Cyan L-AMP Engineering And Planning Manual Download Page 157

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Cyan Z-Series Engineering and Planning Guide

Release 5.0

700-0023-05-00 Rev. 1

P a g e

157

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Regeneration can be used for client as well as express traffic. Express traffic can use 2 ports of the

same card.

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Client port supports OC-192, 10GE LAN , 10GE WAN, and OTU2.

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Optional integrated OTN mapping on all interfaces (OTU2).

•

100 Mbps DCN.

•

OC-192/STM-64, OC-48/STM-16, 10 GE, 1 GE alien wave capability.

•

No required synchronization.

Summary of Contents for L-AMP

Page 1: ...Release 5 0 Cyan Inc 2013 CYAN Z Series Engineering and Planning Guide ...

Page 2: ...ght and other intellectual property rights of Cyan Inc or its licensors These materials may not be reproduced transmitted distributed modified or posted to other websites or printed without the express written permission of Cyan Inc Cyan the Cyan logo Z22 Z33 Z77 Blue Planet and other trademarks and service marks of Cyan appearing in this publication are the property of Cyan Trade names trademarks...

Page 3: ...hts Reserved P a g e 3 Naming Conventions Throughout this guide a standardized system is used to identify various functions or to stress importance to the reader Important Information that must be seriously considered Note Special suggestions advice or information that should be seriously considered ...

Page 4: ...ical circuitry and be familiar with standard practices for preventing accidents SAVE THESE INSTRUCTIONS Warning Before working on the equipment remove conductive clothing and jewelry for example rings necklaces bracelets key chains metal wristwatches and apparel with metal buttons Conductive items can cause serious burns or weld the metal object to the terminals Warning Only trained and qualified ...

Page 5: ... bottom of the rack if it is the only unit in the rack When mounting this unit in a partially filled rack load the rack from bottom to the top with the heaviest component at the bottom of the rack If the rack is provided with stabilizing devices install the stabilizers before mounting or servicing the unit in the rack Warning Never use the cable management guide to lift the chassis This is NOT the...

Page 6: ...uency interference under such circumstances the user may be requested to take appropriate countermeasures Warning This is a Class A Device and is registered for EMC requirements for industrial use The seller or buyer should be aware of this If this type was sold or purchased by mistake it should be replaced with a residential use type Warning Air Management Boards are required to meet EMI certific...

Page 7: ...er radiation Do not view directly with non attenuating optical instruments Caution This product may employ Class 1M SFP or XFP Check pluggable transceiver label for laser classification Caution Some Cyan shelf components are Electrostatic Discharge ESD sensitive devices Conform to the following rules Observe standard precautions for handling ESD sensitive devices Assume that all solid state electr...

Page 9: ...25 1 1 3 CEMi Controller Card 24 Volt 26 1 1 4 Z22 Physical 26 1 1 5 Z22 External Timing 27 1 1 6 Z22 Alarms 27 1 1 7 Z22 Shelf Power 28 1 2 Cyan Z33 Shelf 29 1 2 1 Z33 Shelf Description 31 1 2 2 Z33 Line Card Configuration Guidelines 32 1 2 3 Common Equipment Module CEMi 33 1 2 4 Z33 Timing 35 1 2 5 Z33 Alarms 36 1 2 6 Z33 Shelf Power 36 1 2 7 Z33 Physical 37 1 3 Cyan Z77 Shelf v2 37 1 3 1 Z77 Ca...

Page 10: ...faces 56 2 1 2 LAD OSC Specifications 57 2 1 3 Management 57 2 1 4 Physical 57 2 1 5 Power 58 2 1 6 Environmental 58 2 1 7 LAD Module Wavelength Assignments 58 2 1 8 LAD 2P and LAD 8i 1310nm Add Drop Port 60 2 1 9 LAD 2G 1550nm Add Drop Port 60 2 1 10 Compliance Safety 60 2 2 DTM 8 and DTM 8G Transponder Modules 61 2 2 1 DTM 8 DTM 8G System Requirements 64 2 2 2 Applications 64 2 2 3 DTM 8 Interfa...

Page 11: ... 73 2 4 6 Interfaces 73 2 4 7 Management 73 2 4 8 Physical 73 2 4 9 Power 74 2 4 10 Environmental 74 2 4 11 Standards 74 2 4 12 Compliance Safety 74 2 5 PME 216i Packet Multiplexer Module 75 2 5 1 Synchronous Ethernet 78 2 5 2 System Requirements 78 2 5 3 PME 216i Ethernet Services OAM QoS and Synchronization 78 2 5 4 PME 216i Capacity 79 2 5 5 Standards 80 2 5 6 Optical Transport 80 2 5 7 Interfa...

Page 12: ...erfaces 89 2 7 5 Management 89 2 7 6 Physical 90 2 7 7 Power 90 2 7 8 Environmental 90 2 7 9 Compliance Safety 90 2 8 TSW 10G10 Packet Aggregation and Transport Module 91 2 8 1 System Requirements 92 2 8 2 Interfaces and Optical Transport 92 2 8 3 Management 93 2 8 4 Physical 93 2 8 5 Power 93 2 8 6 Environmental 93 2 8 7 Compliance Safety 93 2 9 LAC 8 Lambda Aggregator Module 94 2 9 1 System Requ...

Page 13: ...ications 104 2 12 2 System Requirements 104 2 12 3 Management 104 2 12 4 Physical 104 2 12 5 Power 104 2 12 6 Environmental 104 2 12 7 Compliance Safety 104 2 13 DTM 100G Transponder Module 105 2 13 1 System Requirements 107 2 13 2 DTM 100G Applications 107 2 13 3 Interfaces 107 2 13 4 Optical Transport 108 2 13 5 Management 108 2 13 6 Physical 108 2 13 7 Power 108 2 13 8 Environmental 108 2 13 9 ...

Page 14: ...15 8 Power 118 2 15 9 Environmental 119 2 15 10 Compliance Safety 119 2 16 WSS 402 and WSS 404 Wavelength Selective Switch 120 2 16 1 WSS DWDM Specifications 126 2 16 2 WSS OSC Specifications 127 2 16 3 System Requirements 127 2 16 4 Physical 127 2 16 5 Power 127 2 16 6 Environmental 127 2 16 7 WSS AWG 40 Wavelength Assignments 128 2 16 8 Compliance Safety 128 2 17 Broadband Operating System Super...

Page 15: ...Guidelines 140 2 23 Optical Protection Switch 141 2 23 1 1 1 Protection 141 2 23 2 Switching Modes 142 2 23 3 Local or Remote Operation 142 2 23 4 OPS Specifications 143 2 24 XFP SFP and SFP Transceivers 143 Chapter 3 Optical Link Design 145 3 1 DWDM XFP Specifications with GFEC 145 3 2 LAD Modules 146 3 3 Dispersion Compensation Modules 151 Chapter 4 Application Configurations 153 4 1 App 1 OC 19...

Page 16: ...Transport 170 4 10 App 10 Collector Rings 171 4 11 App 11 FLX 216i Configurations 172 Chapter 5 System Power 175 5 1 Cyan Z22 Power 175 5 2 Cyan Z33 Power 176 5 3 Cyan Z77 Power 177 5 4 Fuses 177 5 5 Z77 Fuse Positions and DC Feeds 178 Chapter 6 Management Network Configuration Guidelines 181 6 1 Single Physical LAN 182 6 2 Multiple Physical LANs 185 6 3 Multiple Physical LANs and the Same IP Sub ...

Page 17: ...AMP Shelf Front View 42 Figure 9 L AMP Block Diagram 43 Figure 10 Cyan Z22 LAD 2P Module 50 Figure 11 Cyan Z Series LAD 4A Module 50 Figure 12 Cyan Z Series LAD 8i Module 50 Figure 13 Cyan Z Series LAD 40E Module 50 Figure 14 AWG 40 External Module 51 Figure 15 LAD 40E and AWG 40 Installation Example 51 Figure 16 LAD 2P LGX Passive Module 52 Figure 17 LAD 2G LGX Passive Module 52 Figure 18 LAD 2P ...

Page 18: ...Figure 41 Typical Extended Switch Configuration with PSW 618 Line Cards 87 Figure 42 Z77 TSW 10G10 Module 91 Figure 43 TSW 10G10 Configuration Example 91 Figure 44 Z77 Aggregation Comparison Using TSW 10G10 Line Cards 92 Figure 45 Cyan Z Series LAC 8 Module 94 Figure 46 LAC 8 Block Diagram 94 Figure 47 LAC 4P Wiring Example 97 Figure 48 SFT 8 Module 98 Figure 49 SFT 8 Module Trunk and Client Inter...

Page 19: ...148 Figure 77 LAD 40E VOA Control Points 150 Figure 78 Four Wave 10G Transport Application with LAD 4 LAD 4A 155 Figure 79 Eight Wave 10G Transport Application with LAD 8 A E i X 156 Figure 80 OC 48 STM 16 Transport 158 Figure 81 Application with a Pair of PME Modules Each PME Supports Two 10 GbE Trunks 159 Figure 82 Z Series 10G Ring with a Single PME Module 160 Figure 83 Multiservice Lambda Tran...

Page 20: ...86 Figure 104 Collocated Planet Operate Server with Redundant Cyan Gateway Nodes 187 Figure 105 Non Collocated Planet Operate Server and Gateway Node Separated by One or More Routers 188 Figure 106 Non Collocated Planet Operate Server with Redundant Cyan Gateway Nodes 190 Figure 107 Collocated Planet Operate Server and Cyan Nodes 192 Figure 108 Collocated Planet Operate Server with Redundant Cyan ...

Page 21: ...fer to FLX 216i Multi Rate OTN Muxponder Module starting on page 116 New in Release 4 2 Release 4 2 of the Cyan Z Series Engineering and Planning Guide includes the following new features DTM 100G 100Gbps dual slot transponder module with configurable OTU4 mapping Refer to DTM 100G Transponder Module starting on page 105 MSE 1482 line cards can be installed in a Z77 shelf or a Z77 shelf v2 support...

Page 22: ...ation and Safety Guide Cyan L AMP Installation and Safety Guide Planet Operate User Guide Cyan Packet Switching User Guide Troubleshooting and Maintenance Guide Cyan Optical Protection Switch User Guide Planet View User Guide TL 1 Reference Command Guide CLI Reference Command Guide CyAlliance Support Documentation available through Cyan Central CyLibrary at https central cyaninc com Note In this g...

Page 23: ...loyments enable service providers to scale packet services leverage existing services and infrastructure It optimizes their networks with multi layer networking using integrated 10G DWDM transport with planned 100G capacity modules A Z22 shelf equipped with Z Series trunk side PME 216i modules can be configured to support a variety of network functions including Outside Plant OSP cabinet deploymen...

Page 24: ...s Line card module slots 2 Common control module slots 2 A and B Note If the Z22 shelf is configured with an in chassis LAD 2P or LAD 2G module the module must be installed in common control slot B 1 1 equipment protection ITU timing All front access line cards and card interface connections All Z Series modules are hot swappable Power connectors Dual feed Quick Connect Terminal Block Alarm connec...

Page 25: ...ing Protection SONET SDH Protection 1 1 APS MSP UPSR SNCP 1 1 2 Z22 Card Installation Guidelines Z22 shelf slot restrictions and line card placement guidelines are shown in the tables below CEMi controller cards can only be installed in slots A and B If deploying the in chassis LAD 2P or LAD 2G module you must install the LAD module in slot B 24V Z22 Shelf The PME 216i 24V I Temp line card is iden...

