Home

OSM6500 Installation Guide

image

Contents

1. 6 1 Preparations 6 1 1 Checking the Packing Case Before unpacking check the condition of the packing case and the consistency of the packing information with your purchase contract If the packing case is damaged or the packing information is incorrect keep them as they are and contact your local MRV representative Caution 6 1 2 Environmental Requirements There should be basically no vibrations and no strong electromagnetic interference There should also be good es FAM RV Part 1 Installing Guide anti static capability and spacious ground with low dust density WN It s recommended to unpack inside the equipment room or near it so as to avoid difficulty of handling or damaging the equipment Note 6 2 Unpacking and Checking the Equipment 6 2 1 Chassis Unpacking Operation 1 Structure of Packing Case The packing case for the OSM6500 switch series uses the assembled wooden box fastened with plastic buckles as shown in Figure 6 1 The case contains such packing materials as foam bolsters plastic bags and desiccant The chassis is contained in a plastic bag and protected with foam bolsters in its upper and lower part as well as its four edges and the foam bolsters are firmed by the connection of paperboard First place the packing cases by the marks on the case body After unpacking take out the equipment and accessories from the case and dismantle the packing materials FAA R
2. AMRY OSM 6500 Installation Guide OSM6500 Series User Manual Document No OSM6500_IG_ 12122005 FCC Warning This device has been tested and confirmed to meet the limits for a Class A device complying with Part 15 of the FCC Rules These limits are placed to provide appropriate protection against harmful interference when the equipment is used ina commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with this user s guide may cause interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference and you will be required to correct the interference at your own expense Modifying the device not authorized by MRV Communications Inc may result in the equipment no longer meeting FCC requirements for Class A devices Therefore your right to use the equipment may be impaired by FCC regulations and you may be required to remove any interference to radio or television communications at your own expense You can determine whether your equipment is Causing interference by turning it off If the interference stops it was probably caused by the MRV Communications Inc equipment Take appropriate measures to remove the interference if it happens Modifications to this product without MRV Communications Inc s written authorization could void the FCC approval and disqualify yo
3. Fastening Alarm buzzer mute key OSM6500 FM Console ey Naaa S EEA 0 0 OO O ystem indicator Outband management interface FAN Alarm indicator Console configuration interface Alarm indicator of power mudule 1 to 3 Users need to configure the OSM6508 through the Console or MGT FE W port of the main control module For the OSM6502 that does not support the main control module Users need to configure it through the Console port of the service module in Slot 1 or through the Reserved interface if no console port is available 2 Caution FAM RV Part 1 Installing Guide 2 OSM6500 FM interface attributes Table 2 2 Interface attributes of the OSM6500 FM module Interface Quan Interface Interface Description name tity type attributes Console l RJ 45 RS 232 Used for configuration MGT FE 1 RJ 45 10 100Base T Used for out band 3 LED indicators of OSM6500 FM Table 2 3 LED description of the OSM6500 FM module LED indicator name POWERI POWER2 POWER3 FAN Alarm System LINK Power supply alarm indicator Fan alarm indicator System state indicator MGT FE interface status indicator Color Green Red Green Red Green Green Status Constantly on Constantly on Flashing slowly Flashing fast Off Constantly on Constantly on Constantly on Flashing Off Constantly on Off Flashing management Description The power supply is in position and in normal opera
4. ccccscsssscsssssssssssssssssssecsssssecsssesecssassesesesessesesesenseessatassesesas 6 1 6 2 Unpacking and Checking the EQuipMen l cccccccessssssssssssssssssssessessssessssssssesssassesesesessesssetensess 6 2 6 2 1 Chassis Unpacking Operation cccsccescsssssssssssssssssssssesssesscscsesesacscseseseseceseseseresesasassssesas 6 2 6 2 2 Operation of Unpacking Rack M ounted Modules ju ceeessesesssseessessessesesesssteseeeeees 6 3 6 3 Unpacking ENS COUNT sassi E 6 4 c 6 3 1 Structure of Packing C asenaan einen eee 6 4 23 2 OEE AU OM sacra ectacice sates ietaaedaaeg teed aaa 6 4 6 4 Acceptance Of EQUIPMENL ccsssscssssssssssssssscsssssssssecscsesssscscsesesacsuseesacsesesecasaesesavasaesesesassesesataneess 6 6 6 4 Acceptance PFO CEG UNG aoan a a 6 6 6 4 2 Signature FOr Confirmation cccsssscssssesssssssssscsssssesssssscsesesacacsesesasecsesececssseseeasarsesesatansesesas 6 6 Chapter 7 Equipment Install ati On sssssssssssssssssssssssessssssssscsesssesesrssnecsesssesecoesssasaroeseseeeesesesosoesesssesseaessneraeaeas 7 1 7 1 Configuration List of Installation Tools and Engineering Packet ccesssessesseeeseeees 7 1 7 2 Installation Of Chassis into the CADINEL ccccsssssssssssssssssesscsesssscsssesesesecsesesesessesesasansesssatansesesas 7 2 7 3 Connection of Grounding Wire and Power Cablle cccccssssssssssssssssesssssssssssssssesessssssssaseeseees 7 4 7 3 1 Connecting the Grounding WITE ces
5. Chapter 2 Chapter 3 Chapter 4 Chapter 5 Chapter 6 Chapter 7 Chapter 8 Conventions series switch Product Hardware Architecture Separately describes the chassis structure slot structure rack type modules power distribution system and fan box of the OSM6500 series switch System Configuration List Describes the basic configuration list of the OSM6500 series switch and the basic configuration of the optional modules Safety Precautions Includes safe electric and equipment operations and avoidance of static and laser damages Environmental Requirements Describes the environmental requirements Unpacking inspection Introduces the packaging box and the unpacking of the equipment as well as the procedure and precautions of acceptance Equipment Installation Details the method for installing equipment hardware including the installation of switches into the cabinet and the rack type modules as well as the connection of ground wires with the power cables System Startup and Upgrading Describes system startup and upgrading of the OSM6500 series switch Conventions for icons are listed as follows Icon VW VWdming YV Caution D escription Notifies users that improper operation may cause damage to human body or equipment service disruption or data loss during the process of installation and service configuration This icon alerts users to some precautions AS This icon provides some text relate
6. Enter to execute it FAA RY Part 1 Installing Guide NN For the detailed introduction of the configuration commands and methods refer to the relevant software configuration manual and command reference Note manual 8 3 Upgrading the System Software The OSM6500 switch series supports software upgrading using TFTP Users can use TFTP to upgrade the version of the OSM6500 or configure the file management with the related commands provided on the chassis The method for downloading files from the TFTP server is as follows Step 1 Select an Ethernet interface from the OSM6500 for downloading the files Both the management interface on the main control module of the OSM6500 switch series and the Ethernet interface on the service module can be used to connect the TFTP server to download files Step 2 Configure the IP address on the VLAN of the Ethernet interface used for downloading files and that of the TFTP server These two IP addresses should be on the same network segment Here the supposed IP address of the TFTP server is 192 168 1 1 24 EESE FAA RY Part 1 Installing Guide Step 3 Run the TFTP Server program on the TFTP server Step 4 Key in the command aownioaa tftpos 192 168 1 10s bina11 tO start to download of the file os bin is the filename After the completion of downloading the system displays the following information Connecting to server 192 168 1 1 Downloading fi
7. OSM6500 24GE TX module is composed of the following parts 1 Reserved interface m 24 10 100M auto adaptive Ethernet interface and 48 interface status indicators labeled with LINK ACT or SPEED m 2 status indicators namely 1 power supply fan alarm indicator labeled with Alarm and 1 system status indicator labeled with System and m 2 ejector levers FAA RY Part 1 Installing Guide Figure 2 11 Front panel of the OSM6500 24GE TX module OSM6500 24GE TX DDOOD0N wan KA ARABIARRA Dou EN ATEISTIT Reversed port Alarm indicator System indicator V Caution 24 10 100 1000Base T interface Ejector lever Fastening screw Users need to configure the OSM6508 through the Console or MGT FE interface of the main control module For the OSM6502 that does not support the main control module users need to configure it through the Console port of the service module in Slot 1 or through the Reserved interface if no console port is available 2 Interface attributes of the OSM6500 24GE TX module Table 2 8 Interface attributes of the OSM6500 24GE TX module Interface Quan name tity GE 24 Interface type RJ 45 Interface attributes Max transmission distance 10 100 1000Base T 100m 3 LED indicator description of the OSM6500 24GE TX module Table 2 9 Indicator description of the module LED indicator name System System status indicator LINK Interface ACT st
8. cables of other power modules 7 3 3 Connecting the DC Power Cable The power input of the DC version OSM6500 switch series ranges from 38 58VDC Before the connection of the power supply please verify the specifications of the power supply to ensure the correct power is accessed to prevent the equipment from being damaged Connect the DC power cable following the procedures below step 1 Confirm that the power switches of the equipment are in the OFF status step 2 Cut out two pieces of power cable with the same length 7 8 FAA RY Part 1 Installing Guide one end of them is connected to the positive negative terminal of the DC power distribution cabinet provided by the equipment room step 3 Drag the other end of these cables to the rear of the chassis and connect the related power terminals by positive negative pole Figure 7 11 DC power cable connection of OSM6502 Step 4 Repeat Step 2 and 3 and connect the DC power cable at the other side FAA RY Part 1 Installing Guide 7 3 4 Power on Test To ensure the normal power supply of the chassis the no load power on test must be done to the chassis to check the running of power supply and fans before the main control module and service modules are formally installed If they are not running normally check whether the installation and connections are correct Once they are running normally switch off and go on to the following i
9. for installing the OSM6500 series into the cabinet is as follows WN If the chassis has been installed with the rack mounting ear users may skip Step and start from Step 2 directly Note step First the direction of the rack mounting ears connected to Bl ee FAA RY Part 1 Installing Guide the chassis should be correct before installation or else the chassis may not be able to be installed into the standard cabinet Use the screws among the accessories to fix the rack mounting ear onto the chassis as shown in the figure below OSM6502 for example Figure 7 1 Fixing the rack mounting ear onto the chassis of OSM6502 BET Step 2 Measure out an appropriate hole location on the cabinet in accordance with the hole diameter provided by the figure below to ensure each group of bolt holes on the ear to have at least one bolt hole on the corresponding cabinet And then make some marks near the bolt holes onthe corresponding cabinet FAA RY Part 1 Installing Guide Figure 7 2 Hole distance of the OSM6502 rack mounting ears as L016 Le OOO DO Figure 7 3 Hole distance of the OSM6508 rack mounting ears 1774 194 5 177 8 Step 3 The installation personnel should hand the two sides of the chassis and slowly push it inside in the direction of the front of the cabinet along the guide slot they may adjust the equipment according to the marks near the bolt holes until the bolt holes of the
