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Ciena 6200 Installation, Commissioning, And Testing Procedures

Packet-optical platform
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6200 Packet-Optical Platform
Installation, Commissioning, and Testing
Procedures
Release 1.1
What's inside...
Observing product and personnel safety guidelines
Regulatory information
Receiving and unpacking
Preparing for installation and commissioning
Installing the 6200 network element
Nodal commissioning
System testing
Network reconfiguration
Cleaning connectors
Common procedures
Cable color coding
Recording data and test results
009-6200-201 - Draft Issue 1
September 2014
©
Copyright
2014 Ciena
®
Corporation. All rights reserved.

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Summary of Contents for Ciena 6200

  • Page 1 Procedures Release 1.1 What’s inside... Observing product and personnel safety guidelines Regulatory information Receiving and unpacking Preparing for installation and commissioning Installing the 6200 network element Nodal commissioning System testing Network reconfiguration Cleaning connectors Common procedures Cable color coding Recording data and test results...
  • Page 2 While the information in this document is believed to be accurate and reliable, except as otherwise expressly agreed to in writing CIENA PROVIDES THIS DOCUMENT “AS IS” WITHOUT WARRANTY OR CONDITION OF ANY KIND, EITHER EXPRESS OR IMPLIED. The information and/or products described in this document are subject to change without notice.
  • Page 3 Termination shall be without prejudice to any other rights or remedies Ciena may have. In the event of any termination you will have no right to keep or use the...
  • Page 4 PROGRAMS, EVEN IF INFORMED OF THE POSSIBILITY OF SUCH DAMAGES IN ADVANCE 8. General. Ciena may assign this Agreement to any Ciena affiliate or to a purchaser of the intellectual property rights in the Software, but otherwise neither this Agreement nor any rights hereunder may be assigned nor duties delegated by either party, and any attempt to do so will be void.

  • Page 5: Table Of Contents

    Installing the 6200 network element Installation guidelines 5-1 List of procedures Installing the 6200 shelf 5-5 Connecting the 6200 to local safety ground 5-8 Connecting the DC power supplies 5-11 Connecting the AC power supply 5-15 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1...
  • Page 6 5-57 Nodal commissioning List of procedures Connecting the PC to the local craft terminal of the 6200 network element 6-2 Logging into an uncommissioned 6200 network element 6-3 Network element initialization 6-5 Verifying the serial numbers of the 6200 chassis and the circuit packs 6-8...
  • Page 7 Network reconfiguration SNCP/UPSR 8-1 List of procedures Adding an 6200 network element to a STM-1/OC-3 ring configuration with 15G MRO XC circuit pack 8-3 Adding an 6200 network element to a STM-4/OC-12 ring configuration with 15G MRO XC circuit pack 8-5...
  • Page 8 Installing and removing pluggable modules 10-13 Cable color coding 11-1 Recording data and test results 12-1 Form 1 12-2 Form 2 12-3 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 9: About This Document

    009-6200- About this document This document contains all the procedures necessary to install, commission and test an 6200 Release 1.1 network element. The topics covered are: • observing product and personnel safety guidelines • regulatory information • receiving and unpacking •...
  • Page 10 Planning Guide, S78-1002-110 • Provisioning and Protection Switching Procedures, 009-6200-310 • Bandwidth and Data Services Procedures, 009-6200-320 • Trouble Clearing and Module Replacement Procedures, 009-6200-543 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 ©...

  • Page 11: Observing Product And Personnel Safety Guidelines

    Precautionary messages To prevent personal injury, equipment damage, and service interruptions, you must follow all precautionary messages in Ciena documentation and all local safety standards required by your company. The following precautionary messages appear in Ciena documentation:...

  • Page 12: Safety Standards

    A precautionary message with this symbol indicates a risk of physical injury to your body. Safety standards Ciena network elements conform to all relevant safety standards. The 6200 complies with the following safety standards: • IEC/EN 60950-1—Information technology equipment - Safety, Part 1: General requirements •...
  • Page 13 IEC labels as specified in IEC 60825. This is in an effort on the part of the FDA to align its standards for laser products with international standard IEC 60825. Ciena ensures that all its products are compliant with either or both FDA and IEC requirements, as required. Laser radiation hazards...
  • Page 14 IEC 60825-2. 6200 chassis do not use lasers that exceed the AEL for Class 1, and, therefore, do not require wavelength and optical power information at the aperture.
  • Page 15 Maximum laser output power <= 10 mW (10 dBm) Standards: IEC 60825-1 Edition 2 Class I 21CFR 1040.10 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 16 Maximum laser output power <= 1 mW (0 dBm) Standards: IEC 60825-1 Edition 2 Class I 21CFR 1040.10 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 17 Maximum laser output power <= 3.03 mW (4.8 dBm) Standards: IEC 60825-1 Edition 2 Class I 21CFR 1040.10 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 18 Maximum laser output power <= 2.51 mW (4 dBm) Standards: IEC 60825-1 Edition 2 Class I 21CFR 1040.10 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 19 Laser wavelength 1550 nm Maximum laser output power <= 2.51 mW (4 dBm) Standards: IEC 60825-1 Edition 2 Class I 21CFR 1040.10 For laser hazard labels found on the 6200 system, refer to Figure 1-1. Figure 1-1 Laser hazard label...
  • Page 20 A passive optical subassembly supplied and installed as part of a complete Ciena optical communication system has the appropriate hazard level assigned and labels attached. If Ciena does not supply and install the subassembly, you must determine the maximum accessible optical output level and assign the appropriate hazard level and labels.
  • Page 21 Figure 1-2 Main product level regulatory labels on the rear side of the 6200 equipment Using optical fibers Optical fibers are either single mode or multiple mode. The information in the following paragraphs applies to all optical fibers.
  • Page 22 • Report the location of the damaged optical fiber to both the central office and the field repair personnel. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 23: Working With Power

    The circuit breaker on the power supply unit is an electronic circuit breaker. A circuit breaker cuts off the power to the circuit pack on high current condition. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena...

  • Page 24: Dissipating Static Electricity

    Note 1: Before you connect to the ESD location for protection, ensure that the earthing cables are grounded. For details, refer to “Connecting the 6200 to local safety ground” on page 5-8. Note 2: Heel grounders or similar worn footwear attachments work when the floor is designed to dissipate static electricity.
  • Page 25 Observing product and personnel safety guidelines 1-15 product you are working on, such as the shelf ESD jack. Grounded fixtures are accessible on most Ciena products. See the ESD ground jacks shown in Figure 1-3. Figure 1-3 ESD jack location on the 6200 optical equipment The following guidelines provide optimal electrostatic discharge protection: •...

  • Page 26: Preventing Circuit Pack Damage, Pluggable Module And Fan Module Damage

    All modules are subject to damage by rough handling or by electrostatic discharges. Review the following sections for more information on how to prevent damage to modules. If Ciena ships modules separately from the network element shelf, then these circuit packs can come in shielded...

  • Page 27: Controlling Equipment Access

    Controlling equipment access The 6200 system is intended to be installed in a restricted access location. Outside North America, the location restriction must be in accordance with the international safety standard IEC/EN 60950-1. In the context of these requirements, a restricted access location is further defined as a location: •...
  • Page 28 1-18 Observing product and personnel safety guidelines 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 29: Regulatory Information

    Compliance to applicable technical standards and regulations The 6200 meets or exceeds the following standards: • (CFR Title 47, Chapter 1) FCC Part 15, Subpart B, Class A (USA) •...