Page 26: ...ger Note A dual slot DTM 100G line card installed in slots 1 and 2 does NOT provide shelf manager redundancy 1 1 3 CEMi Controller Card 24 Volt The CEMi 24V model is identical in function to the 48V CEMi controller card but is designed to operate in 24 volt applications supported by the Z22 24V shelf model Voltage range for the 24 volt CEMi card is 18 to 30 Vdc For CEMi controller card feature det...

Page 27: ... connector pinouts Pin Description 1 T1 E1 TX1_ Output 2 T1 E1 TX1_ Output 3 T1 E1 RX1_ Input 4 T1 E1 RX1_ Input 1 T1 E1 TX2_ Output 2 T1 E1 TX2_ Output 3 T1 E1 RX2_ Input 4 T1 E1 RX2_ Input 1 1 6 Z22 Alarms The Z22 platform supports system and environmental alarms System alarms include Critical Major Minor and Failsafe The environmental alarms include 4 inputs and 2 outputs Alarms are accessed th...

Page 28: ...N4_COM 9 OUT2_NO 9 OUT1_NO 10 OUT2_C 10 OUT1_C For details on configuring environmental alarms see the Cyan Z Series Troubleshooting and Maintenance Guide 1 1 7 Z22 Shelf Power Feeds 2 1 A 1 B Voltage range 48V Configuration 40 to 60 Vdc Guaranteed Operation 24V Configuration 18 to 30 Vdc Guaranteed Operation Max voltage 100 Vdc Non operational no damage Max current 48V Configuration 10 Amps 24V C...

Page 29: ...DWDM transport A Z33 system equipped with Z Series interchangeable trunk side modules can be configured to support a variety of network functions including Fully Reconfigurable Optical Add Drop Multiplexer ROADM with Optical Optical Optical OOO switching and optical pass through Standalone SONET or SDH aggregation and transport Packet switching providing advanced Layer 2 Ethernet services access g...

Page 30: ...ards into the larger capacity Z77 platform for increased aggregation and grooming The Z33 shelf provides the following key features Supports 1 to 40 lambda 10G waves in ITU grid 100 GHz DWDM channel spacing Supports CWDM 20nm spacing capability with the addition of the LAC 8 module Supports addition of 2 5G waves using SFT 8 modules Supports 2 degree East West configurations WSS 402 or 4 degree No...

Page 31: ...trol module slots 2 A and B 1 1 equipment protection ITU timing All front access line cards and card interface connections Power connectors Dual feed Quick Connect Terminal Block Alarm connectors Quick Connect Terminal Block Management connectivity RJ 45 10 100 1000Base T All shelf components are modular and can be removed and replaced in the field This provides full serviceability and a simple up...

Page 32: ... X X X X X X DTM 8G X X X X X X DTM 100G X X X X X X PME 216i X X X X X X PME 412 X X X X X X SFT 8 X X X X X X SFT 10G16 X X X X X X MSE 1482 X X X X X X FLX 216i X X X X X X WSS 402 X X X X X X WSS 404 X X X X X X LAD 4 X X X X LAD 4A X X X X LAD 8 X X X X LAD 8A X X X X LAD 8E X X X X LAD 8i X X X X LAD 8X X X X X LAD 40 X X X X LAD 40E X X X X LAC 8 X X X X Shading indicates paired slots for a...

Page 33: ... iLAN ports see BOSS Termination Module starting on page 131 Figure 4 CEMi Controller Card Note A CEMi I Temp controller card and a standard CEM C Temp controller card can be co located in the same Z33 shelf Important Multiple connections from a single CEMi controller card to different far end CEMi controller cards is supported in both point to point and ring topologies However multiple connection...

Page 34: ...ed locally to the customer s management network To Outside Fiber Plant To Outside Fiber Plant MSE 1482 10G OTN Fiber Ports MSE 1482 1000Base F Copper Ports CEMi iLAN Port Slot B CEMi iLAN Port Slot A Figure 5 CEMi and MSE 1482 Configuration Traffic via EoS The next figure shows an example of using two CEMi controller cards and two MSE 1482 line cards to transport management traffic to a gateway no...

Page 35: ...ule 1310 1550nm LGX is installed in an LGX shelf For details on installing the LGX shelf and LGX compatible modules see the Cyan Z33 Installation and Safety Guide or the Cyan Z77 Installation and Safety Guide CEMi Specifications Power consumption 8 Watts typical 10 Watts maximum Weight 0 96 lbs 435 grams Height 5 8 147 mm Depth 11 5 292 mm Width 0 9 23 mm Timing Stratum 3 Craft 1 x 10 100 1000Base...

Page 36: ...s the connector pinouts for the system and environmental alarms System Alarm Connector Pinout Environmental Alarm Connector Pinout Pin Description Pin Description 1 CRIT_NO 1 OUT1_NO 2 CRIT_C 2 OUT1_C 3 MAJ_NO 3 OUT2_NO 4 MAJ_C 4 OUT2_C 5 MIN_NO 5 IN1_ 6 MIN_C 6 IN1_COM 7 AUD_NO 7 IN2_ 8 AUD_C 8 IN2_COM 9 FAIL_NC 9 IN3_ 10 FAIL_C 10 IN3_COM 11 ACO_ 11 IN4_ 12 ACO_COM 12 IN4_COM For details on conf...

Page 37: ...s for management DWDM CWDM and client services insert in the sixteen front slots All Z Series modules are hot swappable Up to three Z77 shelves can be installed into a typical seven foot equipment rack All system functionalities are modular so that each node has the optimal mix of optical bandwidth service interfaces and service aggregation grooming Z77 shelf v2 configurations range from dense opt...

Page 38: ...ards the Z77 shelf must be configured with XC 2800 switch fabric modules For additional information see XC 2800 Switch Fabric starting on page 135 Z77 shelves should be installed in accordance with the Cyan Z77 Installation and Safety Guide This ensures correct installation of modules all associated wire management power and grounding requirements and related components Note The Z77 shelf v2 requi...

Page 39: ...Optical 4 degree 40 channel ROADM 4 8 or 40 channel C Band Terminal Mux Tunable or Fixed wavelength transceiver options Redundancy and Protection Redundant fans Redundant power connections Equipment protection 1 1 for all common cards and service modules 1 3 for multi technology switch fabric modules Carrier Ethernet Protection IEEE 802 3ad Link Aggregation IEEE 802 3Qay Path Protection ITU T G 80...

Page 40: ...AD 8E X X X X X X X X X X X X X X LAD 8i X X X X X X X X X X X X X X LAD 8X X X X X X X X X X X X X X X LAD 40 X X X X X X X X X X X X X X LAD 40E X X X X X X X X X X X X X X LAC 8 X X X X X X X X X X X X X X PME 412 X X X X X X X X X X X X X X PME 216i X X X X X X X X X X X X X X TSW 10G10 X X X X X X X X X X X X X X PSW 10G10 X X X X X X X X X X X X X X PSW 618 X X X X X X X X X X X X X X SFT 8 ...

Page 41: ...ust size fuses according to NEC standards or local site practice 1 3 3 Z77 Physical Height 22 75 577 8 mm 13RU Width 21 00 533 4 mm 23 600 mm compatible Depth 21 00 533 4 mm Weight 98 lbs 44 5 kg Common control slots 2 Line card slots 14 Fabric slots 4 Power Entry Modules 2 Operating temperature 32 F to 122 F 0 C to 50 C 1 3 4 Z77 Timing Stratum 3 compliant timing subsystem Redundant DS1 and 2MHz ...

Page 42: ...plifier EDFA for transmission to an upstream Cyan Z Series platform The shelf also provides a 1510nm add drop port to support an Optical Supervisory Channel OSC carrying Ethernet traffic for OAM The L AMP shelf has all access on the front It is designed to fit into 19 inch equipment racks but has extension mounting brackets for 23 inch rack installation Figure 8 L AMP Shelf Front View Connectors o...

Page 43: ... Channel RX Mon RX Tap TX Mon TX Tap RX Mon RX Tap TX Mon West East 1510nm Add 1510nm Drop 1 Tap 1 Tap 1510nm Add 1510nm Drop Figure 9 L AMP Block Diagram 1 4 1 L AMP Shelf Pinouts The L AMP shelf pinouts for the input and output alarms connector are shown in the following tables Input Alarms Connector Output Alarms Connector Pin Description Pin Description 8 IN3_COM 8 FAIL_COM 7 IN3_ 7 FAIL_NC 6 ...

Page 44: ...ber interfaces Optical Supervisory Channel OSC 100Base FX Ethernet at 1510nm Physical Front access Optical Specifications Channels Frequency 40 C band optical channels on 100 GHz ITU 1530 33 to 1561 42nm 1510nm Optical Supervisory Channel OSC 100Base FX Ethernet Minimum BER 1x10 12 DWDM Power Output 40 Channels 13 0 dBm 3 dBm per channel Laser Safety Class 1 Laser Shutdown Restart automatic ITU T ...

Page 45: ...t an Out of Range High notification will be displayed in Planet Operate in the Transport Resources tab for the L AMP OSC 1 4 4 L AMP Features All access on front panel 1RU x 19 inches wide with mounting brackets for 23 inch racks 40ch OSC 80 km amplifier Remotely managed via OSC Craft interface Management LAN available for other devices Four alarm input output contacts Mid stage DCM access and mon...

Page 46: ...tage Range 40 to 60 Vdc Guaranteed Operation Max Voltage 100 Vdc Non operational no damage Power Consumption 50 W 80 W Typical Maximum Max Current 2 Amps 1 4 8 L AMP Compliance NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Certified 60950 FCC Subpart B Part 15 Class A RoHS compliant ...

Page 47: ...to muxpond and transpond certain services the Z Series supports a complete range of transport requirements Driven by IPTV VOD 2 3 4G wireless backhaul carrier Ethernet and scaling Internet services the Z Series grooms services into discrete high capacity 10G wavelengths As services scale the Z Series platform provides the option to transport multiple 10G wavelengths per fiber using Dense Wavelengt...

Page 48: ...cket Switching User Guide In This Chapter LAD Modules 49 DTM 8 and DTM 8G Transponder Modules 61 2 5G LME4 Multiplex Transponder Module 66 PME 412 Packet Multiplexer Module 69 PME 216i Packet Multiplexer Module 75 PSW 10G10 Packet Module 82 PSW 618 Packet Module 87 TSW 10G10 Packet Aggregation and Transport Module 91 LAC 8 Lambda Aggregator Module 94 LAC 4P Lambda Aggregator CWDM Terminal Multiple...

Page 49: ...hird party systems if an out of band DCN network is required Note The LAD 2P and LAD 2G modules deployed in Z22 systems do not provide an OSC In Z22 configurations the PME 216i line card has an in band management channel to provide inter node communication Several versions of the optical LAD modules are available LAD 2P 2 channel I Temp Note The LAD 2P module provides East and West DWDM add drop c...

Page 50: ...ge 145 Note LAD 8 to LAD 8A links are not supported LAD 40 and LAD 40E Modules Paired with the AWG 40 LAD 40 and LAD 40E modules require an associated AWG 40 Array Wave Guide module for add drop traffic Individual wavelengths are added and or dropped using the passive AWG 40 2RU module The AWG 40 provides the ability to multiplex and de multiplex any of the 40 channels supported by a LAD 40 or LAD...

Page 51: ...on a 3dB loopback attenuator must be connected to the LAD 40E Mid stage port The loopback attenuator is provided as part of the LAD 40E Fiber Jumper Kit For additional information on available DCMs see Dispersion Compensation Modules starting on page 151 in this guide The configuration example below shows two LAD 40E modules installed in a Z33 shelf and connected to two AWG 40 modules and DCMs Z33...

