TraverseEdge 2020 System DocumentationSoftware Release 5.0.xPublication Date: April 2007Document Number: 800-0015-50 Rev. AApplications and Engineerin
TraverseEdge 2020 Applications and Engineering GuidePage x Turin Networks Release 5.0.x3.8.6 Dual OC-48 Ring Node with Mixed Drops...
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-68 Turin Networks Release 5.0.x• UnprotectedIn all ca
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-69Figure 3-63 Using Transpa
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-70 Turin Networks Release 5.0.xGeneric Connectivity f
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-71face, however, only SDCC is
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-72 Turin Networks Release 5.0.xThe TE-2020 supports t
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-73• service state • connection
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-74 Turin Networks Release 5.0.x
Release 5.0.x Turin Networks Page 4-1 4.1 IntroductionThis section describes the equipment level protection provided in the TE-2020 architecture. Ther
TraverseEdge 2020 Applications and Engineering Guide, Chapter 4: Equipment ProtectionPage 4-2 Turin Networks Release 5.0.xThere can be 1 LEI (2
TraverseEdge 2020 Applications and Engineering Guide, Chapter 4: Equipment ProtectionRelease 5.0.x Turin Networks Page 4-3The CCTs require redundant -
TraverseEdge 2020 Applications and Engineering GuideRelease 5.0.x Turin Networks Page xi6.5 Bandwidth Allocation ...
TraverseEdge 2020 Applications and Engineering Guide, Chapter 4: Equipment ProtectionPage 4-4 Turin Networks Release 5.0.xFigure 4-4 TE-2020
TraverseEdge 2020 Applications and Engineering Guide, Chapter 4: Equipment ProtectionRelease 5.0.x Turin Networks Page 4-5provide little advantage. Wh
TraverseEdge 2020 Applications and Engineering Guide, Chapter 4: Equipment ProtectionPage 4-6 Turin Networks Release 5.0.xThe bottom two slots i
TraverseEdge 2020 Applications and Engineering Guide, Chapter 4: Equipment ProtectionRelease 5.0.x Turin Networks Page 4-7Each fan tray can survive up
TraverseEdge 2020 Applications and Engineering Guide, Chapter 4: Equipment ProtectionPage 4-8 Turin Networks Release 5.0.xFigure 4-12 ETS Fan
Release 5.0.x Turin Networks Page 5-1 5.1 Electrical Interfaces 5.1.1 DS3/EC1The DS3/EC1 Tributary Shelf supports both DS3 and EC-1 electrical signal
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsPage 5-2 Turin Networks Release 5.0.x5.1.3
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsRelease 5.0.x Turin Networks Page 5-3Bit Rate 1.54
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsPage 5-4 Turin Networks Release 5.0.xFigure
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsRelease 5.0.x Turin Networks Page 5-5Table 5-7
TraverseEdge 2020 Applications and Engineering GuidePage xii Turin Networks Release 5.0.x
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsPage 5-6 Turin Networks Release 5.0.xA simpl
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsRelease 5.0.x Turin Networks Page 5-7Figure 5-3
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsPage 5-8 Turin Networks Release 5.0.x 5.4 LE
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsRelease 5.0.x Turin Networks Page 5-9 5.8 Optical
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsPage 5-10 Turin Networks Release 5.0.x 5.9 S
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsRelease 5.0.x Turin Networks Page 5-11 5.12 FastE
TraverseEdge 2020 Applications and Engineering Guide, Chapter 5: Electrical Interface SpecificationsPage 5-12 Turin Networks Release 5.0.x
Release 5.0.x Turin Networks Page 6-1 6.1 IntroductionThis section describes the functionality of the Local Equipment Interconnects (LEIs) and how the
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementPage 6-2 Turin Networks Release 5.0.xA GbE's bandwidth
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementRelease 5.0.x Turin Networks Page 6-36.5.2 OTS2 ShelfOTS2 Shelf
TraverseEdge 2020 Applications and Engineering GuideRelease 5.0.x Turin Networks Page xiiiTable of FiguresItem PageChapter 1 TE-2020 System Introduc
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementPage 6-4 Turin Networks Release 5.0.xThe OTS2 with three LE
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementRelease 5.0.x Turin Networks Page 6-5The ETS1 uses one LEI and ca
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementPage 6-6 Turin Networks Release 5.0.xFigure 6-6 LEI Cabl
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementRelease 5.0.x Turin Networks Page 6-7Figure 6-7 LEI Cabling Ex
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementPage 6-8 Turin Networks Release 5.0.x6.5.5 LEI Configurati