  • Page 30: Country-Specific Regulatory Information

    European Union The 6200 conforms with the essential requirements of EMC Directive 2004/108/EC and Low Voltage Directive 2006/95/EC through compliance to the following harmonized standards: •...
  • Page 31 Regulatory information 2-3 Australia / New Zealand The 6200 complies with EN 55022 and EN 300 386 in respect of the EMC Regulatory Arrangements (of the Radiocommunications Act 1992) of the Australian Communications Authority and the Radiocommunications (EMC Standards) Notice 2004 of the New Zealand Ministry of Economic Development.
  • Page 32 2-4 Regulatory information 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 33: Receiving And Unpacking

    This chapter contains procedures for unpacking the 6200 network element delivered to the customer as part of the supply-only contract. Shipment verification The 6200 network element is delivered in one carton along with its accessories. • Verify the package list information with the alphanumeric information provided on the shipping label.

  • Page 34: Unpacking The Equipment

    Note: If the packaging is damaged, preserve as much of the packaging as possible to allow the customer service and the shipper to analyze the possible equipment damage. To report damage of shipped articles, contact the Ciena technical assistance center.

  • Page 35: Preparing For Installation And Commissioning

    • tools and material list Rack configuration The 6200 network element can be mounted on a variety of telecommunication equipment racks, including: • Standard European Telecommunication Standards Institute (ETSI) (19 in. EIA) rack with a standard 300 x 600 mm footprint.
  • Page 36 5-slot expansion chassis with Air Filter and Tray 7 kg 5-slot expansion Fan Tray 1 kg 5/7-slot XCC/Trib Filler 0.4 kg 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 37: Power Requirements

    5-slot expansion Air Filter with Tray 0.7 kg Power requirements The 6200 supports two 325 W DC or two 500W DC or two 290W AC power supplies for the base chassis and two 250 W DC power supplies for the expansion chassis The power supply module provides the following functionality: •...

  • Page 38: Tools And Materials List

    Make sure that you have the tools listed in Table 4-2 before you go to the site to install an 6200 network element. This list does not include items that are ordered by the customer or that are part of the shipment. Table 4-2...

  • Page 39: Requirements

    24 in. tape tin snips torque wrench wire cutters Requirements To commission an 6200 network element you must have the following information: • network diagrams that describe 6200 paths • network element type for each network element in the 6200 network •...
  • Page 40 USB- Open Clock Cable Cable assembly shielded RJ45-open clock 5 meters Cable assembly shielded RJ45-open alarm 3 meters 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 41: Installation, Commissioning And Testing Flowchart

    Installation, commissioning and testing flowchart Figure 4-1 shows the installation, commissioning, and testing process flowchart. Figure 4-1 Installation, commissioning, and testing procedures 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 42 4-8 Preparing for installation and commissioning 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 43: Installing The 6200 Network Element

    Use only manual screwdriver for fastening of any circuit packs. Note 1: Do not use any Power screwdriver for fastening of any circuit packs. Note 2: You must install the 6200 network element in a restricted access location (RAL) in accordance with EN60950. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1...
  • Page 44 Engage two to three threads on both ends before tightening the screws completely. It is important to align the screws prior to tightening to avoid screw jamming. The 6200 NE with Rel 1.1 S/W version supports the following two configurations for the circuit packs: •...
  • Page 45 Table 5-3 6200 installation procedures Action Details Installing the 6200 shelf Procedure 5-1 Connecting the 6200 to local safety ground Procedure 5-2 Connecting the DC power supplies Procedure 5-3 Connecting the AC power supply Procedure 5-4 Connecting the LAN and Craft cables...
  • Page 46 5-4 Installing the 6200 network element Table 5-3 (continued) 6200 installation procedures Action Details Connecting and routing 12xE3DS3 WP cables through Procedure 5-14 IO12xE3DS3 card Connecting fiber optic cables to 2xGE interfaces of 6G PKT SW Procedure 5-15 circuit pack...

  • Page 47: Installing The 6200 Shelf

    Installing the 6200 network element 5-5 Procedure 5-1 Installing the 6200 shelf Use this procedure to install the 6200 network element in a 19 in./ 21 in./ 23 in. rack. Prerequisites Make sure that the following tools and materials are available: •...
  • Page 48 Installing the 6200 shelf Step Action Move the 6200 network element to the desired rack position, locate the top and bottom fixing holes on each side of the rack and fit the captive nuts to the rack. Fasten the 6200 network element and the cable routing brackets to the rack with the M6 screws.
  • Page 49 Installing the 6200 network element 5-7 Figure 5-2 Accessories in the combined chassis mechanical kit 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 50: Connecting The 6200 To Local Safety Ground

    Action Step Action Remove the Phillips screw from the 6200. Fasten the grounding cables to the local safety points on the 6200 base and expansion chassis as shown in the Figure 5-3 on page 5-10. Note: There are separate local safety ground points at the rear of the 6200 base/main and expansion chassis.
  • Page 51 Installing the 6200 network element 5-9 Procedure 5-2 (continued) Connecting the 6200 to local safety ground Step Action To verify that the grounding is done, using a multimeter, measure the potential difference between the chassis and the rack. Note: When the value is “0”, chassis is grounded properly.
  • Page 52 5-10 Installing the 6200 network element Figure 5-3 Local ground points at the rear of the 6200 network element 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 53: Connecting The Dc Power Supplies

    Also make sure that the following tools and materials are available: • standard installer tool kit • four power cables per 6200 shelf (two for the base chassis and two for the expansion chassis). Refer to the Planning Guide, S78-1002-110 for ordering codes. •...
  • Page 54 Action Step Action Make sure that the circuit breaker feeding power to 6200 network element is switched off. Fasten the cable to the power connector. For color coding details, see Table 11-2 on page 11-2.
  • Page 55 Installing the 6200 network element 5-13 Figure 5-4 Routing of the power cable for the base chassis (325W DC PSU) Figure 5-5 Routing of the power cable for the base chassis (500W DC PSU) 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1...
  • Page 56 5-14 Installing the 6200 network element Figure 5-6 Routing of the power cable for the expansion chassis (250W DC PSU) 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...

  • Page 57: Connecting The Ac Power Supply

    Also make sure that the following tools and materials are available: • standard installer tool kit • two power cables for the base chassis per 6200 shelf. Refer to the Planning Guide, S78-1002-110 for ordering codes. • digital multimeter DANGER Risk of electrocution Working with live circuits is dangerous.
  • Page 58 Use antistatic protection to avoid damaging the shelf and circuit packs. Action Step Action Make sure that the circuit breaker feeding power to 6200 network element is switched off. Connect the power cable to the power supply connector as shown in Figure 5-7 on page 5-17.
  • Page 59 Installing the 6200 network element 5-17 Figure 5-7 290W AC PSU with APU filler panel above on base chassis and the routing of the power cable 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 ©...

