SIST EN 300 417-5-1 V1.2.1:2003
(Main)Transmission and Multiplexing (TM); Generic requirements of transport functionality of equipment; Part 5-1: Plesiochronous Digital Hierarchy (PDH) path layer functions
Transmission and Multiplexing (TM); Generic requirements of transport functionality of equipment; Part 5-1: Plesiochronous Digital Hierarchy (PDH) path layer functions
Functional requirements for PDH path layers of PDH interfaces on all t ypes of equipment based on the generic principles described in part 1- 1.
Prenos in multipleksiranje (TM) – Generične zahteve za prenosno funkcionalnost opreme – 5-1. del: Funkcije plasti poti pri pleziohroni digitalni hierarhiji (PDH)
General Information
Standards Content (Sample)
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.XQNFLRQDOQRVWTransmission and Multiplexing (TM); Generic requirements of transport functionality of equipment; Part 5-1: Plesiochronous Digital Hierarchy (PDH) path layer functions33.040.20Prenosni sistemTransmission systemsICS:Ta slovenski standard je istoveten z:EN 300 417-5-1 Version 1.2.1SIST EN 300 417-5-1 V1.2.1:2003en01-december-2003SIST EN 300 417-5-1 V1.2.1:2003SLOVENSKI
STANDARD
SIST EN 300 417-5-1 V1.2.1:2003
ETSI EN 300 417-5-1 V1.2.1 (2001-10)European Standard (Telecommunications series) Transmission and Multiplexing (TM);Generic requirements of transport functionality of equipment;Part 5-1: Plesiochronous Digital Hierarchy (PDH)path layer functions SIST EN 300 417-5-1 V1.2.1:2003
ETSI ETSI EN 300 417-5-1 V1.2.1 (2001-10)2
Reference REN/TM-01042-5-1 Keywords architecture, path, PDH, SDH, transmission, transport ETSI 650 Route des Lucioles F-06921 Sophia Antipolis Cedex - FRANCE
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© European Telecommunications Standards Institute 2001. All rights reserved.
SIST EN 300 417-5-1 V1.2.1:2003
ETSI ETSI EN 300 417-5-1 V1.2.1 (2001-10)3 Contents Intellectual Property Rights.7 Foreword.7 Introduction.8 1 Scope.9 2 References.9 3 Definitions, abbreviations and symbols.10 3.1 Definitions.10 3.2 Abbreviations.10 3.3 Symbols and Diagrammatic Conventions.12 4 P4e path layer functions.12 4.1 P4e connection functions.14 4.2 P4e trail termination functions.15 4.2.1 P4e trail termination source P4e_TT_So.15 4.2.2 P4e trail termination sink P4e_TT_Sk.16 4.3 P4e adaptation functions.17 4.3.1 P4e to P31x adaptation source P4e/P31x_A_So/i.17 4.3.2 P4e to P31x Adaptation Sink P4e/P31x_A_Sk/i.18 4.3.3 P4e to P31e adaptation source P4e/P31e_A_So/i.20 4.3.4 P4e to P31e adaptation sink P4e/P31e_A_Sk/i.21 4.3.5 P4e to P31s adaptation source P4e/P31s_A_So/i.23 4.3.6 P4e to P31s adaptation sink P4e/P31s_A_Sk/i.24 4.4 P4e layer monitoring functions.27 4.4.1 P4e layer non-intrusive monitoring function P4em_TT_Sk.27 4.5 P4e PDH equipment clock adaptation source P4e_PEC.28 5 P31e path layer functions.29 5.1 P31e connection functions.30 5.2 P31e trail termination functions.31 5.2.1 P31e trail termination source P31e_TT_So.31 5.2.2 P31e trail termination sink P31e_TT_Sk.32 5.3 P31e adaptation functions.33 5.3.1 P31e to P22x adaptation source P31e/P22x_A_So/i.33 5.3.2 P31e to P22x adaptation sink P31e/P22x_A_Sk/i.34 5.3.3 P31e to P22e adaptation source P31e/P22e_A_So/i.36 5.3.4 P31e to P22e adaptation sink P31e/P22e_A_Sk/i.37 5.4 P31e layer monitoring functions.39 5.4.1 P31e layer non-intrusive monitoring function P31em_TT_Sk.39 5.5 P31e PDH equipment clock adaptation source P31e_PEC.40 6 P22e path layer functions.41 6.1 P22e connection