6.2 Transmitter power

38.101-13GPPNRPart 1: Range 1 StandaloneRelease 17TSUser Equipment (UE) radio transmission and reception

Tools: ARFCN - Frequency Conversion for 5G NR/LTE/UMTS/GSM

6.2.1 UE maximum output power

The following UE Power Classes define the maximum output power for any transmission bandwidth within the channel bandwidth of NR carrier unless otherwise stated. The period of measurement shall be at least one sub frame (1ms).

Table 6.2.1-1: UE Power Class

NR band	Class 1 (dBm)	Tolerance (dB)	Class 1.5 (dBm)	Tolerance (dB)	Class 2 (dBm)	Tolerance (dB)	Class 3 (dBm)	Tolerance (dB)
n1					26	+2/-3	23	±2
n2							23	±2³
n3					26	+2/-3³	23	±2³
n5							23	±2
n7							23	±2³
n8							23	±2³
n12							23	±2³
n13							23	±2
n14	31⁶	+2/-3					23	±2
n18							23	±2
n20							23	±2³
n24							23	+2/-3³
n25							23	±2³
n26							23	±2³
n28							23	+2/-2.5
n30							23	±2
n34					26	+2/-3	23	±2
n38							23	±2
n39					26	+2/-3	23	±2
n40					26	+2/-3	23	±2
n41			29⁵	+2/-3³	26	+2/-3³	23	±2³
n47							23	±2
n48							23	+2/-3
n50							23	±2
n51							23	±2
n53							23	±2
n65							23	±2
n66							23	±2
n70							23	±2
n71							23	+2/-2.5
n74							23	±2
n77			29⁵	+2/-3	26	+2/-3	23	+2/-3
n78			29⁵	+2/-3	26	+2/-3	23	+2/-3
n79			29⁵	+2/-3	26	+2/-3	23	+2/-3
n80							23	±2³
n81							23	±2
n82							23	±2
n83							23	+2/-2.5
n84							23	±2
n85							23	±2³
n86							23	±2
n89							23	±2
n91							23	±2^{3, 4}
n92							23	±2^{3, 4}
n93							23	±2^{3, 4}
n94							23	±2^{3, 4}
n95					26	+2/-3	23	±2
n97					26	+2/-3	23	±2
n98					26	+2/-3	23	±2
n99							23	+2/-3³
n100							23	±2
n101							23	±2
n104					26	+2/-3	23	+2/-3
NOTE 1: P_PowerClass is the maximum UE power specified without taking into account the tolerance NOTE 2: Powerclass 3 is default power class unless otherwise stated NOTE 3: Refers to the transmission bandwidths confined within F_{UL_low} and F_{UL_low} + 4 MHz or F_{UL_high} – 4 MHz and F_{UL_high}, the maximum output power requirement is relaxed by reducing the lower tolerance limit by 1.5 dB. NOTE 4: The maximum output power requirement is relaxed by reducing the lower tolerance limit by 0.3 dB NOTE 5: Achieved via dual Tx NOTE 6: Generally, PC1 UE is not targeted for smartphone form factor. The UE power class 1 requirements for Band n14 are applicable for public safety scenario only.

If a UE supports a different power class than the default UE power class for the band and the supported power class enables the higher maximum output power than that of the default power class:

– if the field of UE capability maxUplinkDutyCycle-PC2-FR1 is absent and the field of UE capability maxUplinkDutyCycle-PC1dot5-MPE-FR1 is absent and the percentage of uplink symbols transmitted in a certain evaluation period is larger than 50% (The exact evaluation period is no less than one radio frame); or

– if the field of UE capability maxUplinkDutyCycle-PC2-FR1 is not absent and the percentage of uplink symbols transmitted in a certain evaluation period is larger than maxUplinkDutyCycle-PC2-FR1 as defined in TS 38.306 (The exact evaluation period is no less than one radio frame); or

– if the field of UE capability maxUplinkDutyCycle-PC1dot5-MPE-FR1 is not absent and half the percentage of uplink symbols transmitted in a certain evaluation period is larger than maxUplinkDutyCycle-PC1dot5-MPE-FR1 as defined in TS 38.306 (The exact evaluation period is no less than one radio frame); or

– if the IE P-Max as defined in TS 38.331 [7] is provided and set to the maximum output power of the default power class or lower;

– shall apply all requirements for the default power class to the supported power class and set the configured transmitted power as specified in clause 6.2.4;

– else if the UE does not support a power class with higher maximum output power than PC2; or

– if the field of UE capability maxUplinkDutyCycle-PC2-FR1 is absent and the field of UE capability maxUplinkDutyCycle-PC1dot5-MPE-FR1 is absent and the percentage of uplink symbols transmitted in a certain evaluation period is larger than 25% (The exact evaluation period is no less than one radio frame); or

– if the field of UE capability maxUplinkDutyCycle-PC2-FR1 is not absent and the percentage of uplink symbols transmitted in a certain evaluation period is larger than 0.5*maxUplinkDutyCycle-PC2-FR1 (The exact evaluation period is no less than one radio frame); or

– if the field of UE capability maxUplinkDutyCycle-PC1dot5-MPE-FR1 is not absent and the percentage of uplink symbols transmitted in a certain evaluation period is larger than maxUplinkDutyCycle-PC1dot5-MPE-FR1 as defined in TS 38.306 (The exact evaluation period is no less than one radio frame); or

– if the IE P-Max as defined in TS 38.331 [7] is provided and set to the maximum output power of the power class 2 or lower;

– shall apply all requirements for power class 2 to the supported power class and set the configured transmitted power as specified in clause 6.2.4;

– else shall apply all requirements for the supported power class and set the configured transmitted power as specified in clause 6.2.4.

6.2.1I Void

6.2.2 UE maximum output power reduction

UE is allowed to reduce the maximum output power due to higher order modulations and transmit bandwidth configurations. For UE power class 2 and 3 and UE power class 1, the allowed maximum power reduction (MPR) is defined in Table 6.2.2-2, Table 6.2.2-1 and Table 6.2.2-5, respectively for channel bandwidths ≤ 100 MHz. For UE power class 1.5, the allowed maximum power reduction (MPR) is defined in Table 6.2D.2-2 and Table 6.2D.2-3 in accordance with the indicated modifiedMPR-Behavior specified in Table L.1-1 for channel bandwidths ≤ 100 MHz. . When A UE that indicates PC1.5 for a given band is limited to PC2 by the rules in clause 6.2.1, the MPR requirements in Table 6.2.2-2 apply.

If the relative channel bandwidth ≤ 4% for TDD bands or ≤ 3% for FDD band, the ∆MPR is set to zero.

If the relative channel bandwidth > 4% for TDD bands or > 3% for FDD bands, the ∆MPR is defined in Table 6.2.2-3.

Where relative channel bandwidth = 2*BW_Channel/ (F_{UL_low} + F_{UL_high})

The allowed MPR for SRS, PUCCH formats 0, 1, 3 and 4, and PRACH shall be as specified for QPSK modulated DFT-s-OFDM of equivalent RB allocation. The allowed MPR for PUCCH format 2 shall be as specified for QPSK modulated CP-OFDM of equivalent RB allocation.

Table 6.2.2-1 Maximum power reduction (MPR) for power class 3

Modulation		MPR (dB)
		Edge RB allocations	Outer RB allocations	Inner RB allocations
DFT-s-OFDM	Pi/2 BPSK	≤ 3.5¹	≤ 1.2¹	≤ 0.2¹
		≤ 0.5²	≤ 0.5²	0²
	Pi/2 BPSK w Pi/2 BPSK DMRS	≤ 0.5²	0²	0²
	QPSK	≤ 1		0
	16 QAM	≤ 2		≤ 1
	64 QAM	≤ 2.5
	256 QAM	≤ 4.5
CP-OFDM	QPSK	≤ 3		≤ 1.5
	16 QAM	≤ 3		≤ 2
	64 QAM	≤ 3.5
	256 QAM	≤ 6.5
NOTE 1: Applicable for UE operating in TDD mode with Pi/2 BPSK modulation and UE indicates support for UE capability powerBoosting-pi2BPSK and if the IE powerBoostPi2BPSK is set to 1 and 40 % or less slots in radio frame are used for UL transmission for bands n40, n41, n77, n78 and n79. The reference power of 0 dB MPR is 26 dBm. NOTE 2: Applicable for UE operating in FDD mode, or in TDD mode in bands other than n40, n41, n77, n78 and n79 with Pi/2 BPSK modulation and if the IE powerBoostPi2BPSK is set to 0 and if more than 40 % of slots in radio frame are used for UL transmission for bands n40, n41, n77, n78 and n79.

Table 6.2.2-2 Maximum power reduction (MPR) for power class 2

Modulation		MPR (dB)
		Edge RB allocations	Outer RB allocations	Inner RB allocations
DFT-s-OFDM	Pi/2 BPSK	≤ 3.5	≤ 0.5	0
	QPSK	≤ 3.5	≤ 1	0
	16 QAM	≤ 3.5	≤ 2	≤ 1
	64 QAM	≤ 3.5	≤ 2.5
	256 QAM	≤ 4.5
CP-OFDM	QPSK	≤ 3.5	≤ 3	≤ 1.5
	16 QAM	≤ 3.5	≤ 3	≤ 2
	64 QAM	≤ 3.5
	256 QAM	≤ 6.5

Table 6.2.2-3: ∆MPR

NR Band	Power class	25 MHz, 30 MHz	∆MPR (dB)
n28 and n83	Power class 3	30 MHz	0.5
n40 and n97	Power class 3 and power class 2	100 MHz	1

Table 6.2.2-4 Void

Table 6.2.2-4a Void

Table 6.2.2-5 Maximum power reduction (MPR) for power class 1

Modulation		MPR (dB)
		Edge RB allocations	Outer RB allocations	Inner RB allocations
DFT-s-OFDM	Pi/2 BPSK	≤ 0.5	≤ 0.5	0
	Pi/2 BPSK w Pi/2 BPSK DMRS	≤ 0.5	0	0
	QPSK	≤ 1		0
	16 QAM	≤ 2		≤ 1
	64 QAM	≤ 2.5
	256 QAM	≤ 4.5
CP-OFDM	QPSK	≤ 3		≤ 1.5
	16 QAM	≤ 3		≤ 2
	64 QAM	≤ 3.5
	256 QAM	≤ 6.5

Where the following parameters are defined to specify valid RB allocation ranges for Outer and Inner RB allocations:

N_RBis the maximum number of RBs for a given Channel bandwidth and sub-carrier spacing defined in Table 5.3.2-1. RB_Start,Low = max(1, floor(L_CRB/2))

where max() indicates the largest value of all arguments and floor(x) is the greatest integer less than or equal to x.

RB_Start,High = N_RB – RB_Start,Low – L_CRB

The RB allocation is an Inner RB allocation if the following conditions are met

RB_Start,Low≤ RB_Start≤ RB_Start,High,and

L_CRB≤ ceil(N_RB/2)

where ceil(x) is the smallest integer greater than or equal to x.

An Edge RB allocation is the one for which the RB(s) is (are) allocated at the lowermost or uppermost edge of the channel L_CRB ≤ 2 RBs.

The RB allocation is an Outer RB allocation for all other allocations which are not an Inner RB allocation or Edge RB allocation.

If CP-OFDM allocation satisfies following conditions, it is considered as almost contiguous allocation

N_{RB_gap} / (N_{RB_alloc} + N_{RB_gap} ) ≤ 0.25

and N_{RB_alloc} + N_{RB_gap}is larger than 106, 51 or 24 RBs for 15 kHz, 30 kHz or 60 kHz SCS respectively where N_{RB_gap} is the total number of unallocated RBs between allocated RBs and N_{RB_alloc} is the total number of allocated RBs. The size and location of allocated and unallocated RBs are restricted by RBG parameters specified in clause 6.1.2.2 of TS 38.214 [10]. For these almost contiguous signals in power class 2 and 3, the allowed maximum power reduction defined in Table 6.2.2-2 and Table 6.2.2-1 are increased by

CEIL{ 10 log₁₀(1 + N_{RB_gap /}N_{RB_alloc}), 0.5 } dB,

where CEIL{x,0.5} means x rounding upwards to closest 0.5dB. The parameters of RB_Start,Low and RB_Start,High to specify valid RB allocation ranges for Outer and Inner RB allocations are defined as following:

RB_Start,Low = max(1, floor((N_{RB_alloc} + N_{RB_gap})/2))

RB_Start,High = N_RB – RB_Start,Low – N_{RB_alloc} –N_{RB_gap}

For the UE maximum output power modified by MPR, the power limits specified in clause 6.2.4 apply.

6.2.3 UE additional maximum output power reduction

6.2.3.1 General

Additional emission requirements can be signalled by the network. Each additional emission requirement is associated with a unique network signalling (NS) value indicated in RRC signalling by an NR frequency band number of the applicable operating band and an associated value in the field additionalSpectrumEmission. Throughout this specification, the notion of indication or signalling of an NS value refers to the corresponding indication of an NR frequency band number of the applicable operating band, the IE field freqBandIndicatorNR and an associated value of additionalSpectrumEmission in the relevant RRC information elements [7].

To meet the additional requirements, additional maximum power reduction (A-MPR) is allowed for the maximum output power as specified in Table 6.2.1-1. Unless stated otherwise, the total reduction to UE maximum output power is max(MPR, A-MPR) where MPR is defined in clause 6.2.2. Outer and inner allocation notation used in clause 6.2.3 is defined in clause 6.2.2. Unless stated otherwise, Edge RB allocations get the same AMPR as Outer RB allocations. In absence of modulation and waveform types the A-MPR applies to all modulation and waveform types.

