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65.7k
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|---|---|---|---|---|---|---|
38.314 | NR; Layer 2 measurements | TS | 16.4.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.314/38314-g40.zip | |
38.321 | NR; Medium Access Control (MAC) protocol specification | TS | 16.20.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.321/38321-gk0.zip | |
38.322 | NR; Radio Link Control (RLC) protocol specification | TS | 16.3.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.322/38322-g30.zip | |
38.323 | NR; Packet Data Convergence Protocol (PDCP) specification | TS | 16.8.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.323/38323-g80.zip | |
38.331 | NR; Radio Resource Control (RRC); Protocol specification | TS | 16.20.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.331/38331-gk0.zip | |
38.340 | NR; Backhaul Adaptation Protocol (BAP) specification | TS | 16.5.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.340/38340-g50.zip | |
38.401 | NG-RAN; Architecture description | TS | 16.12.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.401/38401-gc0.zip | |
38.410 | NG-RAN; NG general aspects and principles | TS | 16.4.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.410/38410-g40.zip | |
38.411 | NG-RAN; NG layer 1 | TS | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.411/38411-g00.zip | |
38.412 | NG-RAN; NG signalling transport | TS | 16.2.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.412/38412-g20.zip | |
38.413 | NG-RAN; NG Application Protocol (NGAP) | TS | 16.16.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.413/38413-gg0.zip | |
38.414 | NG-RAN; NG data transport | TS | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.414/38414-g00.zip | |
38.415 | NG-RAN; PDU session user plane protocol | TS | 16.6.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.415/38415-g60.zip | |
38.420 | NG-RAN; Xn general aspects and principles | TS | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.420/38420-g00.zip | |
38.421 | NG-RAN; Xn layer 1 | TS | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.421/38421-g00.zip | |
38.422 | NG-RAN; Xn signalling transport | TS | 16.1.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.422/38422-g10.zip | |
38.423 | NG-RAN; Xn Application Protocol (XnAP) | TS | 16.19.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.423/38423-gj0.zip | |
38.424 | NG-RAN; Xn data transport | TS | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.424/38424-g00.zip | |
38.425 | NG-RAN; NR user plane protocol | TS | 16.3.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.425/38425-g30.zip | |
38.455 | NG-RAN; NR Positioning Protocol A (NRPPa) | TS | 16.15.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.455/38455-gf0.zip | |
38.460 | NG-RAN; E1 general aspects and principles | TS | 16.5.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.460/38460-g50.zip | |
38.461 | NG-RAN; E1 layer 1 | TS | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.461/38461-g00.zip | |
38.462 | NG-RAN; E1 signalling transport | TS | 16.4.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.462/38462-g40.zip | |
38.463 | NG-RAN; E1 Application Protocol (E1AP) | TS | 16.16.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.463/38463-gg0.zip | |
38.470 | NG-RAN; F1 general aspects and principles | TS | 16.11.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.470/38470-gb0.zip | |
38.471 | NG-RAN; F1 layer 1 | TS | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.471/38471-g00.zip | |
38.472 | NG-RAN; F1 signalling transport | TS | 16.2.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.472/38472-g20.zip | |
38.473 | NG-RAN; F1 Application Protocol (F1AP) | TS | 16.21.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.473/38473-gl0.zip | |
38.474 | NG-RAN; F1 data transport | TS | 16.1.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.474/38474-g10.zip | |
38.508-1 | 5GS; User Equipment (UE) conformance specification; Part 1: Common test environment | TS | 16.8.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.508-1/38508-1-g80.zip | |
38.508-2 | 5GS; User Equipment (UE) conformance specification; Part 2: Common Implementation Conformance Statement (ICS) proforma | TS | 16.8.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.508-2/38508-2-g80.zip | |
38.509 | 5GS; Special conformance testing functions for User Equipment (UE) | TS | 16.6.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.509/38509-g60.zip | |
38.521-1 | NR; User Equipment (UE) conformance specification; Radio transmission and reception; Part 1: Range 1 standalone | TS | 16.8.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.521-1/38521-1-g80.zip | |
38.521-2 | NR; User Equipment (UE) conformance specification; Radio transmission and reception; Part 2: Range 2 standalone | TS | 16.14.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.521-2/38521-2-ge0.zip | |
38.521-3 | NR; User Equipment (UE) conformance specification; Radio transmission and reception; Part 3: Range 1 and Range 2 Interworking operation with other radios | TS | 16.8.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.521-3/38521-3-g80.zip | |
38.521-4 | NR; User Equipment (UE) conformance specification; Radio transmission and reception; Part 4: Performance | TS | 16.14.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.521-4/38521-4-ge0.zip | |
38.522 | NR; User Equipment (UE) conformance specification; Applicability of radio transmission, radio reception and radio resource management test cases | TS | 16.8.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.522/38522-g80.zip | |
38.523-1 | 5GS; User Equipment (UE) conformance specification; Part 1: Protocol | TS | 16.14.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.523-1/38523-1-ge0.zip | |
38.523-2 | 5GS; User Equipment (UE) conformance specification; Part 2: Applicability of protocol test cases | TS | 16.14.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.523-2/38523-2-ge0.zip | |
38.523-3 | 5GS; User Equipment (UE) conformance specification; Part 3: Protocol Test Suites | TS | 16.4.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.523-3/38523-3-g40.zip | |
38.533 | NR; User Equipment (UE) conformance specification; Radio Resource Management (RRM) | TS | 16.10.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.533/38533-ga0.zip | |
38.716-01-01 | NR intra band Carrier Aggregation (CA) Rel-16 for xCC Down Link (DL) / yCC Up Link (UL) including contiguous and non-contiguous spectrum (x >= y) | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-01-01/38716-01-01-g00.zip | The present document is a technical report for NR Intra-band Carrier Aggregation Rel-16 for xDL/yUL including contiguous and non-contiguous spectrum under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address NR Intra-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1, Table 1-2, Table 1-3 and Table 1-4.
