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NPT Packet System Specifications - Free Download PDF
NPT Packet System Specifications
January 11, 2018 | Author: mexybaby | Category: Copyright, Telecommunication, Telecommunications, Telecommunications Engineering, Networks
NPT Packet System Specifications for SDH and Packet Based Network...
NPT Packet Version 4.0
NPT Packet System Specifications V4.0 Catalog No: X91658 Drawing No: 417006-2017-013-A00 April 2015 1st Edition
ECI's NPT-1200, NPT-1020, and NPT-1010 are CE2.0 certified. ECI's NPT-1600 complies with the MEF9 and MEF14 standards.
ECI's qualification lab is accredited by A2LA for competence in electrical testing according to the International Standard ISO IEC 17025-2005 General Requirements for the Competence of Testing and Calibration Laboratories. ECI's management applications run on VMWare virtualization hypervisors.
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About This Manual ...................................................................................... 1-1 1.1
Overview ................................................................................................................................ 1-1
Intended Audience................................................................................................................. 1-1
Document Organization ......................................................................................................... 1-1
Notes and Warnings............................................................................................................... 1-1
Related Documentation ......................................................................................................... 1-2
How to Obtain ECI Technical Documentation ....................................................................... 1-2
Technical Assistance .............................................................................................................. 1-3
Introducing the Packet NPT ......................................................................... 2-1 2.1
Native Packet Transport ........................................................................................................ 2-1
NPT Product Lines: Tailored to Your Needs ........................................................................... 2-2
Expansion Platform ................................................................................................................ 2-2
NPT-1010 Specifications .............................................................................. 3-1 3.1
NPT-1010 Shelf Capacity ........................................................................................................ 3-1
Cross-Connect Specifications ................................................................................................. 3-1 3.2.1
Switching Specifications .......................................................................................................... 3-1
Redundancy ........................................................................................................................... 3-1
Synchronization ..................................................................................................................... 3-1
Traffic Protection ................................................................................................................... 3-1
Jitter and Wander .................................................................................................................. 3-2
I/O Interfaces ......................................................................................................................... 3-2
2.048 Mbps (E1) ...................................................................................................................... 3-2
1.544 Mbps (T1) ...................................................................................................................... 3-2
Management.......................................................................................................................... 3-2 3.8.1
Management and Alarm Interfaces ........................................................................................ 3-2
Management Communication Channel .................................................................................. 3-3
Alarms and Performance......................................................................................................... 3-3
Ethernet Specifications .......................................................................................................... 3-3 3.9.1
NPT-1010 ................................................................................................................................. 3-3
TMSE1_8 ................................................................................................................................. 3-6
TM10 (1588v2 Specifications) ................................................................................................. 3-6
Ethernet Transceivers ............................................................................................................. 3-7
CWDM and DWDM GbE .......................................................................................................... 3-8
Electrical GbE SFP (ETGbE) ...................................................................................................... 3-9
Physical Specifications ........................................................................................................... 3-9
Dimensions (H x W x D).......................................................................................................... 3-9
Weight.................................................................................................................................... 3-9
Power ..................................................................................................................................... 3-9
NPT-1010 Power Consumption............................................................................................ 3-10
Environmental Conditions ................................................................................................... 3-10 3.15.1 Operation .............................................................................................................................. 3-10 3.15.2 Storage (Packed) ................................................................................................................... 3-11 3.15.3 Handling and Transportation ................................................................................................ 3-11
EMC ...................................................................................................................................... 3-11
Safety ................................................................................................................................... 3-11
Laser Safety .......................................................................................................................... 3-11
Reliability ............................................................................................................................. 3-11 3.19.1 Life ......................................................................................................................................... 3-11 3.19.2 Availability ............................................................................................................................. 3-11
NPT-1021 Specifications .............................................................................. 4-1 4.1
NPT-1021 Shelf Capacity ........................................................................................................ 4-1
Cross-Connect Specifications ................................................................................................. 4-1
Switching Specifications......................................................................................................... 4-1
Redundancy ........................................................................................................................... 4-1
Synchronization ..................................................................................................................... 4-1
IEEE 1588v2 Specification ...................................................................................................... 4-2
Acoustic Noise........................................................................................................................ 4-2
Traffic Protection ................................................................................................................... 4-2
Jitter and Wander .................................................................................................................. 4-3
I/O Interfaces ......................................................................................................................... 4-3 4.10.1 2.048 Mbps (E1) ...................................................................................................................... 4-3 4.10.2 1.544 Mbps (T1) ...................................................................................................................... 4-3 4.10.3 STM-1 Electrical ....................................................................................................................... 4-3 4.10.4 STM-1/OC-3 Optical ................................................................................................................ 4-3 4.10.5 STM-4 Optical .......................................................................................................................... 4-4
Management.......................................................................................................................... 4-4 4.11.1 Management and Alarm Interfaces ........................................................................................ 4-4 4.11.2 Management Communication Channel .................................................................................. 4-4 4.11.3 Alarms and Performance......................................................................................................... 4-5
SDH Interfaces........................................................................................................................ 4-5 4.12.1 STM-1 (155.52 Mbps ± 4.6 ppm) ............................................................................................. 4-5 4.12.2 STM-4 (622 Mbps ± 4.6 ppm) .................................................................................................. 4-7
Ethernet Specifications .......................................................................................................... 4-9 4.13.1 NPT-1021 (Packet Switch without CPS50) ............................................................................... 4-9 4.13.2 NPT-1021 (Packet Switch with CPS50) .................................................................................. 4-11 4.13.3 DHGE_4E ............................................................................................................................... 4-13 4.13.4 DHGE_8 ................................................................................................................................. 4-14 4.13.5 DMCES1_4 ............................................................................................................................. 4-14 4.13.6 MSE1_16 ............................................................................................................................... 4-15 4.13.7 MSC_2_8 ............................................................................................................................... 4-15 4.13.8 Ethernet Transceivers ........................................................................................................... 4-16 4.13.9 CWDM and DWDM GbE ........................................................................................................ 4-17 4.13.10 Ethernet SFP+ Transceivers ................................................................................................... 4-18 4.13.11 CSFP Client Transceivers........................................................................................................ 4-21 4.13.12 Electrical GbE SFP (ETGbE) .................................................................................................... 4-22
MXP10 Base Card Configurations ........................................................................................ 4-22 4.14.1 MXP10 Base Card Modules and Transceivers ....................................................................... 4-22 4.14.2 MXP10 Latency ...................................................................................................................... 4-23
Optical Amplifier Modules ................................................................................................... 4-24
Dispersion Compensation Modules ..................................................................................... 4-25
EM_10E Specifications ......................................................................................................... 4-26 4.17.1 EM_10E Total Capacity .......................................................................................................... 4-26 4.17.2 EM_10E DXC1/0 XC Capacity................................................................................................. 4-27 4.17.3 Timing .................................................................................................................................... 4-27 4.17.4 FXO/FXS Interface ................................................................................................................. 4-27 4.17.5 Ringer Characteristics ............................................................................................................ 4-28 4.17.6 2 Wire/4 Wire/6 Wire and E&M Interface ............................................................................ 4-28 4.17.7 Codir_4E Interface ................................................................................................................. 4-29 4.17.8 OMNI_E Interface .................................................................................................................. 4-29 4.17.9 V.24 Interface ........................................................................................................................ 4-29 4.17.10 V.35 Interface ........................................................................................................................ 4-29 4.17.11 V.36 Interface ........................................................................................................................ 4-30 4.17.12 RS-422/449 Interface ............................................................................................................ 4-30 4.17.13 SM_C37.94 Interface ............................................................................................................. 4-30 4.17.14 SM_C37.94S Specifications ................................................................................................... 4-30
Physical Specifications ......................................................................................................... 4-32
4.18.1 Dimensions (H x W x D) ......................................................................................................... 4-32 4.18.2 Weight ................................................................................................................................... 4-32 4.18.3 Power .................................................................................................................................... 4-32 4.18.4 INF_E2U ................................................................................................................................. 4-33 4.18.5 AC_PS-B1U Module ............................................................................................................... 4-33 4.18.6 AC_PS-E2U ............................................................................................................................. 4-33 4.18.7 INF-B1U Module .................................................................................................................... 4-33 4.18.8 NPT-1021 Power Consumption ............................................................................................. 4-34 4.18.9 Environmental Conditions ..................................................................................................... 4-36 4.18.10 EMC ....................................................................................................................................... 4-36 4.18.11 Safety..................................................................................................................................... 4-36 4.18.12 Laser Safety ........................................................................................................................... 4-37 4.18.13 Reliability ............................................................................................................................... 4-37
NPT-1050 Specifications .............................................................................. 5-1 5.1
Cross-Connect Specifications ................................................................................................. 5-1 5.1.1
Switching Specifications .......................................................................................................... 5-1
NPT-1050 Shelf Capacity ......................................................................................................... 5-1
Traffic Protection ................................................................................................................... 5-1
Redundancy ........................................................................................................................... 5-1
Tributary Protection............................................................................................................... 5-2
Synchronization ..................................................................................................................... 5-2
IEEE 1588v2 Specification ...................................................................................................... 5-2
Acoustic Noise........................................................................................................................ 5-3
Jitter and Wander .................................................................................................................. 5-3
I/O Interfaces ......................................................................................................................... 5-3
2.048 Mbps (E1) ...................................................................................................................... 5-3
1.544 Mbps (T1) ...................................................................................................................... 5-3
STM-1 Electrical ....................................................................................................................... 5-3
STM-1/OC-3 Optical ................................................................................................................ 5-4
STM-4 Optical .......................................................................................................................... 5-4
Management.......................................................................................................................... 5-4 5.10.1 Management and Alarm Interfaces ........................................................................................ 5-4 5.10.2 Alarms and Performance......................................................................................................... 5-4 5.10.3 Management Communication Channel .................................................................................. 5-5
SDH Interfaces........................................................................................................................ 5-6 5.11.1 STM-1 (155.52 Mbps ± 4.6 ppm) ............................................................................................. 5-6
5.11.2 STM-4 (622 Mbps ± 4.6 ppm) .................................................................................................. 5-8 5.11.3 STM-16 (2488 Mbps ± 4.6 ppm) ............................................................................................ 5-10 5.11.4 CWDM and DWDM STM-16/GbE (2488 Mbps ± 4.6 ppm) .................................................... 5-12
Ethernet Specifications ........................................................................................................ 5-13 5.12.1 MCPS100 ............................................................................................................................... 5-13 5.12.2 AIM100 .................................................................................................................................. 5-16 5.12.3 DHXE_2 .................................................................................................................................. 5-16 5.12.4 DHGE_4E ............................................................................................................................... 5-16 5.12.5 DHGE_8 ................................................................................................................................. 5-17 5.12.6 DHGE_16 ............................................................................................................................... 5-17 5.12.7 DHGE_24 ............................................................................................................................... 5-18 5.12.8 DHFE_12 ................................................................................................................................ 5-18 5.12.9 DHFX_12 ................................................................................................................................ 5-18 5.12.10 DMCES1_4 ............................................................................................................................. 5-18 5.12.11 DMCE1_32 ............................................................................................................................. 5-19 5.12.12 MSE1_16 ............................................................................................................................... 5-20 5.12.13 MSC_2_8 ............................................................................................................................... 5-20 5.12.14 MPoE_12G............................................................................................................................. 5-21 5.12.15 Ethernet Transceivers ........................................................................................................... 5-23 5.12.16 CWDM and DWDM STM-16/GbE (2488 Mbps ± 4.6 ppm) .................................................... 5-24 5.12.17 Ethernet SFP+ Transceivers ................................................................................................... 5-25 5.12.18 CSFP Client Transceivers........................................................................................................ 5-28 5.12.19 Electrical GbE SFP (ETGbE) .................................................................................................... 5-29
MXP10 Base Card Configurations ........................................................................................ 5-29 5.13.1 MXP10 Base Card Modules and Transceivers ....................................................................... 5-29 5.13.2 MXP10 Latency ...................................................................................................................... 5-30
Optical Amplifier Modules ................................................................................................... 5-31
Dispersion Compensation Modules ..................................................................................... 5-32
EM_10E Specifications ......................................................................................................... 5-33 5.16.1 EM_10E Total Capacity .......................................................................................................... 5-33 5.16.2 EM_10E DXC1/0 XC Capacity................................................................................................. 5-33 5.16.3 Timing .................................................................................................................................... 5-34 5.16.4 FXO/FXS Interface ................................................................................................................. 5-34 5.16.5 Ringer Characteristics ............................................................................................................ 5-35 5.16.6 2 Wire/4 Wire/6 Wire and E&M Interface ............................................................................ 5-35 5.16.7 Codir_4E Interface ................................................................................................................. 5-36 5.16.8 OMNI_E Interface .................................................................................................................. 5-36