Page 52: ... port typically used for local client side interfaces The client side equipment may include various types of SONET SDH Ethernet or OTN interfaces operating at the 1310nm wavelength The LAD 8i and LAD 2P 1310nm add drop ports are located on the module faceplate LAD 2G LGX Module The LAD 2G LGX is an external terminal multiplexer designed to be used in OEO networks The module is housed in an industr...

Page 53: ...P LGX and the LAD 2G LGX modules are installed without tools into the LGX shelf frame You can mount up to three LGX compatible modules into a single LGX shelf frame For installation instructions see the Cyan Z22 Installation and Safety Guide LAD Module Block Diagrams The graphics below show the block diagrams for all of the Z Series LAD modules 1310nm Drop Add 1310nm LAD 2P OADM 1 1 2 2 2 1 1 2 Fi...

Page 54: ...ing Guide Release 5 0 P a g e 54 2013 Cyan Inc All Rights Reserved 700 0023 05 00 Rev 1 LAD 4A Figure 21 LAD 4A Block Diagram LAD 8 Figure 22 LAD 8 Block Diagram LAD 8i Figure 23 LAD 8i Block Diagram LAD 8A Figure 24 LAD 8A Block Diagram ...

Page 55: ...ineering and Planning Guide Release 5 0 700 0023 05 00 Rev 1 2013 Cyan Inc All Rights Reserved P a g e 55 LAD 8E Figure 25 LAD 8E Block Diagram LAD 8X Figure 26 LAD 8X Block Diagram LAD 40 Figure 27 LAD 40 Block Diagram ...

Page 56: ...are compatible with both the Z22 24V shelf model and the Z22 48V shelf model The LAD 8X module requires software version Release 4 0 and higher for both the Z33 and Z77 platforms 2 1 1 Functional Interfaces Input Up to 2 4 8 or 40 10G DWDM channels Output Up to 2 4 8 or 40 ITU 694 1 wavelengths Channel spacing 100 GHz Optical Supervisory Channel OSC 100Base FX Ethernet at 1510nm Note The LAD 2P an...

Page 57: ...e If you are using CyOS 3 x RX power at 10 dBm or higher will raise a High RX power alarm If you are using CyOS 4 x or higher RX power at 10 dBm or higher does not raise a High RX power alarm but an Out of Range High notification will be displayed in Planet Operate in the Transport Resources tab for the LAD OSC 2 1 3 Management DCN connectivity A Z circuit provisioning using Planet Operate SNMP v2...

Page 58: ...AD 2P and LAD 2G modules are powered via the shelf CEMi module Note The AWG 40 module used in conjunction with the LAD 40 and LAD 40E modules is a passive device 2 1 6 Environmental Operating Temperature LAD 4 LAD 4A LAD 8 LAD 8A LAD 8X 32 F to 122 F 0 C to 50 C LAD 40 LAD 40E 32 F to 131 F 0 C to 55 C LAD 8i LAD 2P LAD 2G I Temp 40 F to 149 F 40 C to 65 C 5 to 85 operating relative humidity non c...

Page 59: ... LAD 40E Wavelength nm ITU Channel LAD 40 LAD 40E Wavelength nm ITU Channel 1 1560 61 21 21 1544 53 41 2 1559 79 22 22 1543 73 42 3 1558 98 23 23 1542 94 43 4 1558 17 24 24 1542 14 44 5 1557 36 25 25 1541 35 45 6 1556 55 26 26 1540 56 46 7 1555 75 27 27 1539 77 47 8 1554 94 28 28 1538 98 48 9 1554 13 29 29 1538 19 49 10 1553 33 30 30 1537 40 50 11 1552 52 31 31 1536 61 51 12 1551 72 32 32 1535 82 ...

Page 60: ...50nm 1270nm 1350nm Mux Demux pair insertion loss 2 4 dB maximum 3 0 dB maximum 2 1 9 LAD 2G 1550nm Add Drop Port LAD 2G Wavelength range 1530 33nm 1565nm Mux Demux pair insertion loss 3 6 dB maximum 2 1 10 Compliance Safety NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Certified 60950 FCC Subpart B Part 15 Class A RoHS ...

Page 61: ...TM 8G module also functions as a quad OTU2 regenerator and supports express traffic Figure 29 Cyan Z Series DTM 8 Module The graphics below show the DTM 8 and DTM 8G transponder functional block diagrams 3R Regen OTN Mapping Up to 4 10G Client Interfaces XFPs Up to 4 OTU2 OTU2e Up to 4 OC 192 STM 64 Up to 4 10GbE LAN Up to 4 OTU1e Any Combination of Up to 4 10G Trunk Interfaces DWDM XFPs Up to 4 O...

Page 62: ...mination Module DTM 8 P1 10G DWDM XFP Tx Rx P2 10G DWDM XFP Tx Rx P3 10G DWDM XFP Tx Rx P4 10G DWDM XFP Tx Rx P5 10G DWDM XFP Tx Rx OC192 STM64 10GBE G 709 Framer P6 10G DWDM XFP Tx Rx OC192 STM64 10GBE G 709 Framer P7 10G DWDM XFP Tx Rx OC192 STM64 10GBE G 709 Framer P8 10G DWDM XFP Tx Rx OC192 STM64 10GBE G 709 Framer OC192 STM64 10GBE G 709 Framer OC192 STM64 10GBE G 709 Framer OC192 STM64 10GB...

Page 63: ...ital Termination Module DTM 8G P1 10G Serdes 10G DWDM XFP Tx Rx OC192 STM64 G 709 Framer P2 10G Serdes 10G DWDM XFP Tx Rx P3 10G Serdes 10G DWDM XFP Tx Rx P4 10G Serdes 10G DWDM XFP Tx Rx P5 10G DWDM XFP Tx Rx 10GBE G 709 Framer P6 10G DWDM XFP Tx Rx 10GBE G 709 Framer P7 10G DWDM XFP Tx Rx 10GBE G 709 Framer P8 10G DWDM XFP Tx Rx 10GBE G 709 Framer OC192 STM64 G 709 Framer ...

Page 64: ...with G 709 digital wrapper Up to 4 OTU2e overclocked 11 0957 Gbps Up to 4 OTU1e 11 0491 Gbps G 975 Generic Forward Error Correction GFEC G 975 Enhanced Forward Error Correction EFEC G 975 1 APP4 Physical Front access fixed wavelength XFP optics Transponder and regeneration functions in conjunction with LAD family modules OEO Add Drop full OTN and 3R regeneration re shape re time re transmit with O...

Page 65: ...bs 2 08 kg 2 2 7 DTM 8 DTM 8G Power Dual 48V DC power feeds to module slots DTM 8 power consumption 75 watts typical 96 watts maximum DTM 8G power consumption 85 watts typical 95 watts maximu 2 2 8 DTM 8 DTM 8G Environmental 32 F to 122 F 0 C to 50 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitude 2 2 9 DTM 8 DTM 8G Compliance Safety NEBS 3 Cer...

Page 66: ...abric are not required for the Z22 or the Z33 shelf The Release 4 0 or higher XC 2800 switch fabric consists of four individual switch fabric modules installed in the Z77 horizontal EFM slots For additional information on the XC 2800 see XC 2800 Switch Fabric starting on page 135 For additional information on the RCMs see Ring Closure Modules starting on page 135 The graphic below shows the 2 5G L...

Page 67: ...The graphic below shows the 2 5G LME4 module block diagram 2 3 1 System Requirements Cyan Z22 48V shelf Cyan Z33 Cyan Z77 2 3 2 Interfaces Client side interfaces SFP pluggable Up to 4 OC 48 or STM 16 Up to 4 OTU1 Trunk side interface XFP pluggable 1 OTU2 with G 709 digital wrapper G 975 Generic Forward Error Correction GFEC ...

Page 68: ...ing using Planet Operate SNMP v2 CLI TL1 2 3 4 Physical Module dimensions Depth 11 6 295 mm Width 1 2 30 5 mm Height 13 8 350 mm Weight 4 lbs 1 8 kg 2 3 5 Power Dual 48V DC power feeds to module slots Power consumption 55 watts typical 65 watts maximum 2 3 6 Environmental 32 F to 122 F 0 C to 50 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitude...

Page 69: ...an disable auto negotiation and provision the port speed to 10 100 or 1000 Mbps Line sensing of Media Dependent Interface MDI and Media Dependent Interface with Crossover MDIX in copper SFP port connections is automatic Ring Closure Modules RCMs or the Release 4 0 or higher XC 2800 switch fabric modules are required and must be installed in the Z77 horizontal Electrical Fabric Module EFM slots to ...

Page 70: ...or the traffic carrying PME interfaces are not fiber patched to an installed LAD or WSS AWG module set the 10G ETH OTN Fiber Port Signal Type parameter General sub tab to 10GE LAN default If you have a Z22 shelf with a PME line card the Z22 LAD 2P and LAD 2G do not provide an OSC set the 10G ETH OTN Fiber Port Signal Type parameter to 10GE LAN When the PME 10G fiber port is provisioned with a sign...

Page 71: ...iming references for the system clock or derived T1 E1 timing Ability to terminate the Ethernet Synchronization Messaging Channel ESMC to transmit and receive Synchronization Status Messages SSM Transmit Ethernet signals that are synchronous to the system clock SyncE must be enabled on a per Ethernet port basis SyncE is disabled by default When SyncE is enabled on any given Ethernet port 1GE or 10...

Page 72: ...apping o DSCP to CoS mapping Egress shaping 8 class of service queues per port Egress scheduling Strict Priority Weighted Round Robin WRR Deficit Weighted Round Robin DWRR Synchronous Ethernet SyncE 2 4 4 PME 412 Capacity MAC Addresses 32 000 VLANs with independent VLAN learning 4 096 Note The VLAN range is 0 to 4095 VLAN 0 is priority tagged Provisionable VLAN range is 1 to 4094 VLAN 4095 is rese...

Page 73: ...2 10G OTU2e XFP Up to 2 10G OTU1e XFP Up to 12 GbE SFP Up to 2 10GbE backplane interfaces for module to module Ethernet switching and protection Physical Front access fixed wavelength XFP optics Note Recently introduced Cyan single fiber XFP and SFP transceiver modules are designed specifically for datacomm applications These transceiver modules do not support OTU2 signal types Note Configuring 10...

Page 74: ...y non condensing 13 000 feet 4 000 m altitude 2 4 11 Standards MAC bridging IEEE 802 1D VLANs IEEE 802 1Q Q in Q IEEE 802 1ad Provider Backbone Bridging PBB IEEE 802 1ah Provider Backbone Bridging Traffic Engineering PBB TE IEEE 802 1Qay Spanning tree IEEE 802 1D Multiple Spanning Tree IEEE 802 1s Rapid Spanning Tree IEEE 802 1w Link OAM IEEE 802 3ah Clause 57 Connectivity Fault Management IEEE 80...

Page 75: ...rovides 60 Gbps of Ethernet switching capacity Connect a PME 216i line card to another PME 216i line card across the backplane via a 20G interface to form a protection pair of line cards supporting Link Aggregation Groups LAG and sub 50 ms restoration The PME 216i module supports VLANs at both the provider 802 1ad and customer 802 1Q level for advanced Ethernet services Support for Provider Backbo...