Table 1-1: Release 16 NR Intra-band carrier contiguous aggregation combinations FR1
CA combination
DL_n78C_UL_n78C
DL_n79C_UL_n79C
DL_n66B_UL_n66A
DL_n41C_UL_n41A
DL_n41C_UL_n41C
DL_n71B
DL_n77C_UL_n77C
2CC_DL_n5B_BCS0
2CC_DL_n5B_1CC_UL_n5A_BCS0
2CC_DL_n5B_2CC _UL_n5B_BCS0
2CC_DL_n48B_BCS0
2CC_DL_n48B_1CC_UL_n48A_BCS0
2CC_DL_n48B_2CC_UL_n48B_BCS0
2CC_DL_n48C_BCS0
2CC_DL_n48C_1CC _UL_n48A_BCS0
2CC_DL_n48C_2CC _UL_n48C_BCS0
2CC_DL_n66B_BCS0
2CC_DL_n66B_1CC_UL_n66A_BCS0
2CC_DL_n66B_2CC_UL_n66B_BCS0
DL_n3B_UL_n3B_BCS0
CA_n1B_UL_n1B_BCS0
CA_n41C_UL_n41A_BCS1
CA_n7B_UL_n7A_BCS0
CA_n7B_UL_n7B_BCS0
CA_n71B
CA_n41B_UL_n41B_BCS0
Table 1-2: Release 16 NR Intra-band carrier non-contiguous aggregation combinations FR1
CA combination
DL_n66(2A)_UL_66A
DL_n41(2A)_UL_n41A
DC_n25(2A)_UL_n25A
2CC_DL_n2(2A)_BCS0
2CC_DL_n2(2A)_1CC_UL_n2A_BCS0
2CC_DL_n5(2A)_BCS0
2CC_DL_n5(2A)_1CC_UL_n5A_BCS0
2CC_DL_n48(2A)_BCS0
2CC_DL_n48(2A)_1CC _n48A_BCS0
2CC_DL_n66(2A)_1CC_UL_n66A_BCS0
3CC_DL_ n66(A-B)_BCS0
3CC_DL_ n66(A-B)_1CC _UL_n66A_BCS0
3CC_DL_ n66(A-B)_2CC _UL_n66B_BCS0
CA_n41(2A)
DL_n77(2A)_UL_n77A
DL_n78(2A)_UL_n78A
CA_n25(2A) UL_n25A_BCS0
CA_n7(2A)_UL_n7A_BCS0
CA_n78(2A)_UL_n78A_BCS0
CA_n3(2A)_UL_n3A_BCS0
CA_n41(2A)_UL_n41A_BCS1
CA_n78(2A)
CA_n77(3A)
CA_n48(A-C)
CA_n48(3A)
CA_n48(4A)
CA_n77(2A)_UL_n77(2A)_BCS0
CA_n78(2A)_UL_n78(2A)_BCS0
CA_n78(2A)_UL_n78(2A)_BCS1
Table 1-3: Release 16 NR Intra-band carrier contiguous aggregation combinations FR2
CA combination
REL-indep.
from
CA_n258B
Rel-15
CA_n258C
Rel-15
CA_n258D
Rel-15
CA_n258E
Rel-15
CA_n258F
Rel-15
CA_n258G
Rel-15
CA_n258H
Rel-15
CA_n258I
Rel-15
CA_n258J
Rel-15
CA_n258K
Rel-15
CA_n258L
Rel-15
CA_n258M
Rel-15
CA_n257G_UL_n257G
Rel-15
CA_n257H_UL_n257G
Rel-15
CA_n257H_UL_n257H
Rel-15
CA_n257I_UL_n257G
Rel-15
CA_n257I_UL_n257H
Rel-15
CA_n257I_UL_n257I
Rel-15
CA_n257J_UL_n257G
Rel-15
CA_n257J_UL_n257H
Rel-15
CA_n257J_UL_n257I
Rel-15
CA_n257J_UL_n257J
Rel-15
CA_n257K_UL_n257G
Rel-15
CA_n257K_UL_n257H
Rel-15
CA_n257K_UL_n257I
Rel-15
CA_n257K_UL_n257J
Rel-15
CA_n257K_UL_n257K
Rel-15
CA_n257L_UL_n257G
Rel-15
CA_n257L_UL_n257H
Rel-15
CA_n257L_UL_n257I
Rel-15
CA_n257L_UL_n257J
Rel-15
CA_n257L_UL_n257K
Rel-15
CA_n257L_UL_n257L
Rel-15
CA_n257M_UL_n257G
Rel-15
CA_n257M_UL_n257H
Rel-15
CA_n257M_UL_n257I
Rel-15
CA_n257M_UL_n257J
Rel-15
CA_n257M_UL_n257K
Rel-15
CA_n257M_UL_n257L
Rel-15
CA_n257M_UL_n257M
Rel-15
CA_n261G_UL_n261G
Rel-15
CA_n261H_UL_n261H
Rel-15
CA_n261I_UL_n261H
Rel-15
CA_n261J_UL_n261H
Rel-15
CA_n261K_UL_n261H
Rel-15
CA_n261L_UL_n261H
Rel-15
CA_n261M_UL_n261H
Rel-15
CA_n258D_UL_n258D
Rel-15
CA_n257C
Rel-15
Table 1-4: Release 16 NR Intra-band carrier non-contiguous aggregation combinations FR2
CA combination
CA_n260(5A)
CA_n260(6A)
CA_n260(7A)
CA_n260(8A)
CA_n260(9A)
CA_n260(10A)
CA_n260(2G)
CA_n260(4G)
CA_n260(2H)
CA_n260(2O)
CA_n260(3O)
CA_n260(4O)
CA_n260(2P)
CA_n260(4P)
CA_n261(2D)
CA_n261(2G)
CA_n261(3G)
CA_n261(4G)
CA_n261(2H)
CA_n261(2I)
CA_n261(2O)
CA_n261(4O)
CA_n261(7O)
CA_n261(2P)
CA_n261(4Q)
CA_n261(7O)
CA_n261(2P)
CA_n261(4Q)
CA_n260(2P)
CA_n260(3G)
CA_n260(4G)
CA_n260(A-G-O)
CA_n260(2A-G-O)
CA_n260(2A-2G-O)
CA_n260(A-G)
CA_n260(G-O)
CA_n260(G-O)
CA_n260(A-D)
CA_n260(2A-D) _UL_n260(2A)
CA_n260(A-D-O)
CA_n260(2A-D-O)
CA_n260(D-2O)
CA_n260(A-D-2O)
CA_n260(2A-D-2O)
CA_n260(A-2D)
CA_n260(2A-2D)
DC_n260(A-P)
DC_n260(2A-P)_UL_n260(2A)
DC_n260(2A-O)_UL_n260(2A)
DC_n260(2A-G)_UL_n260(2A)
DC_n260(2A-H)_UL_n260(2A)
DC_n260(A-2P)
DC_n260(2A-2P)
CA_n260(3A-3O)
CA_n260(D-2G)
CA_n260(2D-O)