10. main control module turns red and the buzzer sounds After pressing the BUZZER alarm mute key the buzzer will stop sounding an alarm and the user should replace the faulty power module in a timely manner 2 Power Distribution Frame AC power distribution frame The AC power distribution frame of the OSM6508 is located on 231 FAA RY Part 1 Installing Guide the bottom of the back panel of the chassis Its structure is as shown in the figure below m The power distribution frame provides three AC power sockets to access three channels of AC power to the corresponding power modules The clip ring at the bottom of the power socket Is used to fix the power cable m Three power modules share one output control switch m The handle in the middle of the power distribution frame facilitates the disassembly of the AC power distribution frame m The ventilation hole on the panel of the power distribution frame is for the heat dissipation of the power supply m Reserved power supply interfaces are used for the further extension Figure 2 21 AC power distribution frame of OSM6508 Power Reserved power switch AC power socket supply interface rl Se E E ee ee a a TE EAE r E E ETE he ee eT aol Clip ring handle DC power distribution frame The DC power distribution frame of the OSM6508 is on the bottom of the back panel of the chassis Its structure is as shown in the figure below m Two channels of DC
11. series supports service modules of many types provides flexible combination of diverse interfaces including 100M to 10G Ethernet and POS and can meet the requirements of users in different fields Perfect security mechanism The OSM6500 supports the binding based on MAC address address group and provides L2 security The EESE FAA RY Part 1 Installing Guide quintuple based ACL provides differentiated protection for users at higher levels In addition the diverse routing protocols supply multiple authentication methods such as plaintext authentication and MDS5 for the higher level security protection The black hole routing technique adopts a dropping policy in the case of malicious attacks and can protect network stability to the largest extent Perfect network management The OSM6500 supports Telnet network management and the SNMP Agent function to collect management information MRV s MegaVision Pro management system is used to implement complete management monitoring and maintenance of networks 1 2 Product Specifications Table 1 1 Specification of OSM6500 switch series Product specifications OSM6502 OSM6508 Dimensions H x D x W 175 x 427 7 x 436 619 5 x 450 x 436 mm Empty chassis weight 16 kg 39 kg Number of slots 2 8 Slot depth mm 355 24 355 24 Power AC input voltage 100 240VAC 3 Product specifications supply DC input voltage AC power supply frequency Maximum output pow
12. wires Two BEZE FAA RY Part 1 Installing Guide twisted wires are identified by the color of the external insulation layer of the thin wires In general a single color and a single color plus white are used to identify a twisted pair or two matching colors are sometimes used for pair identification According to this method of identification the eight core thin wires of a Category 5 twisted pair can be divided into four pairs Orange orange white blue blue white green green white brown brown white Usually there are two kinds of Ethernet cables for connecting two Ethernet devices which are the straight through cable and the crossover cable respectively The following figures show respectively the connection methods of a straight through cable and a crossover cable Selection shall be based on the application requirements In the figures SIDE1 and SIDE2 indicate the two ends of the network cable respectively while numbers 1 8 represent the line sequence at the two ends Part 1 Installing Guide Figure 2 33 Make the straight through cable Pin Arrangement of E l Straight throught Network Cable See SIDE 1 SIDE 2 SIDE 1 SIDE 2 1l 1 orange white 1 orange white 2 _ 2 2 orange 2 orange 3 3 3 green white 3 green white 4 4 4 blue 4 blue 5 _ 5 5 blue white 5 blue white 6 HL 6 6 green 6 green 7 1
13. 00 ESM Service modules 2 8 FAA RY Part 1 Installing Guide The main control module is the basic configuration module of OSM6508 users can select two kinds of main control module OSM6500 FM and OSM6500 FM2 and the latter of these two has a more powerful processing Caution res capability 2 Installation Requirements 1 OSM6502 service modules can be installed in any slot on the OSM6502 Main control modules are not used in the OSM6502 OSM6502 Slot 1 Service module Slot2 Service module 2 OSM6508 From top to bottom slot numbers are sequential from 1 to 8 on the OSM6508 The requirements for module installation are as follows FAM RV Part 1 Installing Guide Figure 2 7 Slot requirements for module installation on OSM6508 OSM6508 OSM6508 pe Slot 1 Service module Ez Slot 1 Service module Slot2 Service module 2 Service module Slot2 Service module 2 Service module Slot3 Service module 3 Service module Slot3 Service module 3 Service module Slot4 Main control module 4 Main control module Slot4 Main control module 4 Main control module Slot5 Main control module Slot 5 Service module Slot6 Service module Slot6 Service module Slot 7 Service module Slot 7 Service module Slot 8 Service module Slot 8 Service module m f only one main control module is to be installed it has to be in Slot 4 leaving the other slots for service modules or blank front panels m If
14. 3 Requirements for Lightning Protection m The height of the equipment room should comply with the anti lightning requirements for the second category civil buildings and constructions when it is above 15m m The equipment room should have measures against direct strike lightning In lightning stricken areas protective measures against side strike lightning should be available For example connect the metal external window frame to the lightning protection ground wire along the height of building metal lightning protection bands should be set in a definite spacing on the face of the outside wall m The following lightning protection measures are to be taken for the main building In building positions prone to suffer from lightning strikes users should install lightning arrester nets or lightning arrester bands Objects protruding on top of the building such as chimneys antennas etc aerial lightning prevention wire or lightning rods should be installed on the top for protection The grounding wire of lightning protection device should not be smaller than 2mm and its Spacing should not be larger than 30 meters m The grounding resistance of the building lightning protection grounding device should be no more than 10 ohm Before external cables and metal pipes etc are introduced into the building they should be grounded When outdoor aerial cables directly enter a room the lightning arrester should be installed at the entrance At the top of chi
15. 7 7 brown white 7 brown white 8 1m1 8 8 brown 8 brown Figure 2 34 Make the cross over cable Pin Arrangement of Gigabit Electrical E Interface Class 5 unshielded twisted wire ee SIDE 1 SIDE 2 SIDE 1 SIDE 2 1 1 1 orange white 1 green white 2 2 2 orange 2 green 3 3 3 green white 3 orange white 4 4 4 blue 4 brown white 5 5 5 blue white 5 brown 6 6 6 green 6 orange 1 7 7 brown white 7 blue 8 8 8 brown 8 blue white FAA RY Part 1 Installing Guide System Configuration List 3 1 Basic Configuration List Table 3 1 OSM6502 basic configuration list Item Part name OSM 6502 AC OSM 6502 DC configuration configuration l Chassis 1 PCS 1 PCS 2 power module 2 PCS 2 PCS 3 Anti static wrist strap 1 PCS 1 PCS 4 Console cable 1 PCS 1 PCS 5 Power cable 2 PCS 2 pairs 6 Grounding cable _ 1 PCS Table 3 2 OSM6508 basic configuration list Item Part name OSM6508 AC OSM6508 DC configuration configuration l Chassis 1 PCS 1 PCS 2 OSM6500 FM or 1 or 2 PCS 1 or 2 PCS OSM6500 FM2 3 power module 2 or 3 PCS 2 or 3 PCS 4 Anti static wrist strap 1 PCS 1 PCS 5 Console cable 1 PCS 1 PCS 6 Power cable 2 or 3 PCS 2 pairs 7 Grounding cable EFON 1 PCS 3 2 Optional component list Table 3 3 Optional component list Item Part name maximum configurations OSM6502 OSM6508 jl OSM6500 48FE TX 2 6 or 7 2 OSM6500 24GE TX 2 6 or 7 3 OSM6500 24GE SFP 2 6 or 7 4 OSM6500 2x 10G XEN 2 6 or 7 5
16. ATN r me OEY Pv n m vw K av cm eC CCUM GC A a ENNNNT C SLD sf N s ie Sad 1 Dust proof filter screen 2 Power Distribution Frame 3 Power switch 4 Power socket 3 5 Power socket 2 6 Reverse pulled handle 7 Power socket 1 8 Reserved port 9 Grounding rod 10 Reverse pulled handle 11 Back cover panel FAA RY Part 1 Installing Guide Except for the power distribution frame other parts of the DC version OSM6508 rear architecture are the same as those of the AC version product The DC power distribution frame is described in detail in the following chapters 2 2 Rack Mounted Modules 2 2 1 Rack Mounted Module Types and Installation Requirements 1 Rack Mounted Module Types OSM6500 switches adopt a modular architecture with multiple optional modules to provide users with the flexibility in the choice of modules and expansion as required These optional modules consist of one main control module and multiple service modules The main control module is used only on the OSM6508 not on the OSM6502 The OSM6500 module types are shown below Table 2 1 Module types supported by and with which the OSM65 switch series are compatible Item Module Module type 1 OSM6500 FM Main control module 2 OSM6500 FM2 Main control module 3 OSM6500 48FE TX Service modules 4 OSM6500 24GE TX Service modules 5 OSM6500 24GE SFP Service modules 6 OSM6500 2x10G XEN Service modules 7 OSM65
17. M2 module as shown in the figure below comprises the following parts m 1 Console port m 1 MGT FE outband management interface m 2M Bits clock signal input output interface m 7 status indicators Alarm indicator for power module 1 alarm indicator for power module 2 alarm indicator for power module 3 alarm indicator for fans alarm indicator for system running status status indicator for the hard disk and status indicator for the PC card m An alarm buzzer and buzzer mute key Bd eee FAA RY Part 1 Installing Guide m 1LCD monitor and a backlight control key SET for the system information display m 1PCcard slot and 1 PC card status indicator labeled with Active and m 2 ejector levers Figure 2 9 Front architecture of the OSM6500 FM 2 Harddisk indicator PC Card indicator and slot Fastening Alarm buzzer mute key 2M bits interface System indicator LCD and Outband management interface Fan Alarm indicator conn Console configuration interface Alarm indicator of power module 1 to 3 Users need to configure the OSM6508 through the Console or MGT FE y interface of the main control module For the OSM6502 that does not support the main control module users Caution need to configure it through the Console port of the service module in Slot 1 or through the Reserved interface if no console port is available Connect to the MGT FE port with a crossover cable Caution Y OSM6500 FM2 can r
