3GPP Specification 38.830: Baseline Performance for FR1 and FR2

Specification: 38830

🔴Draftvh00

Rel-17

Summary

This specification defines the baseline performance for Frequency Range 1 (FR1) and Frequency Range 2 (FR2) in 5G NR. It provides performance metrics for various use cases, including eMBB, VoIP, and CSI.

Specification Intelligence

This is a Technical Document in the Unknown Series series, focusing on Technical Document. The document is currently in immature draft.

Classification

Type: Technical Document

Subject: Unknown Series

Series: 38.xxx

Target: Technical Implementers

Specifics

Status: Development

Version

0.0.0

Draft Stage

0 technical • 0 editorial

Full Document vh00

Baseline performance for FR1

Table 1-1: PUSCH for eMBB for FR1

Urban 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	0.7	129.55	138.32	107.59	1 DMRS symbol for each hop
	Qualcomm	-13.5	128	140.7	110	LLS uses all 64 TXRUs
	CATT	-5.4	132.1	140.87	110.14	NLOS, O2I, 3kmph
	Panasonic	-4.7	131.94	140.71	109.98	w/ FH, 2 DMRS symbols
	NTT DOCOMO	-7.1	134.8	139.6	108.9	w/o FH/1 DMRS
	Intel	-3.80	131.04	139.28	108.55	1 DMRS symbol for each hop
	Nokia/NSB	-0.14	130.39	133.39	102.66	O2I, UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-0.14	130.39	133.39	119.51	O2O, UE speed: 30 Km/h, 1 DMRS symbol for each hop
	Xiaomi	-1.931			110.231	1Mbps, the number of PRBs=30; Receive chains=2; 1 DMRS without multiplexing with data
	Xiaomi	-5.717			114.017	1Mbps, the number of PRBs=30; Receive chains=4; 1 DMRS without multiplexing with data
	Sharp	-3.00	129.24	138.01	107.28	30 PRBs, MCS4
	China Telecom	-3.3	130.54	139.31	108.58	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	OPPO	0.76	130.91	139.68	108.95	w/o FH/ 2 DMRS
	Ericsson	-5.1 dB	132.3	141.9	116.8	Δ>0; See R1-2008343 4 Rx 3kmph 30 PRBs, MCS4 HARQ w/ max 5 transmissions 2 DMRS
	MediaTek	-2.71	129.45	138.22	107.49	NLOS, O2I, 3kmph, 4Rx
	Apple	-4.5	131.24	140.01	109.28	NLOS, O2I, 3kmph

DDDSUDDSUU	vivo	-0.75	131	139.77	109.04	1 DMRS symbol for each hop
	CATT	-6.6	133.3	142.07	111.34	NLOS, O2I, 3kmph
	Panasonic	-6.4	133.64	142.41	111.68	w/ FH, 2 DMRS symbols
	Samsung	-0.95	116.16	139.98	109.25	30 PRBs
	Nokia/NSB	-2.27	132.52	135.52	104.79	O2I, UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-2.27	132.52	135.52	121.64	O2O, UE speed: 30 Km/h, 1 DMRS symbol for each hop
	Xiami	-4.031	-	-	112.331	1Mbps, the number of PRBs=30; Receive chains=2; 1 DMRS without multiplexing with data
	Xiami	-7.418	-	-	115.718	1Mbps, the number of PRBs=30; Receive chains=4; 1 DMRS without multiplexing with data
	ZTE	-7.07	134.31	140.13	108.97	4Rx, 30RBs, 10% iBLER, Δ1=0, Δ2=2.95
	Huawei, Hisilicon	-4.62		142.38	111.65
	Apple	-5.20	131.94	140.71	109.98	NLOS, O2I, 3kmph
	China Telecom	-4.7	131.94	140.71	109.98	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	OPPO	-1.51	133.18	141.95	111.22	w/o FH/ 2 DMRS
	MediaTek	-4.54	131.28	140.05	109.32	NLOS, O2I, 3kmph, 4Rx


Urban 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDDDDDSUU	vivo	0.74	129.51	138.28	107.55	1 DMRS symbol for each hop
	CATT	-5.5	132.2	140.97	110.24	NLOS, O2I, 3kmph
	ZTE	-4.85	132.09	137.91	108.87	4Rx, 30RBs, 10% iBLER Δ1=0, Δ2=2.95
	Apple	-4.5	131.24	140.01	109.28	NLOS, O2I, 3kmph
	OPPO	2.18	129.49	138.26	107.53	w/o FH/ 2 DMRS
	CMCC	-4.3	134.54	143.31	112.58	NLOS, O2I, 3kmph w/o FH/ 2 DMRS UE 26dBm TxP
	CMCC	-4.3	131.54	140.31	109.58	NLOS, O2I, 3kmph w/o FH/ 2 DMRS UE 23dBm TxP
	MediaTek	-2.81	129.55	138.32	107.59	NLOS, O2I, 3kmph, 4Rx
	Huawei, Hisilicon	-5		141.10	110.37	44PRB, NLoS O2I, 3kmph

Rural 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDSU	vivo	0.21	138.79	142.79	123.13	NLOS	O2I	1 DMRS symbol for each hop
	vivo	0.37	138.63	142.63	127.02	NLOS	O2O	1 DMRS symbol for each hop
	CATT	-3.7	130.40	134.4	117.42	NLOS	O2I	UE speed:3kmph
	CATT	-4.3	131.00	135	121.52	NLOS	O2O	UE speed:120kmph
	CATT	-6.4	133.10	137.1	118.96	LOS	O2I	UE speed:3kmph
	CATT	-6.6	133.30	137.3	124.94	LOS	O2O	UE speed:120kmph
	InterDigital	1.67	136.83	140.83	121.40	NLOS	O2I	2 DMRS, no HARQ, FH disabled, no antenna gain correction factor, details in R1-2009169
	Panasonic	-3.5	139.49	143.49	126.51	NLOS	O2I	w/ FH, 2 DMRS symbols per hop
	Panasonic	-3.4	139.39	143.39	129.54	NLOS	O2O	w/ FH, 2 DMRS symbols per hop
	NTT DOCOMO	-6.09	142.6	147.3	133.9	LOS	O2O	w/o FH/2 DMRS
	Xiaomi	-0.1			125.48	NLOS	O2I	100Kbps, the number of PRBs=4; Receive chains=2; 1 DMRS without multiplexing with data
	Xiaomi	-4.9			130.28	NLOS	O2I	100Kbps, the number of PRBs=4; Receive chains=4; 1 DMRS without multiplexing with data
	Intel	-4.10	140.09	144.85	127.22	NLOS	O2I	1 DMRS symbol for each hop
	Intel	-3.40	139.39	144.15	128.54	NLOS	O2O	2 DMRS symbol for each hop
	Nokia/NSB	0.81	138.19	138.29	119.45	NLOS	O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-4.27	143.27	143.37	126.45	LOS	O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	0.88	138.13	138.23	122.55	NLOS	O2O	UE speed: 120 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-4.02	143.02	143.12	129.32	LOS	O2O	UE speed: 120 Km/h, 1 DMRS symbol for each hop
	China Telecom	-3.3	139.29	143.29	125.66	NLOS	O2I	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	China Telecom	-3.7	139.69	143.69	128.08	NLOS	O2O	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	OPPO	-1.15	124.60	143.65	126.02	NLOS	O2I	w/o FH/ 2 DMRS
	OPPO	-0.48	123.93	142.98	127.37	NLOS	O2O	w/o FH/ 2 DMRS
	OPPO	-1.13	124.58	143.63	126.11	LOS	O2I	w/o FH/ 2 DMRS
	OPPO	-1.39	124.84	143.89	130.10	LOS	O2O	w/o FH/ 2 DMRS
	MediaTek	-4.17	139.66	143.66	126.03	NLOS	O2I	3kmph, 4Rx
	Sharp	-3	137.99	141.99	124.36	NLOS	O2I	MCS4, 4 PRBs
DDDSUDDSUU	Vivo	-1.24	140.24	144.24	124.58	NLOS	O2I	1 DMRS symbol for each hop
	Vivo	-0.83	139.83	143.83	128.22	NLOS	O2O	1 DMRS symbol for each hop
	Panasonic	-5.3	141.29	145.29	128.31	NLOS	O2I	w/ FH, 2 DMRS symbols per hop
	Panasonic	-5.3	141.29	145.29	131.44	NLOS	O2O	w/ FH, 2 DMRS symbols per hop
	Samsung	-0.5	124.46	143.51	125.88	NLOS	O2I	4 PRBs
	Samsung	-0.85	124.81	143.86	128.25	NLOS	O2O	4 PRBs
	Xiaomi	-1.5			126.88	NLOS	O2I	100Kbps, the number of PRBs=4; Receive chains=2; 1 DMRS without multiplexing with data
	Xiaomi	-6.3			131.68	NLOS	O2I	100Kbps, the number of PRBs=4; Receive chains=4; 1 DMRS without multiplexing with data
	Nokia/NSB	-1.25	140.25	140.35	121.51	NLOS	O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-6.08	145.08	145.18	128.26	LOS	O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-1.28	140.28	140.38	124.70	NLOS	O2O	UE speed: 120 Km/h, 1 DMRS symbol for eachhop
	Nokia/NSB	-5.90	144.90	145.00	131.20	LOS	O2O	UE speed: 120 Km/h, 1 DMRS symbol for eachhop
	ZTE	-5.23	141.22	142.22	121.71	NLOS	O2I	4Rx, 4RBs, 10% iBLER Δ1=0, Δ2=3
	ZTE	-5.4	141.39	142.39	126.78	NLOS	O2O	4Rx, 4RBs, 10% iBLER Δ1=0, Δ2=3
	Huawei, Hisilicon	-4.83		146.57	126.91	NLoS	O2I
	Huawei, Hisilicon	-5.30		147.04	131.43	NLoS	O2O
	China Telecom	-4.8	140.79	144.79	127.16	NLOS	O2I	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	China Telecom	-4.7	140.69	144.69	129.08	NLOS	O2O	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	OPPO	-1.53	124.98	144.03	126.40	NLOS	O2I	w/o FH/ 2 DMRS
	OPPO	-1.03	124.48	143.53	127.92	NLOS	O2O	w/o FH/ 2 DMRS
	OPPO	-1.68	125.13	144.18	126.66	LOS	O2I	w/o FH/ 2 DMRS
	OPPO	-1.91	125.36	144.41	130.62	LOS	O2O	w/o FH/ 2 DMRS
	MediaTek	-5.94	141.43	145.43	127.80	NLOS	O2I	3kmph, 4Rx
Rural 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDDDDDSUU	vivo	0.1	138.9	142.9	123.24	NLOS	O2I	1 DMRS symbol for each hop
	vivo	0.03	138.97	142.97	127.36	NLOS	O2O	1 DMRS symbol for each hop
	CATT	-3.8	130.50	134.5	117.52	NLOS	O2I	UE speed:3kmph
	CATT	-4.3	131.00	135	121.52	NLOS	O2O	UE speed:120kmph
	CATT	-6.4	133.10	137.1	118.96	LOS	O2I	UE speed:3kmph
	CATT	-6.6	133.30	137.3	124.94	LOS	O2O	UE speed:120kmph
	ZTE	-4.2	140.19	141.19	121.3	NLOS	O2I	4Rx, 4RBs, 10% iBLER Δ1=0, Δ2=3
	ZTE	-4.63	140.62	141.62	126.01	NLOS	O2O	4Rx, 4RBs, 10% iBLER Δ1=0, Δ2=3
	OPPO	1.27	122.18	141.23	123.60	NLOS	O2I	DDDDDDSUU, w/o FH/ 2 DMRS
	OPPO	1.35	122.10	141.15	125.54	NLOS	O2O	DDDDDDSUU, w/o FH/ 2 DMRS
	OPPO	-1.14	124.59	143.64	126.12	LOS	O2I	DDDDDDSUU, w/o FH/ 2 DMRS
	OPPO	0.12	123.33	142.38	128.59	LOS	O2O	DDDDDDSUU, w/o FH/ 2 DMRS
	CMCC	-3.3	142.29	146.29	128.66	NLOS	O2I	DDDDDDSUU, w/o FH/ 2 DMRS UE 26dBm TxP
	CMCC	-3.3	139.29	143.29	125.66	NLOS	O2I	DDDDDDSUU, w/o FH/ 2 DMRS UE 23dBm TxP
	MediaTek	-4.20	139.69	143.69	126.06	NLOS	O2I	DDDDDDSUU，3kmph, 4Rx
Rural 2 GHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O		Key assumptions
UUUUU	vivo	-3.91	130.87	146.91	129.28	NLOS	O2I		1 DMRS symbol for each hop
	Vivo	-3.51	130.47	146.51	130.9	NLOS	O2O		1 DMRS symbol for each hop
	CATT	-6.2	132.66	148.7	131.07	NLOS	O2I		UE speed:3kmph
	CATT	-6.5	132.96	149	133.39	NLOS	O2O		UE speed:120kmph
	CATT	-8.1	134.56	150.6	133.08	LOS	O2I		UE speed:3kmph
	CATT	-8.8	135.26	151.3	137.51	LOS	O2O		UE speed:120kmph
	Panasonic	-2.4	129.36	145.40	127.77	NLOS	O2I		w/ FH, 2 DMRS symbols per hop
	Panasonic	-2.4	129.36	145.40	129.79	NLOS	O2O		w/ FH, 2 DMRS symbols per hop
	Samsung	-2.7	129.67	145.71	128.08	NLOS	O2I		4 PRBs
	Samsung	-2	128.97	145.01	129.40	NLOS	O2O		4 PRBs
	Nokia/NSB	-4.59	131.55	140.41	121.57	NLOS	O2I		UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-6.50	133.46	142.31	125.39	LOS	O2I		UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-4.63	131.59	140.44	124.76	NLOS	O2O		UE speed: 120 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-6.00	132.96	141.81	128.01	LOS	O2O		UE speed: 120 Km/h, 1 DMRS symbol for each hop
	ZTE	-4.2	140.19	141.19	117.55	NLOS	O2I		2Rx, 4RBs, 10% iBLER Δ1=0, Δ2=3.98
	ZTE	-4.63	140.62	141.62	126.01	NLOS	O2O		2Rx, 4RBs, 10% iBLER Δ1=0, Δ2=3.98
	Huawei, Hisilicon	-5.6			126.71	NLoS	O2I
	Huawei, Hisilicon	-6.25			130.38	NLoS	O2O
	China Telecom	-6.3	133.26	146.29	128.66	NLOS	O2I		4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	China Telecom	-6.1	133.06	146.09	130.48	NLOS	O2O		4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	OPPO	-3.18	129.64	145.68	128.05	NLOS	O2I		w/o FH/ 2 DMRS
	OPPO	-2.77	129.23	145.27	129.66	NLOS	O2O		w/o FH/ 2 DMRS
	OPPO	-5.14	131.60	147.64	130.12	LOS	O2I		w/o FH/ 2 DMRS
	OPPO	-3.61	130.07	146.11	132.32	LOS	O2O		w/o FH/ 2 DMRS
Rural 700MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O		Key assumptions
UUUUU	vivo	-7.49	134.45	144.47	126.84	NLOS	O2I		1 DMRS symbol for each hop
	vivo	-7.37	134.33	144.35	128.74	NLOS	O2O		1 DMRS symbol for each hop
	Sierra Wireless	-6.0	133.0	142.1	126.1	NLOS	O2O		3km/h 2 RX 4 PRB 4 repeats FH enabled HARQ w/ max 5 re-tx 2 DMRS
	Qualcomm	-10	136.5	149.5	131.9	NLOS	O2I		3kmph
	Qualcomm	-10	136.5	149.5	133.9	NLOS	O2O		120 kmph
	CATT	-6.5	132.96	145.99	128.36	NLOS	O2I		UE speed:3kmph
	CATT	-6.4	132.86	145.89	130.28	NLOS	O2O		UE speed:120kmph
	CATT	-7.9	134.36	147.39	129.87	LOS	O2I		UE speed:3kmph
	CATT	-4	130.46	148.29	134.5	LOS	O2O		UE speed:120kmph
	Panasonic	-2.6	129.56	142.59	124.96	NLOS	O2I		w/ FH, 2 DMRS symbols per hop
	Panasonic	-2.6	129.56	142.59	126.98	NLOS	O2I		w/ FH, 2 DMRS symbols per hop
	Intel	-3.10	130.06	146.10	128.47	NLOS	O2I		w/ FH
	Intel	-3.60	130.56	146.60	130.99	NLOS	O2O		w/ FH
	Nokia/NSB	-4.66	131.62	138.97	120.13	NLOS	O2I		UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-6.50	133.46	140.81	123.89	LOS	O2I		UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-4.66	131.62	138.97	123.29	NLOS	O2O		UE speed: 120 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-6.00	132.96	140.31	126.51	LOS	O2O		UE speed: 120 Km/h, 1 DMRS symbol for each hop
	ZTE	-3.26	130.22	139.39	123.78	NLOS	O2O		2Rx, 4RBs, 10% iBLER Δ1=0,Δ2=3.86
	Apple	-7.2	133.66	143.68	126.05	NLOS	O2I		3kmph
	OPPO	-3.48	134.91	147.94	130.31	NLOS	O2I		w/o FH/ 2 DMRS
	OPPO	-3.21	134.64	147.67	132.06	NLOS	O2O		w/o FH/ 2 DMRS
	OPPO	-4.93	136.36	149.39	131.87	LOS	O2I		w/o FH/ 2 DMRS
	OPPO	-4.25	135.68	148.71	134.92	LOS	O2O		w/o FH/ 2 DMRS
	Ericsson	-4.5	135.3	148.6	133.4	NLOS	O2I		Δ>0; See R1-2008343 2 Rx 4 PRBs MCS 0 HARQ w/ max 5 transmissions 2 DMRS
	InterDigital	-1.4	127.86	140.89	123.01	NLOS	O2I		3km/hr, 2RX, 4 RB, MCS#0, FH disabled, No antenna gain correction factor, , details in R1-2009169
Rural with long distance 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O		Key assumptions
UUUUU	vivo	-8.22	135.18	145.2	127.68	LOS	O2I		1 DMRS symbol for each hop
	vivo	-8.32	135.28	145.3	131.51	LOS	O2O		1 DMRS symbol for each hop
	CATT	-8.8	135.26	148.29	134.5	LOS	O2O		UE speed:120kmph
	Samsung	-7.8	134.77	147.80	134.01	LOS	O2O		4 PRBs
	Intel	-5.50	132.46	148.50	134.71	LOS	O2O		120km/h
	ZTE	-6.18	133.14	142.31	128.52	LOS	O2O		2Rx, 4RBs, 10% iBLER Δ1=0,Δ2=3.86
	Huawei, Hisilicon	-8.3			131.49	LoS	O2O
	China Telecom	-11.15	138.11	148.13	134.34	LOS	O2O		4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;
	OPPO	-5.07	136.50	149.53	131.90	NLOS	O2I		w/o FH/ 2 DMRS
	OPPO	-4.19	135.62	148.65	133.04	NLOS	O2O		w/o FH/ 2 DMRS
	OPPO	-5.18	136.61	149.64	132.12	LOS	O2I		w/o FH/ 2 DMRS
	OPPO	-4.37	135.80	148.83	135.04	LOS	O2O		w/o FH/ 2 DMRS
Rural with long distance 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O		Key assumptions
DDDSU	vivo	-4.04	143.04	147.04	127.49	LOS	O2I		1 DMRS symbol for each hop
	vivo	-3.06	142.06	146.06	132.27	LOS	O2O		1 DMRS symbol for each hop
	CATT	-6.5	133.2	137.2	124.84	LOS	O2O		UE speed:120kmph
	IITH, IITM, CEWIT, Reliance Jio, Tejas Networks	-2.31	129.53	136.58	126.71	LOS	O2O		QPSK
	IITH, IITM, CEWIT, Reliance Jio, Tejas Networks	-5.95	131.41	138.46	128.59	LOS	O2O		Pi/2 BPSK with Pmax=23 dBm
	IITH, IITM, CEWIT, Reliance Jio, Tejas Networks	-5.95	134.41	141.46	131.59	LOS	O2O		Pi/2 BPSK with Pmax=26, average power is 23 dBm, See R1-2007904
	OPPO	-0.36	123.81	142.86	125.23	NLOS	O2I		w/o FH/ 2 DMRS
	OPPO	-1.26	124.71	143.76	128.15	NLOS	O2O		w/o FH/ 2 DMRS
	OPPO	-0.92	124.37	143.42	125.90	LOS	O2I		w/o FH/ 2 DMRS
	OPPO	-1.51	124.96	144.01	130.22	LOS	O2O		w/o FH/ 2 DMRS
	Ericsson	-4.8	133.2	143.7	125.8	NLOS	O2I		Δ>0; See R1-2008343 4 Rx 3kmph, 30ns 30 PRBs, MCS 4 HARQ w/ max 5 transmissions 2 DMRS
DDDSUDDSUU	vivo	-5.33	144.33	148.33	128.78	LOS	O2I		1 DMRS symbol for each hop
	vivo	-4.48	143.48	147.48	133.69	LOS	O2O		1 DMRS symbol for each hop
	CATT	-7.4	134.1	138.1	125.74	LOS	O2O		UE speed:120kmph
	OPPO	-1.38	124.83	143.88	126.25	NLOS	O2I		w/o FH/ 2 DMRS
	OPPO	-1.65	125.10	144.15	128.54	NLOS	O2O		w/o FH/ 2 DMRS
	OPPO	-1.69	125.14	144.19	126.67	LOS	O2I		w/o FH/ 2 DMRS
	OPPO	-1.90	125.35	144.40	130.61	LOS	O2O		w/o FH/ 2 DMRS

Table 1-2: PUSCH for VoIP for FR1

Urban 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	-6	144.5	153.27	122.54	20ms period,2 repetitions, 4 HARQ transmission times
	Qualcomm	-18	141.5	154.2	123.5	See Tdoc for details
	CATT	-6.8	142.25	151.02	120.29	NLOS, O2I, 3kmph w/ repetition
	Panasonic	-9.8	145.29	154.06	123.33	w/ repetition, w/ HARQ (max. No. of reTx = 8)
	NTT DOCOMO	-18.16	154.6	159.4	128.7	w FH/1 DMRS
	Intel	-9.70	145.19	153.43	122.70	4 repetitions and 2 HARQ retransmission
	China Telecom	-3.5	138.99	147.76	117.03	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop; 2 (re)transmission/repetition;
	China Telecom	-4.3	142.80	151.57	120.84	2 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop; 8 (re)transmission/repetition;
	OPPO	-2.40	134.07	142.84	112.11	w/ repetition, w/o HARQ (reTx = 8)
	MediaTek	-3.60	139.09	147.86	117.13	NLOS, O2I, 3kmph, 4Rx
	Ericsson	-11.3	145.4	154.8	129.7	Δ>0; See R1-2008343 4 Rx 3kmph 4 PRBs, MCS4 2% rBLER HARQ w/ max 8 transmissions, inter-slot FH 2 DMRS
DDDSUDDSUU	vivo	-7.71	146.21	154.98	124.25	20ms period,2 repetitions, 6 HARQ transmission times
	CATT	-7.5	142.25	151.72	120.99	NLOS, O2I, 3kmph w/ repetition
	Panasonic	-8.9	144.39	153.16	122.43	w/ repetition, w/ HARQ (max. No. of reTx = 8)
	Samsung	-3.9	127.36	151.18	120.45	The max # of HARQ: 4/ Latency: 50 ms/ Repetition type A
	Samsung	-5.9	129.36	153.18	122.45	The max # of HARQ: 4/ Latency: 50 ms/ Repetition type B
	Nokia/NSB	-8.50	147.00	150.00	119.27	O2I, UE speed: 3 km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-9.00	147.50	150.50	136.62	O2O, UE speed: 30 km/h, 1 DMRS symbol for each hop
	ZTE	-7.66	143.15	148.97	117.81	4Rx, 4RBs, 3 repetitions + 4 (re)-transmissions, 2% rBLER Receiver antenna array gain: Δ1=0, Δ2=2.95
	Huawei, Hisilicon	-1		147.51	116.78	Three values correspond to no rep, no retrains, Metric: 2% rBLER
	Huawei, Hisilicon	-9.1		155.61	124.88	4 rep, 3 retrans without frequency hopping, Metric: 2% rBLER
	Huawei, Hisilicon	-9.75		156.26	125.35	4 rep, 3 retrans with frequency hopping, Metric: 2% rBLER
	China Telecom	-4.5	139.99	148.76	118.03	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;3 (re)transmission/repetition;
	China Telecom	-5.15	143.65	152.42	121.69	2 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;12 (re)transmission/repetition;
	OPPO	-3.95	135.62	144.39	113.66	w/ repetition, w/o HARQ (reTx = 12)
	MediaTek	-3.73	139.22	147.99	117.26	NLOS, O2I, 3kmph, 4Rx
Urban 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDDDDDSUU	vivo	-7.61	146.11	154.88	124.15	20ms period,2 repetitions, 4 HARQ transmission times
	CATT	-6.5	141.95	150.72	119.99	NLOS, O2I, 3kmph w/ repetition
	ZTE	-6.98	142.47	148.29	119.25	4Rx,4RBs, 2 repetitions + 4 (re)-transmissions, 2% rBLER Δ1=0, Δ2=2.95
	OPPO	-2.33	134.00	142.77	112.04	w/ repetition, w/o HARQ (reTx = 8)
	CMCC	-6.3	145.29	154.06	123.33	w/ 1 repetition w/ 4 HARQ retransmission UE 26dBm TxP
	CMCC	-6.3	142.29	151.06	120.33	w/ 1 repetition w/ 4 HARQ retransmission UE 23dBm TRP
	MediaTek	-3.65	139.14	147.91	117.18	NLOS, O2I, 3kmph, 4Rx
	Huawei, HiSilicon	-1.2		141.10	110.37	44PRB
	Huawei, HiSilicon	-8.2		147.71	116.98	No rep, no retrans
	Huawei, HiSilicon	-9		154.71	123.98	4 rep, 2 retrans, No FH

