6.2.2 UE Maximum Output Power

f ≤ 3.0GHz

Power class 1: [FFS]

Power class 2: [FFS]

Power class 3: 23dBm ±2 dB

Power class 4: [FFS]

3.0GHz < f ≤ 4.2GHz

Power class 3: 23dBm +2/-3 dB

4.2GHz < f ≤ 6GHz

Power class 3: 23dBm ±2 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.3 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 1: [FFS]

Power class 2: [FFS]

Power class 3: 23dBm ±2.7 dB

Power class 4: [FFS]

Power class 3: 23dBm +3.0/-4.0 dB

Power class 3: 23dBm ±3.3 dB

6.2.2_1 UE Maximum Output Power for HPUE

f ≤ 3.0GHz

Power class 1: 31dBm +2/-3dB

Power class 2: 26dBm ±2dB

3.0GHz < f ≤ 4.2GHz

Power class 2: 26 dBm +2/-3 dB

0.7dB

1.0 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 1: 31dBm +2.7/-3.7dB

Power class 2: 26dBm ±2.7dB

Power class 2: 26 dBm +3.0/-4.0 dB

6.2.2A.1 UE Maximum Output Power for CA (intra-band contiguous DL CA and UL CA)

Same as 6.2.2

Same as 6.2.2

Same as 6.2.2

6.2.2A.2 UE Maximum Output Power for CA (inter-band DL CA and UL CA)

Same as 6.2.2

Same as 6.2.2

Same as 6.2.2

6.2.2B UE Maximum Output Power for UL-MIMO

f ≤ 3.0GHz

Power class 1: [FFS]

Power class 2: [FFS]

Power class 3: 23dBm +2/-3 dB

Power class 4: [FFS]

3.0GHz < f ≤ 4.2GHz

Power class 3: 23dBm +2/-4 dB

Same as 6.2.2

Formula:

Upper limit +TT, Lower limit – TT

Power class 1: [FFS]

Power class 2: [FFS]

Power class 3: 23dBm +2.7/-3.7 dB

Power class 4: [FFS]

Power class 3: 23dBm +3.0/-5.0 dB

Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.2.2B_1 HPUE Maximum Output Power for UL-MIMO

f ≤ 3.0GHz

Power class 1: 31dBm +2/-3 dB

Power class 2: 26dBm +2/-3 dB

3.0GHz < f ≤ 4.2GHz

Power class 2: 26dBm +2/-4 dB

Same as 6.2.2

Formula:

Upper limit + TT, Lower limit – TT

Power class 1: 31dBm +2.7/-3.7dB

Power class 2: 26dBm +2.7/-3.7dB

Power class 2: 26 dBm +3.0/-5.0 dB

6.2.2E UE Maximum Output Power UE category 0

Same as 6.2.2

Same as 6.2.2

Same as 6.2.2

6.2.2EA UE Maximum Output Power UE category M1

f ≤ 3.0GHz

Power class 3: 23dBm ±2 dB

Power class 5: 20dBm ±2 dB

Power class 6: 14dBm ±2.5 dB

3.0GHz < f ≤ 4.2GHz

Power class 3: 23dBm ±2 dB

Power class 5: 20dBm ±2 dB

Power class 6: 14dBm ±2.5 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 3: 23dBm ±2.7 dB

Power class 5: 20dBm ±2.7 dB

Power class 6: 14dBm ±3.2 dB

Power class 3: 23dBm ±3.0 dB

Power class 5: 20dBm ±3.0 dB

Power class 6: 14dBm ±3.5 dB

6.2.2EB UE Maximum Output Power UE category 1bis

Same as 6.2.2

Same as 6.2.2

Same as 6.2.2

6.2.2EC UE Maximum Output Power for UE category M2

Same as 6.2.2EA

Same as 6.2.2EA

Same as 6.2.2EA

6.2.2F UE Maximum Output Power for UE category NB1 and NB2

f ≤ 3.0GHz

Power class 1: [FFS]

Power class 2: [FFS]

Power class 3: 23dBm ±2 dB

Power class 4: [FFS]

Power class 5: 20dBm ±2 dB

3.0GHz < f ≤ 4.2GHz

Power class 1: [FFS]

Power class 2: [FFS]

Power class 3: 23dBm ±2 dB

Power class 4: [FFS]

Power class 5: 20dBm ±2 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 1: [FFS]

Power class 2: [FFS]

Power class 3: 23dBm ±2.7 dB

Power class 4: [FFS]

Power class 5: 20dBm ±2.7 dB

Power class 1: [FFS]

Power class 2: [FFS]

Power class 3: 23dBm ±3.0 dB

Power class 4: [FFS]

Power class 5: 20dBm ±3.0 dB

6.2.2FA UE Maximum Output Power for category NB1 and NB2/Power Class 6

f ≤ 3.0GHz

Power class 6: 14dBm ±2.5dB

3.0GHz < f ≤ 4.2GHz

Power class 6: 14dBm ±2.5dB

0.7dB

1.0 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 6: 14dBm ±3.2dB

Power class 6: 14dBm ±3.5dB

6.2.2G.1 UE maximum output power for V2X Commincation / Non-concurrent with E-UTRA uplink transmissions

4.2GHz < f ≤ 6GHz

Power class 3: 23dBm ±2 dB

1.3 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 3: 23dBm ±3.3 dB

6.2.2G.2 UE maximum output power for V2X Commincation / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmission

4.2GHz < f ≤ 6GHz

Power class 3: 23dBm +2/-3 dB

1.3 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 3: 23dBm +3.3/-4.3 dB

6.2.2G.3 UE maximum output power for V2X Commincation / Intra-band contiguous multi-carrier operation

4.2GHz < f ≤ 6GHz

Power class 3: 23dBm ±2 dB

1.3 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 3: 23dBm ±3.3 dB

6.2.2G.4.1 UE maximum output power for V2X Commincation / Power class 2 / Non-concurrent with E-UTRA uplink transmissions

4.2GHz < f ≤ 6GHz

Power class 2: 26dBm ±2 dB

1.3 dB

Formula:

Upper limit + TT, Lower limit – TT

Power class 2: 26dBm ±3.3 dB

6.2.2_s UE Maximum Output Power for subslot/slot TTI

Same as 6.2.2

Same as 6.2.2

Same as 6.2.2

6.2.3 Maximum Power Reduction

Power class 3

f ≤ 3.0GHz

QPSK: MPR ≤ 1dB

16QAM: MPR ≤ 1dB

16QAM: MPR ≤ 2dB

3.0GHz < f ≤ 4.2GHz

QPSK: MPR ≤ 1dB

16QAM: MPR ≤ 1dB

16QAM: MPR ≤ 2dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT,

Lower limit – MPR – TT

Power class 3:

QPSK: 23dBm +2.7 / – 3.7dB

16QAM: 23dBm +2.7 / – 3.7dB

16QAM: 23dBm +2.7 / – 4.7dB

QPSK: 23dBm +3.0 / – 5.0dB

16QAM: 23dBm +3.0 / – 5.0dB

16QAM: 23dBm +3.0 / – 6.0dB

6.2.3_1 Maximum Power Reduction for HPUE

Power class 1 and 2

f ≤ 3.0GHz

QPSK: MPR ≤ 1dB

16QAM: MPR ≤ 1dB

16QAM: MPR ≤ 2dB

Power class 2:

3.0GHz < f ≤ 4.2GHz

QPSK: MPR ≤ 1 dB

16QAM: MPR ≤ 1 dB

16QAM: MPR ≤ 2 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT,

Lower limit – MPR – TT

Power class 1:

QPSK: 31dBm +2.7 / – 4.7dB

16QAM: 31dBm +2.7 / – 4.7dB

16QAM: 31dBm +2.7 / – 5.7dB

Power class 2:

QPSK: 26dBm +2.7 / – 3.7dB

16QAM: 26dBm +2.7 / – 3.7dB

16QAM: 26dBm +2.7 / – 4.7dB

QPSK: 26dBm +3.0 / -5.0 dB

16QAM: 26dBm +3.0 / -5.0 dB

16QAM: 26dBm +3.0 / -6.0 dB

6.2.3_2 UE Maximum Output Power for Multi-Cluster PUSCH

Same as 6.2.2

Same as 6.2.2

Same as 6.2.2

6.2.3_3 Maximum Power Reduction (MPR) for UL 64QAM

Power class 3

f ≤ 3.0GHz

64QAM: MPR ≤ 2dB

64QAM: MPR ≤ 3dB

3.0GHz < f ≤ 4.2GHz

64QAM: MPR ≤ 2dB

64QAM: MPR ≤ 3dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT,

Lower limit – MPR – TT

Power class 3:

64QAM: 23dBm +2.7 / – 4.7dB

64QAM: 23dBm +2.7 / – 6.2dB

64QAM: 23dBm +3.0 / – 5.0dB

64QAM: 23dBm +3.0 / – 6.5dB

6.2.3_4 Maximum Power Reduction (MPR) for Multi-Cluster PUSCH with UL 64QAM

Same as 6.2.3_3

Same as 6.2.3_3

Same as 6.2.3_3

6.2.3_5 Maximum Power Reduction (MPR) for UL 256QAM

Power class 3

f ≤ 3.0GHz

256QAM: MPR ≤ 5dB

3.0GHz < f ≤ 4.2GHz

256QAM: MPR ≤ 5dB

0.7 dB

1.0 dB

Formula:

Upper limit + TT,

Lower limit – MPR – TT

Power class 3:

256QAM: 23dBm +2.7 / – 7.7dB

256QAM: 23dBm +3.0 / – 8.0dB

6.2.3_6 Maximum Power Reduction (MPR) for Multi-Cluster PUSCH with UL 256QAM

Power class 3

f ≤ 3.0GHz

256 QAM: MPR = 5.5dB

256 QAM: MPR = 6 dB

256 QAM: MPR = 7 dB

256 QAM: MPR = 7.5dB

3.0GHz < f ≤ 4.2GHz

256 QAM: MPR = 5.5dB

256 QAM: MPR = 6 dB

256 QAM: MPR = 7 dB

256 QAM: MPR = 7.5dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit: +T(P_{CMAX_H_C}) + TT,

Lower limit: -T(P_{CMAX_L_C}) – MPR – TT

P_{CMAX_H_C} = P_PowerClass

P_{CMAX_L_C} = P_PowerClass-MPR

Power class 3:

256QAM: 23dBm +2.7 / – 11.2dB

256QAM: 23dBm +2.7 / – 11.7dB

256QAM: 23dBm +2.7 / – 12.7dB

256QAM: 23dBm +2.7 / – 13.2dB

256QAM: 23dBm +2.7 / – 11.5dB

256QAM: 23dBm +2.7 / – 12.0dB

256QAM: 23dBm +2.7 / – 13.0dB

256QAM: 23dBm +2.7 / – 13.5dB

6.2.3A.1 Maximum Power Reduction (MPR) for CA (intra-band contiguous DL CA and UL CA)

Power class 3

f ≤ 3.0GHz

MPR = 0dB

MPR = 1dB

MPR = 2dB

MPR = 3dB

MPR = 8.5dB

MPR = 10dB

MPR = 10.5dB

3.0GHz < f ≤ 4.2GHz

MPR = 0dB

MPR = 1dB

MPR = 2dB

MPR = 3dB

MPR = 8.5dB

MPR = 10.0dB

MPR = 10.0dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -max(T_L,c, T(P_{CMAX_L} )) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass-MPR

Power class 3:

T_L,c=2dB

23dBm +2.7 / – 2.7dB

23dBm +2.7 / – 3.7dB

23dBm +2.7 / – 4.7dB

23dBm +2.7 / – 6.2dB

23dBm +2.7 / – 14.2dB

23dBm +2.7 / – 15.7dB

23dBm +2.7 / – 17.2dB

T_L,c=3dB

23dBm +3.0 / – 4.0dB

23dBm +3.0 / – 5.0dB

23dBm +3.0 / – 6.0dB

23dBm +3.0 / – 7.5dB

23dBm +3.0 / – 14.5dB

23dBm +3.0 / – 16.0dB

23dBm +3.0 / – 17.5dB

6.2.3A.1_1 Maximum Power Reduction (MPR) for CA (intra-band contiguous DL CA and UL CA) for UL 64QAM

Power class 3

f ≤ 3.0GHz

MPR = 2dB

MPR = 3dB

3.0GHz < f ≤ 4.2GHz

MPR = 2dB

MPR = 3dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass-MPR

Power class 3:

23dBm +2.7 / – 4.7dB

23dBm +2.7 / – 6.2dB

23dBm +3.0 / – 5.0dB

23dBm +3.0 / – 6.5dB

6.2.3A.1_2 Maximum Power Reduction (MPR) for CA (intra-band contiguous DL CA and UL CA) for UL 256QAM

Power class 3

f ≤ 3.0GHz

MPR = 5dB

3.0GHz < f ≤ 4.2GHz

MPR = 5dB

0.7 dB

1.0 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass-MPR

Power class 3:

23dBm +2.7 / – 9.7dB

23dBm +3.0 / – 10.0dB

6.2.3A.2 Maximum Power Reduction (MPR) for CA (inter-band DL CA and UL CA)

Power class 3

f ≤ 3.0GHz

MPR = 0dB

MPR = 1dB

MPR = 2dB

4.2GHz < f ≤ 6GHz

MPR = 0dB

MPR = 1dB

MPR = 2dB

0.7 dB

0.7 dB

0.7 dB

1.5 dB

1.5 dB

1.5 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = MIN(linear sum of P_PowerClass – MPR _c -·T_C,c, 23 dBm)

Power class 3:

23dBm +2.7 / – 3.7 dB

23dBm +2.7 / – 3.7 dB

23dBm +2.7 / – 3.7 dB

23dBm +3.5 / – 4.5 dB

23dBm +3.5 / – 5.5 dB

23dBm +3.5 / – 6.5 dB

6.2.3A.2_1 Maximum Power Reduction (MPR) for CA (inter-band DL CA and UL CA) for UL 64QAM

Power class 3

f ≤ 3.0GHz

MPR = 2dB

MPR = 3dB

0.7 dB

0.7 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = MIN(linear sum of P_PowerClass – MPR _c -·T_C,c, 23 dBm)

Power class 3:

23dBm +2.7 / – 5.7 dB

23dBm +2.7 / – 6.7 dB

6.2.3A.2_2 Maximum Power Reduction (MPR) for CA (inter-band DL CA and UL CA) for UL 256QAM

Power class 3

f ≤ 3.0GHz

MPR = 5dB

3.0GHz < f ≤ 4.2GHz

MPR = 5dB

0.7 dB

1.0 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = MIN(linear sum of P_PowerClass – MPR _c -·T_C,c, 23 dBm)

Power class 3:

23dBm +2.7 / – 7.7 dB

23dBm +2.7 / – 9.4 dB

23dBm +3.0 / – 8.0 dB

23dBm +3.0 / – 9.7 dB

6.2.3A.3 Maximum Power Reduction (MPR) for CA (intra-band non-contiguous DL CA and UL CA)

Power class 3

f ≤ 3.0GHz

MPR = 7 dB

MPR = 12 dB

MPR = 18 dB

0.7 dB

0.7 dB

0.7 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass – MPR -·T_C dBm)

Power class 3:

23dBm +2.7 / – 12.7 dB

23dBm +2.7 / – 18.7 dB

23dBm +2.7 / – 25.7 dB

6.2.3A.3_1 Maximum Power Reduction (MPR) for CA (intra-band non-contiguous DL CA and UL CA) for UL 64QAM

Power class 3

f ≤ 3.0GHz

MPR = 7 dB

MPR = 12 dB

MPR = 18 dB

0.7 dB

0.7 dB

0.7 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass – MPR -·T_C dBm)

Power class 3:

23dBm +2.7 / – 12.7 dB

23dBm +2.7 / – 18.7 dB

23dBm +2.7 / – 25.7 dB

6.2.3A.3_2 Maximum Power Reduction (MPR) for CA (intra-band non-contiguous DL CA and UL CA) for UL 256QAM

Power class 3

f ≤ 3.0GHz

MPR = 7 dB

MPR = 12 dB

MPR = 18 dB

0.7 dB

0.7 dB

0.7 dB

Formula:

Upper limit: +T(PCMAX_H) + TT,

Lower limit: -T(PCMAX_L ) – MPR – TT

PCMAX_H = PPowerClass

PCMAX_L = PPowerClass – MPR -·DTC dBm)

Power class 3:

23dBm +2.7 / – 12.7 dB

23dBm +2.7 / – 18.7 dB

23dBm +2.7 / – 25.7 dB

6.2.3A.4 Maximum Power Reduction (MPR) for CA (3UL CA)

Power class 3

f ≤ 3.0GHz for intra-band

MPR = 0dB

MPR = 1dB

MPR = 2dB

MPR = 3dB

MPR = 3.5dB

3.0GHz < f ≤ 4.2GHz for intra-band

MPR = 0dB

MPR = 1dB

MPR = 2dB

MPR = 3dB

MPR = 3.5dB

f ≤ 3.0GHz for inter-band

MPR = 0dB

MPR = 1dB

MPR = 1dB

MPR = 2dB

MPR = 2dB

3.0GHz < f ≤ 4.2GHz for intra-band

MPR = 0dB

MPR = 1dB

MPR = 1dB

MPR = 2dB

MPR = 2dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1 dB

1 dB

1 dB

1 dB

1 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1 dB

1 dB

1 dB

1 dB

1 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass-MPR

Power class 3:

23dBm +2.7 / – 2.7dB

23dBm +2.7 / – 3.7dB

23dBm +2.7 / – 4.7dB

23dBm +2.7 / – 5.2dB

23dBm +2.7 / – 6.2dB

23dBm +3 / -3 dB

23dBm +3 / -4 dB

23dBm +3 / -5 dB

23dBm +3 / -5.5 dB

23dBm +3 / -6.5 dB

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = MIN(linear sum of P_PowerClass – MPR _c -·T_C,c, 23 dBm)

Power class 3:

23dBm +2.7 / – 3.7 dB

23dBm +2.7 / – 3.7 dB

23dBm +2.7 / – 5.7 dB

23dBm +2.7 / – 3.7 dB

23dBm +2.7 / – 5.7 dB

23dBm +3 / – 4 dB

23dBm +3 / – 4 dB

23dBm +3 / – 6 dB

23dBm +3 / – 4 dB

23dBm +3 / – 6 dB

6.2.3B Maximum Power Reduction (MPR) for UL-MIMO

Same as 6.2.3

Same as 6.2.3

Same as 6.2.3

Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.2.3E Maximum Power Reduction for UE category 0

Same as 6.2.3E

Same as 6.2.3E

Same as 6.2.3E

6.2.3EA Maximum Power Reduction for UE category M1

Power class 3

f ≤ 3.0GHz

MPR ≤ 1dB

MPR ≤ 2dB

3.0GHz < f ≤ 4.2GHz

MPR ≤ 1dB

MPR ≤ 2dB

Power class 5

f ≤ 3.0GHz

MPR ≤ 1dB

MPR ≤ 2dB

3.0GHz < f ≤ 4.2GHz

MPR ≤ 1dB

MPR ≤ 2dB

Power class 6

f ≤ 3.0GHz

MPR = 0dB

MPR = 1dB

MPR = 2dB

3.0GHz < f ≤ 4.2GHz

MPR = 0dB

MPR = 1dB

MPR = 2dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT,

Lower limit – MPR – TT

23dBm +2.7 / – 3.7dB

23dBm +2.7 / – 4.7dB

23dBm +3.0 / – 4.0dB

23dBm +3.0 / – 5.0dB

20dBm +2.7 / – 3.7dB

20dBm +2.7 / – 4.7dB

20dBm +3.0 / – 4.0dB

20dBm +3.0 / – 5.0dB

14dBm +3.2 / – 3.2dB

14dBm +3.2 / – 4.2dB

14dBm +3.2 / – 6.2dB

14dBm +3.5 / – 3.5dB

14dBm +3.5 / – 4.5dB

14dBm +3.5 / – 6.5dB

6.2.3EB Maximum Power Reduction for UE category 1bis

Same as 6.2.3

Same as 6.2.3

Same as 6.2.3

6.2.3F Maximum Power Reduction (MPR) for UE category NB1 and NB2

Power class 3:

f ≤ 3.0GHz

BPSK: MPR = 0dB

QPSK: MPR = 0dB

QPSK: MPR ≤ 0.5dB

QPSK: MPR ≤ 1dB

QPSK: MPR ≤ 2dB

3.0GHz < f ≤ 4.2GHz

BPSK: MPR = 0dB

QPSK: MPR = 0dB

QPSK: MPR ≤ 0.5dB

QPSK: MPR ≤ 1dB

QPSK: MPR ≤ 2dB

Power class 5:

f ≤ 3.0GHz

BPSK: MPR = 0dB

QPSK: MPR = 0dB

QPSK: MPR ≤ 0.5dB

QPSK: MPR ≤ 1dB

QPSK: MPR ≤ 2dB

3.0GHz < f ≤ 4.2GHz

BPSK: MPR = 0dB

QPSK: MPR = 0dB

QPSK: MPR ≤ 0.5dB

QPSK: MPR ≤ 1dB

QPSK: MPR ≤ 2dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT,

Lower limit – MPR – TT

Power class 3:

BPSK: 23dBm +2.7 / – 2.7dB

QPSK: 23dBm +2.7 / – 2.7dB

QPSK: 23dBm +2.7 / – 3.2dB

QPSK: 23dBm +2.7 / – 3.7dB

QPSK: 23dBm +2.7 / – 4.7dB

BPSK: 23dBm +3.0 / –

3.0dB

QPSK: 23dBm +3.0 / – 3.0dB

QPSK: 23dBm +3.0 / – 3.5dB

QPSK: 23dBm +3.0 / – 4.0dB

QPSK: 23dBm +3.0 / – 5.0dB

Power class 5:

BPSK: 20dBm +2.7 / – 3.2dB

QPSK: 20dBm +2.7 / – 3.2dB

QPSK: 20dBm +2.7 / – 4.7dB

QPSK: 20dBm +2.7 / – 5.2dB

QPSK: 20dBm +2.7 / – 6.7dB

BPSK: 20dBm +3.0 / – 3.5dB

QPSK: 20dBm +3.0 / – 3.5dB

QPSK: 20dBm +3.0 / – 5.0dB

QPSK: 20dBm +3.0 / – 5.5dB

QPSK: 20dBm +3.0 / – 7.0dB

6.2.3G.1.1 Maximum Power Reduction (MPR) for V2X Commincation / Non-concurrent with E-UTRA uplink transmissions

Power class 3:

4.2GHz < f ≤ 6GHz

QPSK: MPR ≤ 1.5dB

16QAM: MPR ≤ 2dB

1.3 dB

1.3 dB

Formula:

Upper limit + TT,

Lower limit – MPR – TT

Power class 3:

QPSK: 23dBm +3.3 / – 4.8dB

16QAM: 23dBm +3.3 / – 5.3dB

6.2.3G.1.2 Maximum Power Reduction (MPR) for V2X Communication / Power class 3 / Non-contiguous allocation of PSCCH and PSSCH / Non-concurrent with E-UTRA uplink transmissions

Power class 3:

5 RBs/10MHz: MPR ≤4.5dB

25 RBs/10MHz: MPR ≤3.0dB

40 RBs/10MHz: MPR ≤2.0dB

10 RBs/20MHz: MPR ≤4.5dB

50 RBs/20MHz: MPR ≤3.0dB

80 RBs/20MHz: MPR ≤2.0dB

1.3 dB

1.3 dB

1.3 dB

1.3 dB

1.3 dB

1.3 dB

Formula:

Upper limit: +T(PCMAX_H) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass-MPR

Power class 3:

23dBm + 3.3 / – 9.8dB

23dBm + 3.3 / – 6.8dB

23dBm + 3.3 / – 5.3dB

23dBm + 3.3 / – 9.8dB

23dBm + 3.3 / – 6.8dB

23dBm + 3.3 / – 5.3dB

6.2.3G.1.3 Maximum Power Reduction (MPR) for V2X Communication / Power class 3 / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmission

Power class 3

MPR ≤ 1.5dB

MPR ≤ 2dB

1.3 dB

1.3 dB

Formula:

Upper limit + T_HIGH (P_{CMAX_H}(p, q)) + TT,

Lower limit – T_LOW (P_{CMAX_L}(p, q)) – MPR – ΔT_IB,c – TT

Power class 3:

23dBm +3.3 / -7.8dB

23dBm +3.3 / -8.3dB

6.2.3G.1.4 Maximum Power Reduction (MPR) for V2X Communication / Power class 3 / Intra-band contiguous multi-carrier operation

Power class 3

MPR ≤ 3dB

1.3 dB

Formula:

Upper limit + T_HIGH (P_{CMAX_H}(p, q)) + TT,

Lower limit – T_LOW (P_{CMAX_L}(p, q)) – MPR – ΔT_IB,c – TT

Power class 3:

23dBm +3.3 / -6.8dB

6.2.3G.2.1 Maximum Power Reduction (MPR) for V2X Communication / Power class 2 / Contiguous allocation of PSCCH and PSSCH / Non-concurrent with E-UTRA uplink transmissions

Power class 2:

QPSK : MPR ≤ 2dB

16QAM : MPR ≤ 2.5dB

1.3 dB

1.3 dB

Formula:

Upper limit + TT,

Lower limit – MPR – TT

Power class 2:

QPSK : 26dBm +3.3 / -5.3dB

16QAM : 26dBm +3.3 / -5.8dB

6.2.3_s Maximum Power Reduction (MPR) for subslot/slot TTI

Same as 6.2.3

Same as 6.2.3

Same as 6.2.3

6.2.3G.2.2 Maximum Power Reduction (MPR) for V2X Communication / Power class 2 / Non-contiguous allocation of PSCCH and PSSCH / Non-concurrent with E-UTRA uplink transmissions

Power class 2

4.2GHz < f ≤ 6GHz

For 10MHz BW:

N_{RB_alloc} 10: MPR = 4.5dB

N_{RB_alloc} 12: MPR = 4dB

N_{RB_alloc} 42: MPR = 2.5dB

For 20MHz BW:

N_{RB_alloc} 10: MPR = 9dB

N_{RB_alloc} 22: MPR = 5.5dB

N_{RB_alloc} 82: MPR = 3dB

1.3 dB

1.3 dB

1.3 dB

1.3 dB

1.3 dB

1.3 dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass-MPR

Power class 2:

For 10MHz BW:

N_{RB_alloc} 10: 26dBm +3.3 / -7.8dB

N_{RB_alloc} 12: 26dBm +3.3 / -7.3dB

N_{RB_alloc} 42: 26dBm +3.3 / -5.8dB

For 20MHz BW:

N_{RB_alloc} 10: 26dBm +3.3 / -15.3dB

N_{RB_alloc} 22: 26dBm +3.3 / -9.3dB

N_{RB_alloc} 82: 26dBm +3.3 / -6.3dB

6.2.4 UE Maximum Output Power with additional requirements

For the UE maximum output power modified by MPR and A-MPR, the power limits specified in TS 36.101 [2] clause 6.2.5 apply.

For transmission bandwidths (Figure 5.4.2-1) confined within FUL_low and FUL_low + 4 MHz or FUL_high – 4 MHz and FUL_high, the power requirement is relaxed by reducing the lower tolerance limit by 1.5 dB.

Power class 3:

QPSK: MPR ≤ 1dB

16QAM: Depending on the number RB allocated:

16QAM: MPR ≤ 1dB

16QAM: MPR ≤ 2dB

For network signalled value NS_03 , NS_04 (5MHz only), NS_05, to NS_06: A-MPR ≤ 1dB

For network signalled value NS-04; Depending on the RB_start and RB allocation (10MHz, 15MHz and 20MHz):

For 10MHz

Region A with RB_start=0 – 12: A-MPR ≤ 3dB.

Region B with RB_start=13 – 36 : A-MPR ≤ 2dB.

Region C with RB_start=37 – 49 : A-MPR ≤ 3dB.

For 15MHz

Region A with RB_start=0 – 18: A-MPR ≤ 3dB.

Region B with RB_start=19 – 55 : A-MPR ≤ 2dB.

Region C with RB_start=56 – 74 : A-MPR ≤ 3dB.

For 20MHz

Region A with RB_start=0 – 24: A-MPR ≤ 3dB.

Region B with RB_start=25 – 74 : A-MPR ≤ 2dB.

Region C with RB_start=75 – 99 : A-MPR ≤ 3dB.

For network signalled value NS-11; Depending on the RB_start and RB allocation (15MHz and 20MHz):

For 15MHz Fc < 2012.5

Region A with RB_start=0 – 4: A-MPR ≤ 15dB.

Region B with RB_start=5 – 21: A-MPR ≤ 7dB (L_CRB=7-50) or ≤ 10dB (L_CRB=0-6 & ≥50).

Region C with RB_start=22 – 56: A-MPR ≤ 0dB (L_CRB=≤25) or ≤ 6dB (L_CRB>25).

Region D with RB_start=57 – 74: A-MPR ≤ 15dB.

For 15MHz Fc = 2012.5

Region A with RB_start=0 – 12: A-MPR ≤ 10dB.

Region B with RB_start=13 – 39: A-MPR ≤ 6dB (L_CRB=≥ 30) or ≤ 0dB (L_CRB=< 30).

Region C with RB_start=40 – 65: A-MPR ≤ 2dB.

Region D with RB_start=66 – 74: A-MPR ≤ 6.5dB.

For 20MHz

Region A with RB_start=0 – 12: A-MPR ≤ 15dB.

Region B with RB_start=13 – 29: A-MPR ≤ 7dB (L_CRB=10-60) or ≤ 10dB (L_CRB=1-9 & > 60).

Region C with RB_start=30 – 68: A-MPR ≤ 0dB (L_CRB=1-24) or ≤ 7dB (L_CRB= ≥ 25).

Region D with RB_start=69 – 99: A-MPR ≤ 15dB.

For network signalled value

NS-20; Depending on the RB_start and RB allocation (5MHZ, 10MHz, 15MHz and 20MHz):

For 5MHz

Region A with RB_start=≤24: A-MPR ≤ 17dB.

Region B with RB_start=0 – 3: A-MPR ≤ 1dB (L_CRB=15-19) or ≤ 4dB (L_CRB= ≥ 20).

Region C with RB_start=4 – 6: A-MPR ≤ 2dB.

Region D with RB_start=≤24: A-MPR ≤ 0dB.

For 10MHz Fc = 2005

Region A with RB_start=0 – 25: A-MPR ≤ 16dB.

Region B with RB_start=26 – 34: A-MPR ≤ 2dB (L_CRB=8-15) or ≤ 5dB (L_CRB= > 15).

Region C with RB_start=35 – 49: A-MPR ≤ 6dB.

For 10MHz Fc = 2015

Region A with RB_start=0 – 5: A-MPR ≤ 4dB.

Region B with RB_start=6 – 10: A-MPR ≤ 2dB.

For 15MHz

Region A with RB_start=0 – 14: A-MPR ≤ 11dB (L_CRB=1-9 & 40-5) or ≤ 6dB (L_CRB= 10-39).

Region B with RB_start=15 – 24: A-MPR ≤ 1dB (L_CRB=24-29) or ≤ 7dB (L_CRB=≥30).

Region C with RB_start=25 – 39: A-MPR ≤ 5dB.

Region D with RB_start=61 – 74: A-MPR ≤ 6dB.

For 20MHz

Region A with RB_start=0 – 21: A-MPR ≤ 17dB.

Region B with RB_start=22 – 31: A-MPR ≤ 12dB (L_CRB=1-9 & 31-75) or ≤ 6dB (L_CRB=10-30).

Region C with RB_start=32 – 38: A-MPR ≤ 9dB.

Region D with RB_start=39 – 49: A-MPR ≤ 7dB.

Region E with RB_start=50 – 69: A-MPR ≤ 5dB.

Region F with RB_start=70 – 99: A-MPR ≤ 16dB.