18. OSM6500 ESM 1 5 or 6 ll eee FAA RY Part 1 Installing Guide Safety Precautions In operation users must observe the safety precautions and indications of relevant equipment and products and the precautions described in this manual only serve as supplements 4 1 Safe Electrical Operations 1 Directly contact or indirectly contacting the high voltage electric supply through moist objects may be fatal 2 The high voltage operations that are not standard and correct may result V ming in accidents such as fire and electric shock and even fatal m Please observe the local safety specification in the electrical operations The relevant personnel must be qualified to conduct high voltage and AC power operations m Inthe operation of AC power supply equipment and cables such electricity conductive objects as watches bracelets and rings are prohibited to wear m The equipment must be kept dry and the power supply must be immediately turned off once if it becomes wet m In electric operations special tools must be applied 4 2 Prevention from Static Damage FAA RY Part 1 Installing Guide The static electricity generated from the human body can damage the WY static sensitive components of the equipment Before contacting the equipment an anti static wrist strap must be worn and the other end of the Va ming wrist strap must be properly grounded 4 3 Prevention from Laser Damages Y To preven
19. Y Part 1 Installing Guide Figure 6 1 Packing case for chassis 2 Working Procedure 1 Remove the external packing materials and the accessory box Place the packing cases by the marks on the case body and dismantle the plastic buckles around the top cover panel with a claw hammer or a screwdriver to open the upper cover panel and take out the accessory box and the foam bolster at the top of the chassis 2 Remove the packing materials of the equipment Remove such packing materials as foam bolsters from the 3 FAA RY Part 1 Installing Guide equipment and carefully drag out the OSM6500 And then remove the packing bags When the OSM6500 is moved from a dry place at lower temperature to a WV wet place at high temperature do not unpack the bags until 30 minutes later otherwise the moisture will get condensed on the OSM6500 surface and possibly damage the equipment The OSM6500 must be handled carefully due to its heavy weight Caution 3 Take out the accessories Take the accessories out of the accessory box and remove the plastic packing bags 6 2 2 Operation of Unpacking Rack Mounted Modules The unpacking case of the rack mounted modules is generally a cardboard box in which such packing materials as foam bolsters anti static plastic bags and desiccants are contained After unpacking the box anti static wrist straps should be worn when the rack mounted modules are taken out of the anti stat
20. as shown in the table below Table 2 17 XENPAK module type XENPAK module type Specification XENPAK 10G SR XENPAK optical transceiving module 10 GbE Multi mode 850 nm 10 km SC optical connector 3 3 V XAUI electrical interface XENPAK 10G LR XENPAK optical transceiving module 10 GbE Single mode 1310 nm 10 km SC optical connector 3 3 V XAUI electrical interface XENPAK 10G LR XENPAK optical transceiving module 10 GbE single mode 1550 nm 40 km SC optical connector 3 3V XAUI electrical interface 2 4 Power Distribution System The OSM6508 s power distribution system mainly consists of the power module and the power distribution frame As the OSM6502 requires less power it is designed in a simpler way It s power distribution system only includes the power module The OSM6500 series support two kinds of chassis AC and DC which differ in the structure of the power distribution system 2 4 1 OSM6502 Power Distribution System The power distribution system of the OSM6502 is in the 1 1 redundancy working mode On the front panel of the chassis are the power indicator and the alarm buzzer mute key which es 227 FAM RV Part 1 Installing Guide are respectively labeled with RUN and BUZZER as shown in the figure below If the two power modules in 1 1 redundancy mode works normally the buzzer will not issue alarms and the RUN indicator is green If one module is abnormal the RUN indicator turns orange and the buzzer sounds an alarm Th
21. atus indicator SPEED Color Green Green Green Status Constantly on Off Flashing Constantly on Flashing Constantly Description The module is being enabled The module is not powered on or works abnormally The module is working normally Stable connection to the port is established The port is receiving and transmitting data The port works in the 1000Mbps mode The port works in the 1OM 100Mbps mode Part 1 Installing Guide shown by the FAN Alarm indicator of the main control module The Alarm indicator of the service module is invalid For the OSM6502 it is shown by the Alarm indicator of the service module If fans or power supply fails the red alarm indicator will get on WV For the OSM6508 the functioning status of fans and power supply alarm is Caution 2 2 6 OSM6500 24GE SFP Module 1 Structure of the OSM6500 24GE SFP Module As shown in the figure below the front panel of the OSM6500 24GE SFP module is composed of the following parts m 1 Reserved interface m 24 SFP interface slots and 24 interface status indicators labeled with LINK ACT m 2 status indicators namely 1 power supply fan alarm indicator labeled with Alarm and 1 system status indicator labeled with System and m 2 ejector levers Figure 2 12 Front panel of the OSM6500 24GE SFP module a Ponnonornantoor efile elski ial oy le et eis cle cise ele Teir Reserved port Alarm indi
22. both sides aiming at the screw holes at both sides of the slot step 3 Tighten the screws at both sides of the blank front panel to complete the installation 715 FAA RY Part 1 Installing Guide Figure 7 16 Installation of blank front panel 7 9 Connecting the Configuration Cables Before power on and configuration management of the system the configuration cables are needed to connect the chassis to a terminal console PC Follow the steps below for connection Step 1 Connect the end of the configuration cable with the RJ 45 connector with the configuration interface on the rack mounted module Users need to configure the OSM6508 through the Console or MGT FE WV interface of the main control module For the OSM6502 that does not support the main control module users need to configure it through the Console port of the service module in Slot 1 or through the Reserved interface if no console port is available Caution Step 2 Connect the DB 9 plug at the other end of the configuration cable with the serial port of the terminal console PC Part 1 Installing Guide Console Connect to the configuration interface Connect to the serial interface VAM RY Part 1 Installing Guide Startup and Upgrading of the System 8 1 Setting up the Configuration Environment Step1 Run the HyperTerminal program on the PC enter the name of the new connection for example OSM6508 in the Connect
23. cator 24 1000Base X interface System indicator Ejector lever Fastening screw port of the main control module For the OSM6502 that does not support the main control module users need to configure it through the Console port of the service module in Slot 1 or through the Reserved interface if no console port is available WV Users need to configure the OSM6508 through the Console or MGT FE Caution es 219 FAA RY Part 1 Installing Guide 2 Interface attributes of the OSM6500 24GE SFP module Table 2 10 Interface attributes of the OSM6500 24GE SFP module Interface Quan Interface Interface Max transmission distance name tity type attributes GE 24 SFP SFP G SX 550m SFP G MMX 2km SFP G LX 10km SFP G ELX 25km SFP G XD 50km SFP G ZX 80km SFP G EZX 120km S For details about SFP interfaces see the section Optical Electrical __ Transceiving Module Note 3 LED indicator description of the OSM6500 24GE SFP module Table 2 11 Indicator description of the module LED indicator name Color Status Description System System status Green Constant The module is being enabled indicator ly on Off The module is not powered on or works abnormally Flashing The module is working normally LINK SFP interface Green Constant Stable connection to the port is status ly on established ACT indicator Green Flashing The port is receiving and transmitting data For the OSM6508 the functioning status of fans and powe
24. d information and some guidance for users and helps users understand the text better Note Table of Contents Part 1 Hardware Installation Guide Chapter 1 Product O Very eW siisii aaa aa aaaea aiaa aiaia 1 1 ELBENS NT ele Ulan io p a E errr erere wan err ar noee nent crn rerio 1 1 TZ Product SI CCIT Ca ORNS aena oe coaeelcitabs ei idaa tat sarede ide r ete eecateas 1 2 Chapter 2 Product H ardware Architecture sssssssusnssnnnunnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnann nnn 2 1 ZU SY SECM ACCU E nadaa a a a anlage 2 1 21 1 Integrates Structure of OSM 6502 arcena E s 2 1 2 1 2 Integrated Structure Of OSM 0508 ccscsscscsssssssessessssssssesssecsssssesesessssesseesansesesesenaeseses 2 4 2 2 Rack M OUNTEO MOGUIGS neccasaedsauadanaenewanavauivaunaniairnnnammennnsiandad nieces 2 8 2 2 1 Rack M ounted Module Types and Installation Requirements ccceeeeeeee 2 8 2 2 2 Master module Of OSM 6500 FM ccscsssssssssssssssssssssesssssscsesesesesaceesesesecseseeasanseeesatasseseeas 2 9 2 2 3 Main Control Module of OSM 6500 FM 2 cccssssssessscssssssssesessssessssesssssseseeesesensssesens 2 12 2 2 4 OSM 6500 48F E TX M OUIe ccccccsssssssssessesssssessssssesssssseessssesscaeseseeesasseseeesanseensesansseeeans 2 14 2 25 OSM 6500 246 E 1X Mod l Snurr tenant eelacen aiiade dinate leinunee 2 16 2 2 6 OSM 6500 24G E SFP M OdUIe cccessssssssessssssecsssssssecsesesesacsese
25. d more than 600kg nf when equipped with the battery above 800AH EEE Part 1 Installing Guide The load bearing of other places except for the equipment room should not be lower than 300kg n The loading capability of corridors and stairs should be above 560kg m In case of old buildings the load bearing capability should be improved if the indices do not meet the requirements m The floor of the equipment room should be dust proof fire proof insulated and wearable and it can be the ground in the forms of varnished cloth perchloroethylene cold coating or anti static raised floor The floor pieces shall be laid down firmly and seamed well with the tolerance of less than 2mm m The ground or floor must be grounded in static terms and the resistance value of the unit raised floor system should meet the Technical Conditions for Computer Room Raised Floor the system can be connected with the grounding device through the current limiting resistor and connection lines 5 3 Requirements on the Power Supply System of the Equipment Room m DC power distribution equipment meets the needs of the switch and has a stable voltage and the output value is within the specified range When using the DC power supply of 48V rated input voltage measure the voltage of the DC input terminal of each cabinet and the permitted voltage fluctuation ranges from 8V 40V m For the 48V power supply the full range voltage drop of the DC discha
26. e 1 The front architecture of the OSM6502 is as shown in the figure below m There are two horizontal slots on the front of the chassis for installing multiple rack nounted modules Each module offers flexible interface types In addition it is possible for users to assemble and disassemble the rack mounted modules and connect interface cables on the front of the chassis facilitating the centralized operation and maintenance of the equipment m The chassis also has a vertically mounted fan frame providing heat dissipation guarantee for the equipment operation m An anti static wrist strap jack is installed on the lower right part of the front panel to avoid component damages caused by human body static electricity when swapping the modules m On each side of the chassis there are rack mounting ears to install the chassis into a cabinet Figure 2 1 Front architecture of OSM6502 0SM6500 24GE TX DOO m E 1 Fan frame 2 Rack mounting ear 3 Anti static wrist jack 4 Rack mounted modules 2 The side architecture of the chassis is as shown in the figure below A variety of vent holes on the side panel guarantee a good ventilation and heat dissipation of the chassis 2 2 FAA RY Part 1 Installing Guide Figure 2 2 Side architecture of OSM6502 1 Venthole 3 On the rear of the chassis there are two power module slots for installing an AC or DC power modules Users can choose the corresponding