Page 76: ... a protected TESI using a pair of PME 216i modules Note For PME 216i applications the Z77 shelf is typically configured with four RCMs or a Release 4 0 or higher Z77 shelf equipped with the XC 2800 switch fabric All four RCMs or XC 2800 switch fabric modules must be installed in the Z77 horizontal EFM slots RCMs and XC 2800 switch fabric modules are not required for the Z22 or the Z33 shelf The Re...

Page 77: ...e or the traffic carrying PME interfaces are not fiber patched to an installed LAD or WSS AWG module set the 10G ETH OTN Fiber Port Signal Type parameter General sub tab to 10GE LAN default If you have a Z22 shelf with a PME line card the Z22 LAD 2P and LAD 2G do not provide an OSC set the 10G ETH OTN Fiber Port Signal Type parameter to 10GE LAN When the PME 10G fiber port is provisioned with a si...

Page 78: ...ernet Synchronization Messaging Channel ESMC to transmit and receive Synchronization Status Messages SSM Transmit Ethernet signals that are synchronous to the system clock SyncE must be enabled on a per Ethernet port basis SyncE is disabled by default When SyncE is enabled on any given Ethernet port 1GE or 10GE its ESMC channel is activated which allows the transmission and reception of SSM Additi...

Page 79: ...est Methodology Y 1564 formally Y 156sam o Hardware capable software support in a future Release QoS Ingress per service policing o Two Rate Three Color Marker o Metering granularity from 1 Mbps to 10 Gbps in 64 Kbps increments o Ethernet P bit priority to CoS mapping o DSCP to CoS mapping Egress shaping o 8 class of service queues per port Egress scheduling Strict Priority Weighted Round Robin WR...

Page 80: ...EE 802 1D Multiple Spanning Tree IEEE 802 1s Rapid Spanning Tree IEEE 802 1w Link OAM IEEE 802 3ah Clause 57 Connectivity Fault Management IEEE 802 1ag OAM functions and mechanisms for Ethernet based networks ITU T Y 1731 2 5 6 Optical Transport Up to 2 10GbE rings per module or Up to 2 10G OTU2 10 709 Gbps trunk interfaces per module or Up to 2 10G OTU2e 11 0957 Gbps trunk interfaces per module o...

Page 81: ...dule dimensions Depth 11 6 295 mm Width 1 2 30 5 mm Height 13 8 350 mm Weight 4 25 lbs 1 93 kg 2 5 10 Power Dual 48V DC power feeds to module slots Z22 48V DC model Z33 and Z77 Dual 24V DC power feeds to module slots Z22 24V DC model Power consumption 67 watts typical 97 watts maximum Note This reflects the typical power requirements of 2 XFP and 16 SFP transceivers 2 5 11 Environmental 40 F to 14...

Page 82: ...dule is deployable in Z77 shelves The transport module supports COE transport with Provider Backbone Bridging with Traffic Engineering PBB TE functionality per IEEE 802 1Qay including E LAN and E VLAN services Each PSW 10G10 module interconnects with other modules through a 2 8 Tbps Ethernet and OTN switching fabric XC 2800 in the 14 slot Z77 chassis The PSW 10G10 module supports VLANs at both the...

Page 83: ...SW 10G10 block diagram Applications 10 GbE client interfaces to routers and other network elements Interface module for chassis wide 2 8 Tbps Ethernet switch fabric 10 GbE switching function with OTU2 for transport over OEO or ROADM optical networks Advanced aggregation and E Line E LAN MEF services Achieving transport grade SLAs with packet services ...

Page 84: ...nnel The PSW 10G10 module provides an optional in band management channel of up to 100 Mbps in bandwidth If the Z77 shelf is configured with a PSW 10G10 line card and the shelf does not have a LAD or WSS AWG module or the traffic carrying PSW interfaces are not fiber patched to an installed LAD or WSS AWG module set the 10GE OTU2 Fiber Port Signal Type parameter General sub tab to 10GE LAN default...

Page 85: ...2v2 with sub 50ms switch times Spanning tree IEEE 802 1D multiple spanning tree IEEE 802 1s and Rapid Spanning Tree IEEE 802 1w support planned for a future release P bit priority QoS IEEE 802 1p 8 class of service queues per port 2 6 3 Optical Transport 4 x 10 GbE XFP plus 6 x 10 GbE SFP All ports support optional OTU2 ITU T G 975 Generic Forward Error Correction GFEC and Enhanced Forward Error C...

Page 86: ... 150 watts typical 180 watts maximum 2 6 8 Environmental 32 F to 122 F 0 C to 50 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitude 2 6 9 Compliance Safety NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Certified 60950 FCC Subpart B Part 15 Class A RoHS compliant ...

Page 87: ...ase the PSW 618 module is deployable in Z77 shelves Each PSW 618 module is inter connected with other modules through a 2 8 Tbps Ethernet and OTN switching fabric XC 2800 in the 14 slot Z77 chassis Other modules supported by the XC 2800 switch fabric include the PSW 10G10 and TSW 10G10 The PSW 618 module supports VLANs at both the provider IEEE 802 1ad and customer IEEE 802 1Q level for advanced E...

Page 88: ... trunk 5 6dB link improvement OTU2 service identifiers on DWDM trunks for granular tracking and visibility Span by span per service transmit and receive performance monitoring with 15 min and 24 hr PM statistics Supports removable SFP and SFP for client interface reach flexibility PSW 618 In Band Management Channel The PSW 618 module provides an optional in band management channel of up to 100 Mbp...

Page 89: ...riented Ethernet COE support Provider Backbone Bridging IEEE 802 1ah Provider Backbone Bridging Traffic Engineering IEEE 802 1Qay Ethernet Ring Protection ITU T G 8032v2 with sub 50ms switch times Spanning tree IEEE 802 1D multiple spanning tree IEEE 802 1s and Rapid Spanning Tree IEEE 802 1w support planned for a future release P bit priority QoS IEEE 802 1p 8 class of service queues per port 2 7...

Page 90: ...al 48V DC power feeds to module slots Power consumption 150 watts typical 180 watts maximum 2 7 8 Environmental 32 F to 122 F 0 C to 50 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitude 2 7 9 Compliance Safety NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Certified 6...

Page 91: ...andwidth Working in conjunction with the XC 2800 switch fabric in a Z77 shelf the TSW 10G10 and the switch fabric interface supports connection oriented transport for TESI cross connections The XC 2800 switch fabric is fully non blocking across all 14 Z77 line card slots For additional information on the XC 2800 see XC 2800 Switch Fabric starting on page 135 Figure 42 Z77 TSW 10G10 Module The grap...

Page 92: ...gh 10 TSW 10G10 line cards can aggregate nine rings per card pair TSWs are any to any port any slot PME line cards provide the UNI interfaces PME line cards do not connect to the TSW line cards across the backplane PME 412 line cards slots 3 and 4 TSW 10G10 line cards slots 5 through 8 Figure 44 Z77 Aggregation Comparison Using TSW 10G10 Line Cards 2 8 1 System Requirements Cyan Z77 software versi...

Page 93: ... 2 177 kg 2 8 5 Power Dual 48V DC power feeds to module slots Power consumption 140 watts typical 175 watts maximum Note This reflects the typical power requirements of 4 XFP and 6 SFP transceivers 2 8 6 Environmental 32 F to 122 F 0 C to 50 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitude 2 8 7 Compliance Safety NEBS 3 Certified GR 63 CORE GR...

Page 94: ... regeneration This is achieved through the optical add drop capability for up to eight 2 5G wavelengths at each node on a ring or a linear network The LAC 8 module provides transponding and muxponding in conjunction with SFT 8 modules LAC modules support multiplexing and demultiplexing of wavelengths associated with Cyan Z Series transponders muxponders Ethernet switch transport modules third part...

Page 95: ...using Planet Operate SNMP v2 CLI TL1 2 9 4 Physical Module dimensions Depth 11 6 295 mm Width 1 2 30 5 mm Height 13 8 350 mm Weight 4 lbs 1 8 kg 2 9 5 Power Dual 48V DC power feeds to module slots LAC 8 power consumption 10 watts typical 12 watts maximum 2 9 6 Environmental 32 F to 122 F 0 C to 50 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitu...

Page 96: ...96 2013 Cyan Inc All Rights Reserved 700 0023 05 00 Rev 1 2 9 8 Compliance Safety NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Certified 60950 FCC Subpart B Part 15 Class A RoHS compliant ...

Page 97: ...ible shelf You can mount up to three units into a single LGX passive shelf The LAC 4P CWDM modules is deployable in incremental steps Operators can start out with a 1x4 CWDM multiplexer and as demand grows add an additional 1x4 LGX packaged CWDM module to reach 8 wavelengths Add Additional modules by simply daisy chaining the units using the LAC 4P Express and Common ports The graphic below shows ...

Page 98: ...Interfaces SFPs Up to 4 OC 3 12 48 Up to 4 STM 1 4 16 Up to 4 100FX GbE Up to 4 1G 2G FC FICON Up to 4 ESCON ISC 1 ISC 3 Any Combination of Transponding 3R Regen Up to 2 5G wavelengths Figure 49 SFT 8 Module Trunk and Client Interfaces SFT 8 modules provide support for both CWDM and DWDM depending on the type of SFP transceiver configured DWDM is supported in conjunction with LAD 40 LAD 40E or LAD...

Page 99: ...Cyan Z Series Engineering and Planning Guide Release 5 0 700 0023 05 00 Rev 1 2013 Cyan Inc All Rights Reserved P a g e 99 The graphic below shows the block diagram for the Z Series SFT 8 module ...

Page 100: ...ON Up to 4 ESCON ISC 1 and ISC 3 Physical Front access fixed wavelength XFP optics Line rate SFP ports Minimum 10 Mbps Maximum 2 7 Gbps Transponder and regeneration functions in conjunction with Z Series LAD and LAC modules OEO Add Drop full 3R regeneration re timing re shaping re transmit 2 11 3 Management Planet Operate SNMP v2 CLI TL1 2 11 4 Physical Module dimensions Depth 11 6 295 mm Width 1 ...

Page 101: ...tal 32 F to 122 F 0 C to 50 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitude 2 11 7 Compliance Safety NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Certified 60950 FCC Subpart B Part 15 Class A RoHS compliant ...

Page 102: ...tible with the Cyan Z22 48V shelf Z33 and Z77 shelves Works in conjunction with Z Series LAD modules Client interfaces supported GbE 1 Gbps 10 GbE LAN PHY 10 3 Gbps 10 GbE WAN PHY 9 9 Gbps SONET OC 48 SDH STM 16 2 5 Gbps SONET OC 192 SDH STM 64 9 9 Gbps Fibre Channel 1G FICON 1 1 Gbps Fibre Channel 2G FICON 2G 2 1 Gbps Fibre Channel 4G 4 3 Gbps Fibre Channel 8G 8 5 Gbps Fibre Channel 10G Serial 10...

Page 103: ... a large number of SFT 10G16 regenerations Ultra low latency 5 ns for time sensitive applications 2R regeneration re shaping and re transmit This mode is limited to two SFT 10G16 regenerations and is typically used in point to point or low hop count configurations Loopback support on all trunk and client interfaces for transmission testing Passive 1 1 optical protection provided on client and trun...

Page 104: ...an Z33 software Release 4 0 or higher Cyan Z77 software Release 4 0 or higher 2 12 3 Management Planet Operate SNMP v2 CLI and TL1 2 12 4 Physical Module dimensions Depth 11 6 295 mm Width 1 2 30 5 mm Height 13 8 350 mm Weight 5 8 lbs 2 631 kg 2 12 5 Power Dual 48V DC power feeds to module slots SFT 10G16 power consumption 75 watts typical 80 watts maximum 2 12 6 Environmental 32 F to 122 F 0 C to...