5.16.9 V.24 Interface ........................................................................................................................ 5-36 5.16.10 V.35 Interface ........................................................................................................................ 5-36 5.16.11 V.36 Interface ........................................................................................................................ 5-36 5.16.12 RS-422/449 Interface ............................................................................................................ 5-37 5.16.13 SM_C37.94 Interface ............................................................................................................. 5-37 5.16.14 SM_C37.94S Specifications ................................................................................................... 5-37
Physical Specifications ......................................................................................................... 5-38 5.17.1 Dimensions (H x W x D) ......................................................................................................... 5-39 5.17.2 Weight ................................................................................................................................... 5-39 5.17.3 Power .................................................................................................................................... 5-39 5.17.4 INF-B1UH ............................................................................................................................... 5-39 5.17.5 INF_E2U ................................................................................................................................. 5-39 5.17.6 AC_PS-E2U ............................................................................................................................. 5-40 5.17.7 NPT-1050 Power Consumption ............................................................................................. 5-40 5.17.8 Environmental Conditions ..................................................................................................... 5-42 5.17.9 EMC ....................................................................................................................................... 5-43 5.17.10 Safety..................................................................................................................................... 5-43 5.17.11 Laser Safety ........................................................................................................................... 5-43 5.17.12 Reliability ............................................................................................................................... 5-43
NPT-1200 Specifications .............................................................................. 6-1 6.1
Cross-Connect Specifications ................................................................................................. 6-1 6.1.1
Switching Specifications .......................................................................................................... 6-1
NPT-1200 Shelf Capacity ......................................................................................................... 6-1
Traffic Protection ................................................................................................................... 6-1
Redundancy ........................................................................................................................... 6-2
Tributary Protection............................................................................................................... 6-2
Synchronization ..................................................................................................................... 6-2
IEEE 1588v2 Specification ...................................................................................................... 6-3
Throughput Test - RFC2544 ................................................................................................... 6-3
Acoustic Noise........................................................................................................................ 6-4
Jitter and Wander .................................................................................................................. 6-4
I/O Interfaces ......................................................................................................................... 6-4 6.10.1 2.048 Mbps (E1) ...................................................................................................................... 6-4 6.10.2 1.544 Mbps (T1) ...................................................................................................................... 6-4 6.10.3 STM-1 Electrical ....................................................................................................................... 6-4 6.10.4 STM-1/OC-3 Optical ................................................................................................................ 6-5
6.10.5 STM-4 Optical .......................................................................................................................... 6-5
Management.......................................................................................................................... 6-5 6.11.1 Management and Alarm Interfaces ........................................................................................ 6-5 6.11.2 Alarms and Performance......................................................................................................... 6-5 6.11.3 Management Communication Channel .................................................................................. 6-6
SDH Interfaces........................................................................................................................ 6-6 6.12.1 STM-1 (155.52 Mbps ± 4.6 ppm) ............................................................................................. 6-7 6.12.2 STM-4 (622 Mbps ± 4.6 ppm) .................................................................................................. 6-8
Ethernet Specifications ........................................................................................................ 6-11 6.13.1 CPS100................................................................................................................................... 6-11 6.13.2 CPS320................................................................................................................................... 6-13 6.13.3 DHXE_2 .................................................................................................................................. 6-16 6.13.4 DHXE_4 .................................................................................................................................. 6-16 6.13.5 DHGE_4E ............................................................................................................................... 6-16 6.13.6 DHGE_8 ................................................................................................................................. 6-17 6.13.7 DHGE_16 ............................................................................................................................... 6-17 6.13.8 DHGE_24 ............................................................................................................................... 6-17 6.13.9 DHFE_12 ................................................................................................................................ 6-18 6.13.10 DHFX_12 ................................................................................................................................ 6-18 6.13.11 DMCES1_4 ............................................................................................................................. 6-18 6.13.12 DMCE1_32 ............................................................................................................................. 6-19 6.13.13 MSE1_16 ............................................................................................................................... 6-19 6.13.14 MSC_2_8 ............................................................................................................................... 6-20 6.13.15 Ethernet Transceivers ........................................................................................................... 6-21 6.13.16 CWDM and DWDM GbE ........................................................................................................ 6-22 6.13.17 Ethernet SFP+ Transceivers ................................................................................................... 6-23 6.13.18 CSFP Client Transceivers........................................................................................................ 6-26 6.13.19 Electrical GbE SFP (ETGbE) .................................................................................................... 6-27
MXP10 Base Card Configurations ........................................................................................ 6-27 6.14.1 MXP10 Base Card Modules and Transceivers ....................................................................... 6-27 6.14.2 MXP10 Latency ...................................................................................................................... 6-28
Optical Amplifier Modules ................................................................................................... 6-29
Dispersion Compensation Modules ..................................................................................... 6-30
EM_10E Specifications ......................................................................................................... 6-31 6.17.1 EM_10E Total Capacity .......................................................................................................... 6-31 6.17.2 EM_10E DXC1/0 XC Capacity................................................................................................. 6-32 6.17.3 Timing .................................................................................................................................... 6-32
6.17.4 FXO/FXS Interface ................................................................................................................. 6-32 6.17.5 Ringer Characteristics ............................................................................................................ 6-33 6.17.6 2 Wire/4 Wire/6 Wire and E&M Interface ............................................................................ 6-33 6.17.7 Codir_4E Interface ................................................................................................................. 6-34 6.17.8 OMNI_E Interface .................................................................................................................. 6-34 6.17.9 V.24 Interface ........................................................................................................................ 6-34 6.17.10 V.35 Interface ........................................................................................................................ 6-34 6.17.11 V.36 Interface ........................................................................................................................ 6-35 6.17.12 RS-422/449 Interface ............................................................................................................ 6-35 6.17.13 SM_C37.94 Interface ............................................................................................................. 6-35 6.17.14 SM_C37.94S Specifications ................................................................................................... 6-35
Physical Specifications ......................................................................................................... 6-37 6.18.1 Dimensions (H x W x D) ......................................................................................................... 6-37 6.18.2 Weight ................................................................................................................................... 6-37 6.18.3 Power .................................................................................................................................... 6-37 6.18.4 INF-1200 ................................................................................................................................ 6-38 6.18.5 INF_E2U ................................................................................................................................. 6-38 6.18.6 AC_PS-E2U ............................................................................................................................. 6-38 6.18.7 NPT-1200 Power Consumption ............................................................................................. 6-38 6.18.8 Environmental Conditions ..................................................................................................... 6-41 6.18.9 EMC ....................................................................................................................................... 6-42 6.18.10 Safety..................................................................................................................................... 6-42 6.18.11 Laser Safety ........................................................................................................................... 6-42 6.18.12 Reliability ............................................................................................................................... 6-42
Standards and References ........................................................................... 7-1 7.1
Broadband Forum .................................................................................................................. 7-1
Environmental Standards ...................................................................................................... 7-1
ETSI: European Telecommunications Standards Institute ..................................................... 7-1
IEC: International Electrotechnical Commission .................................................................... 7-2
IEEE: Institute of Electrical and Electronic Engineers ............................................................ 7-3
IETF: Internet Engineering Task Force ................................................................................... 7-4
ISO: International Organization for Standardization ............................................................. 7-7
ITU-T: International Telecommunication Union .................................................................... 7-7
MEF: Metro Ethernet Forum ............................................................................................... 7-11
NIST: National Institute of Standards and Technology ........................................................ 7-12
North American Standards .................................................................................................. 7-12
OMG: Object Management Group ...................................................................................... 7-13
TMF: TeleManagement Forum ............................................................................................ 7-13
Web Protocol Standards ...................................................................................................... 7-13
Table 3-1: GbE/FX client transceivers ............................................................................................................. 3-7 Table 3-2: GbE bidirectional client transceivers ............................................................................................. 3-7 Table 3-3: CWDM and DWDM GbE transceivers ............................................................................................ 3-8 Table 3-4: Power Dissipation ........................................................................................................................ 3-10 Table 4-1: STM-1 interface ............................................................................................................................. 4-5 Table 4-2: STM-1 bidirectional transceivers ................................................................................................... 4-6 Table 4-3: STM-4 transceivers ........................................................................................................................ 4-7 Table 4-4: STM-4 bidirectional transceivers ................................................................................................... 4-8 Table 4-5: GbE/FX client transceivers ........................................................................................................... 4-16 Table 4-6: GbE bidirectional client transceivers ........................................................................................... 4-17 Table 4-7: CWDM and DWDM GbE transceivers .......................................................................................... 4-17 Table 4-8: ESFP+ transceivers ....................................................................................................................... 4-18 Table 4-9: SFP+ bidirectional client transceivers .......................................................................................... 4-19 Table 4-10: SFP+ C/DWDM transceivers ...................................................................................................... 4-20 Table 4-11: CSFP client transceivers ............................................................................................................. 4-21 Table 4-12: MXP10 latency data ................................................................................................................... 4-23 Table 4-13: Optical amplifier specifications ................................................................................................. 4-25 Table 4-14: OM_DCMxx specifications ......................................................................................................... 4-26 Table 4-15: FXO and FXS specifications ........................................................................................................ 4-27 Table 4-16: Power Dissipation ...................................................................................................................... 4-36 Table 5-1: NPT-1050 packet capacity per I/O slot .......................................................................................... 5-1 Table 5-2: STM-1 interface ............................................................................................................................. 5-6 Table 5-3: STM-1 bidirectional transceivers ................................................................................................... 5-7 Table 5-4: STM-4 transceivers ........................................................................................................................ 5-8 Table 5-5: STM-4 bidirectional transceivers ................................................................................................... 5-9 Table 5-6: STM-16 transceivers .................................................................................................................... 5-10 Table 5-7: STM-16 bidirectional transceivers ............................................................................................... 5-11 Table 5-8: CWDM and DWDM STM-16/GbE interfaces ............................................................................... 5-12 Table 5-9: TDM Ethernet Layer 2/MPLS-TP cards ........................................................................................ 5-13 Table 5-10: Hybrid Ethernet Layer 2/MPLS-TP cards ................................................................................... 5-13 Table 5-11: GbE/FX client transceivers ......................................................................................................... 5-23 Table 5-12: GbE bidirectional client transceivers ......................................................................................... 5-24 Table 5-13: CWDM and DWDM STM-16/GbE transceivers .......................................................................... 5-24 Table 5-14: ESFP+ transceivers ..................................................................................................................... 5-25 Table 5-15: SFP+ bidirectional client transceivers ........................................................................................ 5-26 Table 5-16: SFP+ C/DWDM transceivers ...................................................................................................... 5-27 Table 5-17: CSFP client transceivers ............................................................................................................. 5-28 Table 5-18: MXP10 latency data ................................................................................................................... 5-30 Table 5-19: Optical amplifier specifications ................................................................................................. 5-32 Table 5-20: OM_DCMxx specifications ......................................................................................................... 5-32 ECI Telecom Ltd. Proprietary
Table 5-21: FXO and FXS specifications ........................................................................................................ 5-34 Table 5-22: Power Consumption .................................................................................................................. 5-40 Table 6-1: NPT-1200 packet capacity per I/O slot .......................................................................................... 6-1 Table 6-2: STM-1 interface ............................................................................................................................. 6-7 Table 6-3: STM-1 bidirectional transceivers ................................................................................................... 6-8 Table 6-4: STM-4 transceivers ........................................................................................................................ 6-8 Table 6-5: STM-4 bidirectional transceivers ................................................................................................. 6-10 Table 6-6: Ethernet Layer 2/MPLS-TP cards ................................................................................................. 6-11 Table 6-7: GbE/FX client transceivers ........................................................................................................... 6-21 Table 6-8: GbE bidirectional client transceivers ........................................................................................... 6-21 Table 6-9: CWDM and DWDM GbE transceivers .......................................................................................... 6-22 Table 6-10: ESFP+ transceivers ..................................................................................................................... 6-23 Table 6-11: SFP+ bidirectional client transceivers ........................................................................................ 6-24 Table 6-12: SFP+ C/DWDM transceivers ...................................................................................................... 6-25 Table 6-13: CSFP client transceivers ............................................................................................................. 6-26 Table 6-14: MXP10 latency data ................................................................................................................... 6-28 Table 6-15: Optical amplifier specifications ................................................................................................. 6-30 Table 6-16: OM_DCMxx specifications ......................................................................................................... 6-31 Table 6-17: FXO and FXS specifications ........................................................................................................ 6-32 Table 6-18: Power Consumption .................................................................................................................. 6-38 Table 6-19: Power Dissipation ...................................................................................................................... 6-41
The NPT System Specifications describes the technical specifications of the platforms, cards, modules, and transceivers included in each platform.