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementRelease 5.0.x Turin Networks Page 6-9Table 6-5 Supported TE-20
TraverseEdge 2020 Applications and Engineering Guide, Chapter 6: Bandwidth ManagementPage 6-10 Turin Networks Release 5.0.x12 2 41 2 1 1 412 241
Release 5.0.x Turin Networks Page 7-1 7.1 Optical InterfacesThe following tables define the specifications for each optical PLM (Physical Layer Module
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-2 Turin Networks Release 5.0.x7.1.2 OC-12 PLMsThe OC
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignRelease 5.0.x Turin Networks Page 7-37.1.3 OC-48 PLMsThe current
TraverseEdge 2020 Applications and Engineering GuidePage xiv Turin Networks Release 5.0.xFigure 3-36 TE-2020 OC-192 Node with Four GbE and 96 DS
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-4 Turin Networks Release 5.0.xTable 7-4 OC-48 LR O
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignRelease 5.0.x Turin Networks Page 7-57.1.4 OC-192 PLMsThe OC-192
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-6 Turin Networks Release 5.0.x Table 7-7 OC-192
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignRelease 5.0.x Turin Networks Page 7-7Table 7-9 OC-192 ITU LR Op
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-8 Turin Networks Release 5.0.xTable 7-10 OC-192 IT
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignRelease 5.0.x Turin Networks Page 7-97.1.5 GbE PLMsThe MM GbE x2
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-10 Turin Networks Release 5.0.x.PTmin-10.5 dBmRe(min)
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignRelease 5.0.x Turin Networks Page 7-11 7.2 Optical Link DesignDete
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-12 Turin Networks Release 5.0.xPrmax, are used in the
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignRelease 5.0.x Turin Networks Page 7-13Power Penalty (Po)Optical pa
TraverseEdge 2020 Applications and Engineering GuideRelease 5.0.x Turin Networks Page xvFigure 6-2 LEI Cabling Example - TE-2020 Main Shelf with One O
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-14 Turin Networks Release 5.0.xFor the reasons listed
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignRelease 5.0.x Turin Networks Page 7-15dispersion index (ps/nm*km),
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-16 Turin Networks Release 5.0.xOC-48 LR-2 1600 18.0 8
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignRelease 5.0.x Turin Networks Page 7-17Table 7-17 Calculated Lin
TraverseEdge 2020 Applications and Engineering Guide, Chapter 7: Optical Link DesignPage 7-18 Turin Networks Release 5.0.xNotes: 1The OC-192 ITU
Release 5.0.x Turin Networks Page 8-1 8.1 IntroductionThe TE-2020 system uses a hierarchical master-slave arrangement for synchronization to the netwo
TraverseEdge 2020 Applications and Engineering Guide, Chapter 8: Node SynchronizationPage 8-2 Turin Networks Release 5.0.xFigure 8-1 DUS Gene
TraverseEdge 2020 Applications and Engineering Guide, Chapter 8: Node SynchronizationRelease 5.0.x Turin Networks Page 8-3Figure 8-2 BITS Terminati
TraverseEdge 2020 Applications and Engineering Guide, Chapter 8: Node SynchronizationPage 8-4 Turin Networks Release 5.0.xInternal Timing Refere
TraverseEdge 2020 Applications and Engineering Guide, Chapter 8: Node SynchronizationRelease 5.0.x Turin Networks Page 8-5NOTE: The derived DS1 signa
TraverseEdge 2020 Applications and Engineering GuidePage xvi Turin Networks Release 5.0.x
TraverseEdge 2020 Applications and Engineering Guide, Chapter 8: Node SynchronizationPage 8-6 Turin Networks Release 5.0.x
Release 5.0.x Turin Networks Page 9-1 9.1 OverviewAlthough the main function of SONET is to provide transport for voice and data traffic over optical
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsPage 9-2 Turin Networks Release 5.0.x• A Front Craft E
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsRelease 5.0.x Turin Networks Page 9-3The two ports are funct
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsPage 9-4 Turin Networks Release 5.0.xAlthough the beha
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsRelease 5.0.x Turin Networks Page 9-5 9.2.4 Section Data Co
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsPage 9-6 Turin Networks Release 5.0.x 9.4 TN-Relay9.4.
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsRelease 5.0.x Turin Networks Page 9-79.5.1 Local LAN Config
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsPage 9-8 Turin Networks Release 5.0.x• Enable the Adve
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsRelease 5.0.x Turin Networks Page 9-9 ENT-IP-ROUTE::::::SUBN
TraverseEdge 2020 Applications and Engineering GuideRelease 5.0.x Turin Networks Page xviiList of TablesItem PagePREFACETE-2020™ Document List...
