user manual
Table Of Contents
- Cisco ONS 15454 SDH Reference Manual
- Contents
- About this Guide
- Shelf and FMEC Hardware
- Common Control Cards
- Electrical Cards
- Optical Cards
- Ethernet Cards
- Storage Access Networking Cards
- Card Protection
- Cisco Transport Controller Operation
- Security and Timing
- Circuits and Tunnels
- SDH Topologies and Upgrades
- CTC Network Connectivity
- Alarm Monitoring and Management
- Ethernet Operation
- Hardware Specifications
- A.1 Shelf Specifications
- A.2 SFP Specifications
- A.3 General Card Specifications
- A.4 Common Control Card Specifications
- A.5 Electrical Card and FMEC Specifications
- A.5.1 E1-N-14 Card Specifications
- A.5.2 E1-42 Card Specifications
- A.5.3 E3-12 Card Specifications
- A.5.4 DS3i-N-12 Card Specifications
- A.5.5 STM1E-12 Card Specifications
- A.5.6 BLANK Card
- A.5.7 FMEC-E1 Specifications
- A.5.8 FMEC-DS1/E1 Card Specifications
- A.5.9 FMEC E1-120NP Card Specifications
- A.5.10 FMEC E1-120PROA Card Specifications
- A.5.11 FMEC E1-120PROB Card Specifications
- A.5.12 E1-75/120 Impedance Conversion Panel Specifications
- A.5.13 FMEC-E3/DS3 Card Specifications
- A.5.14 FMEC STM1E 1:1 Card Specifications
- A.5.15 FMEC-BLANK Card Specifications
- A.5.16 MIC-A/P Card Specifications
- A.5.17 MIC-C/T/P Card Specifications
- A.6 Optical Card Specifications
- A.6.1 OC3 IR 4/STM1 SH 1310 Card Specifications
- A.6.2 OC3 IR/STM1 SH 1310-8 Card Specifications
- A.6.3 OC12 IR/STM4 SH 1310 Card Specifications
- A.6.4 OC12 LR/STM4 LH 1310 Card Specifications
- A.6.5 OC12 LR/STM4 LH 1550 Card Specifications
- A.6.6 OC12 IR/STM4 SH 1310-4 Card Specifications
- A.6.7 OC48 IR/STM16 SH AS 1310 Card Specifications
- A.6.8 OC48 LR/STM16 LH AS 1550 Card Specifications
- A.6.9 OC48 ELR/STM16 EH 100 GHz Card Specifications
- A.6.10 OC192 SR/STM64 IO 1310 Card Specifications
- A.6.11 OC192 IR/STM64 SH 1550 Card Specifications
- A.6.12 OC192 LR/STM64 LH 1550 Card Specifications
- A.6.13 OC192 LR/STM64 LH ITU 15xx.xx Card Specifications
- A.7 Ethernet Card Specifications
- A.8 Storage Access Networking Card Specifications
- Administrative and Service States
- Network Element Defaults
- Index

Figures
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Cisco ONS 15454 SDH Reference Manual, R5.0
April 2008
Figure 11-4 Four-Node, Four-Fiber MS-SPRing 11-6
Figure 11-5 Four-Fiber MS-SPRing Span Switch 11-7
Figure 11-6 Four-Fiber MS-SPRing Switch 11-8
Figure 11-7 MS-SPRing Bandwidth Reuse 11-9
Figure 11-8 Five-Node, Two-Fiber MS-SPRing 11-10
Figure 11-9 Shelf Assembly Layout for Node 0 in Figure 11-8 11-11
Figure 11-10 Shelf Assembly Layout for Nodes 1 to 4 in Figure 11-8 11-11
Figure 11-11 Connecting Fiber to a Four-Node, Two-Fiber MS-SPRing 11-12
Figure 11-12 Connecting Fiber to a Four-Node, Four-Fiber MS-SPRing 11-13
Figure 11-13 Basic Four-Node SNCP Ring 11-14
Figure 11-14 SNCP Ring with a Fiber Break 11-15
Figure 11-15 STM-1 SNCP Ring 11-16
Figure 11-16 Card Setup of Node A in the STM-1 SNCP Ring Example 11-17
Figure 11-17 Card Setup of Nodes B-D in the STM-1 SNCP Ring Example 11-17
Figure 11-18 ONS 15454 SDH Traditional MS-SPRing Dual Ring Interconnect (Same-Side Routing) 11-19
Figure 11-19 ONS 15454 SDH Traditional MS-SPRing Dual Ring Interconnect (Opposite-Side Routing) 11-20
Figure 11-20 ONS 15454 SDH Integrated MS-SPRing Dual Ring Interconnect 11-21
Figure 11-21 ONS 15454 Traditional SDH Dual Ring Interconnect 11-23
Figure 11-22 ONS 15454 SDH Integrated Dual Ring Interconnect 11-24
Figure 11-23 ONS 15454 SDH SNCP to MS-SPRing Traditional DRI Handoff 11-25
Figure 11-24 ONS 15454 SDH SNCP to MS-SPRing Integrated DRI Handoff 11-26
Figure 11-25 ONS 15454 SDH with Multiple Subtending Rings 11-27
Figure 11-26 SNCP Ring Subtending from an MS-SPRing 11-27
Figure 11-27 MS-SPRing Subtending from an MS-SPRing 11-28
Figure 11-28 Linear (Point-to-Point) ADM Configuration 11-29
Figure 11-29 Extended SNCP Mesh Network 11-30
Figure 11-30 Extended SNCP Virtual Ring 11-30
Figure 12-1 Scenario 1: CTC and ONS 15454 SDH Nodes on the Same Subnet 12-3
Figure 12-2 Scenario 2: CTC and ONS 15454 SDH Nodes Connected to Router 12-4
Figure 12-3 Scenario 3: Using Proxy ARP 12-5
Figure 12-4 Scenario 3: Using Proxy ARP with Static Routing 12-6
Figure 12-5 Scenario 4: Default Gateway on a CTC Computer 12-7
Figure 12-6 Scenario 5: Static Route With One CTC Computer Used as a Destination 12-8
Figure 12-7 Scenario 5: Static Route With Multiple LAN Destinations 12-9
Figure 12-8 Scenario 6: OSPF Enabled 12-10