CA_n260(G-2O)
CA_n260(2G-2O)
CA_n260(G-3O)
CA_n260(2G-3O)
CA_n260(G-4O)
CA_n260(2G-4O)
CA_n260(3G-O)
CA_n260(4G-O)
CA_n260(H-O)
CA_n260(2H-O)
CA_n261(A-D)
CA_n261(A-D-H)
CA_n261(A-G)
CA_n261(A-G-H)
CA_n261(G-I)
CA_n261(A-G-I)
CA_n261(A-H-I)
CA_n261(G-H)
CA_n261(H-I)
CA_n260(2A-G-2O)
CA_n260(A-2G-2O)
CA_n260(2A-2O-P)
CA_n260(2A-O-2P)
CA_n260(A-2O-2P)
CA_n260(2A-2O-Q)
CA_n260(2A-O-2Q)
CA_n260(A-2O-2Q)
CA_n260(4A-3O)
CA_n260(3A-4O)
CA_n260(4A-Q)
CA_n260(3A-2Q)
CA_n260(3A-P)
CA_n260(A-O-P)
CA_n260(A-Q)
CA_n260(P-Q)
CA_n260(2A-3P)
CA_n260(A-4P)
CA_n260(6A-O)
CA_n260(5A-2O)
CA_n260(5A-3O)
CA_n260(6A-P)
CA_n260(5A-2P)
CA_n260(8A-O)
CA_n260(7A-2O)
CA_n260(2O-P)
CA_n260(O-2P)
CA_n261(A-D-O)
CA_n261(A-2O)
CA_n261(D-2O)
CA_n261(A-2G-O)
CA_n261(A-G-2O)
CA_n261(2G-2O)
CA_n261(A-3G)
CA_n261(A-2G-O)
CA_n261(3G-O)
CA_n261(A-3G)
CA_n261(A-3O)
CA_n261(A-6O)
CA_n261(A-P)
CA_n261(A-Q)
CA_n260(A-G-2O)
CA_n260(2A-O-P)
CA_n260(A-2O-P)
CA_n260(A-O-2P)
CA_n260(A-2O-P)
CA_n260(2A-O-Q)
CA_n260(A-2O-Q)
CA_n260(2A-2Q)
CA_n260(A-O-2Q)
CA_n260(2O-2Q)
CA_n260(3A-Q)
CA_n260(O-P)
CA_n260(A-3P)
CA_n260(5A-O)
CA_n260(5A-P)
CA_n260(4A-2P)
CA_n260(7A-O)
CA_n261(A-O)
CA_n261(A-2G)
CA_n261(A-G-O)
CA_n261(2G-O)
CA_n261(G-2O)
CA_n261(3O)
CA_n261(A-5O)
CA_n261(6O)
CA_n260(2A-Q)
CA_n260(A-O-Q)
CA_n260(2O-Q)
CA_n260(A-2Q)
CA_n260(O-2Q)
CA_n260(4A-P)
CA_n260(3A-2P)
CA_n261(G-O)
CA_n261(5O)
CA_n260(O-Q)
CA_n258(2A)
CA_n258(3A)
CA_n258(4A)
CA_n258(5A)
CA_n260(G-H)
CA_n261(A-J)
CA_n261(A-K)
CA_n261(2A-G)
CA_n261(2A-H)
CA_n261(2A-I)
CA_n261(3A-G)
This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications. |
38.716-02-00 | NR inter-band Carrier Aggregation (CA) / Dual Connectivity (DC) Rel-16 for 2 bands Down Link (DL) / x bands Up Link (UL) (x = 1, 2) | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-02-00/38716-02-00-g00.zip | The present document is a technical report for NR inter-band CA and DC for 2 bands DL with up to 2 bands UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address NR inter-band CA and DC for 2 bands DL with up to 2 bands UL for the Rel-16 band combinations in Table 1-1 to Table 1-3
Table 1-1: Release 16 Inter-band NR CA for 2 bands DL with 1 band UL
CA combination
REL independent from
n1-n3
Rel-15
n1-n7
Rel-15
n1-n8
Rel-15
n1-n28
Rel-15
n1-n40
Rel-15
n1-n41
Rel-15
n1-n77
Rel-15
n1-n78
Rel-15
n1-n79
Rel-15
n1-n257
Rel-15
n2-n5
Rel-15
n2-n48
Rel-15
n2-n66
Rel-15
n2-n77
Rel-15
n2-n78
Rel-15
n3-n7
n3-n8
n3-n8
Rel-15
n3-n28
Rel-15
n3-n38
Rel-15
n3-n40
Rel-15
n3-n41
Rel-15
n3-n77
Rel-15
n3-n79
Rel-15
n3-n257
Rel-15
n5-n7
Rel-15
n5-n66
Rel-15
n5-n77
Rel-15
n5-n78
Rel-15
n5-n79
Rel-15
n5-n260
Rel-15
n5-n261
Rel-15
n7-n25
Rel-15
n7-n28
Rel-15
n7-n66
Rel-15
n7-n78
Rel-15
n8-n39
Rel-15
n8-n40
Rel-15
n8-n41
Rel-15
n8-n79
Rel-15
n20-n7
Rel-15
n20-n28
Rel-15
n20-n78
Rel-15
n25-n41
Rel-15
n25-n66
Rel-15
n25-n71
Rel-15
n25-n78
Rel-15
n25-n260
Rel-15
n25-n261
Rel-15
n28-n40
Rel-15
n28-n41
Rel-15
n28-n50
Rel-15
n28-n77
Rel-15
n28-n78
Rel-15
n29-n66
Rel-15
n29-n70
Rel-15
n28-n257
Rel-15
n38-n78
Rel-15
n39-n40
Rel-15
n39-n41
Rel-15
n39-n79
Rel-15
n40-n41
Rel-15
n40-n78
Rel-15
n40-n79
Rel-15
n41-n50
Rel-15
n41-n66
Rel-15
n41-n71
Rel-15
n41-n79
Rel-15
n41-n260
Rel-15
n41-n261
Rel-15
n48-n66
Rel-15
n50-n78
Rel-15
n66-n78
Rel-15
n66-n70
Rel-15
n66-n71
Rel-15
n66-n77
Rel-15
n66-n78
Rel-15
n66-n260
Rel-15
n66-n261
Rel-15
n70-n71
Rel-15
n71-n260
Rel-15
n71-n261
Rel-15
n77-n257
Rel-15
n77-n258
Rel-15
n77-n261
Rel-15
n78-n92
Rel-15
n78-n257
Rel-15