functions.42 6.2 P22e trail termination functions.43 6.2.1 P22e trail termination source P22e_TT_So.43 6.2.2 P22e trail termination sink P22e_TT_Sk.44 6.3 P22e adaptation functions.45 6.3.1 P22e to P12x adaptation source P22e/P12x_A_So/i.45 6.3.2 P22e to P12x adaptation sink P22e/P12x_A_Sk/i.47 6.3.3 P22e to P12s adaptation source P22e/P12s_A_So/i.49 6.3.4 P22e to P12s adaptation sink P22e/P12s_A_Sk/i.50 6.4 P22e layer monitoring functions.52 6.4.1 P22e layer non-intrusive monitoring function P22em_TT_Sk.52 6.5 P22e PDH equipment clock adaptation source P22e_PEC.53 7 P12s path layer functions.54 SIST EN 300 417-5-1 V1.2.1:2003
ETSI ETSI EN 300 417-5-1 V1.2.1 (2001-10)4 7.1 P12s connection functions.57 7.2 P12s trail termination functions.57 7.2.1 P12s trail termination source P12s_TT_So.57 7.2.2 P12s trail termination sink P12s_TT_Sk.58 7.3 P12s adaptation functions.61 7.3.1 P12s to P0-31c adaptation source P12s/P0-31c_A_So.61 7.3.2 P12s to P0-31c adaptation sink P12s/P0-31c_A_Sk.62 7.3.3 P12s to SD adaptation source P12s/SD_A_So.62 7.3.4 P12s to SD adaptation sink P12s/SD_A_Sk.62 7.3.5 P12s to ATM VP compound adaptation source P12s/Avp_A_So.63 7.3.6 P12s to ATM VP compound adaptation sink P12s/Avp_A_Sk.63 7.3.7 P12s Layer Clock adaptation source P12s-LC_A_So.63 7.3.8 P12s Layer to P0 layer compound adaptation source function P12s/P0X_A_So.63 7.3.8.1 P12s to P0G32 adaptation source P12s/P0G32_A_So.65 7.3.8.2 P0G32 termination source function P0G32_T_So.66 7.3.8.3 P0G32 to P0 layer adaptation source function P0G32/P0_A_So/M.66 7.3.8.4 P0G32 to P0-LAPD layer adaptation source function P0G32/P0-LAPD_A_So/M.68 7.3.9 P12s layer to P0X layer compound adaptation sink function P12s/P0X_A_Sk.69 7.3.9.1 P12s layer to P0G32 adaptation sink function P12s/P0G32_A_Sk.70 7.3.9.2 P0G32 termination sink function TUG_T_Sk.72 7.3.9.3 P0G32 to P0 layer adaptation sink function P0G32/P0_A_Sk/M.73 7.3.9.4 P0G32 to P0-LAPD layer adaptation sink function P0G32/P0-LAPD_A_Sk/M.74 7.3.10 P12s layer to V3-SM layer adaptation source function P12s/P0X_A_So.75 7.3.11 P12s layer to V3-SM layer adaptation source function P12s/P0X_A_Sk.75 7.4 P12s layer monitoring functions.75 7.4.1 P12s layer non-intrusive monitoring function P12sm_TT_Sk.75 8 P31s path layer functions.77 8.1 P31s connection functions.78 8.2 P31s trail termination functions.79 8.2.1 P31s trail termination source P31s_TT_So.79 8.2.2 P31s trail termination sink P31s_TT_Sk.80 8.3 P31s adaptation functions.82 8.3.1 P31s layer to VC-12, VC-11 layer compound adaptation source function P31s/SX_A_So.82 8.3.1.1 P31s layer to TUG adaptation source function P31s/TUG_A_So.83 8.3.1.2 TUG termination source function TUG_T_So.85 8.3.1.3 TUG to VC-12 layer adaptation source function TUG/S12_A_So/M.86 8.3.1.4 TUG to VC-11 layer adaptation source function TUG/S11_A_So/M.88 8.3.2 P31s layer to VC-12, VC-11 layer compound adaptation sink function P31s/SX_A_Sk.91 8.3.2.1 P31s layer to TUG adaptation sink function P31s/TUG_A_Sk.93 8.3.2.2 TUG termination sink function TUG_T_Sk.94 8.3.2.3 TUG to VC-12 layer adaptation sink function TUG/S12_A_Sk/M.95 8.3.2.4 TUG to VC-11 layer adaptation sink function TUG/S11*_A_Sk/M.96 8.3.3 P31s layer to P0s layer adaptation source P31s/P0s_A_So.97 8.3.4 P31s layer to P0s layer adaptation sink P31s/P0s_A_Sk.98 8.3.5 P31s to V0x adaptation source P31s/V0x_A_So.99 8.3.6 P31s to V0x adaptation sink P31s/V0x_A_Sk.100 8.3.7 P31s to DCC adaptation source P31s/DCC_A_So.101 8.3.8 P31s to DCC adaptation