  • Page 60: Connecting The Lan And Craft Cables

    Connecting the LAN and Craft cables Use this procedure to connect the Craft cable to the Craft or LAN cable to the LAN ports of the 6200 network element. The network LAN and Craft cable interface is RJ-45 type and this interface is used for network connectivity.
  • Page 61 Installing the 6200 network element 5-19 Figure 5-8 Routing of the Craft cable on Craft port- Fan+OAM 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 62 5-20 Installing the 6200 network element Figure 5-9 Routing of the Craft cable on Craft port- Fan+OAMV2 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 63 Installing the 6200 network element 5-21 Figure 5-10 Routing of the LAN cable on LAN port- Fan+OAM 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 64 5-22 Installing the 6200 network element Figure 5-11 Routing of the LAN cable on LAN port- Fan+OAMV2 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 65: Connecting External Synchronization Interface (Esi) And Alarm Cables

    Use this procedure to connect the external synchronization interface (ESI) and alarm cables to the 6200 network element. Note 1: For Fan+OAM, the BITSIN-1-10-1 interface can be used to provision a 2MHz Clock in SDH mode whereas it cannot be used in SONET mode.
  • Page 66 5-24 Installing the 6200 network element Figure 5-12 Routing of the alarm in and alarm out cables- Fan+OAM 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 67 Installing the 6200 network element 5-25 Figure 5-13 Routing of the alarm in and alarm out cables- Fan+OAMV2 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 68 5-26 Installing the 6200 network element Figure 5-14 Routing of the ESI-Data cable- Fan+OAM 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 69 Installing the 6200 network element 5-27 Figure 5-15 Routing of the ESI-Clk USB cable- Fan+OAM 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 70 5-28 Installing the 6200 network element Figure 5-16 Routing of the ESI-DATA RJ-45 cable- Fan+OAMV2 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 71: Routing Cables On The Rack

    Installing the 6200 network element 5-29 Procedure 5-7 Routing cables on the rack Use this procedure to route cables on a 19 in. rack, 21 in. rack, or 23 in. rack. The type of cable used depends on the type of traffic carried by the network element configuration.
  • Page 72 5-30 Installing the 6200 network element Figure 5-17 Cable management 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 73: Connecting Fiber Optic Cables To Stm-1/4/16 Or Oc-3/12/48 Interfaces On 2.5G Mro Card

    Connecting fiber optic cables to STM-1/4/16 or OC-3/12/48 interfaces on 2.5G MRO card Use this procedure to connect the fiber optic cables to the STM-1/4/16/OC-3/12/48 interfaces of the 6200 network element. Prerequisites Make sure that the following tools and materials are available: •...
  • Page 74 5-32 Installing the 6200 network element Procedure 5-8 (continued) Connecting fiber optic cables to STM-1/4/16 or OC-3/12/48 interfaces on 2.5G MRO card Action Step Action Identify the fiber optic cables. Remove the dust caps on the optical interfaces. Inspect and clean the connectors/adaptors on the patch cord. For details,...
  • Page 75 Installing the 6200 network element 5-33 Procedure 5-9 Connecting fiber optic cables to STM-1/16 or OC-3/48 interfaces on 15G MRO XC card Use this procedure to connect the fiber optic cables to the STM-1/16/OC-3/48 interfaces on the 15G MRO XC card.

  • Page 76: Connecting Fiber Optic Cables To Stm-1/16 Or Oc-3/48 Interfaces On 15G Mro Xc Card

    5-34 Installing the 6200 network element Procedure 5-9 (continued) Connecting fiber optic cables to STM-1/16 or OC-3/48 interfaces on 15G MRO XC card Action Step Action Identify the fiber optic cables. Remove the dust caps on the optical interfaces. Inspect and clean the connectors/adaptors on the patch cord. For details,...

  • Page 77: Connecting Fiber Optic Cables To Stm-4/16/64 Or Oc-12/48/192 Interfaces On 60G Mro Xc Card

    Connecting fiber optic cables to STM-4/16/64 or OC-12/48/192 interfaces on 60G MRO XC card Use this procedure to connect the fiber optic cables to the STM-4/16/64/OC-12/48/192 optical interfaces of the 6200 network element. Prerequisites Make sure that the following tools and materials are available: •...
  • Page 78 5-36 Installing the 6200 network element Procedure 5-10 (continued) Connecting fiber optic cables to STM-4/16/64 or OC-12/48/192 interfaces on 60G MRO XC card Action Step Action Identify the fiber optic cables. Remove the dust caps on the optical interfaces. Inspect and clean the connectors/adaptors on the patch cord. For details,...
  • Page 79 Installing the 6200 network element 5-37 Figure 5-20 Optical cable management - 622M (P1 & P2) and 2.5G (P3 & P4) connection on 60G MRO XC circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 ©...
  • Page 80 5-38 Installing the 6200 network element Figure 5-21 Optical cable management - 10G connection on 60G MRO XC circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...

  • Page 81: Connecting And Routing E1/Ds1 Cables

    Installing the 6200 network element 5-39 Procedure 5-11 Connecting and routing E1/DS1 cables Use this procedure to connect E1/DS1 cables to the 63xE1DS1 circuit pack for 120-ohm E1 and 100-ohm DS1 applications. The 63xE1DS1 tributary circuit pack has two connectors, which supports 63 E1/DS1.
  • Page 82 5-40 Installing the 6200 network element Figure 5-22 Connecting E1/DS1 cables to 6200 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 83: Connecting And Routing 63Xe1Ds1Wp Cables Through Io63Xe1Ds1 Card

    Installing the 6200 network element 5-41 Procedure 5-12 Connecting and routing 63xE1DS1WP cables through IO63xE1DS1 card Use this procedure to connect E1DS1 WP cables through IO63xE1DS1 for 120-ohm E1 and 100-ohm DS1 applications. Note: While inserting the E1DS1WP circuit pack, push the circuit pack all the way in and push the latches down.
  • Page 84 5-42 Installing the 6200 network element Figure 5-23 Connecting E1/DS1 IO cables to 6200 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 85: Connecting E3/Ds3 Cables To 6Xe3Ds3 Interfaces

    Connecting E3/DS3 cables to 6xE3DS3 interfaces Use this procedure to connect the E3/DS3 cables to the E3/DS3 interfaces on the 6xE3DS3 tributary circuit packs of the 6200 network element. Prerequisites Make sure that the following tools and materials are available: •...

  • Page 86: Connecting And Routing 12Xe3Ds3 Wp Cables Through Io12Xe3Ds3 Card

    5-44 Installing the 6200 network element Procedure 5-14 Connecting and routing 12xE3DS3 WP cables through IO12xE3DS3 card Use this procedure to connect the E3/DS3 cables from the E3/DS3 interfaces on the 12xE3DS3WP tributary circuit pack through the IO12xE3DS3 of the 6200 network element.
  • Page 87 Installing the 6200 network element 5-45 Figure 5-25 E3/DS3 IO cable management 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 88: Connecting Fiber Optic Cables To 2Xge Interfaces Of 6G Pkt Sw Circuit Pack

    5-46 Installing the 6200 network element Procedure 5-15 Connecting fiber optic cables to 2xGE interfaces of 6G PKT SW circuit pack Use this procedure to connect the fiber optic cables to the 2xGE interfaces of the 6200 network element. Prerequisites Make sure that the following tools and materials are available: •...
  • Page 89 Installing the 6200 network element 5-47 Figure 5-26 Connecting to GigE ports 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 90: Connecting Ethernet Cables To 4Xfe Interfaces Of 6G Pkt Sw Circuit Pack

    5-48 Installing the 6200 network element Procedure 5-16 Connecting Ethernet cables to 4xFE interfaces of 6G PKT SW circuit pack Use this procedure to connect the ethernet cables to the 4xFE interfaces of the 6200 network element. Prerequisites Make sure that the following tools and materials are available: •...