n78-n258
Rel-15
n79-n258
Rel-15
Table 1-2: Release 16 Inter-band NR CA for 2 bands DL with 2 bands UL
CA combination
REL independent from
n1-n3
Rel-15
n1-n7
Rel-15
n1-n8
Rel-15
n1-n28
Rel-15
n1-n40
Rel-15
n1-n41
Rel-15
n1-n78
Rel-15
n1-n79
Rel-15
n1-n257
Rel-15
n2-n5
Rel-15
n2-n48
Rel-15
n2-n66
Rel-15
n2-n77
Rel-15
n2-n78
Rel-15
n3-n8
Rel-15
n3-n28
Rel-15
n3-n38
Rel-15
n3-n40
Rel-15
n3-n41
Rel-15
n3-n77
Rel-15
n3-n79
Rel-15
n3-n257
Rel-15
n5-n7
Rel-15
n5-n66
Rel-15
n5-n77
Rel-15
n5-n78
Rel-15
n5-n79
Rel-15
n5-n260
Rel-15
n5-n261
Rel-15
n7-n28
Rel-15
n7-n66
Rel-15
n7-n78
Rel-15
n8-n39
Rel-15
n8-n40
Rel-15
n8-n41
Rel-15
n8-n79
Rel-15
n20-n7
Rel-15
n20-n28
Rel-15
n20-n78
Rel-15
n25-n41
Rel-15
n25-n66
Rel-15
n25-n71
Rel-15
n25-n78
Rel-15
n28-n40
Rel-15
n28-n41
Rel-15
n28-n50
Rel-15
n28-n78
Rel-15
n28-n257
Rel-15
n38-n78
Rel-15
n39-n40
Rel-15
n39-n41
Rel-15
n39-n79
Rel-15
n40-n41
Rel-15
n40-n79
Rel-15
n41-n50
Rel-15
n41-n66
Rel-15
n41-n71
Rel-15
n41-n78
Rel-15
n41-n79
Rel-15
n48-n66
Rel-15
n50-n78
Rel-15
n66-n77
Rel-15
n66-n78
Rel-15
n77-n257
Rel-15
n77-n261
Rel-15
n78-n92
Rell-15
n78-n257
Rel-15
Table 1-3: Release 16 Inter-band DC for 2 bands
DC combination
REL independent from
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications. |
38.716-03-01 | NR inter-band Carrier Aggregation (CA) / Dual Connectivity (DC) Rel-16 for 3 bands Down Link (DL) / 1 bands Up Link (UL) | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-03-01/38716-03-01-g00.zip | The present document is a technical report for NR 3DL/1UL Inter-band Carrier Aggregation. The purpose is to gather the relevant background information and studies in order to address 3DL/1UL Inter-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1. UL carrier shall be supported in each of the 3 bands being aggregated unless otherwise specified.
Table 1-1: Release 16 3DL/1UL inter-band carrier aggregation combinations
CA combination
REL independent from
CA_x1A-yA-zA
The present document contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications. |
38.716-03-02 | NR inter-band Carrier Aggregation (CA) / Dual Connectivity (DC) Rel-16 for 3 bands Down Link (DL) / 2 bands Up Link (UL) | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-03-02/38716-03-02-g00.zip | The present document is a technical report for NR inter-band CA and DC for 3 bands DL with 2 bands UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address NR inter-band CA and DC for 3 bands DL with 2 bands UL for the Rel-16 band combinations in Table 1-1 to Table 1-3
Table 1-1: Release 16 Inter-band NR CA for 3 bands DL with 2 band UL
CA combination
REL independent from
n1-n3-n41
Rel-15
n1-n3-n78
Rel-15
n1-n7-n28
Rel-15
n3-n8-n78
Rel-15
n3-n77-n257
Rel-15
n3-n28-n77
Rel-15
n3-n78-n257
Rel-15
n3-n40-n41
Rel-15
n28-n77-n257
Rel-15
n28-n78-n257
Rel-15
n40-n41-n79
Rel-15
n66-n70-n71
Rel-15
n77-n79-n257
Rel-15
n78-n79-n257
Rel-15
Table 1-2: Release 16 Inter-band NR DC for 3 bands DL
DC combination
REL independent from
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications. |
38.716-04-01 | NR inter-band Carrier Aggregation (CA) Rel-16 for 4 bands Down Link (DL) / 1 bands Up Link (UL) | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-04-01/38716-04-01-g00.zip | The present document is a technical report on inter-band CA for 4 bands DL with 1 band UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address 4 bands DL/1 band UL Inter-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1.