Table 6.2.3.1-1 specifies the additional requirements with their associated network signalling values and the allowed A-MPR and applicable operating band(s) for each NS value. In case of a power class 3 UE, when IE powerBoostPi2BPSK is set to 1, power class 2 A-MPR values apply. The mapping of NR frequency band numbers and values of the additionalSpectrumEmission to network signalling labels is specified in Table 6.2.3.1-1A.

For almost contiguous allocations in CP-OFDM waveforms in power class 3, the allowed A-MPR defined in clause 6.2.3 is increased by CEIL{ 10 log₁₀(1 + N_{RB_gap /}N_{RB_alloc}), 0.5 } dB, where CEIL{x, 0.5} means x rounding upwards to closest 0.5dB, N_{RB_gap} is the total number of unallocated RBs between allocated RBs and N_{RB_alloc} is the total number of allocated RBs, and the parameter L_CRB is replaced by N_{RB_alloc} + N_{RB_gap} in specifying the RB allocation regions.

Unless otherwise specified, pi/2 BPSK in following A-MPR tables refers to both variants of pi/2 BPSK referenced in 6.2.2 tables 6.2.2-1.

Table 6.2.3.1-1: Additional maximum power reduction (A-MPR)

Network signalling label	Requirements (clause)	NR Band	Channel bandwidth (MHz)	Resources blocks (N_RB)	A-MPR (dB)
NS_01		Table 5.2-1 (NOTE 8)	5, 10, 15, 20, 25, 30, 40, 50, 60, 70, 80, 90, 100	Table 5.3.2-1	N/A
NS_03	6.5.2.3.3	n2, n25, n66, n70, n86			Clause 6.2.3.7
NS_03U	6.5.2.3.3, 6.5.2.4.2	n2, n25, n66, n86 (NOTE 1)			Clause 6.2.3.7
NS_04	6.5.2.3.2, 6.5.3.3.1	n41, n90	5⁹, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100		Clause 6.2.3.2
NS_05	6.5.3.3.4	n1, n65, n84 (NOTE 1)	5, 10, 15, 20(NOTE 2)		Clause 6.2.3.4 (NOTE 7)
NS_05U	6.5.3.3.4, 6.5.2.4.2	n1, n65, n84	5, 10, 15, 20		Clause 6.2.3.4 (NOTE 7)
NS_06	6.5.2.3.4	n12, n85	5, 10, 15		N/A
		n14	5,10
NS_07	6.5.3.3.26	n13	5,10	Table 6.2.3.29-1	Table 6.2.3.29-2
NS_10		n20, n82	15, 20	Table 6.2.3.3-1	Table 6.2.3.3-1
NS_12	6.5.3.3.17	n26	5,10	Table 6.2.3.21-1	Table 6.2.3.21-2
NS_13	6.5.3.3.18	n26	5	Table 6.2.3.22-1	Table 6.2.3.22-2
NS_14	6.5.3.3.19	n26	10,15,20	Table 6.2.3.23-1	Table 6.2.3.23-2
NS_15	6.5.3.3.20	n26	5,10,15,20	Table 6.2.3.24-1	Table 6.2.3.24-2
NS_17	6.5.3.3.2	n28, n83	5,10	Table 5.3.2-1	N/A
NS_18	6.5.3.3.3	n28, n83	5		Table 6.2.3.13-1, A1
			10, 15, 20		Table 6.2.3.13-1, A2
			25, 30		Table 6.2.3.13-1, A3, A4, A5
NS_21	6.5.3.3.12	n30	5, 10		Clause 6.2.3.14
NS_24	6.5.3.3.13	n65 (NOTE 4)	5, 10, 15, 20	Table 6.2.3.15-1	Clause 6.2.3.15
NS_27	6.5.2.3.8 6.5.3.3.14	n48	5, 10, 15, 20, 30, 40	Table 6.2.3.16-1	Table 6.2.3.16-2
NS_35	6.5.2.3.1	n71	5, 10, 15, 20	Table 5.3.2-1	N/A
NS_37	6.5.3.3.6	n74 (NOTE 3)	10, 15	Table 6.2.3.8-1	Table 6.2.3.8-1
NS_38	6.5.3.3.7	n74	5, 10, 15, 20	Table 6.2.3.9-1	Table 6.2.3.9-1
NS_39	6.5.3.3.8	n74	10, 15, 20	Table 6.2.3.10-1	Table 6.2.3.10-1
NS_40	6.5.3.3.9	n51	5		Table 6.2.3.5-1
NS_41	6.5.3.3.10	n50	5, 10, 15, 20, 30, 40, 50, 60		Table 6.2.3.11-1
NS_42	6.5.3.3.11	n50	5, 10, 15, 20, 30, 40, 50, 60		Table 6.2.3.12-1
NS_43	6.5.3.3.5	n8, n81	5, 10, 15		Clause 6.2.3.6
NS_43U	6.5.3.3.5, 6.5.2.4.2	n8, n81 (NOTE 1)	5, 10, 15		Clause 6.2.3.6
NS_44	6.5.3.3.24	n38	25, 30, 40	Table 6.2.3.20-1	Table 6.2.3.20-1
NS_45	6.5.3.3.21	n53	5, 10		Clause 6.2.3.25
NS_46	6.5.3.3.25	n7	25, 30, 35, 40, 50	Table 6.2.3.17-1	Table 6.2.3.17-2
NS_47	6.5.3.3.15	n41 (Note 5)	30	Table 6.2.3.18-1	Table 6.2.3.18-2
NS_48	6.5.3.3.22	n1 and n84	10, 15, 20, 25, 30, 40, 45, 50	Table 6.2.3.26-1, Table 6.2.3.26-3	Table 6.2.3.26-2, Table 6.2.3.26-4 (NOTE 7)
NS_49	6.5.3.3.23	n1 and n84	10, 15, 20, 25, 30, 40, 45, 50	Table 6.2.3.27-1, Table 6.2.3.27-3	Table 6.2.3.27-2, Table 6.2.3.27-4 (NOTE 7)
NS_50	6.5.3.3.16	n39, n98	10, 15, 20, 25, 30, 40		Clause 6.2.3.19
NS_51	6.5.3.3.22	n65	50	Table 6.2.3.28-1	Table 6.2.3.28-2
NS_55	NOTE 6	n77	10, 15, 20, 25, 30, 40, 50, 60, 70, 80, 90, 100		N/A
NS_56	6.5.3.3.27	n24, n99	5, 10		Clause 6.2.3.30
NS_57	NOTE 10	n77	10, 15, 20, 25, 30, 40, 50, 60, 70, 80, 90, 100		N/A
NS_100	6.5.2.4.2	n1, n2, n3, n5, n8, n18, n25, n26, n65, n66, n80, n81, n84, n86, n89 (NOTE 1)			Table 6.2.3.1-2
NOTE 1: This NS can be signalled for NR bands that have UTRA services deployed. NOTE 2: No A-MPR is applied for 5 MHz BW_Channel where the upper channel edge is ≥ 1930 MHz,10 MHz BW_Channel where the upper channel edge is ≥ 1950 MHz and 15 MHz BW_Channel where the upper channel edge is ≥ 1955 MHz and 20 MHz BW_Channel where the upper channel edge is ≥ 1970 MHz. NOTE 3: Applicable when the NR carrier is within 1447.9 – 1462.9 MHz. NOTE 4: Applicable when the upper edge of the channel bandwidth frequency is greater than 1980 MHz. NOTE 5: Applicable when the NR carrier is within 2545 – 2575 MHz. NOTE 6: This NS value is applicable for cells in the range 3450 – 3550 MHz for operations in the USA. This NS value does not indicate any additional spurious emission and maximum output power reduction requirements. NOTE 7: The 1Tx architecture is assumed. For power class 2 UE indicating txDiversity-r16 [TS 38.306], the additional relaxation of [2] dB is applicable. NOTE 8: The NS_01 label with the field additionalPmax [7] absent is default for all NR bands. NOTE 9: 5 MHz only applies to n90, not n41 NOTE 10: This NS value is applicable for cells in the range 3650-3980 MHz for operations in Canada. This NS value does not indicate any additional spurious emission and maximum output power reduction requirements.

Table 6.2.3.1-1A: Mapping of network signalling label

NR band	Value of additionalSpectrumEmission
	0	1	2	3	4	5	6	7
n1	NS_01	NS_100	NS_05	NS_05U	NS_48	NS_49
n2	NS_01	NS_100	NS_03	NS_03U
n3	NS_01	NS_100
n5	NS_01	NS_100
n7	NS_01	NS_46
n8	NS_01	NS_100	NS_43	NS_43U
n12	NS_01	NS_06
n13	NS_01	NS_06	NS_07
n14	NS_01	NS_06
n18	NS_01	NS_100
n20	NS_01	Void	NS_10
n24	NS_01	NS_56
n25	NS_01	NS_100	NS_03	NS_03U
n26	NS_01	NS_100	NS_12	NS_13	NS_14	NS_15
n28	NS_01	NS_17	NS_18
n30	NS_01	NS_21
n34	NS_01
n38	NS_01	NS_44
n39	NS_01	NS_50
n40	NS_01
n41	NS_01	NS_04	NS_47
n48	NS_01	NS_27
n50	NS_01	NS_41	NS_42
n51	NS_01	NS_40
n53	NS_01	NS_45
n65	NS_01	NS_24	NS_100	NS_05	NS_05U	NS_51
n66	NS_01	NS_100	NS_03	NS_03U
n70	NS_01	NS_03
n71	NS_01	NS_35
n74	NS_01	NS_37	NS_38	NS_39
n77	NS_01	NS_55	NS_57
n78	NS_01
n79	NS_01
n80	NS_01	NS_100
n81	NS_01	NS_100	NS_43	NS_43U
n82	NS_01	Void	NS_10
n83	NS_01	NS_17	NS_18
n84	NS_01	NS_100	NS_05	NS_05U
n85	NS_01	NS_06
n86	NS_01	NS_100	NS_03	NS_03U
n89	NS_01	NS_100
n91	NS_01
n92	NS_01
n93	NS_01
n94	NS_01
n95	NS_01
n97	NS_01
n98	NS_01	NS_50
n99	NS_01	NS_56
n104²	NS_01
NOTE 1: additionalSpectrumEmission corresponds to an information element of the same name defined in clause 6.3.2 of TS 38.331 [7]. NOTE 2: Additional emission requirements and associated network signalling for Band n104 are not defined in this version of the specification but may be forthcoming in the future.

Table 6.2.3.1-2: A-MPR for NS_100 (UTRA protection)

Modulation/Waveform		Outer (dB)
DFT-s-OFDM	Pi/2 BPSK	≤ 2
	QPSK	≤ 2
	16 QAM	≤ 2.5
	64 QAM	≤ 3
	256 QAM	≤ 4.5
CP-OFDM	QPSK	≤ 4
	16 QAM	≤ 4
	64 QAM	≤ 4
	256 QAM	≤ 6.5
NOTE 1: Void NOTE 2: Void

6.2.3.2 A-MPR for NS_04

For NS_04, A-MPR is not added to MPR. Also, when NS_04 is signalled, MPR shall be set to zero in the P_CMAX equations to avoid double counting MPR.

Allowed maximum power reduction is defined as A-MPR = max(MPR, A-MPR’),

Note that A-MPR’ = 0 dB means only MPR is applied,

where A-MPR’ is defined as

if RB_start ≤ f_{start,max,IMD3} / (12⋅SCS) and L_CRB ≤ AW_max,IMD3 / (12⋅SCS) and F_C – BW_Channel/2 < F_{UL_low} + offset_IMD3,
then

the A-MPR’ is defined according to Table 6.2.3.2-2 PC3_A2 relative to 23 dBm for power class 3, PC2_A4 relative to 26 dBm for power class 2, and PC1.5_A6 relative to 29 dBm for power class 1.5,

else,

if RB_start ≤ L_CRB/2 + _start / (12⋅SCS) and L_CRB ≤ AW_max,regrowth / (12⋅SCS) and F_C – BW_Channel/2 < F_{UL_low} + offset_regrowth,
then

the A-MPR’ is defined according to Table 6.2.3.2-2 PC3_A1 relative to 23 dBm for power class 3, PC2_A3 relative to 26 dBm for power class 2, , and PC1.5_A5 relative to 29 dBm for power class 1.5,

else

A-MPR’ = 0 dB and apply MPR.

With the parameters defined in Table 6.2.3.2-1.

Table 6.2.3.2-1: Parameters for region edges and frequency offsets

Parameter	Symbol	Value			Related condition
		CP-OFDM		DFT-s-OFDM
Max allocation start in IMD3 region	f_{start,max,IMD3}	0.33 BW_Channel			RB_start ≤ f_{start,max,IMD3} / (12SCS)
Max allocation BW in IMD3 region	AW_max,IMD3	4 MHz			L_CRB ≤ AW_max,IMD3 / (12SCS)
Freq. offset required to avoid A-MPR in IMD3 region	offset_IMD3	BW_Channel – 6 MHz			F_C – BW_Channel/2 ≥ F_{UL_low} + offset_IMD3
Right edge of regrowth region	_start	0.08 BW_Channel			RB_start ≤ L_CRB/2 + _start / (12SCS)
Max allocation BW in regrowth region	AW_max,regrowth	100 MHz			L_CRB ≤ Min(L_CRB,Max,AW_max,regrowth / (12SCS))
Freq. offset required to avoid A-MPR in regrowth region	offset_regrowth	Max (10 MHz, 0.25* BW_Channel MHz)	Max (10 MHz, 0.45* BW_Channel MHz)		F_C – BW_Channel/2 ≥ F_{UL_low} + offset_regrowth

Table 6.2.3.2-2: A-MPR’ values Access

Modulation/Waveform		A-MPR’ (dB)
		PC3_A1	PC3_A2	PC2_A3	PC2_A4	PC1.5_A5¹	PC1.5_A6¹
DFT-s-OFDM	Pi/2-BPSK	≤ 3.5	≤ 3.5	≤ 3.5	≤ 5.5	≤ 5	≤ 7
	QPSK	≤ 4	≤ 4	≤ 4.5	≤ 6	≤ 6	≤ 7.5
	16 QAM	≤ 4	≤ 4	≤ 5	≤ 6	≤ 6.5	≤ 7.5
	64 QAM	≤ 4	≤ 4.5	≤ 5	≤ 6.5	≤ 6.5	≤ 8
	256 QAM	≤ 4.5	≤ 6	≤ 6.5	≤ 8	≤ 8	≤ 9.5
CP-OFDM	QPSK	≤ 5.5	≤ 5.5	≤ 6.5	≤ 7.5	≤ 8	≤ 9
	16 QAM	≤ 5.5	≤ 5.5	≤ 6.5	≤ 7.5	≤ 8	≤ 9
	64 QAM	≤ 5.5	≤ 5.5	≤ 6.5	≤ 7.5	≤ 8	≤ 9
	256 QAM	≤ 6.5	≤ 8	≤ 7.5	≤ 10	≤ 9	≤ 11.5
NOTE 1: PC1.5 assumes dual Tx.