  • Page 91: Connecting Fiber Optic Cables To 2Xge(O) Interfaces Of 4Xge + 4Xfe Circuit Pack

    Installing the 6200 network element 5-49 Procedure 5-17 Connecting fiber optic cables to 2xGE(o) interfaces of 4xGE + 4xFE circuit pack Use this procedure to connect the fiber optic cables to the 2xGE interfaces of the 6200 network element. Prerequisites Make sure that the following tools and materials are available: •...
  • Page 92 5-50 Installing the 6200 network element Figure 5-28 Connecting to GigE(o) ports 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 93: Connecting Ethernet Cables To 2Xge(E) Interfaces Of 4Xge + 4Xfe Circuit Pack

    Installing the 6200 network element 5-51 Procedure 5-18 Connecting Ethernet cables to 2xGE(e) interfaces of 4xGE + 4xFE circuit pack Use this procedure to connect the Ethernet cables to the 2xGE(e) interfaces of the 6200 network element. The GE(e) interfaces supports Ethernet, Fast Ethernet, and Gigabit Ethernet signals.
  • Page 94 5-52 Installing the 6200 network element Figure 5-29 Connecting to 2xGE(e) ports 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 95: Connecting Ethernet Cables To 4Xfe Interfaces Of 4Xge + 4Xfe Circuit Pack

    Installing the 6200 network element 5-53 Procedure 5-19 Connecting Ethernet cables to 4xFE interfaces of 4xGE + 4xFE circuit pack Use this procedure to connect the Ethernet cables to the 4xFE interfaces of the 6200 network element. The FE interfaces supports both Ethernet and Fast Ethernet signals.
  • Page 96 5-54 Installing the 6200 network element Figure 5-30 Connecting to 4xFE ports 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 97: Connecting Fiber Optic Cables To 2Xge(O) Interfaces Of 64G Pkt Sw Circuit Pack

    Use this procedure to connect the fiber optic cables to the 2xGE interfaces of the 6200 network element. Note: The 6200 network element does not support 6G PKT SW and 64G PKT SW circuit packs together on the same chassis.
  • Page 98 5-56 Installing the 6200 network element Figure 5-31 Connecting to 2xGigE(o) ports 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 99: Connecting Fiber Optic Cables To 2X10Ge Interfaces Of 64G Pkt Sw Circuit Pack

    Installing the 6200 network element 5-57 Procedure 5-21 Connecting fiber optic cables to 2x10GE interfaces of 64G PKT SW circuit pack Use this procedure to connect the fiber optic cables to the 2x10GE interfaces of the 6200 network element. Prerequisites Make sure that the following tools and materials are available: •...
  • Page 100 5-58 Installing the 6200 network element Figure 5-32 Connecting to 2x10GigE ports 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 101 6200 network element Logging into an uncommissioned 6200 network Procedure 6-2 element Network element initialization Procedure 6-3 Verifying the serial numbers of the 6200 chassis Procedure 6-4 and the circuit packs Setting the 6200 date and time Procedure 6-5 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1...

  • Page 102: Nodal Commissioning

    Connect the Craft interface of the 6200 network element and the PC terminal with an Ethernet cable of the RJ-45 connector type. Configure the IP address of the PC to be in the same subnet as the 6200 network element.

  • Page 103: Logging Into An Uncommissioned 6200 Network Element

    Nodal commissioning 6-3 Procedure 6-2 Logging into an uncommissioned 6200 network element Use this procedure to log into the 6200 network element through the web user interface (WUI). CAUTION Risk of unauthorized access Change the initial password of the default user account on the network element.
  • Page 104 6-4 Nodal commissioning Procedure 6-2 (continued) Logging into an uncommissioned 6200 network element Step Action Determine your next step. Then login was successful you have completed the procedure. login failed go to step 8 Check for physical connection. Otherwise, contact your next level of support.

  • Page 105: Network Element Initialization

    • Make sure the PC is configured in the same subnet as LAN/CRAFT interface of the network element. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 106 In the Contact field, enter the contact details of administrator such as name and email. In the Location field, enter the location of node element. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 107 You have completed the network element backup restoration. CAUTION Cold restart Network element goes for a service disruptive reset. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 108: Verifying The Serial Numbers Of The 6200 Chassis And The Circuit Packs

    Verifying the serial numbers of the 6200 chassis and the circuit packs Use this procedure to verify the serial numbers of the 6200 chassis and the circuit packs present in the 6200 network element. The 6200 chassis has 10 slots for the different modules.
  • Page 109 Click on Node inventory link. Node inventory page is displayed. View the serial numbers of all the circuit packs in the 6200 network element in the Node Inventory page. Verify the serial numbers of all the circuit packs with the shipment report.

  • Page 110: Setting The 6200 Date And Time

    6-10 Nodal commissioning Procedure 6-5 Setting the 6200 date and time Use this procedure to edit the network element date and time. Prerequisites Log into the network element WUI and display the NE information page. Action Step Action Setting the date and time of a network element Click System Time in the Navigation menu.
  • Page 111 Note 2: If OMEA is used to manage the 6200 network element, the first NTP servers (NTP Server-0) will automatically be provisioned. Provision all other time servers against remaining NTP servers.
  • Page 112 6-12 Nodal commissioning 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 113 009-6200-201 System testing After commissioning the 6200 network element, perform system level tests with the network elements cabled together in a working Sub Network Connection Protection/Unidirectional Path Switched Ring (SNCP/UPSR) or Multiplex Section Protection/Automatic Protection Switching (1+1 MSP/APS). Table 7-1 provides the procedures for system testing.

  • Page 114: 7-2 System Testing

    Action Details Testing Traffic Probe Procedure 7-11 Testing Ethernet parameter retrieval using SNMP Procedure 7-12 Verifying association between 6200 and other network element Procedure 7-13 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 ©...

  • Page 115: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 63Xe1Ds1 Service Interface

    System testing 7-3 Procedure 7-1 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 63xE1DS1 service interface Use this procedure to perform the following tests on the 6200 network element: • 63xE1DS1 circuit pack test. • protection switching on the E1/DS1 port.
  • Page 116 Record the data of 63xE1DS1 testing in Table 12-1 on page 12-3. The result verifies that all the E1/DS1 ports function correctly. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 117 Generate a loss of signal condition (LOS) on the protection path by disconnecting the fiber. Traffic switches from the protection to the working path. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 118 12-13 on page 12-12/ Table 12-14 on page 12-13 based on the STM/OC value. —end— Figure 7-1 Testing E1/DS1 interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 119: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 63Xe1Ds1 Wp Service Interface

    System testing 7-7 Procedure 7-2 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 63xE1DS1 WP service interface Use this procedure to perform the following tests on the 6200 network element: • 63xE1DS1 WP circuit pack test. • protection switching on the E1/DS1 WP port.
  • Page 120 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 63xE1DS1 WP service interface Action Step Action Connect the test equipment and the 6200 near and far 6200 network elements as shown in the Figure 7-2 on page 7-12. Select the type of protection required.
  • Page 121 16 on page 7-10 After the WTR time expires, the traffic will switch from protection to the working path. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 122 Note: The above procedure is applicable for work slots from 108 to 111 considering 107th slot as the protection slot.. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 123 50 ms. Note: Repeat the above procedure for all the work slots from 108 to 111. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 124 7-12 System testing Figure 7-2 Testing E1/DS1(W/P) interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 125: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 6Xe3Ds3 Service Interface