27. e alarm generation stops after the user presses the BUZZER mute key Figure 2 17 Alarm indicators of the OSM6502 RUN alarm indicator Alarm buzzer reset button AC power module The AC power module on the upper part of the back of the chassis has the structure as shown in the figure below m Each AC power module has one socket and one switch which should be switched on in normal use m The power indicator indicates whether the power module is working normally Once the power module works the green indicator is lit on 2 28 FAA RY Part 1 Installing Guide m The power fan is for the heat dissipation m The handle facilitates the disassembly of the power module m The fastening screw at the left side of the power module is to fix the module to the chassis Figure 2 18 AC power module of the OSM6502 Reverse Fastening Power Power pulled Power screw indicator Power fan switch handle socket DC power module The appearance of the DC power module is as shown in the figure below which is almost the same as the AC power module but the socket Figure 2 19 DC power module of the OSM6502 Reverse Power Power pulled Power Fastenin 3 indicator Power fan switch handle socket screw 2 4 2 OSM6508 Power Distribution System The power distribution system of the OSM6508 is composed of r FAA RY Part 1 Installing Guide the power module and the power distribution frame A group of pow
28. e by the static electricity users should wear the anti static wrist straps Step 2 Push the transceiving module into the slot along the guide slot on the circuit board of the service module Step 3 When the plug of the XENPAK module contacts the connector on the circuit board users may push it inside with even force until this module is completely inserted into the connector Step 4 Tighten the screws at both sides to fix the module The SFP module can be installed in a similar way to the XENPAK module except the last step When the SFP module is totally inserted into the connector a spring piece on the BEZE FAA RY Part 1 Installing Guide module will automatically spring up which prevents the module from jumping out when swapping the optical fiber Upon uninstalling the module users must press the spring piece first to pull out the module 7 4 5 Installing Blank Front Panel Slots without modules should be installed with the blank front panel to form a complete wind channel in the chassis It will also ensure reliable heat sinking capability of the system and dust proofing requirements for the chassis As shown in the figure below is the procedure of installing blank front panels step 1 Use your hands to hold the screws at both sides of the blank front panel and place it in the empty slot step 2 Use your hands to press the blank front panel in the empty slot with even force with the screws at
29. e electrical transceiving module according to different connection media Currently most SFPs are optical transceiving modules The SFP optical transceiving module supports the LC optical interface and multiple rates such as GE and OC 3 m The SFP electrical transceiving module supports the RJ 45 interface and Gigabit Ethernet MRV Communications Inc provides many kinds of SFP transceiving modules to meet user s needs FAM RV Part 1 Installing Guide Table 2 16 SFP module type SFP module Specification type SFP G SX SFP 1000Base SX MM 850nm 0 550m SFP G MMX SFP 1000Base SX Extended MM 1310nm 0 2km SFP G LX SFP 1000Base LX SM 1310nm 10km SFP G ELX SFP 1000Base ELX SM 1310nm 25km SFP G XD SFP 1000Base XD SM 1550nm 50km SFP G ZX SFP 1000Base ZX SM 1550nm 80km SFP G EZX SFP 1000Base EZX SM 1550nm 120km 2 3 2 XENPAK XENPAK refers to the 10G Ethernet cooperation It is the optical transceiver MSA established jointly by Agilent and Agere complying with the IEEE802 3ae 10G Ethernet standard As one of the strictest MSA it strictly regulates the standard of the 10G Ethernet optical transceiving module in terms of pins functions and size The appearance of the XENPAK 10G Ethernet optical transceiving module is as shown in the figure below Figure 2 16 Appearance of the XENPAK module MRV Communications Inc provides three kinds of XENPAK 2 26 P FAA RY Part 1 Installing Guide interface module
30. eceive and provide Level 3 clock signals for other Cation equipment 2 OSM6500 FM2 interface attributes Table 2 4 OSM6500 FM2 interface attributes Interface Quantity Interface Interface Description name type attributes Console l RJ 45 RS 232 Used for configuration 214 MGT FE 1 RJ 45 10 100Base T 2M Bits 2 pairs SMB 2M PC card 1 CF card 3 LED indicators of OSM6500 FM2 Table 2 5 LED description of the OSM6500 FM2 LED indicator name Color Status POWERI Power Green Constantly on POWER2 supply alarm POWER3 indicator Red Constantly on Flashing slowly Flashing fast Off FAN Alarm Fan alarm Green Constantly on indicator Red Constantly on System System state Green Constantly on indicator Flashing Off HardDisk Hard disk Green Flashing status indicators Off LINK MGT FE Green Constantly on Interface status Off ACT indicator Green Flashing PC Card PC Card Green Constantly on status indicator Off 2 2 4 OSM6500 48FE TX Module 1 Structure of the OSM6500 48FE TX module FAA RY Part 1 Installing Guide Used for out band management Clock signal interfaces Used for mobile storage with the CF card plugged in Description The power supply is in position and in normal operation The power supply is in position but in abnormal operation with the output of either over voltage or undervoltage Abnormal input of the AC power or the output of the DC power The fan is working abnormally or the power supply i
31. ection for the OSM6502 DC Grounding rod Grounding terminal of the equipment room FAA RY Part 1 hstalling Guide Figure 7 7 Grounding wire connection for the OSM6508 AC Grounding rod Grounding terminal of the equipment room Figure 7 8 Grounding wire connection for the OSM6508 AC Grounding Grounding terminal of the equipment room For OSM6508 users can select any one of the two grounding rods Caution 7 3 2 Connecting the AC Power Cables The power input of the AC version OSM6500 switch series BEZZE FAA RY Part 1 Installing Guide ranges from 100 240VAC Before the connection of the power supply please verify the specifications of the power supply to ensure the correct power is accessed to prevent the equipment from being damaged The procedure for connecting the AC power cables is as follows Step 1 Confirm that the power switches of the equipment are in the OFF status step 2 Plug one end of the attached power cable to the power socket on the back panel of the chassis The OSM6508 is equipped with clip rings that can be used to fix the power cables Step 3 Plug the other end of the power cable to the AC power socket provided for the switch ee 7 9 AC power cable connection of OSM6502 NHS TE ee FAA RY Part 1 Installing Guide Figure 7 10 AC power cable connection of OSM6508 Step 4 Repeat Step 2 and 3 and connect the power
32. ents m The air conditioning system blows wind evenly and stably m Temperature range 0 C to 40 C Relative humidity range 40 65 It is recommended to install a temperature and humidity monitoring system m The lighting condition in the equipment room should meet the requirements for equipment maintenance and the room should be brightly lit with a recommended 500 700 lumen m The routine lighting standby lighting and accident lighting systems should be available m The supports should be firm and reliable without rocking The standard cabinet is recommended m The working environment should be dust proof and the density of particles in the air should be less than 180mg m The printers and the duplicating machines should be placed far from the equipment so as to prevent the wastepaper and ink powder from sucking into the chassis m There should be proper ventilation and the distance from the fans should be 100mm at least m Check whether the water supply and drainage system meets the requirements for normal water supply and fire fighting m Other safety measure should be taken for moisture and burglarly 5 7 Checking Other Facilities 5 7 1 Anti static Requirements The OSM6500 switch series have several anti static measures Bl eee FAA RY Part 1 Installing Guide but the static electricity in the environment is still easy to damage circuits and even the whole equipment if it exceeds a certain tolerance so it
33. er Security features Electromagneti EMI features c compatibility EMS features Working Temperature environment Humidity Interface type supported Part 1 Installing Guide OSM6502 OSM6508 38 58VDC 50 60Hz 195 W 800 W Complying with the standards of EN 60950 UL 60950 CAN CSA C22 2 NO 60950 GB 4943 IEC 60950 AS NZS 60950 Complying with the standards of EN55022 Class A ETSI EN 300 386 CISPR 22 class A GB 9254 Class A IEC 61000 3 2 IEC 61000 3 3 FCC Class A and VCCI Class A Complying with the standards of EN55024 ETSI EN 300 386 CISPR 24 GB T 17626 GB T 17618 IEC 61000 4 0 C 40 C 5 95 RH non condensation 10 100Base T 10 100 1000Base T 1000Base SX 1000Base LX 1000Base LH 1000Base T 1OOOOBASE LR 10000BASE ER FAA RY Part 1 Installing Guide Pi Product Hardware Architecture Because the OSM6500 support both AC and DC power users should choose appropriate products depending on the power supply systems of the equipment room 2 1 System Architecture The OSM6500 switch series has an integrated chassis and modular architecture which is convenient for maintenance and service expansion The following details the system architectures of the OSM6502 and OSM6508 2 1 1 Integrated Structure of OSM6502 The appearances and architectures of the AC version and DC version of the Caution S OSM6502 are just the same except the power supply module FAA RY Part 1 Installing Guid
34. er modules are at the front of the chassis and the power distribution frame is at the back of the chassis including the necessary power connection components such as power switches and sockets 1 Power Module The power supply module of OSM6508 is located below the front part of the chassis and the appearance of the AC and the DC power supply modules are the same in addition to their models The standard configuration of the OSM6508 is of two power modules and its full configuration is of three power modules as shown in the figure below In normal situations all the power modules work simultaneously to balance current automatically Figure 2 20 Power supply module of OSM6508 Flute pulled screw WN FAA RY Part 1 Installing Guide The power distribution system of the OSM6508 is in the 2 1 redundancy backup working mode When three power modules are installed the power distribution system of the OSM6508 supports backup and hot swap If one power module fails it can be hot swapped When two power modules are installed hot swap is not supported and users must disconnect the power first and then replace the module lf one power module fails other power module s will automatically take the responsibility of supplying power to the whole chassis Meanwhile the power indicator on the main control module turns red and the buzzer sounds an alarm And when only one power module is installed the Alarm indicator on the
35. es of the OSM6500 2x10G XEN module Table 2 12 Interface attributes of the OSM6500 2x10G XEN module Interface Quan Interface Interface Max transmission name tity type attributes distance Console l RJ 45 RS 232 Used for configuration 10GE 2 XENPAK XEN 10G SR 300m XEN 10G LR 10km XEN 10G ER 40km DS For details about XENPAK interfaces see the section Optical Electrical __ Transceiving Module Note 3 LED indicator description of the OSM6500 2x10G XEN module Table 2 13 Indicator description of the module LED indicator name Color Status Description System System Green Constantly The module is being enabled Status on indicator Off The module is not powered onor works abnormally Flashing The module is working normally LINK_EN XENPAK Green Constantly The port is allowed to forward data interface on status Off The port is prohibited to forward indicator data For the OSM6508 the functioning status of fans and power supply alarm is W shown by the FAN Alarm indicator of the main control module The Alarm indicator of the service module is invalid For the OSM6502 it is shown by the Alarm indicator of the service module If fans or power supply fails the red alarm indicator will get on Caution 2 2 8 OSM6500 ESM Expanded Service Module 1 Structure of the OSM6500 ESM Expanded Service Module The OSM6500 ESM module is for the expansion of user s service providing advanced services such as MPLS and VPN and expanding t