This manual is intended for field engineers, network designers, and other qualified service personnel responsible for designing, installing, and maintaining the NPT products and its accessories.
This System Specifications contains the following information: 
NPT principals
NPT-1200 specifications
NPT-1050 specifications
NPT-1021 specifications
NPT-1010 specifications
When applicable, this guide uses the following notes and warnings:
clarifying information, specific instructions, commentary, sidelights, or interesting points of information.
failure to follow directions could result in damage to equipment or loss of information.
WARNING: failure to follow directions could result in bodily harm or loss of life.
how to avoid personal injury. All personnel involved in equipment installation, operation, and maintenance must be aware that laser radiation is invisible. Therefore, although protective devices generally prevent direct exposure to the beam, personnel must strictly observe the applicable safety precautions and, in particular, must avoid staring into optical connectors, either directly or using optical instruments.
ESD: information on how to avoid discharge of static electricity and subsequent damage to the unit.
TIP: helpful information and handy hints that can make your task easier.
IMPORTANT: essential information to which you must pay attention.
The following publications may be of assistance to you in the installation and commissioning processes of 9200 series: 
NPT General Description
NPT Reference Manual
NPT-1200 Installation and Maintenance Manual
NPT-1050 Installation and Maintenance Manual
NPT-1021 Installation and Maintenance Manual
NPT-1010 Installation and Maintenance Manual
EMS-APT Documentation Suite
LCT-APT Documentation Suite
LightSoft® Documentation Suite
How to Obtain ECI Technical Documentation
To obtain technical documentation related to any ECI product, contact: ECI Telecom Ltd. ECI Documentation Group 30 Hasivim St. Petach Tikva 4959388 – Israel
Fax: +972-3-9268060 Email: [email protected]
The configuration, installation, and operation of NPT series and its operation in a network are highly specialized processes. Due to the different nature of each installation, some planning aspects might not be covered in this manual. If you have questions or concerns about your network design or if you require installation personnel to perform the actual installation process, ECI maintains a staff of design engineers and highly trained field service personnel. The services of this group are available to customers at any time. To obtain design assistance or a network installation plan from ECI's Customer Support team, contact your ECI sales representative. With any support related issues, technical or logistic, please contact the ECI Customer Support center at your location. If you are not familiar with that location, or contact our Customer Support Center action line at: Telephone
+972-3-9266000
+972-3-9266370
Introducing the Packet NPT
Native Packet Transport
NPT is a family of carrier-class MPLS-based multiservice packet-optical transport platforms, offering best-in-class carrier Ethernet and packet transport solutions for the metro. NPT combines the gold standard of transport network reliability and ease of management with packet efficiency. Through convergence of Ethernet/MPLS, WDM, and OTN - managed through a state-of-the-art GUI-based intuitive NMS - NPT offers a powerful, flexible packet transport solution for the lowest total cost of ownership (TCO). The NPT is based on a flexible switching architecture that provides a cost-effective, risk-free means for operators to tailor their configuration to any possible network scenario. This handling flexibility offers important advantages throughout the network transition from TDM to packet, enabling operators to adapt their network configuration over time to match changing network requirements, optimized per specific network location. NPT is equipped with a central Ethernet/MPLS switch and supports TDM services through Circuit Emulation Service (CES). Equipped with a broad mix of Ethernet and TDM interfaces, NPT offers cost-optimized multiservice packet transport, supporting delivery of both packet and TDM based services over a converged packet infrastructure. NPT complies with all MEF CE2.0 service standards, as well as offering extensive synchronization, protection, and resiliency schemes. Whether the network traffic is being transported over existing legacy equipment, or over newer packet-based equipment supporting only Ethernet interfaces, NPT equipment can be configured to provide the optimal solution. As the network evolves, there is no need for costly replacements of existing infrastructure or cumbersome external adaptive boxes. NPT's flexible traffic-handling architecture offers the most cost-efficient traffic handling in a packet environment while supporting all transport attributes. The result is the lowest TCO throughout the network life cycle, not only over the course of the network transition from TDM-centric to packet-centric, but also when building new carrier Ethernet and packet-based transport networks. The NPT's value propositions include: 
Lowest TCO 
Flexible multi-service (Packet, Optics)
Cost effective scalability through the modular architecture
Multiservice support for TDM (CES) and data
Transport grade service assurance 
Performance: Predictable and guaranteed
Availability: Carrier grade redundancy and protection
Security: Secure and transparent
E2E control: 
Intuitive GUI: Easy point and click operation
Unified multi-layer NMS: Enabling smooth, converged control
Visibility: Providing extensive OAM for E2E SLA visibility
NPT Product Lines: Tailored to Your Needs
NPT is a family of future-proof carrier-class multiservice packet optical transport platforms optimized for metro carrier Ethernet and packet transport networks. The NPT family provides a comprehensive selection of platforms, covering a range of size, configuration, and service level requirements. The broad range of NPT products enables you to find the best balance of cost and performance. NPT platforms are organized into three groups: 
NPT metro core platform: 
NPT-1800: A compact (8U) high capacity multiservice packet optical transport platform for the metro core, offering ultimate flexibility and cost effective aggregation and delivery of Ethernet/MPLS TP and CES services for metro and regional networks (future release).
NPT metro aggregation platforms: 
NPT-1200: A compact (2U) and fully redundant multiservice packet-optical aggregation transport system, offering multidimensional flexibility together with high capacity and cost-effective aggregation and delivery of Ethernet/MPLS-TP, OTN, and TDM (CES) services.
NPT-1050: A very compact (1U) fully redundant multiservice packet-optical aggregation transport system, offering multidimensional flexibility together with high capacity and cost-effective aggregation and delivery of Ethernet/MPLS-TP, OTN, and TDM (CES) services.
NPT access platforms 
NPT-1021: A compact (1U) multiservice packet-optical access system, offering multidimensional flexibility with high capacity and cost-effective aggregation and delivery of Ethernet/MPLS-TP, OTN, and TDM (CES) services.
NPT-1010: A small, fully managed, packet-based demarcation system, offering cost-effective CPE/CLE for business customers and small 3G/LTE cell sites and delivery of Ethernet/MPLS-TP and TDM up to customer premises.
Expansion Platform
The expansion platform is a fully modular 2U unit that can be installed on top of the NPT-1800/NPT-1200/NPT-1021/NPT-1050 platforms to expand its capabilities. All traffic processing, cross-connect, packet switching, timing and synchronization, control and communication and main power supply functions are performed by the corresponding system in the base unit on which the expansion unit is installed. In addition the expansion platform has separate sections including: 
Power feed: Including local power supply circuits on each card and two INF_E2U units
Cooling fans: Provided by the FCU_E2U unit on the right side of the expansion unit
Three Eslots for installing traffic cards supporting PCM and Ethernet and optical functionality
NPT-1010 Shelf Capacity
The NPT-1010 is designed around a centralized packet switch that supports any to any direct data card connectivity. The NPT-1010 offers a packet switching capacity of up to 5 Gbps mainly for business CPE and micro cell sites.
Cross-Connect Specifications
This section describes the cross-connect specifications for the NPT-1021.
3.2.1 Switching Specifications Switching capacity
MPLS processing (IMIX)
Dual power feeding 1+1 redundancy
Multiple types of timing references available from packet multiple timing sources: 
From any GbE port that supports synchronous Ethernet
1588v2 PTP Ordinary Clock
Synchronization Status Message (SSM) support is provided (over ESMC)
within 50 ms
LSP 1:1 linear protection
FRR and dual FRR
LAG 1:1
Within 50 ms (Static) Within 100ms (LACP)
Applicable specifications ITU T G.823, G.825
This section describes the specifications for the I/O interfaces.
3.7.1 2.048 Mbps (E1) Physical level
G.703, Paragraph 6/s ±50ppm
Unframed, framed (ITU-T G.704)
120 Ω balanced ± 5%
3.7.2 1.544 Mbps (T1) Physical level
ANSI T1.403-1999
Unframed, framed (ANSI T1.107-2002 [R2006])
G.784, G.774, M.3010, M.3100
LightSoft (ECI Telecom Network Manager) server and client for managing all ECI Telecom equipment
on SUN workstation(s)
EMS-APT (element manager)
on PC or SUN workstation(s)
LCT-APT (local craft terminal)
3.8.1 Management and Alarm Interfaces CMIP-like over TCP/IP to EMS-APT SNMP V3 to third-party SNMP-based management solution (monitoring only) MTNM from EMS-APT to LightSoft or other TMN 10/100BaseT to LCT-APT Rack Alarm Panel
3.8.2 Management Communication Channel MCC Interfaces
Management LAN interface for DCN In-band MCC for Ethernet/MPLS network
IP & Routing protocol
IPv4 OSPFv2
IP route table capacity
Numbered, unnumbered
Link Layer Encapsulation
IEEE 802.3 Ethernet – For management port or in-band MCC IEEE 802.1q – For in-band MCC IEEE 802.1ad – For in-band MCC
In-band MCC interfaces MCC over MoE (IP over Ethernet) MCC over single PB port Management VLAN In-band MCC processing capacity
Number of Management VLAN
Maximum number of MCC channels
MCC bandwidth per interface
256 Kbps~4 [email protected] 256Kbps
3.8.3 Alarms and Performance Performance concept
ITU-T G.821, G.826, Bellcore GR-820-CORE
LED indicators, dry contacts, (per subrack), external alarm inputs and outputs
Critical, Major, Minor, Warning
This section describes the Ethernet specifications for the NPT-1010.