    System testing 7-13 Procedure 7-3 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 6xE3DS3 service interface Use this procedure to perform the following tests on the 6200 network element: • 6xE3DS3 service interface test (both at the near and far end).
  • Page 126 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 6xE3DS3 service interface Action Step Action Connect the test equipment, the near end 6200, and the far end 6200 network elements as shown in the Figure 7-3 on page 7-16. Select the type of protection required.
  • Page 127 Table 12-12 on page 12-11/ Table 12-13 on page 12-12/ Table 12-14 on page 12-13 based on the STM/OC value. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 128 7-16 System testing Figure 7-3 Testing E3/DS3 interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 129: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 12Xe3Ds3 Wp Service Interface

    Procedure 7-4 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 12xE3DS3 WP service interface Use this procedure to perform the following tests on the 6200 network element: • 12xE3DS3 WP service interface test (both at the near and far end). •...
  • Page 130 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 12xE3DS3 WP service interface Action Step Action Connect the test equipment, the near end 6200, and the far end 6200 network elements as shown in the Figure 7-4 on page 7-21. Select the type of protection required.
  • Page 131 18 on page 7-20 After WTR time expires, the traffic will switch from protection to working path. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 132 50 ms. Note: The above procedure is applicable for both 2nd and 4th IO slots. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 133 System testing 7-21 Figure 7-4 Testing E3/DS3 IO interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 134: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 4Xfe Interfaces Of 6G Pkt Sw Circuit Pack

    Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 4xFE interfaces of 6G PKT SW circuit pack Use this procedure to perform the following tests on the 6200 network element: • Ethernet port test (in the near and the far end network elements in daisy-chain).
  • Page 135 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 4xFE interfaces of 6G PKT SW circuit pack Action Step Action Connect the test equipment, the 6200 near and far 6200 network elements as shown in Figure 7-5 on page 7-27. Determine the type of protection required.
  • Page 136 2-6-3 to 3-1-4 1, 2 3-1-1 to 3-3-1 3-2-1 to 3-4-2 1, 2 3-3-2 to 3-5-2 3-4-3 to 3-6-4 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 137 Table 12-7 on page 12-7. The result verifies that all the Ethernet ports and optical ports function correctly. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 138 Traffic switches from the protection to the working path. Put the fiber back on the protection path. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 139 12-13 on page 12-12/ Table 12-14 on page 12-13 based on the STM/OC value. —end— Figure 7-5 Testing 4xFE interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 140: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 2Xge Interfaces On 6G Pkt Sw Circuit Pack

    Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 2xGE interfaces on 6G PKT SW circuit pack Use this procedure to perform the following tests on the 6200 network element: • Ethernet port test (in the near and the far end network elements in daisy-chain) •...
  • Page 141 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 2xGE interfaces on 6G PKT SW circuit pack Action Step Action Connect the test equipment and the 6200 near and far 6200 network elements as shown in Figure 7-6 on page 7-32. Determine the type of protection required.
  • Page 142 Generate a loss of signal condition (LOS) on the working path by disconnecting the fiber. Traffic switches from the working to the protection path. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 143 Table 12-14 on page 12-13 based on the STM/OC value. Note: Repeat the same procedure for other Ethernet port/WAN2. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 144 7-32 System testing Figure 7-6 Testing Ethernet on 2xGE interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 145: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 4Xfe Interfaces Of 4Xge + 4Xfe Circuit Pack

    Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 4xFE interfaces of 4xGE + 4xFE circuit pack Use this procedure to perform the following tests on the 6200 network element: • Ethernet port test (in the near and the far end network elements in daisy-chain).
  • Page 146 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 4xFE interfaces of 4xGE + 4xFE circuit pack Action Step Action Connect the test equipment and the 6200 near and far 6200 network elements as shown in Figure 7-7 on page 7-37. Determine the type of protection required.
  • Page 147 Table 12-6 on page 12-7. The result verifies that all the Ethernet ports and optical ports function correctly. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 148 Traffic switches from the protection to the working path. Put the fiber back on the protection path. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 149 12-13 on page 12-12/ Table 12-14 on page 12-13 based on the STM/OC value. —end— Figure 7-7 Testing 4xFE interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 150: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 2Xge(O) Interfaces On 4Xge + 4Xfe Circuit Pack

    Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 2xGE(o) interfaces on 4xGE + 4xFE circuit pack Use this procedure to perform the following tests on the 6200 network element: • Ethernet port test (in the near and the far end network elements in daisy-chain).
  • Page 151 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 2xGE(o) interfaces on 4xGE + 4xFE circuit pack Action Step Action Connect the test equipment and the 6200 near and far 6200 network elements as shown in Figure 7-8 on page 7-42. Determine the type of protection required.
  • Page 152 Generate a loss of signal condition (LOS) on the working path by disconnecting the fiber. Traffic switches from the working to the protection path. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 153 Table 12-14 on page 12-13 based on the STM/OC value. Note: Repeat the same procedure for other Ethernet port/WAN2. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 154 7-42 System testing Figure 7-8 Testing Ethernet on 2xGE(o) interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 155: Testing Stm-1/4/16/64/Oc-3/12/48/192 Protection Switching With Traffic On 2Xge(E) Interfaces On 4Xge + 4Xfe Circuit Pack

    Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 2xGE(e) interfaces on 4xGE + 4xFE circuit pack Use this procedure to perform the following tests on the 6200 network element: • Ethernet port test (in the near and the far end network elements in daisy-chain).
  • Page 156 Testing STM-1/4/16/64/OC-3/12/48/192 protection switching with traffic on 2xGE(e) interfaces on 4xGE + 4xFE circuit pack Action Step Action Connect the test equipment and the 6200 near and far 6200 network elements as shown in Figure 7-9 on page 7-47. Determine the type of protection required.
  • Page 157 Generate a loss of signal condition (LOS) on the working path by disconnecting the fiber. Traffic switches from the working to the protection path. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 158 Table 12-14 on page 12-13 based on the STM/OC value. Note: Repeat the same procedure for other Ethernet port/WAN2. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 159 System testing 7-47 Figure 7-9 Testing Ethernet on 2xGE(e) interfaces 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 160: Testing 64G Pkt Sw Circuit Pack

    7-48 System testing Procedure 7-10 Testing 64G PKT SW circuit pack Use this procedure to perform the Ethernet frame drop test on the 6200 network element. Prerequisites • Make sure that all the optical connectors are cleaned. • Make sure that you have adequate number of optical test cords.
  • Page 161 Action Step Action Connect the test equipment and the 6200 network element as shown in Figure 7-10 on page 7-50 Set all the ports to dot1q mode. Create one Flow Point Template with FPCR for the CVLAN range 10 to 10.
  • Page 162 7-50 System testing Figure 7-10 Testing 64G PKT SW circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 163: Testing Traffic Probe

    System testing 7-51 Procedure 7-11 Testing Traffic Probe Use this procedure to perform the traffic probe test on the 6200 network element. Prerequisites • Make sure that all the optical connectors are cleaned. • Make sure that you have adequate number of optical test cords.
  • Page 164 On TS2, start the transmission of frames towards the port Eth-2. The frames should get dropped on the port as it is provisioned as a probe port. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena...
  • Page 165 Q-in-Q or the other way around. But port mirroring configuration persists. —end— Figure 7-11 Testing Traffic Probe 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 166: Testing Ethernet Parameter Retrieval Using Snmp