36. essssesseescacseesecesssseessanaeaeeesasaeseeesansess 8 3 FAA RY Part 1 Installing Guide 1 Product Overview 1 1 Brief Introduction MRV Communications Inc launches the 10G plattorm based OSM6500 switch series OSM6502 and OSM6508 With high performance high reliability high security and high port density the OSM6500 Is characterized by High capacity and wire speed switching capability Based on a high performance ASIC the OSM6500 switch adopts an industry leading switching matrix to overcome shortcomings of the shared bus switching fabric such as low bandwidth low access efficiency and difficult expansion thus enabling the whole system s switching capacity to be highly scalable Distributed routing switching It adopts the distributed structure widely applied in the high end nd FAA RY Part 1 Installing Guide switch in this industry Compared with a centralized architecture the distributed architecture makes great progress in product performance and stability providing a higher capacity access and convergence and more efficient L2 L3 L4 forwarding High reliability design with dual MPs The OSM6500 series switch supports the redundant backup of key components such as main control module and power supply and adopt the well developed core equipment designing technique fully ensuring high reliability and backup capability of devices Ultra high density service interface The OSM6500 switch
37. f the chassis step 3 Remove the blank front panel Unscrew counter clockwise the screws of the blank front panel until they loosen and then remove it Step 4 Install the main control module As shown in the figure below align the main control module with the egress of the slot and push it slowly inside along the internal slide Evenly press the two ejector levers at the right and left sides on the front panel When it comes near the connectors on the back panel press the connectors of the main control module into the connectors of the back panel then fasten the screws at both sides of the modules Once the module has been installed do not touch the circuit board M RV Part 1 Installing Guide Figure 7 14 Installation of main control module A be 7 4 3 Installing Service Modules The service module is consistent with the main control module in size and structure and the interfaces of the connectors on the back panel are the same so the method for installing them are identical and the service module should be installed in the same way as the main control module 7 4 4 Optical Electrical Transceiving Module Upon installing the service module users should install appropriate transceiving modules for different service modules the figure below describes the installation of the XENPAK module FAA RY Part 1 Installing Guide Figure 7 15 Installation of the XENPAK module Step 1 To prevent damag
38. gh the Reserved interface if no console port is available Caution 2 Interface attributes of the OSM6500 48FE TX module Table 2 6 Interface attributes of the OSM6500 48FE TX module Interface Quan Interface Interface attributes Max transmission name tity type distance FE 48 RJ 45 10 100Base T 100m FAA RY Part 1 Installing Guide 3 LED indicator description of the OSM6500 48FE TX module Table 2 7 Indicator description of the module LED indicator Color Status Description name System System Green Constantly The module is being enabled status on indicator Off The module is not poweredonor works abnormally Flashing The module is working normally LINK FE port Green Constantly Stable connection to the port is ACT status on established indicator Flashing The port is receiving and transmitting data Off The connection to the port is unavailable or abnormal SPEED Yellow Constantly The port works in the 100Mbps mode on Off The port works in the 10Mbps mode For the OSM6508 the functioning status of fans and power supply alarm is WV shown by the FAN Alarm indicator of the main control module The Alarm indicator of the service module is invalid For the OSM6502 it is shown by the Alarm indicator of the service module If fans or power supply fails the red alarm indicator will get on Caution 2 2 5 OSM6500 24GE TX Module 1 Structure of the OSM6500 24GE TX Module As shown in the figure below the front panel of the
39. he capacity of the routing table The front panel EEE Part 1 Installing Guide of the module comprises the following parts as shown in the figure below m 1 Console port m 2 status indicators namely 1 power supply fan alarm indicator labeled with Alarm and 1 system status indicator labeled with System and m 2 ejector levers Figure 2 14 Front panel of OSM6500 ESM Reserved port OSM6500 ESM Power fan alarm indicator Ejector lever System indicator Y Do not set the jumpers on the module circuit board at will otherwise the module will work abnormally or some other unexpected results will occur VWming Users need to configure the OSM6508 through the Console or MGT FE W interface of the main control module ERTER For the OSM6502 that does mot support the main control module users Caution need to configure it through the Console port of the service module in Slot 1 or through the Reserved interface if no console port is available The memory bar on the circuit board of a service module is an independent W part from the circuit board Users need to install the memory bar before Caution installing the module When installing the memory module align its nick with the nick of the slot is 223 FAA RY Part 1 Installing Guide 2 OSM6500 ESM interface attributes Table 2 14 Interface attributes of the OSM6500 ESM module Interface Quan Interface Interface Description name tity type attr
40. he following requirements The grounding wire should be lead into the equipment room by the horizontal grounding bus of the vertical grounding bus in the composite grounding device The grounding wire of each cabinet is led into the horizontal grounding bus in the closest position m The DC power supply working ground of each cabinet should be connected from the grounding bus All communication equipment in the equipment room except the grounding wire close to the sub bus are not allowed to form the electrical connection by means of installing the fastening bolts touching the steel reinforcement in the building m The grounding terminals must go through the antisepsis and rustproof processing they shall be screwed tightly and well contacted in the mechanical mode m Do not lay down the grounding wires and signal lines in parallel or in a twisted manner to reduce the interference BEZE Part 1 Installing Guide m When the equipment is powered in AC terms the supply socket with the connector of protection point must be applied as shown in the figure below and the protection point of the power supply should be reliably grounded in the building W The switch cabinet equipment of the OSM6500 series amp grounded in working terms while the shell and cabinet should be grounded in Caution protective terms 5 6 Requirements for the Working Environment The environment for running equipment should meet the following requirem
41. iasentabesscndes suave dtcanatinsashatenascsdessantentetaatuasosseammenesneieen eas 3 1 TAM RY Part 1 Installing Guide 3 2 Optional component liSt s e sssessreresrsrssrnenrsnnsnsrnnnsnnnnnnnnnnnsnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn costae 3 1 Chapter 4 Safety Precautii oiis spissi aaa aa aaia aaa 4 1 41 Sale Electrical Operati ONS sruni n a 4 1 4 2 Prevention from Static Damages cccccsssssssssssssssscssssessssssssesesssseseeesecsesesacscsesesavacsesesesessesseatarsess 4 1 4 3 Prevention from Laser Damages scccsssssssscsssssssscssssssssssssesesesacsssssesacsesesacaesssesavaceseeesassesesanensess 4 2 4 4 Equipment Safety Operations s s ssrsresrsrssrersrrsrnsrsrnnrsnnnnsrnnnnnsnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nnna 4 2 AA CBAN S cea T eee ene ee eee a ee 4 2 4 4 2 Handling Facilities ase secs cesasectcet sateen stesentsiiseniexcconconstecessetoeyehasaclaninesarbantenpeseaeaonansenseacens 4 2 4 4 3 Rack M ounted M OCUIES ju ccccsssssssscsssssssscsesssssscssseseeecasseseeecanseseeesseseaecatanseseeesaseseeetansess 4 2 Chapter 5 Environment Requirements s ssssssssssssnsnnnnnnunnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn anann 5 1 5 1 Requirements on the Space of the Equipment ROOM csscsscssssescssssssesssssssssssessesesesssesesesees 5 1 5 2 Requirements on the Floor of the Equipment ROOM ccsssssssesessseesessssssssssssssseeseeesstesseeeees 5 2 5 3 Req
42. ibutes Console 1 RJ 45 RS 232 Used for configuration 3 LED indicators of the OSM6500 ESM module Table 2 15 Indicator description of the module LED indicator Color Status Description name System System Green Constantly The module is being enabled status on indicator Off The module is not powered on or works abnormally Flashing The module is working normally For the OSM6508 the functioning status of fans and power supply alarm is W shown by the FAN Alarm indicator of the main control module The Alarm indicator of the service module is invalid Caution For the OSM6502 it is shown by the Alarm indicator of the service module If fans or power supply fails the red alarm indicator will get on 2 3 Optical Electrical Transceiving Module 2 3 1 SFP MRV Communications Inc provides many kinds of optical electrical transceiving modules including SFP and XENPAK Users can make a selection based on the configured service modules SFP is a small form factor pluggable transceiving module Small form increases the port density of the line interface EZE FAA RY Part 1 Installing Guide module and the pluggable capability enables an easy module replacement thus facilitating upgrade and maintenance of the equipment The appearance of the SFP module is as shown in the figure below Figure 2 15 Appearance of the SFP module Spring piece SFP falls into the categories of the optical transceiving module and th
43. ic protective bags FAM RV Part 1 Installing Guide Y When taking out the rack mounted module users must wear anti static wrist strips to prevent damaging the equipment Caution P P Sng quip 6 3 Acceptance of Equipment 6 3 1 Acceptance Procedure After the unpacking the procedure of acceptance as required by the contract and the packing list is as follows m Appearance check The equipment should have no defects looseness or damages m Integrity check The components and accessories required in the installation of equipment are complete or not m The equipment and devices with vulnerable electric features should be checked by the engineering personnel network engineers or representatives from MRV Communications Inc m Inthe occurrence of problems the engineering personnel should be responsible for filling in the feedback form 6 3 2 Signature for Confirmation After acceptance the user and the engineering personnel network engineers or representatives from MRV Communications Inc jointly affix their signatures on the packing list for confirmation FAA RY Part 1 Installing Guide 7 Equipment Installation 7 1 Configuration List of Installation Tools The tools for installation include m Cross screwdriver m Flathead screwdriver m Anti static wrist strap 7 2 Installation of Chassis into the Cabinet It is recommended that users choose the 19 inch standard cabinet The specific method