6.2.3.3 A-MPR for NS_10

Table 6.2.3.3-1: A-MPR for NS_10

Channel bandwidth (MHz)	Parameters	Region A
15	RB_start	0 – 10
	L_CRB (RBs)	1 – 20
	A (dB)	≤ 3⁶
20	RB_start	0 – 15
	L_CRB (RBs)	1 – 20
	A (dB)	≤ 6⁶
NOTE 1: RB_start indicates the lowest RB index of transmitted resource blocks NOTE 2: L_CRB is the length of a contiguous resource block allocation NOTE 3: For intra-subframe frequency hopping which intersects Region A, notes 1 and 2 apply on a per slot basis. For intra-slot or intra-subslot frequency hopping which intersects Region A, notes 1 and 2 apply on a T_{no_hopping} basis. NOTE 4: For intra-subframe frequency hopping which intersect Region A, the larger A-MPR value may be applied for both slots in the subframe. For intra-slot frequency hopping which intersects Region A, the larger A-MPR value may be applied for the slot. For intra-subslot frequency hopping which intersects Region A, the larger A-MPR value may be applied for the subslot. NOTE 5: The A-MPR for DFT-s-OFDM is the total backoff and is obtained by taking the maximum value of MPR + A-MPR specified in Table 6.2.3-1 and Table 6.2.4-1 in TS 36.101 and A value specified in Table 6.2.3.3-1. NOTE 6: The A-MPR for CP-OFDM is the total backoff and is obtained by adding the A value in Table 6.2.3.3-1 to the corresponding MPR specified in Table 6.2.2-1.

6.2.3.4 A-MPR for NS_05 and NS_05U

Table 6.2.3.4-1: A-MPR regions for NS_05 and NS_05U (Power Class 3)

Channel Bandwidth (MHz)	Carrier Centre Frequency, Fc (MHz)	Region A			Region B			Region C
		RB_start	L_CRB	A-MPR	RB_start	L_CRB	A-MPR	RB_start	L_CRB	A-MPR
5	1922.5 ≤ F_C < 1927.5	< 1.62 MHz/12/SCS	> 2.52 MHz/12/SCS	A3
10	1925 ≤ F_C < 1935	≤ 1.62 MHz/12/SCS	> 0	A1	> 1.62 MHz/12/SCS ≤ 3.60 MHz/12/SCS	> 5.4 MHz/12/SCS	A7	≥ 7.2 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A2
10	1935 ≤ F_C < 1945		> 4.5 MHz/12/SCS	A4
15	1927.5 ≤ F_C < 1932.5	≤ 3.24MHz/12/SCS	> 0	A1	> 3.24 MHz/12/SCS ≤ 5.40 MHz/12/SCS	> 8.1 MHz/12/SCS	A7	≥ 10.08 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A2
15	1932.5 ≤ F_C < 1942.5	< 1.62 MHz/12/SCS	> 0	A1				≥ 12.24 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A2
15	1942.5 ≤ F_C < 1947.5		> 7.2 MHz/12/SCS	A5
20	1930 ≤ F_C < 1950	≤ 4.86 MHz/12/SCS	> 0	A1	> 4.86 MHz/12/SCS ≤ 7.20 MHz/12/SCS	> 9.0 MHz/12/SCS	A7	≥ 13.68 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A2
20	1950 ≤ F_C < 1960		> 9.0 MHz/12/SCS	A6
NOTE 1: The A-MPR values are specified in Table 6.2.3.4-2, 6.2.3.4-3 and 6.2.3.4-10. NOTE 2: Void

Table 6.2.3.4-2: A-MPR for NS_05 and NS_05U (Power Class 3)

Modulation/Waveform		A1 (dB)	A2 (dB)	A3 (dB)
		Outer/Inner	Outer/Inner	Outer
DFT-s-OFDM	Pi/2 BPSK	≤ 10	≤ 5	≤ 4
	QPSK	≤ 10	≤ 5	≤ 4.5
	16 QAM	≤ 10	≤ 5	≤ 6
	64 QAM	≤ 11	≤ 5	≤ 6
	256 QAM	≤ 13	≤ 5	≤ 7
CP-OFDM	QPSK	≤ 10	≤ 5	≤ 7.5
	16 QAM	≤ 10	≤ 5	≤ 7.5
	64 QAM	≤ 11	≤ 5	≤ 8
	256 QAM	≤ 13		≤ 10
NOTE 1: Void NOTE 2: Void

Table 6.2.3.4-3: A-MPR for NS_05 (Power Class 3)

Modulation/Waveform		A4 (dB)		A5 (dB)	A6 (dB)		A7 (dB)
		Outer	Inner	Outer	Outer	Inner	Outer/Inner
DFT-s-OFDM	Pi/2 BPSK	≤ 1	N/A	≤ 1	≤ 1	N/A	≤ 6
	QPSK			≤ 1.5	≤ 1.5		≤ 6
	16 QAM						≤ 6
	64 QAM						≤ 6
	256 QAM						≤ 6
CP-OFDM	QPSK	≤ 3.5		≤ 3.5	≤ 3.5		≤ 6
	16 QAM	≤ 3.5		≤ 3.5	≤ 3.5		≤ 6
	64 QAM						≤ 6
	256 QAM						≤ 6
NOTE 1: Void NOTE 2: Void

Table 6.2.3.4-4 – Table 6.2.3.4-9: Void

Table 6.2.3.4-10: A-MPR for modulation and waveform type for NS_05U (Power Class 3)

Modulation/Waveform		A4 (dB)		A5 (dB)	A6 (dB)		A7 (dB)
		Outer	Inner	Outer	Outer	Inner	Outer/Inner
DFT-s-OFDM	Pi/2 BPSK	≤ 2	N/A	≤ 2	≤ 2	N/A	≤ 6
	QPSK	≤ 2		≤ 2	≤ 2		≤ 6
	16 QAM	≤ 2.5		≤ 2.5	≤ 2.5		≤ 6
	64 QAM	≤ 3		≤ 3	≤ 3		≤ 6
	256 QAM	≤ 4.5		≤ 4.5	≤ 4.5		≤ 6
CP-OFDM	QPSK	≤ 4		≤ 4	≤ 4		≤ 6
	16 QAM	≤ 4		≤ 4	≤ 4		≤ 6
	64 QAM	≤ 4		≤ 4	≤ 4		≤ 6
	256 QAM	≤ 6.5		≤ 6.5	≤ 6.5		≤ 6.5
NOTE 1: Void NOTE 2: Void

Table 6.2.3.4-11: A-MPR regions for NS_05 and NS_05U (Power Class 2)

Channel Bandwidth (MHz)	Carrier Centre Frequency, Fc (MHz)	Region A			Region B			Region C
		RB_start	L_CRB	A-MPR	RB_start	L_CRB	A-MPR	RB_start	L_CRB	A-MPR
5	1922.5 ≤ F_C < 1927.5	< 1.98 MHz/12/SCS	> 1.44 MHz/12/SCS	A3	< 0.72 MHz/12/SCS	≤ 1.44 MHz/12/SCS	A4
10	1925 ≤ F_C < 1935	< 1.98 MHz/12/SCS	> 0	A1	≥ 1.98 MHz/12/SCS	> max(0, RBstart-1.08 MHz/12/SCS)	A7	≥ 7.2 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A1
10	1925 ≤ F_C < 1935				≥ 1.98, ≤2.7 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A8
10	1935 ≤ F_C < 1945		> 3.96 MHz/12/SCS	A4
15	1927.5 ≤ F_C < 1932.5	< 3.6 MHz/12/SCS	> 0	A1	≥ 3.6 MHz/12/SCS	> max(0, RBstart-1.8 MHz/12/SCS)	A7	≥ 10.08 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A1
15	1927.5 ≤ F_C < 1932.5				≥ 3.6, ≤4.68 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A8
15	1932.5 ≤ F_C < 1942.5	< 1.98 MHz/12/SCS	> 0	A1	≥ 1.98 MHz/12/SCS	> max(0, RBstart+1.08 MHz/12/SCS)	A7	≥ 12.24 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A1
15	1942.5 ≤ F_C < 1947.5		> 5.04 MHz/12/SCS	A5
20	1930 ≤ F_C < 1950	< 5.04 MHz/12/SCS	> 0	A1	≥ 5.04 MHz/12/SCS	> max(0, RBstart-3.6 MHz/12/SCS)	A7	≥ 13.68 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A1
20	1930 ≤ F_C < 1950				≥ 5.04, ≤6.66 MHz/12/SCS	≤ 1.08 MHz/12/SCS	A8
20	1950 ≤ F_C < 1960		> 9.0 MHz/12/SCS	A6
NOTE 1: The A-MPR values are specified in Table 6.2.3.4-12 and 6.2.3.4-13. NOTE 2: Void

Table 6.2.3.4-12: A-MPR for NS_05 and NS_05U (Power Class 2)

Modulation/Waveform		A1 (dB)	A2 (dB)	A3 (dB)
		Outer/Inner	Outer/Inner	Outer	Inner
DFT-s-OFDM	Pi/2 BPSK	≤ [13]	≤ 6	≤ 6.5	≤ 2
	QPSK	≤ [13]	≤ 6	≤ 7	≤ 2
	16 QAM	≤ [13]	≤ 6	≤ 8.5	≤ 2
	64 QAM	≤ [14]	≤ 6	≤ 9	≤ 2
	256 QAM	≤ [15]	≤ 6	≤ 9.5
CP-OFDM	QPSK	≤ [13]	≤ 6	≤ 10	≤ 4
	16 QAM	≤ [13]	≤ 6	≤ 10	≤ 4
	64 QAM	≤ [14]	≤ 6	≤ 10	≤ 4
	256 QAM	≤ [16]		≤ 10
NOTE 1: Void NOTE 2: Void

Table 6.2.3.4-13: A-MPR for NS_05 and NS_05U (Power Class 2)

Modulation/Waveform		A4 (dB)		A5 (dB)		A6 (dB)		A7 (dB)	A8 (dB)
		Outer	Inner	Outer	Inner	Outer	Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	Pi/2 BPSK	≤ 3	N/A	≤ 2		≤ 2	N/A	≤ 8	≤ 3.5
	QPSK	≤ 3		≤ 2		≤ 2		≤ 8	≤ 3.5
	16 QAM	≤ 3.5		≤ 2.5		≤ 2		≤ 8	≤ 3.5
	64 QAM	≤ 3.5		≤ 2.5				≤ 8	≤ 3.5
	256 QAM							≤ 8
CP-OFDM	QPSK	≤ 4.5		≤ 4.5		≤ 4		≤ 8.5	≤ 3.5
	16 QAM	≤ 4.5		≤ 4.5		≤ 4		≤ 8.5	≤ 3.5
	64 QAM	≤ 5		≤ 5	≤ 5	≤ 4		≤ 8.5
	256 QAM							≤ 8.5
NOTE 1: Void NOTE 2: Void

6.2.3.5 A-MPR for NS_40

Table 6.2.3.5-1: A-MPR for NS_40

Modulation/ Waveform		A (dB)
		Channel bandwidth: 5 MHz
		Outer	Inner
DFT-s-OFDM	QPSK	≤ 15.5	≤ 12
	16 QAM	≤ 14.5	≤ 11
	64 QAM	≤ 14.5	≤ 10
	256 QAM	≤ 12.5	≤ 7.5
CP-OFDM	QPSK	≤ 14.5	≤ 10
	16 QAM	≤ 14.5	≤ 10
	64 QAM	≤ 14	≤ 8
	256 QAM	≤ 11	≤ 5.5
NOTE 1: The A-MPR for NS_40 is the total backoff and is obtained by taking the maximum value of MPR + A-MPR specified in Table 6.2.3-1 and Table 6.2.4-30a in TS 36.101 and MPR + A specified in Table 6.2.2-1 and Table 6.2.3.5-1.