For network signalled value

NS-27; Depending on the RB_start and RB allocation (15MHz and 20MHz):

For 15MHz

With L_CRB ≤15, LRB_start=0 – 6 or RB_end=68-74: A-MPR ≤ 4dB.

With L_CRB ≥ 60, LRB_start≥0: A-MPR ≤ 2dB.

For 20MHz

With L_CRB ≤20, LRB_start=0 – 12 or RB_end=87-99: A-MPR ≤ 4dB.

With L_CRB ≤3, LRB_start=13 – 15 or RB_end=84-86: A-MPR ≤ 1dB.

With L_CRB ≥ 60, LRB_start≥0: A-MPR ≤ 3dB.

For network signalled value

NS_56; Depending on the RB_start and RB allocation (5MHz and 10MHz):

For 5MHz

Region A with RB_start≤8 and L_CRB ≤8: A-MPR ≤ 8dB.

Region B with RB_start≤8 and L_CRB >8: A-MPR ≤ 2dB.

For 10MHz

Region A with RB_start≤5 and L_CRB ≤5: A-MPR ≤ 7dB.

Region B with RB_start≤18 and L_CRB ≤12: A-MPR ≤ 5dB.

Region C with RB_start≤18 and L_CRB >12: A-MPR ≤ 7dB.

Region D with RB_start≥35 and L_CRB ≤7: A-MPR ≤ 4dB.

Region E with RB_start≥35 and L_CRB >7: A-MPR ≤ 2dB.

Region F with RB_start≥40 and L_CRB ≤7: A-MPR ≤ 5dB.

Region G with RB_start≥40 and L_CRB >7: A-MPR ≤ 3dB.

f ≤ 3.0GHz

0.7 dB

3.0GHz < f ≤ 4.2GHz

1.0 dB

Formula:

Upper limit + TT,

A: Lower limit – TT,

B: (UE Maximum Output Power from 6.2.2) – T(P_CMAX) – MPR – TT,

C: (UE Maximum Output Power from 6.2.2) – T(P_CMAX) – A-MPR – TT,

D: (UE Maximum Output Power from 6.2.2) – T(P_CMAX) – A-MPR – MPR – TT

Power class 3:

Test Requirement Configuration ID versus Formula Above

Network signalled value NS_03:

[A]: 2, 5, 10, 15, 20, 25

[B]: 1, 3, 7

[C]: 9, 14, 19, 24

[D]: 4, 6, 8, 11, 12, 13, 16, 17, 18, 21, 22, 23, 26, 27

Network signalled value NS_04 (5, 10, 15, 20MHz):

[A] 3

[B] 10, 11, 19, 20, 28, 29

[C] 2, 6, 7, 13, 14, 15, 16, 23, 24, 25, 32

[D] 1, 4, 5, 8, 9, 12, 17, 18, 21, 22, 26, 27, 30, 31

Network signalled value NS_05:

[A] 1, 3, 4, 8, 9, 14, 15,

[B] 2, 5, 10, 11, 16, 17

[C] None

[D] 6, 7, 12, 13, 18, 19

Network signalled value NS_06:

[A]: 2, 5, 8, 11, 14, 17

[B]: 1, 3, 4, 6, 7, 9, 10, 12, 13, 15, 16, 18

[C]: None

[D]: None

Network signalled value NS_07:

[A]:3, 8, 12

[B]: 7, 9

[C]: 1, 2, 5, 13, 15

[D]: 4, 6, 10, 11, 14, 16

Network signalled value NS_08:

[A]:1, 2, 4, 5, 12

[B]: 3, 6, 11, 13

[C]: None

[D]: 7, 8, 9, 10, 14, 15, 16, 17

Network signalled value NS_11:

[A]: 5c, 6b, 10c, 11c, 25

[B]: 8b, 12c, 13c, 14c, 17a, 17b, 21a, 21b, 28

[C]: 5a, 5b, 6a, 6c, 10a, 10b, 11, 11b, 15a, 15b, 16a, 16b, 24

[D]: 1a, 1b, 2a, 2b, 3a, 3b, 4a, 4b ,, 7a,7b,7c, 8a, 8c, 9a, 9b,9c, 12a, 12b, 13a, 13b, 14a, 14b, 18a, 18b, 19a, 19b, 20a, 20b, 22a, 22b, 23a, 23b, 26, 27, 29, 30

Network signalled value NS_12:

[A]: 3, 8, 13

[B]: None

[C]: 1, 4, 6, 11

[D]: 2, 5, 7, 9, 10, 12, 14, 15

Network signalled value NS_13:

[A]: None

[B]: 3, 4

[C]: 1

[D]: 2, 5

Network signalled value NS_14:

[A]: None

[B]: 2, 4, 7, 9

[C]: 1, 6

[D]: 3, 5, 8, 10

Network signalled value NS_15:

[A]: 1, 7, 14

[B]: 3, 6, 10, 15, 19, 21, 22, 25

[C]: 12, 13

[D]: 2, 4, 5, 8, 9, 11, 16, 17, 18, 20, 23, 24, 26

Network signalled value NS_20:

[A]: 1b, 1c, 1d, 6b, 7b

[B]: 2d, 3d, 4d, 5d, 9b

[C]: 1a, 6a, 7a, 11, 18, 19

[D]: 2a, 2b, 2c, 3a, 3b, 3c, 4a, 4b, 4c, 5a, 5b, 5c, 8a, 8b, 9a, 10a, 11b, 12, 13, 14, 15, 16, 17, 20, 21, 22, 23, 24, 25, 26

Network signalled value NS_27: TBD

Network signalled value NS_56

A: None

B: None

C: 1, 4, 5, 8, 9, 10, 11, 13

D: 2, 3, 6, 7, 12, 14

6.2.4_1 Additional Maximum Power Reduction (A-MPR) for HPUE

For the UE maximum output power modified by MPR and A-MPR, the power limits specified in TS 36.101 [2] clause 6.2.5 apply.

For transmission bandwidths (Figure 5.4.2-1) confined within FUL_low and FUL_low + 4 MHz or FUL_high – 4 MHz and FUL_high, the power requirement is relaxed by reducing the lower tolerance limit by 1.5 dB.

Power class 1:

QPSK: MPR ≤ 1dB

16QAM: Depending on the number RB allocated:

16QAM: MPR ≤ 1dB

16QAM: MPR ≤ 2dB

Power class 1:

For network signalled value NS_06: A-MPR 0dB

0.7dB

Formula:

Upper limit + TT,

(UE Maximum Output Power from 6.2.2) – T(P_CMAX) – A-MPR – MPR – TT

6.2.4_2 Additional Maximum Power Reduction (A-MPR) for UL 64QAM

Same as 6.2.4

Same as 6.2.4

Same as 6.2.4

6.2.4_3 Additional Maximum Power Reduction (A-MPR) with PUSCH frequency hopping

Same as 6.2.4

Same as 6.2.4

Same as 6.2.4

6.2.4_4 Additional Maximum Power Reduction (A-MPR) for UL 256QAM

For the UE maximum output power modified by MPR and A-MPR, the power limits specified in TS 36.101 [2] clause 6.2.5 apply.

For transmission bandwidths (Figure 5.4.2-1) confined within FUL_low and FUL_low + 4 MHz or FUL_high – 4 MHz and FUL_high, the power requirement is relaxed by reducing the lower tolerance limit by 1.5 dB.

Power class 3:

256QAM: MPR ≤ 5dB

A-MPR values as given by tables in section 6.2.4.3.

f ≤ 3.0GHz

0.7 dB

3.0GHz < f ≤ 4.2GHz

1.0 dB

Formula:

Upper limit + TT,

A: (UE Maximum Output Power from 6.2.2) – T(PCMAX) – MPR – TT,

B: (UE Maximum Output Power from 6.2.2) – T(PCMAX) – A-MPR – MPR – TT

Power class 3:

Test Requirement Configuration ID versus Formula Above

Network signalled value NS_03

[A]: 1, 3

[B]: 2, 4, 5, 6, 7, 8, 9, 10, 11

Network signalled value NS_04

[A]: 1, (2, 3, 4, 5) if not low range

[B]: (2, 3, 4, 5) for low range

Network signalled value NS_05

[A]: 1, 5, 6

[B]: 2, 3, 4, 7

Network signalled value NS_06

[A]: 1, 2, 3

[B]: None

Network signalled value NS_07

[A]: 2

[B]: 1, 3, 4

Network signalled value NS_08

[A]: 1

[B]: 2, 3

Network signalled value NS_09

[A]: 1

[B]: 2, 3

Network signalled value NS_11

[A]: 3b, 5c, 6c, 8a with high range RB allocation

[B]: 1a, 1b, 2a, 2b, 3a, 3c, 4a, 4b, 4c, 5a, 5b, 6a, 6b, 7a, 7b, 8a with low range RB allocation, 8b, 9a, 9b, 10a, 10b, 11, 12, 13

Network signalled value NS_12

[A]: None

[B]: 1, 2, 3, 4

Network signalled value NS_13

[A]: None

[B]: 1

Network signalled value NS_14

[A]: None

[B]: 1, 2

Network signalled value NS_15

[A]: None

[B]: 1, 2, 3, 4, 5

Network signalled value NS_16

[A]: 1, 2 for FC = 810.0 MHz, 3 for FC = 814.5 MHz

[B]: 2 for FC < 810.0 MHz, 3 for FC < 814.5 MHz, 4

Network signalled value NS_17

[A]: 1, 2

[B]: None

Network signalled value NS_18

[A]: None

[B]: 1, 2, 3, 4

Network signalled value NS_19

[A]: 1, (2, 3, 4) with high range RB allocation

[B]: (2, 3, 4) with low range RB allocation

Network signalled value NS_20

[A]: 1b with high range RB allocation, 1c, 1d, 2c, 2d, 3a with high range RB allocation, 3b, 5a with high range RB allocation

[B]: 1a, 1b with low range RB allocation, 2a, 2b, 3a with low range RB allocation, 4a, 4b, 5a with low range RB allocation, 6a, 7a, 8a, 9a, 10a, 11a

Network signalled value NS_21

[A]: None

[B]: 1

Network signalled value NS_22

[A]: 1, 2

[B]: 3, 4, 5, 6, 7, 8

Network signalled value NS_23

[A]: 1, 2

[B]: None

Network signalled value NS_24

[A]: 1, 3, 5

[B]: 2, 4, 6

Network signalled value NS_25

[A]: 6

[B]: 1, 2, 3, 4, 5

Network signalled value NS_27

[A]: 1, 2

[B]: 3, 4

Network signalled value NS_35

[A]: 1, 2, 3, 4

[B]: None

Network signalled value NS_36

[A]: 2, 4, 6

[B]: 1, 3, 5

Network signalled value NS_56

[A]: None

[B]: 1, 2, 3, 4

6.2.4A.1 Additional Maximum Power Reduction (A-MPR) for CA (intra-band contiguous DL CA and UL CA)

A-MPR values as detailed in core requirement

Same as 6.2.4

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} )– A-MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass-A-MPR

6.2.4A.1_1 Additional Maximum Power Reduction (A-MPR) for CA (intra-band contiguous DL CA and UL CA) for UL 64QAM

Same as 6.2.4A.1

Same as 6.2.4A.1

Same as 6.2.4A.1

6.2.4A.1_2 Additional Maximum Power Reduction (A-MPR) for CA (intra-band contiguous DL CA and UL CA) for UL 256QAM

Same as 6.2.4A.1

Same as 6.2.4A.1

Same as 6.2.4A.1

6.2.4A.2 Additional Maximum Power Reduction (A-MPR) for CA (inter-band DL CA and UL CA)

Same as 6.2.4

Same as 6.2.4

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – AMPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass – MPR – AMPR -T_C

6.2.4A.2_1 Additional Maximum Power Reduction (A-MPR) for CA (inter-band DL CA and UL CA) for UL 64QAM

Same as 6.2.4

Same as 6.2.4

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – AMPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass – MPR – AMPR -T_C

6.2.4A.2_2 Additional Maximum Power Reduction (A-MPR) for CA (inter-band DL CA and UL CA) for UL 256QAM

Same as 6.2.4

Same as 6.2.4

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – AMPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass – MPR – AMPR -T_C

6.2.4A.4 Additional Maximum Power Reduction (A-MPR) for CA (3UL CA)

A-MPR values as detailed in core requirement

Same as 6.2.4

Formula:

Upper limit: +T(PCMAX_H) + TT,

Lower limit: -T(PCMAX_L )– A-MPR – TT

PCMAX_H = PPowerClass

PCMAX_L = PPowerClass-A-MPR

6.2.4B Additional Maximum Power Reduction (A-MPR) for UL-MIMO

Same as 6.2.4

Same as 6.2.4

Same as 6.2.4

Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.2.4E Additional Maximum Power Reduction (A-MPR) for UE category 0

Same as 6.2.4

Same as 6.2.4

Same as 6.2.4

6.2.4EA Additional Maximum Power Reduction (A-MPR) for UE category M1

A-MPR values as detailed in core requirement

Same as 6.2.4

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} )– A-MPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass-A-MPR

6.2.4EB Additional Maximum Power Reduction (A-MPR) for UE category 1bis

Same as 6.2.4

Same as 6.2.4

Same as 6.2.4

6.2.4EC Additional Maximum Power Reduction (A-MPR) for UE category M2

Same as 6.2.4EA

Same as 6.2.4EA

Same as 6.2.4EA

6.2.4G.1 Additional Maximum Power Reduction (A-MPR) for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

A-MPR values as detailed in core requirement

Same as 6.2.4

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – AMPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass – MPR – AMPR -T_C

6.2.4G.2 Additional Maximum Power Reduction (A-MPR) for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

A-MPR values as detailed in core requirement

1.3dB

Formula:

Upper limit: +T(P_{CMAX_H}) + TT,

Lower limit: -T(P_{CMAX_L} ) – MPR – AMPR – TT

P_{CMAX_H} = P_PowerClass

P_{CMAX_L} = P_PowerClass – MPR – AMPR -T_C

6.2.4_s Additional Maximum Power Reduction (A-MPR) for subslot/slot TTI

Same as 6.2.4

Same as 6.2.4

Same as 6.2.4

6.2.5 Configured UE transmitted Output Power

f ≤ 3.0GHz

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

3.0GHz < f ≤ 4.2GHz

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT, Lower limit – TT

13 ≤ PCMAX < 18 ± 5.7

8 ≤ PCMAX < 13 ± 6.7

-40 ≤ PCMAX < 8 ± 7.7

13 ≤ PCMAX < 18 ± 6.0

8 ≤ PCMAX < 13 ± 7.0

-40 ≤ PCMAX < 8 ± 8.0

6.2.5_s Configured UE Transmitted Output Power for subslot/slot TTI

Same as 6.2.5

Same as 6.2.5

Same as 6.2.5

6.2.5_1 Configured UE transmitted Output Power for HPUE

f ≤ 3.0GHz

23 ≤ PCMAX < 33 ± 2.0

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

3.0GHz < f ≤ 4.2GHz

23 ≤ PCMAX < 33 ± 2.0

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT, Lower limit – TT

23 ≤ PCMAX < 33 ± 2.7

13 ≤ PCMAX < 18 ± 5.7

8 ≤ PCMAX < 13 ± 6.7

-40 ≤ PCMAX < 8 ± 7.7

23 ≤ PCMAX < 33 +3/-4

13 ≤ PCMAX < 18 ± 6

8 ≤ PCMAX < 13 ± 7

-40 ≤ PCMAX < 8 ± 8

6.2.5A.1 Configured UE transmitted Output Power for CA (intra-band contiguous DL CA and UL CA)

f ≤ 3.0GHz

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

3.0GHz < f ≤ 4.2GHz

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT, Lower limit – TT

13 ≤ PCMAX < 18 ± 5.7

8 ≤ PCMAX < 13 ± 6.7

-40 ≤ PCMAX < 8 ± 7.7

13 ≤ PCMAX < 18 ± 6.0

8 ≤ PCMAX < 13 ± 7.0

-40 ≤ PCMAX < 8 ± 8.0

6.2.5A.1_3 Configured UE transmitted Output Power for CA and HPUE (intra-band contiguous DL CA and UL CA) for HPUE

f ≤ 3.0GHz

23 ≤ PCMAX < 33 ± 2.0

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

3.0GHz < f ≤ 4.2GHz

23 ≤ PCMAX < 33 ± 2.0

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

0.7 dB

0.7 dB

0.7 dB

0.7 dB

1.0 dB

1.0 dB

1.0 dB

1.0 dB

Formula:

Upper limit + TT, Lower limit – TT

23 ≤ PCMAX < 33 ± 2.7

13 ≤ PCMAX < 18 ± 5.7

8 ≤ PCMAX < 13 ± 6.7

-40 ≤ PCMAX < 8 ± 7.7

23 ≤ PCMAX < 33 ± 3

13 ≤ PCMAX < 18 ± 6

8 ≤ PCMAX < 13 ± 7

-40 ≤ PCMAX < 8 ± 8

6.2.5A.3 Configured UE transmitted Output Power for CA (inter-band DL CA and UL CA)

f ≤ 3.0GHz

16 ≤ PCMAX < 20 ± 5.0

11≤ PCMAX < 16 ± 6.0

-40 ≤ PCMAX < 11 ± 7.0

0.7 dB

0.7 dB

0.7 dB

Formula:

Upper limit + TT, Lower limit – TT

16 ≤ PCMAX < 20 ± 5.7

11 ≤ PCMAX < 16 ± 6.7

-40 ≤ PCMAX < 11 ± 7.7

6.2.5A.4 Configured UE transmitted Output Power for CA (intra-band non-contiguous DL CA and UL CA)

f ≤ 3.0GHz

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

0.7 dB

0.7 dB

0.7 dB

Formula:

Upper limit + TT, Lower limit – TT

13 ≤ PCMAX < 18 ± 5.7

8 ≤ PCMAX < 13 ± 6.7

-40 ≤ PCMAX < 8 ± 7.7

6.2.5B Configured UE transmitted output power for UL-MIMO

f ≤ 3.0GHz

[16] ≤ PCMAX < [20] ± [5.0]

[11] ≤ PCMAX < [16] ± [6.0]

[-40] ≤ PCMAX < [11] ± [7.0]

3.0GHz < f ≤ 4.2GHz

[16] ≤ PCMAX < [20] ± [5.0]

[11] ≤ PCMAX < [16] ± [6.0]

[-40] ≤ PCMAX < [11] ± [7.0]

Same as 6.2.5

Formula:

Upper limit + TT, Lower limit – TT

[16] ≤ PCMAX < [20] ± [5.7]

[11] ≤ PCMAX < [16] ± [6.7]

[-40] ≤ PCMAX < [11] ± [7.7]

[16] ≤ PCMAX < [20] ± [6.0]

[11] ≤ PCMAX < [16] ± [7.0]

[-40] ≤ PCMAX < [11] ± [8.0]

Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.2.5E Configurated Transmitted Power for UE category 0

Same as 6.2.5

Same as 6.2.5

Same as 6.2.5

6.2.5EA Configured UE transmitted Power for UE category M1

Same as 6.2.5, with addition of power class 6:

f ≤ 3.0GHz

5 ≤ PCMAX < 8 ± 6.0

-40 ≤ PCMAX < 5 ± 7.0

3.0GHz < f ≤ 4.2GHz

5 ≤ PCMAX < 8 ± 6.0

-40 ≤ PCMAX < 5 ± 7.0

Same as 6.2.5, with addition of power class 6:

0.7 dB

0.7 dB

1.0 dB

1.0 dB

Same as 6.2.5, with addition of power class 6:

Formula:

Upper limit + TT, Lower limit – TT

f ≤ 3.0GHz

5 ≤ PCMAX < 8 ± 6.7

-40 ≤ PCMAX < 5 ± 7.7

3.0GHz < f ≤ 4.2GHz

5 ≤ PCMAX < 8 ± 7.0

-40 ≤ PCMAX < 5 ± 8.0

6.2.5EB Configured UE transmitted Power for UE category 1bis

Same as 6.2.5

Same as 6.2.5

Same as 6.2.5

6.2.5F Configured UE transmitted Output Power for UE category NB1 and NB2

Tolerances as described in core requirements

0.7 dB

Formula:

Upper limit + TT, Lower limit – TT

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

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

1.3 dB

1.3 dB

1.5 dB

Formula:

Upper limit + TT, Lower limit – TT

13 ≤ PCMAX < 18 ± 6.3

8 ≤ PCMAX < 13 ± 7.3

-40 ≤ PCMAX < 8 ± 8.5

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

16 ≤ PCMAX < 20 ± 5.0

11 ≤ PCMAX < 16 ± 6.0

-40 ≤ PCMAX < 11 ± 7.0

1.3 dB

1.3 dB

1.5 dB

Formula:

Upper limit + TT, Lower limit – TT

16 ≤ PCMAX < 20 ± 6.3

11 ≤ PCMAX < 16 ± 7.3

-40 ≤ PCMAX < 11 ± 8.5

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

13 ≤ PCMAX < 18 ± 5.0

8 ≤ PCMAX < 13 ± 6.0

-40 ≤ PCMAX < 8 ± 7.0

1.3 dB

1.3 dB

1.5 dB

Formula:

Upper limit + TT, Lower limit – TT

13 ≤ PCMAX < 18 ± 6.3

8 ≤ PCMAX < 13 ± 7.3

-40 ≤ PCMAX < 8 ± 8.5

6.3.2 Minimum Output Power

f ≤ 3.0GHz

-40 dBm

3.0GHz < f ≤ 4.2GHz

-40 dBm

4.2GHz < f ≤ 6GHz

-40 dBm

1.0 dB

1.3 dB

1.5 dB

Formula:

Minimum Requirement + TT

UE min. output power =–39 dBm

UE min. output power =–38.7 dBm

UE min. output power =–38.5 dBm

6.3.2A.1 Minimum Output Power for CA (intra-band contiguous DL CA and UL CA)

Same as 6.3.2

Same as 6.3.2

Same as 6.3.2

6.3.2A.4 Minimum Output Power for CA (3UL CA)

Same as 6.3.2

Same as 6.3.2

Same as 6.3.2

6.3.2B Minimum Output Power for UL-MIMO

Same as 6.3.2

Same as 6.3.2

Same as 6.3.2

Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.3.2E Minimum Output Power for UE category 0

Same as 6.3.2

Same as 6.3.2

Same as 6.3.2

6.3.2EA Minimum Output Power for UE category M1

Same as 6.3.2

Same as 6.3.2

Same as 6.3.2

6.3.2EB Minimum Output Power for UE category 1bis

Same as 6.3.2

Same as 6.3.2

Same as 6.3.2

6.3.2F Minimum Output Power for UE category NB1 and NB2

-40 dBm

1.0 dB

Formula:

Minimum Requirement + TT

UE min. output power =–39 dBm

6.3.2G.1 Minimum output power for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

4.2GHz < f ≤ 6GHz

-30 dBm

1.5 dB

Formula:

Minimum Requirement + TT

UE min. output power =–28.5 dBm

6.3.2G.2 Minimum output power for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

f ≤ 3.0GHz

-40 dBm

4.2GHz < f ≤ 6GHz

-30 dBm

1.0 dB

1.5 dB

Formula:

Minimum Requirement + TT

UE min. output power =–39 dBm

UE min. output power =–28.5 dBm

6.3.2G.3 Minimum output power for V2X Communication / Intra-band contiguous multi-carrier operation

4.2GHz < f ≤ 6GHz

-3 0 dBm

1.5 dB

Formula:

Minimum Requirement + TT

UE min. output power =–28.5 dBm

6.3.3 Transmission ON/OFF Power

f ≤ 3.0GHz

≤ -50 dBm

3.0GHz < f ≤ 4.2GHz

≤ -50 dBm

4.2GHz < f ≤ 6GHz

≤ -50 dBm

1.5 dB

1.8 dB

2.0 dB

Formula:

Minimum Requirement + TT

UE OFF Power ≤ -48.5 dBm

UE OFF Power ≤ -48.2 dBm

UE OFF Power ≤ -48.0 dBm

6.3.3A.1 UE Transmit OFF power for CA (intra-band contiguous DL CA and UL CA)

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3A.2 Transmit OFF Power for CA (inter-band DL CA and UL CA)

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3A.3 UE Transmit OFF power for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3A.4 UE Transmit OFF power for CA (3UL CA)

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3B UE Transmit OFF power for UL-MIMO

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

Uplink power measurement applies to each Tx antenna connector

6.3.3D UE Transmit OFF power for ProSe

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3E UE Transmit OFF Power for UE category 0

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3EA UE Transmit OFF power for UE category M1

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3EB UE Transmit OFF power for UE category 1bis

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3F Transmit OFF power for category NB1 and NB2

Same as 6.3.3

Same as 6.3.3

Same as 6.3.3

6.3.3G.1 UE Transmit OFF power for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

4.2GHz < f ≤ 6GHz

≤ -50 dBm

2.0 dB

Formula:

Minimum Requirement + TT

UE OFF Power ≤ -48 dBm

6.3.3G.2 UE Transmit OFF power for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

f ≤ 3.0GHz

≤ -50 dBm

3.0GHz < f ≤ 4.2GHz

≤ -50 dBm

4.2GHz < f ≤ 6GHz

≤ -50 dBm

1.5 dB

1.8 dB

2.0 dB

Formula:

Minimum Requirement + TT

UE OFF Power ≤ -48.5 dBm

UE OFF Power ≤ -48.2 dBm

UE OFF Power ≤ -48.0 dBm

6.3.3G.3 UE Transmit OFF power for V2X Communication / Intra-band contiguous multi-carrier operation

4.2GHz < f ≤ 6GHz

≤ -50 dBm

2.0 dB

Formula:

Minimum Requirement + TT

UE OFF Power ≤ -48 dBm

6.3.4.1 General ON/OFF time mask

f ≤ 3.0GHz

OFF Power ≤ -50 dBm

ON Power BW dependent

3.0GHz < f ≤ 4.2GHz

OFF Power ≤ -50 dBm

ON Power BW dependent

Transmission ON Power value depends on the test parameters. In the particular test case parameters the ON power measurement has minimum requirements of ±6.0 dB

1.5 dB

1.5 dB

1.8 dB

1.8 dB

Formula:

OFF Power Minimum Req’t + TT

ON Power Upper limit + TT, Lower limit – TT

UE OFF Power ≤ -48.5 dBm

UE ON Power: Test value ± 7.5 dB

UE OFF Power ≤ -48.2 dBm

UE ON Power: Test value ± 7.8 dB

6.3.4.1_s General ON/OFF time mask for subslot/slot TTI

Same as 6.3.4.1

Same as 6.3.4.1

Same as 6.3.4.1

6.3.4.2 PRACH and SRS time mask

f ≤ 3.0GHz

OFF Power ≤ -50 dBm

ON Power BW dependent

3.0GHz < f ≤ 4.2GHz

OFF Power ≤ -50 dBm

ON Power BW dependent

Transmission ON Power value depends on the test parameters. In the particular test case parameters the ON power measurement has minimum requirements of ±6.0 dB

1.5 dB

1.5 dB

1.8 dB

1.8 dB

Formula:

OFF Power Minimum Req’t + TT

ON Power Upper limit + TT, Lower limit – TT

UE OFF Power ≤ -48.5 dBm

UE ON Power: Test value ± 7.5 dB

UE OFF Power ≤ -48.2 dBm

UE ON Power: Test value ± 7.8 dB

6.3.4A.1.1 General ON/OFF time mask for CA (intra-band contiguous DL CA and UL CA)

Same as 6.3.4.1 for each CC

Same as 6.3.4.1

Same as 6.3.4.1 for each CC

6.3.4A.1.2 General ON/OFF time mask for CA (inter-band DL CA and UL CA)

Same as 6.3.4.1

Same as 6.3.4.1

Same as 6.3.4.1

6.3.4A.1.3 General ON/OFF time mask for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.3.4.1 for each CC

Same as 6.3.4.1

Same as 6.3.4.1 for each CC

6.3.4A.1.4 General ON/OFF time mask for CA (3UL CA)

Same as 6.3.4.1 for each CC

Same as 6.3.4.1

Same as 6.3.4.1 for each CC

6.3.4A.1.5 General ON/OFF time mask for CA (34UL CA)

Same as 6.3.4.1 for each CC

Same as 6.3.4.1

Same as 6.3.4.1 for each CC

6.3.4B.1 General ON/OFF time mask for UL-MIMO

Same as 6.3.4.1

Same as 6.3.4.1

Same as 6.3.4.1

Uplink OFF power measurement applies to each Tx antenna connector

Uplink ON power measurement applies to [FFS]

6.3.4C.1 General ON/OFF time mask for Dual Connectivity

Same as 6.3.4.1

Same as 6.3.4.1

Same as 6.3.4.1

6.3.4E.1 General ON/OFF time mask for UE category 0

Same as 6.3.4.1

Same as 6.3.4.1

Same as 6.3.4.1

6.3.4E.2 PRACH and SRS time mask for UE category 0

Same as 6.3.4.2

Same as 6.3.4.2

Same as 6.3.4.2

6.3.4EA.1 General ON/OFF time mask for UE category M1

Same as 6.3.4.1

Same as 6.3.4.1

Same as 6.3.4.1

6.3.4EA.2 PRACH and SRS ON/OFF time mask for UE category M1

Same as 6.3.4.2

Same as 6.3.4.2

Same as 6.3.4.2

6.3.4EB.1 General ON/OFF time mask for UE category 1bis

Same as 6.3.4.1

Same as 6.3.4.1

Same as 6.3.4.1

6.3.4EB.2 PRACH and SRS ON/OFF time mask for UE category 1bis

Same as 6.3.4.2

Same as 6.3.4.2

Same as 6.3.4.2

6.3.4EC.2 PRACH and SRS ON/OFF time mask for UE category M2

Same as 6.3.4.2

Same as 6.3.4.2

Same as 6.3.4.2

6.3.4F.1 General ON/OFF time mask for category NB1 and NB2

Same as 6.3.4.1

Same as 6.3.4.1

Same as 6.3.4.1

6.3.4F.2 NPRACH time mask for category NB1 and NB2

Same as 6.3.4.2

Same as 6.3.4.2

Same as 6.3.4.2

6.3.4G.1 General ON/OFF time mask for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

4.2GHz < f ≤ 6GHz

OFF Power ≤ -50 dBm

ON Power BW dependent

Transmission ON Power value depends on the test parameters. In the particular test case parameters the ON power measurement has minimum requirements of ±6.0 dB

2.0dB

2.0dB

Formulae:

OFF Power Minimum Req’t + TT

ON Power Upper limit + TT, Lower limit – TT

UE OFF Power ≤ -48 dBm

UE ON Power: Test value ± 8.0 dB

6.3.4G.2 General ON/OFF time mask for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

f ≤ 3.0GHz

OFF Power ≤ -50 dBm

ON Power BW dependent

3.0GHz < f ≤ 4.2GHz

OFF Power ≤ -50 dBm

ON Power BW dependent

4.2GHz < f ≤ 6.0GHz

OFF Power ≤ -50 dBm

ON Power BW dependent

Transmission ON Power value depends on the test parameters. In the particular test case parameters the ON power measurement has minimum requirements of ±6.0 dB

1.5 dB

1.5 dB

1.8 dB

1.8 dB

2.0 dB

2.0 dB

Formulae:

OFF Power Minimum Req’t + TT

ON Power Upper limit + TT, Lower limit – TT

UE OFF Power ≤ -48.5 dBm

UE ON Power: Test value ± 7.5 dB

UE OFF Power ≤ -48.2 dBm

UE ON Power: Test value ± 7.8 dB

UE OFF Power ≤ -48.0 dBm

UE ON Power: Test value ± 8.0 dB

6.3.4G.3 General ON/OFF time mask for V2X Communication / Intra-band contiguous multi-carrier operation

Same as 6.3.4G.1 for each CC

Same as 6.3.4G.1

Same as 6.3.4G.1 for each CC

6.3.4G.4 PSSS/SSSS time mask for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