Rural 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS		O2I/ O2O	Key assumptions
DDDSU	vivo	-6	144.5	148.5	128.84	NLOS		O2I	20ms period,2 repetitions, 4 HARQ transmission times
	vivo	-7.45	145.95	149.95	134.34	NLOS		O2O	20ms period,2 repetitions, 4 HARQ transmission times
	CATT	-6.6	142.05	146.05	129.07	NLOS		O2I	UE speed:3kmph w/ repetition
	CATT	-10.9	146.35	150.35	136.87	NLOS		O2O	UE speed:120kmph w/ repetition
	CATT	-8.4	143.85	147.85	129.71	LOS		O2I	UE speed:3kmph w/ repetition
	CATT	-12.8	148.25	152.25	139.89	LOS		O2O	UE speed:120kmph w/ repetition
	InterDigital	-3.5	142.00	146.00	126.57	NLOS		O2I	20ms, 2 repetitions, 4 retransmissions , no antenna gain correction factor, details in R1-2009169
	InterDigital	-5.3	143.80	147.80	128.37	NLOS		O2I	50ms, 2 HARQ processes, 2 repetitions, 5 retransmissions, no antenna gain correction factor, details in R1-2009169
	InterDigital	-7.3	145.80	149.80	130.37	NLOS		O2I	50ms, 1 HARQ process, 2 repetitions, 10 retransmissions, no antenna gain correction factor, details in R1-2009169
	InterDigital	-7.7	146.20	150.20	130.77	NLOS		O2I	100ms, 2 HARQ process, 2 repetitions, 10 retransmissions, no antenna gain correction factor, details in R1-2009169
	InterDigital	-9.7	148.20	152.20	132.77	NLOS		O2I	100ms, 1 HARQ process, 2 repetitions, 20 retransmissions, no antenna gain correction factor, details in R1-2009169
	Panasonic	-9.8	145.29	149.29	132.31	NLOS		O2I	w/ repetition, w/ HARQ (max No. of reTx = 8)
	Panasonic	-11.6	147.09	151.09	137.24	NLOS		O2O	w/ repetition, w/ HARQ (max No. of reTx = 8)
	NTT DOCOMO	-18.02	154.5	159.3	145.8	LOS		O2O	w FH/2 DMRS
	Intel	-9.70	145.19	149.95	132.32	NLOS		O2I	4 repetitions and 2 HARQ retransmission
	Intel	-11.00	146.49	151.25	135.64	NLOS		O2O	4 repetitions and 2 HARQ retransmission
	China Telecom	-4.6	140.09	144.09	128.48	NLOS		O2O	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop; 2 (re)transmission/repetition;
	China Telecom	-7.40	145.90	149.90	134.29	NLOS		O2O	2 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop; 8 (re)transmission/repetition;
	China Telecom	-3.5	138.99	142.99	125.36	NLOS		O2I	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop; 2 (re)transmission/repetition;
	China Telecom	-4.3	142.80	146.80	129.17	NLOS		O2I	2 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop; 8 (re)transmission/repetition;
	OPPO	-2.40	125.85	144.90	127.27	NLOS		O2I	w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-8.89	132.34	151.39	135.78	NLOS		O2O	w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-5.37	128.82	147.87	130.35	LOS		O2I	w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-9.61	133.06	152.11	138.32	LOS		O2O	w/ repetition, w/o HARQ (reTx = 8)
	MediaTek	-3.60	145.11	149.11	131.48	NLOS		O2I	3kmph, 4Rx

DDDSUDDSUU	vivo	-7.72	146.22	150.22	130.56	NLOS		O2I	20ms period,2 repetitions, 6 HARQ transmission times
	vivo	-8.99	147.49	151.49	135.88	NLOS		O2O	20ms period,2 repetitions, 6 HARQ transmission times
	Panasonic	-8.9	144.39	148.39	131.41	NLOS		O2I	w/o repetition, w/ HARQ (max No. of reTx = 8)
	Panasonic	-10.8	146.29	150.29	136.44	NLOS		O2O	w/o repetition, w/ HARQ (max No. of reTx = 8)
	Samsung	-3.9	127.36	146.41	128.78	NLOS		O2I	The max # of HARQ: 4/ Latency: 50 ms/ Repetition type A
	Samsung	-5.9	129.36	148.41	130.78	NLOS		O2I	The max # of HARQ: 4/ Latency: 50 ms/ Repetition type B
	Samsung	-6.9	130.36	149.41	133.80	NLOS		O2O	The max # of HARQ: 4/ Latency: 50 ms/ Repetition type A
	Samsung	-7.6	131.06	150.11	134.50	NLOS		O2O	The max # of HARQ: 4/ Latency: 50 ms/ Repetition type B
	Huawei, Hisilicon	-1		142.74	123.08	NLoS		O2I	no rep, no retrains. Metric: 2% rBLER
	Huawei, Hisilicon	-9.1		150.84	131.18	NLoS		O2I	4 rep, 3 retrans without frequency hopping, Metric: 2% rBLER
	Huawei, Hisilicon	-9.75		151.49	131.83	NLoS		O2I	4 rep, 3 retrans with frequency hopping, Metric: 2% rBLER
	Huawei, Hisilicon	-0.75		142.49	126.88	NLoS		O2O	no rep, no retrains. Metric: 2% rBLER
	Huawei, Hisilicon	-12.15		153.89	138.28	NLoS		O2O	4 rep, 3 retrans without frequency hopping, Metric: 2% rBLER
	Huawei, Hisilicon	-12.25		153.99	138.38	NLoS		O2O	4 rep, 3 retrans with frequency hopping, Metric: 2% rBLER
	Nokia/NSB	-8.50	147.00	147.10	128.26	NLOS		O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-10.00	148.50	148.60	131.68	LOS		O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-8.83	147.33	147.43	131.75	NLOS		O2O	UE speed: 120 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-10.00	148.50	148.60	134.80	LOS		O2O	UE speed: 120 Km/h, 1 DMRS symbol for each hop
	China Telecom	-6.3	141.79	145.79	130.18	NLOS		O2O	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;3 (re)transmission/repetition;
	China Telecom	-8.7	147.20	151.20	135.59	NLOS		O2O	2 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;12 (re)transmission/repetition;
	China Telecom	-4.5	139.99	143.99	126.36	NLOS		O2I	4 Rx chain; w /intra-slot hopping; 1 DMRS for each hop;3 (re)transmission/repetition;
	China Telecom	-5.15	143.65	147.65	130.02	NLOS		O2I	2 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;12 (re)transmission/repetition;
	OPPO	-3.95	127.40	146.45	128.82	NLOS		O2I	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-11.72	135.17	154.22	138.61	NLOS		O2O	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-6.85	130.30	149.35	131.83	LOS		O2I	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-12.48	135.93	154.98	141.19	LOS		O2O	w/ repetition, w/o HARQ (reTx = 12)
	MediaTek	-3.73	145.24	149.24	131.61	NLOS		O2I	3kmph, 4Rx
Rural 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS		O2I/ O2O	Key assumptions
DDDDDDDSUU	vivo	-7.61	146.11	150.11	130.45	NLOS		O2I	DDDDDDDSUU, 20ms period,2 repetitions, 4 HARQ transmission times
	vivo	-7.61	146.11	150.11	134.5	NLOS		O2O	DDDDDDDSUU, 20ms period,2 repetitions, 4 HARQ transmission times
	CATT	-6.4	141.85	145.85	128.87	NLOS		O2I	DDDDDDDSUU UE speed:3kmph w/ repetition
	CATT	-10.5	145.95	149.95	136.47	NLOS		O2O	DDDDDDDSUU UE speed:120kmph w/ repetition
	CATT	-8.4	143.85	147.85	129.71	LOS		O2I	DDDDDDDSUU UE speed:3kmph w/ repetition
	CATT	-12.8	148.25	152.25	139.89	LOS		O2O	DDDDDDDSUU UE speed:120kmph w/ repetition
	OPPO	-2.96	126.41	145.46	127.83	NLOS		O2I	DDDDDDDSUU w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-7.22	130.67	149.72	134.11	NLOS		O2O	DDDDDDDSUU w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-5.52	128.97	148.02	130.50	LOS		O2I	DDDDDDDSUU w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-9.85	133.30	152.35	138.56	LOS		O2O	DDDDDDDSUU w/ repetition, w/o HARQ (reTx = 8)
	CMCC	-6.3	145.29	149.29	131.66	NLOS		O2I	DDDDDDDSUU w/ one repetition w/ HARQ (reTx = 4 ) UE 26dBm TxP
	CMCC	-6.3	142.29	146.29	128.66	NLOS		O2I	DDDDDDDSUU w/ one repetition w/ HARQ (reTx = 4 ) UE 23dBm TxP
	MediaTek	-3.65	145.16	149.16	131.53	NLOS		O2I	3kmph, 4Rx
Rural 2 GHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS		O2I/ O2O	Key assumptions
UUUUU	vivo	-10.42	136.88	152.92	135.29	NLOS		O2I	20ms period,4 repetitions, 4 HARQ transmission times
	vivo	-11.6	138.06	154.1	138.49	NLOS		O2O	20ms period,4 repetitions, 4 HARQ transmission times
	CATT	-7.8	134.26	150.3	132.67	NLOS		O2I	UE speed:3kmph w/ repetition
	CATT	-10.45	136.91	152.94	137.34	NLOS		O2O	UE speed:120kmph w/ repetition
	CATT	-9.6	136.06	152.1	134.58	LOS		O2I	UE speed:3kmph w/ repetition
	CATT	-13.5	139.96	156	142.21	LOS		O2O	UE speed:120kmph w/ repetition
	Panasonic	-4.2	130.66	146.70	129.07	NLOS		O2I	w/ 2 repetitions, w/ HARQ (max No. of reTx = 8)
	Panasonic	-8.4	134.86	150.90	135.29	NLOS		O2O	w/ 2 repetitions, w/ HARQ (max No. of reTx = 8)
	Samsung	-4.55	131.02	147.06	129.43	NLOS		O2I	The # of repetition: 4/ The max # of HARQ tx: 5/ Latency: 32 ms/ Repetition type A
	Samsung	-8.7	135.17	151.21	135.60	NLOS		O2O	The # of repetition: 4/ The max # of HARQ tx: 5/ Latency: 32 ms/ Repetition type A
	Nokia/NSB	-8.75	135.21	144.06	125.22	NLOS		O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-10.50	136.96	145.81	128.89	LOS		O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-8.50	134.96	143.81	128.13	NLOS		O2O	UE speed: 120 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-10.50	136.96	145.81	132.01	LOS		O2O	UE speed: 120 Km/h, 1 DMRS symbol for each hop
	Huawei, Hisilicon	-0.85		140.4	121.86	NLoS		O2I	no rep, no retrains Metric: 2% rBLER
	Huawei, Hisilicon	-8.7		148.34	129.71	NLoS		O2I	4 rep, 3 retrans without frequency hopping, Metric: 2% rBLER
	Huawei, Hisilicon	-9.3		148.94	130.31	NLoS		O2I	4 rep, 3 retrans with frequency hopping, respectively. Metric: 2% rBLER
	Huawei, Hisilicon	-0.7		140.59	124.98	NLoS		O2O	no rep, no retrains Metric: 2% rBLER
	Huawei, Hisilicon	12.10		151.99	136.38	NLoS		O2O	4 rep, 3 retrans without frequency hopping, Metric: 2% rBLER
	Huawei, Hisilicon	-12.25		152.14	136.53	NLoS		O2O	4 rep, 3 retrans with frequency hopping, respectively. Metric: 2% rBLER
	ZTE	-7.68	134.14	146.20	126.74	NLOS		O2I	2Rx, 4RBs, 8 repetitions + 4 (re)-transmissions, 2% rBLER Δ1=0,Δ2=3.98
	ZTE	-10.79	137.25	149.31	133.70	NLOS		O2O	2Rx, 4RBs, 8 repetitions + 4 (re)-transmissions, 2% rBLER Δ1=0,Δ2=3.98
	China Telecom	-7.0	133.46	146.49	130.88	NLOS		O2O	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;8 (re)transmission/repetition;
	China Telecom	-6.3	132.76	148.80	133.19	NLOS		O2O	2 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;16 (re)transmission/repetition;
	China Telecom	-6.9	133.36	146.39	128.76	NLOS		O2I	4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;8 (re)transmission/repetition;
	China Telecom	-6.1	132.56	148.60	130.97	NLOS		O2I	2 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;16 (re)transmission/repetition;
	OPPO	-4.29	130.75	146.79	129.16	NLOS		O2I	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-9.77	136.23	152.27	136.66	NLOS		O2O	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-6.84	133.30	149.34	131.82	LOS		O2I	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-10.18	136.64	152.68	138.89	LOS		O2O	w/ repetition, w/o HARQ (reTx = 12)
Rural 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS		O2I/ O2O	Key assumptions
UUUUU	vivo	-12.44	138.9	148.92	131.29	NLOS		O2I	20ms period,4 repetitions, 4 HARQ transmission times
	vivo	-14.44	140.9	150.92	135.31	NLOS		O2O	20ms period,4 repetitions, 4 HARQ transmission times
	Qualcomm	-9	135.5	148.5	130.9	NLOS		O2I	UE speed: 3kmph
	Qualcomm	-9	135.5	148.5	132.9	NLOS		O2O	UE speed: 120kmph
	CATT	-7.5	133.96	146.99	129.36	NLOS		O2I	UE speed:3kmph w/ repetition
	CATT	-11.9	138.36	151.39	135.78	NLOS		O2O	UE speed:120kmph w/ repetition
	CATT	-8.8	135.26	148.29	130.77	LOS		O2I	UE speed:3kmph w/ repetition
	CATT	-11.9	138.36	153.09	139.3	LOS		O2O	UE speed:120kmph w/ repetition
	InterDigital	-5.6	132.06	145.09	127.21	NLOS		O2I	50ms, 4 repetitions, 3 HARQ processes, 5 retransmissions, no antenna gain correction factor, details in R1-2009169
	InterDigital	-7.6	134.06	147.09	129.21	NLOS		O2I	100ms, 4 repetitions, 3 HARQ processes, 9 retransmissions, no antenna gain correction factor, details in R1-2009169
	Panasonic	-3.4	129.86	142.89	125.26	NLOS		O2I	w/ 2 repetitions, w/ HARQ (max No. of reTx = 8)
	Panasonic	-9.0	135.46	148.49	132.88	NLOS		O2O	w/ 2 repetitions, w/ HARQ (max No. of reTx = 8)
	Intel	-5.00	131.46	147.50	129.87	NLOS		O2I	4 repetitions and 2 HARQ retransmission
	Intel	-7.00	133.46	149.50	133.89	NLOS		O2O	4 repetitions and 2 HARQ retransmission
	Nokia/NSB	-8.70	135.16	142.51	123.67	NLOS		O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-10.50	136.96	144.31	127.39	LOS		O2I	UE speed: 3 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-8.75	135.21	142.56	126.88	NLOS		O2O	UE speed: 120 Km/h, 1 DMRS symbol for each hop
	Nokia/NSB	-10.50	136.96	144.31	130.51	LOS		O2O	UE speed: 120 Km/h, 1 DMRS symbol for each hop
	ZTE	-11.68	138.14	147.31	131.70	NLOS		O2O	2Rx, 4RBs, 8 repetitions + 4 (re)-transmissions, 2% rBLER Δ1=0,Δ2=3.86
	OPPO	-4.11	135.54	148.57	130.94	NLOS		O2I	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-9.07	140.50	153..53	137..92	NLOS		O2O	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-6.86	138.29	151.32	133.80	LOS		O2I	w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-9.61	141.04	154.07	140.28	LOS		O2O	w/ repetition, w/o HARQ (reTx = 12)
	Ericsson	-5.2	135.8	149.1	133.9	NLOS		O2I	Δ>0; See R1-2008343 2 Rx 3 kmph 4 PRBs, MCS 4 2% rBLER HARQ w/ max 8 transmissions, inter-slot FH 2 DMRS
Rural with long distance 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O		Key assumptions
UUUUU	vivo	-13.38	139.84	149.86	132.34	LOS	O2I		20ms period,4 repetitions, 4 HARQ transmission times
	vivo	-15.12	141.58	151.6	137.81	LOS	O2O		20ms period,4 repetitions, 4 HARQ transmission times
	CATT	-13.6	140.06	153.09	139.3	LOS	O2O		speed:120kmph w/ repetition
	Samsung	-15	141.47	154.50	140.71	LOS	O2O		The # of repetition: 4/ The max # of HARQ tx: 5/ Latency: 32 ms/ Repetition type A
	Intel	-8.80	135.26	151.30	137.51	LOS	O2O		4 repetitions and 2 HARQ retransmission
	ZTE	-12.05	138.51	147.68	133.89	LOS	O2O		2Rx, 4RBs, 8 repetitions + 4 (re)-transmissions, 2% rBLER Δ1=0,Δ2=3.86
	Huawei, Hisilicon	-4.25		141.23	127.44	LoS	O2O		no rep, no retrains Metric: 2% rBLER
	Huawei, Hisilicon	-12.30		149.28	135.49	LoS	O2O		4 rep, 3 retrans without frequency hopping, Metric: 2% rBLER
	Huawei, Hisilicon	-12.30		149.28	135.49	LoS	O2O		4 rep, 3 retrans with frequency hopping, respectively. Metric: 2% rBLER
	China Telecom	-13.3	139.76	149.78	135.99	LOS	O2O		4 Rx chain; w/ intra-slot hopping; 1 DMRS for each hop;8 (re)transmission/repetition;
	OPPO	-6.34	137.77	150.80	133.17	NLOS	O2I		w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-9.40	140.83	153.86	138.25	NLOS	O2O		w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-7.37	138.80	151.83	134.31	LOS	O2I		w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-9.68	141.11	154.14	140.35	LOS	O2O		w/ repetition, w/o HARQ (reTx = 12)
Rural with long distance 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O		Key assumptions
DDDSU	vivo	-13.11	151.61	155.61	136.06	LOS	O2I		20ms period,2 repetitions, 4 HARQ transmission times
	vivo	-14.24	152.74	156.74	142.95	LOS	O2O		20ms period,2 repetitions, 4 HARQ transmission times
	CATT	-12.2	147.65	151.65	139.29	LOS	O2O		speed:120kmph w/ repetition
	IITH, IITM, CEWIT, Reliance Jio, Tejas Networks	-12	136.21	143.26	133.39	LOS	O2O		QPSK
	IITH, IITM, CEWIT, Reliance Jio, Tejas Networks	-13.5	137.71	144.76	134.89	LOS	O2O		Pi/2 BPSK with Pmax=23 dBm
	IITH, IITM, CEWIT, Reliance Jio, Tejas Networks	-13.5	140.71	147.76	137.89	LOS	O2O		Pi/2 BPSK with Pmax=26, average power is 23 dBm, See R1-2007904
	OPPO	-4.09	127.54	146.59	128.96	NLOS	O2I		w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-9.55	133.00	152.05	136.44	NLOS	O2O		w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-5.34	128.79	147.84	130.32	LOS	O2I		w/ repetition, w/o HARQ (reTx = 8)
	OPPO	-9.58	133.03	152.08	138.29	LOS	O2O		w/ repetition, w/o HARQ (reTx = 8)
	Ericsson	-11.3	146.5	157.7	139.8	NLOS	O2I		Δ>0; See R1-2008343 4 Rx 3 kmph 4 PRBs, MCS 4 2% rBLER HARQ w/ max 8 transmissions, inter-slot FH 2 DMRS
DDDSUDDSUU	vivo	-13.11	151.61	155.61	136.06	LOS	O2I		20ms period,2 repetitions, 4 HARQ transmission times
	vivo	-14.24	152.74	156.74	142.95	LOS	O2O		20ms period,2 repetitions, 4 HARQ transmission times
	CATT	-13.1	148.55	152.55	140.19	LOS	O2O		speed:120kmph w/ repetition
	OPPO	-5.58	129.03	148.08	130.45	NLOS	O2I		w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-12.36	135.81	154.86	139.25	NLOS	O2O		w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-6.88	130.33	149.38	131.86	LOS	O2I		w/ repetition, w/o HARQ (reTx = 12)
	OPPO	-12.40	135.85	154.90	141.11	LOS	O2O		w/ repetition, w/o HARQ (reTx = 12)

Table 1-3: PUSCH with SIP invite

Urban 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	Ericsson	-10.5	144.8	154.4	129.3	 >0; See R1-2008343  4 Rx  3kmph  4 PRBs, MCS6  2% rBLER  HARQ w/ max 8 transmissions, inter-slot FH  2 DMRS



DDDSUDDSUU



Urban 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDDDDDSUU

Rural 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDSU
DDDSU
DDDSUDDSUU
DDDSUDDSUU
Rural 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDDDDDSUU








Rural 2 GHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU	ZTE	-4.4	130.86	142.92	123.46	NLOS	O2I	2Rx, 4RBs, MCS#7, 3km/h, 8 repetitions + 1 (re)-transmissions, 2% rBLER Δ1=0,Δ2=3.98
	ZTE	-6.74	133.20	145.26	129.65	NLOS	O2O	2Rx, 4RBs, MCS#7, 120 km/h, 8 repetitions + 1 (re)-transmissions, 2% rBLER Δ1=0,Δ2=3.98

Rural 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU	Ericsson	-4.4	135	148.3	133.1	NLOS	O2I	>0; See R1-2008343 2 Rx 3 kmph  4 PRBs, MCS 6 2% rBLER HARQ w/ max 8 transmissions, inter-slot FH 2 DMRS
	ZTE	-7.81	134.27	146.33	130.72	NLOS	O2O	2Rx, 4RBs, MCS#7, 3km/h, 8 repetitions + 1 (re)-transmissions, 2% rBLER Δ1=0,Δ2=3.86


Rural with long distance 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU






Rural with long distance 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDSU	Ericsson	-10.5	145.9	156.8	139	NLOS	O2I	 >0; See R1-2008343  4 Rx  3 kmph  4 PRBs, MCS 6  2% rBLER  HARQ w/ max 8 transmissions, inter-slot FH 2 DMRS
DDDSU
DDDSUDDSUU
DDDSUDDSUU

Table 1-4: PUSCH for CSI for FR1

Urban 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	Ericsson	-6.9	148.0	157.4	132.2	Δ>0; See R1-2008343 10% BLER 4 Rx 3kmph 11 bits 1 transmission 4 DMRS
	Ericsson	-1.9	144.0	153.4	128.3	Δ>0; See R1-2008343 1% BLER 4 Rx 3kmph 11 bits 1 transmission 4 DMRS
	Ericsson	-4.7	146.8	156.3	131.1	Δ>0; See R1-2008343 10% BLER 4 Rx 3kmph 22 bits 1 transmission 4 DM-RS
	Ericsson	0.1	142.8	152.2	127.1	Δ>0; See R1-2008343 1% BLER 4 Rx 3kmph 22 bits 1 transmission 4 DM-RS
DDDSUDDSUU



Others



Urban 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDDDDDSUU



Others

Rural 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDSU
DDDSU
DDDSUDDSUU
DDDSUDDSUU
Rural 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDDDDDSUU








Rural 2 GHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU


Rural 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU	Ericsson	-4.8	140.8	154.1	138.9	NLOS	O2I	Δ>0; See R1-2008343 10% BLER 2 Rx 11 bits 1 transmission 4 DMRS
	Ericsson	1.3	134.7	148.2	132.9	NLOS	O2I	Δ>0; See R1-2008343 1% BLER 2 Rx 11 bits 1 transmission 4 DMRS
	Ericsson	-2.6	139.3	152.5	137.3	NLOS	O2I	Δ>0; See R1-2008343 10% BLER 2 Rx 22 bits 1 transmission 4 DMRS
	Ericsson	3.5	133.2	146.7	131.5	NLOS	O2I	Δ>0; See R1-2008343 1% BLER 2 Rx 22 bits 1 transmission 4 DMRS
Rural with long distance 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU






Rural with long distance 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDSU	Ericsson	-6.9	149.3	160.5	142.6	NLOS	O2I	Δ>0; See R1-2008343 10% BLER 4 Rx 3kmph 11 bits 1 transmission 4 DMRS
DDDSU	Ericsson	-1.7	145.3	156.2	138.4	NLOS	O2I	Δ>0; See R1-2008343 1% BLER 4 Rx 3kmph 11 bits 1 transmission 4 DMRS
DDDSUDDSUU
DDDSUDDSUU

Table 1-5: PUCCH for FR1

Urban 4 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format 1	vivo	-6.08	147.52	156.29	122.48	Format 1 No repetition
	Qualcomm	-20.5	146.9	159.7	125.9	PF1 2 bits
	CATT	-9.15	147.55	156.32	122.51	NLOS, O2I, 3kmph PUCCH PF1
	Panasonic	-9.6	148.04	156.81	123.00	PF1 2 bits
	Samsung	-7.95	134.36	158.18	124.37	PF1_2 bits
	NTT DOCOMO	-12.89	155.4	160.2	129.4	Format 1
	Intel	-9.80	148.24	156.48	122.67	PF1 1 bit
	ZTE	-10.3	148.74	154.56	120.32	2bits, 4Rx, Δ1=0, Δ2=2.95
	OPPO	-6.83	149.27	158.04	124.23	Format 1
	Nokia/NSB	-1.50	142.95	145.95	112.12	O2I, Format 1
	Nokia/NSB	-1.00	142.45	145.45	128.35	O2O, Format 1
	Huawei, Hisilicon	-10.3		159.76	125.95	Format 1 with 2bits
	China Telecom	-5.9	147.35	156.12	122.31	2 Rx; Format 1; w/o repetition

Format 3 11bits	vivo	-3.55	144.99	153.76	119.95	Format 3 11bits No repetition 2 DMRS symbols
	Qualcomm	-18	144.4	157.2	123.4	PF3 11 bits
	Panasonic	-7.2	145.64	154.41	120.60	PF3 11 bits
	Samsung	-4.65	131.06	154.88	121.07	PF3_11 bits
	Intel	-9.80	148.24	156.48	122.67	PF1 1 bit
	ZTE	-8.57	147.01	152.83	118.59	11bits, 4Rx, additional DMRS, Δ1=0, Δ2=2.95,
	OPPO	-3.84	146.28	155.05	121.24	Format 3 11bits
	Ericsson	-8.7	150.4	160.9	135.7	Δ>0; See R1-2008343 10% BLER 4 Rx 3kmph 11 bits 1 transmission 4 DMRS
	Ericsson	-4.9	147.7	157.5	132.3	Δ>0; See R1-2008343 1% BLER 4 Rx 3kmph 11 bits 1 transmission 4 DMRS
	Huawei, Hisilicon	-7.9		157.36	123.55	Format 3 with 11bits
	Xiaomi	-2.1			118.51	Format 3 11bits, no repetition
	Apple	-6.1	144.54	153.31	119.50	Format 3 11bits, No FH, No repetition
Format 3 22bits	Qualcomm	-16.5	142.9	155.7	121.9	PF3 22 bits
	Panasonic	-3.8	142.24	151.01	117.20	PF3 22 bits
	Samsung	-1.55	127.96	151.78	117.97	PF3_22 bits
	NTT DOCOMO	-12.14	154.6	159.4	128.7	Format 3 22bits
	Xiaomi	1.5			114.91	Format 3 22bits, no repetition
	Intel	-6.00	144.44	152.68	118.87	PF3-22bits
	ZTE	-6.05	144.49	150.31	116.07	22bits, 4Rx, additional DMRS, Δ1=0, Δ2=2.95,
	OPPO	-4.01	146.45	155.22	121.41	Format 3 22bits
	Sharp	-1.00	142.51	151.28	117.47	format 3, 22 bits
	Huawei, Hisilicon	-6		155.46	121.65	Format 3 with 22bits
	China Telecom	-4.7	143.14	151.91	118.10	4 Rx; Format 3, 22bits; w/ intra-slot hopping; w/o repetition; 4 DMRS symbols
	Apple	-3.2	141.64	150.41	116.60	Format 3 22bits NLOS O2I, 3kmph
	Nokia/NSB	0.00	141.45	144.45	110.62	O2I, Format 3
	Nokia/NSB	-0.13	141.57	144.57	127.47	O2O, Format 3
Others	Samsung	-7.65	134.06	157.88	124.07	PF3_4 bits
	Ericsson	-9.1	150.7	160.8	135.7	Δ>0; See R1-2008343 1% miss 4 Rx 3kmph 3 A/N bits+1 SR 1 transmission Hopping w/ 4 DMRS