6.2.3.6 A-MPR for NS_43 and NS_43U

Table 6.2.3.6-1: A-MPR regions for NS_43

Channel Bandwidth (MHz)	Carrier Centre Frequency, Fc (MHz)	Region A			Region B
		RB_start	L_CRB	A-MPR	RB_start	L_CRB	A-MPR
5 MHz	902.5 ≤ F_C < 912.5		> 15	A1
10 MHz	F_C = 910		> 40	A2		> 5.4 MHz/12/SCS	A4
			> 45	A3		> 7.2 MHz/12/SCS	A5
15 MHz	F_C = 907.5	< 1.8 MHz /12/SCS > 12.24 MHz/12/SCS	> 0	A6	> 1.8 MHz/12/SCS < 6.12 MHz/12/SCS	≥ 7.2 MHz/12/SCS	A6
NOTE 1: The A-MPR values are specified in Table 6.2.3.6-2. NOTE 2: 15 kHz SCS unless otherwise stated NOTE 3: Void

Table 6.2.3.6-2: A-MPR for NS_43

Modulation/Waveform

A1 (dB)

A2 (dB)

A3 (dB)

A4 (dB)

A5 (dB)

A6 (dB)

Outer

Inner

Outer

Inner

Outer

Inner

Outer

Inner

Outer

Inner

Outer /

Inner

DFT-s-OFDM

Pi/2 BPSK

N/A

≤ 1.5

N/A

≤ 9

QPSK

≤ 2

≤ 2.5

≤ 9

16 QAM

≤ 2.5

≤ 9

64 QAM

≤ 2.5

≤ 9

256 QAM

≤ 9

CP-OFDM

QPSK

≤ 3.5

≤ 4

≤ 9

16 QAM

≤ 3.5

≤ 4

≤ 9

64 QAM

≤ 4

≤ 9

256 QAM

≤ 9

Table 6.2.3.6-3: Void

When NS_43U is signalled for 5 and 10 MHz channel bandwidths A-MPR is defined in Table 6.2.3.1-2 except for DFT-s-OFDM QPSK when L_CRB > 5.4 MHz/12/SCS the A-MPR is 2.5 dB. For 15 MHz channel bandwidth Table 6.2.3.6-4 applies.

Table 6.2.3.6-4: A-MPR for NS_43U

Modulation/Waveform		15 MHz
		Outer / Inner (dB)
DFT-s-OFDM	Pi/2 BPSK	≤ 9
	QPSK	≤ 9
	16 QAM	≤ 9
	64 QAM	≤ 9
	256 QAM	≤ 9
CP-OFDM	QPSK	≤ 9
	16 QAM	≤ 9
	64 QAM	≤ 9
	256 QAM	≤ 9

6.2.3.7 A-MPR for NS_03 and NS_03U

Table 6.2.3.7-1 A-MPR for NS_03

Modulation/Waveform		Outer (dB)	Inner (dB)
DFT-s-OFDM	PI/2 BPSK	≤ 1.5	N/A
	QPSK	≤ 2
	16 QAM	≤ 3
	64 QAM	≤ 3.5
	256 QAM	≤ 5.5
CP-OFDM	QPSK	≤ 4
	16 QAM	≤ 4
	64 QAM	≤ 4.5
	256 QAM	≤ 7.5
NOTE 1: Void NOTE 2: Void

In case UE operates in a band where NS_03U applies and it receives additionalSpectrumEmission value of 3 then A-MPR values specified in Table 6.2.3.7-1 apply with an exception that DFT-s-OFDM Pi/2 BPSK A-MPR is 2 dB.

6.2.3.8 A-MPR for NS_37

Table 6.2.3.8-1: A-MPR regions for B11/B21 protection (NS_37) (1447.9 – 1462.9 MHz)

Channel Bandwidth (MHz)	Carrier Centre Frequency, Fc (MHz)	Region A (Outer/Inner)			Region B (Outer/Inner)			Region C (Outer/Inner)
		RB_start	L_CRB	A-MPR	RB_start	L_CRB	A-MPR	RB_start	L_CRB	A-MPR
10	1452.9 < F_C ≤ 1457.9	≥ 0	> 7.2 MHz/12/SCS	≤ A1	N/A	N/A	N/A	N/A	N/A	N/A
15	F_C = 1455.4	≥ 0	> 9.9 MHz/12/SCS	≤ A1	< 0.54 MHz/12/SCS	< 1.08 MHz/12/SCS	≤ A2	> 13.86 MHz/12/SCS	< 1.08 MHz/12/SCS	≤ A2
NOTE 1: The A-MPR values are specified in Table 6.2.3.8-2 NOTE 2: Void NOTE 3: Void NOTE 4: No A-MPR for SCS = 60 kHz for region B and C only.

Table 6.2.3.8-2: A-MPR for NS_37

Modulation/Waveform		A1 (dB)		A2 (dB)
		Outer	Inner	Outer/Inner
DFT-s-OFDM	Pi/2 BPSK	≤ 1	N/A	≤ 3
	QPSK	≤ 1.5		≤ 3
	16 QAM	≤ 2.5		≤ 3
	64 QAM	≤ 3		≤ 3
	256 QAM
CP-OFDM	QPSK	≤ 3.5		≤ 3
	16 QAM	≤ 3.5		≤ 3
	64 QAM
	256 QAM
NOTE 1: Void NOTE 2: Void

6.2.3.9 A-MPR for NS_38

Table 6.2.3.9-1: A-MPR for EESS (NS_38) Protection (1430 – 1470 MHz)

Channel Bandwidth (MHz)	Carrier Centre Frequency, Fc (MHz)	Region A Outer/Inner			Region B Outer/Inner
		RB_start	L_CRB	A-MPR (dB)	RB_start	RB_start+L_CRB	A-MPR (dB)
5	1432.5 ≤ FC < 1437.5	≤ -3.6 MHz/12/SCS + LCRB	≥ 3.6 MHz/12/SCS	≤ 7	_>-3.6 MHz/12/SCS + LCRB)	≤ 2.16 MHz/12/SCS	≤ 5.5
10	1435 ≤ F_C < 1442	≤ -3.6 MHz/12/SCS + L_CRB	≥ 3.6 MHz/12/SCS	≤ 12	_>-3.6 MHz/12/SCS + LCRB)	≤ 2.16 MHz/12/SCS	≤ 9
15	1437.5 ≤ F_C < 1447.5	≤ -3.6 MHz/12/SCS + L_CRB	≥ 3.6 MHz/12/SCS	≤ 13	_>-3.6 MHz/12/SCS + LCRB)	≤ 3.6 MHz/12/SCS	≤ 10
20	1440 ≤ F_C < 1450	≤ -3.6 MHz/12/SCS + L_CRB	≥ 3.6 MHz/12/SCS	≤ 13	_>-3.6 MHz/12/SCS + LCRB)	≤ 5.4 MHz/12/SCS	≤ 10
NOTE 1 – 4: Void

6.2.3.10 A-MPR for NS_39

Table 6.2.3.10-1: A-MPR for own RX (NS_39) Protection (1440 – 1470 MHz)

Channel Bandwidth, MHz	Carrier Centre Frequency, Fc, MHz	Region A (Outer/Inner)
		RB_start+L_CRB	A-MPR (dB)
10	1462 < F_C ≤ 1465	> 7.9 MHz/12/SCS	≤ 6
15	1456.3 < F_C ≤ 1462.5	> 11.2 MHz/12/SCS	≤ 6
20	1450.8 < F_C ≤ 1460	> 12.6 MHz/12/SCS	≤ 6
NOTE 1 – 4: Void

6.2.3.11 A-MPR for NS_41

Table 6.2.3.11-1: A-MPR for NS_41

Channel Bandwidth (MHz)	Carrier Centre Frequency, F_c (MHz)	Region A Outer/Inner			Region B Outer/Inner
		RB_start	L_CRB	A-MPR (dB)	RB_start+L_CRB	A-MPR (dB)
5	–	–	–	–	–	–
10	1437 ≤ F_C < 1442	≤ -4.5 MHz/12/SCS + L_CRB	> 4.5 MHz/12/SCS	≤ 9	< 1.8 MHz/12/SCS	≤ 9
15	1439.5 ≤ F_C < 1447.5	≤ -5.4 MHz/12/SCS + L_CRB	> 5.4 MHz/12/SCS	≤ 11	< 3.42 MHz/12/SCS	≤ 9
20	1442 ≤ F_C < 1450	≤ -5.4 MHz/12/SCS + L_CRB	> 5.4 MHz/12/SCS	≤ 12	< 5.04 MHz/12/SCS	≤ 9
30	1452 ≤ F_C < 1502	≤ -7.2MHz/12/SCS + L_CRB	> 7.2 MHz/12/SCS	≤ 13.5	< 11.7 MHz/12/SCS	≤ 13.5
40	1452 ≤ F_C < 1497	≤ -7.2 MHz/12/SCS + L_CRB	> 7.2 MHz/12/SCS	≤ 13.5	< 11.7 MHz/12/SCS	≤ 13.5
50	1457 ≤ F_C < 1492	≤ -7.2 MHz/12/SCS + L_CRB	> 7.2 MHz/12/SCS	≤ 13.5	< 15.12 MHz/12/SCS	≤ 13.5
60	1462 ≤ F_C < 1487	≤ -7.2 MHz/12/SCS + L_CRB	> 7.2 MHz/12/SCS	≤ 13.5	< 18.72 MHz/12/SCS	≤ 13.5
NOTE 1 – 4: Void

6.2.3.12 A-MPR for NS_42

Table 6.2.3.12-1: A-MPR for NS_42

Channel Bandwidth (MHz)	Carrier Centre Frequency, Fc (MHz)	Region A		Region B
		RB_start+L_CRB	A-MPR Outer/Inner (dB)	RB_start	RB_start+L_CRB	A-MPR Inner (dB)	A-MPR Outer (dB)
5	1512 ≤ F_C ≤ 1514.5	> 3.1 MHz / 12 / SCS	≤ 7	< 0.90 MHz / 12 / SCS	≤ 3.1 MHz / 12 / SCS	≤ 1.5	≤ 4
10	1497 ≤ F_C ≤ 1512	> 6.2 MHz / 12 / SCS	≤ 8	< 0.90 MHz / 12 / SCS	≤ 6.2 MHz / 12 / SCS	≤ 1.5	≤ 5
15	1502 ≤ F_C ≤ 1509.5	> 9.3 MHz / 12 / SCS	≤ 8	< 3.06 MHz / 12 / SCS	≤ 9.3 MHz / 12 / SCS	≤ 1.5	≤ 5
20	1497 ≤ F_C ≤ 1507	> 12.4 MHz / 12 / SCS	≤ 8	< 4.50 MHz / 12 / SCS	≤ 12.4 MHz / 12 / SCS	≤ 1.5	≤ 5
30	1477 ≤ F_C ≤ 1502	> 24.8 MHz / 12 / SCS	≤ 8	< 5.40 MHz / 12 / SCS	≤ 24.8 MHz / 12 / SCS	≤ 1.5	≤ 5
40	1477 ≤ F_C ≤ 1497	> 24.8 MHz / 12 / SCS	≤ 8	< 5.40 MHz / 12 / SCS	≤ 24.8 MHz / 12 / SCS	≤ 1.5	≤ 5
50	1467 ≤ F_C ≤ 1492	> 31 MHz / 12 / SCS	≤ 8	< 7.20 MHz / 12 / SCS	≤ 31 MHz / 12 / SCS	≤ 1.5	≤ 5
60	1462 ≤ F_C ≤ 1487	> 37.2 MHz / 12 / SCS	≤ 8	< 7.20 MHz / 12 / SCS	≤ 37.2 MHz / 12 / SCS	≤ 1.5	≤ 5
NOTE 1 – 5: Void

6.2.3.13 A-MPR for NS_18

Table 6.2.3.13-0: Band n28 and n83 30MHz A-MPR regions for NS_18

Channel Bandwidth, MHz	Frequency range of UL transmission bandwidth configuration, MHz	Regions		A-MPR
		RB_start12SCS MHz	L_CRB12SCS MHz
25	703~733	>(L_CRB12SCS)/2+3.6	≥Max(0, 12SCSN_RB– 1.8 – RBstart12SCS)	A3
		≤(L_CRB12SCS)/2+3.6	≥5.4	A4
		≤6.3	<5.4	A5
30	703~733	>(L_CRB12SCS)/2+5.22	≥Max(0, 12SCSN_RB– 1.8 – RBstart12SCS)	A3
		≤(L_CRB12SCS)/2+5.22	≥5.4	A4
		≤7.92	<5.4	A5

Table 6.2.3.13-1: A-MPR for NS_18

Modulation/Waveform		A1 (dB)		A2 (dB)	A3 (dB)	A4 (dB)	A5 (dB)
		Outer	Inner	Inner/Outer	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	Pi/2 BPSK	≤ 2	N/A	≤ 5	3	8	3
	QPSK	≤ 2		≤ 5	3	8	3
	16 QAM	≤ 3		≤ 6	3	8	3
	64 QAM	≤ 4		≤ 7	3	8	4.5
	256 QAM	≤ 6		≤ 9	3	8	5.5
CP-OFDM	QPSK	≤ 5		≤ 6.5	4.5	9.5	5
	16 QAM	≤ 5		≤ 7	4.5	9.5	5
	64 QAM	≤ 5.5		≤ 8.5	4.5	9.5	5.5
	256 QAM	≤ 8.5		≤ 11.5	4.5	9.5	7.5
NOTE 1: Void NOTE 2: Void

6.2.3.14 A-MPR for NS_21

Table 6.2.3.14-1: A-MPR for "NS_21"

Channel Bandwidth (MHz)	Modulation/Waveform		Region A1a RB_start ≤ 1.44MHz/12/SCS L_CRB ≤ 0.54 MHz/12/SCS	Region A1b RB_start ≤ 1.44MHz/12/SCS L_CRB > 0.54 MHz/12/SCS L_CRB ≤ 2.16MHz/12/SCS	Region A2 L_CRB > 5.4MHz/12/SCS	Region A3b RB_end ≥ 7.74MHz/12/SCS L_CRB > 0.54 MHz/12/SCS L_CRB ≤ 2.16MHz/12/SCS	Region A3a RB_end ≥ 7.74MHz/12/SCS L_CRB ≤ 0.54 MHz/12/SCS
			Outer/Inner		Outer	Outer/Inner
10	DFT-s-OFDM	PI/2 BPSK	6	3	4	3	6
		QPSK	6	3	4	3	6
		16 QAM	6	3	4	3	6
		64 QAM	6	3	4	3	6
		256 QAM	6	3	4	3	6
	CP-OFDM	QPSK	6	4	5.5	4	6
		16 QAM	6	4	5.5	4	6
		64 QAM	6	4	5.5	4	6
		256 QAM	6	4	5.5	4	6