Same as 6.3.4G.1

Same as 6.3.4G.1

Same as 6.3.4G.1

6.3.5.1 Power Control Absolute power tolerance

f ≤ 3.0GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

3.0GHz < f ≤ 4.2GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

4.2GHz < f ≤ 6GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

1.0 dB

1.0 dB

1.4 dB

1.4 dB

2.0 dB

2.0 dB

Formula:

Upper limit + TT, Lower limit – TT

Normal conditions ± 10.0 dB

Extreme conditions ± 13.0 dB

Normal conditions ± 10.4 dB

Extreme conditions ± 13.4 dB

Normal conditions ± 11.0 dB

Extreme conditions ± 14.0 dB

6.3.5.2 Power Control Relative power tolerance

TS 36.101 [2] clause 6.3.5.1

All combinations of PUSCH and PUCCH transitions:

ΔP < 2; ±2.5 dB

2 ≤ ΔP < 3; ±3.0 dB

3 ≤ ΔP < 4; ±3.5 dB

4 ≤ ΔP ≤ 10; ±4.0 dB

10 ≤ ΔP < 15; ±5.0 dB

15 ≤ ΔP; ±6.0 dB

0.7 dB

Formula:

Upper limit + TT, Lower limit – TT

All combinations of PUSCH and PUCCH transitions:

ΔP < 2; ±3.2 dB

2 ≤ ΔP < 3; ±3.7 dB

3 ≤ ΔP < 4; ±4.2 dB

4 ≤ ΔP < 10; ±4.7 dB

10 ≤ ΔP < 15; ±5.7 dB

15 ≤ ΔP; ±6.7 dB

6.3.5.3 Aggregate power control tolerance

Aggregate power control tolerance within 21 ms:

PUCCH = ±2.5 dB

PUSCH = ±3.5 dB

0.7 dB

Formula:

Upper limit + TT, Lower limit – TT

PUCCH = ±3.2 dB

PUSCH = ±4.2 dB

6.3.5_1.1 Power Control Absolute power tolerance for HPUE

f ≤ 3.0GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

3.0GHz < f ≤ 4.2GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

1.0 dB

1.0 dB

1.4 dB

1.4 dB

Formula:

Upper limit + TT, Lower limit – TT

Normal conditions ± 10.0 dB

Extreme conditions ± 13.0 dB

Normal conditions ± 10.4 dB

Extreme conditions ± 13.4 dB

6.3.5_1.2 Power Control Relative power tolerance for HPUE

Same as 6.3.5.2

Same as 6.3.5.2

Same as 6.3.5.2

6.3.5_1.3 Aggregate power control tolerance for HPUE

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5A.1.1 Power Control Absolute power tolerance for CA (intra-band contiguous DL CA and UL CA)

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

6.3.5A.1.2 Power Control Absolute power tolerance for CA (inter-band DL CA and UL CA)

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

6.3.5A.1.3 Power Control Absolute power tolerance for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

6.3.5A.1.4 Power Control Absolute power tolerance for CA(3UL CA)

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

6.3.5A.1.5 Power Control Absolute power tolerance for CA(SRS carrier based switching)

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

6.3.5A.1.6 Power Control Absolute power tolerance for CA(4UL CA)

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

6.3.5A.2.1 Power Control Relative power tolerance for CA (intra-band contiguous DL CA and UL CA)

TS 36.101 [2] clause 6.3.5A.2 refers to Table 6.3.5.2.1-1.

All combinations of PUSCH and PUCCH transitions:

SCC power increase

PCC 0dB (ΔP ≤ 1dB):

Normal 0 ±1.0dB

Exceptions: 0 ±6.0dB

SCC +9dB (4 ≤ ΔP ≤ 10):

Normal +9 ±4.0dB

Exceptions: +9 ±6.0dB

SCC power decrease

PCC 0dB (ΔP ≤ 1dB):

Normal 0 ±1.0dB

Exceptions: 0 ±6.0dB

SCC -9dB (4 ≤ ΔP ≤ 10):

Normal -9 ±4.0dB

Exceptions: -9 ±6.0dB

PCC and SCC power increase

PCC +9dB (4 ≤ ΔP ≤ 10):

Normal +9 ±4.0dB

Exceptions: +9 ±6.0dB

SCC +9dB (4 ≤ ΔP ≤ 10):

Normal +9 ±4.0dB

Exceptions: +9 ±6.0dB

PCC and SCC power decrease

PCC -9dB (4 ≤ ΔP ≤ 10):

Normal -9 ±4.0dB

Exceptions: -9 ±6.0dB

SCC -9dB (4 ≤ ΔP ≤ 10):

Normal -9 ±4.0dB

Exceptions: -9 ±6.0dB

Each CC can have exceptions

-0.7, +0.8dB

-0.7, +0.8dB

-0.8, +0.7dB

-0.8, +0.8dB

-0.8, +0.7dB

-0.8, +0.7dB

-0.8, +0.8dB

-0.8, +0.8dB

-0.7, +0.8dB

-0.7, +0.8dB

-0.7, +0.8dB

-0.7, +0.8dB

-0.8, +0.7dB

-0.8, +0.7dB

-0.8, +0.7dB

-0.8, +0.7dB

Relative power measurement uncertainty comprises two quantities:

1. Uplink Relative level measurement uncertainty of Test system

2. IQ image Leakage onto weaker CC at -25dBc is allowed for the UE, so is added arithmetically. It can only increase the measured power of the weaker CC.

UL relative meas’t uncert ±0.7dB

Leakage +0.17dB max for 11dB CC power difference, based on -25dBc.

All limits rounded to nearest 0.1dB.

SCC power increase

PCC:

Normal -1.7, +1.8dB

Exceptions: -6.7, +6.8dB

SCC:

Normal +4.2, +13.7dB

Exceptions: +2.2, +15.8dB

SCC power decrease

PCC:

Normal -1.8, +1.7dB

Exceptions: -6.8, +6.7dB

SCC:

Normal -13.8, -4.2dB

Exceptions: -15.8, -2.2dB

PCC and SCC power increase

PCC:

Normal +4.3, +13.8dB

Exceptions: +2.3, +15.8dB

SCC:

Normal +4.3, +13.8dB

Exceptions: +2.3, +15.8dB

PCC and SCC power decrease

PCC:

Normal -13.8, -4.3dB

Exceptions: -15.8, -2.3dB

SCC:

Normal -13.8, -4.3dB

Exceptions: -15.8, -2.3dB

The analysis is recorded in 3GPP TR 36.904 [17]

When setting SCC power for the next step, three factors are relevant:

1. Uplink Relative level measurement uncertainty

2. IQ image Leakage onto weaker CC at -25dBc is allowed for the UE

3) TPC step 1dB ±1dB is allowed for the UE

These are added arithmetically, giving an extra margin of (1+0.7+0.17) = 1.87dB (2dB is allowed) to avoid the same power step exception being counted twice.

6.3.5A.2.2 Power Control Relative power tolerance for CA (inter-band DL CA and UL CA)

Same as 6.3.5.2 on both PCC and SCC separately.

Same as 6.3.5.2 on both PCC and SCC separately.

Same as 6.3.5.2 on both PCC and SCC separately.

6.3.5A.2.3 Power Control Relative power tolerance for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.3.5A.2.1

Same as 6.3.5A.2.1

Same as 6.3.5A.2.1

6.3.5A.2.4.1 Power Control Relative power tolerance for CA (intra-band contiguous 3DL CA and 3UL CA)

Same as 6.3.5A.2.1

Same as 6.3.5A.2.1

Same as 6.3.5A.2.1

6.3.5A.2.4.2 Power Control Relative power tolerance for CA (inter-band 3DL CA and 3UL CA)

Same as 6.3.5A.2.2

Same as 6.3.5A.2.2

Same as 6.3.5A.2.2

6.3.5A.2.4.3 Power Control Relative power tolerance for CA (intra-band non-contiguous 3DL CA and 3UL CA)

Same as 6.3.5A.2.3

Same as 6.3.5A.2.3

Same as 6.3.5A.2.3

6.3.5A.3.1 Aggregate power control tolerance for CA (intra-band contiguous DL CA and UL CA)

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5A.3.2 Aggregate power control tolerance for CA (inter-band DL CA and UL CA)

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5A.3.3 Aggregate power control tolerance for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5A.3.4 Aggregate Power Control Tolerance for CA (3UL CA)

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5A.3.5 Aggregate Power Control Tolerance for CA (4UL CA)

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5B.1 Power Control Absolute Power Tolerance for UL- MIMO

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.3.5B.2 Power Control Relative power tolerance for UL-MIMO

Same as 6.3.5.2

Same as 6.3.5.2

Same as 6.3.5.2

Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.3.5B.3 Aggregate power control tolerance for UL-MIMO

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

Uplink power measurement applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.3.5C.2 Power Control Relative power tolerance for Dual Connectivity

Same as 6.3.5.2 on both PCC and SCC separately.

Same as 6.3.5.2 on both PCC and SCC separately.

Same as 6.3.5.2 on both PCC and SCC separately.

6.3.5C.2_1 Power Control Relative power tolerance for asynchronous Dual Connectivity

Same as 6.3.5.2 on both PCC and SCC separately.

Same as 6.3.5.2 on both PCC and SCC separately.

Same as 6.3.5.2 on both PCC and SCC separately.

6.3.5E.1 Power Control Absolute power tolerance for UE category 0

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

6.3.5E.2 Power Control Relative power tolerance for UE category 0

Same as 6.3.5.2

Same as 6.3.5.2

Same as 6.3.5.2

6.3.5E.3 Aggregate power control tolerance for UE category 0

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5EA.1 Power Control Absolute power tolerance for UE category M1

f ≤ 3.0GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

3.0GHz < f ≤ 4.2GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

1.0 dB

1.0 dB

1.4 dB

1.4 dB

Formula:

Upper limit + TT, Lower limit – TT

Normal conditions ± 10.0 dB

Extreme conditions ± 13.0 dB

Normal conditions ± 10.4 dB

Extreme conditions ± 13.4 dB

6.3.5EA.2 Power Control Relative power tolerance for UE category M1

TS 36.101 [2] clause 6.3.5.1

All combinations of PUSCH and PUCCH transitions:

ΔP < 2; ±2.5 dB

2 ≤ ΔP < 3; ±3.0 dB

3 ≤ ΔP < 4; ±3.5 dB

4 ≤ ΔP ≤ 10; ±4.0 dB

10 ≤ ΔP < 15; ±5.0 dB

15 ≤ ΔP; ±6.0 dB

0.7 dB

Formula:

Upper limit + TT, Lower limit – TT

All combinations of PUSCH and PUCCH transitions:

ΔP < 2; ±3.2 dB

2 ≤ ΔP < 3; ±3.7 dB

3 ≤ ΔP < 4; ±4.2 dB

4 ≤ ΔP < 10; ±4.7 dB

10 ≤ ΔP < 15; ±5.7 dB

15 ≤ ΔP; ±6.7 dB

6.3.5EA.3 Aggregate power control tolerance for UE category M1

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5EA.3_1 Aggregate power control tolerance for UE category M1 (CE Mode B)

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5EB.1 Power Control Absolute power tolerance for UE category 1bis

Same as 6.3.5.1

Same as 6.3.5.1

Same as 6.3.5.1

6.3.5EB.2 Power Control Relative power tolerance for UE category 1bis

Same as 6.3.5.2

Same as 6.3.5.2

Same as 6.3.5.2

6.3.5EB.3 Aggregate power control tolerance for UE category 1bis

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5EC.3_1 Aggregate power control tolerance for UE category M2 (CE Mode B)

Same as 6.3.5.3

Same as 6.3.5.3

Same as 6.3.5.3

6.3.5F.1 Power Control Absolute power tolerance for category NB1 and NB2

f ≤ 3.0GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

3.0GHz < f ≤ 4.2GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

1.0 dB

1.0 dB

1.4 dB

1.4 dB

Formula:

Upper limit + TT, Lower limit – TT

Normal conditions ± 10.0 dB

Extreme conditions ± 13.0 dB

Normal conditions ± 10.4 dB

Extreme conditions ± 13.4 dB

6.3.5F.2 Power Control Relative power tolerance for UE category NB1 and NB2

TS 36.101 [2] clause 6.3.5F.2

NPRACH transitions:

ΔP = 0; ±1.5 dB

ΔP = 2; ±2.0 dB

ΔP = 4; ±3.5 dB

ΔP = 6; ±4.0 dB

0.7 dB

Formula:

Upper limit + TT, Lower limit – TT

NPRACH transitions:

ΔP = 0; ±2.2 dB

ΔP = 2; ±2.7 dB

ΔP = 4; ±4.2 dB

ΔP = 6; ±4.7 dB

6.3.5F.3 Aggregate power control tolerance for category NB1 and NB2

Aggregate power control tolerance within TBD ms:

PUSCH = ±3.5 dB

0.7 dB

Formula:

Upper limit + TT, Lower limit – TT

PUSCH = ±4.2 dB

6.3.5G.1 Power Control Absolute power tolerance for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

4.2GHz < f ≤ 6GHz

Normal conditions ± 3.0 dB

Extreme conditions ± 6.0 dB

2.0 dB

2.0 dB

Formula:

Upper limit + TT, Lower limit – TT

Normal conditions ± 5.0 dB

Extreme conditions ± 8.0 dB

6.3.5G.2 Power Control Absolute power tolerance for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

f ≤ 3.0GHz

Normal conditions ± 9.0 dB

Extreme conditions ± 12.0 dB

4.2GHz < f ≤ 6GHz

Normal conditions ± 3.0 dB

Extreme conditions ± 6.0 dB

1.0 dB

1.0 dB

2.0 dB

2.0 dB

Formula:

Upper limit + TT, Lower limit – TT

Normal conditions ± 10.0 dB

Extreme conditions ± 13.0 dB

Normal conditions ± 5.0 dB

Extreme conditions ± 8.0 dB

6.3.5G.3 Power Control Absolute power tolerance for V2X Communication / Intra-band contiguous multi-carrier operation

4.2GHz < f ≤ 6GHz

Normal conditions ± 3.0 dB

Extreme conditions ± 6.0 dB

2.0 dB

2.0 dB

Formula:

Upper limit + TT, Lower limit – TT

Normal conditions ± 5.0 dB

Extreme conditions ± 8.0 dB

6.5.1 Frequency Error

Modulated carrier, f ≤ 4.2GHz

Within 0.1 ppm compared to the received carrier frequency

f ≤ 3.0GHz

DL power: Refsens

3.0GHz < f ≤ 4.2GHz

DL power: Refsens

15 Hz

0.7 dB

1.0 dB

Formula:

Modulated carrier frequency: Upper limit + TT, Lower limit – TT

DL power: Refsens + TT

Modulated carrier frequency error = (0.1 ppm + 15 Hz)

Refsens +0.7dB

Refsens +1.0dB

6.5.1A.1 Frequency error for CA (intra-band contiguous DL CA and UL CA)

Same as 6.5.1

Same as 6.5.1

Same as 6.5.1

6.5.1A.2 Frequency Error for CA (inter-band DL CA and UL CA)

Same as 6.5.1 per CC

Same as 6.5.1 per CC

Same as 6.5.1 per CC

6.5.1A.3 Frequency Error for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.5.1 per CC

Same as 6.5.1 per CC

Same as 6.5.1 per CC

6.5.1A.5 Frequency error for CA (4UL CA)

Same as 6.5.1 per CC

Same as 6.5.1 per CC

Same as 6.5.1 per CC

6.5.1B Frequency Error for UL-MIMO

Same as 6.5.1

Same as 6.5.1

Same as 6.5.1

6.5.1D.1 Frequency Error for ProSe Direct Discovery

Modulated carrier, f ≤ 4.2GHz

Within 0.1 ppm compared to the received carrier frequency

f ≤ 3.0GHz

Sidelink power: Refsens

15 Hz

0.7 dB

Formula:

Modulated carrier frequency: Upper limit + TT, Lower limit – TT

Sidelink power: Refsens + TT

Modulated carrier frequency error = (0.1 ppm + 15 Hz)