3.9.1 NPT-1010 GbE Interface type
1000Base-SX, LX, EX, ZX, BD, colored 100Base-FX (SM, MM) 10/100/1000Base-T GPON ONU interface (with GTGBE_L3BD)
Max. number of GbE ports
Max. number of 1000Base-X ports
Max. number of 100Base-FX ports
Max. number of 10/100/1000Base-T ports
8 (with ETGBE)
Max. number of GPON ONU interfaces
4 (with GTGBE_L3BD)
PoE PSE pin-out
IEEE 802.3af, Alternative A
Supported PD type
IEEE 802.3at type 1, type 2
Maximum PoE power per port
Number of Sync-E ports
8 (all ports)
Supported types of 1588v2 PTP Clock
OC (slave) with TMSE1_8 or TM10 two-step TC
MAC address table capacity per VSI
MAC learning rate
1.44M MACs/sec
Supported VLAN quantity
512*4094, as per IEEE 802.1ad
Supported C-VLAN groups
Supported MPLS P2P tunnel queues
Supported Bidirectional LSPs
Maximum number of LSP1:1 Linear Protection Domains
Supported MPLS P2MP tunnels
Supported maximum PWs
Max number of PW redundancy groups (without PW status signaling)
Max number of PW Redundancy with PW state signaling or PW with PW status signaling
Supported maximum VSIs
Supported maximum policers
Supported maximum policer profiles
CIR/EIR granularity of policer
64Kb/s (0~2Mb/s) 1Mb/s (2Mb/s~full port rate)
CIR granularity of high CoS Shaper
CIR granularity of low CoS bandwidth
PIR granularity of E-LSP bandwidth
1~No rate [email protected]/s
Maximum sites per VPLS instance
170-number of local ports
Maximum number of UNI/NNI ports per VSI 8 Queues in each egress port
MSTP/ERPS instance number
Supported maximum multicast groups per Rooted MP leaf VSI
LAG support (including MC-LAG)
up to 4 LAGs with up to 8 port members per LAG
Supported BFD intervals
3.33 msec, 10 msec, 100 msec, 1000 msec
Maximum number of BFD sessions
Maximum number of BFD sessions over Bidirectional LSP
Maximum number of BFD sessions for section
Maximum number of ports (8)
Maximum number of BFD templates
Supported CFM intervals
3.33 msec, 10 msec, 100 msec 1 sec,10 sec, 60 sec, 600 sec (slow)
Maximum number of 3.33 msec/10 msec/100 msec/1000 msec CCM sessions
Maximum aggregated packet rate for slow CCM (1 sec/10 sec/1 min/10 min)
Total number of 3.33 msec BFD and CCM sessions
Average receiver sensitivity (dBm)
Min. overload (dB)
Typical Rx LOS level (dBm)
< -22
10 km (9 µm SMF)
40 km (9 µm SMF)
80 km (9 µm SMF)
Average launch power (dBm)
3.9.5 CWDM and DWDM GbE Table 3-3: CWDM and DWDM GbE transceivers CWDM
SFP TRANSCEIVER NAME 1
OTC25_PSxx
OTC25_1ALxx
OTR25_AVxx
OTR25_ABxx
APPLICATION CODE 2
S-C8S1-1D2/5
S-C8L1-1D2/5
DW100L\--1D2/5IF DW100C\--1A2/5(C)F
DW100L\--1D2/5(C)F DW100C\--1A2/5(C)F
G.698.1/.2
1464-1618
Max. -20 dB width (nm)
Max. RMS width (nm)
Min. side mode suppression (dB)
Min. mean launched power (dBm)
Max. mean launched power (dBm)
Min. extinction ratio (dB)
Operating wavelength (nm) TRANSMITTER
New optical SFP transceivers for existing SIO16 basecard.
Application code is in reference to ITU-T Recommendation G.691.
Min. sensitivity (BER of 1*10-12) EOL (dBm)
-21.5 (-23 GbE)
-28 (-32 GbE)
Min. overload (dBm)
Max. receiver reflectance (dB)
Max. dispersion [ps/nm]
800 (40 km G.652)
1600 (80 km G.652)
2400 (120 km G.652)
3600 (180 km G.652)
Min. optical return loss of cable (dB)
Max. discrete reflectance (dB)
Max. optical path penalty (dB)
Receiver units of SFPs (excluding bidirectional SFPs) are a wide-band type.
SFP transceiver name
OTR1_S3
OTR1_L3
OTR1_L5
OTR1_X3
OTR1_X5
OTR1_VL5
OTR1_VLC5
Application code 4
Min. sensitivity (BER of 1 * 10-12) EOL (dBm)
Max. dispersion (ps/nm)
Max. discrete reflectance (dB -
OPTICAL PATH BETWEEN S & R
When selecting bidirectional transceivers, pay attention that they must operate in complementary pairs. For example: OTR1-S3BD can work only vis-a-vis OTR1-S5BD; OTR4-L3BD can work only vis-a-vis OTR4-L5BD, and so on. The transceivers in the following table are arranged in complementary pairs. Table 4-2: STM-1 bidirectional transceivers SFP transceiver name
OTR1-S3BD
OTR1-S5BD
OTR1-L3BD OTR1-L5BD
OTR1-X49BD
OTR1-X59BD
Application code 6
BD 3 7
BD 5 8
L3BD
L5BD
X49BD
X59BD
Min. side mode suppression ratio (dB)
RECEIVER 9
BD 3: STM-1 single-fiber bidirectional SFP module with a 1310 nm TX wavelength.
BD 5: STM-1 single-fiber bidirectional SFP module with a 1550 nm TX wavelength.
4.12.2 STM-4 (622 Mbps ± 4.6 ppm) Table 4-3: STM-4 transceivers SFP transceiver name
OTR4_S3
OTR4_L3
OTR4_L5
OTR4_V5
OTR4_LC5
S 4.1
-45 dBm0
-40 dBm0
> 29 dB
-20 dBm0
> 35 dB 4-27
Characteristic Main characteristic
0 dBm0
300-600 Hz
600-3,400 Hz
> 46 dB
< -65 dB
< -67 dB
Sub-characteristic
Unbalance relative to ground Idle channel noise Hook detection time Gain Digital pulse supported width Transmission distance
0.4 mm cables
0.5 mm cables
4.17.5 Ringer Characteristics Total power
75 V RMS
4.17.6 2 Wire/4 Wire/6 Wire and E&M Interface Maximum number of channels
6 (per module)
Types V
Far end Cross Talk (2W&4W)
Go-To-Return Cross Talk (4W)
Signaling Impedance
> 15 K ohm
Signaling Sensitivity
> 2.5 mA
Return Los - 2W
300Hz～600Hz >12dB, 600Hz～3400Hz >15dB
Return Los - 4W
300Hz～3400Hz >20dB
Tx levels
4W: -11 dBm ~ +1 dBm (software-configurable with 1 dB granularity) 2W: 0 dBr ± 1 dB
Rx levels
4W: -11 dBm ~ -1 dBm (software-configurable with 1 dB granularity) 2W: -3.5 dBr ± 1 dB
ITU-T standards compliance
G.711 and G.712
4.17.7 Codir_4E Interface Maximum number of channels
4 (per module)
120 ohm balanced
G.703-64 Kbps +/- 100pps co-directional interface
4.17.8 OMNI_E Interface Maximum number of 2W/4W channels
Maximum number of conference groups
Maximum number of members in each conference group
4.17.9 V.24 Interface Maximum number of channels
3 to 8 in Transparent mode 4 in Asynchronous mode 2 in Synchronous mode
50 bps-19.2 Kbps in Transparent mode 0.6 Kbps, 1.2 Kbps, 2.4 Kbps, 4.8 Kbps, 9.6Kbps, 19.2 Kbps, 38.4Kbps, 57.6 Kbps (HCM) in Asynchronous mode 0.6 Kbps, 1.2 Kbps, 2.4 Kbps, 4.8 Kbps, 9.6Kbps, 19.2 Kbps, 38.4 Kbps, 57.6Kbps in HCM mode, 64 Kbps, in Synchronous mode
DCE, Full duplex
Transparent, Asynchronous, Synchronous
ITU-T V28, ITU-T V110, ITU-T V14
4.17.10 V.35 Interface Maximum number of channels 2 (per module) Bit rate
N x 64 K (N = 1…31) 2Mb/s (Unframed)
ITU-T V.28, ITU-T V.35
4.17.11 V.36 Interface Maximum number of channels
2 (per module)
ITU-T V.11, V.10, V.36
4.17.12 RS-422/449 Interface Maximum number of channels 2 (per module) Protocol
X.24, X.21
EIA-449, TIA-422-B
4.17.13 SM_C37.94 Interface Maximum number of channels
N x 64 Kbps, N=1 to 12
Optical interface wavelength
840 to 860 µm
Supported fibers
50/62.5 µm MMF
Optical interface rate
Tx and Rx fiber optic heads
850 nm multimode LED
BFOC/2.5 (ST)
4.17.13.1 C37.94 Transceiver Specifications Transmit optical power
-11~-23 dBm (50 µm MMF), -11~-19 dBm (62.5 µm MMF)
-11~-32 dBm
4.17.14 SM_C37.94S Specifications This section describes the specifications for SM_C37.94S (SFP based module).
4.17.14.1 General Maximum number of channels per module
Maximum number of channels per card
Maximum number of channels per shelf
4.17.14.2 C37.94S Interface Supported protocol
760 to 860 nm
50/125 μm MMF Multimode
LC (SFP based)
4.17.14.3 C37.94S SFP Based Transceiver Specifications Transceiver form
Transmit optical power
-11~ -32 dBm
OTR2M_MM
APPLICATION CODE 20
TRANSMITTER Source type
RECEIVER Min. sensitivity (BER of 1*10-12) EOL (dBm)
OPTICAL PATH BETWEEN S & R Max. dispersion [ps/nm]
4.18 Physical Specifications This section describes the physical specifications of the product.
4.18.1 Dimensions (H x W x D) NPT-1021 shelf
44.4 mm x 440 mm x 243 mm
INF-B1U
20 mm x 76 mm x 222 mm
INF-B1U-D
40 mm x 76 mm x 222 mm
AC_PS-B1U
EXT-2U shelf
88.9 mm x 443.4 mm x 243 mm
EXT-2U shelf traffic card
26 mm x 283 mm x 222 mm
INF-E2U
26 mm x 111 mm x 222 mm
AC_PS-E2U
52 mm x 111 mm x 222 mm
FCU-E2U
85 mm x 40 mm x 222 mm
2200/2600 mm x 600 mm x 300 mm
4.18.2 Weight NPT-1020/NPT-1021 fully populated
EXT-2U fully populated
4.18.3 Power Applicable specification
ETSI 300 132-2
Nominal DC power source
110 VAC to 230 VAC; 50 Hz/60 Hz
Nominal AC power source
220 VAC or 110 VAC
NPT-1020/NPT-1021 power consumption
EXT-2U power consumption
Maximum 511 W (Including PoE)
CAUTION: The maximum allowed input DC voltage when using PoE is -58 VDC.