TraverseEdge 2020 Applications and Engineering Guide, Chapter 9: Operations CommunicationsPage 9-10 Turin Networks Release 5.0.xNumber of TL1 lo
Release 5.0.x Turin Networks Page 10-1 10.1 TL-1 InterfaceTransaction Language 1 (TL-1) is the most widely used management protocol in telecommunicati
TraverseEdge 2020 Applications and Engineering Guide, Chapter 10: Network ManagementPage 10-2 Turin Networks Release 5.0.xFigure 10-1 Example
TraverseEdge 2020 Applications and Engineering Guide, Chapter 10: Network ManagementRelease 5.0.x Turin Networks Page 10-3allows an operator to view t
TraverseEdge 2020 Applications and Engineering Guide, Chapter 10: Network ManagementPage 10-4 Turin Networks Release 5.0.xdate and time informat
Release 5.0.x Turin Networks Page 11-1 11.1 Positron OSIRIS/Marconi MAS InteroperabilityIn Phase 3.0 of the TE-2020, Turin Networks provides both DCN
TraverseEdge 2020 Applications and Engineering Guide, Chapter 11: InteroperabilityPage 11-2 Turin Networks Release 5.0.xand the TE-2020 node sho
TraverseEdge 2020 Applications and Engineering Guide, Chapter 11: InteroperabilityRelease 5.0.x Turin Networks Page 11-3Node ID (Range1-16) on each OS
TraverseEdge 2020 Applications and Engineering Guide, Chapter 11: InteroperabilityPage 11-4 Turin Networks Release 5.0.x• Xmt of OC-3/12 PLM in
TraverseEdge 2020 Applications and Engineering Guide, Chapter 11: InteroperabilityRelease 5.0.x Turin Networks Page 11-5ture (Gateway IP is OSIRIS DCC
TraverseEdge 2020 Applications and Engineering GuidePage xviii Turin Networks Release 5.0.xTable 7-2 OC-12 Laser Specifications...
TraverseEdge 2020 Applications and Engineering Guide, Chapter 11: InteroperabilityPage 11-6 Turin Networks Release 5.0.xFigure 11-6 TE-2020 w
Visit our website at:www.turinnetworks.comRelease 5.0.xTraverseEdge 2020 System Documentation800-0015-50
Release 5.0.x Turin Networks Page 1-1This document describes the engineering design and applications of the Turin Networks TE-2020 product family show
Copyright © 2007 Turin Networks, Inc.All rights reserved. This document contains proprietary and confidential information of Turin Networks, Inc., and
TraverseEdge 2020 Applications and Engineering Guide, Chapter 1: TE-2020 System IntroductionPage 1-2 Turin Networks Release 5.0.x• Chapter 8 “No
Release 5.0.x Turin Networks Page 2-1The following features are detailed in this chapter:2.1 Overview2.2 Hardware Features2.3 Software Features2.3.1
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesPage 2-2 Turin Networks Release 5.0.xFigure 2-1 TE-2020 Main
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesRelease 5.0.x Turin Networks Page 2-3Figure 2-3 ETS1 Shelf Componen
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesPage 2-4 Turin Networks Release 5.0.xVarious combinations of PLM
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesRelease 5.0.x Turin Networks Page 2-5• Front Ethernet Port• Rear DB-9
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesPage 2-6 Turin Networks Release 5.0.x 2.3 Software FeaturesOper
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesRelease 5.0.x Turin Networks Page 2-72.3.1 Element Level Web Based Gr
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesPage 2-8 Turin Networks Release 5.0.xsystem and the topology vie
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesRelease 5.0.x Turin Networks Page 2-9 2.4 TE-206To further enhance the
TraverseEdge 2020 Applications and Engineering GuideRelease 5.0.x Turin Networks Page iiiRevision History The following lists the sections of this doc
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesPage 2-10 Turin Networks Release 5.0.xb. Split (terminate) one o
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesRelease 5.0.x Turin Networks Page 2-112.5.1 TSC/RTU - DTAU Feature Re
TraverseEdge 2020 Applications and Engineering Guide, Chapter 2: System FeaturesPage 2-12 Turin Networks Release 5.0.xDTAU Function PerformanceT
Release 5.0.x Turin Networks Page 3-1This chapter describes different network applications related to deployment of the TE-2020 system. Refer to the f
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-2 Turin Networks Release 5.0.xFigure 3-1 TE-2020 M
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-3Figure 3-4 ETS2 Shelf Iden
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-4 Turin Networks Release 5.0.x3.1.2 OC-48 with Gigab
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-5• For detailed physical descr
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-6 Turin Networks Release 5.0.xtributary shelves.Figur
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-7Figure 3-8 Terminal Config
TraverseEdge 2020 Applications and Engineering GuidePage iv Turin Networks Release 5.0.xPrecautionsThroughout this document, there are important
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-8 Turin Networks Release 5.0.xFigure 3-10 1+1 Term
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-9Various combinations of the f
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-10 Turin Networks Release 5.0.x• For physical layer m
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-11Figure 3-12 TE-2020 Termi
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-12 Turin Networks Release 5.0.x• For physical layer m
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-13Equipment RequirementsTable
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-14 Turin Networks Release 5.0.x Figure 3-14 TE-2
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-153.2.5 Dual OC-48 1+1 Termin
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-16 Turin Networks Release 5.0.xFigure 3-15 Dual OC