Table 6.2.3.14-2: A-MPR for "NS_21"

Channel Bandwidth (MHz)	Modulation/Waveform		Region A1a RB_start ≤ 0.36MHz/12/SCS L_CRB ≤ 0.54 MHz/12/SCS	Region A1b RB_start ≤ 0.36MHz/12/SCS L_CRB > 0.54 MHz/12/SCS L_CRB ≤ 2.52MHz/12/SCS	Region A2 L_CRB > 2.52MHz/12/SCS	Region A3b RB_end ≥ 3.96MHz/12/SCS L_CRB > 0.54 MHz/12/SCS L_CRB ≤ 2.52MHz/12/SCS	Region A3a RB_end ≥ 3.96MHz/12/SCS L_CRB ≤ 0.54 MHz/12/SCS
			Outer/Inner		Outer	Outer/Inner
5	DFT-s-OFDM	PI/2 BPSK	≤ 4.0	≤ 2.0	≤ 1.5	2.0	4.0
		QPSK	≤ 4.5	≤ 2.5	≤ 2.0	≤ 2.5	≤ 4.5
		16 QAM	≤ 4.5	≤ 2.5	≤ 2.5	≤ 2.5	≤ 4.5
		64 QAM	≤ 4.5	≤ 2.5	≤ 2.5	≤ 2.5	≤ 4.5
		256 QAM	≤ 4.5	≤ 4.5	≤ 4.5	≤ 4.5	≤ 4.5
	CP-OFDM	QPSK	≤ 4.5	≤ 4.0	≤ 4.0	≤ 4.0	≤ 4.5
		16 QAM	≤ 4.5	≤ 4.0	≤ 4.0	≤ 4.0	≤ 4.5
		64 QAM	≤ 4.5	≤ 4.0	≤ 4.0	≤ 4.0	≤ 4.5
		256 QAM	≤ 6.5	≤ 6.5	≤ 6.5	≤ 6.5	≤ 6.5

6.2.3.15 A-MPR for NS_24

Table 6.2.3.15-1: A-MPR for NS_24

Channel Bandwidth, MHz	Carrier Centre Frequency, Fc, MHz	Region A			Region B			Region C
		RB_end12SCS MHz	LCRB12SCS MHz	A-MPR	RB_end12SCS MHz	LCRB12SCS MHz	A-MPR	RB_end12SCS MHz	LCRB12SCS MHz	A-MPR
5MHz	Fc=1992.5		>3.24	A7
5MHz	Fc=1997.5		>3.24	A4
5MHz	Fc=2002.5		>1.98	A1	>3.6	>1.08 ≤1.98	A2	≤3.6	≤1.98	A3
						≤1.08	A6
10MHz	Fc=1985	>5.4		A4
10MHz	Fc=1995		>4.32	A1	≥7.2	>1.08 ≤4.32	A2	<7.2	≤4.32	A3
						≤1.08	A6
10MHz	Fc=2000	≥5.76		A5	<3.06		A5	≥3.06 <5.76	>1.44	A6
15MHz	Fc=1987.5		>6.84	A1	≥10.8	>1.08 ≤6.84	A2	<10.8	≤6.84	A3
						≤1.08	A6
15MHz	Fc=1997.5	≥8.64		A5	<3.78		A5	≥3.78 <8.64	>1.44	A6
20MHz	Fc=1990	≥12.96		A5	<4.68		A5	≥4.68 <12.96	>2.16	A6
20MHz	Fc=1995	≥11.5212.42		A5	<5.58		A5	≥5.58 <11.52	>1.44	A6
NOTE 1: The A-MPR values are listed in Table 6.2.3.15-2. NOTE 2: For any undefined region, MPR applies

Table 6.2.3.15-2: A-MPR for modulation and waveform type

Modulation/Waveform	A1	A2	A3	A4	A5	A6	A7
	Outer/Inner	Outer/Inner	Outer/Inner	Outer	Outer/Inner	Outer/Inner	Outer
DFT-s-OFDM PI/2 BPSK	≤ 11	≤ 5	≤ 4	≤ 8.5	≤ 18	≤ 10	≤ 3.5
DFT-s-OFDM QPSK	≤ 11	≤ 5	≤ 4	≤ 8.5	≤ 18	≤ 10	≤ 3.5
DFT-s-OFDM 16 QAM	≤ 11	≤ 5	≤ 4	≤ 8.5	≤ 18	≤ 10	≤ 3.5
DFT-s-OFDM 64 QAM	≤ 11	≤ 5	≤ 4	≤ 8.5	≤ 19	≤ 10	≤ 3.5
DFT-s-OFDM 256 QAM	≤ 11	≤ 5		≤ 8.5	≤ 20	≤ 10
CP-OFDM QPSK	≤ 13	≤ 6.5	≤ 4	≤ 8.5	≤ 19	≤ 12	≤ 5.5
CP-OFDM 16 QAM	≤ 13	≤ 6.5	≤ 4	≤ 8.5	≤ 19	≤ 12	≤ 5.5
CP-OFDM 64 QAM	≤ 13	≤ 6.5	≤ 4	≤ 8.5	≤ 19	≤ 12	≤ 5.5
CP-OFDM 256 QAM	≤ 13	≤ 6.5		≤ 8.5	≤ 20	≤ 12
NOTE 1: The backoff applied is max(MPR, A-MPR) where MPR is defined in Table 6.2.2-1 NOTE 2: Outer and inner allocations are defined in clause 6.2.2

6.2.3.16 A-MPR for NS_27

Table 6.2.3.16-1: A-MPR for NS_27

Channel Bandwidth, MHz	Carrier Centre Frequency, Fc, MHz	Region A				Region B
		RBstart12SCS	RB_end12SCS	LCRB12SCS	A-MPR	LCRB12SCS	A-MPR
15 MHz	3557.5 ≤ F_C < 3562.5	<1.8 MHz			A3	≥10.8 MHz	A3
	3687.5 < F_C ≤ 3692.5	>11.52 MHz
15 MHz	3562.5 ≤ F_C < 3567.5	≤1.08 MHz		<1.44 MHz	A4	≥11.52 MHz	2
	3682.5 < F_C ≤ 3687.5		≥13.22 MHz
20 MHz	3560 ≤ F_C < 3570	<3.6 MHz			A5	≥10.8 MHz	A5
	3680 < F_C ≤ 3690	>12.96 MHz
20 MHz	3570 ≤ F_C < 3580	≤2.16 MHz		<1.44 MHz	A6	≥14.4 MHz	2
	3670 < F_C ≤ 3680		≥16.92
30 MHz	3565 ≤ FC < 3585	< 7.38MHz			A7
		≥ 7.38MHz ≤24.48MHz		≥ 15.3MHz	A2
				< 15.3 MHz	A1
		≥24.48MHz		< 2.7 MHz	A7
			> 19.44 MHz		A7
	3665 < FC ≤ 3685		≤19.44MHz ≥3.24 MHz	≥ 15.3 MHz	A2
				< 15.3 MHz	A1
			<3.24 MHz	< 2.7MHz	A7
	3585 ≤ FC ≤ 3665	≤[3.96] MHz		< 1.44MHz	A8	≥19.44 MHz	4
			≥24.48MHz		A8
40 MHz	3570 ≤ F_C < 3600	<11.34 MHz			A7
		≥11.34 MH, ≤31.0 MHz		≥18 MHz	A2
				<18 MHz	A1
		>31.0 MHz		<3.6 MHz	A7
	3650 < F_C ≤ 3680		>24.48 MHz		A7
			≤24.48 MHz, ≥6.48 MHz	≥18 MHz	A2
				<18 MHz	A1
			<6.48 MHz	<3.6 MHz	A7
40 MHz	3600 ≤ F_C ≤ 3650	≤6.12 MHz		<1.44 MHz	A8	>20 MHz	4.5
			≥ 32.76
NOTE 1: Void NOTE 2: Void

Table 6.2.3.16-2: A-MPR for modulation and waveform type

Modulation/Waveform		A1	A2	A3	A4	A5	A6	A7	A8
		Outer	Outer	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	PI/2 BPSK	4.5	6	4	4	4	4	10.5	4
	QPSK	4.5	6	4	4	4	4	10.5	4
	16 QAM	4.5	6	5	4	5	4	11	4
	64 QAM	4.5	6	5	4	5	4	11	4
	256 QAM		6					11
CP-OFDM	QPSK	5.5	7	6	4	6	4	11.5	4
	16 QAM	5.5	7	6	4	6	4	11.5	4
	64 QAM	5.5	7	6	4	6	4	11.5	4
	256 QAM		7					11.5
NOTE 1: The backoff applied is max (MPR, A-MPR) where MPR is defined in Table 6.2.2-1 NOTE 2: Outer and inner allocations are defined in clause 6.2.2

6.2.3.17 A-MPR for NS_46

Table 6.2.3.17-1: A-MPR regions for NS_46

Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	Regions		A-MPR
		RB_end12SCS MHz	L_CRB12SCS MHz
25 MHz	2534.5 ≤ F_C ≤ 2557.5		Note 1	A3
30 MHz	2515 ≤ F_C ≤ 2555	≥0, <1.44	>0	A4
		≥1.44, <13.5	>max (0, 12SCSRB_end -1.8)	A5
		≥13.5, <19.8	>11.52	A6
		≥19.8, <25.92	>6.3	A7
		≥25.92	>0	A8
35 MHz	2517.5 ≤ F_C ≤ 2552.5	≥0, <3.42	>0	A4
		≥3.42, <15.84	>max (0, 12SCSRB_end – 3.06)	A5
		≥15.84, <22.68	>12.6	A6
		≥22.68, <28.8	>9.0	A7
		≥28.8	>0	A8
40 MHz	2520 ≤ F_C ≤ 2550	≥0, <4.14	>0	A4
		≥4.14, <18	>max (0, 12SCSRB_end– 4.5)	A5
		≥18, <25.74	>13.5	A6
		≥25.74, <32.4	>12.6	A7
		≥32.4	>0	A8
50 MHz	2525 ≤ F_C ≤ 2545	≥0, <9	>0	A4
		≥9, <21.6	>max (0, 12SCSRB_end– 7.2)	A5
		≥21.6, <31.5	>18	A6
		≥31.5, <39.6	>16.2	A7
		≥39.6	>0	A8
NOTE 1: > 9.72 MHz for DFT-s-OFDM, > 16.02 MHz for CP-OFDM.

Table 6.2.3.17-2: A-MPR for NS_46

Modulation/Waveform		A3	A4	A5	A6	A7	A8
		Outer	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	PI/2 BPSK	4.5	5	2	3.5	6	10
	QPSK	4.5	5	2	3.5	6	10
	16 QAM	4.5	5	2	3.5	6	10
	64 QAM	4.5	5		3.5	6	10
	256 QAM					6	10
CP-OFDM	QPSK	6	5	3.5	5.5	7	11
	16 QAM	6	5	3.5	5.5	7	11
	64 QAM	6	5	3.5	5.5	7	11
	256 QAM	6				7	11

6.2.3.18 A-MPR for NS_47

Table 6.2.3.18-1: A-MPR regions and types for NS_47

Channel Bandwidth, (MHz)	Carrier Centre Frequency, Fc, (MHz)	RBstart12SCS (MHz)	LCRB12SCS (MHz)	A-MPR
30MHz	Fc=2560-2560.020	≤5.04	≤1.44	A1
		>5.04, ≤9.6	≤1.44	A2
		>24.48	≤1.44	A3
		≤9.6	>21	A2
			>14.4, <21	A4
		≤6.12	>10, ≤14.4	A4
			>1.44, <10	A2
NOTE: The A-MPR values are listed in Table 6.2.3.18-2.

Table 6.2.3.18-2: A-MPR for modulation and waveform type

Modulation/Waveform	A1(dB)		A2(dB)		A3(dB)		A4(dB)
	PC3	PC2	PC3	PC2	PC3	PC2	PC3	PC2
	Outer/ Inner	Outer/ Inner	Outer/ Inner	Outer/ Inner	Outer/ Inner	Outer/ Inner	Outer/ Inner	Outer/ Inner
DFT-s-OFDM PI/2 BPSK	≤ 7	≤ 10	≤ 5.5	≤ 8.5	≤ 2	≤ 5	≤ 3	≤ 6
DFT-s-OFDM QPSK	≤ 7	≤ 10	≤ 5.5	≤ 8.5	≤ 2	≤ 5	≤ 3	≤ 6
DFT-s-OFDM 16 QAM	≤ 7	≤ 10	≤ 5.5	≤ 8.5		≤ 5	≤ 3	≤ 6
DFT-s-OFDM 64 QAM	≤ 7	≤ 10	≤ 6	≤ 8.5		≤ 5	≤ 3	≤ 6
DFT-s-OFDM 256 QAM	≤ 7	≤ 10	≤ 6	≤ 8.5		≤ 5		≤ 6
CP-OFDM QPSK	≤ 7	≤ 10	≤ 7	≤ 10		≤ 5	≤ 4	≤ 7
CP-OFDM 16 QAM	≤ 7	≤ 10	≤ 7	≤ 10		≤ 5	≤ 4	≤ 7
CP-OFDM 64 QAM	≤ 7	≤ 10	≤ 7	≤ 10		≤ 5		≤ 7
CP-OFDM 256 QAM	≤ 7	≤ 10	≤ 7	≤ 10				≤ 7

6.2.3.19 A-MPR for NS_50

Table 6.2.3.19-1: A-MPR regions for NS_50 (Power Class 3)

Channel Bandwidth (MHz)	RB_start12SCS (MHz)	L_CRB12SCS (MHz)	A-MPR
25 MHz	≤ L_CRB12SCS – 5	> 5	A7
	≤ 6.48	≤ 1.44	A8
	≤ 6.48	≤ 3.6	A9
30 MHz	≤ L_CRB12SCS – 5	> 5	A7
	≤ 8.64	≤ 1.44	A8
		≤ 3.6	A9
40 MHz	≤ 4.32	> 0	A1
	> 4.32, ≤ 10.44	≤ 10.8	A3
	> 4.32, ≤ 18	> 10.8	A2
	> 18, ≤ 31.68	> max (31.68 – RB_start12SCS, 0)	A6
	> 31.68	> 0	A5
NOTE 1: The A-MPR values are specified in Table 6.2.3.19-2.