    7-54 System testing Procedure 7-12 Testing Ethernet parameter retrieval using SNMP Use this procedure to perform the following tests on the 6200 network element: • Test Ethernet parameter retrieval using SNMP. Prerequisites • A MIB browser like iReasoning. This is available for free download at the following location, http://ireasoning.com/mibbrowser.shtml...
  • Page 167 11 on page 7-56, and step 12 on page 7-56 can be tested using the iReasoning MIB browser. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 168 On executing the get operation in the iReasoning browser, the network element would return the previous day counter for that attribute which is mentioned in the OID. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 169 FRAMESCHECKSEQUENCEERROR ALIGNMENTERRORS OCTETSTRANSMITTEDOK FRAMESWITHDEFERREDXMISSIONS LATECOLLISIONS FRAMESABORTEDDUETOXSCOLLS OCTETSRECEIVEDOK FRAMETOOSHORTERRORS FRAMETOOLONGERRORS MULTICASTFRAMESXMITTEDOK BROADCASTFRAMESXMITTEDOK MULTICASTFRAMESRECEIVEDOK BROADCASTFRAMESRECEIVEDOK INTERNALMACRECEIVEERRORS COLLISIONS PAUSEFRAMESTRANSMITTED PAUSEFRAMESRECEIVED ETHERNETINTERVALVALID 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 170 FRAMESRXTX2047 FRAMESRXTX4095 FRAMESRXTX9216 EGRESSPORTDISCARDS STPBPDURX STPBPDUTX RSTPBPDURX RSTPBPDUTX MSTPBPDURX MSTPBPDUTX UCASTFRAMESRX UCASTFRAMESTX FCSERRORSTX RXOVERFLOW COSQ1ENQUEUEDISCARDS COSQ2ENQUEUEDISCARDS COSQ3ENQUEUEDISCARDS COSQ4ENQUEUEDISCARDS 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 171 FramesTx OctetsTx FCSErrorsRX FrameTooShortErrorRX PauseFramesRX PauseFramesTX BroadcastFramesRX BroadcastFramesTX MulticastFramesRX MulticastFramesTX FrameFragmentErrorTX FrameFragmentErrorRX FrameJabberErrorTX FrameJabberErrorRX serviceLookupFailureOctets IngressOtherDiscards MTU Discards 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 172 7-60 System testing Figure 7-12 MIB Browser 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 173: Verifying Association Between 6200 And Other Network Element

    System testing 7-61 Procedure 7-13 Verifying association between 6200 and other network element Use this procedure to verify association between the 6200 and other network elements in the network. Prerequisites Log into the network element WUI and access the NE information application.
  • Page 174 • Note: Table 1.1.3 Level1 RIB displays the MAC addresses of network elements discovered by the 6200 via iISIS. For more information, refer to Provisioning and Protection Switching Procedures, 009-6200-310. This verifies the association between 6200 and other network element in the network.

  • Page 175: Network Reconfiguration

    STM-4/OC-12, or STM-16/OC-48 for the node capacity of the network element. If the network element is equipped with two 60G MRO XC circuit packs, then the rate is STM-64/OC-192. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 176 Configuration with 15G MRO XC circuit pack Deleting an 6200 network element from a STM-64/OC-192 Procedure 8-8 ring Configuration with 60G MRO XC circuit pack Adding a 6200 node into a MS-SPRing/BLSR configuration Procedure 8-9 Deleting an 6200 node from a MS-SPRing/BLSR Procedure 8-10 configuration...

  • Page 177: Adding An 6200 Network Element To A Stm-1/Oc-3 Ring Configuration With 15G Mro Xc Circuit Pack

    15G MRO XC circuit pack Use this procedure to add an 6200 network element in a ring network. Consider an STM-1/OC-3 ring with A, B, C, and D as 6200 network elements. Figure 8-1 on page 8-9. Network element E is to be added in to the ring...

  • Page 178: Adding An 6200 Network Element To A Stm-4/Oc-12 Ring Configuration With 15G Mro Xc Circuit Pack

    8-4 Network reconfiguration Procedure 8-1 (continued) Adding an 6200 network element to a STM-1/OC-3 ring configuration with 15G MRO XC circuit pack Step Action Add pass-through connections on node E on port 1-4-3 and 1-2-3, matching the connections between port 1-2-3 on node D and port 1-4-3 on node B respectively.
  • Page 179 15G MRO XC circuit pack Use this procedure to add an 6200 network element in a ring network. Consider an STM-4/OC-12 ring with A, B, C, and D as 6200 network elements. Figure 8-1 on page 8-9. Network element E is to be added in to the ring...
  • Page 180 8-6 Network reconfiguration Procedure 8-2 (continued) Adding an 6200 network element to a STM-4/OC-12 ring configuration with 15G MRO XC circuit pack Step Action Add pass-through connections on node E on port 1-4-3 and 1-2-3, matching the connections between port 1-2-3 on node D and port 1-4-3 on node B respectively.
  • Page 181 Adding an 6200 network element to a STM-16/OC-48 ring configuration with 15G MRO XC circuit pack Use this procedure to add an 6200 network element in a ring network. Consider an STM-16/OC-48 ring with A, B, C, and D as 6200 network elements.
  • Page 182 8-8 Network reconfiguration Procedure 8-3 (continued) Adding an 6200 network element to a STM-16/OC-48 ring configuration with 15G MRO XC circuit pack Step Action Add pass-through connections on node E on port 1-4-3 and 1-2-3, matching the connections between port 1-2-3 on node D and port 1-4-3 on node B respectively.
  • Page 183 Network reconfiguration 8-9 Figure 8-1 Configuration after adding an 6200 network element to the ring with 15G MRO XC circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena...
  • Page 184 8-10 Network reconfiguration Figure 8-2 Configuration after adding an 6200 network element to the ring with 15G MRO XC circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena...
  • Page 185 Adding an 6200 network element to a STM-64/OC-192 ring configuration with 60G MRO XC circuit pack Use this procedure to add an 6200 network element in a ring network. Consider an STM-16/OC-48 ring with A, B, C, and D as 6200 network elements.
  • Page 186 8-12 Network reconfiguration Procedure 8-4 (continued) Adding an 6200 network element to a STM-16/OC-48 ring configuration with 15G MRO XC circuit pack Step Action Add pass-through connections on node E on port 1-4-5 and 1-2-5, matching the connections between port 1-2-5 on node D and port 1-4-5 on node B respectively.
  • Page 187 Network reconfiguration 8-13 Figure 8-3 Configuration after adding an 6200 network element to the ring with 60G MRO XC circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena...
  • Page 188 8-14 Network reconfiguration Figure 8-4 Configuration after adding an 6200 network element to the ring with 60G MRO XC circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena...
  • Page 189 Configuration with 15G MRO XC circuit pack Use this procedure to delete an 6200 network element from a ring network. Consider an STM-1/OC-3 ring with A, B, C, and D as 6200 network elements. Figure 8-5 on page 8-21. Network element C is to be deleted from the ring...

  • Page 190: Deleting An 6200 Network Element From A Stm-1/Oc-3 Ring Configuration With 15G Mro Xc Circuit Pack

    8-16 Network reconfiguration Procedure 8-5 (continued) Deleting an 6200 network element from a STM-1/OC-3 ring Configuration with 15G MRO XC circuit pack Step Action Check for the pass through cross-connects with the neighboring network elements B and D. If the pass through...

  • Page 191: Deleting An 6200 Network Element From A Stm-4/Oc-12 Ring Configuration With 15G Mro Xc Circuit Pack

    Use this procedure to delete an 6200 network element from a ring network. Consider an STM-4/OC-12 ring with A, B, C, and D as 6200 network elements. Figure 8-5 on page 8-21. Network element C is to be deleted from the ring...
  • Page 192 8-18 Network reconfiguration Procedure 8-6 (continued) Deleting an 6200 network element from a STM-4/OC-12 ring Configuration with 15G MRO XC circuit pack Step Action Check for the pass through cross-connects with the neighboring network elements B and D. Then go to...