Urban 2.6 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format 1	Vivo	-6	147.45	156.22	122.41	Format 1 No repetition
	ZTE	-10.34	148.78	154.60	122.48	2bits, 4Rx, Δ1=0, Δ2=2.95
	OPPO	-6.73	149.17	157.94	124.13	Format 1
	CMCC	-9.1	150.54	159.31	125.5	PUCCH format 1 UE 26dBm TxP
	CMCC	-9.1	147.54	156.31	122.5	PUCCH format 1 UE 23dBm TxP
	Huawei, Hisilicon	-10.3		159.76	125.95	Format 1 with 2bits
Format 3 11bit	vivo	-3.41	144.86	153.63	119.82	Format 3 11bits No repetition 2 DMRS symbols
	ZTE	-8.6	147.04	152.86	120.74	11bits, 4Rx, additional DMRS, Δ1=0, Δ2=2.95
	OPPO	-3.86	146.30	155.07	121.26	Format 3 11bits
	CMCC	-7.3	148.74	157.51	123.7	PUCCH format 3-11bit UE 26dBm TxP
	CMCC	-7.3	145.74	154.51	120.7	PUCCH format 3-11bit UE 23dBm TxP
	Huawei, Hisilicon	-7.9		157.36	123.55	Format 3 11bits

Format 3 22bit	ZTE	-6.08	144.52	150.34	118.22	22bits, 4Rx, additional DMRS, Δ1=0, Δ2=2.95
	Apple	-3.2	141.64	150.41	116.60	Format 3 22bits NLOS O2I, 3kmph
	OPPO	-3.99	146.43	155.20	121.39	Format 3 22bits
	Huawei, Hisilicon	-6		155.46	121.65	Format 3 with 22bits
	CMCC	-5.18	146.62	155.39	121.58	PUCCH format 3-22bit UE 26dBm TxP
	CMCC	-5.18	143.62	152.39	118.58	PUCCH format 3-22bit UE 23dBm TxP

Rural 4 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 1	vivo	-6.08	147.52	151.52	128.54	NLOS	O2I	Format 1 No repetition
	vivo	-6.09	147.54	151.54	132.09	NLOS	O2O	Format 1 No repetition
	CATT	-9.15	147.55	151.55	131.49	NLOS	O2I	UE speed:3kmph PUCCH PF1
	CATT	-9.35	147.75	151.75	134.68	NLOS	O2O	UE speed:120kmph PUCCH PF1
	CATT	-11.47	149.87	153.87	132.97	LOS	O2I	UE speed:3kmph PUCCH PF1
	CATT	-11.53	149.93	153.93	138.82	LOS	O2O	UE speed:120kmph PUCCH PF1
	InterDigital	-5.45	146.90	150.90	128.22	NLOS	O2I	PF1 2 bits, UE speed = 3km/hr, no antenna gain correction factor, details in R1-2009169
	Panasonic	-9.6	148.04	152.04	131.98	NLOS	O2I	PF1 2 bits
	Panasonic	-9.8	148.24	152.24	135.17	NLOS	O2O	PF1 2 bits
	Samsung	-7.95	134.36	153.41	132.46	NLOS	O2I	PF1_2 bits
	Samsung	-7.95	134.36	153.41	133.96	NLOS	O2O	PF1_2 bits
	NTT DOCOMO	-12.82	155.3	160.1	146.6	LOS	O2O	Format 1
	Intel	-9.80	148.24	153.00	132.05	NLOS	O2I	PF1
	Intel	-8.20	146.64	151.40	131.95	NLOS	O2O	PF1
	OPPO	-6.58	144.03	157.06	136.11	NLOS	O2I	Format 1
	OPPO	-6.69	144.14	157.17	137.72	NLOS	O2O	Format 1
	Nokia/NSB	-1.50	142.95	143.05	120.51	NLOS	O2I	UE speed: 3 Km/h, Format 1
	Nokia/NSB	-5.50	146.95	147.05	127.03	LOS	O2I	UE speed: 3 Km/h, Format 1
	Nokia/NSB	-2.75	144.20	144.30	124.82	NLOS	O2O	UE speed: 120 Km/h, Formt 1
	Nokia/NSB	-5.00	146.45	146.55	129.51	LOS	O2O	UE speed: 120 Km/h, Formt 1
	ZTE	-10.3	148.74	149.74	125.91	NLOS	O2I	2bits, 4Rx, Δ1=0, Δ2=3
	ZTE	-10.3	148.74	149.74	130.29	NLOS	O2O	2bits, 4Rx, Δ1=0, Δ2=3
	Huawei, Hisilicon	-10.3		154.99	132.01	NLoS	O2I	Format 1 with 2bits
	Huawei, Hisilicon	-10.3		154.99	135.54	NLoS	O2O	Format 1 with 2bits
	China Telecom	-5.9	147.35	151.35	130.4	NLOS	O2I	2 Rx; Format 1; w/o repetition;
	China Telecom	-5.8	147.25	151.25	131.80	NLOS	O2O	2 Rx; Format 1; w/o repetition;
Format 11bit	Vivo	-3.55	144.99	148.99	126.01	NLOS	O2I	Format 3 11bits No repetition 2 DMRS symbols
	vivo	-3.55	144.99	148.99	129.54	NLOS	O2O	Format 3 11bits No repetition 2 DMRS symbols
	Panasonic	-7.2	145.64	149.64	129.58	NLOS	O2I	PF3 11 bits
	Panasonic	-7.3	145.74	149.74	132.67	NLOS	O2O	PF3 11 bits
	Samsung	-4.65	131.06	150.11	129.16	NLOS	O2I	PF3_11 bits
	Samsung	-4.65	131.06	150.11	130.66	NLOS	O2O	PF3_11 bits
	Intel	-8.60	147.04	151.80	130.85	NLOS	O2I	PF3-11bits
	Intel	-8.40	146.84	151.60	132.15	NLOS	O2O	PF3-11bits
	OPPO	-4.53	141.98	155.01	134.06	NLOS	O2I	Format 3 11bits
	OPPO	-4.55	142.00	155.03	135.58	NLOS	O2O	Format 3 11bits
	ZTE	-8.57	147.01	148.01	124.18	NLOS	O2I	11bits, 4Rx, additional DMRS, Δ1=0, Δ2=3
	ZTE	-8.6	147.04	148.04	128.59	NLOS	O2O	11bits, 4Rx, additional DMRS, Δ1=0, Δ2=3
	Huawei, Hisilicon	-7.9		152.59	129.61	NLoS	O2I	Format 3 with 11bits
	Huawei, Hisilicon	-7.8		152.49	133.04	NLoS	O2O	Format 3 with 11bits
Format 3 22bit	InterDigital	-1.7	143.15	147.15	124.47	NLOS	O2I	PF3 22 bits, UE speed = 3km/hr, no antenna gain correction factor, details in R1-2009169
	Panasonic	-3.8	142.24	146.24	126.18	NLOS	O2I	PF3 22 bits
	Panasonic	-3.9	142.34	146.34	129.27	NLOS	O2O	PF3 22 bits
	Samsung	-1.55	127.96	147.01	126.06	NLOS	O2I	PF3_22 bits
	Samsung	-1.55	127.96	147.01	127.56	NLOS	O2O	PF3_22 bits
	NTT DOCOMO	-12.06	154.6	159.3	145.9	NLOS	O2O	Format 3 22bits
	Intel	-6.00	144.44	149.20	128.25	NLOS	O2I	PF3-22bits
	Intel	-5.70	144.14	148.90	129.45	NLOS	O2O	PF3-22bits
	OPPO	-3.79	141.24	154.27	133.32	NLOS	O2I	Format 3 22bits
	OPPO	-3.81	141.26	154.29	134.84	NLOS	O2O	Format 3 22bits
	Huawei, Hisilicon	-6		150.69	127.71	NLoS	O2I	Format 3 with 22bits
	China Telecom	-4.7	143.14	147.14	126.19	NLOS	O2I	4Rx; Format 3, 22bits; w/ intra-slot hopping; w/o repetition; 4 DMRS symbols
	China Telecom	-5.1	143.54	147.54	128.09	NLOS	O2O	4Rx; Format 3, 22bits; w/ intra-slot hopping; w/o repetition; 4 DMRS symbols
	Nokia/NSB	0.00	141.45	141.55	119.01	NLOS	O2I	UE speed: 3 Km/h, Format 3
	Nokia/NSB	-4.63	146.07	146.17	126.15	LOS	O2I	UE speed: 3 Km/h, Format 3
	Nokia/NSB	0.00	141.45	141.55	122.07	NLOS	O2O	UE speed: 120 Km/h, Format 3
	Nokia/NSB	-4.56	146.01	146.11	129.07	LOS	O2O	UE speed: 120 Km/h, Format 3
	Sharp	-1	142.51	146.51	125.56	NLOS	O2I	format 3, 22 bits
Others	Samsung	-7.65	134.06	153.11	132.16	NLOS	O2I	PF3_4 bits
	Samsung	-7.65	134.06	153.11	133.66	NLOS	O2O	PF3_4 bits




Rural 2.6 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 1	Vivo	-6	147.45	151.45	128.47	NLOS	O2I	Format 1 No repetition
	vivo	-5.66	147.11	151.11	131.66	NLOS	O2O	Format 1 No repetition
	CATT	-9.1	147.50	151.50	131.44	NLOS	O2I	UE speed:3kmph PUCCH PF1
	CATT	-9.15	147.55	151.55	134.48	NLOS	O2O	UE speed:120kmph PUCCH PF1
	CATT	-12.16	150.56	154.56	133.66	LOS	O2I	UE speed:3kmph PUCCH PF1
	CATT	-12.2	150.60	154.6	139.49	LOS	O2O	UE speed:120kmph PUCCH PF1
	ZTE	-10.34	148.78	149.78	126.57	NLOS	O2I	2bits, 4Rx, Δ1=0, Δ2=3
	ZTE	-10.3	148.74	149.74	130.29	NLOS	O2O	2bits, 4Rx, Δ1=0, Δ2=3
	CMCC	-9.1	150.54	154.54	133.59	NLOS	O2I	PUCCH format 1 UE 26dBm TxP
	CMCC	-9.1	147.54	151.54	130.59	NLOS	O2I	PUCCH format 1 UE 23dBm TxP
Format 3 11bit	vivo	-3.4	144.85	148.85	125.87	NLOS	O2I	DDDDDDDSUU Format 3 11bits No repetition 2 DMRS symbols
	vivo	-3.52	144.97	148.97	129.52	NLOS	O2O	DDDDDDDSUU Format 3 11bits No repetition 2 DMRS symbols
	CMCC	-7.3	148.74	152.74	131.79	NLOS	O2I	DDDDDDDSUU PUCCH format 3-11bit UE 26dBm TxP
	CMCC	-7.3	145.74	149.74	128.79	NLOS	O2I	DDDDDDDSUU PUCCH format 3-11bit UE 23dBm TxP
	ZTE	-8.62	147.06	148.06	124.85	NLOS	O2I	DDDDDDDSUU 11bits, 4Rx, additional DMRS, Δ1=0, Δ2=3
	ZTE	-8.6	147.04	148.04	128.59	NLOS	O2O	DDDDDDDSUU 11bits, 4Rx, additional DMRS, Δ1=0, Δ2=3
Format 3 22bit	ZTE	-6.14	144.58	145.58	122.37	NLOS	O2I	DDDDDDDSUU 22bits, 4Rx, additional DMRS, Δ1=0, Δ2=3
	ZTE	-6.08	144.52	145.52	126.07	NLOS	O2O	DDDDDDDSUU 22bits, 4Rx, additional D MRS, Δ1=0, Δ2=3
	CMCC	-5.18	146.62	150.62	129.6	NLOS	O2I	DDDDDDDSUU PUCCH format 3-22bit UE 26dBm TxP
	CMCC	-5.18	143.62	147.62	126.67	NLOS	O2I	DDDDDDDSUU PUCCH format 3-22bit UE 23dBm TxP
Rural 2 GHz FDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 1	vivo	-6.96	136.37	152.41	131.46	NLOS	O2I	Format 1 No repetition
	vivo	-6.74	136.14	152.18	132.73	NLOS	O2O	Format 1 No repetition
	CATT	-6.1	135.51	151.55	130.6	NLOS	O2I	UE speed:3kmph PUCCH PF1
	CATT	-6.1	135.51	151.55	132.1	NLOS	O2O	UE speed:120kmph PUCCH PF1
	CATT	-11.54	140.95	156.99	136.2	LOS	O2I	UE speed:3kmph PUCCH PF1
	CATT	-11.55	140.96	157	139.94	LOS	O2O	UE speed:120kmph PUCCH PF1
	Panasonic	-6.1	135.51	151.55	130.60	NLOS	O2I	PF1 2 bits
	Panasonic	-5.6	135.01	151.05	131.60	NLOS	O2O	PF1 2 bits
	Samsung	-7.95	137.37	153.41	132.46	NLOS	O2I	PF1_2 bits
	Samsung	-7.95	137.37	153.41	133.96	NLOS	O2O	PF1_2 bits
	Nokia/NSB	-2.50	131.91	140.76	118.22	NLOS	O2I	UE speed: 3 Km/h, Format 1
	Nokia/NSB	-5.50	134.91	143.76	123.74	LOS	O2I	UE speed: 3 Km/h, Format 1
	Nokia/NSB	0.00	129.41	138.26	118.78	NLOS	O2O	UE speed: 120 Km/h, Format 1
	Nokia/NSB	-5.00	134.41	143.26	126.22	LOS	O2O	UE speed: 120 Km/h, Format 1
	Huawei, Hisilicon	-10.1		152.79	130.84	NLoS	O2I	Format 1 with 2bits
	Huawei, Hisilicon	-10.05		152.74	133.29	NLoS	O2O	Format 1 with 2bits
	ZTE	-6.1	135.51	147.57	124.79	NLOS	O2I	2bits,2Rx, Δ1=0, Δ2=3.98
	ZTE	-6.1	135.51	147.57	128.12	NLOS	O2O	2bits,2Rx, Δ1=0, Δ2=3.98
	China Telecom	-5.9	135.31	151.35	130.40	NLOS	O2I	2 Rx; Format 1; w/o repetition;
	China Telecom	-5.8	135.21	151.25	131.80	NLOS	O2O	2 Rx; Format 1; w/o repetition;
	OPPO	-6.97	136.38	152.42	131.47	NLOS	O2I	PF1_2 bits
	OPPO	-6.97	136.38	152.42	131.47	NLOS	O2O	PF1_2 bits
Format 3 11bit	vivo	-4.14	133.55	149.59	128.64	NLOS	O2I	Format 3 11bits No repetition 2 DMRS symbols
	vivo	-3.92	133.33	149.37	129.92	NLOS	O2O	Format 3 11bits No repetition 2 DMRS symbols
	Panasonic	-3.5	132.91	148.95	128.00	NLOS	O2I	PF3 11 bits
	Panasonic	-3.6	133.01	149.05	129.60	NLOS	O2O	PF3 11 bits
	Samsung	-4.65	134.07	150.11	129.16	NLOS	O2I	PF3_11 bits
	Samsung	-4.65	134.07	150.11	130.66	NLOS	O2O	PF3_11 bits
	Huawei, Hisilicon	-7.6		150.29	128.34	NLoS	O2I	Format 3 with 11bits
	Huawei, Hisilicon	-7.55		150.24	130.79	NLoS	O2O	Format 3 with 11bits
	ZTE	-4.1	133.51	145.57	122.79	NLOS	O2I	11bits, 2Rx, additional DMRS, Δ1=0, Δ2=3.98
	ZTE	-4.07	133.48	145.54	126.09	NLOS	O2O	11bits, 2Rx, additional DMRS, Δ1=0, Δ2=3.98
	ZTE	-1.27	130.68	142.74	119.96	NLOS	O2I	11bits, 2Rx, additional DMRS, Δ1=0, Δ2=3.98
	ZTE	-1.58	130.99	143.05	123.60	NLOS	O2O	11bits, 2Rx, additional DMRS, Δ1=0, Δ2=3.98
	OPPO	-4.34	133.35	149.39	128.44	NLOS	O2I	PF3_11 bits
	OPPO	-4.35	133.36	149.40	128.45	NLOS	O2O	PF3_11 bits
Format 3 22bit	Panasonic	0.3	129.11	145.15	124.20	NLOS	O2I	PF3 22 bits
	Panasonic	0.5	128.91	144.95	125.50	NLOS	O2O	PF3 22 bits
	Samsung	-1.55	130.97	147.01	126.06	NLOS	O2I	PF3_22 bits
	Samsung	-1.55	130.97	147.01	127.56	NLOS	O2O	PF3_22 bits
	Huawei, Hisilicon	-5.75		148.44	126.49	NLoS	O2I	Format 3 with 22bits
	Huawei, Hisilicon	-5.5		148.19	128.74	NLoS	O2O	Format 3 with 22 bits
	China Telecom	-4.8	134.21	147.24	126.29	NLOS	O2I	4Rx; Format 3, 22bits; w/ intra-slot hopping; w/o repetition; 4 DMRS symbols
	China Telecom	-5.1	134.51	147.54	128.09	NLOS	O2O	4Rx; Format 3, 22bits; w/ intra-slot hopping; w/o repetition; 4 DMRS symbols
	OPPO	-3.43	132.84	155.96	127.93	NLOS	O2I	PF3_22 bits
	OPPO	-3.47	132.88	148.92	127.97	NLOS	O2O	PF3_22 bits
	Nokia/NSB	-1.13	130.53	139.38	116.84	NLOS	O2I	UE speed: 3 Km/h, Format 3
	Nokia/NSB	-4.81	134.22	143.07	123.05	LOS	O2I	UE speed: 3 Km/h, Format 3
	Nokia/NSB	1.88	127.53	136.38	116.90	NLOS	O2O	UE speed: 120 Km/h, Format 3
	Nokia/NSB	-4.75	134.16	143.01	125.97	LOS	O2O	UE speed: 120 Km/h, Format 3
Others	Samsung	-7.65	137.07	153.11	132.16	NLOS	O2I	PF3_4 bits
	Samsung	-7.65	137.07	153.11	133.66	NLOS	O2O	PF3_4 bits





Rural 700 MHz FDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 1	vivo	-10.86	140.27	150.29	129.34	NLOS	O2I	Format 1 No repetition
	vivo	-10.77	140.18	150.2	130.75	NLOS	O2O	Format 1 No repetition
	Qualcomm	-10.5	140	153	132	NLOS	O2I	PF1 2 bits
	Qualcomm	-10.5	140	153	133.5	NLOS	O2O	PF1 2 bits
	CATT	-11.5	140.91	153.94	132.99	NLOS	O2I	UE speed:3kmph PUCCH PF1
	CATT	-9.2	138.61	151.64	132.19	NLOS	O2O	UE speed:120kmph PUCCH PF1
	CATT	-11.5	140.91	153.94	133.15	LOS	O2I	UE speed:3kmph PUCCH PF1
	CATT	-9.62	139.03	153.99	136.93	LOS	O2O	UE speed:120kmph PUCCH PF1
	Panasonic	-6.3	135.71	148.74	127.79	NLOS	O2I	PF1 2 bits
	Panasonic	-5.9	135.31	148.34	128.89	NLOS	O2O	PF1 2 bits
	Intel	-3.90	133.31	149.35	128.40	NLOS	O2I	PF1
	Intel	-3.70	133.11	149.15	129.70	NLOS	O2O	PF1
	Nokia	-2.50	131.91	139.26	116.72	NLOS	O2I	UE speed: 3 Km/h, Format 1
	Nokia	-5.50	134.91	142.26	122.24	LOS	O2I	UE speed: 3 Km/h, Format 1
	Nokia	-1.00	130.41	137.76	118.28	NLOS	O2O	UE speed: 120 Km/h, Format 1
	Nokia	-5.25	134.66	142.01	124.97	LOS	O2O	UE speed: 120 Km/h, Format 1
	ZTE	-6.02	135.43	144.60	125.15	NLOS	O2O	2bits,2Rx, Δ1=0, Δ2=3.86
	Ericsson	-3.8	141.3	154.5	139.3	NLOS	O2I	Δ>0; See R1-2008343 1% miss 2 Rx 2 bit format 1 1 transmission Hopping
	InterDigital	-5.5	134.91	147.94	126.32	NLOS	O2I	2 bits, 2Rx, 3km/h, no antenna gain correction factor, details in R1-2009169
Format 3 11bit	vivo	-8.02	137.43	147.45	126.5	NLOS	O2I	Format 3 11bits No repetition 2 DMRS symbols
	vivo	-7.98	137.39	147.41	127.96	NLOS	O2O	Format 3 11bits No repetition 2 DMRS symbols
	Qualcomm	-7	136.5	149.5	128.5	NLOS	O2I	PF3 11 bits
	Qualcomm	-7	136.5	149.5	130	NLOS	O2O	PF3 11 bits
	Panasonic	-3.7	133.11	146.14	125.19	NLOS	O2I	PF3 11 bits
	Panasonic	-3.6	133.01	146.04	126.59	NLOS	O2O	PF3 11 bits
	Intel	-4.20	133.61	149.65	128.70	NLOS	O2I	PF3-11bits
	Intel	-4.30	133.71	149.75	130.30	NLOS	O2O	PF3-11bits
	ZTE	-3.97	133.38	142.55	123.10	NLOS	O2O	11bits,2Rx, additional DMRS, Δ1=0, Δ2=3.86
	Ericsson	-6.1	143.6	156.8	141.5	NLOS	O2I	Δ>0; See R1-2008343 10% BLER 2 Rx 11 bits 1 transmission 4 DMRS
	Ericsson	-1.8	139.3	152.4	137.2	NLOS	O2I	Δ>0; See R1-2008343 1% BLER 2 Rx 11 bits 1 transmission 4 DMRS
Format 3 22bit	Qualcomm	-4.5	134	147	126	NLOS	O2I	PF3 22 bits
	Qualcomm	-4.5	134	147	127.5	NLOS	O2O	PF3 22 bits
	InterDigital	-2	131.41	144.43	122.82	NLOS	O2I	PF3 22 bits with UE speed = 3km/hr, no antenna gain correction factor, details in R1-2009169
	Panasonic	0.2	129.21	142.24	121.29	NLOS	O2I	PF3 22 bits
	Panasonic	0.3	129.11	142.14	122.69	NLOS	O2O	PF3 22 bits
	Intel	-1.50	130.91	146.95	126.00	NLOS	O2I	PF3-22bits
	Intel	-1.60	131.01	147.05	127.60	NLOS	O2O	PF3-22bits
	ZTE	-1.26	130.67	139.84	120.39	NLOS	O2O	22bits,2Rx, additional DMRS, Δ1=0, Δ2=3.86
	Nokia/NSB	-1.25	130.66	138.01	115.47	NLOS	O2I	UE speed: 3 Km/h, Format 3
	Nokia/NSB	-4.81	134.22	141.57	121.55	LOS	O2I	UE speed: 3 Km/h, Format 3
	Nokia/NSB	0.25	129.16	136.51	117.03	NLOS	O2O	UE speed: 120 Km/h, Format 3
	Nokia/NSB	-4.75	134.16	141.51	124.47	LOS	O2O	UE speed: 120 Km/h, Format 3
Rural with long distance 700 MHz FDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 1	vivo	-11.56	140.97	150.99	130.2	LOS	O2I	Format 1 No repetition
	vivo	-11.68	141.09	151.11	134.05	LOS	O2O	Format 1 No repetition
	CATT	-11.44	140.85	153.88	136.82	LOS	O2O	UE speed:120kmph PUCCH PF1
	Samsung	-10.10	139.52	152.55	135.49	LOS	O2O	PF1_2 bits
	Intel	-7.70	137.11	153.15	136.09	LOS	O2O	PF1
	Huawei, Hisilicon	-9.3		149.23	134.23	LoS	O2O	Format 1 with 2 bits
	China Telecom	-13.8	143.21	156.24	139.18	LOS	O2O	2 Rx; Format 1; w/o repetition
	ZTE	-8.45	137.86	147.03	132.03	LOS	O2O	2bits,2Rx, Δ1=0, Δ2=3.86


Format 3 11bit	vivo	-9.58	138.98	149	128.21	LOS	O2I	Format 3 11bits No repetition 2 DMRS symbols
	vivo	-9.48	138.88	148.9	131.84	LOS	O2O	Format 3 11bits No repetition 2 DMRS symbols
	Samsung	-8	137.42	150.45	133.39	LOS	O2O	PF3_11 bits
	Intel	-7.70	137.11	153.15	136.09	LOS	O2O	PF3-11bits
	Huawei, Hisilicon	-7.3		147.23	132.23	LoS	O2O	Format 3 with 11 bits
	ZTE	-7.37	136.78	145.95	130.95	LOS	O2O	11bits,2Rx, additional DMRS, Δ1=0, Δ2=3.86
Format 3 22bit	Samsung	-5.1	134.52	147.55	130.49	LOS	O2O	PF3_22 bits
	Intel	-5.10	134.51	150.55	133.49	LOS	O2O	PF3-22bits
	Huawei, Hisilicon	-8.3		144.43	129.43	LoS	O2O	Format 3 with 22 bits
	ZTE	-4.93	134.34	143.51	128.51	LOS	O2O	22bits,2Rx, additional DMRS, Δ1=0, Δ2=3.86
Others	Samsung	-10.20	139.62	152.65	135.59	LOS	O2O	PF3_4 bits
Others
Rural with long distance 4 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 1	vivo	-7.65	149.09	153.09	130.27	LOS	O2I	Format 1 No repetition
	vivo	-7.58	149.03	153.03	135.97	LOS	O2O	Format 1 No repetition
	CATT	-11.5	149.9	153.9	138.79	LOS	O2O	UE speed:120kmph PUCCH PF1
Format 3 11bit	vivo	-6.55	148	152	129.18	LOS	O2I	Format 3 11bits No repetition 2 DMRS symbols
	vivo	-6.53	147.97	151.97	134.91	LOS	O2O	Format 3 11bits No repetition 2 DMRS symbols
	Ericsson	-8.6	150.6	163.0	145.1	NLOS	O2I	Δ>0; See R1-2008343 10% BLER 4 Rx 3kmph 11 bits 1 transmission 4 DMRS
	Ericsson	-4.7	147.9	159.0	141.1	NLOS	O2I	Δ>0; See R1-2008343 1% BLER 4 Rx 3kmph 11 bits 1 transmission 4 DMRS
Format 3 22bit
Others	Ericsson	-8.9	150.9	163.2	145.3	NLOS	O2I	Δ>0; See R1-2008343 1% miss 4 Rx 3kmph 3 A/N bits+1 SR 1 transmission Hopping w/ 4 DMRS