Table 6.2.3.19-2: A-MPR for NS_50 (Power Class 3)

Modulation/Waveform		A1 (dB)	A2 (dB)	A3 (dB)	A5 (dB)	A6 (dB)	A7 (dB)	A8 (dB)	A9 (dB)
		Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Inner
DFT-s-OFDM	Pi/2 BPSK	≤ 11	≤ 7	≤ 3	≤ 5	≤ 2	≤ 4	≤ 2
	QPSK	≤ 11	≤ 7	≤ 3	≤ 5	≤ 2	≤ 5	≤ 2
	16 QAM	≤ 11	≤ 7	≤ 3	≤ 5	≤ 2	≤ 5	≤ 2.5
	64 QAM	≤ 11	≤ 7	≤ 3	≤ 5		≤ 5
	256 QAM	≤ 11	≤ 7		≤ 5		≤ 5
CP-OFDM	QPSK	≤ 12	≤ 8	≤ 4.5	≤ 5	≤ 3.5	≤ 6.5
	16 QAM	≤ 12	≤ 8	≤ 4.5	≤ 5	≤ 3.5	≤ 6.5		≤ 3.0
	64 QAM	≤ 12	≤ 8	≤ 4.5	≤ 5		≤ 6.5		≤ 3.0
	256 QAM	≤ 12	≤ 8				≤ 6.5

Table 6.2.3.19-3: A-MPR regions for NS_50 (Power Class 2)

Channel Bandwidth (MHz)	RB_start12SCS (MHz)	L_CRB12SCS (MHz)	A-MPR
10 MHz	≤ 1.44	< 1.44	A5
	≤ 1.8	≥ 2.7+2* RBstart12SCS	A4
	>1.8	≥ 8.1- RBstart12SCS	A4
15 MHz	≤ 2.88	< 2.7	A5
	≤ 3.24	≥ 2.7+2* RBstart12SCS	A3
	>3.24	≥ 12.42- RBstart12SCS	A4
20 MHz	≤ 4.32	< 3.6	A5
	≤ 4.5	≥ 3.6+2* RBstart12SCS	A3
	>4.5	≥ 17.1- RBstart12SCS	A4
25 MHz	≤ L_CRB12SCS – 5	> 5	A2
	≤ 6.3	≤ 1.44	A5
	> 8.28	> max (21.6 – RB_start12SCS, 0), <RB_start12SCS+5	A4
	>1.8, ≤6.12	> 1.44, ≤ 3.6	A6
	> L_CRB 12SCS – 5, ≤ 5.04	> 1.44	A4
30 MHz	≤ L_CRB12SCS – 5	>5	A2
	≤ 7.56	≤ 1.44	A5
	>1.8, ≤7.56	> 1.44, ≤ 3.6	A6
	≤ 1.8	>1.44, <RB_start12SCS+5	A4
	> 10.8	> max (26.64 – RB_start12SCS, 0), <RB_start12SCS+5	A4
40 MHz	≤ 4.32	> 0	A1
	> 4.32	> RB_start12SCS + 11.88	A1
	> 4.32, ≤ 12.96	≤ 10.8	A3
	> 4.32, ≤ 18	> 10.8, <= RB_start12SCS + 11.88	A7
	> 18, ≤ 31.68	> max (31.68 – RB_start12SCS, 0)	A4
	> 31.68	> 0	A1
NOTE 1: The A-MPR values are specified in Table 6.2.3.19-4.

Table 6.2.3.19-4: A-MPR for NS_50 (Power Class 2)

Modulation/Waveform		A1 (dB)	A2 (dB)	A3 (dB)	A4 (dB)	A5 (dB)	A6 (dB)	A7 (dB)
Modulation/Waveform		Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	Pi/2 BPSK	≤ 11.5	≤4.5	≤ 4	≤ 2.5	≤ 4	≤ 1	≤ 3.5
	QPSK	≤ 11.5	≤ 5.5	≤ 4	≤ 2.5	≤ 4	≤ 1	≤ 3.5
	16 QAM	≤ 11.5	≤ 5.5	≤ 4	≤ 2.5	≤ 4	≤ 1.5	≤ 3.5
	64 QAM	≤ 11.5	≤ 5.5	≤ 4		≤ 4
	256 QAM	≤ 11.5	≤ 5.5
CP-OFDM	QPSK	≤ 12.5	≤ 7	≤ 5.5	≤ 4	≤ 4	≤ 2	≤ 5
	16 QAM	≤ 12.5	≤ 7	≤ 5.5	≤ 4	≤ 4		≤ 5
	64 QAM	≤ 12.5	≤ 7	≤ 5.5	≤ 4	≤ 4		≤ 5
	256 QAM	≤ 12.5	≤ 7

6.2.3.20 A-MPR for NS_44

Table 6.2.3.20-1: A-MPR regions for NS_44

Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	Regions		A-MPR
		RB_end12SCS MHz	L_CRB12SCS MHz
25 MHz	2582.5≤ F_C ≤ 2602.5	<18.0	>max(0, 12SCS RB_end– 3.6)	A3
		≥18.0	<7.2	A3
		≥18.0	≥7.2	A6
30 MHz	2585 ≤ F_C ≤ 2600	<21.6	>max(0, 12SCS RB_end– 3.6)	A3
		≥21.6	<12.6	A3
		≥21.6	≥12.6	A6
40 MHz	2590 ≤ F_C ≤ 2595	≥0, <2.88	>0	A1
		≥2.88, <14.4	>max (0, 12SCSRB_end– 3.6)	A2
		≥14.4, <23.4	>10.8	A3
		≥23.4, <32.4	>16.2	A4
		≥32.4	>0	A5

Table 6.2.3.20-2: A-MPR for NS_44

Modulation/Waveform		A1	A2	A3	A4	A5	A6
		Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	PI/2 BPSK	5	2	3	7	12	4
	QPSK	5	2	3	7	12	4
	16 QAM	5	2	3	7	12	4
	64 QAM	5		3	7	12	4
	256 QAM	5			7	12
CP-OFDM	QPSK	5	4	5	8	12	6
	16 QAM	5	4	5	8	12	6
	64 QAM	5	4	5	8	12	6
	256 QAM				8	12

6.2.3.21 A-MPR for NS_12

Table 6.2.3.21-1: A-MPR regions for NS_12

Channel BW	RB_Start12SCS (MHz)	L_CRB12SCS (MHz)	A-MPR
5MHz	≤1.8	>0	A1
10MHz	≤3.6	>0	A1

Table 6.2.3.21-2: A-MPR for NS_12

Modulation/Waveform	A1
	Outer/Inner
DFT-s-OFDM PI/2 BPSK	≤ 5
DFT-s-OFDM QPSK	≤ 5
DFT-s-OFDM 16 QAM	≤ 5.5
DFT-s-OFDM 64 QAM	≤ 5.5
DFT-s-OFDM 256 QAM	≤ 9.5
CP-OFDM QPSK	≤ 7
CP-OFDM 16 QAM	≤ 7
CP-OFDM 64 QAM	≤ 7
CP-OFDM 256 QAM	≤ 9.5

6.2.3.22 A-MPR for NS_13

Table 6.2.3.22-1: A-MPR regions for NS_13

Channel BW	Carrier Frequency, Fc, MHz	RB_Start12SCS (MHz)	L_CRB12SCS (MHz)	A-MPR
5MHz	819.5 ≤ Fc < 821.5	≤1.44	<1.08	A1
		≤1.44	≥1.08	A2
5MHz	Fc ≥ 821.5	≤0.54	<1.08	A1
			≥3.24	A3

Table 6.2.3.22-2: A-MPR for NS_13

Modulation/Waveform	A1	A2	A3
	Outer/Inner	Outer/Inner	Outer
DFT-s-OFDM PI/2 BPSK	≤ 3.5	≤ 4.5	≤ 3
DFT-s-OFDM QPSK	≤ 3.5	≤ 4.5	≤ 3
DFT-s-OFDM 16 QAM	≤ 3.5	≤ 5	≤ 3
DFT-s-OFDM 64 QAM	≤ 4.5	≤ 5	≤ 3
DFT-s-OFDM 256 QAM	≤ 8	≤ 6
CP-OFDM QPSK	≤ 5	≤ 6.5	≤ 4.5
CP-OFDM 16 QAM	≤ 5	≤ 6.5	≤ 4.5
CP-OFDM 64 QAM	≤ 6	≤ 6.5	≤ 4.5
CP-OFDM 256 QAM	≤ 8	≤ 8

6.2.3.23 A-MPR for NS_14

Table 6.2.3.23-1: A-MPR regions for NS_14

Channel BW	RB_Start12SCS (MHz)	L_CRB12SCS (MHz)	A-MPR
10MHz	≤0.18	<1.08	A1
	≥0	≥9	A2
15MHz	≤1.8	<1.8	A1
	≥0	≥9	A2
20MHz	≤3.42	<1.8	A3
	≥0	≥9	A2

Table 6.2.3.23-2: A-MPR for NS_14

Modulation/Waveform	A1	A2	A3
	Outer/Inner	Outer	Outer/Inner
DFT-s-OFDM PI/2 BPSK	≤ 3	≤ 2	≤ 3
DFT-s-OFDM QPSK	≤ 3	≤ 2	≤ 3
DFT-s-OFDM 16 QAM	≤ 3	≤ 2	≤ 3
DFT-s-OFDM 64 QAM	≤ 3		≤ 3
DFT-s-OFDM 256 QAM			≤ 8
CP-OFDM QPSK	≤ 5	≤ 4	≤ 5
CP-OFDM 16 QAM	≤ 5	≤ 4	≤ 5
CP-OFDM 64 QAM	≤ 6		≤ 6
CP-OFDM 256 QAM	≤ 8		≤ 8

6.2.3.24 A-MPR for NS_15

Table 6.2.3.24-1: A-MPR regions for NS_15

Channel BW	Carrier Frequency, Fc, MHz	RB_end12SCS (MHz)	L_CRB12SCS (MHz)	A-MPR
5MHz	840.5 < Fc ≤ 846.5	≥3.24	>0	A1
		<3.24, ≥2.52	≥1.44	A2
		<0.9	≤0.36	A3
10MHz	840 < Fc ≤ 844	≥5.76	>1.08	A1
		≥5.76	≤1.08	A4
		<5.76, ≥4.14	≥2.7	A2
		<2.52	≤0.36	A3
	835 < Fc ≤ 840	≥7.2	>0	A1
		<7.2, ≥5.22	≥4.32	A2
		<1.08	≤0.36	A3
15MHz	837.5 < Fc ≤ 841.5	≥9.36	>1.08	A1
		≥9.36	≤1.08	A4
		<9.36, ≥4.68	≥3.6	A2
		<3.96	≤0.36	A3
	831.5 < Fc ≤ 837.5	≥10.8	>1.08	A1
		≥10.8	≤1.08	A4
		<10.8, ≥6.48	≥3.6	A2
		<2.7	≤0.36	A3
	Fc ≤ 831.5	≥13.14	>0	A1
		<13.14, ≥7.92	≥3.6	A2
		<0.72	≤0.36	A3
20MHz	835 < Fc ≤ 839	≥12.24	>1.08	A1
		≥12.24	≤1.08	A4
		<12.24, ≥8.46	≥5.4	A2
		<5.58	≤0.36	A3
	Fc ≤ 835	≥13.68	>1.08	A1
		≥13.68	≤1.08	A4
		<13.68, ≥8.46	≥5.4	A2
		<4.32	≤0.36	A3

Table 6.2.3.24-2: A-MPR for NS_15

Modulation/Waveform	A1	A2	A3	A4
	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM PI/2 BPSK	≤ 9	≤ 5	≤ 4	≤ 9
DFT-s-OFDM QPSK	≤ 9	≤ 5	≤ 4	≤ 9
DFT-s-OFDM 16 QAM	≤ 9	≤ 5	≤ 4	≤ 9
DFT-s-OFDM 64 QAM	≤ 9	≤ 5	≤ 4	≤ 9
DFT-s-OFDM 256 QAM	≤ 9	≤ 5	≤ 9	≤ 13.5
CP-OFDM QPSK	≤ 10.5	≤ 6.5	≤ 4	≤ 10.5
CP-OFDM 16 QAM	≤ 10.5	≤ 6.5	≤ 4	≤ 10.5
CP-OFDM 64 QAM	≤ 10.5	≤ 6.5	≤ 4	≤ 10.5
CP-OFDM 256 QAM	≤ 10.5	≤ 6.5	≤ 9	≤ 13.5

6.2.3.25 A-MPR for NS_45

Table 6.2.3.25-1: A-MPR for NS_45

Modulation/Waveform		Outer
DFT-s-OFDM	Pi/2 BPSK	≤ 1.5
	QPSK	≤ 2
	16 QAM	≤ 2.5
	64 QAM	≤ 3

6.2.3.26 A-MPR for NS_48

Table 6.2.3.26-1: A-MPR regions for NS_48 (Power Class 3)

Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	Regions		A-MPR
		RB_end12SCS MHz	L_CRB12SCS MHz
25 MHz	1932.5≤ F_C ≤ 1967.5	≥0	≥9.72	A3
		≥18.72	<1.08	A3
30 MHz	1935 ≤ F_C ≤ 1965	≥0	≥13.5	A3
		≥21.6	<1.08	A5
40 MHz	1940 ≤ F_C ≤ 1960	≥0, <2.88	≥0	A2
		≥2.88, <17.1	≥max (0, 12SCSRB_end– 3.6)	A3
		≥17.1, <27.36	≥13.5	A4
		≥27.36, <34.56	≥13.5	A2
		≥27.36, <34.56	<1.08	A3
		≥34.56	≥0	A1
45 MHz	1942.5 ≤ FC ≤ 1957.5	≥0, <4.86	>0	A2
		≥4.86, <19	≥max (0, 12SCSRB_end– 3.6)	A4
		≥19, <37.44	≥15.4	A2
		≥30.96, <37.44	<1.08	A5
		≥37.44	>0	A1
50 MHz	1945 ≤ F_C ≤ 1955	≥0, <6.12	>0	A2
		≥6.12, <20.7	≥max (0, 12SCSRB_end– 3.6)	A4
		≥20.7, <41.04	≥17.1	A2
		≥33.84, <41.04	<1.08	A5
		≥41.04	>0	A1

Table 6.2.3.26-2: A-MPR for NS_48 (Power Class 3)

Modulation/Waveform		A1	A2	A3	A4	A5
		Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	PI/2 BPSK	≤10	≤6	≤3	≤4	≤5
	QPSK	≤10	≤6	≤3	≤4	≤5
	16 QAM	≤10	≤6	≤3	≤4	≤5
	64 QAM	≤10	≤6	≤3	≤4	≤5
	256 QAM	≤10	≤6	≤3	≤4	≤5
CP-OFDM	QPSK	≤11	≤7	≤4.5	≤5.5	≤5
	16 QAM	≤11	≤7	≤4.5	≤5.5	≤5
	64 QAM	≤11	≤7	≤4.5	≤5.5	≤5
	256 QAM	≤11	≤7	≤4.5	≤5.5	≤5

Table 6.2.3.26-3: A-MPR regions for NS_48 (Power Class 2)

Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	Regions			A-MPR
		RB_end12SCS MHz		L_CRB12SCS MHz
10 MHz	1925≤ F_C ≤ 1975		≥0	≥8.1	A6
10 MHz	1925≤ F_C ≤ 1975		<1.8	≥0	A6
15 MHz	1927.5≤ F_C ≤ 1972.5		≥0	≥9	A6
15 MHz	1927.5≤ F_C ≤ 1972.5		≥0	≥max (0,12SCS RB_end– 2.88) <9	A6
20 MHz	1930≤ F_C ≤ 1970		≥0	≥9.72	A4
20 MHz	1930≤ F_C ≤ 1970		≥0	≥max (0,12SCS RB_end– 3.6) <9.72	A6
25 MHz	1932.5≤ F_C ≤ 1967.5	≥0		≥9.72	A4
		≥18.72		<1.08	A3
		≥0		≥max (0, 12SCSRB_end– 1.08) < 9.72	A4
30 MHz	1935 ≤ F_C ≤ 1965	≥0		≥12.96	A4
		≥21.6		<1.08	A5
		≥0		≥max (0, 12SCSRB_end– 3.6) < 12.96	A4
40 MHz	1940 ≤ F_C ≤ 1960	≥0, <2.88		≥0	A1
		≥2.88, <17.1		≥max (0, 12SCSRB_end– 4.68)	A3
		≥17.1, <27.36		≥12.96	A4
		≥27.36, <34.56		≥12.96	A2
		≥27.36, <34.56		<1.08	A3
		≥34.56		≥0	A1
45 MHz	1942.5 ≤ FC ≤ 1957.5	≥0, <5.22		>0	A1
		≥5.22, <19		≥max (0, 12SCSRB_end– 5.4)	A4
		≥19, <37.44		≥14.04	A2
		≥30.96, <37.44		<1.08	A5
		≥37.44		>0	A1
50 MHz	1945 ≤ F_C ≤ 1955	≥0, <7.2		>0	A1
		≥7.2, <20.7		≥max (0, 12SCSRB_end– 5.4)	A4
		≥20.7, <41.04		≥15.12	A2
		≥33.84, <41.04		<1.08	A5
		≥41.04		>0	A1

Table 6.2.3.26-4: A-MPR for NS_48 (Power Class 2)

Modulation/Waveform		A1	A2	A3	A4	A5	A6
		Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	PI/2 BPSK	≤[12]	≤8.0	≤4.0	≤4.5	≤6.0	≤3.0
	QPSK	≤[12]	≤8.0	≤4.0	≤4.5	≤6.0	≤3.0
	16 QAM	≤[12]	≤8.0	≤4.0	≤4.5	≤6.0	≤3.0
	64 QAM	≤[12]	≤8.0	≤4.0	≤4.5	≤6.0	≤3.0
	256 QAM	≤[12]	≤8.0	≤4.0	≤4.5	≤6.0	≤3.0
CP-OFDM	QPSK	≤[12.5]	≤9.0	≤5.5	≤6.0	≤6.0	≤4.5
	16 QAM	≤[12.5]	≤9.0	≤5.5	≤6.0	≤6.0	≤4.5
	64 QAM	≤[12.5]	≤9.0	≤5.5	≤6.0	≤6.0	≤4.5
	256 QAM	≤[12.5]	≤9.0	≤5.5	≤6.0	≤6.0	≤4.5

6.2.3.27 A-MPR for NS_49

Table 6.2.3.27-1: A-MPR regions for NS_49 (Power Class 3)

Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	Regions		A-MPR
Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	RB_end12SCS MHz	L_CRB12SCS MHz	A-MPR
25 MHz	1932.5≤ F_C ≤ 1967.5	≥0	≥9.72	A3
		≥18.72	<1.08	A3
		≤3.96	<1.08	A3
30 MHz	1935 ≤ F_C ≤ 1965	≥0, <3.6	≥0	A1
		≥3.6, <6.48	≥0	A5
		≥6.48, <14.4	≥max (0,12SCS RB_end– 3.6)	A3
		≥14.4, <21.6	≥10.8	A4
		≥21.6	≥10.8	A2
		≥21.6	<1.08	A5
40 MHz	1940 ≤ F_C ≤ 1960	≥0, <7.2	≥0	A1
		≥7.2, <10.44	<1.08	A5
		≥7.2, <18	≥max (0, 12SCSRB_end– 3.6)	A4
		≥18, <34.56	≥14.4, <28.8	A2
		≥27.36, <34.56	<1.08	A5
		<34.56	≥28.8	A1
		≥34.56	≥0	A1
		≥6.12, <12.42	< min [1.08, max(0,12SCS RB_end-6.12)]	A5
		≥30.76, <36.72	<1.08	A5
45 MHz	1942.5 ≤ FC ≤ 1957.5	<36.72	≥16.2, <max (0, 12SCSRB_end– 6.12)	A2
		<36.72	≥max (0, 12SCSRB_end– 6.12)	A1
		≥36.72	>0	A1
50 MHz	1945 ≤ F_C ≤ 1955	≥7.74, <14.4	< min [1.08, max(0,12SCS RB_end-7.74)]	A5
		≥36, <39.6	<1.08	A5
		<39.6	≥18, <max (0, 12SCSRB_end– 7.74)	A2
		<39.6	≥max (0, 12SCSRB_end– 7.74)	A1
		≥39.6	>0	A1

Table 6.2.3.27-2: A-MPR for NS_49 (Power Class 3)

Modulation/Waveform		A1	A2	A3	A4	A5
Modulation/Waveform		Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	PI/2 BPSK	≤10	≤6	≤3	≤4	≤5
	QPSK	≤10	≤6	≤3	≤4	≤5
	16 QAM	≤10	≤6	≤3	≤4	≤5
	64 QAM	≤10	≤6	≤3	≤4	≤5
	256 QAM	≤10	≤6	≤3	≤4	≤5
CP-OFDM	QPSK	≤11	≤7	≤4.5	≤5.5	≤5
	16 QAM	≤11	≤7	≤4.5	≤5.5	≤5
	64 QAM	≤11	≤7	≤4.5	≤5.5	≤5
	256 QAM	≤11	≤7	≤4.5	≤5.5	≤5

Table 6.2.3.27-3: A-MPR regions for NS_49 (Power Class 2)

Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	Regions		A-MPR
Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	RB_end12SCS MHz	L_CRB12SCS MHz	A-MPR
10 MHz	1925≤ F_C ≤ 1975	≥0	≥8.1	A3
10 MHz	1925≤ F_C ≤ 1975	<1.8	≥0	A3
15 MHz	1927.5≤ F_C ≤ 1972.5	≥0	≥9	A3
15 MHz	1927.5≤ F_C ≤ 1972.5	≥0	≥max (0,12SCS RB_end– 2.88) <9	A3
20 MHz	1930≤ F_C ≤ 1970	≥0	≥9.72	A4
20 MHz	1930≤ F_C ≤ 1970	≥0	≥max (0,12SCS RB_end– 3.6) <9.72	A3
25 MHz	1932.5≤ F_C ≤ 1967.5	≥0	≥7.92	A4
		≥18.72	<1.08	A3
		≤6.48	<3.6	A3
30 MHz	1935 ≤ F_C ≤ 1965	≥0, <3.6	≥0	A1
		≥3.6, <7.92	≥0	A5
		≥7.92, <14.4	≥max (0,12SCS RB_end– 4.32)	A3
		≥14.4, <21.6	≥10.44	A4
		≥21.6	≥10.44	A2
		≥21.6	<1.8	A1
40 MHz	1940 ≤ F_C ≤ 1960	≥0, <9	≥0	A1
		≥9, <11.52	<3.06	A5
		≥9, <18	≥max (3.06, 12SCSRB_end– 6.48)	A4
		≥18, <34.56	≥11.16, <27	A2
		≥27.36, <34.56	<1.08	A5
		<34.56	≥27	A1
		≥34.56	≥0	A1
		≥7.92, <12.42	< min [1.08, max(0,12SCS RB_end-7.92)]	A5
		≥30.76, <36.72	<1.08	A5
45 MHz	1942.5 ≤ FC ≤ 1957.5	<36.72	≥12.24, <max (0, 12SCSRB_end– 7.92)	A2
		<36.72	≥max (0, 12SCSRB_end– 7.92)	A1
		≥36.72	>0	A1
50 MHz	1945 ≤ F_C ≤ 1955	≥10.08, <14.4	< min [1.08, max(0,12SCS RB_end-10.08)]	A5
		≥36, <39.6	<1.08	A5
		<39.6	≥13.68, <max (0, 12SCSRB_end– 10.08)	A2
		<39.6	≥max (0, 12SCSRB_end– 10.08)	A1
		≥39.6	>0	A1

Table 6.2.3.27-4: A-MPR for NS_49 (Power Class 2)

Modulation/Waveform		A1	A2	A3	A4	A5
Modulation/Waveform		Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	PI/2 BPSK	≤[12.5]	≤7	≤4	≤5.5	≤6
	QPSK	≤[12.5]	≤7	≤4	≤5.5	≤6
	16 QAM	≤[12.5]	≤7	≤4	≤5.5	≤6
	64 QAM	≤[12.5]	≤7	≤4	≤5.5	≤6
	256 QAM	≤[12.5]	≤7	≤4	≤5.5	≤6
CP-OFDM	QPSK	≤[13.5]	≤8	≤5.5	≤7.5	≤6
	16 QAM	≤[13.5]	≤8	≤5.5	≤7.5	≤6
	64 QAM	≤[13.5]	≤8	≤5.5	≤7.5	≤6
	256 QAM	≤[13.5]	≤8	≤5.5	≤7.5	≤6

6.2.3.28 A-MPR for NS_51

Table 6.2.3.28-1: A-MPR regions for NS_51

Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	Regions		A-MPR
Channel Bandwidth, MHz	Carrier Center Frequency, Fc, MHz	RB_end12SCS MHz	L_CRB12SCS MHz	A-MPR
50 MHz	F_c ≤ 1945	≤ 4.5	> 0	A7
		>4.5, < 32.4	≥ max(0, 12SCSRB_end – 14.4)	A4
		< 32.4	< max(0, 12SCSRB_end – 14.4)	A5
		≥ 32.4	> 0	A6
50 MHz	1945 < F_c ≤ 1980	< 27	≥ max(0, 12SCSRB_end – 14.4)	A1
		< 27	< max(0, 12SCSRB_end – 14.4)	A2
		≥ 27	> 0	A3

Table 6.2.3.28-2: A-MPR for NS_51

Modulation/Waveform		A1	A2	A3	A4	A5	A6	A7
Modulation/Waveform		Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM	PI/2 BPSK	17	12.5	22	7	4.5	16	14
	QPSK	17	12.5	22	7	4.5	16	14
	16 QAM	17	12.5	22	7	4.5	16	14
	64 QAM	17	12.5	22	7	4.5	16	14
	256 QAM	17	12.5	22	7	4.5	16	14
CP-OFDM	QPSK	17	12.5	22	8.5	4.5	17	14
	16 QAM	17	12.5	22	8.5	4.5	17	14
	64 QAM	17	12.5	22	8.5	4.5	17	14
	256 QAM	17	12.5	22	8.5	4.5	17	14

6.2.3.29 A-MPR for NS_07

Table 6.2.3.29-1: A-MPR regions for NS_07

Channel Bandwidth, MHz	Carrier Frequency, MHz	Regions		A-MPR
		RB_start12SCS MHz	L_CRB12SCS MHz
5 MHz	782 ≤ Fc ≤ 784.5	>0	≥ 1.8	A3
5 MHz	779.5 ≤ Fc < 782	≤ 0.9	≥ 0	A1
		> 0.9, ≤ 1.26	≥1.26	A2
		> 1.26, ≤ 3.42	≥ 1.8	A3
		>3.42	≤ 0.36	A4
10 MHz	Fc = 782	≤ 2.34	≥ 0	A1
		>2.34, ≤ 3.24	≥ 1.44	A2
		> 3.24, ≤ 6.48	≥ 3.24	A3
		> 6.48	≤ 0.36	A4

Table 6.2.3.29-2: A-MPR for NS_07

Modulation/Waveform	A1	A2	A3	A4
	Outer/Inner	Outer/Inner	Outer/Inner	Outer/Inner
DFT-s-OFDM PI/2 BPSK	12	9	6	3
DFT-s-OFDM QPSK	12	9	6	3
DFT-s-OFDM 16 QAM	12	9	6	3
DFT-s-OFDM 64 QAM	12	9	6	3
DFT-s-OFDM 256 QAM	12	9	6	3
CP-OFDM QPSK	14	10	7	3
CP-OFDM 16 QAM	14	10	7	3
CP-OFDM 64 QAM	14	10	7	3
CP-OFDM 256 QAM	14	10	7	3

6.2.3.30 A-MPR for NS_56

For 5 MHz channel centered on frequencies (F_C) = 1630.0, 1630.3 MHz, A-MPR is defined as

if RB_start <= ceil{3/SCS/15 kHz)}and L_CRB <= ceil{17/SCS/15 kHz)},

then

the A-MPR = 14 dB for SCS = 15 kHz and AMPR = 8 dB for SCS >= 30 kHz,

else,

if RB_start <= ceil{3/(SCS/15 kHz)} and L_CRB > ceil{17/(SCS/15 kHz)},

then

the A-MPR = 6 dB,

else,

if RBstart <= ceil{8/(SCS/15 kHz)},

then

the A-MPR = 4 dB.