  • Page 193: Deleting An 6200 Network Element From A Stm-16/Oc-48 Ring Configuration With 15G Mro Xc Circuit Pack

    Deleting an 6200 network element from a STM-16/OC-48 ring Configuration with 15G MRO XC circuit pack Use this procedure to delete an 6200 network element from a ring network. Consider an STM-16/OC-48 ring with A, B, C, and D as 6200 network elements. See Figure 8-5 on page 8-21.
  • Page 194 8-20 Network reconfiguration Procedure 8-7 (continued) Deleting an 6200 network element from a STM-16/OC-48 ring Configuration with 15G MRO XC circuit pack Step Action Check for the pass through cross-connects with the neighboring network elements B and D. Then go to...
  • Page 195 Network reconfiguration 8-21 Figure 8-5 Configuration before deleting an 6200 from the ring with 15G MRO XC circuit pack Figure 8-6 Configuration after deleting an 6200 from the ring with 15G MRO XC circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1...

  • Page 196: Deleting An 6200 Network Element From A Stm-64/Oc-192 Ring Configuration With 60G Mro Xc Circuit Pack

    Deleting an 6200 network element from a STM-64/OC-192 ring Configuration with 60G MRO XC circuit pack Use this procedure to delete an 6200 network element from a ring network. Consider an STM-64/OC-192 ring with A, B, C, and D as 6200 network elements. See Figure 8-7 on page 8-24.
  • Page 197 Network reconfiguration 8-23 Procedure 8-8 (continued) Deleting an 6200 network element from a STM-64/OC-192 ring Configuration with 60G MRO XC circuit pack Step Action Check for the pass through cross-connects with the neighboring network elements B and D. Then go to...
  • Page 198 8-24 Network reconfiguration Figure 8-7 Configuration before deleting an 6200 from the ring with 60G MRO XC circuit pack Figure 8-8 Configuration after deleting an 6200 from the ring with 60G MRO XC circuit pack 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1...

  • Page 199: Adding A 6200 Node Into A Ms-Spring/Blsr Configuration

    Network reconfiguration 8-25 Procedure 8-9 Adding a 6200 node into a MS-SPRing/BLSR configuration Use this procedure to add an 6200 network element in a MS-SPRing/BLSR network. Consider an STM-64/OC-192 ring with Nodes X, A, C as 6200 network elements. See Figure 8-9 on page 8-27.
  • Page 200 8-26 Network reconfiguration Procedure 8-9 (continued) Adding a 6200 node into a MS-SPRing/BLSR configuration Step Action Check Section-Trace at the links. Check for alarms at Node X, Node A and Node C. Release Forced switch from Node A and Node C.
  • Page 201 Network reconfiguration 8-27 Figure 8-9 Adding an 6200 node into a MS-SPRing/BLSR configuration 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 202: Deleting An 6200 Node From A Ms-Spring/Blsr Configuration

    Deleting an 6200 node from a MS-SPRing/BLSR configuration Use this procedure to delete an 6200 network element from a MS-SPRing/BLSR network. Consider an STM-64/OC-192 ring with Nodes X, A, C as 6200 network elements. See Figure 8-10 on page 8-30. The procedure provides the steps to delete the Node X between Nodes A and C from the MS-SPRing/BLSR configuration.
  • Page 203 Network reconfiguration 8-29 Procedure 8-10 (continued) Deleting an 6200 node from a MS-SPRing/BLSR configuration Step Action Apply a lockout of protection on one of the MS-SPRing/BLSR interfaces for each of the nodes except Node X. Update MS-SPRing/BLSR Ring Map on all nodes of the ring on the WUI.
  • Page 204 8-30 Network reconfiguration Figure 8-10 Deleting an 6200 node from a MS-SPRing/BLSR configuration 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 205: Cleaning Connectors

    Precautions CAUTION Risk of shelf malfunction Ciena recommends that you do not use cellular phones at any 6200 site. The use of cellular phones in proximity to 6200 equipment can cause shelf malfunction. CAUTION Risk of personal injury Do not look into the end of fiber-optic connectors or into faceplate connectors of installed circuit packs.
  • Page 206 Inspecting and cleaning optical interface internal Procedure 9-1 connectors and fiber Cleaning optical connectors and adapters on patch Procedure 9-2 cords 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 207: Inspecting And Cleaning Optical Interface Internal Connectors And Fiber

    Inspect the port and verify that is it clean and free of impurities. Note: If you are not using the optical port immediately, install a clean dust cap. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 208: Cleaning Optical Connectors And Adapters On Patch Cords

    Ensure there is no laser light in the fiber-optic cable that you want to scope. Turn on the light in the fiber microscope. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 209 Use small amounts of alcohol to clean optical connectors. Note: Always use a new cloth. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 210 Note: If the fiber-optic is still dirty or scratched after multiple attempts of cleaning, polish or replace the fiber-optic. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 211 Hold the adaptor retainer and lock it in by pushing it into the connector. Repeat step 16 step 17 for the second connector and adapter. You have completed this procedure. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 212 9-8 Cleaning connectors Figure 9-1 LC connector assembly Plug retainer Ferrule Guide 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 213 Diameter of 115 microns - "cladding" Zone C = Dark zone around the cladding - epoxy Zone D = White band - ferrule 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 214 9-10 Cleaning connectors Figure 9-3 Dirty optical fiber Figure 9-4 Clean optical fiber 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 215 Procedure 10-3 Inserting circuit packs Procedure 10-4 Ejecting circuit packs Procedure 10-5 Installing and removing pluggable modules Procedure 10-6 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 216: 10-2 Common Procedures

    Procedure 10-1 Inserting the power supply unit-DC PSU/Fan+OAM/ Fan+OAMV2 module Use this procedure to insert a power supply unit-DC PSU/Fan+OAM/ Fan+OAMV2 module in an 6200. Prerequisites • Make sure that a manual Phillips flat and star screwdriver is available. CAUTION...
  • Page 217 Slide in the power supply unit-DC PSU/Fan+OAM/Fan+OAMV2 module along the guide ways provided on the chassis. Insert the power supply unit-DC PSU/Fan+OAM/Fan+OAMV2 module securely to the backplane of the 6200 network element. Fasten the module to the chassis using a manual Phillips (PH1) screwdriver. CAUTION...

  • Page 218: Ejecting The Power Supply Unit-Dc Psu/Fan+Oam/ Fan+Oamv2 Module

    Procedure 10-2 Ejecting the power supply unit-DC PSU/Fan+OAM/ Fan+OAMV2 module Use this procedure to eject the power supply unit-DC PSU/Fan+OAM module in an 6200 network element. Fan+OAMV2 Prerequisites • Make sure that a manual Phillips flat and star screwdriver is available.
  • Page 219 Pull out the module using the puller along the guide way. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation...
  • Page 220 Use this procedure to insert or eject the power supply unit-APU290 on base chassis of an 6200 network element. Note: The 6200 network element supports APU290 in redundant configuration only. A combination of AC and DC power supply source is not supported on the base chassis.
  • Page 221 Slide in the power supply unit-APU290 along the guide ways provided on the chassis. Insert the power supply unit securely to the backplane of the 6200 network element. Fasten the unit to the chassis using a manual Phillips (PH1) screwdriver.
  • Page 222 Eject the power supply unit and pull out the unit using the puller along the guided way. You have completed removing the power supply unit successfully. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 223: Inserting Circuit Packs

    Common procedures 10-9 Procedure 10-4 Inserting circuit packs Use this procedure for inserting the circuit pack in an 6200 network element. The circuit pack is provided with latches that aid in the insertion and ejection from the chassis. You can use this procedure for inserting following circuit packs: •...
  • Page 224 LED turns on. If the red LED turns on, the circuit pack has faults and must be returned to Ciena. For full details on LED indications, refer to Table 4-1,Table 4-2, and Table 4-8 of Trouble Clearing and Module Replacement Procedures, 009-6200-543.