Table 1-6: SSB for FR1

Urban 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-11.62	154.66	160.78	126.97	The correction factor for BF gain of broadcast channel is 8 dB
Qualcomm	-15.4	151.4	163.2	129.4	53 dBm downlink power. See Tdoc for addl. details
Qualcomm	-15.4	142.4	154.2	120.4	44 dBm downlink power. See Tdoc for addl. details
CATT	-9.05	148.04	156.81	126.08	NLOS, O2I, 3kmph
Intel	-11.20	159.23	163.29	129.48
Sharp	-11.00	155.52	164.29	130.48	8 Tx beams
Ericsson	-11	156.8	165.5	140.3	Δ>0; See R1-2008343 4 Rx 3kmph 20ms periodicity 1% rBLER after 4 transmissions within MIB TTI of 80ms
Nokia/NSB	-12.70	163.74	161.74	131.01	NLOS/O2I
ZTE	-12.7	150.30	156.12	121.88	32bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=13.38
Urban 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-11.6	154.64	160.76	126.95	The correction factor for BF gain of broadcast channel is 8 dB
CATT	-8.95	147.94	156.71	125.98	NLOS, O2I, 3kmph
ZTE	-12.98	150.58	156.40	124.28	32bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=13.38,
CMCC	-13.24	158.28	167.05	133.24	The correction factor for BF gain of broadcast channel is 6 dB

Rural 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-11.62	154.66	156.01	133.03	NLOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-11.48	154.52	155.87	136.42	NLOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
CATT	-9.05	148.04	152.04	135.06	NLOS	O2I	UE speed:3kmph PUCCH PF1
Intel	-11.20	159.23	160.02	139.07	NLOS	O2I	3km/h
Intel	-11.20	159.23	160.02	140.57	NLOS	O2O	120km/h
Sharp	-9.5	154.02	158.02	137.07	NLOS	O2I	8 Tx beams
ZTE	-12.68	156.55	157.55	133.72	NLOS	O2I	32bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=10.17
ZTE	-14.94	158.81	159.81	140.36	NLOS	O2O	32bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=10.17
Rural 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-11.97	155.01	156.36	133.38	NLOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-11.7	154.74	156.09	136.64	NLOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
CATT	-8.95	147.94	151.94	134.96	NLOS	O2I	UE speed:3kmph PUCCH PF1
ZTE	-12.99	156.86	157.86	134.65	NLOS	O2I	32bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=10.17
ZTE	-15.95	159.82	160.82	141.37	NLOS	O2O	32bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=10.17
CMCC	-12.77	157.81	161.81	140.86	NLOS	O2I	The correction factor for BF gain of broadcast channel is 6 dB
Rural 2 GHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-12.7	151.69	157.08	136.13	NLOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	13.2	152.19	157.58	138.13	NLOS	O2O
CATT	-10.46	149.45	162.48	144.85	NLOS	O2I	UE speed:3kmph PUCCH PF1
ZTE	-7.47	146.46	152.71	129.93	NLOS	O2I	32bits, 2Rx, DL PSD =36dBm, 1% BLER, Δ1=0,Δ2=9.79
ZTE	-10.04	149.03	155.28	135.83	NLOS	O2O	32bits, 2Rx, DL PSD =36dBm, 1% BLER, Δ1=0,Δ2=9.79
Rural 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-9.79	148.78	159.16	138.21	NLOS	O2I	The correction factor for BF gain of broadcast channel is 0 dB
vivo	-10.54	149.53	159.91	140.46	NLOS	O2O	The correction factor for BF gain of broadcast channel is 0 dB
Qualcomm	-12.8	151.8	164.8	143.9	NLOS	O2I	UE speed: 3kmph
Qualcomm	-12.8	151.8	164.8	145.4	NLOS	O2O	UE speed: 120kmph
CATT	-10.03	149.02	159.04	141.41	NLOS	O2I	UE speed:3kmph PUCCH PF1
Intel	-10.70	149.69	162.72	141.77	NLOS	O2I	3km/h
Intel	-11.80	150.79	163.82	144.37	NLOS	O2O	120km/h
ZTE	-9.41	148.40	153.88	134.43	NLOS	O2O	32bits, 2Rx, DL PSD =36dBm, 1% BLER, Δ1=0,Δ2=7.55
Ericsson	-6.73	141.4	154.0	138.8	NLOS	O2I	Δ>0; See R1-2008343 2 Rx 20ms periodicity 1% rBLER after 4 transmissions within MIB TTI of 80ms
Rural with long distance 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-11.94	150.93	161.31	140.52	LOS	O2I	The correction factor for BF gain of broadcast channel is 0 dB
vivo	-12.28	151.27	161.65	144.59	LOS	O2O	The correction factor for BF gain of broadcast channel is 0 dB
CATT	-11.62	150.61	160.63	146.84	LOS	O2O	speed:120kmph
Intel	-14.50	153.49	166.52	149.46	LOS	O2O	120km/h
ZTE	-11.6	150.59	156.07	141.07	LOS	O2O	32bits, 2Rx, DL PSD =36dBm, 1% BLER, Δ1=0,Δ2=7.55
Rural with long distance 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-14.56	157.6	158.95	136.13	LOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-14.24	152.74	156.74	142.95	LOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
CATT	-14.2	153.19	157.19	144.83	LOS	O2O	speed:120kmph
Ericsson	-11.5	157.0	167.6	149.7	NLOS	O2I	Δ>0; See R1-2008343 4 Rx 3kmph 20ms periodicity 1% rBLER after 4 transmissions within MIB TTI of 80ms

Table 1-7: PRACH for FR1

Urban 4 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format 0	vivo	-8.19	144.87	153.64	119.83	Format 0
	CATT	-15.08	144.83	153.6	119.79	NLOS, O2I, 3kmph Format 0


Format B4	Qualcomm	-29	144.8	157.5	123.7	Format B4
	CATT	-17.06	143.83	152.6	118.79	NLOS, O2I, 3kmph Format B4
	Sharp	-14	144.72	153.49	119.68	Format B4
	Ericsson	-19.6	153.4	161.9	136.8	Δ>0; See R1-2008343 4 Rx 3km/h ISD 700m Format B4 10% miss
	Ericsson	-16.9	151.1	161.2	136.1	Δ>0; See R1-2008343 4 Rx 3km/h, ISD 700m Format B4 1% miss
	Nokia/NSB	-12.56	146.29	144.29	113.56	O2I, Format B4
	ZTE	-13.1	140.74	146.56	112.32	4Rx, F-B4, P_MD=1% Δ1=0,Δ2=2.95.
	vivo	-10.19	140.85	149.62	115.81	Format B4
Format C2



Urban 2.6 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format 0	Vivo	-8.17	144.85	153.62	119.81	Format 0
	CATT	-15.06	144.81	153.58	119.77	NLOS, O2I, 3kmph Format 0
	CMCC	-16.50	153.17	161.94	128.13	PRACH format 0 UE 26dBm TxP
	CMCC	-16.50	150.17	158.94	125.13	PRACH format 0 UE 23dBm TxP

Format B4	vivo	-10.25	140.91	149.68	115.87	Format B4
	CATT	-16.58	143.35	152.12	118.31	NLOS, O2I, 3kmph Format B4
	ZTE	-13.07	140.71	146.53	114.41	4Rx, F-B4, P_MD=1% Δ1=0,Δ2=2.95.
	CMCC	-19.45	150.09	158.87	125.06	PRACH B4-30k UE 26dBm TxP
	CMCC	-19.45	147.09	155.87	122.06	PRACH B4-30k UE 23dBm TxP
Format C2	CMCC	-14.60	148.26	157.03	123.22	PRACH C2 UE 26dBm TxP
	CMCC	-14.60	145.26	154.03	120.22	PRACH C2 UE 23dBm TxP

Rural 4 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 0	vivo	-8.19	144.87	148.87	125.89	NLOS	O2I	Format 0
	vivo	-7.53	144.21	148.21	128.76	NLOS	O2O	Format 0
	CATT	-15.08	148.83	152.83	132.77	NLOS	O2I	UE speed:3kmph Format 0
	CATT	-15.52	149.27	153.27	136.20	NLOS	O2O	UE speed:120kmph Format 0
	CATT	-18.38	152.13	156.13	135.23	LOS	O2I	UE speed:3kmph Format 0
	CATT	-17.35	151.10	155.10	139.99	LOS	O2O	UE speed:120kmph Format 0
Format B4	vivo	-10.19	140.85	144.85	121.87	NLOS	O2I	Format B4
	vivo	-10.77	141.43	145.43	125.98	NLOS	O2O	Format B4
	CATT	-17.06	147.83	151.83	131.77	NLOS	O2I	UE speed:3kmph Format B4
	CATT	-17.7	148.47	152.47	135.40	NLOS	O2O	UE speed:120kmph Format B4
	CATT	-20.02	150.79	154.79	133.89	LOS	O2I	UE speed:3kmph Format B4
	CATT	-19.82	150.59	154.59	139.48	LOS	O2O	UE speed:120kmph Format B4
	Sharp	-18	148.72	152.72	131.77	NLOS	O2I	format B4
	Nokia/NSB	-12.92	146.65	142.75	123.91	NLOS	O2I	UE speed: 3 Km/h, Format B4
	Nokia/NSB	-20.06	153.79	149.89	132.97	LOS	O2I	UE speed: 3 Km/h, Format B4
	Nokia/NSB	-12.05	145.78	141.88	126.20	NLOS	O2O	UE speed: 120 Km/h, Format B4
	Nokia/NSB	-19.80	153.53	149.63	135.83	LOS	O2O	UE speed: 120 Km/h, Format B4
	ZTE	-13.1	140.74	141.74	117.91	NLOS	O2I	4Rx, F-B4, P_MD=1% Δ1=0,Δ2=3.
	ZTE	-13.25	140.89	141.89	122.44	NLOS	O2O	4Rx, F-B4, P_MD=1% Δ1=0,Δ2=3.

Format C2



Rural 2.6 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 0	vivo	-8.17	144.85	148.85	125.87	NLOS	O2I	Format 0
	vivo	-8.09	144.77	148.77	129.32	NLOS	O2O	Format 0
	CATT	-15.06	148.81	152.81	132.75	NLOS	O2I	UE speed:3kmph Format 0
	CATT	-14.96	148.71	152.71	135.64	NLOS	O2O	UE speed:120kmph Format 0
	CATT	-18.4	152.15	149.17	135.25	LOS	O2I	UE speed:3kmph Format 0
	CATT	-17.57	151.32	155.32	140.21	LOS	O2O	UE speed:120kmph Format 0
	CMCC	-16.5	153.17	157.17	136.22	NLOS	O2I	DDDDDDDSUU PRACH 0 UE 26dBm TxP
	CMCC	-16.5	150.17	154.17	133.22	NLOS	O2I	DDDDDDDSUU PRACH 0 UE 23dBm TxP
Format B4	vivo	-10.25	140.91	144.91	121.93	NLOS	O2I	Format B4
	vivo	-10.4	141.06	145.06	125.61	NLOS	O2O	Format B4
	CATT	-16.58	147.35	151.35	131.29	NLOS	O2I	UE speed:3kmph Format B4
	CATT	-17.22	147.99	151.99	134.92	NLOS	O2O	UE speed:120kmph Format B4
	CATT	-20.24	151.01	151.01	134.11	LOS	O2I	UE speed:3kmph Format B4
	CATT	-17.99	148.76	152.76	137.65	LOS	O2O	UE speed:120kmph Format B4
	CMCC	-19.24	152.90	156.90	135.95	NLOS	O2I	PRACH B4-15k UE 26dBm TxP
	CMCC	-19.24	149.9	153.9	132.95	NLOS	O2I	PRACH B4-15k UE 23dBm TxP
	CMCC	-19.45	150.09	154.09	133.14	NLOS	O2I	PRACH B4-30k UE 26dBm TxP
	CMCC	-19.45	147.09	151.09	130.14	NLOS	O2I	PRACH B4-30k UE 23dBm TxP
Format C2	CMCC	-14.6	148.26	152.26	131.31	NLOS	O2I	PRACH C2 UE 26dBm TxP
Format C2	CMCC	-14.6	145.26	149.26	128.31	NLOS	O2I	PRACH C2 UE 23dBm TxP
Rural 2 GHz FDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 0	vivo	-8.52	130.14	146.19	125.24	NLOS	O2I	Format 0
	vivo	-8.22	129.84	145.88	126.43	NLOS	O2O	Format 0
	CATT	-14.76	136.51	152.55	131.6	NLOS	O2I	UE speed:3kmph Format 0
	CATT	-15.47	137.22	153.26	133.81	NLOS	O2O	UE speed:120kmph Format 0
	CATT	-18.23	139.98	156.02	135.23	LOS	O2I	UE speed:3kmph Format 0
	CATT	-17.37	139.12	155.16	138.1	LOS	O2O	UE speed:120kmph Format 0
Format B4	vivo	-9.7	128.31	144.36	123.41	NLOS	O2I	Format B4
	vivo	-10.11	128.72	144.77	125.32	NLOS	O2O	Format B4
	CATT	-16.92	135.69	151.73	130.78	NLOS	O2I	UE speed:3kmph Format B4
	CATT	-17.56	136.33	152.37	132.92	NLOS	O2O	UE speed:120kmph Format B4
	CATT	-19.97	138.74	154.78	133.99	LOS	O2I	UE speed:3kmph Format B4
	CATT	-19.86	138.63	154.67	137.61	LOS	O2O	UE speed:120kmph Format B4
	Nokia/NSB	-12.69	134.38	140.33	121.49	NLOS	O2I	UE speed: 3 Km/h, Format B4
	Nokia/NSB	-19.95	141.64	147.59	130.67	LOS	O2I	UE speed: 3 Km/h, Format B4
	Nokia/NSB	-13.31	135.00	140.95	125.27	NLOS	O2O	UE speed: 120 Km/h, Format B4
	Nokia/NSB	-19.73	141.42	147.37	133.57	LOS	O2O	UE speed: 120 Km/h, Format B4
	ZTE	-11.52	130.13	136.38	113.60	NLOS	O2I	2Rx, F-B4, P_MD=1% Δ1=0,Δ2=9.79.
Format C2
Rural 700 MHz FDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 0	vivo	-13.88	135.5	145.52	124.57	NLOS	O2I	Format 0
	vivo	-13.92	135.54	145.36	126.11	NLOS	O2O	Format 0
	Qualcomm	-17.6	139.4	152.4	131.4	NLOS	O2I	Format 0
	Qualcomm	-17.6	139.4	152.4	133	NLOS	O2O	Format 0
	CATT	-14.55	136.3	149.33	128.38	NLOS	O2I	UE speed:3kmph Format 0
	CATT	-14.8	136.55	149.58	130.13	NLOS	O2O	UE speed:120kmph Format 0
	CATT	-18.47	140.22	153.25	132.46	LOS	O2I	UE speed:3kmph Format 0
	CATT	-17.98	139.73	152.76	135.7	LOS	O2O	UE speed:120kmph Format 0
	Nokia/NSB	-10.00	134.82	140.57	121.73	NLOS	O2I	UE speed: 3 Km/h, Format 0
	Nokia/NSB	-16.78	141.60	147.35	130.43	LOS	O2I	UE speed: 3 Km/h, Format 0
	Nokia/NSB	-11.38	136.20	141.95	126.27	NLOS	O2O	UE speed: 120 Km/h, Format 0
	Nokia/NSB	-16.70	141.52	147.27	133.47	LOS	O2O	UE speed: 120 Km/h, Format 0
	Ericsson	-13.9	144.7	157.8	142.6	NLOS	O2I	Δ>0; See R1-2008343 2 Rx ISD 6km Format 0 10% miss
	Ericsson	-8.2	139.0	152.2	137.0	NLOS	O2I	Δ>0; See R1-2008343 2 Rx ISD 6km Format 0 1% miss
	Ericsson	-18.1	148.9	162.7	147.5	NLOS	O2I	Δ>0; See R1-2008343 4 Rx ISD 6km Format 0 10% miss
	Ericsson	-14.6	145.4	158.5	143.3	NLOS	O2I	Δ>0; See R1-2008343 4 Rx ISD 6km Format 0 1% miss
	ZTE	-9.17	130.79	137.04	114.26	NLOS	O2I	2Rx, Format 0 , P_MD=1% Δ1=0,Δ2=7.55
Format B4	vivo	-13.55	132.16	142.18	121.23	NLOS	O2I	Format B4
	vivo	-13.84	132.45	142.47	123.02	NLOS	O2O	Format B4
	CATT	-16.95	135.72	148.7	127.8	NLOS	O2I	UE speed:3kmph Format B4
	CATT	-17.1	135.87	148.9	129.45	NLOS	O2O	UE speed:120kmph Format B4
	CATT	-19.39	138.16	151.19	130.4	LOS	O2I	UE speed:3kmph Format B4
	CATT	-19.96	138.73	151.76	134.7	LOS	O2O	UE speed:120kmph Format B4
	ZTE	-10.93	129.54	135.02	115.57	NLOS	O2O	2Rx, F-B4, P_MD=1% Δ1=0,Δ2=7.55.
	ZTE	-11.59	130.2	135.68	114.49	NLOS	O2I	2Rx, F-B4, P_MD=1% Δ1=0,Δ2=7.55
Format C2



Rural with long distance 700 MHz FDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 0	vivo	-18.47	140.09	150.11	129.32	LOS	O2I	Format 0
	vivo	-18.22	139.84	149.86	132.8	LOS	O2O	Format 0
	CATT	-17.82	139.57	152.6	135.54	LOS	O2O	UE speed:120kmph Format 0
Format B4	vivo	-18.64	137.52	147.27	126.48	LOS	O2I	Format B4
	vivo	-18.58	137.19	147.21	130.15	LOS	O2O	Format B4
	CATT	-19.72	138.49	151.52	134.46	LOS	O2O	UE speed:120kmph Format B4
	ZTE	-13.7	132.31	137.79	122.79	LOS	O2O	2Rx, F-B4, P_MD=1% Δ1=0,Δ2=7.55
Format C2



Rural with long distance 4 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
Format 0	vivo	-14.59	151.27	155.27	132.45	LOS	O2I	Format 0
	vivo	-12.49	149.17	153.17	136.11	LOS	O2O	Format 0
	CATT	-17.38	151.13	155.13	140.02	LOS	O2O	UE speed:120kmph Format 0
Format B4	vivo	-15.53	146.19	150.19	127.37	LOS	O2I	Format B4
	vivo	-15.53	146.19	150.19	133.13	LOS	O2O	Format B4
	CATT	-19.85	150.62	154.62	139.51	LOS	O2O	UE speed:120kmph Format B4
	Ericsson	-20	154.6	166.7	148.8	NLOS	O2I	4 Rx 3km/h ISD 3km Format B4 1% miss
	Ericsson	-16.6	151.1	162.2	144.3	NLOS	O2I	4 Rx 3km/h ISD 3km Format B4 10% miss
Format C2

Table 1-8: Broadcast PDCCH(PDCCH of Msg.2) for FR1

Urban 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-8.49	151.53	157.65	123.84	The correction factor for BF gain of broadcast channel is 8 dB
Qualcomm	-11.5	147.5	159.3	125.5	53 dBm DL Tx power. See Tdoc for addl. Details.
Qualcomm	-11.5	138.5	150.3	116.5	44 dBm DL Tx power. See Tdoc for addl. Details.
Sharp	-7.50	152.52	161.29	127.48	REG bundle size = 6
Ericsson	-9.8	151.3	160.5	135.4	Δ>0; See R1-2008343 4 Rx 3km/h 2 symbols AL 16 non-interleaved
ZTE	-11.4	149.00	154.82	120.58	40bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=13.38,
Apple	-11.6	151.64	160.41	126.60	Antenna gain correction factor Δ1 is 8dB
Urban 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-8.46	151.5	157.62	123.81	The correction factor for BF gain of broadcast channel is 8 dB
ZTE	-11.63	149.23	155.05	122.93	40bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=13.38,
Apple	-11.70	151.74	160.51	126.70	Antenna gain correction factor Δ1 is 8dB
CMCC	-12.00	157.04	165.81	132.00	The correction factor for BF gain of broadcast channel is 6 dB

Rural 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-8.49	151.53	157.65	123.84	NLOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-8.51	151.55	152.9	133.45	NLOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
Sharp	-7	152.02	156.02	135.07	NLOS	O2I	REG bundle size = 6
ZTE	-11.44	155.31	156.31	132.48	NLOS	O2I	40bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=10.17
ZTE	-11.49	155.36	156.36	136.91	NLOS	O2O	40bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=10.17
Rural 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-8.46	151.5	152.85	129.87	NLOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-8.48	151.52	152.87	133.42	NLOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
ZTE	-11.64	155.51	156.51	123.3	NLOS	O2I	40bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=10.17
ZTE	-11.61	155.48	156.48	137.03	NLOS	O2O	40bits, 4Rx, DL PSD =33dBm, 1% BLER, Δ1+ Δ2=10.17
CMCC	-12.0	157.04	161.04	140.09	NLOS	O2I	DDDDDDDSUU The correction factor for BF gain of broadcast channel is 6 dB
Rural 2 GHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-9.27	148.26	153.65	132.7	NLOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-9.44	148.43	153.82	134.37	NLOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
ZTE	-8.43	147.42	153.67	130.89	NLOS	O2I	40bits, 2Rx, DL PSD =36dBm, 1% BLER, Δ1=0 Δ2=9.79
ZTE	-8.41	147.40	153.65	134.20	NLOS	O2O	40bits, 2Rx, DL PSD =36dBm, 1% BLER, Δ1=0 Δ2=9.79
Rural 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-5.62	144.61	154.99	134.04	NLOS	O2I	The correction factor for BF gain of broadcast channel is 0 dB
vivo	-5.93	144.92	155.3	135.85	NLOS	O2O	The correction factor for BF gain of broadcast channel is 0 dB
Qualcomm	-9	148	161	140	NLOS	O2I	UE speed 3kmph
Qualcomm	-9	148	161	141.5	NLOS	O2O	UE speed 120 kmph
ZTE	-7.43	146.42	151.90	132.45	NLOS	O2O	40bits, 2Rx, DL PSD =36dBm, 1% BLER, Δ1=0 Δ2=7.55
Apple	-8.7	147.69	157.71	136.76	NLOS	O2I	Antenna gain correction factor is 0dB
Ericsson	-6.1	144.1	156.6	141.4	NLOS	O2I	Δ>0; See R1-2008343 2 Rx 2 symbols AL 16 non-interleaved
Rural with long distance 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-9.12	148.11	158.49	137.7	LOS	O2I	The correction factor for BF gain of broadcast channel is 0 dB
vivo	-9.09	148.08	158.46	141.4	LOS	O2O	The correction factor for BF gain of broadcast channel is 0 dB
ZTE	-7.68	146.67	152.15	137.15	LOS	O2O	40bits, 2Rx, DL PSD =36dBm, 1% BLER, Δ1=0 Δ2=7.55
Rural with long distance 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-11.63	154.67	156.02	133.2	LOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-11.59	162.63	163.98	146.92	LOS	O2O
Ericsson	-9.8	155.8	167.6	149.7	NLOS	O2I	Δ>0; See R1-2008343 4 Rx 3km/h 2 symbols AL 16 non-interleaved

Table 1-9: PDSCH for Msg.2 for FR1

Urban 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-7.92	150.96	157.08	126.35	The correction factor for BF gain of broadcast channel is 8 dB
Qualcomm	-13	149	160.8	130	53 dBm DL Tx Power. See Tdoc for addl details.
Qualcomm	-13	140	151.8	121	44 dBm DL Tx Power. See Tdoc for addl details.
Intel	-6.94	154.97	159.03	128.30
Sharp	-12	156.52	165.29	134.56	Scaling factor = 0.25
Ericsson	-12.2	158.8	168.6	143.4	Δ>0; See R1-2008343 4 Rx 10% BLER 1 transmission 3 kmph TB scaling ¼ Precoder cycling
Ericsson	-9.8	151.3	160.5	135.4	Δ>0; See R1-2008343 4 Rx 1% BLER 1 transmission 3 kmph TB scaling ¼ Precoder cycling
Apple	-5.2	145.24	154.01	123.28	3RPBs
Urban 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-7.98	151.02	157.14	126.41	The correction factor for BF gain of broadcast channel is 8 dB
Apple	-5	145.04	153.81	123.08	3RPB

Rural 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-7.92	150.96	152.31	132.65	NLOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-7.68	150.72	152.07	136.46	NLOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
Intel	-6.94	154.97	155.76	138.13	NLOS	O2I
Intel	-6.97	155.00	155.79	140.18	NLOS	O2O
Sharp	-12	156.52	160.52	142.89	NLOS	O2I	Scaling factor = 0.25
Rural 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-7.98	151.02	152.37	132.71	NLOS	O2I	DDDDDDDSUU The correction factor for BF gain of broadcast channel is 8 dB
vivo	-7.78	150.82	152.17	136.56	NLOS	O2O	DDDDDDDSUU The correction factor for BF gain of broadcast channel is 8 dB
Rural 2 GHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-8.18	147.17	152.56	134.93	NLOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-7.85	146.84	152.23	136.62	NLOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
Rural 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-3.46	142.45	149.82	132.19	NLOS	O2I	The correction factor for BF gain of broadcast channel is 0 dB
vivo	-3.47	142.46	149.83	134.22	NLOS	O2O	The correction factor for BF gain of broadcast channel is 0 dB
Qualcomm	-10	149	162	144.4	NLOS	O2I	3kmph
Qualcomm	-10	149	162	146.4	NLOS	O2O	120 kmph
Intel	-3.00	141.99	155.02	137.39	NLOS	O2I
Intel	-3.00	141.99	155.02	139.41	NLOS	O2O
Apple	-2.6	141.59	151.61	133.98	NLOS	O2I
Ericsson	-8.9	148.0	161.1	145.9	NLOS	O2I	Δ>0; See R1-2008343 2 Rx 10% BLER 1 transmission TB scaling ¼ Precoder cycling
Ericsson	-5.5	143.0	155.6	140.4	NLOS	O2I	Δ>0; See R1-2008343 2 Rx 1% BLER 1 transmission TB scaling ¼ Precoder cycling
Rural with long distance 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-8.35	147.34	154.71	137.19	LOS	O2I	The correction factor for BF gain of broadcast channel is 0 dB
vivo	-8.1	147.09	154.46	140.67	LOS	O2O	The correction factor for BF gain of broadcast channel is 0
Intel	-3.20	142.19	155.22	141.43	LOS	O2O
Rural with long distance 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-10	153.04	154.39	134.84	LOS	O2I	The correction factor for BF gain of broadcast channel is 8 dB
vivo	-9.51	152.55	153.9	140.11	LOS	O2O	The correction factor for BF gain of broadcast channel is 8 dB
Ericsson	-11.8	157.5	168.6	150.8	NLOS	O2I	Δ>0; See R1-2008343 4 Rx 10% BLER 1 transmission 3 kmph TB scaling ¼ Precoder cycling
Ericsson	-9	154.7	166.5	148.6	NLOS	O2I	Δ>0; See R1-2008343 4 Rx 1% BLER 1 transmission 3 kmph TB scaling ¼ Precoder cycling