44. ill normally occur The System indicator is constantly on and then quickly flashes for several seconds and after that it will be constantly on for several seconds finally this indicator will continually flash which shows that the system has been reset and enters the normal status Boot up messages such as serial No and software hardware versions will appear on the HyperTerminal window on the PC and then the prompt for the logon will appear after the completion of the self test Press Enter to log on to the system and the command prompt appears e g OSM6502 gt The OSM6500 switch series provides a wide variety of online help information to help users to input the commands m Enter lt help gt in any command mode to get a brief description of the help system m There is a builtin syntax help in the command line interface If users are uncertain about the syntax of a command enter the preceding part of this command that users know and key in in this case the command line will prompt users about the meaning or function of this command and if users enter Space behind the command the command line will prompt users about the command list possibly appearing behind the part of the commands users have entered Users can continue to input the commands according to the prompt until the lt cr gt Just Press Enter to Execute command appears m t shows that the command has been completely input Press
45. ion Description interface Figure 8 1 Connection Description interface of HyperTerminal Connection Description _ x ae New Connection Enter a name and choose an icon for the connection Hame OSM6508 Icon cancel _ Step2 Select the actual serial port to be used for example COM1 for connection in the Connect To interface Step3 Set the terminal parameters as follows A M LA Part 1 hstalling Guide Figure 8 2 Parameter settings of HyperTerminal COM1 Properties x Port Settings Bits per second j00 ti Data bits fe ff Parity None Stop bits hooo H Flow control Restore Defaults Step4 Enter the HyperTerminal interface Step5 F to enter the properties setting window and then set the terminal simulation as VT100 Then click OK 8 2 Power on and Startup of OSM6500 Before powering on the OSM6500 users should make sure m The power cable is correctly connected and the chassis is properly grounded The power supply voltage complies with the switch requirements m The cable of the configuration interface is correctly connected the terminal for configuring the equipment has been enabled and the terminal parameters have been correctly configured The switch can be powered on after the above installation and checks The system enters the self test phase after power on c FAA RY Part 1 Installing Guide and the following w
46. is necessary to involve the anti static consideration in the design of the equipment room environment And the following are the anti static requirements that the equipment room should meet m Ground the equipment and the floor properly m The equipment room is dust proof m Appropriate temperature and humidity conditions should be maintained m Ifthe circuit board is to be touched anti static wrist straps and an anti static suit must be worn 5 7 2 Anti Interference Requirements Any interference sources from the outside or inside of the equipment affect the equipment in the capacitance coupling inductance coupling electromagnetic wave radiation common resistance including the grounding system and the conduction mode of conducting wire power supply line signaling line and output wire And the following are the anti interference requirements that the equipment room should meet Se Part 1 Installing Guide m The effective anti interference measures of the electrical network should be taken for the power supply system m The working ground had better not be used together with the grounding device or the lightening protection grounding device of the electrical equipment and the distance be as long as possible m Keep far away from powerful radio transmitting stations radar transmitting stations and high frequency strong current equipment m When necessary electromagnetic shielding measures should be taken 5 7
47. le from server Receiving data Writing flash Step 5 Key in the r command to restart the equipment and to make the new software effective
48. mneys or antennas etc lightning rods or lightning protection rings should be installed For buildings and structures it is advisable to use the steel reinforcement of the reinforced concrete building slabs beams pillars and foundation as the discharge line for lightning protection devices m lf the lightning protection grounding cannot be separated from the grounding of the telecommunication and power supply system due to the small place occupied by buildings the joint grounding system should be adopted The joint grounding system connects the operating ground and protection ground for telecom use and the lightning protection ground of the building as well as the ground of the industrial frequency AC power supply system together The grounding resistance value for joint grounding should be determined as required by the minimum resistance value of the grounding devices m Itis advisable that the metal structure of the building e g reinforcement in walls and pillars be used as down lead for lightning protection grounding The down lead should be linked electrically to equalize the electric potential within the building is 57 FAA RY Part 1 hstalling Guide 5 7 4 Anti seismic requirements The quakeproof intensity of the telecom equipment building should be designed one degree higher than the local construction intensity Those equipment buildings in short of quakeproof intensity requirements have to be strengthened The construc
49. nnection process m Make sure that the TX pins of the module interface connect to the peer RX pins and the RX pins to the peer TX pins 2 7 2 Making of Gigabit 100 M Network Cable 1 RJ 45 Connector The appearance of the RJ 45 connector and its pin sequence are as shown in the figure below Figure 2 30 RJ 45 connector a es E Pin 1 gF Wyf e Pai Pin 8 The following two tables show the functions of the RJ 45 connector pins in MDI mode and in MDIX mode respectively Table 2 18 Pin allocation of the RJ 45 in MDI mode Pin Signal Function number 1 TxData Transmit data 2 TxData Transmit data 3 RxData Receive data 4 Reserved 5 Reserved 6 RxData Receive data BEZE FAA RY Part 1 Installing Guide 7 Reserved 8 Reserved Table 2 19 Pin allocation of the RJ 45 in MDIX mode Pin number Signal Function 1 RxData Receive data 2 RxData Receive data 3 TxData Transmit data 4 Reserved 5 Reserved 6 TxData Transmit data 7 Reserved 8 Reserved 2 Making the network cable to the Gigabit electrical interface A Category 5 twisted pair is made up of 8 core thin wires Two twisted wires are identified by the color of the external insulation layer of the thin wires In general a single color and a single color plus white are used to identify a twisted pair and sometimes two matching colors are used for pair identification Here the former way is adopted The following two figures show res
50. nstallation steps 7 4 Rack Mounted Modules To avoid damage to the components on the rack mounted modules caused by the static electricity from the human body users must wear anti static wrist straps and keep themselves away from the components on the circuit boards as far as possible before the installation The steps for wearing the anti static wrist straps are as follows Step 1 Stretch your hands into the straps Step 2 Tighten the snap closed and confirm that the anti static wrist straps contact your skin properly 10 FAA RY Part 1 Installing Guide otep 3 Insert the other end of the wrist straps into the anti static plughole marked ESD on the front panel of the chassis Figure 7 13 Wearing an anti static wrist strap Anti static wrist jack Anti static wrist strap W The main control module and service modules are hot swappable but users a A must wait for at least 60 seconds before re inserting the modules after they Caution are pulled out 7 4 2 Installing Service Modules The steps for installing the main control modules of the OSM6500 switch series are as follows step 1 Confirm that the grounding rods are properly grounded es 7 11 FAA RY Part 1 Installing Guide otep 2 Wear an anti electrostatic wrist strap Before contacting the circuit board wear the anti static wrist straps and confirm that it is properly connected to the ESD connectors on the front panel o
51. om is shown in Figure 5 1 The side of the rack shall not be less than 0 1m away from the wall surface and the back of the cabinet shall keep a space of more than 0 8 m wide from the wall surface and other obstacles including the operation console chair to facilitate the heat dissipation and maintenance The distance between the adjacent two rows of cabinets should not be less than 0 8 m Do not place the computer monitor on the console close to the window or door to avoid reflection A 1m space shall be kept between the last row of chairs and the wall surface or other equipment for the convenience of walking and avoid affecting other equipment In terms of the height of the equipment room the net height from the installation surface at the bottom of the equipment to the beam or the ventilation pipe should not be less than 3 m dl eee rM RV Part 1 Installing Guide Figure 5 1 Top view of the equipment room wall and other barriers WWQO0O0T lt 5 2 Requirements on the Floor of the Equipment Room m Check whether the equipment room floor is solid enough to ensure that cabinets can be firmly installed m The floor of the equipment room should meet the bearing requirements 1 The bearing capability of the floor should be more than 450kg m With regard to the weight of the lead acid battery the load bearing of the floor in the battery room should be more than 500kg nf when equipped with the battery below 500AH an
52. or installing multiple rack nmounted modules Each module offers flexible interface types In addition it is possible for users to assemble and disassemble the BEZE FAM RV Part 1 Installing Guide rack mounted modules and connect interface cables on the front of the chassis facilitating the centralized operation and maintenance of the equipment m On the rear of the chassis there are three power module slots for installing AC or DC power modules Users can choose the corresponding power modules as required The model of the AC power supply module is OSM6500 PWR AC while the DC power supply module is OSM6500 PWR DC m On the left side of the chassis there is a horizontally mounted fan frame which can provide a heat dissipation guarantee for the chassis m To avoid component damages caused by human body static electricity in plugging modules an anti static wrist strap jack is installed on each side of the front panel m On each side of the chassis there are rack mounting ears to install the chassis into the cabinet Figure 2 4 Front architecture of the AC version OSM6508 B OSM6508 age gig at OSM6500 FM El iij wer z o Wea a 6 5A OSM6500 24 P ECIN v z a p i A i A u 4 4 Y r a r tle a a qe aie ii IS 1 Rack mounting ear 2 Fan frame 3 Anti static wrist jack 4 Power supply module 1 5 Power supply module 2 6 Power supply module 3 7 Rack mounted modules FAA RY Part 1 In
53. pectively the arranging and connection methods of a straight through cable and a Gigabit crossover cable Selection shall be based on the application requirements Inthe figure SIDE1 and SIDE2 indicate the two ends of the network cable respectively Part 1 Installing Guide Figure 2 31 Making a straight through network cable Pin Arrangement of Straight throught Network Cable example SIDE 1 SIDE 2 SIDE 1 SIDE 2 1 1 orange white 1 orange white 2 a 12 2 orange 2 orange 3 3 3 green white 3 green white 4 e 4 4 blue 4 blue 5 _ 5 5 blue white 5 blue white 6 H 1 6 6 green 6 green 7 1 7 7 brown white 7 brown white 8 1 1 8 8 brown 8 brown Figure 2 32 Making the gi gabit electrical interface category 5 unshielded crossover twisted pair Pin Arrangement of Crossover Network Cable Example SIDE 1 SIDE 2 SIDE 1 SIDE 2 1 1 1 orange white 1 green white 2 2 2 orange 2 green 3 3 3 green white 3 orange white 4 4 4 blue 4 blue 5 5 5 blue white 5 blue white 6 6 6 green 6 orange 71 a 7 7 brown white 7 brown white 8 c 8 8 brown 8 brown Y It is suggested that the Gigabit electrical interface of the OSM6500 switch Caution auton series uses the super Category 5 or Category 6 twisted pairs for connection 2 Making the network cable to the 100 M electrical interface A Category 5 twisted pair is made up of 8 core thin