4.18.4 INF_E2U DC output voltage
-48 VDC to -70 VDC
Maximum output load power 511 W (including PoE) Working temperature
4.18.5 AC_PS-B1U Module AC input voltage range
Maximum output load power (220VAC)
Maximum output load power (110VAC)
-5° C to +55° C
4.18.6 AC_PS-E2U AC input voltage range
100 VAC to 240 VAC; 50 Hz/60 Hz
Maximum output load power
4.18.7 INF-B1U Module DC input voltage
4.18.8 NPT-1021 Power Consumption Type
NPT-1021 shelf with fans
60.5 W
48.2 W
DHGE_4E
DHGE_8
Tslot modules
DMCES1_4
EXT-2U shelf with fans
INF_E2U
FCU_E2U
EM_10E base card
EM_10E modules
MSE1_16
Optical base card (OBC)
OBC modules
8W 13.1 W
DHFE_12
DHFX_12
MXP10
OM_AOC4
OM_BA
OM_PA
OM_ILA
SM_FXS_8E
1 W (all idle) 10 W (all busy)
SM_FXO_8E
1 W (all idle) 2.5 W (all busy)
SM_EM_24W_6E
1 W (all idle) 2.8 W (all busy)
SM_V24E
0.8 W (all idle) 3.2 W (all busy)
SM_V35E
0.8 W (all idle) 1.9 W (all busy)
SM_V35_V11
1.5 W (2 x V.35) 3.5 W (2 x V.11)
SM_CODIR_4E
0.8 W (all idle) 1.8 W (all busy)
SM_OMNI_E
SM_C37.94
SM_C37.94S
OTR1_YY
OTR4_YY
OTR16_YY
OTR25_xx
OTC25_ALxx
OTFE_SM
OTFE_MM
OTGBE_SX
OTGBE_LX
OTGBE_ZX
ETGBE
OTP10_SR
OTP10_LR
OTP10_ZR
OTP10_LRM
OTP10C_xx
OTP10D_xx
OTP10_xxBD
OTP10T_AL
OTP10T_17
1.7 W 4-35
Table 4-16: Power Dissipation Power dissipation Typical 170 Btu/hour; maximum 683 Btu/hour
4.18.9 Environmental Conditions This section describes the environmental conditions required for the operation, storage, handling and transportation of the product
Extended temperature range of -25 ºC to +70 ºC is supported. However, before installing the NPT-1021 in a street cabinet, consult the PLM at ECI.
4.18.9.1 Operation Applicable specification
ETSI-300-019-2-3 Class 3.3
4.18.9.2 Storage (Packed) Applicable specification
ETS-300-019-2-1 Class 1.2
4.18.9.3 Handling and Transportation Applicable specification
ETS-300-019-2-2 Class 2.2
4.18.10 EMC Applicable specifications
EN 300 386/2000
EMC directive 89/336 EEC
4.18.11 Safety Applicable specifications
EN 60950/2000
Applicable CE directive
LVD directive 73/23/EEC
4.18.12 Laser Safety Applicable specification
IEC 60825-1&2 (AS/NZS 2211.2)
4.18.13 Reliability This section describes the reliability of the NPT-1010 platform with respect to product life and availability.
4.18.13.1 Life Expected lifetime of the NPT-1021
4.18.13.2 Availability Availability of service for an end-to-end service trail passing through a protected packet network
better than 99.999%
5.1.1 Switching Specifications Switching capacity
5.1.2 NPT-1050 Shelf Capacity The NPT-1050 shelf packet slot capacity is evenly distributed between all I/O slots using the MCPS100.The card has a packet switching capability of 100 Gbps. The bandwidth allocation capacity per I/O slot in the NPT-1050 in reference with the MCPS100 card is described in the following table. Table 5-1: NPT-1050 packet capacity per I/O slot Packet switching card type
Capacity per slot
NPT-1050 total capacity
MCPS100
TS1 to TS3
FRR (Fast ReRoute)
Dual FRR
within 50ms (static) within 100ms (LACP)
Within 100ms (static) Within 1-2 sec (LACP)
INF-B1UH/INF-E2U 1+1 redundancy
Control (MCP)
MCPS100 1 + 1 redundancy
MCPS100 1+1 redundancy
Tributary Protection
Protection switch time
less than 50 ms
DMCES1_4 cards
1:1 card protection with cross-card MSP1+1
MSC_2_8 cards
1:1 card protection with cross-card MSP1+1 (for STM1/OC-3 only)
MXP10 cards
1:1 card protection with Y client port protection
Support ITU-T G.8262 EEC Option I and Option II. There are four types of timing references available from multiple timing sources: 
From any GbE/10GbE port which supports synchronous Ethernet
G.813 internal clock
Synchronization Status Marker (SSM) is provided
1588v2 Boundary Clock (on MCPS100 ) and Ordinary Clock (on MCPS100)
IEEE 1588v2 Specification
Ordinary clock (master or slave) Two-step E2E Transparent Clock (TC)
Grandmaster work mode
Unicast, two-step
Maximal aggregated unicast packet rate of OC master
2000 pps
Max number of slave clocks supported per master
Synchronization source of master
1PPS/ToD System clock (T0 of SEC/EEC TMU) Any Sync-E port of central PE Local OCXO
Supported IEEE1 588v2 profiles
Frequency – ITU-T G.8265.1 Phase and time – ITU-T G.8275.1
Type of PTP clock interface
1 x 1PPS 1 x ToD
Connector type of 1PPS and ToD interface
Electrical characteristic of 1PPS and ToD interface
RS-422/V.11
PTP message encapsulation
Depends on the network conditions and PTP protocol configuration, and limited by 2000 pps budget.
ToD message format
IEEE 1588v2 ITU-T G.8275.1 ITU-T G.8265.1
5.9.1 2.048 Mbps (E1) Physical level
5.9.2 1.544 Mbps (T1) Physical level
5.9.3 STM-1 Electrical Physical level
G.703, Paragraph 12
155.52 Mbps ± 20 ppm
5.9.4 STM-1/OC-3 Optical Physical level
G.957, Table 2
155.52 Mbps ± 4.6 ppm
S3, L3, L5, X3, X5, VL5
5.9.5 STM-4 Optical Physical level
G.957, Table 3
622 Mbps ± 4.6 ppm
S3, L3, L5, V5
5.10 Management Applicable specifications
5.10.1 Management and Alarm Interfaces CMIP-like over TCP/IP to EMS-APT SNMP V3 to third-party SNMP-based management solution (monitoring only) MTNM from EMS-APT to LightSoft or other TMN 10/100BaseT to LCT-APT Rack Alarm Panel
5.10.2 Alarms and Performance Performance concept
5.10.3 Management Communication Channel MCC Interfaces
Management LAN interface for DCN RS-DCC , MS-DCC, E1 clear channel for SDH network In-band MCC for Ethernet/MPLS network GCC for OTN network
IP route table IP Route Table Capacity
IEEE 802.3 Ethernet – For management port or in-band MCC LAN emulation over HDLC – For DCC PPP over HDLC – For DCC or GCC IEEE 802.1q – For in-band MCC IEEE 802.1ad – For in-band MCC
DCC processing capacity
Maximum number of DCC channels
16 x RS-DCC (192 Kbps), 16 x MS-DCC (576 Kbps)
Max number of LAN emulation interfaces for DCC
Max number of PPP interfaces for DCC and GCC
Number of 1 management VLAN per PE Maximum number of MCC channels
Maximum number of GCC channels
6 (only MXP10 OTU2/OTU2e ports support GCC)
GCC termination type
GCC0, GCC1, GCC2
2 x E1 clear channel Framed or unframed
5.11 SDH Interfaces This section describes the specifications for the SDH interfaces.
5.11.1 STM-1 (155.52 Mbps ± 4.6 ppm) Table 5-2: STM-1 interface SFP transceiver name
Application code 22
1263-1360
1270-1360
1544.5-1557.5
RECEIVER 23
When selecting bidirectional transceivers, pay attention that they must operate in complementary pairs. For example: OTR1-S3BD can work only vis-a-vis OTR1-S5BD; OTR4-L3BD can work only vis-a-vis OTR4-L5BD, and so on. The transceivers in the following table are arranged in complementary pairs. Table 5-3: STM-1 bidirectional transceivers SFP transceiver name
Application code 24
BD 3 25
BD 5 26
5.11.2 STM-4 (622 Mbps ± 4.6 ppm) Table 5-4: STM-4 transceivers SFP transceiver name
Hook detection time Gain Digital pulse supported width Transmission distance
5.16.5 Ringer Characteristics Total power
5.16.6 2 Wire/4 Wire/6 Wire and E&M Interface Maximum number of channels
5.16.7 Codir_4E Interface Maximum number of channels
5.16.8 OMNI_E Interface Maximum number of 2W/4W channels
5.16.9 V.24 Interface Maximum number of channels
5.16.10 V.35 Interface Maximum number of channels 2 (per module) Bit rate
5.16.11 V.36 Interface Maximum number of channels
5.16.12 RS-422/449 Interface Maximum number of channels 2 (per module) Protocol
5.16.13 SM_C37.94 Interface Maximum number of channels
5.16.13.1 C37.94 Transceiver Specifications Transmit optical power
5.16.14 SM_C37.94S Specifications This section describes the specifications for SM_C37.94S (SFP based module).
5.16.14.1 General Maximum number of channels per module
5.16.14.2 C37.94S Interface Supported protocol
5.16.14.3 C37.94S SFP Based Transceiver Specifications Transceiver form
APPLICATION CODE 43
5.17 Physical Specifications This section describes the physical specifications of the product.
5.17.1 Dimensions (H x W x D) NPT-1050 shelf
44 mm x 483 mm x 243 mm
MCPTS100
20 mm x 158 mm x 212 mm
INF_B1UH
20 mm x 76 mm x 212 mm
FCU_1050
41 mm x 44 mm x 224 mm
5.17.2 Weight NPT-1050 fully populated
5.17.3 Power Applicable specification
NPT-1050 power consumption
Maximum 450 W
CAUTION: The maximum allowed input DC voltage when using PoE is - 58 VDC.
5.17.4 INF-B1UH DC input voltage
5.17.5 INF_E2U DC output voltage
Maximum output load power 511 W (including PoE)
5.17.6 AC_PS-E2U AC input voltage range
5.17.7 NPT-1050 Power Consumption Table 5-22: Power Consumption Type
MSC_2_8
DHXE_2
DHGE_16
NFVG_4
DHGE_24
DMCE1_32
MPoE_12G
MXP10 module
EM_10E/SM_10E modules
1 W (all idle) 10 W (all busy
1.5W (2 x V.35) 3.5W (2 x V.11)
1.6 W 5-41
CTGBE_LxLx
CTGBE_SxSx
5.17.8 Environmental Conditions This section describes the environmental condition for operating, storing, handling and transporting the product.
Extended temperature range of -25 ºC to +70 ºC is supported. However, before installing the NPT-1050 in a street cabinet, consult the PLM at ECI.
5.17.8.1 Operation (with MCSP/MCPTS100) Applicable specification
NOTE: Extended temperature range of -25 ºC to +65 ºC is supported by the MCPS/MCPTS100. However, before installing the NPT-1200 in a street cabinet, consult the PLM at ECI.
NOTE: When using an air filter, the operational temperature is reduces by 5°C.
5.17.8.2 Storage (Packed) Applicable specification
5.17.8.3 Handling and Transportation Applicable specification
5.17.9 EMC Applicable specifications
5.17.10 Safety Applicable specifications
5.17.11 Laser Safety Applicable specification
5.17.12 Reliability This section describes the reliability of the NPT-1050 platform with respect to product life and availability.
5.17.12.1 Life Expected lifetime of the NPT-1200
5.17.12.2 Availability Availability of service for an end-to-end service trail passing through a protected network
This section describes the cross-connect and switching specifications for the NPT-1200.