Refsens +0.7dB

6.5.1D.2 Frequency Error for ProSe Direct Communication

Same as 6.5.1D.1

Same as 6.5.1D.1

Same as 6.5.1D.1

6.5.1E Frequency Error for UE category 0

Same as 6.5.1

Same as 6.5.1

Same as 6.5.1

6.5.1EA Frequency Error for UE category M1

Same as 6.5.1

Same as 6.5.1

Same as 6.5.1

6.5.1EB Frequency Error for UE category 1bis

Same as 6.5.1

Same as 6.5.1

Same as 6.5.1

6.5.1EC Frequency Error for UE category M2

Same as 6.5.1

Same as 6.5.1

Same as 6.5.1

6.5.1EC_1 Frequency Error for UE category M2 (CE Mode B)

Same as 6.5.1

Same as 6.5.1

Same as 6.5.1

6.5.1F Frequency Error for category NB1 and NB2

Modulated carrier, f ≤ 3.0GHz

Within 0.1 ppm compared to the received carrier frequency

f ≤ 3.0GHz

DL power: Refsens

3.0GHz < f ≤ 4.2GHz

DL power: Refsens

15 Hz

0.7 dB

1.0 dB

Formula:

Modulated carrier frequency: Upper limit + TT, Lower limit – TT

DL power: Refsens + TT

Modulated carrier frequency error = (0.1 ppm + 15 Hz)

Refsens +0.7dB

Refsens +1.0dB

6.5.1G.1 Frequency Error for V2X Communication / Non-concurrent with E-UTRA uplink transmission

Modulated carrier, f ≤ 6.0GHz

Within 0.1 ppm compared to the received carrier frequency

36 Hz

Formula:

Modulated carrier frequency: Upper limit + TT, Lower limit – TT

DL power: Refsens + TT

Modulated carrier frequency error = (0.1 ppm + 36 Hz)

6.5.1G.2 Frequency error for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

Modulated carrier, f ≤ 3.0GHz

Within 0.1 ppm compared to the received carrier frequency

f ≤ 3.0GHz

DL power: Refsens

Modulated carrier, 4.2GHz <f ≤ 6.0GHz

Within 0.1 ppm compared to the received carrier frequency

4.2GHz <f ≤ 6.0GHz

DL power: Refsens

15 Hz

0.7 dB

36 Hz

1.5 dB

Formula:

Modulated carrier frequency: Upper limit + TT, Lower limit – TT

DL power: Refsens + TT

Modulated carrier frequency error = (0.1 ppm + 15 Hz)

Refsens +0.7 dB

Modulated carrier frequency error = (0.1 ppm + 36 Hz)

Refsens +1.5 dB

6.5.2.1 Error Vector Magnitude

EVM limit:

BPSK :17.5 %

QPSK: 17.5 %

16QAM: 12.5 %

0%

Formula:

Minimum Requirement + TT

6.5.2.1_1 Error Vector Magnitude (EVM) for UL 64QAM

EVM limit:

64QAM: 8.0 %

0%

Formula:

Minimum Requirement + TT

6.5.2.1_2 Error Vector Magnitude (EVM) for UL 256QAM

EVM limit:

256QAM: 3.5 %

0.3%, 15dBm < P_UL

0.8%, -25dBm < P_UL ≤ 15dBm,

1.1%, -30dBm ≤ P_UL ≤ -25dBm

Formula:

Minimum Requirement + TT

6.5.2.1A PUSCH-EVM with exclusion period

EVM limit:

QPSK: 17.5 %

16QAM: 12.5 %

0%

Formula:

Minimum Requirement + TT

6.5.2A.1.1 Error Vector Magnitude (EVM) for CA (intra-band contiguous DL CA and UL CA)

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2A.1.1_1 EVM for CA (intra-band contiguous DL CA and UL CA) with UL 64QAM

Same as 6.5.2.1_1

Same as 6.5.2.1_1

Same as 6.5.2.1_1

6.5.2A.1.1_2 EVM for CA (intra-band contiguous DL CA and UL CA) with UL 256QAM

EVM limit:

256QAM: 3.5 %

Same as 6.5.2.1_2

Formula:

Minimum Requirement + TT

6.5.2A.1.2 Error Vector Magnitude (EVM) for CA (inter-band DL CA and UL CA)

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2A.1.2_1 EVM for CA (inter-band DL CA and UL CA) with UL 64QAM

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2A.1.2_2 Error Vector Magnitude (EVM) for CA (inter-band DL CA and UL CA) for UL 256QAM

EVM limit:

256QAM: 3.5 %

Same as 6.5.2.1_2

Formula:

Minimum Requirement + TT

6.5.2A.1.3 Error Vector Magnitude (EVM) for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2A.1.3_1 EVM for CA (intra-band non-contiguous DL CA and UL CA) with UL 64QAM

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2A.1.3_2 Error Vector Magnitude (EVM) for CA (intra-band non-contiguous DL CA and UL CA) for UL 256QAM

EVM limit:

256QAM: 3.5 %

Same as 6.5.2.1_2

Formula:

Minimum Requirement + TT

6.5.2A.1.4 Error Vector Magnitude (EVM) for CA (3UL CA)

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2A.1.5 Error Vector Magnitude (EVM) for CA (4UL CA)

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2B.1 Error Vector Magnitude (EVM) for UL- MIMO

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.5.2.1E.1 Error Vector Magnitude for UE category 0

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2.1E.2 PUSCH-EVM with exclusion period for UE category 0

Same as 6.5.2.1A

Same as 6.5.2.1A

6.5.2.1EA.1 Error Vector Magnitude for UE category M1

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2.1EA.2 PUSCH-EVM with exclusion period for UE category M1

Same as 6.5.2.1A

Same as 6.5.2.1A

6.5.2.1EB Error Vector Magnitude (EVM) for UE category 1bis

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2.1EC.1 Error Vector Magnitude for UE category M2

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2.1EC.2 PUSCH-EVM with exclusion period for UE category M2

Same as 6.5.2.1A

Same as 6.5.2.1A

Same as 6.5.2.1A

6.5.2.1F.1 Error Vector Magnitude (EVM) for UE category NB1 and NB2

Same as 6.5.2.1

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2.1G.1 Error Vector Magnitude (EVM) for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

EVM limit:

QPSK: 17.5 %

16QAM: 12.5 %

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2.1G.2 Error Vector Magnitude (EVM) for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

EVM limit:

QPSK: 17.5 %

16QAM: 12.5 %

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2.1G.3 Error Vector Magnitude (EVM) for V2X Communication / Intra-band contiguous multi-carrier operation

EVM limit:

QPSK: 17.5 %

16QAM: 12.5 %

Same as 6.5.2.1

Same as 6.5.2.1

6.5.2.1_s Error Vector Magnitude (EVM) for subslot/slot TTI

Same as 6.5.2

Same as 6.5.2

Same as 6.5.2

6.5.2.2 Carrier leakage

For Output power >0 dBm

-25dBc

For -30 dBm ≤ Output power ≤0 dBm

-20dBc

For -40 dBm ≤ Output power < -30 dBm

-10dBc

0.8dB

Formula:

Minimum Requirement + TT

6.5.2.2F Carrier leakage for UE category NB1 and NB2

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2.2G.1 Carrier leakage for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

For Output power >0 dBm

-25dBc

For -30 dBm ≤ Output power ≤0 dBm

-20dBc

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2.2G.2 Carrier leakage for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmission

For E-UTRA carrier, same as 6.5.2.2

For V2X carrier, same as 6.5.2.2G.1

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2.2G.3 Carrier leakage for V2X Communication / Intra-band contiguous MCC operation

For Output power >0 dBm

-25dBc

For -30 dBm ≤ Output power ≤0 dBm

-20dBc

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2.3 In-band emissions for non allocated RB

For general emissions: within the subPRB allocation

For general emissions for any non-allocated RB:

For IQ image:

-25dB

For Carrier leakage:

Output power >0 dBm

-25dBc

-30 dBm ≤ Output power ≤0 dBm

-20dBc

-40 dBm ≤ Output power < -30 dBm

-10dBc

For each evaluated RB, the test requirement is calculated as the higher of P_RB – 30 dB and the power sum of all limit values (General, IQ Image or Carrier leakage)

0.8dB

Formula:

Minimum Requirement + TT

6.5.2.4 EVM equalizer Spectrum flatness

Normal conditions.

If (F-FUL_low ≥ [3MHz])&(FUL_high-F≥ [3MHz]) 4 dB

else

8 dB

maximum coefficient in Range 1 – the minimum coefficient in Range 2

5 dB

the maximum coefficient in Range 2 – the minimum coefficient in Range

7 dB

Extreme conditions:

If (F-FUL_low ≥ [5MHz])&(FUL_high-F≥ [5MHz]) 4 dB

else

12 dB

maximum coefficient in Range 1 – the minimum coefficient in Range 2

6 dB

the maximum coefficient in Range 2 – the minimum coefficient in Range

10 dB

1.4dB

Formula:

Minimum Requirement + TT

6.5.2A.2.1 Carrier leakage for CA (intra-band contiguous DL CA and UL CA)

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2A.2.2 Carrier leakage for CA (inter-band DL CA and UL CA)

For Output power >0 dBm

-25dBc

For -30 dBm ≤ Output power ≤0 dBm

-20dBc

For -40 dBm ≤ Output power < -30 dBm

-10dBc

0.8dB

Formula:

Minimum Requirement + TT

6.5.2A.2.3 Carrier leakage for CA (intra-band non-contiguous DL CA and UL CA)

For Output power >0 dBm

-25dBc

For -30 dBm ≤ Output power ≤0 dBm

-20dBc

For -40 dBm ≤ Output power < -30 dBm

-10dBc

0.8dB

Formula:

Minimum Requirement + TT

6.5.2A.2.4 Carrier leakage for CA (3UL CA)

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2A.2.5 Carrier leakage for CA (4UL CA)

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2A.3.1 In-band emissions for non allocated RB for CA (intra-band contiguous DL CA and UL CA)

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2A.3.2 In-band emissions for non allocated RB for CA (inter-band DL CA and UL CA)

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2A.3.3 In-band emissions for non allocated RB for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2A.3.4 In-band emissions for non allocated RB for CA (3UL CA)

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2A.3.5 In-band emissions for non allocated RB for CA (4UL CA)

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2B.1 Error vector magnitude (EVM) for UL-MIMO

TBD

TBD

TBD

6.5.2B.2 Carrier leakage for UL-MIMO

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.5.2B.3 In-band emissions for non allocated RB for UL-MIMO

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

Uplink power measurement window applies to overall UL power, which is the linear sum of the output powers over all Tx antenna connectors

6.5.2B.4 EVM equalizer spectrum flatness for UL-MIMO

Same as 6.5.2.4

Same as 6.5.2.4

Same as 6.5.2.4

6.5.2.2E Carrier Leakage for UE category 0

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2.2EA Carrier Leakage for UE category M1

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2.2EB Carrier leakage for UE category 1bis

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2.2EC Carrier leakage for UE category M2

Same as 6.5.2.2

Same as 6.5.2.2

Same as 6.5.2.2

6.5.2.3E In-band emissions for non allocated RB for UE category 0

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2.3EA In-band emissions for non allocated RB for UE category M1

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2.3EB In-band emissions for non allocated RB for UE category 1bis

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2.3EC In-band emissions for non allocated RB for UE category M2

Same as 6.5.2.3

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2.3F In-band emissions for non allocated RB for UE category NB1 and NB2

For general emissions:

For IQ image:

-25dB

For Carrier leakage:

Output power >0 dBm

-25dBc

-30 dBm ≤ Output power ≤0 dBm

-20dBc

-40 dBm ≤ Output power < -30 dBm

-10dBc

For each evaluated tone, the test requirement is calculated as the higher of P_tone – 30 dB and the power sum of all limit values (General, IQ Image or Carrier leakage)

Same as 6.5.2.3

Same as 6.5.2.3

6.5.2.3G.1 In-band emissions for non-allocated RB for V2X Communication

For general emissions:

For IQ image:

-25dB

For Carrier leakage:

Output power >0 dBm

-25dBc

-30 dBm ≤ Output power ≤0 dBm

-20dBc

For each evaluated RB, the test requirement is calculated as the higher of P_RB – 30 dB and the power sum of all limit values (General, IQ Image or Carrier leakage)

Sidelink Power Window

>= 0dBm, (-30 dBm, 0 dBm)

E-UTRA Uplink Power Window

>= 0dBm, (-30 dBm, 0 dBm)

Emission:

0.8dB

Sidelink Power:

Absolute Transmitted Power tolerance: ±3dB referting to the TS 36.101 [2] clasue 6.3.5G.1

Wanted signal uncertainty:
±1.3 dB 4.2GHz < f ≤ 6.0GHz,

for UE powers >= 0dBm

±1.5 dB, 4.2GHz < f ≤ 6.0GHz, for UE powers >= -40dBm

Uplink power

Relative Transmitted Power tolerance: ±2.5dB referting to the TS 36.101 [2] clasue 6.3.5.2

Test system power measurement uncertainty:

±0.7 dB, f ≤ 3.0GHz

±1.0 dB, 3.0GHz < f ≤ 4.2GHz

±1.3 dB, 4.2GHz < f ≤ 6GHz

Formula for emission:

Minimum Requirement + TT

Sidelink power measurement window:

Bottom of the window: the Configured sidelink power – TT of sidelink power

Top of the window: the Configured sidelink power + TT of sidelink power

TT of sidelink power comprises 2 quantities:

1. Absolute Transmitted Power tolerance :±3dB

2. Test system power measurement uncertainty:

±1.3 dB 4.2GHz < f ≤ 6.0GHz for UE powers>= 0dBm.

±1.5 dB 4.2GHz < f ≤ 6.0GHz, for UE powers >= -40dBm

Items 1 and 2 are added arithmetically:

TT of sidelink power: (3dB+1.3dB) =4.3dB, 4.2GHz < f ≤ 6.0GH for UE powers >= 0 dBm:

TT of sidelink power: (3dB+1.5dB) =4.5dB, 4.2GHz < f ≤ 6.0GH for powers >= -40 dBm:

Ensure the bottom of the sidelink power measurement window is aligned with the bottom of the sidelink power window of the corresponding IBE requirement, and the top of the sidelink power measurement window is below the top of sidelink power window.

Uplink power measurement window:

Bottom of the window: the Configured sidelink power – TT of sidelink power

Top of the window: the Configured sidelink power + TT of sidelink power

TT of uplink power comprises 2 quantities:

1. Relative Transmitted Power tolerance :±2.5dB

2. Test system power measurement uncertainty:

±0.7 dB for f ≤ 3.0GHz.

±1 dB for 3.0GHz < f ≤ 4.2GHz

Items 1 and 2 are added arithmetically:

For f ≤ 3.0GHz

TT of uplink power: (2.5dB+0.7dB) =3.2dB

For 3.0GHz < f ≤ 4.2GHz

TT of uplink power: (2.5dB+1dB) =3.5dB,

Ensure the bottom of the uplink power measurement window is aligned with the bottom of the uplink power window of the corresponding IBE requirement, and the top of the uplink power measurement window is below the top of uplink power window.