Table 1-1: Release 16 4 bands DL/1 band UL inter-band carrier aggregation combinations
CA combination
CA_n1A-n3A-n8A-n78A
CA_n1A-n3A-n28A-n78A
CA_n3A-n28A-n77A-n257A
CA_n3A-n28A-n77A-n257D
CA_n3A-n28A-n77A-n257G
CA_n3A-n28A-n77A-n257H
CA_n3A-n28A-n77A-n257I
CA_n3A-n28A-n78A-n257A
CA_n3A-n28A-n78A-n257D
CA_n3A-n28A-n78A-n257G
CA_n3A-n28A-n78A-n257H
CA_n3A-n28A-n78A-n257I
CA_n3A-n28A-n77(2A)-n257A
CA_n3A-n28A-n77(2A)-n257D
CA_n3A-n28A-n77(2A)-n257G
CA_n3A-n28A-n77(2A)-n257H
CA_n3A-n28A-n77(2A)-n257I
CA_n3A-n28A-n77(3A)-n257A
CA_n3A-n28A-n77(3A)-n257D
CA_n3A-n28A-n77(3A)-n257G
CA_n3A-n28A-n77(3A)-n257H
CA_n3A-n28A-n77(3A)-n257I
CA_n7A-n25A-n66A-n78A
CA_n1A-n3A-n7A-n28A
CA_n1A-n3A-n7B-n28A
CA_n1A-n3A-n7A-n78A
CA_n1A-n3A-n7B-n78A
CA_n3A-n7A-n28A-n78A
CA_n3A-n7B-n28A-n78A
CA_n2A-n5A-n66A-n260A
CA_n2A-n5A-n30A-n260A
CA_n5A-n30A-n66A-n260A
CA_n2A-n30A-n66A-n260A
CA_n2A-n5A-n66A-n260M
CA_n2A-n5A-n30A-n260M
CA_n5A-n30A-n66A-n260M
CA_n2A-n30A-n66A-n260M
CA_n2(2A)-n5A-n30A-n66A
CA_n2A-n5A-n30A-n66(2A)
CA_n2A-n5A-n30A-n66A
This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications. |
38.807 | Study on requirements for NR beyond 52.6 GHz | TR | 16.1.0 | RP | https://www.3gpp.org/ftp/Specs/archive/38_series/38.807/38807-g10.zip | This documents is to provide uses cases and deployment scenarios for NR system operation in carriers between 52.6 GHz and 100 GHz and also provide operational and system design requirements, which can facilitate 3GPP's future enhancements to NR beyond 52.6GHz. NR physical layer channels in Release 15 were designed to be optimized for uses under 52.6 GHz and with the potential to be used for above 52.6 GHz. In general, high frequencies are faced with more challenges, such as higher phase noise, larger propagation loss, and lower power amplifier efficiency, compared to low frequency bands. Additionally, the frequency ranges above 52.6 GHz potentially contain larger spectrum allocations and larger bandwidths that are not available for bands lower than 52.6 GHz and may support widely ranging use cases, such as V2X, IAB, NR licensed and unlicensed, fixed wireless access, Wireless HDMI, Industrial Automation/IoT, and non-terrestrial operations. With the aim of enabling and optimizing 3GPP NR systems for operation in above 52.6 GHz, as originally planned during the NR SI (TR 38.913 [4]), 3GPP should further work on physical layer channels including potential introduction of new waveform, procedures, and requirements, etc., where the operation is applicable for operations in licensed and unlicensed spectrum, to WAN operation, private networks, Integrated Access Backhaul (IAB), ITS application using vehicular communications (V2X), etc.
The objectives of the study item are the following [2]:
- identify target spectrum ranges, including survey on global spectrum availability, regulatory requirements, channelization, and licensing regimes,
- identify potential use cases and deployment scenarios,
- identify NR design requirements and considerations on top of regulatory requirements. |
38.809 | NR; Background for integrated access and backhaul radio transmission and reception | TR | 16.6.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.809/38809-g60.zip | The present document is the Technical Report for the Work Item on Integrated Access and Backhaul for NR. The present document captures the background and the decisions on IAB requirements. |
38.810 | NR; Study on test methods | TR | 16.7.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.810/38810-g70.zip | The objective of this study is to define the over the air (OTA) testing methodology for UE RF, UE RRM, and UE demodulation requirements for New Radio, the associated measurement uncertainty budget(s), and the related test tolerances.
The testing methodology development targets frequencies in FR2, and the work is prioritized according to the frequency ranges that are included in the NR work item.
For mmWave NR UEs, RF requirements are specified as OTA requirements, using the applicable metrics. The definitions of these requirements are expected to align the spatial coverage of the requirement with the UE's working condition acceptable in expected directions. NR is expected to be used in more than one type of UEs, and different spatial coverage requirements may apply to different UE types. |
38.812 | Study on Non-Orthogonal Multiple Access (NOMA) for NR | TR | 16.0.0 | R1 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.812/38812-g00.zip | This document is intended to gather all technical outcome of the study item "Study on non-orthogonal multiple access (NOMA) for NR" [2], and draw a conclusion on a way forward.
This activity involves the Radio Access work area of the 3GPP studies and has impacts both on the Mobile Equipment and Access Network of the 3GPP systems. |
38.817-01 | General aspects for User Equipment (UE) Radio Frequency (RF) for NR | TR | 16.4.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.817-01/38817-01-g40.zip | The present document is a technical report for the work item on Work Item on New Radio (NR) Access Technology, covering the general aspects for RF, RRM and demodulation for NR. |
38.819 | LTE Band 65 for NR (n65) | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.819/38819-g00.zip | The present document is a technical report for the work item of Band 65 for New Radio. |
38.820 | Study on the 7 to 24 GHz frequency range for NR | TR | 16.1.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.820/38820-g10.zip | The present document is a technical report for the study item on 7.125 – 24.250 GHz frequency range, covering the regulatory framework study, general RF aspects, as well as BS- and UE-specific aspects.