6.1.1 Switching Specifications Switching capacity CPS/CPTS100
MPLS processing CPS/CPTS100 (IMIX) 72 Gbps Switching capacity CPS/CPTS320
MPLS processing CPS/CPTS320 (IMIX) 240 Gbps
6.1.2 NPT-1200 Shelf Capacity An NPT-1200 shelf Packet slot capacity is evenly distributed between all I/O slots using different types of matrix cards (CPS100). The CPS100 has a packet switching capability of 100 Gbps each and the CPS320 has a packet switching capability of 320 Gbps. The bandwidth allocation capacity per I/O slot in the NPT-1200 in reference with the CPS cards used is described in the following tables. Table 6-1: NPT-1200 packet capacity per I/O slot (with CPS100) Packet switching card type
TS1 to TS7 (excluding TS5) 20 Gbps
NPT-1200 total capacity 100 Gbps
Table 6-2: NPT-1200 packet capacity per I/O slot (with CPS320) Packet switching card type
CPS320
TS1 to TS7 (excluding TS5) 40 Gbps
NPT-1200 total capacity 320 Gbps
ITU-T G.841, G.842
Multi-chassis LAG (MC-LAG)
within 50 ms (static) within 1 to 2 sec (LACP)
INF-1200/INF-E2U 1+1 redundancy
1:N redundancy for FAN unit
CPTS 1+1 redundancy CPS 1 + 1 redundancy
XIO64 1+1 redundancy XIO16_4 1 + 1 redundancy CPTS 1+1 redundancy
XIO64 1+1 redundancy XIO16_4 1 + 1 redundancy CPTS100/320 1+ 1 redundancy CPS100/320 1+1 redundancy
There are multiple types of timing references available from multiple timing sources: 
An external input of 2 MHz and 2 Mbps
1588v2 Boundary Clock (on CPTS100, CPS100 ) and Ordinary Clock (on CPTS100, CPS100, DMXE_48_L2 and DMXE_22_L2)
Synchronization Status Marker (SSM) and Ethernet Synchronization Message Channel (ESMC) are provided
Ordinary clock (master or slave) Boundary clock (BC) Two-step E2E Transparent Clock (TC)
Synchronization transport
Frequency Phase (with 1PPS) and time (with ToD)
Throughput Test - RFC2544
Number of RFC2544 test port
Max test rate
1000 Mbps (NPT-1200 with CPTS100/CPS100/CPTS320/CPS320)
Test rate granularity
[email protected], 1Mbps~Max [email protected]
Transmit frame size
Fixed (64~1522B) IMIX
IMIX types
Standard IMIX G.8261 IMIX1 G.8261 IMIX2 User defined IMIX
Frame loss (Latency and jitter test is not supported)
6.10 I/O Interfaces This section describes the specifications for the I/O interfaces.
6.10.1 2.048 Mbps (E1) Physical level
6.10.2 1.544 Mbps (T1) Physical level
6.10.3 STM-1 Electrical Physical level
6.10.4 STM-1/OC-3 Optical Physical level
6.10.5 STM-4 Optical Physical level
6.11 Management Applicable specifications
6.11.1 Management and Alarm Interfaces CMIP-like over TCP/IP to EMS-APT SNMP V3 to third-party SNMP-based management solution (monitoring only) MTNM from EMS-APT to LightSoft or other TMN 10/100BaseT to LCT-APT Rack Alarm Panel
6.11.2 Alarms and Performance Performance concept
6.11.3 Management Communication Channel MCC Interfaces
Management LAN interface for DCN RS-DCC, MS-DCC, E1 clear channel for SDH network In-band MCC for Ethernet/MPLS network GCC for OTN network
32 x RS-DCC (192 Kbps), 32 x MS-DCC (576 Kbps)
In-band MCC processing capacity
Number of management VLAN per NE
Number of management VLAN per PE
6.12 SDH Interfaces This section describes the specifications for the SDH interfaces.
6.12.1 STM-1 (155.52 Mbps ± 4.6 ppm) Table 6-3: STM-1 interface SFP transceiver name
Application code 45
RECEIVER 46
When selecting bidirectional transceivers, pay attention that they must operate in complementary pairs. For example: OTR1-S3BD can work only vis-a-vis OTR1-S5BD; OTR4-L3BD can work only vis-a-vis OTR4-L5BD, and so on. The transceivers in the following table are arranged in complementary pairs.
Table 6-4: STM-1 bidirectional transceivers SFP transceiver name
Application code 47
BD 3 48
BD 5 49
RECEIVER 50
6.12.2 STM-4 (622 Mbps ± 4.6 ppm) Table 6-5: STM-4 transceivers SFP transceiver name Application code
> 35 dB 6-32
6.17.5 Ringer Characteristics Total power
6.17.6 2 Wire/4 Wire/6 Wire and E&M Interface Maximum number of channels
6.17.7 Codir_4E Interface Maximum number of channels
6.17.8 OMNI_E Interface Maximum number of 2W/4W channels
6.17.9 V.24 Interface Maximum number of channels
6.17.10 V.35 Interface Maximum number of channels 2 (per module) Bit rate
6.17.11 V.36 Interface Maximum number of channels
6.17.12 RS-422/449 Interface Maximum number of channels 2 (per module) Protocol
6.17.13 SM_C37.94 Interface Maximum number of channels
6.17.13.1 C37.94 Transceiver Specifications Transmit optical power
6.17.14 SM_C37.94S Specifications This section describes the specifications for SM_C37.94S (SFP based module).
6.17.14.1 General Maximum number of channels per module
6.17.14.2 C37.94S Interface Supported protocol
6.17.14.3 C37.94S SFP Based Transceiver Specifications Transceiver form
APPLICATION CODE 62
6.18 Physical Specifications This section describes the physical specifications of the product.
6.18.1 Dimensions (H x W x D) NPT-1200 shelf
88.9 mm x 442.4 mm x 243 mm
MCP1200
20 mm x 181 mm x 222 mm
20 mm x 210 mm x 222 mm
INF_1200
31 mm x 76 mm x 222 mm
FCU_1200
86 mm x 44 mm x 222 mm
6.18.2 Weight NPT-1200 fully populated
6.18.3 Power Applicable specification
NPT-1200 power consumption
Maximum 550 W
6.18.4 INF-1200 DC input voltage
6.18.5 INF_E2U DC output voltage
6.18.6 AC_PS-E2U AC input voltage range
6.18.7 NPT-1200 Power Consumption Table 6-19: Power Consumption Type
Power requirements 12.3 W
107.6 W
MCS_2_8
22 W 6-38
DHXE_4
Component name SM_CODIR_4E
Power requirements 0.8 W (all idle) 1.8 W (all busy)
SM_EOP (for SM_10E only)
TPEH8_1
OTP10_xx
1.5 W 6-40
Table 6-20: Power Dissipation Power dissipation Typical 1195 Btu/hour; maximum 1887 Btu/hour
6.18.8 Environmental Conditions This section describes the environmental condition for operating, storing, handling and transporting the product.
6.18.8.1 Operation (with CPS100) Applicable specification
NOTE: Extended temperature range of -25 ºC to +70 ºC is supported by the CPS/CPTS100. However, before installing the NPT-1200 in a street cabinet, consult the PLM at ECI.
6.18.8.2 Storage (Packed) Applicable specification
6.18.8.3 Handling and Transportation Applicable specification
6.18.9 EMC Applicable specifications
6.18.10 Safety Applicable specifications
6.18.11 Laser Safety Applicable specification
6.18.12 Reliability This section describes the reliability of the NPT-1010 platform with respect to product life and availability.
6.18.12.1 Life Expected lifetime of the NPT-1200
6.18.12.2 Availability Availability of service for an end-to-end service trail passing through a protected packet network
The following is a list of standards and reference documents that relate to the NPT platform product line. The standards are listed alphabetically by groups.
Af-phy-0064.000 – ATM Forum E1 Physical Layer Interface.
Af-phy-0086.000 – ATM Forum IMA V1.0.
Af-phy-0086.001 – ATM Forum IMA V1.1.
Af-phy-00121.00 – ATM Forum Traffic Management Specifications V4.1.
EuP Directive 2005/32/EC: Ecodesign Requirements for Energy-Using Products.
OHSAS 18001: Occupational Health and Safety Management Systems - Requirements.
REACh Directive 2005/32/EC: Registration, Evaluation, Authorization, and Restriction of Chemicals.
RoHS Directive 2005/747/EC: Restriction of the Use of Certain Hazardous Substances in Electrical and Electronic Equipment.
WEEE Directive 2002/96/EC: Waste from Electrical and Electronic Equipment.
EN 300 019-1-1 Class 1.2: Environmental Engineering (EE); Environmental Conditions and Environmental Tests for Telecommunications Equipment; Part 1-1: Classification of Environmental Conditions; Storage.
EN 300 019-1-2 Class 2.3: Environmental Engineering (EE); Environmental Conditions and Environmental Tests for Telecommunications Equipment; Part 1-2: Classification of Environmental Conditions; Transportation.
EN 300 019-1-3 Classes 3.2 and 3.3: Environmental Engineering (EE); Environmental Conditions and Environmental Tests for Telecommunications Equipment; Part 1-3: Classification of Environmental Conditions; Stationary use at weather-protected locations.
EN 300 019-2-4 Class 4.1: Environmental Engineering (EE); Environmental Conditions and Environmental Tests for Telecommunications Equipment; Part 2-4: Specification of Environmental Tests; Stationary use at non-weather-protected locations.
EN 300 132 -2: Environmental Engineering (EE); Power Supply Interface at the Input to Telecommunications Equipment.
EN 300-166: Physical and electrical characteristics of hierarchical digital interfaces for equipment using the 2 048 kbit/s based plesiochronous or synchronous digital hierarchies.
EN 300 386: Electromagnetic compatibility and Radio spectrum Matters (ERM); Telecommunication network equipment; Electromagnetic Compatibility (EMC) requirements.
EN 300-417-2-1: Transmission and Multiplexing (TM); Generic requirements of transport functionality of equipment.
EN 300-417-5-1: Generic requirements of transport functionality of equipment.
EN 300-462-5-1: Transmission and Multiplexing (TM); Generic requirements for synchronization networks.
EN 50121 – 4 (2006) Railway applications - Electromagnetic compatibility part 4: emission and immunity of signaling and telecommunications.
EN 50125-3 (2003) Railways applications – Environmental conditions for equipment – part 3: Equipment for signaling and telecommunication.
EN50581 - Guiding Standard for Compliance with RoHS2 Technical Documentation Requirements
EN 55022: Radio Disturbance Characteristics of Information Technology Equipment.
EN 55024: 1998 +A1: 2001+A2:2003 Immunity characteristics-Limits and methods of measurements
EN 60950-1 (2006/ A11+A12+A1)) Equipment Safety Part-1: General Requirements.
EN 60870-2-2 (1996) Telecontrol equipment and system - Part 2Operation condition – Section 2: Environmental condition (3k6).
EN 60950-1 -Information Technology Equipment Safety- Part1 General Requirements
EN 61000-4-2:1995 +A1:98+A2:2001 Electrostatic Discharge (ESD) Immunity test
EN 61000-4-3:2008 Electromagnetic compatibility frequency,electromagnetic field immunity IEC test
EN 61000-4-4: 2008 Electromagnetic compatibility (EMC), Section 4: Electrical fast transient/burst immunity test
EN 61000-4-5: 2006 Electromagnetic compatibility (EMC), Section 5: Surge immunity test
EN 61000-4-6:2007 Electromagnetic compatibility (EMC), Section 6: Immunity to conducted disturbances, induced by radio- frequency fields
EN 61000-6-5 (2001) Generic standards – Immunity for power station and substation environments
EN 61850-3 (2002) Communication network and systems in substations – Part 3: General requirements
ETR 275: Considerations on Transmission Delay and Transmission Delay value for components on connections supporting speech communication over evolving digital networks.
FTZ 1TR9: Deutsche Telekom A.G. EMC Requirements.
(EMC),
IEC 68: Environmental Testing.
IEC-68-2-6: Vibration and Shock tests on a typical Current Transformer Set.
IEC 870-2-1:1995 Telecontrol equipment and systems - Part 2: Operating conditions -Section 1: Power supply and electromagnetic compatibility.
IEC 917: Modular Order for the Development of Mechanical Structures for Electronic Equipment Practices.