Table 1-10: PUSCH of Msg.3 for FR1

Urban 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-2.03	143.54	152.32	121.59	2 DMRS symbols for each hop
Qualcomm	-16.5	143	155.7	125	See Tdoc for details
CATT	-5	143.46	152.23	121.5	NLOS, O2I, 3kmph
Panasonic	-5.7	144.70	153.47	122.74	w/ FH
Intel	-6.30	145.30	152.37	121.64	3 DMRS symbols
Sharp	-3.5	141.50	150.27	119.54
Ericsson	-12.1	148.5	158.8	133.6	Δ>0; See R1-2008343 1% rBLER 4 Rx 3km/h No FH 8 transmissions Different freq. for every re-tx
ZTE	-7.33	145.83	151.65	120.49	4Rx, 56bits, 2RBs, 10% iBLER, Δ1=0, Δ2=2.95
Huawei, Hisilicon	-6.4		155.92	125.19	No FH
Huawei, Hisilicon	-6.7		156.22	125.49	FH
Nokia/NSB	-1.29	142.80	140.80	110.07	NLOS/O2I
Nokia/NSB	-1.29	142.80	140.80	126.92	NLOS/O2O
Urban 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-2.22	143.73	152.5	121.77	2 DMRS symbols for each hop
CATT	-5.3	143.76	152.53	121.8	NLOS, O2I, 3kmph
ZTE	-7.06	145.56	151.38	122.34	4Rx, 56bits, 2RBs, 10% iBLER, Δ1=0, Δ2=2.95
CMCC	-5.60	147.10	155.87	125.14	3 DMRS symbol UE 26dBm TxP
CMCC	-5.60	144.1	152.87	122.14	3 DMRS symbol UE 23dBm TxP
Apple	-5.5	136	144.77	114.04	Antenna gain correction factor Δ1 is 8dB NLOS, O2I, 3kmph
Huawei, Hisilicon	-6.4		155.92	125.19	No frequency hopping
Huawei, Hisilicon	-6.7		156.22	125.49	Frequency hopping

Rural 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-2.03	143.54	147.54	127.88	NLOS	O2I	2 DMRS symbols for each hop
vivo	-2.21	143.72	147.72	132.11	NLOS	O2O	2 DMRS symbols for each hop
CATT	-5	143.46	147.46	130.48	NLOS	O2I	UE speed:3kmph
CATT	-5	143.46	147.46	133.98	NLOS	O2O	UE speed:120kmph
CATT	-6.9	145.36	149.36	131.22	LOS	O2I	UE speed:3kmph
CATT	-7.3	145.76	149.76	137.40	LOS	O2O	UE speed:120kmph
Panasonic	-5.7	144.70	148.70	131.72	NLOS	O2I	w/ FH
Panasonic	-5.7	144.70	148.70	134.85	NLOS	O2O	w/ FH
Intel	-6.30	145.30	149.10	131.47	NLOS	O2I	3 DMRS symbols
Intel	-6.30	145.30	149.10	133.49	NLOS	O2O	3 DMRS symbols
Sharp	-4	142.00	146.00	128.37	NLOS	O2I
Huawei, Hisilicon	-6.4		151.15/	131.49	NLOS	O2I	No FH
Huawei, Hisilicon	-6		150.75	135.14	NLoS	O2O	No FH
Huawei, Hisilicon	-6.7		151.45	131.79	NLoS	O2I	FH
Huawei, Hisilicon	-6.1		150.85	135.24	NLoS	O2O	FH
ZTE	-7.33	145.83	146.83	126.32	NLOS	O2I	4Rx, 56bits, 2RBs, 10% iBLER, Δ1=0, Δ2=3
ZTE	-8.01	146.51	147.51	131.90	NLOS	O2O	4Rx, 56bits, 2RBs, 10% iBLER, Δ1=0, Δ2=3
Nokia/NSB	-0.80	142.31	138.41	119.57	NLOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-5.63	147.14	143.24	126.32	LOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-0.80	142.31	138.41	122.73	NLOS	O2O	UE speed: 120 Km/h
Nokia/NSB	-5.34	146.86	142.96	129.16	LOS	O2O	UE speed: 120 Km/h
Rural 2.6 GHz TDD
vivo	-2.22	143.73	147.73	128.07	NLOS	O2I	2 DMRS symbols for each hop
vivo	-2.33	143.84	147.84	132.23	NLOS	O2O	2 DMRS symbols for each hop
CATT	-5.4	143.86	147.86	130.88	NLOS	O2I	UE speed:3kmph
CATT	-5	143.46	147.46	133.98	NLOS	O2O	UE speed:120kmph
CATT	-6.9	145.36	149.36	131.22	LOS	O2I	UE speed:3kmph
CATT	-7.3	145.76	149.76	137.40	LOS	O2O	UE speed:120kmph
ZTE	-7.06	145.56	146.56	126.67	NLOS	O2I	4Rx, 56bits, 2RBs, 10% iBLER, Δ1=0, Δ2=3
ZTE	-7.68	146.18	147.18	131.57	NLOS	O2O
CMCC	-5.6	147.10	151.10	133.47	NLOS	O2I	UE 26dBm TxP
CMCC	-5.6	144.1	148.1	130.47	NLOS	O2I	UE 23dBm TxP
Rural 2 GHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-3.47	132.94	148.98	131.35	NLOS	O2I	2 DMRS symbols for each hop
vivo	-3.11	132.58	148.62	133.01	NLOS	O2O	2 DMRS symbols for each hop
CATT	-5.8	135.27	151.31	133.68	NLOS	O2I	UE speed:3kmph
CATT	-5	134.47	150.51	134.9	NLOS	O2O	UE speed:120kmph
CATT	-7	134.88	152.51	134.99	LOS	O2I	UE speed:3kmph
CATT	-7.3	136.77	152.81	139.02	LOS	O2O	UE speed:120kmph
Panasonic	-2.0	131.97	148.01	130.38	NLOS	O2I	w/ FH
Panasonic	-1.9	131.87	147.91	132.30	NLOS	O2O	w/ FH
Huawei, Hisilicon	-6.5		149.25	130.62	NLOS	O2I	No FH
Huawei, Hisilicon	-6.25		/149.00	/133.39	NLOS	O2O	No FH
Huawei, Hisilicon	-6.8		149.55	130.92	NLOS	O2I	FH
Huawei, Hisilicon	-6.35		149.10	133.49	NLOS	O2O	FH
ZTE	-3.04	132.51	138.76	119.30	NLOS	O2I	2Rx, 56bits, 2RBs, 10% iBLER, Δ1=0,Δ2=9.79
ZTE	-3.16	132.63	138.88	123.27	NLOS	O2O	2Rx, 56bits, 2RBs, 10% iBLER, Δ1=0,Δ2=9.79
Nokia/NSB	-4.47	133.94	139.89	121.05	NLOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-5.84	135.31	141.27	124.35	LOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-4.47	133.94	139.89	124.21	NLOS	O2O	UE speed: 120 Km/h
Nokia/NSB	-5.53	135.00	140.95	127.15	LOS	O2O	UE speed: 120 Km/h
Rural 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-6.81	136.28	146.3	128.67	NLOS	O2I	2 DMRS symbols for each hop
vivo	-6.76	136.23	146.25	130.64	NLOS	O2O	2 DMRS symbols for each hop
Qualcomm	-6	135.5	148.5	130.9	NLOS	O2I	3kmph
Qualcomm	-6	135.5	148.5	132.9	NLOS	O2O	120 kmph
CATT	-6.2	135.67	148.7	131.07	NLOS	O2I	UE speed:3kmph
CATT	-5	134.47	147.5	131.89	NLOS	O2O	UE speed:120kmph
CATT	-7.4	136.87	149.9	132.38	LOS	O2I	UE speed:3kmph
CATT	-8.8	138.27	150	136.21	LOS	O2O	UE speed:120kmph
Panasonic	-2.0	131.97	145.00	127.37	NLOS	O2I	w/ FH
Panasonic	-2.1	132.07	145.10	129.49	NLOS	O2O	w/ FH
Intel	-3.00	132.97	149.01	131.38	NLOS	O2I	3 DMRS symbols
Intel	-3.00	132.97	149.01	133.40	NLOS	O2O	3 DMRS symbols
ZTE	-3.47	132.94	138.42	122.81	NLOS	O2O	2Rx, 56bits, 2RBs, 10% iBLER, Δ1=0,Δ2=7.55
Nokia/NSB	-3.66	133.13	138.88	120.04	NLOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-5.50	134.97	140.72	123.80	LOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-3.66	133.13	138.88	123.20	NLOS	O2O	UE speed: 120 Km/h
Nokia/NSB	-5.78	135.25	141.00	127.20	LOS	O2O	UE speed: 120 Km/h
Ericsson	-6.7	139.7	152.9	137.7	NLOS	O2I	Δ>0; See R1-2008343 1% rBLER 2 Rx No FH 8 transmissions, different freq. for every re-tx
Rural with long distance 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-6.92	136.39	146.41	128.89	LOS	O2I	2 DMRS symbols for each hop
vivo	-7	136.47	146.49	132.7	LOS	O2O	2 DMRS symbols for each hop
CATT	-7.5	136.97	150	136.21	LOS	O2O	UE speed:120kmph
Intel	-5.10	135.07	151.11	137.32	LOS	O2O	3 DMRS symbols
ZTE	-6.4	135.87	141.35	127.56	LOS	O2O	2Rx, 56bits, 2RBs, 10% iBLER, Δ1=0,Δ2=7.55
Huawei, Hisilicon	-8.7		148.69	134.90	LOS	O2O	No FH
Huawei, Hisilicon	-8.9		148.89	135.10	LOS	O2O	FH
Rural with long distance 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-5.46	146.97	150.97	131.42	LOS	O2I	2 DMRS symbols for each hop
vivo	-4.99	146.5	150.5	136.71	LOS	O2O	2 DMRS symbols for each hop
CATT	-7.4	145.86	149.86	137.5	LOS	O2O	UE speed:120kmph
Ericsson	-12.1	149.9	161.5	143.7	NLOS	O2I	Δ>0; See R1-2008343 1% rBLER 4 Rx 3km/h No FH 8 transmissions Different freq. for every re-tx

Table 1-11: PDSCH of Msg.4 for FR1

Urban 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-9.44	152.48	158.6	127.87	MCS0 The correction factor for BF gain of broadcast channel is 8 dB
Qualcomm	-8.5	144.5	156.3	125.5	53 dBm downlink power. No HARQ
Qualcomm	-8.5	135.5	147.3	116.5	44 dBm downlink power. No HARQ
Intel	-8.71	157.24	161.30	130.57
Sharp	-7.5	152.02	160.79	130.06	8 Tx beams
Ericsson	-11.5	157.5	166.1	141.0	Δ>0; See R1-2008343 1% rBLER 4 Rx 4 transmissions 3kmph Precoder cycling 42 PRBs
ZTE	-12.61	150.21	156.03	124.87	1000bits, 36RBs, MCS0, 4Rx, DL PSD =33dBm, 10% BLER, Δ1+ Δ2=13.38
Apple	-8.1	148.14	156.91	126.18	Antenna gain correction factor Δ1 is 8dB NLOS O2I
Urban 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-9.48	152.52	158.64	127.91	MCS0 The correction factor for BF gain of broadcast channel is 8 dB
ZTE	-12.74	150.34	156.16	127.12	1000bits, 36RBs, MCS0, 4Rx, DL PSD =33dBm, 10% BLER, Δ1+ Δ2=13.38
Apple	-8.3	148.34	157.11	126.38	Antenna gain correction factor Δ1 is 8dB NLOS O2I

Rural 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-9.44	152.48	153.83	134.17	NLOS	O2I	MCS0 The correction factor for BF gain of broadcast channel is 8 dB
vivo	--9.25	152.29	153.64	138.03	NLOS	O2O	MCS0 The correction factor for BF gain of broadcast channel is 8 dB
Intel	-8.71	157.24	158.03	140.40	NLOS	O2I	2 DMRS symbols
Intel	-8.44	156.97	157.76	142.15	NLOS	O2O	2 DMRS symbols
Sharp	-7.5	152.02	156.02	138.39	NLOS	O2I	8 Tx beams
ZTE	-12.45	156.32	157.32	136.81	NLOS	O2I	1000bits, 36RBs, MCS0, 4Rx, DL PSD =33dBm, 10% BLER, Δ1+ Δ2=10.17
ZTE	-8.46	152.33	153.33	137.72	NLOS	O2O	1000bits, 40RBs, MCS0, 4Rx, DL PSD =33dBm, 10% BLER, Δ1+ Δ2=10.17
Rural 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-9.48	152.52	153.87	134.21	NLOS	O2I	DDDDDDDSUU MCS0 The correction factor for BF gain of broadcast channel is 8 dB
vivo	-9.24	152.28	153.63	138.02	NLOS	O2O	DDDDDDDSUU MCS0 The correction factor for BF gain of broadcast channel is 8 dB
ZTE	-12.81	156.68	157.68	137.79	NLOS	O2I	DDDDDDDSUU MCS0 1000bits, 36RBs, MCS0, 4Rx, DL PSD =33dBm, 10% BLER, Δ1+ Δ2=10.17
ZTE	-8.49	152.36	153.36	137.75	NLOS	O2O	DDDDDDDSUU MCS0 1000bits, 40RBs, MCS0, 4Rx, DL PSD =33dBm, 10% BLER, Δ1+ Δ2=10.17
Rural 2 GHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-8.92	147.91	153.3	135.67	NLOS	O2I	MCS0 The correction factor for BF gain of broadcast channel is 8 dB
vivo	-8.92	147.91	153.3	137.69	NLOS	O2O	MCS0 The correction factor for BF gain of broadcast channel is 8 dB
ZTE	-8.56	147.55	153.80	134.34	NLOS	O2I	1000bits, 18RBs, MCS0, 4Rx, DL PSD =36dBm, 10% BLER, Δ1+ Δ2=9.79
ZTE	-5.35	144.34	150.59	134.98	NLOS	O2O	1000bits, 20RBs, MCS0, 4Rx, DL PSD =36dBm, 10% BLER, Δ1+ Δ2=9.79
Rural 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-4.89	143.88	151.25	133.62	NLOS	O2I	MCS0 The correction factor for BF gain of broadcast channel is 0 dB
vivo	-4.65	143.64	151.01	135.4	NLOS	O2O
Qualcomm	-6	145	158	140.4	NLOS	O2I	No HARQ, 3kmph
Qualcomm	-6	145	158	142.4	NLOS	O2O	No HARQ, 120 kmph
Intel	-5.60	145.09	158.12	140.49	NLOS	O2I	2 DMRS symbols
Intel	-5.50	144.99	158.02	142.41	NLOS	O2O	2 DMRS symbols
ZTE	-5.75	144.74	150.22	134.61	NLOS	O2O	1000bits, 20RBs, MCS0, 4Rx, DL PSD =36dBm, 10% BLER, Δ1+ Δ2=7.55
Apple	-6.7	145.69	155.71	138.08	NLOS	O2I
Ericsson	-10.5	150.1	163.7	148.4	NLOS	O2I	Δ>0; See R1-2008343 4 transmissions 300ns TDL-C, 3kmph or 120kmph Precoder cycling 42 PRBs
Rural with long distance 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-8.71	147.7	155.07	137.55	LOS	O2I	MCS0 The correction factor for BF gain of broadcast channel is 0 dB
vivo	-8.11	147.1	154.47	140.68	LOS	O2O
Intel	-6.00	145.49	158.52	144.73	LOS	O2O	2 DMRS symbols
ZTE	-5.76	144.75	150.23	136.44	LOS	O2O	1000bits, 20RBs, MCS0, 4Rx, DL PSD =36dBm, Δ1+ Δ2=7.55
Rural with long distance 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-10.44	153.48	154.83	135.28	LOS	O2I	MCS0 The correction factor for BF gain of broadcast channel is 8 dB
vivo	-9.79	152.83	154.18	140.39	LOS	O2O
Ericsson	-10.6	156.5	168.3	150.5	NLOS	O2I	Δ>0; See R1-2008343 1% rBLER 4 Rx 4 transmissions 3kmph Precoder cycling 42 PRBs

Table 1-12: PUCCH with HARQ-ACK for Msg.4 for FR1

Urban 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Sharp	-12	150.44	159.21	125.40	format 1, 1 bit
ZTE	-11.60	150.04	155.86	121.62	PF1 with 1bit, 4Rx, Δ1=0, Δ2=2.95
CATT	-6.9	145.3	154.07	120.26	Format 1, 1 bits
Urban 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
ZTE	-11.76	150.20	156.02	123.90	PF1 with 1bit, 4Rx, Δ1=0, Δ2=2.95

Rural 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
ZTE	-11.60	150.04	151.04	127.21	NLOS	O2I	PF1 with 1bit, 4Rx, Δ1=0, Δ2=3
ZTE	-11.65	150.09	151.09	131.64	NLOS	O2O	PF1 with 1bit, 4Rx, Δ1=0, Δ2=3
Sharp	-11.5	149.94	153.94	132.99	NLOS	O2I	format 1, 1 bit
Rural 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
ZTE	-11.76	150.20	151.20	127.99	NLOS	O2I	PF1 with 1bit, 4Rx, Δ1=0, Δ2=3
ZTE	-11.67	150.11	151.11	131.66	NLOS	O2O	PF1 with 1bit, 4Rx, Δ1=0, Δ2=3
Rural 2 GHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
ZTE	-7.53	136.94	143.19	120.41	NLOS	O2I	PF1 with 1bit, 2Rx, Δ1=0,Δ2=9.79
ZTE	-7.52	136.93	143.18	123.73	NLOS	O2O	PF1 with 1bit, 2Rx, Δ1=0,Δ2=9.79
CATT	-7.3	152.75	136.71	131.8	NLOS	O2I	PF1, 1 bits
CATT	-7.2	152.65	136.61	133.2	NLOS	O2O	PF1, 1 bits
Rural 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
ZTE	-7.49	136.90	142.38	122.93	NLOS	O2O	PF1 with 1bit, 2Rx, Δ1=0,Δ2=7.55
ZTE	-7.52	136.93	142.41	121.22	NLOS	O2I	PF1 with 1bit, 2Rx, Δ1=0,Δ2=7.55
Rural with long distance 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
ZTE	-10.65	140.06	145.54	130.54	LOS	O2O	PF1 with 1bit, 2Rx, Δ1=0,Δ2=7.55
Rural with long distance 4 GHz TDD

Table 1-13: Unicast PDCCH for FR1

Urban 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-8.5	159.54	165.66	131.85
CATT	-9.64	148.63	157.4	123.59	NLOS, O2I, 3kmph
Panasonic	-11.0	150.03	158.80	124.99
Samsung	-11.25	138.27	165.11	131.30	48 PRBs
NTT DOCOMO	-10.92	150.0	154.8	124.0	24 dBm/MHz
NTT DOCOMO	-10.92	159.0	163.8	133.0	33 dBm/MHz
Intel	-10.00	158.03	163.26	129.45
Sharp	-7.50	158.54	167.31	133.50	REG bundle size = 6
OPPO	-12.55	153.55	162.32	128.51
Ericsson	-9.8	159.4	168.8	143.7	Δ>0; See R1-2008343 1% BLER 4 Rx 3km/h 2 symbols AL 16 non-interleaved
Nokia/NSB	-8.56	159.60	162.60	128.77	NLOS/O2I
Nokia/NSB	-8.38	159.42	162.42	145.32	NLOS/O2O
ZTE	-11.4	159.43	165.25	131.01	4Rx, DL PSD =33dBm, Δ1=0, Δ2=2.95
Huawei, Hisilicon	-9.8		163.71	129.90
Apple	-11.60	159.64	168.41	134.60	NLOS, O2I, 3kmph
Urban 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-8.42	159.46	165.58	131.77
CATT	-9.89	148.88	157.65	123.84	NLOS, O2I, 3kmph
ZTE	-11.63	159.66	165.48	133.36	4Rx, DL PSD =33dBm, Δ1=0, Δ2=2.95
Apple	-11.70	159.74	168.51	134.70	NLOS, O2I, 3kmph
OPPO	-12.51	154.95	163.72	129.91
CMCC	-11.32	156.36	165.13	131.32	With 6dB correction factor for 8 beams
Huawei, Hisilicon	-9.8		163.71	129.90

Rural 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-8.5	159.54	160.89	137.91	NLOS	O2I
vivo	-8.46	159.5	160.85	141.4	NLOS	O2O
CATT	-9.64	148.63	152.63	132.57	NLOS	O2I	UE speed:3kmph
CATT	-10.37	149.36	153.36	136.29	NLOS	O2O	UE speed:120kmph
CATT	-11.15	150.14	154.14	133.24	LOS	O2I	UE speed:3kmph
CATT	-11.71	150.70	154.7	139.59	LOS	O2O	UE speed:120kmph
InterDigital	-8.5	155.54	162.55	139.88	NLOS	O2I	UE speed = 3km/hr, no antenna gain correction factor, details in R1-2009169
Panasonic	-11.0	150.03	154.03	133.97	NLOS	O2I
Panasonic	-11.0	150.03	154.03	146.96	NLOS	O2O
Samsung	-11.30	154.52	159.53	138.58	NLOS	O2I	48 PRBs
Samsung	-11.20	154.42	159.43	139.98	NLOS	O2O	48 PRBs
NTT DOCOMO	-12.02	151.1	155.9	142.4	LOS	O2O	24 dBm/MHz
NTT DOCOMO	-12.02	160.1	164.9	151.4	LOS	O2O	33 dBm/MHz
Intel	-10.00	158.03	159.78	138.83	NLOS	O2I
Intel	-10.00	158.03	159.78	140.33	NLOS	O2O
Sharp	-7	158.04	162.04	141.09	NLOS	O2I	REG bundle size = 6
OPPO	-12.55	153.55	172.60	151.65	NLOS	O2I
OPPO	-12.47	153.47	172.52	153.07	NLOS	O2O
OPPO	-11.33	152.33	171.38	150.43	LOS	O2I
OPPO	-11.23	152.23	171.28	151.83	LOS	O2O
Nokia/NSB	-8.56	159.60	159.70	137.16	NLOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-9.56	160.60	160.70	140.68	LOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-8.38	159.42	159.52	140.04	NLOS	O2O	UE speed: 120 Km/h
Nokia/NSB	-9.50	160.54	160.64	143.60	LOS	O2O	UE speed: 120 Km/h
Huawei, Hisilicon	-9.8		158.94	135.96	NLOS	O2I
Huawei, Hisilicon	-9.7		158.84	139.39	NLOS	O2O
ZTE	-11.44	162.48	163.48	139.65	NLOS	O2I	4Rx, DL PSD =33dBm, Δ1=0, Δ2=3,
ZTE	-11.49	162.53	163.53	144.08	NLOS	O2O	4Rx, DL PSD =33dBm, Δ1=0, Δ2=3,
Rural 2.6 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-8.42	159.46	160.81	137.83	NLOS	O2I
vivo	-8.09	144.77	148.77	129.32	NLOS	O2O
CATT	-9.89	148.88	152.88	132.82	NLOS	O2I	UE speed:3kmph
CATT	-10.32	149.31	153.31	136.24	NLOS	O2O	UE speed:120kmph
CATT	-11.62	150.61	154.61	133.71	LOS	O2I	UE speed:3kmph
CATT	-11.48	150.47	154.47	139.36	LOS	O2O	UE speed:120kmph
ZTE	-11.64	162.68	163.68	140.47	NLOS	O2I	4Rx, DL PSD =33dBm, 1% BLER, Δ1=0, Δ2=3
ZTE	-11.61	162.65	163.65	144.20	NLOS	O2O	4Rx, DL PSD =33dBm, 1% BLER, Δ1=0, Δ2=3
OPPO	-12.51	153.51	172.56	151.61	NLOS	O2I
OPPO	-12.50	153.50	172.55	153.10	NLOS	O2O
OPPO	-11.34	152.34	171.39	150.44	LOS	O2I
OPPO	-11.34	152.34	171.39	151.94	LOS	O2O
CMCC	-11.3	156.36	160.36	139.41	NLOS	O2I	With 6dB correction factor due to 8 beams
Rural 2 GHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-9.33	148.32	161.71	140.76	NLOS	O2I
vivo	-9.32	148.31	161.7	142.25	NLOS	O2O
CATT	-9.9	150.9	161.92	140.97	NLOS	O2I	UE speed:3kmph
CATT	-10.45	149.44	162.47	143.02	NLOS	O2O	UE speed:120kmph
CATT	-11.83	152.83	163.85	143.06	LOS	O2I	UE speed:3kmph
CATT	-11.81	150.8	163.83	146.77	LOS	O2O	UE speed:120kmph
Panasonic	-7.6	146.58	162.62	141.67	NLOS	O2I
Panasonic	-7.7	146.68	162.72	143.27	NLOS	O2O
Samsung	-11.40	151.58	168.63	147.68	NLOS	O2I	48 PRBs
Samsung	-11.40	151.58	168.63	149.18	NLOS	O2O	48 PRBs
Nokia/NSB	-6.00	144.99	153.84	131.30	NLOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-8.13	147.11	155.97	135.95	LOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-5.75	144.74	153.59	134.11	NLOS	O2O	UE speed: 120 Km/h
Nokia/NSB	-8.06	147.05	155.90	138.86	LOS	O2O	UE speed: 120 Km/h
Huawei, Hisilicon	-9.9		162.02	140.07	NLOS	O2I
Huawei, Hisilicon	-9.8		161.92	142.47	NLOS	O2O
ZTE	-8.43	147.42	159.48	136.70	NLOS	O2I	4Rx, DL PSD =36dBm, Δ1=0, Δ2=3.98
ZTE	-8.41	147.40	159.46	140.01	NLOS	O2O	4Rx, DL PSD =36dBm, Δ1=0, Δ2=3.98
OPPO	-8.95	149.95	162.98	142.03	NLOS	O2I
OPPO	-9.05	150.05	163.08	143.63	NLOS	O2O
OPPO	-3.86	144.86	157.89	136.94	LOS	O2I
OPPO	-4.07	145.07	158.10	138.65	LOS	O2O
Rural 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-5.73	144.72	155.1	134.15	NLOS	O2I
vivo	-6.13	145.12	155.5	136.05	NLOS	O2O
CATT	-7.65	146.64	156.66	135.71	NLOS	O2I	UE speed:3kmph
CATT	-7.15	148.15	156.16	136.71	NLOS	O2O	UE speed:120kmph
CATT	-9.61	148.6	158.62	137.83	LOS	O2I	UE speed:3kmph
CATT	-11.55	158.98	158.18	141.12	LOS	O2O	UE speed:120kmph
InterDigital	-6.2	148.19	158.21	136.59	NLOS	O2I	UE speed = 3km/hr, no antenna gain correction factor, details in R1-2009169
Panasonic	-7.6	146.58	159.61	138.66	NLOS	O2I
Panasonic	-7.5	146.48	159.51	140.06	NLOS	O2O
Intel	-6.80	145.79	158.82	137.87	NLOS	O2I
Intel	-6.90	145.89	158.92	139.47	NLOS	O2O
Nokia/NSB	-6.00	144.99	152.34	129.80	NLOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-8.13	147.11	154.47	134.45	LOS	O2I	UE speed: 3 Km/h
Nokia/NSB	-5.75	144.74	152.09	132.61	NLOS	O2O	UE speed: 120 Km/h
Nokia/NSB	-8.06	147.05	154.40	137.36	LOS	O2O	UE speed: 120 Km/h
ZTE	-7.43	146.42	155.59	136.14	NLOS	O2O	4Rx, DL PSD =36dBm, Δ1=0, Δ2=3.86
Apple	-8.7	147.69	157.71	136.76	NLOS	O2I	3kmph
OPPO	-8.96	149.96	162.99	142.04	NLOS	O2I
OPPO	-9.02	150.02	163.05	143.60	NLOS	O2O
OPPO	-3.88	144.88	157.91	136.96	LOS	O2I
OPPO	-3.91	144.91	157.94	138.46	LOS	O2O
Ericsson	-6.1	144.1	156.6	141.4	NLOS	O2I	Δ>0; See R1-2008343 1% BLER 2 Rx 2 symbols AL 16 non-interleaved
Rural with long distance 700 MHz FDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-9.18	148.17	158.55	137.76	LOS	O2I
vivo	-9.07	148.06	158.44	141.38	LOS	O2O
CATT	-8.8	147.79	157.81	140.75	LOS	O2O	UE speed:120kmph
Samsung	-12.30	152.48	163.51	146.45	LOS	O2O	48 PRBs
Intel	-7.70	146.69	159.72	142.66	LOS	O2O
ZTE	-7.68	146.67	155.84	140.84	LOS	O2O	4Rx, DL PSD =36dBm, Δ1=0, Δ2=3.86
Huawei, Hisilicon	-9.0		161.11	146.11	LOS	O2O
Rural with long distance 4 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
vivo	-11.69	162.73	164.08	141.26	LOS	O2I
vivo	-11.59	162.63	163.98	146.92	LOS	O2O
CATT	-11.4	150.39	154.39	139.28	LOS	O2O	UE speed:120kmph
OPPO	-11.76	152.76	171.81	150.86	NLOS	O2I
OPPO	-11.61	152.61	171.66	152.21	NLOS	O2O
OPPO	-11.36	152.36	171.41	150.46	LOS	O2I
OPPO	-11.26	152.26	171.31	151.86	LOS	O2O
Ericsson	-9.8	159.2	172.6	154.8	NLOS	O2I	Δ>0; See R1-2008343 1% BLER 4 Rx 3km/h 2 symbols AL 16 non-interleaved