During the NR study item in Rel-14, frequency range of 6 – 24 GHz was discussed as part of the RAN WG4 studies. This frequency range was included within the Rel-14 study item objectives and the operational requirements for Next Generation access technologies described in TR 38.913 [2].
As the frequencies below 7.125 GHz and above 24.25 GHz (i.e. up to 52.6 GHz) were already addressed in Rel‑15 NR specifications, the discussion on the 7 - 24 GHz intermediate range was triggered at later stage.
NOTE 1: During Rel-15 work on NR frequency bands, the FR1 frequency range was initially defined up to 6 GHz. At later stage of Rel-15, the FR1 was agreed at RAN#82 meeting to be extended up to 7.125 GHz in order to incorporate the NR-U work and potential licensed operation.
NOTE 2: For simplicity purposes, whenever the term “7 – 24 GHz” will be used in this technical report, the frequency range of 7.125 – 24.250 GHz shall be considered.
This TR intends to provide information on the feasibility of NR operation in 7 – 24 GHz frequency range for set of potential deployment scenarios, considering BS RF and UE RF technology capabilities taking into account possible ranges for key requirements.
This TR does not intend to provide specific recommendations on NR system parameter values to be defined, nor specific RF or EMC requirement values to be defined for UE or BS operation in this frequency range, as those aspects are considered to be covered by the follow-up WI. |
38.821 | Solutions for NR to support Non-Terrestrial Networks (NTN) | TR | 16.2.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.821/38821-g20.zip | The objectives for this document are, based on the outcomes of the TR 38.811 [2], to study a set of necessary features/adaptations enabling the operation of the New Radio (NR) protocol in non-terrestrial networks for 3GPP Release 16 with a priority on satellite access. Access network based on Unmanned Aerial System (UAS) including High Altitude Platform Station (HAPS) could be considered as a special case of non-terrestrial access with lower delay/Doppler value and variation rate.
The objectives for the study are the following
● Consolidation of potential impacts on the physical layer and definition of related solutions if needed
● Performance assessment of NR in selected deployment scenarios (LEO based satellite access, GEO based satellite access) through link level (Radio link) and system level (cell) simulations
● Study and define related solutions if needed on NR related Layer 2 and 3
● Study and define related solutions if needed on RAN architecture and related interface protocols
NOTE: As far as architecture issues are concerned, this TR supersedes TR 38.811 [2] |
38.822 | NR; User Equipment (UE) feature list | TR | 16.4.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.822/38822-g40.zip | |
38.823 | Study of further enhancement for disaggregated gNB | TR | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.823/38823-g00.zip | The present document is related to the technical report of the study item " Study on Enhancement for Disaggregated gNB " [2].
This activity involves the Radio Access work area of the 3GPP studies and has impacts on the Access Network of the 3GPP systems.
The present document gathers all technical outcome of the study item, and draws a conclusion on the way forward. |
38.824 | Study on physical layer enhancements for NR ultra-reliable and low latency case (URLLC) | TR | 16.0.0 | R1 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.824/38824-g00.zip | The present document captures the results and findings from the study item "Study on physical layer enhancements for NR Ultra Reliable Low Latency Communication (URLLC)" [2][3]. The purpose of this TR is to document the baseline performance achievable with Rel-15 NR URLLC considering the prioritized URLLC use cases identified in [2][3], and to document the evaluation and findings of the potential enhancements for the prioritized URLLC use cases. However, this does not imply that NR Rel-16 URLLC is necessarily restricted to the identified use cases in [2][3].
This activity involves the Radio Access work area of the 3GPP studies and has potential impacts both on the Mobile Equipment and Access Network of the 3GPP systems.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings. |
38.825 | Study on NR industrial Internet of Things (IoT) | TR | 16.0.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.825/38825-g00.zip | |
38.826 | Study on evaluation for 2 receiver exception in Rel-15 vehicle mounted User Equipment (UE) for NR | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.826/38826-g00.zip | The present document is a technical report for NR vehicle mounted UE with 2Rx antenna at FR1 in Rel-15. The purpose is to gather the relevant background information and studies in order to address 2Rx exception for NR vehicular UEs in a few specific NR bands such as n7, n38, n41, n77, n78 and n79 since NR UE shall be equipped with 4Rx ports as a baseline is mandated for these NR bands.