Page 105: ...ispersion PMD The DTM 100G module receives a C Form Factor Pluggable CFP based 100 GbE and generates a 100 Gbps ITU grid wave On the client side the DTM 100G module accepts either 100GE or OTU4 GFEC and re maps the client signal into an OTU4 on the line side The line side OTU4 is encoded with either standard G 709 GFEC or a higher gain HG FEC The integrated transport functionality includes the fol...

Page 106: ...Series DTM 100G module Figure 54 DTM 100G Transponder Block Diagram The DTM 100G transponder module provides the following features and benefits Cyan Z22 Z33 and Z77 compatible for common sparing inventory and operational consistency 100G DWDM transponder interface OIF and ITU standards based Loopback support on both DWDM trunk and client interfaces Flexible pluggable client optics with CFP suppor...

Page 107: ...Release 4 2 or higher 2 13 2 DTM 100G Applications The DTM 100G transponder module provides a 100G ITU wave for DWDM transport with optional 100G OTU4 mapping for enhanced performance and management in Z Series multi layer transport platforms The DTM 100G module transports 100G waves over a DWDM network that is typically all optical such as point to point or a ROADM network The module is typically...

Page 108: ...cross multi layer OTN and DWDM G 709 and OTN support on all DWDM interfaces DCM connectivity SNMP v2 CLI TL1 EMS based integration creates end to end OAM regardless of topology or packet OTN mixed links Guarantees and verifies SLA conformance 2 13 6 Physical Module dimensions Depth 11 6 295 mm Width 1 2 30 5 mm Height 13 8 350 mm Weight 8 94 lbs 4 06 kg 2 13 7 Power Dual 48V DC power feeds to modu...

Page 109: ...05 00 Rev 1 2013 Cyan Inc All Rights Reserved P a g e 109 2 13 9 Compliance Safety NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Certified 60950 FCC Subpart B Part 15 Class A RoHS compliant ...

Page 110: ...lation OTU2 4 OC 48 or STM 16 interfaces 8 OC 3 OC 12 STM 1 or STM 4 interfaces any combination 2 Gigabit Ethernet interfaces supporting Ethernet over SONET SDH EoS The module supports STS 1 Nc level aggregation and grooming with transport for maximum operational efficiency Two equipped MSE 1482 modules provide for 1 1 equipment protection The MSE 1482 also supports optional UPSR SNCP ring protect...

Page 111: ...RCMs must be installed in the horizontal EFM slots RCMs are not required for the Z22 or Z33 shelf For additional information on the RCMs see Ring Closure Modules starting on page 135 You can install MSE 1482 line cards in a Z77 shelf supported by the XC 2800 switch fabric The XC 2800 switch fabric module provides supports the MSE 1482 in a standalone muxponder configuration However the XC 2800 swi...

Page 112: ...g channel has recovered from the failure The figure below shows an example of UPSR SNCP Path protection and Line protection 1 1 unidirectional configurations OC 3 12 48 Line Protection 1 1 Unidirectional OC 3 12 48 UPSR SNCP Path Protection UPSR SNCP OC 3 12 48 UPSR SNCP OC 3 12 48 Line Protection 1 1 Unidirectional Figure 58 MSE 1482 Path UPSR or SNCP and Line Protection For detailed information ...

Page 114: ...48 or STM 16 Up to 8 OC 3 OC 12 or STM 1 STM 4 Up to 2 GbE EoS Trunk side interface XFP pluggable 1 OTU2 OTU2 ODU2 with G 709 digital wrapper G 975 Generic forward error correction GFEC G 975 1 Appendix 7 Ultra forward error correction UFEC Physical Front access fixed wavelength XFP optics 2 14 4 GbE Support Gigabit Ethernet over SONET SDH EoS mapped GFP 2 14 5 Timing Synchronization Freerun Strat...

Page 115: ...8V DC power feeds to module slots MSE 1482 power consumption 90 watts typical 100 watts maximum 2 14 9 Environmental 32 F to 122 F 0 C to 50 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitude 2 14 10 Compliance Safety NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Cert...

Page 116: ...ace A maximum of eight OC 48 STM 16 interfaces can be mapped to 2 x OTU2 20G The FLX 216i module also provides non blocking OTN cross connect function across all the ports on a module The cross connect function is performed at the ODU0 and ODU1 levels Trunk port to trunk port cross connections are also supported The FLX 216i OTN muxponder module provides the following features and benefits Aggrega...

Page 117: ...ion of supported signal types in either set of eight client ports the total data rate for each set after mapping into ODU0 1 25G and ODU1 2 5G cannot exceed 10G For example a 10G OTN mapper supports eight ODU0 or four ODU1 client signals Note The block diagram above reflects support for card to card traffic which is not supported in Release 4 3 and 5 0 The FLX 216i module in Release 4 3 and 5 0 su...

Page 118: ...Uflex planned for a future Release 2 15 5 Optical Transport Up to two 10G OTU2 signals per module G 709 RS FEC 6 2 dB coding gain G 975 1 Annex 1 4 Strong FEC 8 9 dB coding gain G 975 1 Annex 1 7 Strong FEC 8 4 dB coding gain planned for a future Release 2 15 6 Management Planet Operate A Z circuit provisioning using Planet Operate SNMP v2 CLI TL1 G 709 and OTN support on all DWDM interfaces EMS b...

Page 119: ...al 40 F to 149 F 40 C to 65 C operating temperature 5 to 85 operating relative humidity non condensing 13 000 feet 4 000 m altitude 2 15 10 Compliance Safety NEBS 3 Certified GR 63 CORE GR 1089 UL CSA Listed UE CE Marked EN 60950 EN 55022 EN 6 1000 ETSI EN 300 386 V 1 3 3 CB Scheme Certified 60950 FCC Subpart B Part 15 Class A RoHS compliant ...

Page 120: ...tivation The WSS 402 and WSS 404 modules dynamically balance all wavelengths at 100 GHz spacing on the ITU grid Both of the Cyan WSS modules also supply channel monitors integrated management through an in band Optical Supervisory Channel OSC and DCN management connectivity to provide node to node communications A facility for mid span dispersion compensation is available as well an express port f...

Page 121: ...e Cyan DCMs are based on Fiber Bragg Gratings FBGs and exhibit lower loss than standard fiber based DCMs The DCMs are housed in a standard LGX module allowing three DCMs to be installed in a 1RU 19 inch rackmount shelf frame The DCMs are connected to a WSS module Mid stage port using a fiber jumper Note If a DCM is required with a WSS module you must use a Fiber Bragg Grating DCM If a DCM is not r...

Page 122: ...nd TX Paths WSS 404 Four Degree Optical Switching The WSS 404 allows you to automatically control a wavelength to be routed to any of the four directions of a multi degree ROADM node Four WSS 404 modules are required to support a four degree optical switching configuration that is a WSS 404 is required per direction East West North or South Express channels are transmitted to the external optical ...

Page 123: ...ur degree optical switching East West North and South Figure 65 WSS 404 Four Degree Optical Switching The OFX 4 module is a passive device that allows inter connectivity for up to four WSS 404 modules The OFX 4 contains the fiber mesh for interconnection of fibers between the four WSS 404 modules Each WSS 404 has a direct point to point fiber connection to the other three WSS 404 modules To simpli...

Page 124: ... Modular additions and channel count selection allows right sizing and cost optimization In service upgrades from 8 wavelength LAD 8 LAD 8i LAD 8A LAD 8E and LAD 8X modules to 40 wavelength WSS modules Alien wavelength support without the use of incremental transponder cards Dynamic RX gain control Real time detection and compensation of any changes in fiber loss Automatic transmit power balancing...

Page 125: ...s Reserved P a g e 125 The number of hops supported in the OOO configuration varies based on the maximum length of each hop as shown in the table below Loss per Fiber Span Maximum Number of Fiber Hops 18 dB 10 20 dB 10 22 dB 8 24 dB 6 26 dB 5 28 dB 3 WSS 402 Block Diagram Figure 66 WSS 402 DWDM Diagram ...

Page 126: ...mum WSS Insertion Loss 5 dB Typical WSS Channel Attenuation 0 15 dB Minimum Channel Tx Launch Power 7 dBm Maximum Channel Tx Launch Power 2 dBm Link Budget 8 28 dB DCM Loss 1 5 3 dB WSS 404 Number of DWDM Channels 40 Channel Spacing 100 GHz Minimum Frequency Ch 1 192 1 THz 1560 61nm Maximum Frequency Ch 40 196 0 THz 1529 55nm Booster Attenuation Range 1 30 dB Adjustable Booster EDFA Gain 22 dB Min...

Page 127: ...hysical WSS 402 and WSS 404 module dimensions Depth 11 6 295 mm Width 1 2 30 5 mm Height 13 8 350 mm Weight 8 4 lbs 3 7 kg AWG 40 dimensions Depth 10 1 256 6 mm Width 19 0 482 6 mm Height 3 47 88 1 mm 2RU Weight 10 0 lbs 4 5 kg 2 16 5 Power Dual 48V DC power feeds to module slots WSS 402 module power consumption 50 watts typical 65 watts maximum WSS 404 module power consumption 60 watts typical 65...

Page 128: ...26 1540 56 46 7 1555 75 27 27 1539 77 47 8 1554 94 28 28 1538 98 48 9 1554 13 29 29 1538 19 49 10 1553 33 30 30 1537 40 50 11 1552 52 31 31 1536 61 51 12 1551 72 32 32 1535 82 52 13 1550 92 33 33 1535 04 53 14 1550 12 34 34 1534 25 54 15 1549 32 35 35 1533 47 55 16 1548 51 36 36 1532 68 56 17 1547 72 37 37 1531 90 57 18 1546 92 38 38 1531 12 58 19 1546 12 39 39 1530 33 59 20 1545 32 40 40 1529 55 ...

Page 129: ...ata between cards to ensure consistency Going beyond typical master slave capabilities CyOS maintains existing dataplane connections even if both BOSS BOSS2 cards are removed from the chassis Each BOSS BOSS2 control card maintains a gigabit Ethernet connection to all other line cards This network is used for all inter shelf communications BOSS BOSS2 cards serve as staging locations for code upgrad...

Page 130: ...M BOSS 1 GB BOSS2 4 GB 2 17 4 Timing Stratum 3 2 17 5 Craft 1 x 10 100 1000Base T RJ 45 faceplate mounted 2 17 6 Physical BOSS Module dimensions Height 13 8 350 mm Depth 11 6 295 mm Width 1 2 30 5 mm Weight 3 575 lbs 1 622 kg BOSS2 Module dimensions Height 13 8 350 mm Depth 11 6 295 mm Width 1 2 30 5 mm Weight 4 0 lbs 1 814 kg 2 17 7 Power BOSS and BOSS2 power consumption 37 watts typical 45 watts...

Page 131: ...Ports and connectors on the BTM include five types System alarm outputs Environmental alarm inputs and outputs Timing inputs and outputs Ethernet ports 4 RS 232 port reserved for future use Each of the three terminal blocks are removable for easier wiring The external alarm inputs and outputs are all software configurable The Ethernet interface labeled MGMT1 provides access to the out of band Data...

Page 132: ...itical 100 VDC 300 mA Major 100 VDC 300 mA Minor 100 VDC 300 mA Audible 100 VDC 300 mA FailSafe 100 VDC 300 mA ENV_OUT1 100 VDC 300 mA ENV_OUT2 100 VDC 300 mA BTM Alarm Pinouts The BTM pinouts for the system and environmental alarms connector are shown in the following tables System Alarms Connector Environmental Alarms Connector Pin Description Pin Description 12 CRIT_NO 14 OUT1_NO 11 CRIT_C 13 O...