Table 1-14: PDSCH for eMBB for FR1

Urban 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	-4.78	156.32	162.44	131.71	90RB, MCS4
	Qualcomm	-10	146	157.8	127	53 dBm DL Tx Power
	Qualcomm	-10	137	148.8	118	44 dBm DL Tx Power
	CATT	-8.8	147.79	156.56	125.83	NLOS, O2I, 3kmph
	Panasonic	-5.9	145.43	154.20	123.47	155 RBs, MCS3
	NTT DOCOMO	-4.93	144.0	148.8	118.0	24 dBm/MHz
	NTT DOCOMO	-4.93	153.0	157.8	127.0	33 dBm/MHz
	Intel	-4.51	153.04	158.27	127.54	MCS = 4, 118 PRBs
	Nokia/NSB	-6.00	157.54	160.54	129.81	NLOS/O2I
	Nokia/NSB	-6.00	157.54	160.54	146.66	NLOS/O2O
	Sharp	-7	157.54	166.31	135.58	MCS0
	OPPO	-5.38	146.38	155.15	124.42	100RB, MCS5
	Ericsson	-9.6	159.1	168.6	143.5	Δ>0; See R1-2008343 4 Rx HARQ, w/ max 4 transmissions 3 kmph
	Apple	-9.2	157.24	166.01	135.28	TBS: 7432; I_MCS=0; 266PRBs


DDDSUDDSUU	vivo	-4.7	156.24	162.36	131.63	106RB, MCS4
	CATT	-7.8	146.79	155.56	124.83	NLOS, O2I, 3kmph
	Panasonic	-5.2	144.73	153.50	122.77	155 RBs, MCS4
	Samsung	-3.3	130.82	157.66	126.93	90 PRBs
	Nokia/NSB	-5.50	157.04	160.04	129.31	NLOS/O2I
	Nokia/NSB	-5.88	157.42	160.42	146.54	NLOS/O2O
	ZTE	-10.95	159.48	165.30	134.14	246RBs, MCS0, 4Rx, DL PSD =33dBm, 10% iBLER, Δ1=0, Δ2=2.95
	Huawei, Hisilicon	-4.5		163.56	132.83
	Apple	-8.1	156.14	164.91	134.18	NLOS, O2I, 3kmph
	OPPO	-4.43	145.43	154.20	123.47	100RB, MCS6


Urban 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDDDDDSUU	vivo	-4.79	156.33	162.45	131.72	90RB,MCS4
	CATT	-8.8	147.79	156.56	125.83	NLOS, O2I, 3kmph
	ZTE	-9.63	158.16	163.98	134.94	246RBs, MCS0, 4Rx, DL PSD =33dBm, 10% iBLER, Δ1=0, Δ2=2.95
	Apple	-9.1	157.14	165.91	135.18	NLOS, O2I, 3kmph
	OPPO	-6.40	156.40	165.17	134.44	100RB, MCS4
	CMCC	-9.90	161.44	170.21	139.48	272 PRB MCS 0
	Huawei, Hisilicon	-4.9		163.96	133.23	234PRB

Rural 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDSU	vivo	-3.71	155.25	156.6	136.94	NLOS	O2I	9RB, MCS4
	Vivo	-3.46	155	156.35	140.74	NLOS	O2O	9RB, MCS4
	CATT	-12.56	151.55	155.55	138.57	NLOS	O2I	UE speed:3kmph
	CATT	-13.8	152.79	156.79	138.65	LOS	O2I	UE speed:3kmph
	Panasonic	-4.9	144.43	148.43	131.45	NLOS	O2I	16 RBs, MCS3
	Panasonic	-5.2	144.73	148.73	134.88	NLOS	O2O	16 RBs, MCS3
	NTT DOCOMO	-3.59	142.7	147.4	133.9	LOS	O2O	24 dBm/MHz
	NTT DOCOMO	-3.59	151.7	156.4	142.9	LOS	O2O	33 dBm/MHz
	Intel	-4.66	153.19	154.94	137.31	NLOS	O2I	14 PRBs, MCS = 3
	Intel	-4.94	153.47	155.22	139.61	NLOS	O2O	14 PRBs, MCS = 4
	Nokia/NSB	-10.00	161.54	161.64	142.80	NLOS	O2I	UE speed: 3 Km/h
	Nokia/NSB	-10.50	162.04	162.14	145.22	LOS	O2I	UE speed: 3 Km/h
	Nokia/NSB	-10.00	161.54	161.64	145.96	NLOS	O2O	UE speed: 120 Km/h
	Nokia/NSB	-10.50	162.04	162.14	148.34	LOS	O2O	UE speed: 120 Km/h
	OPPO	-5.24	146.24	165.29	147.66	NLOS	O2I	20RB, MCS2
	OPPO	-6.57	147.57	166.62	147.57	NLOS	O2O	20RB, MCS2
	OPPO	-6.13	147.13	166.18	148.55	LOS	O2I	20RB, MCS2
	OPPO	-6.94	147.94	166.99	149.36	LOS	O2O	20RB, MCS2
	InterDigital	-6.02	153.06	160.07	140.64	NLOS	O2I	3km/h, no antenna gain correction factor, details in R1-2009169
	Sharp	-7	157.54	161.54	143.91	NLOS	O2I	30 PRBs, MCS0
DDDSUDDSUU	vivo	-4.23	155.77	157.12	137.46	NLOS	O2I	DDDDDDDSUU, 10RB, MCS4
	vivo	-3.94	155.48	156.83	141.22	NLOS	O2O	DDDDDDDSUU, 10RB, MCS4
	Panasonic	-4.2	143.73	147.73	130.75	NLOS	O2I	16 RBs, MCS4
	Panasonic	-4.4	143.93	147.93	134.08	NLOS	O2O	16 RBs, MCS4
	Samsung	-2.65	146.37	151.38	133.75	NLOS	O2I	10 PRBs
	Samsung	-2.95	146.67	151.68	136.07	NLOS	O2O	10 PRBs
	Nokia/NSB	-10.00	161.54	161.64	142.80	NLOS	O2I	UE speed: 3 Km/h
	Nokia/NSB	-10.50	162.04	162.14	145.22	LOS	O2I	UE speed: 3 Km/h
	Nokia/NSB	-10.00	161.54	161.64	145.96	NLOS	O2O	UE speed: 120 Km/h
	Nokia/NSB	-10.50	162.04	162.14	148.34	LOS	O2O	UE speed: 120 Km/h
	Huawei, Hisilicon	-4		158.29	138.63	NLOS	O2I
	Huawei, Hisilicon	-4.35		158.64	143.03	NLOS	O2O
	ZTE	-12.5	164.04	165.04	144.53	NLOS	O2I	40RBs, MCS0, 4Rx, DL PSD =33dBm, 10% iBLER, Δ1=0, Δ2=3
	ZTE	-8.59	160.13	161.13	145.52	NLOS	O2O
	OPPO	-4.16	145.16	164.21	146.58	NLOS	O2I	20RB, MCS3
	OPPO	-5.79	146.79	165.84	148.21	NLOS	O2O	20RB, MCS3
	OPPO	-5.32	146.32	165.37	147.74	LOS	O2I	20RB, MCS3
	OPPO	-5.38	146.38	165.43	147.80	LOS	O2O	20RB, MCS3

Rural 2.6 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDDDDDSUU	vivo	-3.76	155.3	156.65	136.99	NLOS	O2I	DDDDDDDSUU, 9RB, MCS4
	vivo	-3.56	155.1	156.45	140.84	NLOS	O2O	DDDDDDDSUU, 9RB, MCS4
	CATT	-12.6	151.59	155.59	138.61	NLOS	O2I	UE speed:3kmph
	CATT	-13.72	152.71	156.71	138.57	LOS	O2I	UE speed:3kmph
	ZTE	-12.84	164.38	165.38	145.49	NLOS	O2I	40RBs, MCS0, 4Rx, DL PSD =33dBm, 10% iBLER, Δ1=0, Δ2=3
	ZTE	-8.63	160.17	161.17	145.56	NLOS	O2O
	OPPO	-5.32	146.32	165.37	147.74	NLOS	O2I	20RB, MCS1
	OPPO	-5.30	146.30	165.35	147.72	NLOS	O2O	20RB, MCS1
	OPPO	-6.30	147.30	166.35	148.72	LOS	O2I	20RB, MCS1
	OPPO	-4.53	145.53	164.58	146.95	LOS	O2O	20RB, MCS1
	CMCC	-9.9	161.44	165.44	147.81	NLOS	O2I	30 PRB MCS 0
Rural 2 GHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU	vivo	-3.71	143.2	156.59	138.96	NLOS	O2I	12RB, MCS4
	vivo	-3.74	143.23	156.62	141.01	NLOS	O2O	12RB, MCS4
	CATT	-11.86	150.85	163.88	146.25	NLOS	O2I	UE speed:3kmph
	CATT	-12.56	151.55	164.58	147.06	LOS	O2I	UE speed:3kmph
	Panasonic	0.2	139.28	155.32	137.69	NLOS	O2I	16 RBs, MCS4
	Panasonic	0.1	139.38	155.42	139.81	NLOS	O2O	16 RBs, MCS4
	Samsung	-1.6	142.28	159.33	141.70	NLOS	O2I	10 PRBs
	Samsung	-1.9	142.58	159.63	144.02	NLOS	O2O	10 PRBs
	Nokia/NSB	-7.73	147.22	156.07	137.23	NLOS	O2I	UE speed: 3 Km/h
	Nokia/NSB	-9.00	148.49	157.34	140.42	LOS	O2I	UE speed: 3 Km/h
	Nokia/NSB	-7.65	147.14	155.99	140.31	NLOS	O2O	UE speed: 120 Km/h
	Nokia/NSB	-8.80	148.29	157.15	143.35	LOS	O2O	UE speed: 120 Km/h
	Huawei, Hisilicon	-4.25		159.52	140.89	NLOS	O2I
	Huawei, Hisilicon	-4.6		159.87	144.26	NLOS	O2O
	ZTE	-8.66	148.15	160.21	140.75	NLOS	O2I	40RBs, MCS0, 2Rx, DL PSD =36dBm, 10% iBLER, Δ1=0, Δ2=3.98
	ZTE	-5.48	144.97	157.03	141.42	NLOS	O2O	40RBs, MCS0, 2Rx, DL PSD =36dBm, 10% iBLER, Δ1=0, Δ2=3.98
	OPPO	-4.06	145.06	161.10	143.47	NLOS	O2I	20RB, MCS3
	OPPO	-3.30	144.30	160.34	142.71	NLOS	O2O	20RB, MCS3
	OPPO	-4.90	145.90	161.94	144.31	LOS	O2I	20RB, MCS3
	OPPO	-2.70	143.70	159.74	142.11	LOS	O2O	20RB, MCS3
Rural 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU	vivo	1.1	138.39	145.76	128.13	NLOS	O2I	12RB, MCS4
	vivo	0.51	138.98	146.35	130.74	NLOS	O2O	12RB, MCS4
	Qualcomm	-11	150	163	145.4	NLOS	O2I	UE speed:3kmph
	Qualcomm	-11	150	163	147.4	NLOS	O2O	UE speed:120 kmph
	CATT	-9.3	148.29	158.31	140.68	NLOS	O2I	UE speed:3kmph
	CATT	-9.9	148.89	158.91	141.39	LOS	O2I	UE speed:3kmph
	InterDigital	-0.8	142.79	152.81	134.93	NLOS	O2I	UE speed = 3km/hr, 2 DMRS, no antenna gain correction factor, details in R1-2009169
	Panasonic	0.5	138.98	152.01	134.38	NLOS	O2I	16 RBs, MCS4
	Panasonic	0.0	139.48	152.51	136.90	NLOS	O2O	16 RBs, MCS4
	Intel	-0.30	139.79	152.82	135.19	NLOS	O2I	14 PRBs, MCS = 4
	Intel	-1.40	140.89	153.92	138.31	NLOS	O2O	17 PRBs, MCS = 4,
	Nokia/NSB	-7.50	146.99	154.34	135.50	NLOS	O2I	UE speed: 3 Km/h
	Nokia/NSB	-9.00	148.49	155.84	138.92	LOS	O2I	UE speed: 3 Km/h
	Nokia/NSB	-7.71	147.20	154.55	138.87	NLOS	O2O	UE speed: 120 Km/h
	Nokia/NSB	-9.00	148.49	155.84	142.04	LOS	O2O	UE speed: 120 Km/h
	ZTE	-5.87	145.36	154.53	138.92	NLOS	O2O	40RBs, MCS0, 2Rx, DL PSD =36dBm, 10% iBLER, Δ1=0, Δ2=3.86
	Apple	-6.9	145.89	155.91	138.28	NLOS	O2I	3kmph
	OPPO	-3.68	144.68	157.71	140.08	NLOS	O2I	20RB, MCS3
	OPPO	-3.67	144.67	157.70	140.07	NLOS	O2O	20RB, MCS3
	OPPO	-5.63	146.63	159.66	142.03	LOS	O2I	20RB, MCS3
	OPPO	-3.45	144.45	157.48	139.85	LOS	O2O	20RB, MCS3
	Ericsson	-8.9	148.0	161.1	145.9	NLOS	O2I	Δ>0; See R1-2008343 4 Rx HARQ w/ max 4 transmissions 3 kmph
Rural with long distance 700 MHz FDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
UUUUU	vivo	-2.95	142.44	149.81	132.29	LOS	O2I	12RB, MCS4
	vivo	-3	142.49	149.86	136.07	LOS	O2O	12RB, MCS4
	CATT	-12.8	151.79	161.81	148.02	LOS	O2O	UE speed:120kmph
	Samsung	-4.9	145.58	156.61	142.82	LOS	O2O	10 PRBs
	Intel	-1.80	141.29	154.32	140.53	LOS	O2O	17 PRBs, MCS = 4
	ZTE	-5.85	145.34	154.51	140.72	LOS	O2O	40RBs, MCS0, 2Rx, DL PSD =36dBm, 10% iBLER, Δ1=0, Δ2=3.86
	Huawei, Hisilicon	-1.75		154.26	140.47	LOS	O2O
	OPPO	-4.65	145.65	158.68	141.05	NLOS	O2I
	OPPO	-3.31	144.31	157.34	139.71	NLOS	O2O
	OPPO	-5.65	146.65	159.68	142.05	LOS	O2I
	OPPO	-3.45	144.45	157.48	139.85	LOS	O2O
Rural with long distance 4 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	LOS/ NLOS	O2I/ O2O	Key assumptions
DDDSU	vivo	-5.03	156.57	157.92	138.37	LOS	O2I	9RB, MCS4
	vivo	-4.54	156.08	157.43	143.64	LOS	O2I	9RB, MCS4
	OPPO	-4.72	145.72	164.77	147.14	NLOS	O2I	20RB, MCS2
	OPPO	-5.98	146.98	166.03	148.40	NLOS	O2O	20RB, MCS2
	OPPO	-6.04	147.04	166.09	148.46	LOS	O2I	20RB, MCS2
	OPPO	-5.98	146.98	166.03	148.40	LOS	O2O	20RB, MCS2
	Ericsson	-9.6	159.0	172.4	154.5	NLOS	O2I	Δ>0; See R1-2008343 4 Rx HARQ, w/ max 4 transmissions 3 kmph
DDDSUDDSUU	vivo	-5.87	157.41	158.76	139.21	LOS	O2I	10RB, MCS4
	vivo	-5.44	156.98	158.33	144.54	LOS	O2O	10RB, MCS4
	CATT	-12.8	151.79	155.79	143.43	LOS	O2O	UE speed:120kmph
	OPPO	-4.03	145.03	164.08	146.45	NLOS	O2I	20RB, MCS3
	OPPO	-5.35	146.35	165.40	147.77	NLOS	O2O	20RB, MCS3
	OPPO	-5.12	146.12	165.17	147.54	LOS	O2I	20RB, MCS3
	OPPO	-5.52	146.52	165.57	147.94	LOS	O2O	20RB, MCS3

Table 1-15 Evaluation results based on system level simulation for FR1

Urban, 4GHz, O2I, [Simulation assumptions in R1-2007741]
Item	PUSCH-eMBB				PUSCH -VoIP		MSG3					PRACH B4					PUCCH-2bits					PUCCH-11bits					PUCCH -22bits					PDCCH-unicast							PDCCH-broadcast					PBCH					PDSCH-eMBB					MSG4
Required SNR	-7.07				-7.66		-7.33					-13.1					-10.3					-8.57					-6.05					-11.4							-11.4					-12.7					-10.95					-12.61
5^thpercentile SNR via SLS	-21.72				-11.52		-9.43					-18.30					-14.56					-12.96					-10.69					-3.63							-3.37					-3.37					-3.63					-3.37
Performance gap via SLS	14.65				3.86		2.1					5.2					4.26					4.29					4.64					NAN							NAN					NAN					NAN					NAN
Rural, 4GHz, O2I, [Simulation assumptions in R1-2007741]
Item	PUSCH-eMBB					MSG3				PRACH B4			PUCCH-2bits					PUCCH-11bits							PUCCH -22bits					PDCCH-unicast					PDCCH-broadcast								PBCH					PDSCH-eMBB					MSG4
Required SNR	-5.23					-7.33				-13.1			-10.3					-8.57							-6.05					-11.44					-11.44								-12.68					-12.5					-12.45
5^thpercentile SNR via SLS	-11.12					-10.41				-17.24			-14.49					-12.88							-10.61					-3.62					0.05								0.05					-3.62					0.05
Performance gap via SLS	5.89					3.08				4.14			4.19					4.31							4.56					NAN					NAN								NAN					NAN					NAN
Rural, 2.6GHz, O2I, [Simulation assumptions in R1-2007741]
Item	PUSCH -eMBB			MSG3							PRACH B4					PUCCH -2bits					PUCCH -11bits					PUCCH -22bits					PDCCH -unicast					PDCCH -broadcast				PBCH					PDSCH -eMBB					MSG4
Required SNR	-4.2			-7.06							-13.07					-10.2					-8.62					-6.14					-11.64					-11.64				-12.99					-12.84					-12.81
5^thpercentile SNR via SLS	-9.31			-10.41							-17.18					-14.50					-12.90					-10.64					-2.56					1.43				1.43					-2.56					1.43
Performance gap via SLS	5.11			3.35							4.11					4.3					4.28					4.5					NAN					NAN				NAN					NAN					NAN
Rural, 700MHz, O2O, [Simulation assumptions in R1-2007741]
Item	PUSCH -eMBB	PUSCH -VoIP						MSG3						PRACH B4					PUCCH -2bits				PUCCH -11bits					PUCCH -22bits						PDCCH -unicast				PDCCH -broadcast				PBCH					PDSCH -eMBB					MSG4
Required SNR	-3.26	-11.68						-3.47						-10.93					-6.02				-3.97					-1.26						-7.43				-7.43				-9.41					-5.87					-5.75
5^thpercentile SNR via SLS	0.12	-3.74						-0.24						-4.61					-1.56				-0.42					0.03						3.45				-0.09				-0.09					3.45					-0.09
Performance gap via SLS	NAN	NAN						NAN						NAN					NAN				NAN					NAN						NAN				NAN				NAN					NAN					NAN
Rural with long distance, 700MHz, O2O, [Simulation assumptions in R1-2007741]
Item	PUSCH -eMBB		PUSCH -VoIP						MSG3						PRACH B4					PUCCH -2bits				PUCCH -11bits					PUCCH -22bits				PDCCH -unicast				PDCCH -broadcast				PBCH					PDSCH -eMBB					MSG4
Required SNR	-6.18		-12.05						-6.4						-13.7					-8.45				-7.37					-4.93				-7.68				-7.68				-11.6					-5.85					-5.76
5^thpercentile SNR via SLS	-1.3		-0.35						-3.12						-8.79					-2.9				-2.29					-1.26				1.74				-1				-1					1.74					-1
Performance gap via SLS	NAN		NAN						NAN						NAN					NAN				NAN					NAN				NAN				NAN				NAN					NAN					NAN

2) Baseline performance for FR2

Table 2-1: PUSCH for eMBB for FR2

Indoor 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	1.69	98.8	128.88	123.68	1 DMRS symbol for each hop
	Qcom	-1.2	111.2	144.3		23dBm UE
	Qcom	-1.2	100.2	133.3		12dBm UE
	CATT	0.8	100.85	134.94	133.25	TDLA-3kmph
	Samsung	2.4	95.78	122.84	121.93	UE TRP: 12 dBm/ 30 PRBs
	NTT DOCOMO	-3.33	111.3	136.4	131.2
	Xiaomi	-1			126.37	1T2R, 1 DMRS without multiplexing with data
	Intel	1.70	106.28	133.40	128.20	TDL-A 3km/h
	ZTE	4.34	100.67	128.28	123.80	2Rx, 30RBs, 10% iBLER Δ1=0, Δ2+Δ3=5.47
	Huawei, HiSilicon	-22.07			123.23	UE EIRP 23 dBm DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol;
	Huawei, HiSilicon	-22.07			134.23	UE EIRP 34 dBm, DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol;
	OPPO	2.86	97.63	127.71	122.51	TDLA-3kmph
	CMCC	0.53	96.55	130.63	125.43	22.4 dBm EIRP
	InterDigital	3.75	104.19	134.26		2 DMRS, 1T2R, 30 PRB, 2DMRS, no antenna gain correction factor, details in R1-2009170
DDSU	Vivo	0.98	99.51	129.59	124.39	1 DMRS symbol for each hop
	CATT	0	101.65	135.74	134.05	TDLA-3kmph
	OPPO	1.95	98.54	128.62	123.42	TDLA-3kmph