54. power are accessed through the two DC power connection boxes on the power distribution frame and the two channels of DC power have their own independent air switches Each channel supplies power for the aforementioned three DC power modules Hence the redundancy backup can be implemented 232 FAA RY Part 1 Installing Guide a The handle in the middle of the power distribution frame facilitates the disassembly of the DC power distribution frame m The ventilation hole on the panel of the power distribution frame is for the heat dissipation of the power supply Figure 2 22 DC power distribution frame of OSM6508 Reverse Air switch pulled handle DC power connection box HET oes oe 2 5 Fan Frame 1 Fan Frame Structure The fan frame of the OSM6500 switch series isolates the fan module from the external environment for the sake of the human safety The fans serve the purpose of heat dissipation when the chassis is running The fan frame of the OSM6500 switches is located at the left side of the front panel of the chassis and it is vertically inserted The fan frame structure is as shown in the figure below FAA RY Part 1 Installing Guide Figure 2 23 Fan frame structure of the OSM6502 2 Ventilation Mode The heat sink inside the chassis takes the form of transverse ventilation of fans to form a level wind channel In normal situation air is drawn into the equipment through the air intake
55. power modules as required The rear architecture of the AC version OSM6502 is as shown in the figure below m Two AC power modules provide components such as power switches sockets and indicators The AC power module is described in detail in the following chapters m There is a vertically mounted dust proof filter on the rear of the chassis to avoid the dust inthe air from being drawn into the chassis The dust proof filter needs to be cleaned regularly lest the accumulated dust should affect the chassis ventilation m On the upper right part of the rear panel there is a grounding rod marked with 9 m There is apulled handle on the rear of the chassis for users to disassemble the rear cover panel To avoid damages do not use these handles to move equipment FAA RY Part 1 Installing Guide Figure 2 3 Rear architecture of the AC version OSM6502 1 Dust proof filter screen 2 Reverse pulled handle 3 Back cover panel 4 AC power module 5 Grounding rod The AC version and DC version of the OSM6502 only differ in their power modules The DC version power module will be introduced in a later section 2 1 2 Integrated Structure of OSM6508 The appearances and architectures of the AC version and DC version of the ao OSM6508 are just the same except the power distribution frame Caution 1 The front architecture of the OSM6508 is as shown in the figure below m There are 8 horizontal slots on the front of the chassis f
56. r supply alarm is W shown by the FAN Alarm indicator of the main control module The Alarm indicator of the service module is invalid Caution For the OSM6502 it is shown by the Alarm indicator of the service module If fans or power supply fails the red alarm indicator will get on Part 1 Installing Guide 2 2 7 OSM6500 2x10G XEN Module 1 Structure of the OSM6500 2x10G XEN module As shown in the figure below the front panel of the OSM6500 2x10G XEN module is composed of the following parts m 1 console configuration serial port m 2 XENPAK 10GE optical interface slots and 2 interface status indicators labeled with LINK _EN LINK RX and TX and m 2 status indicators namely 1 power supply fan alarm indicator labeled with Alarm and 1 system status indicator labeled with System and m 2 ejector levers Figure 2 13 Front panel of the OSM6500 2x10G XEN module OSM6500 2x10G XEN Console configuration interface Alarm indicator 2 XENPAK GE interface Ejector lever Fastening screw System indicator Users need to configure the OSM6508 through the Console or MGT FE W port of the main control module For the OSM6502 that does not support the main control module users need to configure it through the Console port of the service module in Slot 1 or through the Reserved interface if no console port is available Caution FAA RY Part 1 Installing Guide 2 Interface attribut
57. rack mounting ear and the cabinet are aligned Step 4 Use the M6 screws to fix the rack mounting ears onto the cabinet to ensure the stability of equipment The operation is shown as follows OSM6502 for example FAA RY Part 1 Installing Guide Figure 7 4 Installing OSM6502 into the cabinet 7 3 Connection of Grounding Wire and Power Cable 7 3 1 Connecting the Grounding Wire grounding in normal cases But in the case that the power cable does not meet the conditions for grounding or the grounding protection is not perfect it is recommended to use the grounding bar on the chassis For the OSM6500 AC MRV Communications Inc provides the OT terminals and grounding rods only The grounding cables are not provided WV For the OSM6500 AC the AC input power cable can be used for safe Caution To guarantee safe running the equipment should be grounded properly The backpanel of the chassis of the OSM6500 switch series provides grounding rods marked with Take the following steps for connection otep 1 Loosen the fastening screw of the grounding rod BEZE FAA RY Part 1 Installing Guide otep 2 Sheath one end of the grounding wire that has been press fit with the OT terminal on the grounding rod and tighten the screws otep 3 Connect the other end of the grounding wire with the grounding terminal Figure 7 5 Grounding Wire Connection for the OSM6502 AC Figure 7 6 Grounding wire conn
58. rge loop should not be more than 3 2V in the selection of the leads for the DC discharge loop to meet the voltage requirements and the core diameter of the DC power cable should not be less than 25mm m Check whether there are some batteries with enough capacity 5 4 Requirements for the DC Power Supply System m The reliable and stable AC electric supply should be the choice and its power should meet the requirements The 220V single phase 3 wire system is used after the conversion through the power supply conversion equipment lc eee Part 1 Installing Guide m The specifications of power cables should be calculated basing on the quantity and power consumption of equipment which meets the relevant specification requirements with sufficient safety coefficients involved m n general the standby power should be available and a Diesel generator or UPS with enough capacity or DC AC inverter must be equipped m The AC distribution system should have an AC safety ground 5 9 Requirements on the Grounding System of the Equipment Room The grounding system of the equipment room must meet the following basic requirements m The measures for grounding should be proper and perfect and the grounding resistance is less than 2 ohm m The protection grounding should be in position with a core diameter of not more than 20mm and a length of less than 30m In addition the grounding system of the equipment room should also meet t
59. s about to expire The power supply is not in position The fan runs normally Abnormal working fan or the fan frame is not in position The system is starting or down The system runs normally No power on Reading or writing to the hard disk No reading or writing to the hard disk The port has established a reliable connection Wrongly connected interface Data is being received transmitted on the port The CF storage card is in normal operation The CF storage card is abnormal or not in position As shown in the figure below the front panel of the OSM6500 48FE TX module is composed of the following parts es 215 FAA RY Part 1 Installing Guide 1 Reserved interface m 48 10 100M auto adaptive Ethernet interfaces and 48 interface status indicators labeled with LINK ACT or SPEED m 2 status indicators namely 1 power supply fan alarm indicator labeled with Alarm and 1 system status indicator labeled with System and m 2 ejector levers Figure 2 10 Front panel of the OSM6500 48FE TX module 48 10 100Base T interface OSM6500 48FE TX Reserved port Ejector lever Alarm indicator Fastening screw System indicator Users need to configure the OSM6508 through the Console or MGT FE W port of the main control module For the OSM6502 that does not support the main control module users need to configure it through the Console port of the service module in Slot 1 or throu
60. sasessesesesassesseatensesesannseseeens 2 17 2 2 7 OSM 6500 2x10G XEN Mod l E senn 2 19 2 2 8 OSM 6500 ESM Expanded Service Moqdule s ss sssessrsresrsrrsrnnssrnnnsrsrnsnsnnnnnnnnnnnnnnnnnnnnns 2 21 2 3 Optical Electrical Transceiving M OCUIEC cssssssessssssesssessserssssssesesesseessesassesaversesenesatensesenes 2 22 2 3 SEP aoi l essed N T ni 2 23 DD De EINE PI iets Acasa a E 2 24 2 4 Power Distribution System cccssessscsssssssssssssssssessesesecassesesssecsesesasscsesesavassesesessesesesatnsesesaseneeeetens 2 25 2 4 1 OSM 6502 Power Distribution System s ssssresrsrsessnenrsrnsnsnnnnsnnnnnrnnnnnsnnnnnnnnnnnnnnnnnnnnns 2 25 2 4 2 OSM 6508 Power Distribution System s ssssrssesrsersnerrsrnsnsrrnnsrnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnns 2 27 Lid ike ANN Pe PONG ees E ETAN 2 30 26 USE POOL le WC siete est cote tulevcct Scactostne accuses saceueceeeivatansomcaeben secrete ate eeseutde acces dle eeeeariectanoee 2 32 2 7 Optional Component LS wsrseesrecietiesssiaananenindedaacdniamuicna A 2 33 2 7 1 OptiCal FIDE C OMMGCEOM sec saseszstastch ns caucbatencicaataseaadeadehacucavean sewn aieas tact a 2 33 2 7 2 Making of Gigabit 100 M Network Cabole ccc sssessssssssserssserssssssrsasersasensesenes 2 34 Chapter 3 System Configuration LiSt ss sssssssussssnonunnnononnonnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nnana 3 1 3 1 Basic Configuration Le SU esa sec tossed tecnaesesenat
61. sion a a 7 4 7 3 2 Connecting the AC Power Cables cccsscsssscsssssssssssssssssssssesesssecesesesscsesesesensesesasasseseeas 7 6 7 3 3 Connecting the DC Power Cable cccscssssssssssssssssesssssscssssssssssssnsesesassesseesansssesesasasacees 7 7 TO FEPOW Cl ON Fe ienn A 2am avasndacaeuadeanmetissacuceseuecsnauetiueccaniees 7 1 7 4 Rack Mounted Ml OG UGS sccasestcrasstcacesieraaicstusestscietenace shapeansenssceaduntiverseredeacuaseenacduaaniearnyetraneaedsDantaeele 7 9 7 4 2 nstalling Service Modules rin ede 7 10 7 4 3 Installing Service Modules csssssscscssssssssssessssssssesssscessssesecessssesscesaeseeesansesteesansesseesenaess 7 10 7 4 4 Optical Electrical Transcel VING M OUI cssssssssssssssessesssersssesseseseesssensesenrsarerses 7 11 7 4 5 Installing Blank Front Panel cciiuntsaouserevetrintnr en ticansiinaia naaeradatienionuiaee 7 12 7 5 Connecting the Configuration Cables cccccssssssscssssssssssssssssssssssessssseesesesessesssaseesesssasnsseetens 7 12 Chapter 8 Startup and U pgrading of the System sss susssssusnununnunnunnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnna 8 1 8 1 Setting up the Configuration ENVIFONMENL cccceesssessesssessscssssescessesssscssesesssaseesesesenesssatensess 8 1 8 2 Power On and Startup Of EQUIP MENL ccccscsssssscsssssssssssesssscscsssssessrsesesessssesesasasanseseresesesesansess 8 2 8 3 Upgrading the System Software ccsssssssssscsssssssssessssssssesese