6.5.2.3G.2 In-band emissions for non-allocated RB for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

same as 6.5.2.3 for E-UTRA uplink

same as 6.5.2.3G.1 for E-UTRA V2X sidelink

same as 6.5.2.3 for E-UTRA uplink

same as 6.5.2.3G.1 for E-UTRA V2X sidelink

same as 6.5.2.3 for E-UTRA uplink

same as 6.5.2.3G.1 for E-UTRA V2X sidelink

6.5.2.3G.3 In-band emissions for non-allocated RB for V2X Communication / Intra-band contiguous MCC operation

same as 6.5.2.3G.1 for each cc of E-UTRA V2X sidelink

same as 6.5.2.3G.1 for each cc of E-UTRA V2X sidelink

same as 6.5.2.3G.1 for each cc of E-UTRA V2X sidelink

6.5.2.4E EVM equalizer spectrum flatness for UE category 0

Same as 6.5.2.4

Same as 6.5.2.4

Same as 6.5.2.4

6.5.2.4EA EVM equalizer spectrum flatness for UE category M1

Same as 6.5.2.4

Same as 6.5.2.4

Same as 6.5.2.4

6.5.2.4EB EVM equalizer spectrum flatness for UE category 1bis

Same as 6.5.2.4

Same as 6.5.2.4

Same as 6.5.2.4

6.5.2.4EC EVM equalizer spectrum flatness for UE category M2

Same as 6.5.2.4

Same as 6.5.2.4

Same as 6.5.2.4

6.5.2.4G.1 EVM equalizer spectrum flatness for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

Same as 6.5.2.4

Same as 6.5.2.4

Same as 6.5.2.4

6.5.2.4G.3 EVM equalizer spectrum flatness for V2X Communication / Intra-band contiguous multi-carrier

operation uplink transmissions

Same as 6.5.2.4

Same as 6.5.2.4

Same as 6.5.2.4

6.6.1 Occupied bandwidth

For 1.4 MHz channel bandwidth:

Occupied channel bandwidth = 1.4 MHz

For 3.0 MHz channel bandwidth:

Occupied channel bandwidth = 3.0 MHz

For 5 MHz channel bandwidth:

Occupied channel bandwidth = 5 MHz

For 10 MHz channel bandwidth:

Occupied channel bandwidth = 10 MHz

For 15 MHz channel bandwidth:

Occupied channel bandwidth = 15 MHz

For 20 MHz channel bandwidth:

Occupied channel bandwidth = 20 MHz

0kHz

Formula:

Minimum Requirement + TT

6.6.1A.1 Occupied bandwidth for CA (intra-band contiguous DL CA and UL CA)

For 25(20+5) MHz channel bandwidth:

Occupied channel bandwidth = 24.95 MHz

For 30(20+10) MHz channel bandwidth:

Occupied channel bandwidth = 29.90 MHz

For 30(15+15) MHz channel bandwidth:

Occupied channel bandwidth = 30.00 MHz

For 35(20+15)MHz channel bandwidth:

Occupied channel bandwidth = 34.85 MHz

For 40(20+20) MHz channel bandwidth:

Occupied channel bandwidth = 39.80 MHz

Same as 6.6.1

Same as 6.6.1

6.6.1A.2 Occupied bandwidth for CA (inter-band DL CA and UL CA)

Same as 6.6.1 per CC

Same as 6.6.1 per CC

Same as 6.6.1 per CC

6.6.1A.3

Same as 6.6.1 for each CC

Same as 6.6.1

Same as 6.6.1 for each CC

6.6.1A.5 Occupied bandwidth for CA (4UL CA)

Same as 6.6.1 for each CC

Same as 6.6.1

Same as 6.6.1 for each CC

6.6.1B Occupied bandwidth for UL-MIMO

Same as 6.6.1

Same as 6.6.1

Same as 6.6.1

6.6.1E Occupied bandwidth for UE category 0

Same as 6.6.1

Same as 6.6.1

Same as 6.6.1

6.6.1EA Occupied bandwidth for UE category M1

Same as 6.6.1

Same as 6.6.1

Same as 6.6.1

6.6.1EB Occupied bandwidth for UE category 1bis

Same as 6.6.1

Same as 6.6.1

Same as 6.6.1

6.6.1EC Occupied bandwidth for UE category M2

Same as 6.6.1

Same as 6.6.1

Same as 6.6.1

6.6.1F Occupied bandwidth for UE category NB1

Occupied channel bandwidth = 200KHz

0kHz

Formula:

Minimum Requirement + TT

6.6.1G.1 Occupied bandwidth for V2X Communication / Non-concurrent with E-UTRA uplink transmission

Same as 6.6.1

Same as 6.6.1

Same as 6.6.1

6.6.1G.2 Occupied bandwidth for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

Same as 6.6.1

Same as 6.6.1

Same as 6.6.1

6.6.1G.3 Occupied bandwidth for V2X Communication / Intra-band contiguous multi-carrier operation

Same as 6.6.1

Same as 6.6.1

Same as 6.6.1

6.6.2.1 Spectrum Emission Mask

For 1.4 MHz BW:

-10 dBm / 30kHz

-25dBm to -10dBm / 1MHz

For 3 MHz BW:

-13 dBm / 30kHz

-25dBm to -10dBm / 1MHz

For 5 MHz BW:

-15dBm / 30kHz

-25dBm to -10dBm / 1MHz

For 10 MHz BW:

-18dBm / 30kHz

-25dBm to -10dBm / 1MHz

For 15 MHz BW:

-20dBm / 30kHz

-25dBm to -10dBm / 1MHz

For 20 MHz BW:

-21dBm / 30kHz

-25dBm to -10dBm / 1MHz

All cases:

f ≤ 3.0GHz

1.5dB

3.0GHz < f ≤ 4.2GHz

1.8dB

Formula:

Minimum Requirement + TT

Note: The Test Tolerance would be 0dB for Δf_OOB ≥ 2 x Channel Bandwidth, but taking into account the filter position, the Test requirements specified all have Δf_OOB < 2 x Channel Bandwidth

6.6.2.1_1 Spectrum Emission Mask for Multi-Cluster PUSCH

Same as 6.6.2.1

Same as 6.6.2.1

Same as 6.6.2.1

6.6.2.1A.1 Spectrum emission mask for CA (intra-band contiguous DL CA and UL CA)

For 9.8MHz BW:

-18 dBm / 30kHz

-25 dBm to -10 dBm / 1MHz

For 14.95MHz BW:

-20 dBm / 30kHz

-25 dBm to -10 dBm / 1MHz

For 19.8MHz BW:

-21 dBm / 30kHz

-25 dBm to -10 dBm / 1MHz

For 19.9MHz:

-21 dBm / 30kHz

-25 dBm to -10 dBm / 1MHz

For 24.75MHz BW:

-22 dBm / 30kHz

-25 dBm to -10 dBm / 1MHz

For 24.95 MHz BW:

-22 dBm / 30kHz

-25 dBm to – 10 dBm / 1 MHz

For 29.9 MHz BW:

-22.5 dBm / 30kHz

-25dBm to -10dBm / 1MHz

For 30 MHz BW:

-22.5 dBm / 30kHz

-25dBm to -10dBm / 1MHz

For 34.85 MHz BW:

-23.5dBm / 30kHz

-25dBm to -10dBm / 1MHz

For 39.8 MHz BW:

-24dBm / 30kHz

-25dBm to -10dBm / 1MHz

Same as 6.6.2.1

Same as 6.6.2.1

6.6.2.1A.2 Spectrum emission mask for CA (inter-band DL CA and UL CA)

Same as 6.6.2.1 per CC

Same as 6.6.2.1 per CC

Same as 6.6.2.1 per CC

6.6.2.1A.3 Spectrum Emission Mask for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.6.2.1 for each CC

Same as 6.6.2.1

Same as 6.6.2.1 for each CC

6.6.2.1A.5 Additional Spectrum Emission Mask for CA (4UL)

Same as 6.6.2.1

Same as 6.6.2.1

Same as 6.6.2.1

6.6.2.1B Spectrum Emission Mask for UL-MIMO

Same as 6.6.2.1

Same as 6.6.2.1

Same as 6.6.2.1

6.6.2.1E Spectrum Emission Mask for UE category 0

Same as 6.6.2.1

Same as 6.6.2.1

Same as 6.6.2.1

6.6.2.1EA Spectrum Emission Mask for UE category M1

Same as 6.6.2.1

Same as 6.6.2.1

Same as 6.6.2.1

6.6.2.1EB Spectrum Emission Mask for UE category 1bis

Same as 6.6.2.1

Same as 6.6.2.1

Same as 6.6.2.1

6.6.2.1EC Spectrum Emission Mask for UE category M2

Same as 6.6.2.1

Same as 6.6.2.1

Same as 6.6.2.1

6.6.2.1F Spectrum Emission Mask for UE category NB1

For all frequencies -35dBm to 26dBm / 30kHz

For frequencies that are Foffset away from edge of NB1 channel edge as defined in Table 6.6.2.1F.3-2, same as 6.6.2.1

All cases:

f ≤ 3.0GHz

1.5dB

For all frequencies interpolated Minimum Requirement + TT

6.6.2.1G.1 Spectrum Emission Mask for V2X Communication Non-concurrent with E-UTRA uplink transmissions

Bandwidth: 10MHz

-20dBm /30kHz

-25 ~ -10 / 1 MHz

Bandwidth: 20MHz

-21dBm /30kHz

-25 ~ -10 / 1 MHz

±2.0 dB, 4.2GHz < f ≤ 6GHz

Formula:

Minimum Requirement + TT

Note: The Test Tolerance would be 0dB for Δf_OOB ≥ 2 x Channel Bandwidth, but taking into account the filter position, the Test requirements specified all have Δf_OOB < 2 x Channel Bandwidth

6.6.2.1G.2 Spectrum Emission Mask for V2X Communication /Sidelink simultaneous with E-UTRA uplink transmissions

Same as 6.6.2.1G.1 for sidelink Same as 6.6.2.1G.1 for E-UTRA uplink

Same as 6.6.2.1G.1

Same as 6.6.2.1G.1

6.6.2.1G.3 Spectrum Emission Mask for V2X Communication / Intra-band contiguous MCC operation

Same as 6.6.2.1G.1

Same as 6.6.2.1G.1

Same as 6.6.2.1G.1

6.6.2.2 Additional Spectrum Emission Mask

For 1.4 MHz BW:

NS_03, NS_04

-10 dBm / 30 kHz

-25 dBm to -13 dBm / 1MHz

NS_06 or NS_07

-13 dBm / 30 kHz

-13 dBm / 100 kHz

-25 dBm to -13 dBm / 1MHz

For 3 MHz BW:

NS_03, NS_04

-13 dBm / 30 kHz

-25 dBm to -13 dBm / 1 MHz

NS_06 or NS_07

-13 dBm / 30 kHz

-13 dBm / 100kHz

-25 dBm to -13 dBm / 1 MHz

For 5 MHz BW:

NS_03, NS_04

-15 dBm / 30 kHz

-25 dBm to -13 dBm / 1 MHz

NS_06 or NS_07

-15 dBm / 30 kHz

-13 dBm / 100 kHz

-25 dBm to -13 dBm / 1 MHz

For 10 MHz BW:

NS_03, NS_04,

-18 dBm / 30 kHz

-25 dBm to – 13dBm / 1 MHz

NS_06 or NS_07

-18 dBm / 30 kHz

-13 dBm / 100 kHz

-25 dBm to – 13dBm / 1 MHz

For 15 MHz BW:

NS_03, NS_04

-20 dBm / 30kHz

-25 dBm to -13 dBm / 1 MHz

For 20 MHz BW:

NS_03, NS_04

-21 dBm / 30 kHz

-25 dBm to -13 dBm / 1 MHz

All cases:

f ≤ 3.0GHz

1.5dB

3.0GHz < f ≤ 4.2GHz

1.8dB

4.2GHz < f ≤ 6.0GHz

±2.0 dB

Formula:

Minimum Requirement + TT

Note: The Test Tolerance would be 0dB for Δf_OOB ≥ 2 x Channel Bandwidth, but taking into account the filter position, the Test requirements specified all have Δf_OOB < 2 x Channel Bandwidth

6.6.2.2_1 Additional Spectrum Emission Mask for UL 64QAM

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2_2 Additional Spectrum Emission Mask for UL 256QAM

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2A-1 Additional Spectrum Emission Mask for CA (intra-band contiguous DL CA and UL CA)

For network signalled value CA_NS_04:

-21dBm/30kHz to -22.5dBm/kHz, BW-dependent, for 0-1MHz

-13dBm/1MHz for 1MHz-5.5MHz

-25dBm/1MHz beyond 5.5MHz

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2A.1_1 Additional Spectrum Emission Mask for CA (intra-band contiguous DL CA and UL CA) for UL 64QAM

Same as 6.6.2.2A.1

Same as 6.6.2.2A.1

Same as 6.6.2.2A.1

6.6.2.2A.1_2 Additional Spectrum Emission Mask for CA (intra-band contiguous DL CA and UL CA) for UL 256QAM

Same as 6.6.2.2A.1

Same as 6.6.2.2A.1

Same as 6.6.2.2A.1

6.6.2.2A.2 Additional Spectrum Emission Mask for CA (inter-band DL CA and UL CA)

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2A.2_1 Additional Spectrum Emission Mask for CA (inter-band DL CA and UL CA) for UL 64QAM

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2A.2_2 Additional Spectrum Emission Mask for CA (inter-band DL CA and UL CA) for UL 256QAM

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2A.3 Additional Spectrum Emission Mask for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2A.5 Additional Spectrum Emission Mask for CA (4UL CA)

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2B Additional Spectrum Emission Mask for UL-MIMO

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2E Additional Spectrum Emission Mask for UE category 0

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2EA Additional Spectrum Emission Mask for UE category M1

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2EB Additional Spectrum Emission Mask for UE category 1bis

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2EC Additional Spectrum Emission Mask for UE category M2

Same as 6.6.2.2

Same as 6.6.2.2

Same as 6.6.2.2

6.6.2.2G.1 Additional Spectrum Emission Mask for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

Δf_OOB(MHz)

± 0-0.5 []

Δf_OOB(MHz)

± 0.5-5 []

Δf_OOB(MHz)

± 5-10 [{ QUOTE

}]

Same as 6.6.2.2

Formula:

Minimum Requirement + TT

6.6.2.2G.2 Additional Spectrum Emission Mask for V2X Communication / Sidelink simultaneous with E-UTRA uplink transmissions

same as 6.6.2.2 for E-UTRA uplink

same as 6.6.2.2G.1 for sidelink

same as 6.6.2.2 for E-UTRA uplink

same as 6.6.2.2G.1 for sidelink

Formula:

Minimum Requirement + TT

6.6.2.3 Adjacent Channel Leakage power Ratio

If the adjacent channel power is greater than –50 dBm then the ACLR shall be higher than the values specified below.

E-UTRA ACLR:

30 dB

UTRA ACLR:

33 dB for UTRA ACLR 1

36 dB for UTRA ACLR 2

0 dB

0.8 dB

0.8 dB

0.8 dB

Formula:

ACLR Minimum Requirement + TT

Formula:

ACLR Minimum Requirement – TT

E-UTRA ACLR:

29.2 dB

UTRA ACLR:

32.2 dB for UTRA ACLR 1

35.2 dB for UTRA ACLR 2

6.6.2.3_1 Adjacent Channel Leakage power Ratio for HPUE

If the adjacent channel power is greater than –50 dBm then the ACLR shall be higher than the values specified below.

E-UTRA ACLR for Power Class 1:

37 dB

E-UTRA ACLR for Power Class 2:

31 dB

0dB

0.8dB

Formula:

ACLR Minimum Requirement + TT

Formula:

ACLR Minimum Requirement – TT

E-UTRA ACLR for Power Class 1:

36.2 dB

E-UTRA ACLR for Power Class 2:

30.2 dB

6.6.2.3_2 Adjacent Channel Leakage power Ratio for Multi-Cluster PUSCH

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3_3 Adjacent Channel Leakage power Ratio for UL 64QAM

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3_4 Adjacent Channel Leakage power Ratio for Multi-Cluster PUSCH with UL 64QAM

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3_5 Adjacent Channel Leakage power Ratio for UL 256QAM

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3_6 Adjacent Channel Leakage power Ratio for Multi-Cluster PUSCH with UL 256QAM

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3A.1 Adjacent Channel Leakage power Ratio for CA (intra-band contiguous DL CA and UL CA)

If the adjacent channel power is greater than –50 dBm then the ACLR shall be higher than the values specified below.