Urban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	Vivo	1.57	95.86	131.96	102.62	1 DMRS symbol for each hop, O2I
	Vivo	1.66	95.78	131.87	118.02	1 DMRS symbol for each hop, O2O
	Qcom	-1.2	111.2	147.3		23dBm UE
	Qcom	-1.2	100.2	136.3		12dBm UE
	CATT	0.9	96.78	133.38	101.76	TDLA-3kmph
		0.5	97.18	134.28	121.92	TDLA-30kmph
		1.5	96.18	133.28	101.66	TDLC-3kmph
		97.08	134.18	120.39	97.08	TDLC-30kmph
	Samsung	3.2	94.98	125.05	90.28	UE TRP: 12 dBm/ 30 PRBs / Velocity: 3 km/h
	Samsung	3.2	94.98	125.05	111.20	UE TRP: 12 dBm/ 30 PRBs/ Velocity: 30 km/h
	NTT DOCOMO	0.18	107.8	132.9	118.7
	Xiaomi	-1.34			105.53	1T2R; 1 DMRS without multiplexing with data
	Intel	2.30	105.68	138.50	124.65	TDL-A 100ns
	Nokia/NSB	0.00	108.44	135.91	103.33	UE TRP: 23 dBm, NLOS/O2I, UE speed: 3 km/h, 1 DMRS symbol for each hop, RRC-connected
		0.31	108.12	135.60	121.72	UE TRP: 23 dBm TRP, NLOS/O2O, UE speed: 30 km/h, 1 DMRS symbol for each hop, RRC-connected
		0.00	97.44	124.91	92.33	UE TRP: 12 dBm, NLOS/O2I, UE speed: 3 km/h, 1 DMRS symbol for each hop, RRC-connected
		0.31	97.12	124.60	110.72	UE TRP: 12 dBm, NLOS/O2O, UE speed: 30 km/h, 1 DMRS symbol for each hop, RRC-connected
	Huawei, HiSilicon	-22.28			117.78	O2O, UE EIRP 23 dBm, DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol;
	Huawei, HiSilicon	-22.28			128.78	O2O, UE EIRP 34 dBm, DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol;
	Huawei, HiSilicon	-23.77			88.77	O2I, UE EIRP 23 dBm DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol;
	Huawei, HiSilicon	-23.77			99.77	O2I, UE EIRP 34 dBm DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol;
	ZTE	3.61	106.38	135.48	96.86	2Rx, 30RBs, O2I, 10% iBLER Δ1=0, Δ2+Δ3=6.99,
	ZTE	6.44	103.91	133.01	119.53	2Rx, 30RBs, O2O, 10% iBLER Δ1=0, Δ2+Δ3=6.99.
	OPPO	2.73	94.70	130.80	101.46	O2I, w/o FH/ 2 DMRS
	OPPO	3.51	93.92	130.02	100.68	O2O, w/o FH/ 2 DMRS
	Ericsson	0.1	114.8	125.6	92.3	Δ>0; See R1-2008344 12 dBm TRP 2 Rx 3kmph, 100ns 30 PRBs, MCS5 HARQ w/ max 5 transmissions
	CMCC	0.4	99.69	133.77	103.36	22.4 dBm EIRP O2I
	CMCC	0.32	99.77	133.85	120.00	22.4 dBm EIRP O2O
DDSU	vivo	0.64	96.8	132.89	103.55	1 DMRS symbol for each hop, O2I
	vivo	0.93	96.51	132.6	118.75	1 DMRS symbol for each hop, O2O
	CATT	0	97.68	134.78	103.16	TDLA-3kmph
		-0.7	98.98	135.48	123.12	TDLA-30kmph
		0	97.68	134.78	103.16	TDLC-3kmph
		-0.6	98.28	135.38	121.59	TDLC-30kmph
	Nokia/NSB	-1.23	109.67	137.14	104.56	UE TRP: 23 dBm, NLOS/O2I, UE speed: 3 km/h, 1 DMRS symbol for each hop, RRC-connected
		-0.97	109.41	136.88	123.00	UE TRP: 23 dBm, NLOS/O2O, UE speed: 30 km/h, 1 DMRS symbol for each hop, RRC-connected
		-1.23	98.67	126.14	93.56	UE TRP: 12 dBm, NLOS/O2I, UE speed: 3 km/h, 1 DMRS symbol for each hop, RRC-connected
		-0.97	98.41	125.88	112.00	UE TRP: 12 dBm, NLOS/O2O, UE speed: 30 km/h, 1 DMRS symbol for each hop, RRC-connected
Suburban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	CATT	-6	103.68	140.78	109.16	TDLA-3kmph
		-6	103.68	140.78	128.42	TDLA-30kmph
		-4.8	102.48	139.58	107.96	TDLC-3kmph
		-6	103.68	140.78	126.99	TDLC-30kmph
	Samsung	0.1	112.85	142.92	108.15	UE TRP: 12 dBm/ 1 PRBs/ Velocity: 3 km/h
		-0.25	113.20	143.27	129.42	UE TRP: 12 dBm/ 1 PRBs/ Velocity: 30 km/h
		-1.2	114.15	144.22	130.37	UE TRP: 12 dBm/ 1 PRBs/ Velocity: 120 km/h
	Xiaomi	-2.5				1T2R; 1 DMRS without multiplexing with data
	OPPO	-6.84	104.52	141.62	110	O2I, w/o FH/ 2 DMRS
	OPPO	-6.09	103.77	140.87	128.51	O2O, w/o FH/ 2 DMRS
DDSU	CATT	-6	103.68	140.78	109.16	TDLA-3kmph
		-6	103.68	140.78	128.42	TDLA-30kmph
		-4.8	102.48	139.58	107.96	TDLC-3kmph
		-6	103.68	140.78	126.99	TDLC-30kmph
	OPPO	-7.20	104.88	141.98	110.36	O2I, w/o FH/ 2 DMRS
	OPPO	-6.55	104.23	141.33	128.97	O2O, w/o FH/ 2 DMRS

Table 2-2: PUSCH for VoIP for FR2

Indoor 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	-11.42	120.16	150.25	145.05	20ms period,4 repetitions, 4 HARQ transmission times
	CATT	-5.8	116.2	150.29	148.6	TDLA-3kmph w/ repetition
	Samsung	-6.8	113.73	140.79	139.88	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Latency: 51 ms/ Repetition type A
	Samsung	-7.55	114.48	141.54	140.63	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Latency: 51 ms/ Repetition type B
	NTT DOCOMO	-15.80	132.6	157.6	152.4
	Intel	-8.30	124.53	151.66	146.46	4 repetitions and 2 HARQ retransmission
	OPPO	-7.94	116.68	146.77	141.57	O2I w/ repetition, w/o HARQ (reTx = 32)
	CMCC	-1.73	107.56	141.64	136.44	22.4 EIRP
DDSU	vivo	-11.42	120.16	150.25	145.05	20ms period,4 repetitions, 4 HARQ transmission times
	CATT	-5.8	116.2	150.29	148.6	TDLA-3kmph w/ repetition
	OPPO	-7.54	116.28	146.37	141.17	O2I w/ repetition, w/o HARQ (reTx = 32)

Urban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	-9.41	115.1	151.19	121.85	20ms period,4 repetitions, 4 HARQ transmission times, O2I
	vivo	-10.95	116.64	152.73	138.88	20ms period,4 repetitions, 4 HARQ transmission times, O2O
	CATT	-5.8	112.23	149.33	117.71	TDLA-3kmph w/ repetition
		-10	116.43	153.53	141.17	TDLA-30kmph w/ repetition
		-5.8	112.23	149.33	117.71	TDLC-3kmph w/ repetition
		-10	116.43	153.53	139.74	TDLC-30kmph w/ repetition
	Samsung	-6.6	113.53	143.60	108.83	UE TRP: 12 dBm/ The max # of HARQ tx: 32 /Velocity: 3 km/h/ Latency: 51 ms/ Repetition type A
		-8.4	115.33	145.40	131.55	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 30 km/h/ Latency: 51 ms/ Repetition type A
		-7.4	114.33	144.40	109.63	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 3 km/h/ Latency: 51 ms/ Repetition type B
		-8.75	115.68	145.75	131.90	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 30 km/h/ Latency: 51 ms/ Repetition type B
	NTT DOCOMO	-15.64	132.4	157.5	143.3
	Intel	-8.40	124.63	157.45	143.60	4 repetitions and 2 HARQ retransmission
	OPPO	-7.46	113.15	149.24	119.9	O2I w/ repetition, w/o HARQ (reTx = 32)
	OPPO	-10.56	116.25	152.34	138.49	O2O w/ repetition, w/o HARQ (reTx = 32)
	CMCC	-2	110.84	144.92	114.51	O2I 22.4 dBm EIRP With 1 repetition With HARQ 4 retransmissions
	CMCC	-3.58	112.42	146.50	132.65	O2O 22.4 dBm EIRP With 1 repetition With HARQ 4 retransmissions
	Ericsson	-7.7	130.8	139.7	106.4	Δ>0; See R1-2008344 12 dBm TRP 2 Rx 3kmph, 100ns 4 PRBs, MCS4 2% rBLER HARQ w/ max 8 transmissions, inter-slot FH
DDSU	vivo	-9.41	115.1	151.19	121.85	20ms period,4 repetitions, 4 HARQ transmission times, O2I
	vivo	-10.95	116.64	152.73	138.88	20ms period,4 repetitions, 4 HARQ transmission times, O2O
	CATT	-5.8	112.23	149.33	117.71	TDLA-3kmph w/ repetition
		-10	116.43	153.53	141.17	TDLA-30kmph w/ repetition
		-5.8	112.23	149.33	117.71	TDLC-3kmph w/ repetition
		-10	116.43	153.53	139.74	TDLC-30kmph w/ repetition
	Nokia/NSB	-8.83	125.52	152.99	120.41	UE TRP: 23 dBm, NLOS/O2I, UE speed: 3 km/h, 1 DMRS symbol for each hop, RRC-connected
		-8.86	125.55	153.02	139.14	UE TRP: 23 dBm, NLOS/O2O, UE speed: 30 km/h, 1 DMRS symbol for each hop, RRC-connected
		-8.83	114.52	141.99	109.41	UE TRP: 12 dBm, NLOS/O2I, UE speed: 3 km/h, 1 DMRS symbol for each hop, RRC-connected
		-8.86	114.55	142.02	128.14	UE TRP: 12 dBm, NLOS/O2O, UE speed: 30 km/h, 1 DMRS symbol for each hop, RRC-connected
	OPPO	-7.46	113.15	149.24	119.9	O2I w/ repetition, w/o HARQ (reTx = 32)
	OPPO	-10.56	116.25	152.34	138.49	O2O w/ repetition, w/o HARQ (reTx = 32)
Suburban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	CATT	-5.8	112.23	149.33	117.71	TDLA-3kmph w/ repetition
		-10	116.43	153.53	141.17	TDLA-30kmph w/ repetition
		-5.8	112.23	149.53	117.91	TDLC-3kmph w/ repetition
		-10	116.43	153.53	139.74	TDLC-30kmph w/ repetition
	Samsung	-6.6	113.53	143.60	108.83	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 3 km/h/ Latency: 51 ms/ Repetition type A
		-8.40	115.33	145.40	131.55	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 30 km/h/ Latency: 51 ms/ Repetition type A
		-6.76	113.69	143.76	129.91	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 120 km/h/ Latency: 51 ms/ Repetition type A
		-7.4	114.33	144.40	109.63	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 3 km/h/ Latency: 51 ms/ Repetition type B
		-8.75	115.68	145.75	131.90	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 30 km/h/ Latency: 51 ms/ Repetition type B
		-6.8	113.73	143.80	129.95	UE TRP: 12 dBm/ The max # of HARQ tx: 32/ Velocity: 120 km/h/ Latency: 51 ms/ Repetition type B
	OPPO	-7.46	113.89	150.99	119.37	O2I w/ repetition, w/o HARQ (reTx = 32)
	OPPO	-10.57	117	154.1	141.74	O2O w/ repetition, w/o HARQ (reTx = 32)
DDSU

Table 2-3: PUSCH with SIP invite

Indoor 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU



DDSU



Urban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	Ericsson	-6.8	130.4	139.4	106.1	 >0; See R1-2008344  12 dBm TRP  2 Rx  3kmph, 100ns  4 PRBs, MCS6  2% rBLER  HARQ w/ max 8 transmissions, inter-slot FH




DDSU



Suburban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU



DDSU

Table 2-4: PUSCH for CSI for FR2

Indoor 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU



DDSU



Urban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	Ericsson	-5.4	136.2	146.2	112.9	Δ>0; See R1-2008344 12 dBm TRP 10% BLER 2 Rx 3kmph 11 bits 1 transmission 4 DMRS
	Ericsson	-0.5	130.0	138.8	105.5	Δ>0; See R1-2008344 12 dBm TRP 1% BLER 2 Rx 3kmph 11 bits 1 transmission 4 DMRS
	Ericsson	-2.8	131.7	140.3	107.1	Δ>0; See R1-2008344 12 dBm TRP 10% BLER 2 Rx 3kmph 22 bits 1 transmission 4 DMRS
	Ericsson	-2.1	131.5	140.6	107.3	Δ>0; See R1-2008344 12 dBm TRP 1% BLER 2 Rx 3kmph 22 bits 1 transmission 4 DMRS

DDSU



Suburban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU



DDSU

Table 2-5: PUCCH for FR2

Indoor 28 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format 1	vivo	-6.1	120.86	150.94	142.44	Format 1 No repetition
	Qcom	-10.5	138.9	172		1 bit 23dBm UE
	Qcom	-10.5	127.9	161		1 bit 12dBm UE
	CATT	-6.55	122.97	156.07	153.38	TDLA-3kmph DDDSU PF1
	CATT	-6.55	122.97	156.07	153.38	TDLA-3kmph DDSU PF1
	InterDigital	-5	124.99	155.06		2 bits, no antenna gain correction factor, details in R1-2009170
	Samsung	-7.5	116.87	143.94	141.14	UE TRP: 12 dBm/ 2 bits
	NTT DOCOMO	-9.61	132.4	157.4	152.2
	Intel	-4.50	124.24	151.37	146.17	No repetition
	ZTE	-3.45	125.62	153.23	145.67	2bits, 2Rx, Δ1=0, Δ2+Δ3=5.47
	OPPO	-5.83	120.59	150.67	142.17
	CMCC	-5	113.77	147.86	139.36	22.4 dBm EIRP
Format 3	vivo	-4.41	119.18	149.26	140.76	Format 3 11bits No repetition
	vivo	-1.13	115.9	145.98	137.48	Format 3 22bits
	Qcom	0.5	127.9	161		11-bits 23dBm UE
	Qcom	0.5	116.9	150		11-bits 12dBm UE
	CATT	-5.34	121.76	155.86	153.17	TDLA-3kmph DDDSU 11bits/rep=2
	CATT	-2.92	119.34	153.44	150.75	TDLA-3kmph DDDSU 22bits/rep=2
	InterDigital	-0.4	120.39	150.47		22 bits, no antenna gain correction factor, details in R1-2009170
	Samsung	-2.55	111.92	138.99	136.19	UE TRP: 12 dBm/ 11 bits
	Samsung	-0.315	109.69	136.75	133.95	UE TRP: 12 dBm/ 22 bits
	NTT DOCOMO	-9.43	132.2	157.3	152.1	22 bits
	Xiaomi	-1.8			138.15	11-bits,1T2R, no repetition
	Xiaomi	1			135.35	22-bits,1T2R, no repetition
	Intel	-4.80	124.54	151.67	146.47	11 bits
	Intel	-1.70	121.44	148.57	143.37	22bits
	ZTE	-0.90	123.07	150.68	143.12	11bits, 2Rx, additional DMRS Δ1=0, Δ2+Δ3=5.47
	ZTE	1.71	120.46	148.07	140.51	22bits, 2Rx, additional DMRS Δ1=0, Δ2+Δ3=5.47
	OPPO	-2.83	117.6	147.68	139.18
	OPPO	-0.74	115.51	145.59	137.09
	CMCC	-1.92	110.69	144.78	136.28	PUCCH format 3-11bit
	CMCC	-0.32	109.09	143.18	134.68	PUCCH format 3-22bit
Format 0	NTT DOCOMO	3.5	119.3	144.3	139.1	2 bits UE TRP 23 dBm
Format 2	NTT DOCOMO	7.5	115.3	140.4	135.2	11 bits UE TRP 23 dBm
Urban 28 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format 1 No repetition	vivo	-5.84	114.84	150.93	117.89	Format 1 No repetition, O2I
	vivo	-6.15	115.14	151.23	134.16	Format 1 No repetition, O2O
	Qcom	-9	137.4	173.5		1 bit 23dBm UE
	Qcom	-9	126.4	162.5		1 bit 12dBm UE
	CATT	-5.4	114.77	154.89	119.83	TDLA-3kmph DDDSU PF1
	CATT	-5.86	115.23	155.35	140.24	TDLA-30kmph DDDSU PF1
	Samsung	-7.4	114.33	144.40	108.63	UE TRP: 12 dBm/ 2 bits/ Velocity: 3 km/h
	Samsung	-7	116.37	146.45	129.38	UE TRP: 12 dBm/ 2 bits/ Velocity: 30 km/h
	NTT DOCOMO	-8.73	131.5	156.6	142.4
	Intel	-2.50	122.24	155.06	141.21	No repetition
	Nokia/NSB	-1.75	121.74	149.22	113.54	UE TRP: 23 dBm, NLOS/O2I, UE speed: 3 km/h, RRC-connected , Format 1
		-0.50	120.49	147.97	130.87	UE TRP: 23 dBm, NLOS/O2O, UE speed: 30 km/h, RRC-connected , Format 1
		-1.75	110.74	138.22	102.54	UE TRP: 12 dBm, NLOS/O2I, UE speed: 3 km/h, RRC-connected , Format 1
		-0.50	109.49	136.97	119.87	UE TRP: 12 dBm, NLOS/O2O, UE speed: 30 km/h, RRC-connected , Format 1
	ZTE	-4.13	129.02	158.12	116.42	2bits, 2Rx, O2I Δ1=0, Δ2+Δ3=6.99
	ZTE	-4.70	130.15	159.25	142.69	2bits, 2Rx, O2O Δ1=0, Δ2+Δ3=6.99
	OPPO	-4.97	113.97	150.06	117.02
	OPPO	-2.53	111.52	147.61	130.54
	CMCC	-4.72	116.51	150.59	116.48	22.4 dBm EIRP O2I
	CMCC	-4.81	116.60	150.68	133.61	22.4 dBm EIRP O2O
Format 3	vivo	-4.09	113.08	149.17	116.13	Format 3 11bits No repetition, O2I
		-0.88	109.87	145.97	112.93	Format 3 22bits, O2O
		-4.25	113.25	149.34	132.27	Format 3 11bits No repetition, O2O
		-0.87	109.87	145.96	128.89	Format 3 22bits, O2O
	Qcom 23dBm UE	2	126.4	162.5		11 bits
	Qcom 12dBm UE	2	115.4	151.5		11 bits
	CATT	-5.25	114.62	154.74	119.68	TDLA-3kmph DDDSU 11bits/rep=2
		-3.3	112.67	152.79	117.73	TDLA-3kmph DDDSU 22bits/rep=2
		-7.32	116.69	156.81	141.7	TDLA-30kmph DDDSU 11bits/rep=2
		-5.56	114.93	155.05	139.94	TDLA-30kmph DDDSU 22bits/rep=2
		-4.82	114.19	154.31	119.25	TDLC-3kmph DDDSU 11bits/rep=2
		-2.75	112.12	152.24	117.18	TDLC-3kmph DDDSU 22bits/rep=2
		-6.65	116.02	156.14	139.11	TDLC-30kmph DDDSU 11bits/rep=2
		-4.27	113.64	153.76	136.73	TDLC-30kmph DDDSU 22bits/rep=2
	Samsung	-0.35	109.72	139.80	101.95	UE TRP: 12 dBm/ 11 bits/ Velocity: 3 km/h
		-0.315	109.69	139.76	101.91	UE TRP: 12 dBm/ 22 bits/ Velocity: 3 km/h
		-2.2	111.57	141.65	124.58	UE TRP: 12 dBm/ 11 bits/ Velocity: 30 km/h
		-0.39	109.76	139.84	122.77	UE TRP: 12 dBm/ 22 bits/ Velocity: 30 km/h
	NTT DOCOMO	-8.74	131.5	156.6	142.4	22 bits
	Intel	-4.40	124.14	156.96	143.11	11 bits
	Intel	-1.50	121.24	154.06	140.21	22 bits
	Nokia/NSB	-1.25	121.24	148.72	113.04	UE TRP: 23 dBm, NLOS/O2I, UE speed: 3 km/h, RRC-connected , Format 3 22bits
		-1.13	121.12	148.59	131.49	UE TRP: 23 dBm, NLOS/O2O, UE speed: 30 km/h, RRC-connected , Format 3 22bits
		-1.25	110.24	137.72	102.04	UE TRP: 12 dBm, NLOS/O2I, UE speed: 3 km/h, RRC-connected , Format 3 22bits
		-1.13	110.12	137.59	120.49	UE TRP: 12 dBm, NLOS/O2O, UE speed: 30 km/h, RRC-connected , Format 3 22bits
	ZTE	-1.14	126.03	155.13	113.43	11bits, 2Rx, additional DMRS Δ1=0, Δ2+Δ3=6.99, O2I
		-2.40	127.85	156.95	140.39	11bits, 2Rx, additional DMRS Δ1=0, Δ2+Δ3=6.99, O2O
		1.33	123.56	152.66	110.96	22bits, 2Rx, additional DMRS Δ1=0, Δ2+Δ3=6.99, O2I
		0.10	125.35	154.45	137.89	22bits, 2Rx, additional DMRS Δ1=0, Δ2+Δ3=6.99, O2O
	OPPO	-3.83	112.82	148.91	115.87	11bits O2I
		-3.91	112.91	149	131.93	11bits O2O
		-0.23	109.22	145.32	112.28	22bits O2I
		-0.21	109.21	145.3	128.23	22bits O2O
	Ericsson	-6.1	136.9	146.8	113.6	Δ>0; See R1-2008344 12 dBm TRP 10% BLER 2 Rx 3kmph 11 bits 1 transmission 4 DMRS
		-1.9	131.3	140.3	107.0	12 dBm TRP 1% BLER 2 Rx 3kmph 11 bits 1 transmission 4 DMRS
		-4.6	135.2	144.9	111.6	Δ>0; See R1-2008344 12 dBm TRP 1% miss 2 Rx 3kmph 3 A/N bits+1 SR 1 transmission Hopping w/ 4 DMRS
	CMCC	-1.63	113.42	147.50	113.39	22.4 dBm O2I PUCCH format 3-11bit
		0.02	111.77	145.85	111.74	22.4 dBm O2I PUCCH format 3-22bit
		-1.95	113.74	147.82	130.75	22.4 dBm O2O PUCCH format 3-11bit
		0.09	111.70	145.78	128.71	22.4 dBm O2O PUCCH format 3-22bit
Format 0	NTT DOCOMO	3.9	118.9	143.9	129.7	2 bits UE TRP 23 dBm
Format 2	NTT DOCOMO	7.4	115.3	140.4	7.4	11 bits UE TRP 23 dBm
Suburban 28 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format 1 No repetition	CATT	-5.5	114.87	154.99	119.93	TDLA-3kmph DDDSU PF1
	CATT	-5.61	114.98	155.1	139.99	TDLA-30kmph DDDSU PF1
	Samsung	-7.04	116.41	146.48	108.63	UE TRP: 12 dBm/ 2 bits/ Velocity: 3 km/h
		-7.09	116.46	146.54	129.47	UE TRP: 12 dBm/ 2 bits/ Velocity: 30 km/h
		-6.98	116.35	146.42	129.35	UE TRP: 12 dBm/ 2 bits/ Velocity: 120 km/h

Format 3	CATT	-5.32	114.69	154.81	119.75	TDLA-3kmph DDDSU 11bits/rep=2
		-2.93	112.3	152.42	117.36	TDLA-3kmph DDDSU 22bits/rep=2
		-7.33	116.7	156.82	141.71	TDLA-30kmph DDDSU 11bits/rep=2
		-5.4	114.77	154.89	139.78	TDLA-30kmph DDDSU 22bits/rep=2
		-5.05	114.42	154.54	119.48	TDLC-3kmph DDDSU 11bits/rep=2
		-3.22	112.59	152.71	117.65	TDLC-3kmph DDDSU 22bits/rep=2
		-7.18	116.55	156.67	139.64	TDLC-30kmph DDDSU 11bits/rep=2
		-5.03	114.4	154.52	137.49	TDLC-30kmph DDDSU 22bits/rep=2
	Samsung	-0.35	109.72	139.80	101.95	UE TRP: 12 dBm/ 11 bits/ Velocity: 3 km/h
		-2.26	111.63	141.71	124.64	UE TRP: 12 dBm/ 11 bits/ Velocity: 30 km/h
		-2.7	112.07	142.15	125.08	UE TRP: 12 dBm/ 11 bits/ Velocity: 120 km/h
		-0.32	109.69	139.76	101.91	UE TRP: 12 dBm/ 22 bits/ Velocity: 3 km/h
		-0.39	109.76	139.84	122.77	UE TRP: 12 dBm/ 22 bits/ Velocity: 30 km/h
		-0.518	109.89	139.96	122.89	UE TRP: 12 dBm/ 22 bits/ Velocity: 120 km/h

Table 2-6: SSB for FR2

Indoor 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-10.6	115.19	136.79	128.29	The correction factor for BF gain of broadcast channel is 5 dB
CATT	-9.64	133.85	163.93	162.24	TDLA-3kmph DDDSU
Intel	-10.90	115.00	132.26	127.06
ZTE	-6.55	100.84	121.72	114.16	32bits, 2Rx, 1% BLER, Δ1=0, Δ2+Δ2=12.19
Huawei, HiSilicon	-29.71			129.31	UE EIRP 23 dBm, UE Rx antenna gain correction factor is assumed to be 5 dB (11bis-b).
Huawei, HiSilicon	-29.71			134.31	UE EIRP 34 dBm UE Rx antenna gain correction factor is assumed to be 0 dB (11bis-b).
CMCC	-11.32	117.31	145.39	136.89	23dBm with 100MHz BW With 6dB correction factor
CMCC	-11.32	108.31	136.39	127.89	14dBm with 100MHz BW With 6dB correction factor
Urban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-8.03	128.91	153.93	120.89	O2I The correction factor for BF gain of broadcast channel is 8 dB
vivo	-8.03	128.91	155.93	136.86	O2O The correction factor for BF gain of broadcast channel is 8 dB
CATT	-9.56	133.55	165.63	134.01	TDLA-3kmph DDDSU
	-8.64	131.63	164.71	152.35	TDLA-30kmph DDDSU
	-9.56	132.55	164.71	133.09	TDLC-3kmph DDDSU
	-9.53	128.52	165.63	151.84	TDLC-30kmph DDDSU
Intel	-10.20	131.30	152.67	138.82
Nokia/NSB	-8.24	129.12	152.09	119.51	NLOS/O2I, UE speed: 3 km/h, RRC-idle
Huawei, HiSilicon	26.33			137.28	O2O, UE Rx antenna gain correction factor is assumed to be 5 dB (11bis-b).
Huawei, HiSilicon	26.33			142.28	O2O, UE EIRP = 34 dBm UE Rx antenna gain correction factor is assumed to be 0 dB (11bis-b).
Huawei, HiSilicon	-27.90			108.35	O2I, UE EIRP = 23 dBm, UE Rx antenna gain correction factor is assumed to be 5 dB (11bis-b).s
Huawei, HiSilicon	-27.90			113.35	O2I, UE EIRP = 34 dBm UE Rx antenna gain correction factor is assumed to be 0 dB (11bis-b).
ZTE	-6.70	127.86	149.52	107.82	32bits, 2Rx, 1% BLER, Δ1=0, Δ2+Δ2=14.43, O2I
ZTE	-9.11	129.72	151.38	134.82	32bits, 2Rx, 1% BLER, Δ1=0, Δ2+Δ2=14.43, O2O
Ericsson	-7.81	145.2	154.8	121.5	Δ>0; See R1-2008344 2 Rx 4x16 SSB beams 3kmph 20ms periodicity 1% rBLER after 4 transmissions within MIB TTI of 80ms
CMCC	-9.49	132.98	161.06	126.95	40 dBm with 100MHz BW O2I With 6dB correction factor
	-9.49	119.98	148.06	113.95	27 dBm with 100MHz BW O2I With 6dB correction factor
	-10.98	133.97	162.05	144.98	40 dBm with 100MHz BW O2O With 6dB correction factor
	-10.98	120.97	149.05	131.98	27 dBm with 100MHz BW O2O With 6dB correction factor
Suburban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
CATT	-9.56	132.55	165.63	134.01	TDLA-3kmph DDDSU
CATT	-8.64	131.63	164.71	152.35	TDLA-30kmph DDDSU