Page 133: ...s are all software configurable Four Ethernet interfaces provide autosensing 10 100 1000 Mbps Ethernet connectivity to the BOSS cards Typically MGMT1 is used to access the Data Communication Network DCN that is available over the DWDM interfaces This DCN is used as a communication network for network management Note The RS 232 port provides an interface for future use Currently this port should on...

Page 134: ...ard clock Note In this Release the PSW 10G10 and PSW 618 line cards are only supported in the Z77 platform MSE 1482 Line Card SYNC LED MSE 1482 line card SYNC LED indications are slightly dissimilar from other Z Series line cards due to the differences in operation MSE 1482 line cards are designed to operate in pairs where one MSE 1482 line card is active and the other MSE 1482 line card in the pa...

Page 135: ...8 Ring Closure Module RCM The table below shows the required RCM placement in the Z77 EFM slots for each supported line card Line Card Z77 EFM Slots MSE 1482 slots 1 or 3 PME 412 slot 3 PME 216i slot 3 2 5G LME4 slot 3 Note RCMs are not required for Z22 or Z33 shelves 2 21 XC 2800 Switch Fabric Modules The XC 2800 is a unified packet and Optical Transport Network OTN switch fabric for the Cyan Z77...

Page 136: ...ess cross connect OC 48 STM 16 express between a pair of 2 5G LME4 modules Link aggregation using multiple ports between a pair of PME 412 modules or PME 216i modules A TESI Express connection using a pair of PME 412 modules or PME 216i modules An unprotected Ethernet drop over a protected TESI using a pair of PME 412 modules or PME 216i modules Supports the MSE 1482 line card in a standalone muxp...

Page 137: ...er 2 21 3 Capacity and Throughput Backplane capacity 2 8 Tbps fully non blocking 200 Gbps slot across 14 slots Switching throughput Scales to 2 1 billion packets per second in a fully loaded configuration full line rate performance with currently available service interface modules 2 21 4 Redundancy and Protection The XC 2800 consists of four individual switch fabric modules in a 1 3 protected con...

Page 138: ...s well as 10G 10 GbE OC 192 STM 64 optical services The TPM flexible optical protection capabilities make it ideally suited for applications when just a single un protected port is available on the client side device switch or router including Data center connectivity Enterprise sites Co location facilities The TPM fully passive design avoids the need for an active protection switch eliminating a ...

Page 139: ...r LAC 4P modules provide aggregation and transport for optical protection groups Note Third party client equipment is not protected in an optical protection group Supported Equipment Configurations Optical protection groups can be created with the following Cyan equipment configurations Option 1 One TPM One or two DTM 8 SFT 8 or SFT 10G16 modules Two transport modules LAC 8 or LAC 4P or LAD 4 LAD ...

Page 140: ... on both the working and protection channels The receiver determines which traffic signal to accept based on the signal quality Optical protection groups are unidirectional For a unidirectional failure i e a failure affecting only one direction of the transmission only the affected direction of the transmission is switched to protection Optical protection groups are non revertive When a failure oc...

Page 141: ...ne at each end of an optical link Each OPS contains three field replaceable modules OPS Interface Control Module OPS Switch Plug In Module LC UPC Connectors OPS Dual Power Supply Module 48 Vdc 2 23 1 1 1 Protection At the transmit end of the optical trunk a 50 50 optical splitter divides the signal for transmission onto primary T1 and secondary T2 paths At the receive end the OPS selects the signa...

Page 142: ... configure a reversion interval and a switch interval to control behavior of this mode Manual asynchronous switching Allows the operator to specify the operational path via either SNMP command or front panel buttons front panel buttons are operational only when OPS is in local mode 2 23 3 Local or Remote Operation Control and monitor the OPS in real time either locally using buttons on the front p...

Page 143: ...es Connectors LC UPC Dimensions 19 inch L 483 mm W 23 1mm H 43 7 mm Power Consumption 5 W Interface RJ 45 Ethernet Environmental Specifications Parameter Operational Specification Storage Specification Temperature 0º to 50º C 32º to 122º F 0º to 75º C 32º to 167º F Relative humidity 85 at 25º C 85 Atmospheric pressure 70 Kpa to 106 Kpa 70 Kpa to 106 Kpa Operational conditions No corrosive or solve...

Page 145: ... XFP specifications with OTU2 Generic Forward Error Correction GFEC functionality The error correction provided by GFEC improves minimum Rx sensitivity by 3 dB to 27 dBm from 24 dBm Parameter Max Min Notes Transmit Power TXP 3 dBm 1 dBm Rx Sensitivity RXP 7 dBm 27 dBm 10e 12 BER Power Penalty Po 3 dB 80 km Attenuation 23 dB 10 dB Approximate Distance 80 km Max Attenuation TXP min RXP min Po Min At...

Page 146: ...he table below Card Type Port Add Insertion Loss Drop Insertion Loss End to End Insertion Loss LAD 2P Ch 30 2 8 dB 2 8 dB 5 6 dB LAD 2P Ch 31 2 8 dB 2 8 dB 5 6 dB LAD 2P 1310nm 1 2 dB 1 2 dB 2 4 dB LAD 2G Ch 60 2 dB 2 dB 4 dB LAD 2G Ch 61 2 dB 2 dB 4 dB LAD 2G 1550nm 1 8 dB 1 8 dB 3 6 dB The graphics below show the block diagrams for the LAD 2P and LAD 2G modules 1310nm Drop Add 1310nm LAD 2P OADM...

Page 147: ...B the LAD 8E LAD 8X TX Post Amp attenuator is set to 18 dB This setting limits the maximum reach but allows for some safety margin when initially turning up optical fiber spans Under the default settings all LAD 4 LAD 8 LAD 8i LAD 4A LAD 8A LAD 8E outputs can be safely connected to another module of the same type with 10 dB of attenuation Under the default settings the LAD 8X can be safely connect...

Page 148: ...ator is included to allow control of optical levels at the input to the TX booster amplifier The TX Post Amp Attenuator is used to limit the maximum transmit power The RX Amp Gain can be controlled to optimize the system gain for long spans in excess of 100 km The RX Post Amp Attenuator can be used to adjust the RX Power at the XFP transceiver Configuring the LAD 8A Gain Parameters Note The defaul...

Page 149: ... signals receive more power while lower signals receive less power Configuring the LAD 8X Gain Parameters Note The default values should only be adjusted after consulting a Cyan system engineer to determine the proper settings LAD 8X TX Pre Amp attenuation should be set to 7 dB This value should not be changed This guarantees a valid optical input to the TX Amplifier LAD 8X RX Post Amp Attenuator ...

Page 150: ...utput can be safely connected to another module of the same type with 10 dB of attenuation LAD 40 and LAD 40E Optical Control Points The following diagram shows the location of the optical attenuation gain control points for the LAD 40E module LAD 40E Control Points Figure 77 LAD 40E VOA Control Points LAD 40 and LAD 40E Control Point Table The following table shows which points of optical level c...

Page 151: ...ifier In this situation higher signals receive more power while lower signals receive less power 3 3 Dispersion Compensation Modules Cyan offers Dispersion Compensation Modules DCMs for various amounts of dispersion Typically optical fiber spans with LAD 2P LAD 4 LAD 8 LAD 8i LAD 40 or LAD 4A LAD 8A modules have distances shorter than 95 km before regeneration and carry 10G waves and do not need d...

Page 152: ...o 40 channels with 100 GHz spacing They exhibit lower loss and latency than the standard fiber based DCMs that allow them to be used with the amplifiers included on the WSS modules WSS 402 and WSS 404 The WSS modules are not compatible with fiber based DCMs due to their excessive loss The FBG DCMs are housed in a 1RU LGX shelf A shelf supports up to three modules All modules require a single slot ...

Page 153: ...ons Applications LAD WSS LAC DTM 8 8G DTM 100G LME Packet TSW MSE SFT 8 SFT 10G16 FLX OC 192 STM 64 10GbE DWDM transport X X X X OC 3 12 48 STM 1 4 16 DWDM transport X X X X OC 48 STM 16 DWDM transport X X X X GbE Ethernet over SONET SDH EoS X X X Multi service λ transport X X X X X X X SONET SDH Transparent Line X X X X Packet 10GbE and 1GbE aggregation and transport X X X X X 1GbE OC 3 12 48 STM...

Page 154: ...escribed in this section are not exhaustive because there are a large number of configurations Capabilities of configurations not shown can be derived from line card capabilities and other application configurations In This Chapter Application 1 OC 192 STM 64 10GbE 10G λ transport 155 Application 2 OC 48 STM 16 Transport 158 Application 3 Packet 10GbE and 1GbE Transport and Switching 159 Applicati...

Page 155: ...he number of waves and distances required Its primary purpose is to transport 10G signals from point A to B All traffic is optical electrical optical and hence the express traffic needs to be regenerated with the DTM 8 in a pass through node In a protected ring OEO regeneration in a transit node can use a single DTM 8 card not a protected set since the opposite side of the ring provides protection...

Page 156: ...TM 8 Figure 79 Eight Wave 10G Transport Application with LAD 8 A E i X 4 1 1 10G Lambda Transport OEO Application Feature Set Used in Cyan Z33 and Z77 shelves With LAD 4 A 4 channel DWDM 100 GHz spacing front access the XFP module determines which wavelengths are accessed With LAD 8 A E i X 8 channel DWDM 100 GHz spacing front access the XFP module determines which wavelengths are accessed OEO con...

Page 157: ...7 Regeneration can be used for client as well as express traffic Express traffic can use 2 ports of the same card Client port supports OC 192 10GE LAN 10GE WAN and OTU2 Optional integrated OTN mapping on all interfaces OTU2 100 Mbps DCN OC 192 STM 64 OC 48 STM 16 10 GE 1 GE alien wave capability No required synchronization ...

Page 158: ...M XFP transceivers ODU1 add drop capability is available The system would contain the 2 5G LME4 and LAD 4 A or LAD 8 A E i X line cards depending on the number of waves and distances required The primary purpose of this application is to transport OC 48 STM 16 signals from A to B but can also perform the add drop capability TDM OTU 2 format 1 O E O network 3 7 waves available for future expansion ...

Page 159: ... system provides packet aggregation and transport capabilities If PME modules are the only service cards in the Z33 shelf as is the case in this application described they must be installed in slots 1 and 2 The graphic below shows a Z Series application example with a pair of PME 412 modules with each PME module supporting two 10 GbE trunks 10 GbE Z33 Z77 with PME Z33 1 GbE 10 GbE Z33 10 GbE 10 Gb...

Page 160: ...has a single PME 412 or PME 216i module Each PME module can support two 10 GbE trunks one in each direction but there is no card protection in this configuration The management plane is also non redundant 10 GbE Z33 Z77 with PME Z33 1 GbE 10 GbE Z33 Single PME 412 card Both West and East optics on this card Figure 82 Z Series 10G Ring with a Single PME Module ...

Page 161: ... client 10 GbE interfaces on the PME 412 module or a total of 32 GbE client interfaces on the PME 216i module Link aggregation supported between client ports of the two PME modules Using a single PME 412 or PME 216i module 10 G ring East West with diverse facilities but no equipment protection A total of 12 GbE client interfaces and 2 client 10 GbE interfaces on the PME 412 module or a total of 16...