sink P31s/DCC_A_Sk.101 8.3.9 P31s to SD adaptation source P31s/SD_A_So.102 8.3.10 P31s to SD adaptation sink P31s/SD_A_Sk.102 8.3.11 P31s to ATM VP compound adaptation source P31s/Avp_A_So.102 8.3.12 P31s to ATM VP compound adaptation sink P31s/Avp_A_Sk.102 8.3.13 P31s Layer Clock adaptation source P31s-LC_A_So.102 8.4 P31s layer monitoring functions.103 8.4.1 P31s non-intrusive monitoring function P31sm_TT_Sk.103 8.5 P31s layer trail protection functions.104 8.6 P31s tandem connection sublayer functions.105 8.6.1 P31s tandem connection trail termination source function (P31sD_TT_So).105 8.6.2 P31s tandem connection trail termination sink function (P31sD_TT_Sk).108 8.6.3 P31s tandem connection to p31s adaptation source function (P31sD/P31s_A_So).112 8.6.4 P31s tandem connection to p31s adaptation sink function (P31sD/P31s_A_Sk).113 SIST EN 300 417-5-1 V1.2.1:2003
ETSI ETSI EN 300 417-5-1 V1.2.1 (2001-10)5 8.6.5 P31s tandem connection non-intrusive trail termination sink function (P31sDm_TT_Sk).114 9 P4s path layer functions.117 9.1 P4s connection functions.118 9.2 P4s trail termination functions.119 9.2.1 P4s trail termination source P4s_TT_So.119 9.2.2 P4s trail termination sink P4s_TT_Sk.120 9.3 P4s adaptation functions.122 9.3.1 P4s layer to VC-3, VC-2, VC-12, and VC-11 layer compound adaptation source function P4s/SX-TUG3_A_So.122 9.3.1.1 P4s layer to TUG3 adaptation source function P4s/TUG3_A_So.123 9.3.1.2 TUG3 trail termination source function TUG3_T_So.125 9.3.1.3 TUG3 to VC-3 layer adaptation source function TUG3/S3_A_So/K.0.0.126 9.3.1.4 TUG3 to VC-2 layer adaptation source function TUG3/S2_A_So/K.L.0.128 9.3.1.5 TUG3 to VC-12 layer adaptation source function TUG3/S12_A_So/K.L.M.130 9.3.1.6 TUG3 to VC-11 layer adaptation source function TUG3/S11*_A_So/K.L.M.133 9.3.2 P4s layer to VC-3, VC-2, VC-12, and VC-11 layer compound adaptation sink function P4s/SX-TUG3_A_Sk.136 9.3.2.1 P4s layer to TUG3 adaptation sink function P4s/TUG3_A_Sk.138 9.3.2.2 TUG3 trail termination sink function TUG3_T_Sk.139 9.3.2.3 TUG3 to VC-3 layer adaptation sink function TUG3/S3_A_Sk/K.0.0.140 9.3.2.4 TUG3 to VC-2 layer adaptation sink function TUG3/S2_A_Sk.141 9.3.2.5 TUG3 to VC-12 layer adaptation sink function TUG3/S12_A_Sk/K.L.M.142 9.3.2.6 TUG3 to VC-11 layer adaptation sink function TUG3/S11*_A_Sk/K.L.M.143 9.3.3 P4s layer to VC-2, VC-12, and VC-11 layer compound adaptation source function P4s/SX-TUG2_A_So.144 9.3.3.1 P4s layer to TUG2 adaptation source function P4s/TUG2_A_So.146 9.3.3.2 TUG2 trail termination source function TUG2_T_So.147 9.3.3.3 TUG2 to VC-2 layer adaptation source function TUG2/S2_A_So/L.0.148 9.3.3.4 TUG2 to VC-12 layer adaptation source function TUG2/S12_A_So/L.M.150 9.3.3.5 TUG2 to VC-11 layer adaptation source function TUG2/S11*_A_So/L.M.153 9.3.4 P4s layer to VC-2, VC-12, and VC-11 layer compound adaptation sink function P4s/SX-TUG2_A_Sk.156 9.3.4.1 P4s layer to TUG2 adaptation sink function P4s/TUG2_A_Sk.158 9.3.4.2 TUG2 trail termination sink function TUG2_T_Sk.159 9.3.4.3 TUG2 to VC-2 layer adaptation sink function TUG2/S2_A_Sk/L.0.160 9.3.4.4 TUG2 to VC-12 layer adaptation sink function TUG2/S12_A_Sk/L.M.161 9.3.4.5 TUG2 to VC-11 layer adaptation sink function TUG2/S11*_A_Sk/L.M.162 9.3.5 P4s layer to P0s layer adaptation source P4s/P0s_A_So.163 9.3.6 P4s layer to P0s layer adaptation sink P4s/P0s_A_Sk.164 9.3.7 P4s to V0x adaptation source P4s/V0x_A_So.165 9.3.8 P4s to V0x adaptation sink P4s/V0x_A_Sk.166 9.3.9 