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-17Table 3-7 Dual OC-48 Term
TraverseEdge 2020 Applications and Engineering GuideRelease 5.0.x Turin Networks Page vFCC WarningThe TPE-1200 system has been tested and found to com
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-18 Turin Networks Release 5.0.xFigure 3-16 Regener
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-19Figure 3-17 TE-2020 as a
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-20 Turin Networks Release 5.0.xFigure 3-18 UPSR Ri
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-21applications.Figure 3-19
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-22 Turin Networks Release 5.0.x1) Tributary signals a
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-23Figure 3-22 TE-2020 OC-48
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-24 Turin Networks Release 5.0.xFigure 3-23 Unprote
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-25Figure 3-24 compares the bas
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-26 Turin Networks Release 5.0.xTurin Networks BLSR ri
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-27Figure 3-25 Three Node, 2
TraverseEdge 2020 Applications and Engineering GuidePage vi Turin Networks Release 5.0.xIf You Need AssistanceIf you need assistance while worki
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-28 Turin Networks Release 5.0.xFigure 3-26 Three N
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-29NUT is Non-Preemptable Unpro
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-30 Turin Networks Release 5.0.xFigure 3-27 Traffic
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-31 3.8 General Ring Configurat
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-32 Turin Networks Release 5.0.xor signal drops. This
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-33Figure 3-31 TE-2020 Ring
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-34 Turin Networks Release 5.0.xGuide (WR-D2020-HWD-05
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-35Figure 3-32 Ring Applicat
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-36 Turin Networks Release 5.0.x3.8.4 Dual OC-48 Ring
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-37Equipment RequirementsTable
TraverseEdge 2020 Applications and Engineering GuideRelease 5.0.x Turin Networks Page viiFTP File Transfer ProtocolGbE Giga-bit EthernetGFP Generic F
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-38 Turin Networks Release 5.0.x Figure 3-34 TE-202
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-393.8.6 Dual OC-48 Ring Node
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-40 Turin Networks Release 5.0.x Table 3-16 Dual OC
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-413.8.7 OC-192 with mixed GbE
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-42 Turin Networks Release 5.0.x Table 3-17 OC-192
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-433.8.8 TE-2020 OC-192 Ring E
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-44 Turin Networks Release 5.0.xrequires only five rac
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-45Figure 3-38 DS3 TMUX M13
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-46 Turin Networks Release 5.0.xSTS-1 as individual VT
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-473.9.1 DS3 TMUX Network Leve
TraverseEdge 2020 Applications and Engineering GuidePage viii Turin Networks Release 5.0.xTBD To Be DeterminedTCP/IP Transport Control Protocol/
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-48 Turin Networks Release 5.0.xTable 3-19 defines th
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-493.10.1 GbE Private Line Ser
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-50 Turin Networks Release 5.0.xThis solution features
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-51protection for the OC-192 in
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-52 Turin Networks Release 5.0.xNOTE: Once the virtua
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-53The GbE PLM will transmit at
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-54 Turin Networks Release 5.0.xnetwork, will cause th
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-55tags can be “nested” (Q in Q
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-56 Turin Networks Release 5.0.xSONETThe GbE PLM provi
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-57Table 3-22 Fast Ethernet
TraverseEdge 2020 Applications and Engineering GuideRelease 5.0.x Turin Networks Page ixTable of ContentsItem PagePREFACERevision History ...
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-58 Turin Networks Release 5.0.xFigure 3-51 illustrate
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-59as Figure 3-53 illustrates.
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-60 Turin Networks Release 5.0.xassembly (see Figure 1
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-61signals.Figure 3-55 Point
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-62 Turin Networks Release 5.0.xFigure 3-56 Example
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-63Figure 3-57 Point-to-Poin
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-64 Turin Networks Release 5.0.xFigure 3-58 Example
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-65Figure 3-59 Transparent D
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsPage 3-66 Turin Networks Release 5.0.xFigure 3-60 SONET S
TraverseEdge 2020 Applications and Engineering Guide, Chapter 3: System ApplicationsRelease 5.0.x Turin Networks Page 3-67Figure 3-61 STS-1 Selecti
Kommentare zu diesen Handbüchern