Page 162: ...es and a pair of LAD modules The system delivers up to three waves with packet and TDM traffic The fourth wave is available for user non protected configurations or alien wave Z33 Z77 Z33 OC 48 1 GbE 10 GbE Z33 3 O E O network TDM 2xPacket OTU 2 format Link Budget Reach LAD 4 LAD 4A 16 dB 24 dB 64 km 96 km Typical configuration 2 x LAD 4 LAD 4A 2 x PME 412 or 2 x PME 216i 2 x 2 5G LME4 4th wave av...

Page 163: ... 8 LAD 8i LAD 8A LAD 8E LAD 8X 1 LAD module per degree n1 x PME 412 or PME 216i n2 x 2 5G LME4 cards 14 Note Multiple shelves can share the same LAD modules Figure 84 Z77 Multiservice Lambda Transport OEO 4 4 1 Multiservice Lambda Transport OEO Application Feature Set Used in Z33 and Z77 shelves 4 channel DWDM 100 GHz spacing front access the XFP module determines which wavelengths are accessed OE...

Page 164: ...ONET OC 48 and SDH STM 16 client interfaces OTU1 client interface OTU2 trunk interface ODU1 add drop functionality Support of the RCM or XC 2800 in the Z77 shelf in conjunction with 2 5G LME4 module for ODU1 add drop Clear channel transport of all SONET SDH overhead 100 Mbps DCN OC 192 STM 4 OC 48 STM 16 10 GE and 1 GE alien wave capability ...

Page 165: ...mmunications Channel DCC In Transparent Line SONET over SONET transport mode STS cross connections are not allowed within the port signal The next two diagrams show examples of Transparent Line capabilities functionality and route diversity of the MSE 1482 line card MSE 1482 MSE 1482 MSE 1482 MSE 1482 MSE 1482 MSE 1482 MSE 1482 MSE 1482 SONET SDH Ethernet Equipment SONET SDH Ethernet Equipment SON...

Page 166: ...ovided by ADM matching line interfaces OC 3 STM 1 OC 3 STM 1 OC 12 STM 4 OC 12 STM 4 OC 48 STM 16 OC 48 STM 16 MSE 1482 MSE 1482 MSE 1482 MSE 1482 ADM Cyan Z Series Shelf Cyan Z Series Shelf OTU 2 Tunneled DCC Ring or Other Route Diverse Configuration Cyan Z Series Network Figure 86 MSE 1482 Transparent Line Functionality Route Diversity ...

Page 167: ...nnectivity to subtending SONET SDH network elements The MSE 1482 line card supports UPSR SNCP Path protection and unidirectional 1 1 Line protection The diagrams below show protection the Path level application and capabilities of the MSE 1482 line card In Path cross connect mode the interface is transported as a cross connect at the STS 1 level signal or STS Nc as provisioned OC 3 12 48 Line Prot...

Page 168: ...7v Interfaces supported OC 3 OC 12 OC 48 Support for STS 1 25 microsecond applications MEF EPL service The figure below shows an example of the MSE 1482 EoS capabilities In this EoS application example the Cyan Z33 shelf or the Z77 shelf contains a pair of MSE 1482 line cards Cyan Z Series Shelf MSE 1482 MSE 1482 EOS EOS EOS EOS GbE GbE GbE GbE VCGs OTU 2 EOS Mapping into a VCG Up to 21xSTS 1 7xST...

Page 169: ...les WSS 402 Modules WSS 402 Modules Same Migration Path as Node B A B C AWG 40 AWG 40 AWG 40 Preamp Booster WSS 402 Optical RX Path WSS 402 Optical TX Path RX VOA Express 1x2 WSS w OCM TX VOA RX AWG TX AWG DTM WEST EAST Preamp Booster WSS 402 Optical RX Path WSS 402 Optical TX Path RX VOA Express 1x2 WSS w OCM TX VOA RX AWG TX AWG DTM WEST EAST Preamp Booster WSS 402 Optical RX Path WSS 402 Optica...

Page 170: ...formance Ethernet services and carrier grade packet transport deeper into the access network The temperature hardened Z22 system provides scalable aggregation of broadband access platforms fiber to the tower wireless backhaul applications as well as business Ethernet and residential deployments The Z22 system supports standards based COE and G 8032 to provide guaranteed throughput for MEF certifie...

Page 171: ... LAD 2P DWDM LGX and or LAD 2G DWDM LGX add drop module Cell tower services are backhauled from each tower site using a dedicated Z22 shelf deployed in collector rings configured with G 8031 linear protection switching Traffic is routed to a Z33 shelf configured as an aggregation ring node Traffic is then carried to the Z77 termination hand off node Protected TESIs are created from each Z33 aggreg...

Page 172: ...card installed in each Z Series shelf in a ring configuration providing aggregation and transport of Ethernet and SONET SDH over the same wave The optical layer is provided by LAD or WSS transport line cards Figure 95 FLX 216i Ring Topology Single Card Configuration FLX 216i FLX 216i 1 or 2 OTU2 Signals Optical layer provided by LADor WSS linecards Z Series Shelf Z Series Shelf GbE OC 3 12 STM 1 4...

Page 173: ...The two FLX 216i line cards in each shelf are interconnected via fiber jumpers on OTU2 trunk ports on the faceplate The optical layer is provided by LAD or WSS transport line cards Figure 96 FLX 216i Ring Topology Two Card Configuration OTU2 Z Series Shelf Z Series Shelf GbE OC 3 12 STM 1 4 OC 48 STM 16 GbE OC 3 12 STM 1 4 OC 48 STM 16 Optical layer provided by LAD or WSS line cards A to Z circuit...

Page 175: ...wer 176 Cyan Z77 Power 177 Fuses 177 Z77 Fuse Positions and DC Feeds 178 5 1 Cyan Z22 Power The following table shows the typical and maximum power consumption for the Z22 system Equipment Typical Power Maximum Power Shelf with Fans 15W 50W CEMi 8W 10W PME 216i 24V 67W 97W PME 216i 48V 67W 97W PME 412 88W 126W MSE 1482 90W 100W FLX 216i 100W 127W SFT 8 45W 50W SFT 10G16 75W 80W DTM 8 75W 96W DTM 1...

Page 176: ... 30W 155W CEMi 8W 10W LAD 4 8 8i 40 10W 12W LAD 4 8A 15W 21W LAD 8E 8X 30W 35W LAD 40E 28W 30W DTM 8 75W 96W DTM 8G 85W 95W DTM 100G 180W 200W 2 5G LME4 55W 65W PME 412 88W 126W PME 216i 67W 97W LAC 8 10W 12W MSE 1482 90W 100W FLX 216i 100W 127W SFT 8 45W 50W SFT 10G16 75W 80W WSS 402 50W 65W WSS 404 60W 65W Depending on your configuration the Z33 shelf may require special equipment room cooling R...

Page 177: ...8W 30W DTM 8G 85W 95W DTM 8 75W 96W DTM 100G 180W 200W 2 5G LME4 55W 65W PME 412 88W 126W PME 216i 67W 97W PSW 10G10 150W 180W PSW 618 150W 180W TSW 10G10 140W 175W LAC 8 10W 12W MSE 1482 90W 100W FLX 216i 100W 127W SFT 8 45W 50W SFT 10G16 75W 80W WSS 402 50W 65W WSS 404 60W 65W 5 4 Fuses Use Planet Design as a guideline based on the total configured system current draw You must size fuses accordi...

Page 178: ...cross the sixteen Z77 shelf v2 line card slots and the two fan modules in a redundant fashion Figure 97 Z77 Fuse Assignment for Fan Module The table below shows the DC feeds and their associated Z77 line card slots DC Feeds A1 A2 A3 A4 B1 B2 B3 B4 Slots 1 4 5 8 9 12 13 16 1 5 9 13 2 6 10 14 3 7 11 15 4 8 12 16 The table below shows the DC feeds and their associated redundant fan modules Fan Module...

Page 179: ...helf line card slots and the three fan modules in a redundant fashion Figure 98 Z77 Shelf Fuse Assignment for Fan Modules The table below shows the DC feeds and their associated Z77 line card slots DC Feeds A1 A2 A3 A4 B1 B2 B3 B4 Slots 1 4 5 8 9 12 13 16 1 5 9 13 2 6 10 14 3 7 11 15 4 8 12 16 The table below shows the DC feeds and their associated redundant fan modules Fan Module 1 Fan Module 2 F...

Page 181: ...g All Cyan nodes require a unique IP address Note Each Cyan node in the network must have a unique IP address provisioned When commissioning Cyan equipment the following IP addresses are not supported 192 168 0 1 192 168 0 255 Subnet 255 255 255 0 192 168 1 0 192 168 1 255 Subnet 255 255 255 0 192 168 2 0 192 168 2 255 Subnet 255 255 255 0 192 168 3 0 192 168 3 255 Subnet 255 255 255 0 172 16 0 1 ...

Page 182: ...o two classes Collocated Planet Operate server A Planet Operate server is referred to as collocated if the Planet Operate server and one of the Cyan gateway nodes share the same physical LAN and there is no third party device between the Planet Operate server and the Cyan gateway node Non collocated Planet Operate server A Planet Operate server is referred to as non collocated if the Planet Operat...

Page 183: ...Planet Operate server Collocated Planet Operate Server In this network configuration example the Planet Operate server shares the same LAN as the Cyan nodes Figure 100 Collocated Planet Operate Server Example In this network configuration the IP sub network assigned to the Cyan nodes must be the same sub network as the Planet Operate server You do not need to configure any additional parameters fo...

Page 184: ...he Planet Operate server and Cyan nodes are separated by one or more routers Figure 101 Non Collated Planet Operate Server Example For this type of network configuration Cyan recommends that the Planet Operate server have a default specific route to the Cyan nodes with the router designated as the gateway as follows 10 0 1 0 255 255 255 0 gw 10 20 30 1 or 0 0 0 0 0 0 0 0 gw 10 20 30 1 default rout...

Page 185: ...spective and there is more than one physical LAN Figure 102 Multiple Physical LANs Example In this type of network configuration Cyan recommends that each LAN segment be given a unique IP sub network Each Cyan node obtains its IP address from a separate block of the IP sub network Network configuration examples with multiple physical LANs are provided below for a collocated Planet Operate server a...

Page 186: ...anet Operate Server Sharing Same LAN as the Gateway Cyan Node Option 1 Complete OSPF network Configure the Planet Operate server to run OSPF on the LAN that connects it to the router Enable OSPF on the Cyan gateway node Option 2 Complete Static routing In this scenario the Planet Operate server can reach the Cyan gateway node without any additional configuration However to reach the other Cyan nod...

Page 187: ...mple of a network configuration with two Cyan gateway nodes Figure 104 Collocated Planet Operate Server with Redundant Cyan Gateway Nodes Static routes alone are not sufficient to provide redundancy Configuring multiple Cyan gateway nodes as shown in the diagram above provides redundancy and protection Enable OSPF on both Cyan gateway nodes 10 1 1 3 and 10 1 1 4 in the diagram above Enable OSPF on...

Page 188: ...re routers Figure 105 Non Collocated Planet Operate Server and Gateway Node Separated by One or More Routers Option 1 Complete OSPF network Configure the Planet Operate server to run OSPF on the LAN that connects it to the router LAN A in the diagram above Enable OSPF on the router on both of the LANs that it is sharing with the Cyan gateway node and Planet Operate server LAN A and LAN B in the di...