P4s to DCC adaptation source P4s/DCC_A_So.167 9.3.10 P4s to DCC adaptation sink P4s/DCC_A_Sk.168 9.3.11 P4s to SD adaptation source P4s/SD_A_So.168 9.3.12 P4s to SD adaptation sink P4s/SD_A_Sk.168 9.3.13 P4s to ATM VP compound adaptation source P4s/Avp_A_So.168 9.3.14 P4s to ATM VP compound adaptation sink P4s/Avp_A_Sk.169 9.3.15 P4s Layer Clock adaptation source P4s-LC_A_So.169 9.4 P4s layer monitoring functions.169 9.4.1 P4s non-intrusive monitoring function P4sm_TT_Sk.169 9.5 P4s layer trail protection functions.171 9.6 P4s tandem connection sublayer functions.171 9.6.1 P4s tandem connection trail termination source function (P4sD_TT_So).171 9.6.2 P4s tandem connection trail termination sink function (P4sD_TT_Sk).174 9.6.3 P4s tandem connection to p4s adaptation source function (P4sD/P4s_A_So).178 9.6.4 P4s tandem connection to p4s adaptation sink function (P4sD/P4s_A_Sk).179 9.6.5 P4s tandem connection non-intrusive trail termination sink function (P4sDm_TT_Sk).180 10 P4x path layer functions.183 11 P32x path layer functions.183 SIST EN 300 417-5-1 V1.2.1:2003
ETSI ETSI EN 300 417-5-1 V1.2.1 (2001-10)6 12 P31x path layer functions.183 13 P22x path layer functions.183 14 P12x path layer functions.183 15 P11x path layer functions.183 16 P0 path layer functions.184 16.1 P0 connection functions.185 16.1.1 P0 Trail Connection Function (P0_C).185 17 P0 trail termination functions.186 18 P0-31c path layer functions.186 Annex A (informative): Relationship between TU-2/12 address, and location of columns within a P4s TUG3 structured payload.187 Annex B (informative): Relationship between TU-2/12 address, and location of columns within a P4s TUG2 structured payload.190 Annex C (informative): Bibliography.193 History.194
SIST EN 300 417-5-1 V1.2.1:2003
ETSI ETSI EN 300 417-5-1 V1.2.1 (2001-10)7 Intellectual Property Rights IPRs essential or potentially essential to the present document may have been declared to ETSI. The information pertaining to these essential IPRs, if any, is publicly available for ETSI members and non-members, and can be found in ETSI SR 000 314: "Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in respect of ETSI standards", which is available from the ETSI Secretariat. Latest updates are available on the ETSI Web server (http://www.etsi.org/legal/home.htm). Pursuant to the ETSI IPR Policy, no investigation, including IPR searches, has been carried out by ETSI. No guarantee can be given as to the existence of other IPRs not referenced in ETSI SR 000 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the present document. Foreword This European Standard (Telecommunications series) has been produced by ETSI Technical Committee Transmission and Multiplexing (TM). The present document is one of a family of documents that has been produced in order to provide inter-vendor and inter-operator compatibility of Synchronous Digital Hierarchy (SDH) equipment. The present document is part 5, sub-part 1 of a multi-part deliverable covering the Generic requirements of transport functionality of equipment, as identified below: Part 1-1: "Generic processes and performance"; Part 1-2: "General information about Implementation Conformance Statement (ICS) proforma"; Part 2-1: "Synchronous Digital Hierarchy (SDH) and Plesiochronous Digital Hierarchy (PDH) physical section layer functions"; Part 2-2: "Synchronous Digital Hierarchy (SDH) and Plesiochronous Digital Hierarchy (PDH) phy
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