  • Page 225: Ejecting Circuit Packs

    Common procedures 10-11 Procedure 10-5 Ejecting circuit packs Use this procedure to eject the circuit pack from an 6200 network element. You can use this procedure for following circuit packs: • 63xE1DS1 circuit pack • 6xE3DS3 circuit pack • 63xE1DS1WP circuit pack •...
  • Page 226 Figure 10-1 Inserting and ejecting circuit packs Injection Injection Ejection Ejection Fully injected Trib card Fully ejected Trib card 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 227: Installing And Removing Pluggable Modules

    Note: If the latch is not closed when you insert the SFP/XFP module, the module can jam inside the receptacle in the circuit pack faceplate. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena...
  • Page 228 Perform a manual switching to switch traffic away from the SFP/XFP that is to be replaced. Go to step 9 on page 10-15. Refer to Provisioning and Protection Switching Procedures, 009-6200-310 for details. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1...
  • Page 229 8, or the manual switch request issued at step You have completed the removing of the pluggable module. —end— 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 230 10-16 Common procedures Figure 10-2 XFP/SFP module Latch Figure 10-3 XFP/SFP module installation 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 231 009-6200-201 11-1 Cable color coding This chapter provides color coding details of various cables, used for installing of the 6200 network element. Chapter table list Table 11-1 lists the cables and the respective tables providing color coding details. Refer to the Planning Guide S78-1002-110, for PEC codes and connector pinouts.

  • Page 232: 11-2 Cable Color Coding

    Critical White ALARMOUT_1_COM Orange ALARMOUT_2 Major White ALARMOUT_2_COM Green ALARMOUT_3 Minor White ALARMOUT_3_COM Brown ALARMOUT_4 Unused White ALARMOUT_4_COM 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 233 Alarm in cable Color code Signal Pair RJ-45 Blue White ALARMIN_4 Orange White ALARMIN_3 Green White ALARMIN_2 Brown White ALARMIN_1 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 234 ESI-Clk cable (USB to RJ45 Coupler) Color code Signal RJ-45 End Pair Brown ESI_CLKIN_N Brown-Grey ESI_CLKIN_P REFCLK_OUT_N Red-Grey REFCLK_OUT_P 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 235 Table 11-8 LAN / Craft cable Color code Signal RJ-45 RJ-45 Blue White Orange UNUSED UNUSED White UNUSED UNUSED 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 236 RING-Tx12 WHITE BROWN TIP-Tx13 BROWN RING-Tx13 WHITE TIP-Tx14 GREEN RING-Tx14 WHITE TIP-Tx15 ORANGE RING-Tx15 WHITE TIP-Tx16 BLUE RING-Tx16 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 237 GRAY RING-Tx28 WHITE TIP-Tx29 BROWN RING-Tx29 WHITE TIP-Tx30 GREEN RING-Tx30 WHITE TIP-Tx31 ORANGE RING-Tx31 WHITE TIP-Tx32 BLUE RING-Tx32 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 238 RING-Rx12 WHITE BROWN TIP-Rx13 BROWN RING-Rx13 WHITE TIP-Rx14 GREEN RING-Rx14 WHITE TIP-Rx15 ORANGE RING-Rx15 WHITE TIP-Rx16 BLUE RING-Rx16 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 239 GRAY RING-Rx28 WHITE TIP-Rx29 BROWN RING-Rx29 WHITE TIP-Rx30 GREEN RING-Rx30 WHITE TIP-Rx31 ORANGE RING-Rx31 WHITE TIP-Rx32 BLUE RING-Rx32 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 240 Signal RJ-45 RJ-45 Brown UNUSED Brown-Grey UNUSED ESIDATA_BAL_RXP Orange-Grey UNUSED Orange UNUSED Red-Grey ESIDATA_BAL_RXN Yellow ESIDATA_BAL_TXP Yellow-Grey ESIDATA_BAL_TXN 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...

  • Page 241: Recording Data And Test Results

    Make a copy of form 1 and complete the commissioning and testing report form before performing the commissioning process. Fill the other forms as you complete the tests during 6200 network element commissioning process. 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1...
  • Page 242 Name of the customer Location Ethernet IP Router ID Ciena representative name Signature Customer representative name Signature Date 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 243 STM-1/ STM-4/ STM-16/ STM-64/ STM-1/ STM-4/ STM-16/ STM-64/ OC-3 OC-12 OC-48 OC-192 OC-3 OC-12 OC-48 OC-192 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 244 STM-1/ STM-4/ STM-16/ STM-64/ STM-1/ STM-4/ STM-16/ STM-64/ OC-3 OC-12 OC-48 OC-192 OC-3 OC-12 OC-48 OC-192 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 245 Recording data and test results 12-5 Table 12-2 (continued) Test performance 63xE1DS1 WP 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 246 Result STM-1/OC-3 STM-4/OC-12 STM-16/OC-48 STM-64/OC-192 Table 12-4 Test performance 12xE3DS3 WP port number Result STM-1/OC-3 STM-4/OC-12 STM-16/OC-48 STM-64/OC-192 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 247 STM-1/OC-3 STM-4/OC-12 STM-16/OC-48 STM-64/OC-192 Table 12-7 Test performance 6G PKT SW port number Result STM-1/OC-3 STM-4/OC-12 STM-16/OC-48 STM-64/OC-192 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 248 Table 12-8 Test performance 64G PKT SW port number Tx Count (Frames) Rx Count (Frames) Dropped Count (Frames) 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 249 L16.2 Receiver sensitivity S16.1 (dBm) L16.1 L16.2 Tx output power S64.1 (dBm) L64.1 Receiver sensitivity S64.1 (dBm) L64.1 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 250 Ethernet protection switching for 2xGE(o) on 4xGE + 4xFE circuit pack Work to protect Protect to work E3/DS3 protection switching Work to protect Protect to work 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 251 E3/DS3 protection switching Work to protect Protect to work E3/DS3 WP protection switching Work to protect Protect to work 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 252 E3/DS3 protection switching Work to protect Protect to work E3/DS3 WP protection switching Work to protect Protect to work 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 253 E3/DS3 protection switching Work to protect Protect to work E3/DS3 WP protection switching Work to protect Protect to work 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 254 12-14 Recording data and test results 6200 Packet-Optical Platform Installation, Commissioning, and Testing Procedures Release 1.1 009-6200-201 Draft Issue 1 © ® Copyright 2014 Ciena Corporation September 2014...
  • Page 256 ® Copyright 2014 Ciena Corporation. All rights reserved. Release 1.1 Publication: 009-6200-201 Document status: Draft Issue 1 Document release date: September 2014 CONTACT CIENA For additional information, office locations, and phone numbers, please visit the Ciena web site at www.ciena.com...

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