UTRA ACLR:

33 dB for UTRA ACLR 1

36 dB for UTRA ACLR 2

E-UTRA ACLR:

30 dB

0 dB

0.8 dB

0.8 dB

0.8 dB

Formula:

ACLR Minimum Requirement + TT

Formula:

ACLR Minimum Requirement – TT

UTRA ACLR:

32.2 dB for UTRA ACLR 1

35.2 dB for UTRA ACLR 2

E-UTRA ACLR:

29.2 dB

6.6.2.3A.1_1 Adjacent Channel Leakage power Ratio for CA (intra-band contiguous DL CA and UL CA) for UL 64QAM

Same as 6.6.2.3A.1

Same as 6.6.2.3A.1

Same as 6.6.2.3A.1

6.6.2.3A.1_2 Adjacent Channel Leakage power Ratio for CA (intra-band contiguous DL CA and UL CA) for UL 256QAM

Same as 6.6.2.3A.1

Same as 6.6.2.3A.1

Same as 6.6.2.3A.1

6.6.2.3A.2 Adjacent Channel Leakage power Ratio for CA (intra-band contiguous DL CA and UL CA)

Same as 6.6.2.3 per component carrier

E-UTRA ACLR2:

40dB

Same as 6.6.2.3 per component carrier

1.3dB

Same as 6.6.2.3 per component carrier

E-UTRA ACLR:

38.7 dB

6.6.2.3A.2_1 Adjacent Channel Leakage power Ratio for CA (inter-band DL CA and UL CA) for UL 64QAM

Same as 6.6.2.3 per component carrier

Same as 6.6.2.3 per component carrier

Same as 6.6.2.3 per component carrier

6.6.2.3A.2_2 Adjacent Channel Leakage power Ratio for CA (inter-band DL CA and UL CA) for UL 256QAM

Same as 6.6.2.3A.2

Same as 6.6.2.3A.2

Same as 6.6.2.3A.2

6.6.2.3A.3 Adjacent Channel Leakage power Ratio for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3A.3_1 Adjacent Channel Leakage power Ratio for CA (intra-band non-contiguous DL CA and UL CA) for UL 64QAM

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3A.3_2 Adjacent Channel Leakage power Ratio for CA (intra-band non-contiguous DL CA and UL CA) for UL 256QAM

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3A.4.1 Adjacent Channel Leakage power Ratio for CA (intra-band contiguous 3DL CA and 3UL CA)

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3A.4.2 Adjacent Channel Leakage power Ratio for CA (inter-band 3DL CA and 3UL CA)

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3A.4.3 Adjacent Channel Leakage power Ratio for CA (intra-band non-contiguous 3DL CA and 3UL CA)

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3A.5 Adjacent Channel Leakage power Ratio for CA (4UL CA)

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3B Adjacent Channel Leakage power Ratio for UL-MIMO

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3E Adjacent Channel Leakage power Ratio for UE category 0

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3EA Adjacent Channel Leakage power Ratio for UE category M1

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3EB Adjacent Channel Leakage power Ratio for UE category 1bis

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3EC Adjacent Channel Leakage power Ratio for UE category M2

Same as 6.6.2.3

Same as 6.6.2.3

Same as 6.6.2.3

6.6.2.3F Adjacent Channel Leakage power Ratio for UE category NB1

If the adjacent channel power is greater than –50 dBm then the ACLR shall be higher than the values specified below.

GSM ACLR:

20 dB

UTRA ACLR:

37 dB for UTRA ACLR

0 dB

0.8 dB

0.8 dB

Formula:

ACLR Minimum Requirement + TT

Formula:

ACLR Minimum Requirement – TT

GSM ACLR:

19.2 dB

UTRA ACLR:

36.2 dB for UTRA ACLR

6.6.2.3G.1 Adjacent Channel Leakage power Ratio for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

If the adjacent channel power is greater than –50 dBm then the ACLR shall be higher than the values specified below.

E-UTRA ACLR:

30dB for power class 3 UE

31dB for power class 2 UE

0.8 dB

0.8 dB

Formula:

ACLR Minimum Requirement + TT

Formula:

ACLR Minimum Requirement – TT

E-UTRA ACLR:

29.2dB for power class 3 UE

30.2dB for power class 2 UE

6.6.2.3G.2 Adjacent Channel Leakage power Ratio for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

Same as 6.6.2.3G.1

Same as 6.6.2.3G.1

Same as 6.6.2.3G.1

6.6.2.3G.3 Adjacent Channel Leakage power Ratio for V2X Communication / Intra-band contiguous multi-carrier operation

Same as 6.6.2.3G.1

Same as 6.6.2.3G.1

Same as 6.6.2.3G.1

6.6.2.4 Additional ACLR requirements

If the adjacent channel power is greater than –50 dBm then the ACLR shall be higher than the values specified below.

E-UTRA ACLR:

43 dB for UTRA ACLR 2

0 dB

0.8 dB

Formula:

ACLR Minimum Requirement + TT

Formula:

ACLR Minimum Requirement – TT

E-UTRA ACLR:

42.2 dB for UTRA ACLR 2

6.6.3.1 Transmitter Spurious emissions

9 kHz ≤ f < 150 kHz:

-36dBm / 1kHz

150 kHz ≤ f < 30 MHz:

-36dBm / 10kHz

30 MHz ≤ f < 1 GHz:

-36dBm / 100kHz

1 GHz ≤ f < 12.75 GHz:

-30dBm / 1MHz

12.75 GHz ≤ f < 19 GHz:

-30dBm / 1MHz

0 dB

Formula:

Minimum Requirement + TT

6.6.3.1_1Transmitter Spurious emissions for Multi-Cluster PUSCH

Same as 6.6.3.1

Same as 6.6.3.1

Formula:

Minimum Requirement + TT

6.6.3.1A.1 Transmitter Spurious emissions for CA (intra-band contiguous DL CA and UL CA)

Same as 6.6.3.1

Same as 6.6.3.1

Same as 6.6.3.1

6.6.3.1A.2 Transmitter Spurious emissions for CA (inter-band DL CA and UL CA)

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

6.6.3.1A.3 Transmitter Spurious emissions for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

6.6.3.1A.4.1 Transmitter Spurious emissions for CA (3UL CA) (intra-band contiguous 3DL CA and 3UL CA)

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

6.6.3.1A.4.2 Transmitter Spurious emissions for CA (3UL CA) (inter-band 3DL CA and 3UL CA)

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

6.6.3.1A.4.3 Transmitter Spurious emissions for CA (3UL CA) (intra-band non-contiguous 3DL CA and 3UL CA)

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

6.6.3.1A.5 Transmitter Spurious emissions for CA (4UL CA)

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

Same as 6.6.3.1 per CC

6.6.3B.1Transmitter Spurious emissions for UL-MIMO

Same as 6.6.3.1

Same as 6.6.3.1

Formula:

Minimum Requirement + TT

6.6.3E.1 Transmitter Spurious emissions for UE category 0

Same as 6.6.3.1

Same as 6.6.3.1

Same as 6.6.3.1

6.6.3E.2 Spurious emission band UE co-existence for UE category 0

Same as 6.6.3.2

Same as 6.6.3.2

6.6.3E.3 Additional spurious emissions for UE category 0

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3EA.1 Transmitter Spurious emissions for UE category M1

Same as 6.6.3.1

Same as 6.6.3.1

Same as 6.6.3.1

6.6.3EA.2 Spurious emission band UE co-existence for UE category M1

Same as 6.6.3.2

Same as 6.6.3.2

6.6.3EA.3 Additional spurious emissions for UE category M1

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3EB.1 Transmitter Spurious emissions for UE category 1bis

Same as 6.6.3.1

Same as 6.6.3.1

Same as 6.6.3.1

6.6.3EB.2 Spurious emission band UE co-existence for UE category 1bis

Same as 6.6.3.2

Same as 6.6.3.2

Same as 6.6.3.2

6.6.3EB.3 Additional spurious emissions for UE category 1bis

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3EC.1 Transmitter Spurious emissions for UE category M2

Same as 6.6.3.1

Same as 6.6.3.1

Same as 6.6.3.1

6.6.3EC.2 Spurious emission band UE co-existence for UE category M2

Same as 6.6.3.2

Same as 6.6.3.2

Same as 6.6.3.2

6.6.3EC.3 Additional spurious emissions for UE category M2

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3F.1 Transmitter Spurious emissions for UE category NB1

Same as 6.6.3.1

Same as 6.6.3.1

Same as 6.6.3.1

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

9 kHz ≤ f < 150 kHz:

-36dBm / 1kHz

150 kHz ≤ f < 30 MHz:

-36dBm / 10kHz

30 MHz ≤ f < 1 GHz:

-36dBm / 100kHz

1 GHz ≤ f < 12.75 GHz:

-30dBm / 1MHz

12.75 GHz ≤ f < 26 GHz:

-30dBm / 1MHz

0 dB

Formula:

Minimum Requirement + TT

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

Same as 6.6.3G.1

Same as 6.6.3G.1

Formula:

Minimum Requirement + TT

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

Same as 6.6.3G.1

Same as 6.6.3G.1

Formula:

Minimum Requirement + TT

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

Same as 6.6.3G.1

Same as 6.6.3G.1

Formula:

Minimum Requirement + TT

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

Same as 6.6.3G.1

Same as 6.6.3G.1

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

Same as 6.6.3G.1

Same as 6.6.3G.1

Formula:

Minimum Requirement + TT

6.6.3.2 Spurious emission band UE co-existence

-35 dBm / 6.25kHz

-36 dBm / 100kHz

-41 dBm / 300kHz

-37 dBm / 1MHz

-40 dBm / 1MHz

-50 dBm / 1MHz

Frequencies as detailed in core requirement

0 dB

Formula:

Minimum Requirement + TT

6.6.3.2A.1 Spurious emission band UE co-existence for CA (intra-band contiguous DL CA and UL CA)

-35 dBm / 6.25kHz

-36 dBm / 100kHz

-41 dBm / 300kHz

-37 dBm / 1MHz

-40 dBm / 1MHz

-50 dBm / 1MHz

-15.5 dBm / 5MHz

+1.6 dBm /5MHz

Frequencies as detailed in core requirement

0 dB

Formula:

Minimum Requirement + TT

6.6.3.2A.3 Spurious emission band UE co-existence for CA (intra-band non-contiguous DL CA and UL CA)

Same as 6.6.3.2

Same as 6.6.3.2

Formula:

Minimum Requirement + TT

6.6.3.2A.4 Spurious emission band UE co-existence for CA (3UL CA)

-35 dBm / 6.25kHz

-36 dBm / 100kHz

-41 dBm / 300kHz

-37 dBm / 1MHz

-40 dBm / 1MHz

-50 dBm / 1MHz

-15.5 dBm / 5MHz

+1.6 dBm /5MHz

Frequencies as detailed in core requirement

0 dB

Formula:

Minimum Requirement + TT

6.6.3.2A.5 Spurious emission band UE co-existence for CA (4UL CA)

Same as 6.6.3.2A.1

Same as 6.6.3.2A.1

Formula:

Minimum Requirement + TT

6.6.3.3 Additional spurious emissions

NS_05

1884.5MHz ≤ f ≤ 1915.7MHz:

-41dBm / 300kHz

NS_07

769MHz ≤ f ≤ 775MHz

-57dBm / 6.25kHz

NS_08

860MHz ≤ f ≤ 895MHz

-40dBm / 1MHz

NS_09

1475.9MHz ≤ f ≤ 1510.9MHz

-35dBm / 1MHz

NS_44

2620MHz ≤ f ≤ 2645MHz

-15.5dBm / 5MHz

2645MHz ≤ f ≤ 2690MHz

-40dBm / 1MHz

0 dB

1.5dB

0 dB

0 dB

0 dB

Formula:

Minimum Requirement + TT

-41dBm / 300kHz

-55.5 dBm / 6.25kHz

-40dBm / 1MHz

-35dBm / 1MHz

-15.5dBm / 5MHz

-40dBm / 1MHz

6.6.3.3_1 Additional spurious emissions for UL 64QAM

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3.3_2 Additional spurious emissions for UL 256QAM

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3.3A.1 Additional spurious emissions for CA (intra-band contiguous DL CA and UL CA)

CA_NS_01

E-UTRA band 34:

-50dBm / 1MHz

1884.5MHz ≤ f ≤ 1915.7MHz:

-41dBm / 300kHz

CA_NS_02

E-UTRA band 33:

-50dBm / 1MHz

E-UTRA band 34:

-50dBm / 1MHz

CA_NS_03

E-UTRA band 34:

-50dBm / 1MHz

E-UTRA band 39:

-50dBm / 1MHz

0 dB

0 dB

0 dB

0 dB

0 dB

0 dB

Formula:

Minimum Requirement + TT

-50 MHz / 1MHz

-41 dBm / 300kHz

-50 MHz / 1MHz

-50 MHz / 1MHz

-50 MHz / 1MHz

-50 MHz / 1MHz

6.6.3.3A.1_1 Additional spurious emissions for CA (intra-band contiguous DL CA and UL CA) for UL 64QAM

Same as 6.6.3.3A.1

Same as 6.6.3.3A.1

Same as 6.6.3.3A.1

6.6.3.3A.1_2 Additional spurious emissions for CA (intra-band contiguous DL CA and UL CA) for UL 256QAM

Same as 6.6.3.3A.1

Same as 6.6.3.3A.1

Same as 6.6.3.3A.1

6.6.3.3A.2 Additional spurious emissions for CA (inter-band DL CA and UL CA)

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3.3A.2_1 Additional spurious emissions for CA (inter-band DL CA and UL CA) for UL 64QAM

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3.3A.2_2 Additional spurious emissions for CA (inter-band DL CA and UL CA) for UL 256QAM

Same as 6.6.3.3

Same as 6.6.3.3

Same as 6.6.3.3

6.6.3.3A.4 Additional spurious emissions for CA (3UL CA)

Same as 6.6.3.3A.1

Same as 6.6.3.3A.1

Same as 6.6.3.3A.1

6.6.3.3A.5 Additional spurious emissions for CA (3UL CA)

Same as 6.6.3.3A.1

Same as 6.6.3.3A.1

Same as 6.6.3.3A.1

6.6.3B.2 Spurious emission band UE co-existence for UL-MIMO

Same as 6.6.3.2

Same as 6.6.3.2

Formula:

Minimum Requirement + TT

6.6.3B.3 Additional spurious emissions for UL-MIMO

Same as 6.6.3.3

Same as 6.6.3.3

Formula:

Minimum Requirement + TT

6.6.3F.2 Spurious emission band UE co-existence for category NB1 UE

Same as 6.6.3.2

Same as 6.6.3.2

Formula:

Minimum Requirement + TT

6.7 Transmit intermodulation

Intermodulation Product

5MHz -29 dBc
10MHz -35 dBc

CW Interferer level = -40 dBc

0 dB

Formula: CW interferer Minimum Requirement– TT

Intermod Products limits remain unchanged.

CW interferer level = -40 dBc

6.7A.1 Transmit intermodulation for CA (intra-band contiguous DL CA and UL CA)

Same as 6.7

Same as 6.7

Same as 6.7

6.7A.2 Transmit intermodulation for CA (inter-band DL CA and UL CA)

Same as 6.7

Same as 6.7

Same as 6.7

6.7A.5 Transmit intermodulation for CA (4UL CA)

Same as 6.7

Same as 6.7

Same as 6.7

6.7B Transmit intermodulation for UL-MIMO

Same as 6.7

Same as 6.7

Same as 6.7

6.7E Transmit intermodulation for UE category 0

Same as 6.7

Same as 6.7

Same as 6.7

6.7EA Transmit intermodulation for UE category M1

Same as 6.7

Same as 6.7

Same as 6.7

6.7EB Transmit intermodulation for UE category 1bis

Same as 6.7

Same as 6.7

Same as 6.7

6.7EC Transmit intermodulation for UE category M2

Same as 6.7

Same as 6.7

Same as 6.7

6.7F Transmit intermodulation for UE category NB1

Same as 6.7

Same as 6.7

Same as 6.7

6.7G.1 Transmit intermodulation for V2X Communication / Non-concurrent with E-UTRA uplink transmissions

Same as 6.7

Same as 6.7

Same as 6.7

6.7G.2 Transmit intermodulation for V2X Communication / Simultaneous E-UTRA V2X sidelink and E-UTRA uplink transmissions

Same as 6.7

Same as 6.7

Same as 6.7

6.7G.3 Transmit intermodulation for V2X Communication / Intra-band contiguous multi-carrier operation

Same as 6.7

Same as 6.7

Same as 6.7

6.8B Time alignment error for UL-MIMO

The Time Alignment Error (TAE) shall not exceed 130 ns

25 ns

Formula:

Minimum Requirement+ TT