IEC 3309: Information Technology – Telecommunications and Information Exchange between Systems – High-Level Data Link Control (HDLC) Procedures – Frame Structure.
IEC 9314-3: Information Processing Systems - Fiber Distributed Data Interface (FDDI) Multiplex.
IEC 9595, Information Technology: Open Systems Interconnection, Common Management Information Services.
IEC 9596, Information Technology: Open Systems Interconnection, Common Management Information Protocol.
IEC 13239: Information technology — Telecommunications and information exchange between systems — High-level data link control (HDLC) procedures.
IEC 17025: General Requirements for Competence of Testing and Calibration Laboratories.
IEC 60825-1: Safety of Laser Products – Part 1: Equipment Classification and Requirements.
IEC 60825-2 (AS/NZS 2211.2): Safety of Laser Products – Part 2: Safety of Optical Fiber Communication System (OFCS).
IEC/EN/UL 60950-1: Information Technology Equipment - Safety - General Requirements.
IS 1249-1: Safety of Laser products: Equipment classification requirements and users guide.
IEEE 802.1ad: Virtual Bridged Local Area Networks—Revision—Amendment 4: Provider Bridges.
IEEE 802.1ag: Virtual Bridged Local Area Networks Amendment 5: Connectivity Fault Management.
IEEE 802.1D: Media access control (MAC) Bridges (Incorporates IEEE 802.1t and IEEE 802.1w).
IEEE 802.1P: Traffic Class Expediting and Dynamic Multicast Filtering.
IEEE 802.1Q: Virtual Bridged Local Area Networks—Revision.
IEEE 802.1w: Rapid Reconfiguration of Spanning Tree.
IEEE 802.1s: Multiple Spaning Trees
IEEE 802.3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications.
IEEE 802.3ad: Link Aggregation.
IEEE 802.3ah: Ethernet in the First Mile (Link OAM).
IEEE 802.3x: Full Duplex Operation and Flow Control Protocol.
IEEE 802.1x: Port-based Network Access Control (PNAC)
IEEE C37.94: IEEE Standard for N Times 64 Kilobit Per Second Optical Fiber Interfaces Between Teleprotection and Multiplexer Equipment
IEEE 1588: IEEE Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems
IEEE 1613 (2003) Environmental and testing requirements for communication networking devices in electric power station (class B).
RFC 791: Internet Protocol, DARPA Internet Protocol Specification
RFC 826: An Ethernet Address Resolution Protocol
RFC 894: A Standard for the Transmission of IP Datagrams over Ethernet Networks
RFC 1122: Requirements for Internet Hosts -- Communication Layers”, Braden R.,Editor, October 1989
RFC 1157: SNMP - Simple Network Management Protocol.
RFC 1213: Management Information Base for Network Management of TCP/IP-based internets:MIB-II, March 1991
RFC 1332: The PPP Internet Protocol Control Protocol (IPCP), May 1992
RFC 1570: PPP LCP Extensions, W.Simpson, January 1994
RFC 1661: The Point-to-Point Protocol (PPP), July 1994
RFC 1662: PPP in HDLC-like framing, July 1994
RFC 1812: Requirements for IP version 4 Routers, June 1995
RFC 1850: “OSPF Version 2 Management Information Base”, Baker F., R. Coltun R., November 1995
RFC 2328: “OSPF Version 2.”, Moy J., April 1998
RFC 1493: Definition of Managed Objects for Bridges.
RFC 1643: Ethernet-like Interfaces.
RFC 1662: PPP in HDLC-Life Framing.
RFC 1757: Remote Network Monitoring Management Information Base.
RFC 1823: LDAP Application Program Interface (API).
RFC 1901: Introduction to Community-based SNMPv2.
RFC 2108: Definitions of Managed Objects for IEEE 802.3 Repeater Devices using SMIv2.
RFC 2251: Lightweight Directory Access Protocol (v3) [specification of the LDAP on-the-wire protocol].
RFC 2252: Lightweight Directory Access Protocol (v3): Attribute Syntax Definitions.
RFC 2253: Lightweight Directory Access Protocol (v3): UTF-8 String Representation of Distinguished Names.
RFC 2254: The String Representation of LDAP Search Filters.
RFC 2255: The LDAP URL Format.
RFC 2256: A Summary of the X.500(96) User Schema for use with LDAPv3.
RFC2236, "Internet Group Management Protocol, Version2".
RFC 2401: Security Architecture for the Internet Protocol.
RFC 2409: Internet Key Exchange Protocol (IKE).
RFC 2464: Transmission of IPv6 Packets over Ethernet Networks.
RFC 2474: Definition of the Differentiated Services Field (DS Field) in the IPv4 and IPv6 Headers.
RFC 2544: Throughput test generator.
RFC 2597: Assured Forwarding PHB Group.
RFC 2615: PPP over SONET/SDH.
RFC 2665: Definitions of Managed Objects for the Ethernet-like Interface Types.
RFC 2674: Bridge MIB with VLAN/Traffic Classes/Multicast Extensions.
RFC 2702: Requirements for Traffic Engineering Over MPLS.
RFC 2737: Entity MIB (Version 2).
RFC 2829: Authentication Methods for LDAP.
RFC 2830: Lightweight Directory Access Protocol (v3): Extension for Transport Layer Security.
RFC 2863: Interfaces Group MIB.
RFC 3014: Notification Log MIB.
RFC 3031: Multiprotocol Label Switching Architecture.
RFC 3032: MPLS Label Stack Encoding.
RFC 3246: An Expedited Forwarding PHB (Per-Hop Behavior).
RFC 3270: Multi-Protocol Label Switching (MPLS) Support of Differentiated Services.
RFC 3376: "Internet Group Management Protocol, Version3"
RFC 3377: Lightweight Directory Access Protocol (v3): Technical Specification.
RFC 3411: SNMP Framework MIB.
RFC 3414: SNMP User-Based SM MIB.
RFC 3415: SNMP Vies-Based ACM MIB.
RFC 3443: Time To Live (TTL) Processing in Multi-Protocol Label Switching (MPLS) Networks.
RFC 3812: Multiprotocol Label Switching (MPLS) Traffic Engineering (TE) Management Information Base (MIB).
RFC 3813: Multiprotocol Label Switching (MPLS) Label Switching Router (LSR) Management Information Base (MIB).
RFC 3916: Requirements for Pseudo-Wire Emulation Edge-to-Edge (PWE3).
RFC 3985: Pseudo Wire Emulation Edge-to-Edge (PWE3) Architecture.
RFC 4090: Fast Reroute Extensions to RSVP-TE for LSP Tunnels.
RFC 4125: Maximum Allocation Bandwidth Constraints Model for Diffserv-aware MPLS Traffic Engineering.
RFC 4126: Max Allocation with Reservation Bandwidth Constraints Model for Diffserv-aware MPLS Traffic Engineering & Performance Comparisons.
RFC 4379: Detecting Multi-Protocol Label Switched (MPLS) Data Plane Failures.
RFC 4448: Encapsulation Methods for Transport of Ethernet over MPLS Networks.
RFC 4541: “Considerations for IGMP and MLD Snooping Switches”
RFC 4553: Structure-Agnostic Time Division Multiplexing (TDM) over Packet (SAToP)
RFC 5086: Structure-Aware Time Division Multiplexed (TDM) Circuit Emulation Service over Packet Switched Network (CESoPSN)
RFC 5087: Time Division Multiplexing over IP (TDMoIP)
RFC 5254: Requirements for Multi-Segment Pseudowire Emulation Edge-to-Edge (PWE3).
RFC 5462: Multiprotocol Label Switching (MPLS) Label Stack Entry: "EXP" Field Renamed to "Traffic Class" Field.
RFC 5586: MPLS Generic Associated Channel
RFC 5654: Requirements of an MPLS Transport Profile
RFC 5659: An Architecture for Multi-Segment Pseudowire Emulation Edge-to-Edge.
RFC 5718: An In-Band Data Communication Network For the MPLS-TP
RFC 5860: Requirements for OAM in MPLS-TP Networks
RFC 5880: Bidirectional Forwarding Detection (BFD)
RFC 5884: Bidirectional Forwarding Detection (BFD) for MPLS Label Switched Paths (LSPs)
RFC 5921: A Framework for MPLS in Transport Networks
RFC 5950: Network Management Framework for MPLS-TP Networks
RFC 5951: Network Management Requirements for MPLS-TP Networks
RFC 5960: MPLS-TP Data Plane Architecture
RFC 6073: Segmented Pseudowire.
RFC 6215 : MPLS-TP User-to-Network (UNI) and Network-to-Network Interfaces (NNI)
RFC 6370: MPLS-TP Identifiers
RFC 6371: OAM Framework for MPLS-TP Networks
RFC 6372: MPLS-TP Survivability Framework
RFC 6378: MPLS Transport Profile (MPLS-TP) Linear Protection
RFC 6423: Using the Generic Associated Channel Label (GAL) for Pseudowire in the MPLS-TP
RFC 6426: MPLS On-Demand Connectivity Verification and Route Tracing
RFC 6427: MPLS Fault Management Operations, Administration, and Maintenance (OAM)
RFC 6428: Proactive Connectivity Verification, Continuity Check, and Remote Defect Indication for the MPLS Transport Profile
RFC 6718: Pseudowire Redundancy
IETF Drafts: 
draft-ietf-l2vpn-vpls-ldp.
draft-ietf-l2vpn-vpls-mcast-reqts.
draft-ietf-magma-snoop.
draft-ietf-mpls-rsvp-te-p2mp.
draft-ietf-mpls-tp-nm-framework.
draft-ietf-mpls-tp-nm-req.
draft-ietf-pwe3-dynamic-ms-pw-14.
draft-ietf-pwe3-ethernet-encap.
draft-ietf-pwe3-ldp-aii-reachability-04.
draft-martini-l2circuit-encap-mpls.
draft-sajassi-l2vpn-vpls-multicast-congruency.
draft-vasseur-mpls-backup-computation.
A2LA: Accredited Laboratory for Electrical and Mechanical Testing.
ISO 9001: Quality Management System – Requirements.
ISO 14001: Environmental Management Systems – Requirements With Guidance for Use.
ISO 27001: Information Security Management Systems – Requirements.
TL 9000, QuEST Forum: Quality Management System – Requirements & Measurements Handbooks for the Telecom Industry.
ITU-T: International Telecommunication Union
G.650: Definition and Test Methods for the Relevant Parameters of Single-Mode Fibers.
G.651: Characteristics of a 50/125 µm Multimode Graded Index Optical Fiber Cable.
G.652: Characteristics of a Single-Mode Optical Fiber Cable.
G.653: Characteristics of a Dispersion-Shifted Single-Mode Optical Fiber Cable.
G.654: Characteristics of a Cut-off Shifted Single-Mode Optical Fiber Cable.
G.655: Characteristics of a Non-Zero Dispersion Shifted Single-Mode Optical Fiber Cable.
G.661: Definition and Test Methods for the Relevant Generic Parameters of Optical Amplifier Devices and Subsystems.
G.662: Generic Characteristics of Optical Fiber Amplifier Devices and Subsystems.
G.663: Application Related Aspects of Optical Fiber Amplifier Devices and Subsystems.
G.664: Optical Safety Procedures and Requirements for Optical Transport Systems.
G.671: Transmission Characteristics of Passive Optical Components.
G.691: Optical Interfaces for Single Channel SDH Systems with Optical Amplifiers and STM-64 Systems (Draft).
G.692: Optical Interfaces for Multi-Channel Systems with Optical Amplifiers.
G.694.1: Spectral Grids for WDM Applications: DWDM Frequency Grid.
G.694.2: Spectral Grids for WDM Applications: CWDM Wavelength Grid.
