5] clause 4.6 with the following exceptions for each network signalled value.

1. Information element AdditionalSpectrumEmission for NR can be set in nr-SecondaryCellGroupConfig according to TS 38.331 [15]. This exception indicates that the UE shall meet the additional spurious emission requirement for a specific deployment scenario.

Table 6.2B.3.4.4.3-1: AdditionalSpectrumEmission: Additional spurious emissions test requirement

Derivation Path: TS 38.508-1 [5] clause 4.6.3, Table 4.6.3-1

Information Element

Value/remark

Comment

Condition

AdditionalSpectrumEmission

1 (NS_202)

for band n257

AdditionalSpectrumEmission

2 (NS_202)

for band n258

AdditionalSpectrumEmission

3 (NS_203)

for band n258

6.2B.3.4.5 Test requirement

Same test requirement as in clause 6.2.3.5 in TS 38.521-2 [9] for the NR carrier.

6.2B.3.4D UE Additional Maximum Output Power reduction for Inter-Band EN-DC including FR2 (1 NR CC) for UL MIMO

6.2B.3.4D.1 Test purpose

Same test purpose as in clause 6.2D.3.1 in TS 38.521-2 [9] for the NR carrier.

6.2B.3.4D.2 Test applicability

This test case applies to all types of E-UTRA UE release 15 and forward, supporting inter-band EN-DC including FR2 with 1 NR UL CC with UL MIMO.

6.2B.3.4D.3 Minimum conformance requirements

Same minimum conformance requirements as in clause 6.2D.2.3 in TS 38.521-2 [9] for the NR carrier.

No exception requirements applicable to NR or LTE. LTE anchor agnostic approach is applied.

6.2B.3.4D.4 Test description

6.2B.3.4D.4.1 Initial conditions

Same test description as in clause 6.2D.3.4 in TS 38.521-2 [9] for the NR carrier with the following exception:

The initial test configurations for E-UTRA band consist of environmental conditions, test frequencies, and channel bandwidths based on E-UTRA bands specified in Table 4.7-1. For Initial conditions as in clause 6.2D.3.4.1 in TS 38.521-2 [9], the following steps will be added to configure E-UTRA component:

2.1. The parameter settings for E-UTRA cell are set up according to TS 36.508 [11] clause 4.4.3.

3.1. The E-UTRA downlink signal level, uplink signal level are set according to Table 4.7-1 and propagation conditions are set according to Annex B.0 of TS 36.521-1 [10].

Step 6 of Initial conditions as in clause 6.2D.3.4.1 in TS 38.521-2 [9] is replaced by:

6. Ensure the UE is in state RRC_CONNECTED with generic procedure parameters Connectivity EN-DC, DC bearer MCG and SCG, Connected without release On according to TS 38.508-1 [6] clause 4.5.

6.2B.3.4D.4.2 Test procedure

Same test procedure as in clause 6.2D.3.4.2 in TS 38.521-2 [9] with the following steps added for E-UTRA component:

1.1 On the E-UTRA carrier, disable periodic and aperiodic CQI reports, disable SRS, set TimeAlignmentTimerDedicated IE to infinity and disable downlink and uplink scheduling, all as per Table 4.7-1 under clause 4.7.

6.2B.3.4D.4.3 Message contents

Message contents are according to TS 38.508-1 [5] clause 4.6 ensuring Table 4.6.3-182 with condition 2TX_UL_MIMO, with the following exceptions for each network signalled value.

1. Information element AdditionalSpectrumEmission for NR can be set in nr-SecondaryCellGroupConfig according to TS 38.331 [15]. This exception indicates that the UE shall meet the additional spurious emission requirement for a specific deployment scenario.

Table 6.2B.3.4D.4.3-1: AdditionalSpectrumEmission: Additional spurious emissions test requirement

Derivation Path: TS 38.508-1 [5] clause 4.6.3, Table 4.6.3-1

Information Element

Value/remark

Comment

Condition

AdditionalSpectrumEmission

1 (NS_202)

for band n257

AdditionalSpectrumEmission

2 (NS_202)

for band n258

AdditionalSpectrumEmission

3 (NS_203)

for band n258

6.2B.3.4D.5 Test requirement

Same test requirement as in clause 6.2D.3.5 in TS 38.521-2 [9] for the NR carrier.

6.2B.3.5 UE Additional Maximum Output power reduction for inter-band EN-DC including both FR1 and FR2

6.2B.3.5.1 Test purpose

Same test purpose as in clause 6.2.3.1 in TS 38.521-1 [8] for NR FR1 carrier and clause 6.2.3.1 in TS 38.521-2 [9] for NR FR2 carrier.

6.2B.3.5.2 Test applicability

The requirements in this test are not testable due to issues with combined testing of NR FR1 and E-UTRA in conducted mode with NR FR2 in radiated mode. Therefore, the conducted and radiated requirements are tested separately.

No test case details are specified. The EN-DC requirements for Additional Maximum Output Power apply and are tested as part of the EN-DC within FR1 and EN-DC including FR2 test cases in clause 6.2B.3.

6.2B.3.5D UE Additional Maximum Output power reduction for inter-band EN-DC including both FR1 and FR2 for UL MIMO

6.2B.3.5D.1 Test purpose

Same test purpose as in clause 6.2D.3.1 in TS 38.521-1 [8] for NR FR1 carrier(s) and clause 6.2D.3.1 in TS 38.521-2 [9] for NR FR2 carrier(s).

6.2B.3.5D.2 Test applicability

The requirements in this test are not testable due to issues with combined testing of NR FR1 and E-UTRA in conducted mode with NR FR2 in radiated mode. Therefore, the conducted and radiated requirements are tested separately.

No test case details are specified. The EN-DC requirements for maximum output power apply and are tested as part of the EN-DC within FR1 and EN-DC including FR2 test cases in clause 6.2B.