To allow 2 RX exception for vehicular UEs, as requested by 5GAA, it is essential for 3GPP RAN 4 to further study the design of telematics control units (TCU) in vehicles to gain confidence that performance is not degraded at system level by deploying 2 RX. As a part of allowing the 2 RX exception, RAN 4 needs to evaluate identification of vehicle mounted UEs in the network and corresponding test methods
This Technical Report contains the evaluation results for the impact of 2Rx vehicle mounted UE on coverage and throughput considering the realistic RF architecture and link budget with reasonable antenna gain of 2Rx vehicle UE. Also propose the methods to distinguish vehicle UE from handheld UE to verify conformance and GCF certification. |
38.827 | Study on radiated metrics and test methodology for the verification of multi-antenna reception performance of NR User Equipment (UE) | TR | 16.8.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.827/38827-g80.zip | The present document is the technical report for the study item on NR MIMO OTA, which was approved at TSG RAN#80 [2]. The scope of the SI is to define the radiated metrics and end-to-end test methodology for the verification of multi-antenna reception performance of NR UEs in FR1 and FR2 and the associated preliminary measurement uncertainty budgets. |
38.828 | Cross Link Interference (CLI) handling and Remote Interference Management (RIM) for NR | TR | 16.1.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.828/38828-g10.zip | The present document provides the results of co-existence evaluation for CLI and RIM for NR. |
38.831 | User Equipment (UE) Radio Frequency (RF) requirements for Frequency Range 2 (FR2) | TR | 16.1.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.831/38831-g10.zip | The present document is technical report for NR RF Requirement Enhancements for FR2 WI. |
38.840 | Study on User Equipment (UE) power saving in NR | TR | 16.0.0 | R1 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.840/38840-g00.zip | The present document captures the findings of the study item, "Study on UE Power Saving in NR" [2]. The purpose of this TR is to study the UE power saving framework taking into consideration of latency and performance in NR as well as network impact. The study of UE power saving in NR includes the study of the power saving schemes and the associated procedures. The power saving schemes are to study the UE adaptation to the traffic and UE power consumption characteristics in frequency, time, antenna domains, DRX configuration, and UE processing timeline for UE power saving. The power saving signal/channel/procedure is used for triggering adaptation of UE power consumption characteristic. The power saving study also considers UE power consumption reduction in RRM measurements. The associated procedures for the power saving schemes include the enhancement of UE paging procedure based on the additional power saving signal/channel/procedure and the UE power saving procedure in supporting efficient transition from RRC_CONNECTED to RRC_IDLE/RRC_INACTIVE mode.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings. |
38.855 | Study on NR positioning support | TR | 16.0.0 | R1 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.855/38855-g00.zip | The present document captures the findings of the study item "Study on NR positioning support" [1]. The purpose of the present document is to support NR positioning in TSG RAN WG1, WG2 and WG3 to properly model and evaluate the performance of NR positioning solutions in deployment scenarios representing relevant use cases, both regulatory and commercial. |
38.856 | Study on local NR positioning in NG-RAN | TR | 16.0.0 | R3 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.856/38856-g00.zip | The present document captures the studies on the feasibility and specification impact of local location management functionality and of the NG RAN acting as LCS client. |
38.866 | Study on remote interference management for NR | TR | 16.1.0 | R1 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.866/38866-g10.zip | The present document captures the findings and results from the study item "Study on remote interference management for NR" [2]. The objective of this SI is to investigate possible mechanisms for mitigating the impact of remote base station interference in unpaired spectrum focusing on synchronized macro cells with semi-static DL/UL configuration in co-channel, including:
- Study mechanisms for improving network robustness and addressing strong remote base station interference, including potential UE side's enhancement [RAN1]
- Study mechanisms for identifying which gNB(s) generate strong remote interference, including the following aspects:
- Potential Reference signal design for gNB to identify that it creates strong inter-gNB interference to some victim gNB [RAN1]
- Existing reference signals are starting points of discussion.
- Mechanism for gNB to start and terminate the transmission/detection of the reference signal(s) [RAN1, RAN3]
- Study the potential additional coordination among gNBs for mitigating remote interference [RAN3]
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings. |
38.873 | Time Division Duplex (TDD) operating band in Band n48 | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.873/38873-g00.zip | The present document is a technical report for the work item of TDD operating band in Band n48. |
38.874 | NR; Study on integrated access and backhaul | TR | 16.0.0 | R2 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.874/38874-g00.zip | The present document is related to the study item "Integrated Access and Backhaul" [1].
The document describes the architectures, the radio protocols, and the physical layer aspects related to relaying of access traffic by sharing radio resources between access and backhaul links. |
38.883 | Study on support of NR downlink 256 Quadrature Amplitude Modulation (QAM) for frequency range 2 (FR2) | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.883/38883-g00.zip | The present document captures finding of the study on support of NR DL 256QAM for FR2. The purpose of this TR is to study the feasibility and performance benefits for NR DL 256QAM for FR2 as defined in Work Item “Add support of NR DL 256QAM for FR2” [2]. |
38.885 | Study on NR Vehicle-to-Everything (V2X) | TR | 16.0.0 | R1 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.885/38885-g00.zip | The present document captures the findings of the study item, "Study on NR Vehicle-to-Everything" [2]. The purpose of this TR is to is to study how to support advanced V2X use cases identified in [3], among other matters. However, this does not imply that NR V2X capability is necessarily restricted to advanced services. It is up to the regional regulators and the stakeholders involved (i.e. car OEMs and the automotive ecosystem in general) to decide on the technology of choice for the services and use cases.
This document addresses NR SL design for V2X; Uu enhancements for advanced V2X use cases; Uu-based SL resource allocation/configuration by LTE and NR; RAT and interface selection; QoS management; and non-cochannel coexistence between NR and LTE SLs. The study addresses unlicensed ITS bands and licensed bands in FR1 and FR2, up to 52.6 GHz.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings. |
38.886 | V2X Services based on NR; User Equipment (UE) radio transmission and reception | TR | 16.3.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.886/38886-g30.zip | The present document is a technical report for NR V2X services with sidelink operation in Rel-16. The purpose is to specify radio solutions that are necessary for NR to support advanced V2X services (except the remote driving use case which was studied in TR 38.824) based on the study outcome captured in TR 38.885.
1. NR sidelink: Specify NR sidelink solutions necessary to support sidelink unicast, sidelink groupcast, and sidelink broadcast for V2X services, considering in-network coverage, out-of-network coverage, and partial network coverage.
The solutions should cover both the operating scenario where the carrier(s) is/are dedicated to V2X services and the operating scenario where the carrier(s) is/are licensed spectrum and also used for NR Uu/LTE Uu operation.
NR sidelink design starts with frequencies in FR1, and NR sidelink in FR2 is supported by applying the design for FR1 and PT-RS to the numerologies agreed for FR2. No FR2 specific optimization is supported in this WI except PT-RS. No beam management is supported in this work.
For the scenarios of NR sidelink carrier, this work will consider a single carrier for the NR sidelink transmission and reception.
In this work, 2Rx antennas as well as 4Rx antennas are supported. The full range of speeds defined in SA1 (TS 22.186) needs to be supported in FR1.