G.695: Optical Interfaces for Coarse Wavelength Division Multiplexing Applications.
G.703: Physical/Electrical Characteristics of Hierarchical Digital Interfaces.
G.704: Synchronous Frame Structures Used at 1544, 6312, 2048, 8448 and 44 736 kbps Hierarchical Levels.
G.706: Frame Alignment and CRC Procedures Relating to Basic Frame Structure Defined in Rec G.704.
G.707: Network Node Interface for the Synchronous Digital Hierarchy.
G.709: Interfaces for the Optical Transport Network (OTN).
G.752: Characteristics of digital multiplex equipments based on a second order bit rate of 6312 kbit/s and using positive justification.
G.772: Protected Monitoring Points Provided on Digital Transmission Systems.
G.774 & G774.n: SDH Information Model.
G.775: Loss of Signal (LOS), Alarm Indication Signal (AIS) and Remote Defect Indication (RDI) defect detection and clearance criteria for PDH signals.
G.781: Synchronization Layer Functions.
G.783: Characteristics of SDH Equipment Functional Blocks.
G.784: Synchronous Digital Hierarchy (SDH) Management.
G.798: Characteristics of OTN Hierarchy Equipment Functional Blocks.
G.803: Architectures of Transport Networks based on the Synchronous Digital Hierarchy.
G.805: Generic Functional Architecture of Transport Networks.
G.806: Characteristics of Transport Equipment –Description Methodology and Generic Functionality.
G.809: Functional Architecture of Connectionless Layer Networks.
G.811: Timing Characteristics of Primary Reference Clocks.
G.812: Timing Requirements of Slave Clocks Suitable for Use as Node Clocks in Synchronization Networks.
G.813: Timing Characteristics of SDH Equipment Slave Clocks (SEC).
G.823: The Control of Jitter and Wander within Digital Networks Based on the 2048 kbit/s Hierarchy.
G.825: The Control of Jitter and Wander within Digital Networks Based on the SDH (Draft).
G.8251: The Control of Jitter and Wander within the Optical Transport Network (OTN).
G.826: Error Performance Parameters and Objectives for International, Constant Bit Rate Digital Paths at or above the Primary Rate.
G.841: Types and Characteristics of SDH Network Protection Architectures.
G.872: Architecture of Optical Transport Networks.
G.874: Management Aspects of the Optical Transport Network Element.
G.874.1: Optical Transport Network (OTN): Protocol-Neutral Management Information Model for the Network Element View.
G.957: Optical Interfaces for Equipment and Systems relating to the Synchronous Digital Hierarchy.
G.958: Digital Line Systems Based on the Synchronous Digital Hierarchy for Use on Optical Fiber Cables.
G.959.1: Optical Transport Network Physical Layer Interfaces.
G.975: Forward Error Correction for Submarine Systems.
G.985: 100 Mbit/s point-to-point Ethernet based optical access system.
G.7710/Y.1701: Common equipment management function requirements
G.7712: Architecture and specification of data communication network.
G.7713: Distributed Connection Management.
G.7714: Generalized Automatic Discovery Techniques.
G.7714.1: Protocol for Automatic Discovery in SDH & OTN network.
G.8010/Y.1306: Architecture of Ethernet Layer Networks.
G.8011/Y.1307: Ethernet Services Framework.
G.8011.1/Y.1307.1: Ethernet Private Line Service.
G.8011.2/Y.1307.2: Ethernet Virtual Private Line Service.
G.8012/Y.1308: Ethernet UNI and Ethernet NNI.
G.8032 V1/Y.1344: Ethernet ring protection switching
G.8112/Y.1371: Interfaces for the MPLS Transport Profile layer network
G.8113.2/Y.1372.2: Operations, administration and maintenance mechanisms for MPLS-TP networks using the tools defined for MPLS
G.8201/Y.1354: Error performance parameters and objectives for multi-operator international paths within the Optical Transport Network (OTN)
G.8261/Y. 1361: Timing and synchronization aspects in packet network.
G.8262/Y. 1362: Timing characteristics of synchronous Ethernet equipment slave clock (EEC).
G.8264: Distribution of timing information through packet networks
G.8265: Architecture and requirements for packet-based frequency delivery
M.2140: Transport Network Event Correlation.
M.3010: Principles for a Telecommunications Management Network.
M.3013: Considerations for a Telecommunications Management Network.
M.3016.x: Security for the management plane.
M.3017: Framework for the integrated management of hybrid circuit/packet networks.
M.3200: TMN Management Services and Telecommunications Managed Areas: Overview.
M.3300: TMN F Interface Requirements.
Q.821: Alarm Surveillance.
Q.822: Performance Monitoring.
V.10: Electrical characteristics for unbalanced doublecurrent interchange circuits operating at data signalling rates nominally up to 100 kbit/s.
V.11: Electrical characteristics for balanced double-current interchange circuits operating at data signalling rates up to 10 Mbit/s.
V.24: List of definitions for interchange circuits between data terminal equipment (DTE) and data circuit-terminating equipment (DCE)
V.28: Electrical characteristics for unbalanced double-current interchange circuits.
V.110: Support by an ISDN of data terminal equipments with V-series type interfaces
X.217: Open Systems Interconnection, Service Definition for the Association Control Service Element.
X.219: Remote Operations - Model, Notation and Service Definition.
X.227: Open Systems Interconnection, Connection-Oriented Protocol for the Association Control Service Element - Protocol Specification.
X.229: Remote Operations: Protocol Specification.
X.710: Open Systems Interconnection, Common Management Information Service.
X.720: Open Systems Interconnection, Structure of Management Information - Management Information Model.
X.721 Information Technology: Open Systems Interconnection, Structure of Management Information - Definition of Management Information.
X.722: Open Systems Interconnection, Structure of Management Information - Guidelines for the Definition of Managed Objects.
X.731: Open Systems Interconnection, Systems Management - State Management Function.
X.733: Open Systems Interconnection, Systems Management - Alarm Reporting Function.
X.743: Open Systems Interconnection, Systems Management - Time Management Function.
X.744: Open Systems Interconnection, Systems Management - Software Management Function.
Y.1311: Network-based VPNs - Generic architecture and service requirements.
Y.1710: Requirements for Operation & Maintenance functionality for MPLS networks.
Y.1711: Operation & Maintenance mechanism for MPLS networks.
Y.1413: TDM-MPLS network interworking – User plane interworking
Y.1731: OAM functions and mechanisms for Ethernet based networks
Z.351: Data oriented human-machine interface specification technique – introduction.
Z.352: Data oriented human-machine interface specification technique – scope, approach and usage.
Z.361: Design guidelines for Human-Computer Interfaces (HCI) for the management of telecommunications networks.
MEF: Metro Ethernet Forum
CE 2.0 MEF services with multiple Classes of Service (Multi-CoS) & E-Access Ethernet Network to Network Interconnect and Manageability (E-NNI and E-Access).
MEF3 Circuit Emulation Service Definitions, Framework and Requirements in Metro Ethernet Networks
MEF4 Metro Ethernet Network Architecture Framework Part 1: Generic Framework.
MEF6 Metro Ethernet Services Definitions.
MEF6.1 Ethernet Services Definitions - Phase 2.
MEF7 EMS-NMS Information Model.
MEF8 Implementation Agreement for the Emulation of PDH Circuits over Metro Ethernet Networks
MEF9 Ethernet Services at the UNI
MEF10 Ethernet Service Attributes.
MEF 10.1 Ethernet Service Attributes - Phase 2.
MEF11 User Network Interface (UNI) Requirements and Framework.
MEF12 Metro Ethernet Network Architecture Framework Part 2: Ethernet Services Layer.
MEF 13 User to Network Interface (UNI) Type 1 Implementation Agreement.
MEF14 Test Suite for Ethernet Traffic Management.
MEF15 Requirements for Management of Metro Ethernet Phase 1 Network Elements
MEF18 Abstract Test Suite for Circuit Emulation Services over Ethernet based on MEF8
MEF 22.1 Mobile Backhaul Phase 2 Implementation Agreement
MEF26 External Network Network Interface Technical Specification
MEF30 Service OAM Fault Management Implementation Agreement
MEF31 Service OAM Fault Management Definition of Managed Objects [Text File of FM & TC MIBs (.zip file)]
MEF 33 Ethernet Access Services Definition
MPLS-TP Network Management requirements (draft-ietf-mpls-tp-nm-req)
MPLS-TP NM Framework (draft-ietf-mpls-tp-nm-framework)
7.10 NIST: National Institute of Standards and Technology 
FIPS PUB 197: Advanced Encryption Standard (AES).
FIPS PUB 140-2: Security Requirements for Cryptographic Modules.
7.11 North American Standards 
ANSI FC–F1-2: Fiber Channel Physical Interface REV 10.
ANSI T1.102: Digital hierarchy electrical interface.
ANSI T1.105: Synchronous Optical Network (SONET) - Basic Description including Multiplex Structure, Rates, and Formats.
ANSI X3.296: Single-Byte Command code sets CONnection (SBCON) architecture.
FCC CFR Title 47 Part 15: Radio Emission.
FCC Part 101.147 Fixed microwave services: (i8, i7, K7, 7)
NEBS GR1089 and GR63 (temperature aspect)
NEBS Level 3 support for N.A. platforms.
Rural Utility Service (RUS) Certification.
Telcordia GR-63-CORE: Network Equipment Building System (NEBS) Requirements: Physical Protection.
Telcordia GR-253-CORE: Synchronous Optical Network (SONET) Transport Systems: Common Generic Criteria.
Telcordia GR-383-CORE: COMMON LANGUAGE® Equipment Codes (CLEI™ Codes) – Generic Requirements for Bar Code Labels.
Telcordia GR-487-CORE: Generic Requirements for Electronic Equipment Cabinets.
Telcordia GR-499-CORE: Transport System Generic Requirements (TSGR): Common Requirements.
Telcordia GR-815-CORE: Generic Requirements for Network Element/Network system Security.
Telcordia GR-1089-CORE: Electromagnetic Compatibility and Electrical Safety – Generic Criteria for Network Telecommunications Equipment.
Telcordia GR-1209-CORE: Generic Requirements for Passive Optical Components.
Telcordia GR-1230-CORE: SONET Bidirectional Line-Switched Ring Equipment Generic Criteria.
Telcordia GD-1244-CORE: Clock for the synchronization network: Common generic criteria.
Telcordia GR-1312-CORE: Generic Requirements for Optical Fiber Amplifiers and Proprietary Dense Wavelength-Division Multiplexed Systems.
Telcordia GR-1400-CORE: SONET Dual-Fed Unidirectional Path Switched Ring (UPSR) Equipment Generic Criteria.
Telcordia GD-2979-CORE: Common Generic Requirements for Optical Add-Drop Multiplexers (OADMs) and Optical Terminal Multiplexers (OTMs).
7.12 OMG: Object Management Group 
Notification Service Specification V 1.0.
The Common Object Request Broker: Architecture and Specification V 2.6.
7.13 TMF: TeleManagement Forum 
TMF 513: MTNM Business Agreement Release 3.5.
TMF 518: Framework Document Delivery Package (DDP) Business Agreement (BA) V1.1.
TMF 518: Resource Provisioning DDP BA V1.0.
TMF 608: Multi Technology Network Management Information Agreement V 2.1 and V 3.5.
TMF 814: Multi Technology Network Management Solution Set V 2.1 and V 3.5.
TMF 854: The MTOSI XML Solution Set Package Release 1.1.
7.14 Web Protocol Standards W3C: World Wide Web Consortium 
SOAP 1.1: Simple Object Access Protocol.
WSDL 1.1: Web Services Description Language.
WS-I: Web Services Interoperability Organization 
WS-I Basic Profile 1.1: Web Services Interoperability.
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