Table 2-7: PRACH for FR2

Indoor 28 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format B4	vivo	-10.35	114.32	139.4	130.9	The correction factor for BF gain of broadcast channel is 5 dB
	Qcom 23dBm UE	-12	129.8	156.9
	Qcom 12dBm UE	-12	118.8	145.9
	Intel	-9.80	118.91	145.20	140.00
	ZTE	-9.82	124.51	145.40	137.84	2Rx, P_MD=1% Δ1=0,Δ2+Δ2=12.19
	CMCC	-17.726	115.71	149.79	141.29	SCS = 120 kHz 22.4dBm EIRP
Format C2	Huawei, HiSilicon	-28.72			130.35	UE EIRP 23 dBm, SCS = 120 kHz;
	Huawei, HiSilicon	-28.72			141.35	UE EIRP 34 dBm



Urban 28 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format B4	vivo	-9.25	107.45	135.54	102.5	O2I The correction factor for BF gain of broadcast channel is 8 dB
	vivo	-9.38	107.58	135.68	118.61	O2O The correction factor for BF gain of broadcast channel is 8 dB
	Qcom	-12	129.8	159.9		23dBm UE
	Qcom	-12	118.8	148.9		12dBm UE
	Intel	-8.60	117.71	148.11	134.26
	Nokia/NSB	-11.66	123.57	146.54	113.96	UE TRP: 23 dBm, NLOS/O2I, UE speed: 3 km/h, RRC-idle
		-11.09	123.01	145.98	132.10	UE TRP: 23 dBm, NLOS/O2O, UE speed: 30 km/h, RRC-idle
		-11.66	112.57	135.54	102.96	UE TRP: 12 dBm, NLOS/O2I, UE speed: 3 km/h, RRC-idle
		-11.09	112.01	134.98	121.10	UE TRP: 12 dBm, NLOS/O2O, UE speed: 30 km/h, RRC-idle
	ZTE	-10.10	125.27	146.93	105.23	2Rx, P_MD=1% Δ1=0,Δ2+Δ2=14.43O2I
	ZTE	-10.22	125.63	147.29	130.73	2Rx, P_MD=1% Δ1=0,Δ2+Δ2=14.43O2O
	Ericsson	-15.2	138.2	148.4	115.1	Δ>0; See R1-2008344 12 dBm TRP 2 Rx ISD 200m 10% miss
	Ericsson	-11.9	135.0	144.5	111.2	Δ>0; See R1-2008344 12 dBm TRP 2 Rx ISD 200m 1% miss
	CMCC	-18.48	119.47	153.56	119.45	22.4 dBm EIRP O2I
	CMCC	-18.45	119.44	153.53	136.46	22.4 dBm EIRP O2O
Format C2	Huawei, HiSilicon	-26.54			122.52	O2O, UE EIRP 23 dBm, SCS = 120 kHz;
	Huawei, HiSilicon	-26.54			133.52	O2O, UE EIRP 34 dBm, SCS = 120 kHz;
	Huawei, HiSilicon	29.75			95.22	O2I, UE EIRP 23 dBm, SCS = 120 kHz;
	Huawei, HiSilicon	29.75			106.22	O2I, UE EIRP 34 dBm, SCS = 120 kHz;



Suburban 28 GHz TDD
Format type	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
Format B4



Format C2

Table 2-8: Broadcast PDCCH (PDCCH of Msg.2) for FR2

Indoor 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-6.31	110.89	132.49	123.99	The correction factor for BF gain of broadcast channel is 5 dB
Qcom	-7.5	117.5	132.6
Intel	-7.60	111.70	128.96	123.76
ZTE	-7.97	102.26	123.14	115.58	40bits, 2Rx, 1% BLER, Δ1=0, Δ2+Δ2=12.19
CMCC	-8.39	114.38	142.46	133.96	23 dBm per 100MHz BW
CMCC	-8.39	105.38	133.46	124.96	14 dBm per 100MHz BW
Urban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-5.49	126.36	151.39	118.35	O2I The correction factor for BF gain of broadcast channel is 8 dB
vivo	-5.38	126.26	151.28	134.21	O2O The correction factor for BF gain of broadcast channel is 8 dB
Qcom	-10	137	152.1
Intel	-5.20	126.30	147.67	133.82
ZTE	-8.10	129.26	150.92	109.22	40bits, 2Rx, 1% BLER, Δ1=0, Δ2+Δ2=14.43, O2I
ZTE	-7.83	128.44	150.10	133.54	40bits, 2Rx, 1% BLER, Δ1=0, Δ2+Δ2=14.43, O2O
Ericsson	-6.3	143.2	152.0	118.8	Δ>0; See R1-2008344 1% BLER 2 Rx 2 symbols, AL 16, non-interleaved
CMCC	-8.22	131.21	159.29	125.18	40 dBm with 100MHz BW O2I With 6dB correction factor
	-8.22	118.21	146.29	112.18	27 dBm with 100MHz BW O2I With 6dB correction factor
	-8.29	131.28	159.36	142.29	40 dBm with 100MHz BW O2O With 6dB correction factor
	-8.29	118.28	146.36	129.29	27 dBm with 100MHz BW O2O With 6dB correction factor
Suburban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions

Table 2-9: PDSCH of Msg.2 for FR2

Indoor 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	-4.49	109.08	130.68	125.48	The correction factor for BF gain of broadcast channel is 5 dB
	Intel	-3.10	113.50	130.76	125.56


DDSU	vivo	-4.49	109.08	130.68	125.48	The correction factor for BF gain of broadcast channel is 5 dB



Urban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	-4.49	125.36	150.39	121.05	O2I The correction factor for BF gain of broadcast channel is 8 dB
	vivo	-4.03	124.91	149.93	136.08	O2O The correction factor for BF gain of broadcast channel is 8 dB
	Intel	-2.90	130.10	151.47	137.62
	Ericsson	-9.1	147.4	157.5	124.2	Δ>0; See R1-2008344 10% BLER 1 transmission 3 kmph TB scaling ¼ Precoder cycling
	Ericsson	-6.4	143.3	152.1	118.9	Δ>0; See R1-2008344 1% BLER 1 transmission 3 kmph TB scaling ¼ Precoder cycling

DDSU	vivo	-4.49	125.36	150.39	121.05	O2I The correction factor for BF gain of broadcast channel is 8 dB
	vivo	-4.03	124.91	149.93	136.08	O2O The correction factor for BF gain of broadcast channel is 8 dB


Suburban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU



DDSU

Table 2-10: PUSCH of Msg.3 for FR2

Indoor 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-2.98	114.73	139.81	134.61	2 DMRS symbols for each hop The correction factor for BF gain of broadcast channel is 5 dB
Qcom	-4.6	127	154.1		23dBm UE
Qcom	-4.6	116	143.1		12dBm UE
CATT	-1.6	115.01	149.11	147.42	TDLA-3kmph DDDSU
Intel	-2.80	122.54	148.84	143.64	TDLA-3kmph
ZTE	-2.01	120.93	141.82	137.34	4Rx, 56bits, 2RBs, 10% iBLER, Δ1=0, Δ2+ Δ3=12.19
Huawei, HiSilicon	-25.95			135.87	UE EIRP 23 dBm, DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol;
Huawei, HiSilicon	-25.95			146.87	UE EIRP 34 dBm
CMCC	-2.4	111.24	145.32	140.12	22.4 dBm EIRP
Urban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-1.9	110.6	138.69	109.35	2 DMRS symbols for each hop, O2I The correction factor for BF gain of broadcast channel is 8 dB
vivo	-1.93	110.63	138.72	124.87	2 DMRS symbols for each hop, O2O The correction factor for BF gain of broadcast channel is 8 dB
Qcom	-4.6	127	157.1		23dBm UE
Qcom	-4.6	116	146.1		12dBm UE
CATT	-1.6	111.04	148.14	116.52	TDLA-3kmph DDDSU
	-1.3	110.74	147.84	135.48	TDLA-30kmph DDDSU
	-1	110.44	147.54	115.92	TDLC-3kmph DDDSU
	-0.9	110.34	147.44	133.65	TDLC-30kmph DDDSU
Intel	-3.00	122.74	153.15	139.30	TDLA-30kmph
Huawei, HiSilicon	-23.21			127.48	O2O, UE EIRP 23 dBm, DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol;
Huawei, HiSilicon	-23.21			138.48	O2O, UE EIRP 34 dBm DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol
Huawei, HiSilicon	-24.52			98.28	O2I, UE EIRP 23 dBm DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol
Huawei, HiSilicon	-24.52			109.28	O2I, UE EIRP 34 dBm DFT-s-OFDM, 30 RB, 2T2R, CDL-A; Type I with 1 additional DMRS, 1 DMRS symbol
ZTE	-2.64	123.33	144.98	106.36	4Rx, 56bits, 2RBs, 10% iBLER, Δ1=0, Δ2+ Δ3=14.43, O2I
ZTE	-2.89	125.06	146.72	133.24	4Rx, 56bits, 2RBs, 10% iBLER, Δ1=0, Δ2+ Δ3=14.43, O2O
Nokia/NSB	-2.73	122.43	145.40	112.82	UE TRP: 23 dBm, NLOS/O2I, UE speed: 3 km/h, RRC-idle
	-2.73	122.43	145.40	131.52	UE TRP: 23 dBm, NLOS/O2O, UE speed: 30 km/h, RRC-idle
	-2.73	111.43	134.40	101.82	UE TRP: 12 dBm, NLOS/O2I, UE speed: 3 km/h, RRC-idle
	-2.73	111.43	134.40	120.52	UE TRP: 12 dBm, NLOS/O2O, UE speed: 30 km/h, RRC-idle
Ericsson	-9.2	137.0	147.0	113.7	Δ>0; See R1-2008344 1% rBLER 2 Rx 3km/h No FH 8 transmissions Different freq. for every re-tx
CMCC	-2.4	114.25	148.33	117.92	22.4dBm EIRP O2I
CMCC	-2.10	113.95	148.03	134.18	22.4dBm EIRP O2O
Suburban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
CATT	-1.6	111.04	148.14	116.52	TDLA-3kmph DDDSU
	-1.3	110.74	147.84	135.48	TDLA-30kmph DDDSU
	-1	110.44	147.54	115.92	TDLC-3kmph DDDSU
	-1	110.44	147.54	115.92	TDLC-30kmph DDDSU

Table 2-11: PDSCH of Msg.4 for FR2

Indoor 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-5.84	110.43	132.03	126.83	MCS0 The correction factor for BF gain of broadcast channel is 5 dB
Qcom	-4.7	114.7	129.8		Open-loop precoder
Intel	-2.50	107.10	124.36	119.16
ZTE	-7.12	101.41	122.29	117.81	60RBs, MCS0, 2Rx, 10% BLER, Δ1=0, Δ2+Δ3=12.17
Urban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-5.83	126.71	151.73	122.39	MCS0, O2I The correction factor for BF gain of broadcast channel is 8 dB
vivo	-4.91	125.79	150.81	136.96	MCS0, O2O The correction factor for BF gain of broadcast channel is 8 dB
Qcom	-6.1	133.1	148.2		Open-loop precoder
Intel	-2.10	123.70	145.07	131.22
ZTE	-5.47	126.63	148.29	109.67	60RBs, MCS0, 2Rx, 10% BLER, Δ1=0, Δ2+Δ3=14.43, O2I
ZTE	-3.27	123.88	145.54	132.06	60RBs, MCS0, 2Rx, 10% BLER, Δ1=0, Δ2+Δ3=14.43, O2O
Ericsson	-10.9	147.9	157.7	124.4	Δ>0; See R1-2008344 1% rBLER 2 Rx 4 transmissions 3kmph Precoder cycling 42 PRBs
Suburban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions

Table 2-12: PUCCH with HARQ-ACK for Msg.4 for FR2

Indoor 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
ZTE	-5.35	127.52	148.41	140.85	PF1 with 1bit, 2Rx, Δ1=0, Δ2+Δ3=12.17

Urban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
ZTE	-5.80	130.69	152.35	110.65	PF1 with 1bit, 2Rx, Δ1=0, Δ2+Δ3=14.43, O2I
ZTE	-6.35	131.80	153.46	136.90	PF1 with 1bit, 2Rx, Δ1=0, Δ2+Δ3=14.43, O2O
Suburban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions

Table 2-13: Unicast PDCCH for FR2

Indoor 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-6.31	110.89	137.49	128.99
Qcom	-7.5	117.5	138.6
CATT	-6.71	130.92	164	161.31	TDLA-3kmph DDDSU
Samsung	-7.73	113.72	143.79	140.99	48 PRBs
NTT DOCOMO	-11.14	114.6	139.7	134.5
Xiaomi	-9.6	-	-	132.29	2Rx, TDL-A, NLoS, 3 km/h
Intel	-7.60	111.70	129.79	124.59
ZTE	-7.97	101.60	129.21	121.65	48RBs, 2Rx, Δ1=0, Δ2+ Δ2=5.47
OPPO	-8.17	112.75	139.35	130.85
CMCC	-8.02	114.01	142.09	133.59	DDDSU 23 dBm with 100MHz With 6dB correction factor
CMCC	-8.02	105.01	133.09	124.59	14dBm with 100MHz With 6dB correction factor
InterDigital	-6	109.88	131.94		23dBm with 100MHz, no antenna gain correction factor, details in R1-2009170
Urban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
vivo	-5.49	126.36	159.39	126.35	O2I
vivo	-5.38	126.26	159.28	142.21	O2O
Qcom	-10	137	158.1
CATT	-6.4	139.39	165.48	130.42	TDLA-3kmph DDDSU
	-6.89	129.88	165.97	150.86	TDLA-30kmph DDDSU
	-7.10	130.09	166.18	131.12	TDLC-3kmph DDDSU
	-7.15	130.14	166.23	149.2	TDLC-30kmph DDDSU
Samsung	-7.88	130.87	163.95	126.10	48 PRBs/ Velocity: 3km/h
Samsung	-7.88	130.87	163.95	146.88	48 PRBs / Velocity: 30km/h
NTT DOCOMO	-10.36	130.8	155.9	141.7
Xiaomi	-7.9			128.76	48 PRBs, TDL-A, NLoS, 3 km/h
Intel	-5.20	126.30	150.08	136.23
Nokia/NSB	-4.00	124.88	152.35	116.67	NLOS/O2I, UE speed: 3 km/h, RRC-connected
Nokia/NSB	-5.13	126.00	153.47	136.37	NLOS/O2O, UE speed: 30 km/h, RRC-connected
ZTE	-8.10	129.86	158.96	117.26	48RBs, 2Rx, Δ1=0, Δ2+ Δ2=6.99, O2I
ZTE	-7.83	129.30	158.40	141.84	48RBs, 2Rx, Δ1=0, Δ2+ Δ2=6.99, O2O
OPPO	-9.05	142.04	168.13	133.07	O2I
OPPO	-8.95	131.94	168.03	152.92	O2O
Ericsson	-6.3	143.2	152.0	118.8	Δ>0; See R1-2008344 1% BLER 2 Rx 3km/h 2 symbols, AL 16, non-interleaved
CMCC	-7.78	131.27	159.35	125.24	40dBm with 100MHz O2I With 6dB correction factor
	-7.78	118.27	146.35	112.24	27dBm with 100MHz O2I With 6dB correction factor
	-7.78	130.77	158.85	141.78	40dBm with 100MHz O2O With 6dB correction factor
	-7.78	117.77	145.85	128.78	27dBm with 100MHz O2O With 6dB correction factor
Suburban 28 GHz TDD
Company name	The required SNR	MCL	MIL	MPL	Key assumptions
CATT	-6.4	129.39	165.48	130.42	TDLA-3kmph DDDSU
	-6.89	129.88	165.97	150.86	TDLA-30kmph DDDSU
	-.7.10	130.09	166.18	131.12	TDLC-3kmph DDDSU
	-7.15	130.14	166.23	149.2	TDLC-30kmph DDDSU
Samsung	-7.88	130.87	163.95	126.10	48 PRBs/ Velocity: 3km/h
	-7.88	130.87	163.95	146.88	48 PRBs/ Velocity: 30km/h
	-7.93	130.92	164	146.93	48 PRBs/ Velocity: 120km/h
OPPO	-9.05	142.04	168.13	133.07	O2I
OPPO	-8.95	131.94	168.03	152.92	O2O

Table 2-14: PDSCH for eMBB for FR2

Indoor 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	-1.79	106.87	133.47	128.27	66RB, MCS4
	Qcom	-2.8	112.8	133.9		SVD precoder
	CATT	-1.56	125.77	158.85	157.16	TDLA-3kmph DDDSU
	CATT	-0.45	124.66	157.74	156.05	TDLA-3kmph DDSU
	Samsung	2.1	104.39	134.46	133.55	50 PRBs
	NTT DOCOMO	-2.95	106.4	131.5	126.3
	Intel	-0.10	104.70	122.79	117.59	MCS = 5, 60 PRBs
	ZTE	-1.88	96.01	123.62	119.14	231RBs, MCS0, 2Rx, 10% iBLER, Δ1=0, Δ2+Δ2=5.47
	Huawei, HiSilicon	-24.66			125.77	UE EIRP 23 dBm, Type I DMRS, 1 DMRS symbol; UE Rx antenna gain correction factor is assumped to be 5 dB (11bis-b).
	Huawei, HiSilicon	-24.66			130.77	UE EIRP 34 dBm UE Rx antenna gain correction factor is assumped to be 0 dB (11bis-b).
	OPPO	-2.52	126.73	159.81	158.12	66RB, MCS5
	CMCC	-3.2	109.19	143.27	138.07	23dBm with 100MHz BW
	CMCC	-3.2	100.19	134.27	129.07	14dBm with 100MHz
	InterDigital	1.95	101.93	123.99		23dBm, 100MHz, no antenna gain correction factor, details in R1-2009170
DDSU	vivo	-1.59	106.68	133.28	128.08	66RB, MCS4
	CATT	-0.45	124.66	157.74	156.05	TDLA-3kmph


Urban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	vivo	-2.09	123.47	156.49	127.15	66RB, MCS4, O2I
	vivo	-1.66	123.03	156.06	142.21	66RB, MCS4, O2O
	Qcom	-3.8	130.8	151.9		SVD precoder
	CATT	-1.3	124.29	160.38	128.76	TDLA-3kmph
		-0.5	123.49	159.58	147.22	TDLA-30kmph
		-1.52	124.51	160.6	128.98	TDLC-3kmph
		-0.86	123.85	159.94	146.15	TDLC-30kmph
	Samsung	3.05	120.44	153.52	118.75	50 PRBs/ Velocity: 3 km/h
	Samsung	3.05	120.44	153.52	139.67	50 PRBs/ Velocity: 30 km/h
	NTT DOCOMO	-3.01	123.5	148.6	134.4
	Intel	-0.30	121.90	145.68	131.83	MCS = 5, 60 PRBs
	Nokia/NSB	0.97	120.41	147.88	115.30	NLOS/O2I, UE speed: 3 km/h, RRC-connected
	Nokia/NSB	0.47	120.91	148.38	134.50	NLOS/O2O, UE speed: 30 km/h, RRC-connected
	Huawei, HiSilicon	23.08			135.54	O2O, UE EIRP 23 dBm, Type I DMRS, 1 DMRS symbol; UE Rx antenna gain correction factor is assumped to be 5 dB (11bis-b).
	Huawei, HiSilicon	-23.08			140.54	O2O, UE EIRP 34 dBm UE Rx antenna gain correction factor is assumped to be 0 dB (11bis-b).
	Huawei, HiSilicon	-23.85			105.80	O2I, UE EIRP 23 dBm, UE Rx antenna gain correction factor is assumped to be 5 dB (11bis-b).
	Huawei, HiSilicon	-23.85			110.80	O2I, UE EIRP 34 dBm UE Rx antenna gain correction factor is assumped to be 0 dB (11bis-b).
	ZTE	1.35	120.91	150.01	111.39	231RBs, MCS0, 2Rx, 10% iBLER, Δ1=0, Δ2+Δ2=6.99, O2I
	ZTE	7.58	114.39	143.49	130.01	231RBs, MCS0, 2Rx, 10% iBLER, Δ1=0, Δ2+Δ2=6.99, O2O
	OPPO	-2.38	125.37	161.46	129.84	66RB, MCS5
	OPPO	-1.28	124.27	160.36	148	66RB, MCS5
	Ericsson	-0.8	136.4	146.0	112.7	Δ>0; See R1-2008344 2 Rx 3kmph, 100ns HARQ w/ max 4 transmissions
	CMCC	-3.3	126.29	160.37	129.96	40dBm with 100MHz O2I
		-3.3	113.29	147.37	116.9	27dBm with 100MHz O2I
		-3.30	126.29	160.37	146.52	40dBm with 100MHz O2O
		-3.30	113.29	147.37	133.52	27dBm with 100MHz O2O
DDSU	vivo	-1.59	122.97	155.99	126.65	66RB, MCS4, O2I
	vivo	-1.47	122.85	155.87	142.02	66RB, MCS4, O2O
	CATT	-0.3	123.29	159.38	127.76	TDLA-3kmph
		-0.5	123.49	159.58	147.22	TDLA-30kmph
		-0.52	123.51	159.6	127.98	TDLC-3kmph
		-0.86	123.85	159.94	146.15	TDLC-30kmph
	Nokia/NSB	1.81	119.56	147.04	114.46	NLOS/O2I, UE speed: 3 km/h, RRC-connected
	Nokia/NSB	1.41	119.97	147.44	133.56	NLOS/O2O, UE speed: 30 km/h, RRC-connected
Suburban 28 GHz TDD
Frame structure	Company name	The required SNR	MCL	MIL	MPL	Key assumptions
DDDSU	CATT	-7.4	130.39	166.48	134.86	TDLA-3kmph
		-7.2	130.19	166.28	153.92	TDLA-30kmph
		-7.8	130.79	166.88	135.26	TDLC-3kmph
		-7.7	130.69	166.78	152.99	TDLC-30kmph
	Samsung	4.5	118.99	152.07	117.30	50 PRBs/ Velocity: 3 km/h
		4.9	118.59	151.67	137.82	50 PRBs/ Velocity: 30 km/h
		4.15	119.34	152.42	138.57	50 PRBs/ Velocity: 120 km/h
	OPPO	-9.41	132.4	168.49	136.87	20RB, MCS0
	OPPO	-8.69	131.68	167.77	155.41	20RB, MCS0
DDSU	CATT	-7.4	130.39	166.48	134.86	TDLA-3kmph
		-7.2	130.19	166.28	153.92	TDLA-30kmph
		-7.8	113.79	166.88	135.26	TDLC-3kmph
		-7.7	130.69	166.78	152.99	TDLC-30kmph

Table 2-15 Evaluation results based on system level simulation for FR2

Indoor, 28GHz, [Simulation assumptions in R1-2007742]
Item	PUSCH -eMBB	MSG3	PRACH B4	PUCCH -2bits	PUCCH-11bits	PUCCH -22bits	PDCCH -unicast	PDCCH -broadcast	PBCH	PDSCH -eMBB	MSG4
Required SNR	4.34	-2.01	-9.82	-3.45	-0.90	1.71	-7.97	-7.97	-6.55	-1.88	-7.12
5^thpercentile SNR via SLS	2.94	1.31	-3.18	0.24	1.63	2.81	10.13	10.5	10.5	10.13	10.5
Performance gap via SLS	1.4	NAN	NAN	NAN	NAN	NAN	NAN	NAN	NAN	NAN	NAN
Urban, 28GHz, O2I, [Simulation assumptions in R1-2007742]
Item	PUSCH -eMBB	MSG3	PRACH B4	PUCCH -2bits	PUCCH -11bits	PUCCH -22bits	PDCCH -unicast	PDCCH -broadcast	PBCH	PDSCH -eMBB	MSG4
Required SNR	3.61	-2.64	-10.10	-4.13	-1.14	1.33	-8.10	-8.10	-6.70	1.35	-5.47
5^thpercentile SNR via SLS	-16.58	-8.02	-15.15	-3.39	-2.9	-1.87	-6.76	-7.27	-7.27	-6.76	-7.27
Performance gap via SLS	20.19	5.38	5.05	NAN	1.76	3.2	NAN	NAN	0.57	8.11	1.8
Urban, 28GHz, O2O, [Simulation assumptions in R1-2007742]
Item	PUSCH -eMBB	MSG3	PRAC B4	PUCCH -2bits	PUCCH -11bits	PUCCH -22bits	PDCCH -unicast	PDCCH -broadcast	PBCH	PDSCH -eMBB	MSG4
Required SNR	6.44	-2.89	-10.22	-4.70	-2.40	0.10	-7.83	-7.83	-9.11	7.58	-3.27
5^thpercentile SNR via SLS	2.06	4.16	-2.61	2.23	4.13	5.96	10.61	9.76	9.76	10.61	9.76
Performance gap via SLS	4.38	NAN	NAN	NAN	NAN	NAN	NAN	NAN	NAN	NAN	NAN

Version Control

Toto je jediná verze této specifikace.

vh00

Download & Access

Download ZIP Browse Directory

38830-h00

Technical Details

AI Classification

Category: 7. Testování a interoperabilita

Subcategory: 7.1 Conformance Testing

Function: Test specification

Relevance: 7/10

Version Information

Release: Rel-17

Version: h00

Series: 38_series

Document Info

Keywords & Refs

Keywords:

SIP

File Info

File: 38830-h00

Processed: 2025-06-25

3GPP Spec Explorer - Enhanced specification intelligence