2. Specify support for NR Uu to provide control for LTE sidelink
3. Specify UE report to assist gNB scheduling
4. Specify support for QoS management
This Technical Report focus on NR sidelink UE Tx/Rx RF requirements and contains the adjacent channel coexistence evaluation results for NR sidelink operation at both licensed bands and the dedicated ITS spectrum for V2X service. |
38.887 | TDD operating band in Band n259 | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.887/38887-g00.zip | |
38.888 | Adding wider channel bandwidth in NR band n28 | TR | 16.0.0 | R4 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.888/38888-g00.zip | The present document is a technical report for adding wider channel bandwidths in NR band n28. |
38.889 | Study on NR-based access to unlicensed spectrum | TR | 16.0.0 | R1 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.889/38889-g00.zip | The present document contains the results and findings from the study item, "Study on NR-based Access to Unlicensed Spectrum" [2]. The purpose of this TR is to document the identified NR enhancements and corresponding evaluations for a single global solution framework for NR based access to unlicensed spectrum.
This document addresses evaluation methodology and possible scenarios for NR based unlicensed deployments.
This technical report documents the existing regulatory requirements for unlicensed spectrum deployment in the 5GHz bands, [and other bands]
This document identifies and captures coexistence evaluations of physical layer options and enhancements to NR and, if necessary, NR RAN protocols to meet the requirements and targets for unlicensed spectrum deployments.
This document contains an assessment of the feasibility of base station and terminal operation of 5GHz band (based on regulatory limits) in conjunction with relevant licensed frequency bands.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings. |
38.901 | Study on channel model for frequencies from 0.5 to 100 GHz | TR | 16.1.0 | R1 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.901/38901-g10.zip | |
38.903 | NR; Derivation of test tolerances and measurement uncertainty for User Equipment (UE) conformance test cases | TR | 16.15.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.903/38903-gf0.zip | |
38.905 | NR; Derivation of test points for radio transmission and reception User Equipment (UE) conformance test cases | TR | 16.8.0 | R5 | https://www.3gpp.org/ftp/Specs/archive/38_series/38.905/38905-g80.zip | |
38.912 | Study on New Radio (NR) access technology | TR | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/38_series/38.912/38912-g00.zip | |
38.913 | Study on scenarios and requirements for next generation access technologies | TR | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/38_series/38.913/38913-g00.zip | |
41.031 | Fraud Information Gathering System (FIGS); Service requirements; Stage 0 | TR | 16.0.0 | S3 | https://www.3gpp.org/ftp/Specs/archive/41_series/41.031/41031-g00.zip | |
41.101 | Technical Specifications and Technical Reports for a GERAN-based 3GPP system | TS | 16.1.0 | SP | https://www.3gpp.org/ftp/Specs/archive/41_series/41.101/41101-g10.zip | |
42.043 | Support of Localised Service Area (SoLSA); Service description; Stage 1 | TS | 16.0.0 | S1 | https://www.3gpp.org/ftp/Specs/archive/42_series/42.043/42043-g00.zip | |
42.056 | GSM Cordless Telephony System (CTS), Phase 1; Service description; Stage 1 | TS | 16.0.0 | S1 | https://www.3gpp.org/ftp/Specs/archive/42_series/42.056/42056-g00.zip | |
42.068 | Voice Group Call Service (VGCS); Stage 1 | TS | 16.0.0 | S1 | https://www.3gpp.org/ftp/Specs/archive/42_series/42.068/42068-g00.zip | |
42.069 | Voice Broadcast Service (VBS); Stage 1 | TS | 16.0.0 | S1 | https://www.3gpp.org/ftp/Specs/archive/42_series/42.069/42069-g00.zip | |
43.005 | Technical performance objectives | TS | 16.0.0 | CP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.005/43005-g00.zip | |
43.010 | GSM Public Land Mobile Network (PLMN) connection types | TS | 16.0.0 | C3 | https://www.3gpp.org/ftp/Specs/archive/43_series/43.010/43010-g00.zip | |
43.013 | Discontinuous Reception (DRX) in the GSM system | TS | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.013/43013-g00.zip | |
43.020 | Security related network functions | TS | 16.2.0 | S3 | https://www.3gpp.org/ftp/Specs/archive/43_series/43.020/43020-g20.zip | |
43.022 | Functions related to Mobile Station (MS) in idle mode and group receive mode | TS | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.022/43022-g00.zip | |
43.026 | Multiband operation of GSM / DCS 1800 by a single operator | TR | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.026/43026-g00.zip | |
43.030 | Radio network planning aspects | TR | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.030/43030-g00.zip | |
43.045 | Technical realization of facsimile group 3 transparent | TS | 16.0.0 | C3 | https://www.3gpp.org/ftp/Specs/archive/43_series/43.045/43045-g00.zip | |
43.050 | Transmission planning aspects of the speech service in the GSM Public Land Mobile Network (PLMN) system | TS | 16.0.0 | S4 | https://www.3gpp.org/ftp/Specs/archive/43_series/43.050/43050-g00.zip | |
43.051 | GSM/EDGE Overall description; Stage 2 | TS | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.051/43051-g00.zip | |
43.052 | GSM Cordless Telephony System (CTS), Phase 1; Lower Layers of the CTS Radio Interface, Stage 2 | TS | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.052/43052-g00.zip | |
43.055 | Dual Transfer Mode (DTM); Stage 2 | TS | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.055/43055-g00.zip | |
43.058 | Characterisation, test methods and quality assessment for handsfree Mobile Stations (MSs) | TR | 16.1.0 | S4 | https://www.3gpp.org/ftp/Specs/archive/43_series/43.058/43058-g10.zip | |
43.059 | Functional stage 2 description of Location Services (LCS) in GERAN | TS | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.059/43059-g00.zip | |
43.064 | General Packet Radio Service (GPRS); Overall description of the GPRS radio interface; Stage 2 | TS | 16.0.0 | RP | https://www.3gpp.org/ftp/Specs/archive/43_series/43.064/43064-g00.zip |
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