Page 189: ... the Cyan gateway node 10 1 1 2 in the diagram above Option 3 Complete Static routing Configure the Planet Operate server with static routes to reach the Cyan nodes In the example configuration above static routes in the Planet Operate server should be set up as follows 10 1 2 0 255 255 255 0 gw 10 2 1 1 10 1 3 0 255 255 255 0 gw 10 2 1 1 10 1 4 0 255 255 255 0 gw 10 2 1 1 or 0 0 0 0 0 0 0 0 gw 10...

Page 190: ...eway nodes Figure 106 Non Collocated Planet Operate Server with Redundant Cyan Gateway Nodes Option 1 Complete OSPF network Configure the Planet Operate server to run OSPF on the LAN that connects it to the router LAN A in the diagram above Enable OSPF on the router on the LANs that it is sharing with the Planet Operate server and the Cyan gateway node LAN A and LAN B in the diagram above Enable O...

Page 191: ...mple configuration above static routes in the Planet Operate server should be set up as follows 10 1 2 0 255 255 255 0 gw 10 2 1 1 10 1 3 0 255 255 255 0 gw 10 2 1 1 10 1 4 0 255 255 255 0 gw 10 2 1 1 or 0 0 0 0 0 0 0 0 gw 10 2 1 1 default route Enable OSPF on the router on the LAN that it is sharing with the Cyan gateway node LAN B in the diagram above Enable OSPF on both of the Cyan gateway node...

Page 192: ...ate with the Planet Operate server This section describes the various options available for configuring the DCN based on the location of the Planet Operate server Collocated Planet Operate Server The diagram below shows a collocated Planet Operate server and Cyan nodes Figure 107 Collocated Planet Operate Server and Cyan Nodes The following options can be considered for the network configuration e...

Page 193: ...etect a form of ARP spoofing Static routes The Planet Operate server can be configured with static routes to reach the non gateway Cyan nodes In the network configuration example above the following routes would enable the Planet Operate server to communicate with all Cyan nodes 10 1 1 4 255 255 255 255 gw 10 1 1 3 10 1 1 5 255 255 255 255 gw 10 1 1 3 10 1 1 6 255 255 255 255 gw 10 1 1 3 OSPF rout...

Page 194: ...tic routes alone are not sufficient to provide redundancy Configuring multiple Cyan gateway nodes as shown in the diagram below provides redundancy and protection Figure 108 Collocated Planet Operate Server with Redundant Cyan Gateway Nodes Cyan recommended configuration Enable OSPF on both of the Cyan gateway nodes 10 1 1 3 and 10 1 1 4 in the example above Enable OSPF on the Planet Operate serve...

Page 195: ...parated by a router Figure 109 Non Collocated Planet Operate Server and Cyan Nodes Separated by a Router The following options can be considered for the network configuration example shown above Proxy ARP Cyan recommended option Enable proxy ARP support on the gateway Cyan node to allow the Planet Operate server to communicate with the other Cyan nodes without any additional configuration to the r...

Page 196: ...1 1 10 1 1 6 255 255 255 255 gw 10 2 1 1 Partial OSPF routing Enable OSPF on the router and the gateway Cyan node This allows the router to learn about the other Cyan nodes Add static routes to the Planet Operate server to reach the Cyan nodes In the network configuration example above the following routes will enable the Planet Operate server to communicate with the other Cyan nodes 10 1 1 4 255 ...

Page 197: ...in the diagram below shows a non collocated Planet Operate server with redundant Cyan gateway nodes Figure 110 Non Collocated Planet Operate Server with Redundant Cyan Gateway Nodes Option 1 Complete OSPF network Configure the Planet Operate server to run OSPF on the LAN that connects it to the router Enable OSPF on the router on the LAN that it is sharing with the Cyan gateway node Enable OSPF on...

Page 198: ...isioning to be delayed in varying degrees in its execution Additionally a Z77 node might lose its connectivity and report a COMM Fail alarm when participating in a large network with several network routes and host routes that exceeds the limit supported by a Z77 BOSS shelf controller card If you are using proxy ARP or static routing you will not be affected unless you have 258 or more Cyan nodes ...

Page 199: ... must install the module in slot B Line Card Slot Assignments Cyan recommends that service line cards be installed from bottom to top in Z33 shelves and left to right in Z77 shelves If a single PME 412 PME 216i or 2 5G LME4 line card is installed in an odd slot consideration should be given as to whether or not to populate the adjacent even slot or to leave the even slot open for future growth and...

Page 200: ...ard pair Important A PSW 10G10 or PSW 618 line card must NOT be installed in the same card pair slots with a PME 412 or PME 216i line card LAD and WSS Link Connections In a ring configuration LAD and WSS odd slot fibers should be connected to even slot fibers in a clockwise direction For example a LAD transmit fiber in a Z33 shelf in slot 5 should be connected to a receive fiber in the adjacent Z3...

Page 201: ...T X WSS Slot 6 WSS Slot 6 WSS Slot 2 WSS Slot 2 WSS Slot 1 WSS Slot 1 WSS Slot 2 WSS Slot 2 Site 1 Z33 Site 3 Z33 Site 1 Z77 Site 2 Z33 WSS Slot 5 WSS Slot 5 R X T X R X T X R X T X WSS Slot 6 R X T X WSS Slot 6 WSS Slot 5 WSS Slot 5 WSS Slot 6 WSS Slot 6 Site 1 Z33 Site 2 Z33 Site 3 Z33 LAD 8 Slot 5 LAD 8 Slot 5 LAD 8 Slot 6 LAD 8 Slot 6 Example 4 Z77 and Z33s Site 2 only has WSS cards Site 3 has...

Page 202: ...left T X R X R X LAD 8 Slot 16 R X T X Site 1 Z77 LAD 8 Slot 15 LAD 8 Slot 16 LAD 8 Slot 15 T X LAD 8 Slot 6 R X T X Site 2 Z33 LAD 8 Slot 5 LAD 8 Slot 6 LAD 8 Slot 5 R X T X LAD 8 Slot 15 R X Site 5 Z77 WSS Slot 16 T X R X T X Site 4 Z77 Lad 8 Slot 16 R X T X LAD 8 Slot 6 R X T X LAD 8 Slot 5 LAD 8 Slot 6 R X T X LAD 8 Slot 6 R X T X Site 6 Z33 LAD 8 Slot 5 LAD 8 Slot 6 LAD 8 Slot 5 R X T X WSS S...

Page 203: ... R X T X WSS Slot 2 R X T X Site 2 Z33 WSS Slot 1 WSS Slot 2 WSS Slot 1 R X T X LAD 8 Slot 15 R X T X Site 5 Z77 WSS Slot 16 LAD 8 Slot 15 R X T X R X T X Site 4 Z77 WSS Slot 16 R X T X WSS Slot 2 R X T X Site 3 Z33 R X T X LAD 8 Slot 6 R X T X Site 6 Z33 LAD 8 Slot 5 LAD 8 Slot 6 LAD 8 Slot 5 R X T X WSS Slot 16 WSS Slot 15 WSS Slot 15 WSS Slot 16 WSS Slot 2 WSS Slot 1 WSS Slot 1 Figure 113 Ring ...

Page 205: ...n A loss in signal strength along an electrical or optical cable In optical fibers attenuation is the reduction in signal strength The higher the signal loss the higher the attenuation Attenuation is caused by dispersion absorption and light scattering Attenuation is typically referenced in decibels per length of medium in kilometers dB km AUI Attachment Unit Interface AWG Arrayed Wavelength Grati...

Page 206: ...umber of bytes available for a burst of service frames sent at the UNI speed to remain CIR conformant CCM Continuity Check Messages CFM Continuity Check Messages are multicast heartbeat messages exchanged periodically among MEPs CCMs allow MEPs to discover other MEPs in a domain and allow MIPs to discover MEPs CDF Client Data Frame CE Customer Equipment Carrier Ethernet Customer Edge Circuit Emula...

Page 207: ...de signals into a standard G 709 OTN optical channel OTU2 DWDM for DWDM drop and insert services in the Cyan Z Series multi layer transport platforms The Z Series DTM 100G is a 100 Gbps dual slot transponder module with configurable OTU4 mapping and forms the DWDM interfaces for the Cyan Z22 48V Z33 and Z77 100 Gbps transponder solutions The DTM 100G module receives a C Form Factor Pluggable CFP b...

Page 208: ...ackbone ports that extends over a Provider Backbone Bridge Network EtherType A field in the Ethernet frame that indicates which protocol is encapsulated in the payload ETYn ITU T Ethernet Physical Section Layer of order n n 1 10Base n 2 100Base n 3 1000Base n 4 10GBase n 5 100GBase EVPL Ethernet Virtual Private Line EVPL is another E Line service that provides a point to point Ethernet connection ...

Page 209: ...nd services for their respective subscription agreements IP Internet Protocol Data packets are forwarded from node to node based on the four byte destination IP address IPMI Intelligent Platform Management Interface Ingress Frame A service frame sent from the CE to the service provider network IS In Service ITU T International Telecommunication Union Telecommunication standards sector Kbps Kilobit...

Page 210: ...and or OTU 1 signals which are encoded translated into discrete ODU 1 layers and then multiplexed into a 10G OTU2 wavelength for managed DWDM transport LOS Loss of Signal LSA Link State Announcements LTM Link Trace Message LTMs are multicast frames that a MEP transmits to follow the path hop by hop to the target MEP LTR Link Trace Reply MA Maintenance Association MAC The Media Access Control addre...

Page 211: ...hat use a specific multicast destination address and EtherType OAMPDUs contain control and status information needed to monitor and troubleshoot OAM enabled links OCh Optical Channel ODU Optical Data Unit OEO Optical Electrical Optical OMS Optical Multiplex Section OOO Optical Optical Optical OOS Out of Service OPS Optical Protection Switch The Cyan Optical Protection Switch OPS uses low loss swit...

Page 212: ...te Per the MEF the PIR is the rate up to which the network will attempt to deliver Ethernet service frames before they are discarded The PIR equals the CIR plus the EIR set in the bandwidth profile and applied to the Flow Point PIR represents the maximum bandwidth for the Flow Point PLL Phase Locked Loop PM Performance Monitoring PME Packet Multiplexer Element The Cyan Z Series PME 412 and PME 216...

Page 213: ...formation is used on the receive interface to help identify and correct transmission errors The RS encoding provides significant correction capability and low error burst sensitivity RSTP Rapid Spanning Tree Protocol As defined in IEEE 802 1D 2004 configures full simple and symmetric connectivity throughout a bridged LAN that comprises individual LANs interconnected by bridges RSTP supersedes Span...

Page 214: ...ider that specifies the service level SMTP Simple Mail Transfer Protocol SNMP Simple Network Management Protocol SNMP is the standard management protocol for TCP IP networks SONET Synchronous Optical Network SSL Secured Socket Layer SSM Synchronization Status Messaging STP Spanning Tree Protocol As defined in IEEE 802 1D 1998 is a link management protocol that provides path redundancy and ensures ...

Page 215: ...e point for demarcation between the network operator equipment that enables access to the network services and the subscriber access equipment The UNI represents the demarcation point that indicates the location where the responsibility of the service provider ends and the responsibility of subscriber begins VCAT Virtual Concatenation VCG Virtual Concatenation Group VCP Virtual Container Path VLAN...

Page 216: ...0 Petaluma CA 94954 www cyaninc com Date 04 April 2014 Cyan Inc 1383 N McDowell Blvd Suite 300 Petaluma CA 94954 Tel 1 707 735 2300 Fax 1 707 763 3319 Declaration The ROADM feature is not homologated and it can t be used in Brazil ...

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