For 5 MHz channel centered on frequencies (Fc) = 1635.0, 1649.0, 1654.0 MHz, no A-MPR is needed.

For Channel 10 MHz with center frequency of 1632.5 MHz, A-MPR is defined as

if RB_start < ceil{3/(SCS/15 kHz)} and L_CRB <= ceil{8/(SCS/15 kHz)},

then

the A-MPR = 12 dB for SCS = 15 kHz and AMPR = 8 dB for SCS >= 30 kHz,

else,

if RB_start < ceil{9/(SCS/15 kHz)}, and L_CRB > ceil{8/(SCS/15 kHz)},

then

the A-MPR = 8 dB,

else,

if RB_start <= ceil{18/(SCS/15 kHz)},

then

the A-MPR = 6 dB,

else,

if RB_start >= floor{40/(SCS/15 kHz)}], and L_CRB <= ceil{7/(SCS/15 kHz)},

then

the A-MPR = 5 dB,

else,

if RB_start >= floor{40/(SCS/15 kHz)} and L_CRB > ceil{7/(SCS/15 kHz)},

then

the A-MPR = 3 dB,

else,

if RB_start >= floor{35/(SCS/15 kHz)} and L_CRB <= ceil{7/(SCS/15 kHz)},

then

the A-MPR = 4 dB,

else,

if RB_start >= floor{35/(SCS/15 kHz)} and L_CRB > ceil{7/(SCS/15 kHz)},

then

the A-MPR = 2 dB.

For 10 MHz channel centered on frequency of 1651.5 MHz, no A-MPR is needed.

6.2.4 Configured transmitted power

The UE is allowed to set its configured maximum output power P_CMAX,f,c for carrier f of serving cell c in each slot. The configured maximum output power P_CMAX,f,c is set within the following bounds:

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

P_{CMAX_L,f,c} = MIN {P_EMAX,c– ∆T_C,c, (P_PowerClass – ΔP_PowerClass) – MAX(MAX(MPR_c+∆MPR_c, A-MPR_c)+ ΔT_IB,c + ∆T_C,c+∆T_RxSRS, P-MPR_c) }

P_{CMAX_H,f,c} = MIN {P_EMAX,c, P_PowerClass – ΔP_PowerClass }

where

P_EMAX,c is the value given by either the p-Max IE or the field additionalPmax of the NR-NS-PmaxList IE, whichever is applicable according to TS 38.331[7];

P_PowerClass is the maximum UE power specified in Table 6.2.1-1 without taking into account the tolerance specified in the Table 6.2.1-1;

When the IE powerBoostPi2BPSK is set to 1, P_EMAX,c is increased by +3 dB for a power class 3 capable UE operating in TDD bands n40, n41, n77, n78, and n79 with PI/2 BPSK modulation and UE indicates support for UE capability powerBoosting-pi2BPSK and 40% or less symbols in certain evaluation period are used for UL transmission when P_EMAX,c≥ 20 dBm (The exact evaluation period is no less than one radio frame).

When the IE powerBoostPi2BPSK is set to 1, ΔP_PowerClass = -3 dB for a power class 3 capable UE operating in TDD bands n40, n41, n77, n78, and n79 with Pi/2 BPSK modulation and UE indicates support for UE capability powerBoosting-pi2BPSK and 40% or less slots in radio frame are used for UL transmission.

ΔP_PowerClass =

– 3 dB for a power class 2 capable UE or 6 dB for a power class 1.5 UE when P-max of 23 dBm or lower is indicated; or when the field of UE capability maxUplinkDutyCycle-PC2-FR1 is absent and the field of UE capability maxUplinkDutyCycle-PC1dot5-MPE-FR1 is absent and the percentage of uplink symbols transmitted in a certain evaluation period is larger than 50%; or when the field of UE capability maxUplinkDutyCycle-PC2-FR1 is not absent and the percentage of uplink symbols transmitted in a certain evaluation period is larger than maxUplinkDutyCycle-PC2-FR1 as defined in TS 38.306 (The exact evaluation period is no less than one radio frame); or when the field of UE capability maxUplinkDutyCycle-PC1dot5-MPE-FR1 is not absent and half the percentage of uplink symbols transmitted in a certain evaluation period is larger than maxUplinkDutyCycle-PC1dot5-MPE-FR1 as defined in TS 38.306 (The exact evaluation period is no less than one radio frame).

– 3 dB for a power class 1.5 capable UE when P-max of between 23 dBm and 26 dB is indicated; or when the field of UE capability maxUplinkDutyCycle-PC2-FR1 is absent and the field of UE capability maxUplinkDutyCycle-PC1dot5-MPE-FR1 is absent and the percentage of uplink symbols transmitted in a certain evaluation period is between 25% and 50%; or when the field of UE capability maxUplinkDutyCycle-PC2-FR1 is not absent and the percentage of uplink symbols transmitted in a certain evaluation period is between maxUplinkDutyCycle-PC2-FR1 and maxUplinkDutyCycle-PC2-FR1/2 as defined in TS 38.306 (The exact evaluation period is no less than one radio frame); or when the field of UE capability maxUplinkDutyCycle-PC1dot5-MPE-FR1 is not absent and the percentage of uplink symbols transmitted in a certain evaluation period is larger than maxUplinkDutyCycle-PC1dot5-MPE-FR1 as defined in TS 38.306 (The exact evaluation period is no less than one radio frame).

– 3dB when the UE is configured with SUL configurations and the requirements of default power class are applied as specified in sub-clause 6.2C.1 on the band where UE indicates power class 2;

– 3dB is applied during SRS transmission occasions with usage in SRS-ResourceSet set as ‘antennaSwitching’ with configured SRS resources in each SRS resource set(s) consisting of one SRS port when PC2 capable UE with txDiversity-r16 capability or PC1.5 capable UE further indicates SRS-TxSwitch capability ‘t1r2’ or ‘t1r4’ or ‘t1r1-t1r2’ or ‘t1r1-t1r2-t1r4’;

– 0 dB otherwise;

∆T_IB,c is the additional tolerance for serving cell c as specified in clause 6.2A.4.2 for NR CA, clause 6.2C.2 for SUL, or TS 38.101-3 clause 6.2B.4.2 for EN-DC; ∆T_IB,c = 0 dB otherwise; In case the UE supports more than one of band combinations for V2X operating bands for concurrent operation, CA, SUL or DC, and an operating band belongs to more than one band combinations then

a) When the operating band frequency range is ≤ 1 GHz, the applicable additional ∆T_IB,c shall be the average value for all band combinations defined in clause 6.2A.4.2, 6.2C.2 in this specification and 6.2B.4.2 in TS 38.101-3 [3], truncated to one decimal place that apply for that operating band among the supported band combinations. In case there is a harmonic relation between low band UL and high band DL, then the maximum ∆T_IB,c among the different supported band combinations involving such band shall be applied

b) When the operating band frequency range is > 1 GHz, the applicable additional ∆T_IB,c shall be the maximum value for all band combinations defined in clause 6.2A.4.2, 6.2C.2 in this specification and 6.2B.4.2 in TS 38.101-3 [3] for the applicable operating bands.

∆T_C,c = 1.5dB when NOTE 3 in Table 6.2.1-1 in 38.101-1 applies for a serving cell c, otherwise ∆T_C,c = 0 dB ;

MPR_c and A-MPR_c for serving cell c are specified in clause 6.2.2 and clause 6.2.3, respectively;

∆MPR_c for serving cell c is specified in clause 6.2.2.

∆T_RxSRS is applied during SRS transmission occasions with usage in SRS-ResourceSet set as ‘antennaSwitching’ when

a) UE transmits SRS on the second SRS resource in every configured SRS resource set when the SRS-TxSwitch capability is indicated as ‘t1r2’ or ‘t1r1-t1r2’

b) UE transmits SRS on the second, third and fourth SRS resources of the total 4 SRS resources from all configured SRS resource set(s) consisting of one SRS port when the SRS-TxSwitch capability is indicated as ‘t1r4’ or, ‘t1r4-t2r4’ or ‘t1r1-t1r2-t1r4’ or, ‘t1r1-t1r2-t2r2-t1r4-t2r4’

c) UE transmits SRS from the second SRS port pair on the second SRS resource in every configured SRS resource set consisting of two SRS ports when the SRS-TxSwitch capability is indicated as ‘ t2r4’ or ‘ t1r4-t2r4’, or ‘t1r1-t1r2-t2r2-t2r4’ or ‘t1r1-t1r2-t2r2-t1r4-t2r4’, or

d) UE transmits SRS to a DL-only carrier

The value of ∆T_RxSRS is 4.5dB for bands whose F_{UL_high}is higher than the F_{UL_low}of n79 and 3 dB for bands whose F_{UL_high} is lower than the F_{UL_low}of n79 when the device is capable of power class 3 or power class 5 or power class 1.5 in the band, or when the device is capable of power class 2 in the band and ΔP_PowerClass = 3 dB, or when UE indicating txDiversity-r16..

The value of ∆T_RxSRS is 7.5dB for bands whose F_{UL_high}is higher than the F_{UL_low}of n79 and 6 dB for bands whose F_{UL_high} is lower than the F_{UL_low}of n79 during SRS transmission occasions with configured SRS resources consisting of one SRS port when the device is capable of power class 2 in the band and ΔP_PowerClass = 0 dB and not indicating txDiversity-r16.

For other SRS transmissions ∆T_RxSRS is zero;

P-MPR_c is the power management maximum power reduction for

a) ensuring compliance with applicable electromagnetic energy absorption requirements and addressing unwanted emissions / self desense requirements in case of simultaneous transmissions on multiple RAT(s) for scenarios not in scope of 3GPP RAN specifications;

b) ensuring compliance with applicable electromagnetic energy absorption requirements in case of proximity detection is used to address such requirements that require a lower maximum output power.

The UE shall apply P-MPR_c for serving cell c only for the above cases. For UE conducted conformance testing P-MPR_c shall be 0 dB

NOTE 1: P-MPRc was introduced in the P_CMAX,f,cequation such that the UE can report to the gNB the available maximum output transmit power. This information can be used by the gNB for scheduling decisions.

NOTE 2: P-MPRc may impact the maximum uplink performance for the selected UL transmission path.

T_REF and T_eval are specified in Table 6.2.4-1. For each T_REF, the P_CMAX,L,c for serving cell c are evaluated per T_eval and given by the minimum value taken over the transmission(s) within the T_eval; the minimum P_{CMAX_L,f,c} over one or more T_eval is then applied for the entire T_REF

Table 6.2.4-1: Evaluation and reference periods for Pcmax

T_REF	T_eval	T_evalwith frequency hopping
Physical channel length	Physical channel length	Min(T_{no_hopping}, Physical Channel Length)

The measured configured maximum output power P_UMAX,f,c shall be within the following bounds:

P_{CMAX_L,f,c} – MAX{T_L,c, T(P_{CMAX_L,f,c})} ≤ P_UMAX,f,c ≤ P_{CMAX_H,f,c} + T(P_{CMAX_H,f,c}).

where the tolerance T(P_CMAX,f,c) for applicable values of P_CMAX,f,c is specified in Table 6.2.4-1. The tolerance T_L,c is the absolute value of the lower tolerance for the applicable operating band as specified in Table 6.2.1-1.

Table 6.2.4-1: P_CMAX tolerance

P_CMAX,f,c (dBm)	Tolerance T(P_CMAX,f,c) (dB)
23 < P_CMAX,c ≤ 33	2.0
21 ≤ P_CMAX,c ≤ 23	2.0
20 ≤ P_CMAX,c < 21	2.5
19 ≤ P_CMAX,c < 20	3.5
18 ≤ P_CMAX,c < 19	4.0
13 ≤ P_CMAX,c < 18	5.0
8 ≤ P_CMAX,c < 13	6.0
-40 ≤ P_CMAX,c < 8	7.0