62. st 2 7 1 Optical Fiber Connector 1 SC type optical fiber connector The TX and RX optical fibers of an SC optical fiber connector can be separated or assembled together The following figure illustrates the optical fiber connector whose two fibers are assembled Figure 2 28 Appearance of an SC type optical fiber connector 2 LC type optical fiber connector The LC type optical fiber connector is square as shown in the figure below Figure 2 29 LC type optical fiber connector ae a al oa E o ood Fi w m a r 1 Fa fa r p Pal ft F E A Po Pe a Po Thy a i ie T a f a A P A Y Ai a F oP T A eat 2 1 Faj E l Pa i T Pa j e O SO Pa ft Po pry a a f F e r men i J i a x Poa LA Le d aL p hes F Sa a ae am i eg a al a A d aay Pa Part 1 Installing Guide Precautions for optical fiber usage m The invisible radiation may be sent from the optical interface in the case that the optical connecter is disconnected and the dust proof cap is removed Therefore do not directly stare at the optical interface m Ifthe optical interface is not connected to the optical connector be sure to cover the optical connector with a dust proof cap and ensure the cleanness of the optical fiber interface m Before making an optical fiber connection make sure that the type of optical connector matches the type of optical fiber m Make sure that the optical fibers are not over bent during the co
63. stalling Guide 2 The side architecture of the chassis is as shown in the figure below A variety of ventilation holes on the side panel guarantee a good ventilation and heat dissipation of the chassis There is a fixed handle on each side of the chassis for users to move the chassis Figure 2 5 Side architecture of OSM6508 1 Ventholes 2 Reverse pulled handle 3 The rear architecture of the AC version OSM6508 Is as shown in the figure below EESE FAM RV Part 1 Installing Guide m AnAC power distribution frame is located on the bottom of the equipment providing necessary components such as a power switch power sockets and grounding rod for chassis power access The AC power distribution frame is described in detail in the following chapters m Oneach side of the rear panel bottom there are grounding rods marked with Any of the two grounding rods can be used for chassis grounding and users can choose either of them m There are a detachable dust proof filters on the rear of the chassis to prevent the dust in the air from coming into the chassis The dust proof filter needs to be cleaned regularly otherwise the accumulated dust might affect chassis ventilation m On the rear of the chassis there are two reverse handles for users to disassemble the rear cover panel To avoid damages do not use these handles to move the chassis Figure 2 6 Rear architecture of the AC version OSM6508 mur ie m AEN Xy m
64. t lasers from damaging your eyes it is prohibited to closely or directly look at optical fiber egress V ming 4 4 Equipment Safety Operations 4 4 1 Drills It is prohibited to drill a cabinet by your self as it may destroy the WY connection lines and cables inside the cabinet and damage the e electromagnetic shielding performance of the cabinet The metal arising V ming from the drilling may enter the cabinet and result in the short circuit of the circuit board 4 4 2 Handling Facilities WY The equipment must be handled carefully due to its heavy weight When handling care should be taken so as to prevent the equipment from being Vaming damaged or resulting in accidents 4 4 3 Rack Mounted Modules Before contacting the rack mounted modules an anti static wrist strap must WY be worn and the other end of the wrist strap must be properly grounded _ Do not touch the module circuit components connectors and wiring slot Vaming when holding a rack mounted module Part 1 Installing Guide m Do not plug the board with too much force lest that the pins on the motherboard should be slanted m Plug the rack mounted module squarely into the slot and make sure the circuit boards do not contact with each other to avoid short circuiting FAA RY Part 1 Installing Guide 5 5 1 Requirements on the Space of the Equipment Room Environmental Requirements The top view of the equipment ro
65. tion The power supply is in position but in abnormal operation with the output of either over voltage or undervoltage Abnormal input of the AC power or the output of the DC power The fan is working abnormally or the power supply is about to expire The power supply is not in position The fan operates normally Abnormal working fan or the fan frame is not in position The system is starting or down The system runs normally No power on The port has established a reliable connection Wrongly connected ports Data is being received transmitted on the port FAA RY Part 1 Installing Guide 2 2 3 Main Control Module of OSM6500 FM2 The main control module OSM6500 FM2 is also a kind of module for the OSM6508 and has been improved on the basis of OSM6500 FM to enhance its performance and processing capability The OSM6508 can adopt one or two OSM6500 FM2 lt is recommended to use two for redundancy OSM6508 stores all configuration information on the main control module for management OSM6508 supports the switchover between the active and standby main control modules The main control module has two working modes m Active mode As the active main control module it provides general configuration management for the chassis m Standby mode As the hot backup of the main control module it is ready to take the place of the active one 1 Structure of the OSM6500 FM2 module The front panel of the OSM6500 F
66. tion departments should be invited to join the design and its execution OSM6500 uses the following measures in the installation to stand a Richter 7 earthquake m The cabinet of OSM6500 uses a light and strong aluminum structure There are locking devices to fix the circuit boards in the cabinets m When combining sever cabinets together in the installation lock the top between the two cabinets by two cabinet combining board Row several cabinets together m The cabinet is fastened with the ground through the adjustment foot and supports The cabinet is fastened with the sunshade to enable itself to be integrated into the building 5 7 59 Requirements for Fire The fire proof design of the equipment room should meet the Stipulations in the Code for Fire Protection Design of Buildings and the buildings for communication should be placed on the 5e FAA RY Part 1 Installing Guide top of the fire protection units list the design of them should be secondly and firstly graded for tall buildings The equipment room should be equipped with the emergency extinguishing equipment and an automatic fire alarm system is recommended FAA RY Part 1 Installing Guide Unpacking for Inspection WV In the transport of the OSM6500 waterproof and shake proof measures should be taken After the equipment arrives at the destination it should Caution not be handled roughly and should be kept away from sunlight and rain
67. two main control modules are to be installed they have to be in Slots 4 and 5 leaving the other slots for service modules or blank front panels 2 2 2 Master module of OSM6500 FM Master module OSM6500 FM is the basic configuration module for OSM6508 OSM6508 can adopt one or two OSM6500 FMs to improve the reliability of the system It is recommended to use two for redundancy OSM6508 stores all configuration information on the main control module for the chassis OSM6508 supports the switchover between the active and standby main control 210 Part 1 Installing Guide modules The main control module has two working modes m Active mode As the active main control module it provides general configuration management for the chassis m Standby mode As the hot backup of the active main control module it is ready to take the place of the active one 1 Structure of the OSM6500 FM module The front panel of the OSM6500 FM module as shown in the figure below comprises the following parts m 1 Console port m 1 MGT FE outband management interface and the interface status indicators labeled with LINK ACT 5 status indicators Alarm indicator for power module 1 alarm indicator for power module 2 alarm indicator for power module 3 alarm indicator for the fans and alarm indicator for system running status m 1 alarm buzzer mute key m 2 ejector levers Figure 2 8 Front architecture of the OSM6500 FM module
68. u to use the product User Warning This is a Class A communication product Ina domestic environment this product may cause radio interference in which case the user may be required to take adequate measures to avoid disturbance to his her normal life VCCI Warning ORB Ha ES ERASER VCC ee HOC PF PAATHEMEERCT NRE RERA CHAT Sea MmEEs SHRCTCEPSV ET COMSCILPAALROSHRERT SLIRKAEHNSACEPHVET How to Use This Manual Target Readers Outline This manual is written for engineers who need to install OSM6500 series switch and system administrators who need to configure and manage OSM6500 series switch It assumes certain networking knowledge and experience of the readers This manual describes in details the hardware structure and installation methods for OSM6500 series switch It also presents how to configure OSM6500 OS functions that are specific to the OSM6500 series switch such as ACL QoS NAS PPPoE RADIUS etc Pleast note that this manual does not include the complete configuration information For general information on configuration and commands please refer to the corresponding OSM6500 OS Configuration Manual and OSM6500 OS Command Reference The OSM6500 Series User Manual consists of three parts Part 1 Hardware Installation Guide It includes the following chapters Chapter Title D escription Chapter 1 Product Overview Separately describes the characteristics and specifications of the OSM6500
69. uirements on the Power Supply System of the Equipment ROOM cceceeeeees 5 3 5 4 Requirements for the DC Power Supply SYSCEM ccccescssssesscssssessssessssssesessesssesarsesesetesssesas 5 3 5 5 Requirements on the Grounding System of the Equipment ROOM ccsseeeseeeeeeeeees 5 4 5 6 Requirements for the Working Environment cccceessssssscsssssssssssessssssseseseseesssesersesesasesenseees 5 5 5 7 Checking Other FOG CS es cticotaseccesecseececsersestcenusantcicsees tac senerecsaendesdduestestiadsusactestenesteneietatuaicdaveanaelts 5 5 5 7 1 Anti static Requirements iiciceaddcceceiestiactencineaterasiiderniatl Cane ktaeadaniudetneiaued 5 5 5 7 2 Anti lnterference Requirements cssceccsesssssssssssssssssssessessecsssesessssseseserscsesesesensesesatassesesas 5 6 5 7 3 Requirements for Lightning Protection cccssssssssesssssssssssssssssessesessssesssssersssesssesseeeeas 5 6 5 7 4 Antiseismic FEQUIFEMENK c ccccssssscssssssssssssssssssssesseecseseseseceesesesesasseseeecasseseeesanseeseatanataeses 5 7 eT 3 PR SOIC ements for F Orsen S 5 8 Chapter 6 Unpacking for NSpection sssssssssssnssnnnnsnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnann nnn 6 1 6 1 Preparati ONS seeen T E A 6 1 6 1 1 Checking the Packing C ASC s ssseesrsresrsnsernesrsrrnnsnrnrsrnnnnnonnnnnnnnnnnonnnnnnnnnennnnnnnnnnnnnnnnonnnnna 6 1 OLP ICID a E EE E eee ae 6 1 6 1 3 Environmental Requirements
70. vents at the side of the chassis then passes through the dust proot filter to reach the slots of the rack mounted modules in the chassis and finally comes out from air exhaust vents The following figures illustrate the air deflection of the BEZE FAA RY Part 1 Installing Guide OSM6502 and OSM6508 Figure 2 25 Air deflection of the OSM6502 re CEI mm E BIEL te 8 oO Ole M M Cute t 7 7 o E 7 io Seer aes cae cat ay See came SN A A A SERRA emt i It is forbidden to touch the fan blades with hands Va ming FAM RV Part 1 Installing Guide The OSM6500 switch series cannot run for a long time without fans WV Replace the faulty fan as soon as possible the fan frame supports hot swap or disconnect the power to the chassis before replacing the fan if the fan replacement should take a long time Caution 2 6 Dust Proof Filter The dust prootf filter is used to prevent the dust in the air from being absorbed in the chassis serving the purpose of protecting the chassis The location of the dust proof filter on the chassis is shown in the rear structure diagram The dust proot filter is a copper weaving net and should be cleaned regularly The dust proot filters used by the OSM6500 switch series are of a similar structure but different sizes as shown In the figure below Figure 2 27 Dust proof filter B H z B A A Part 1 Installing Guide 2 7 Optional Component Li

Download Pdf Manuals

image

Related Search

Related Contents

PSC - Piano di sicurezza e coordinamento    Model 66 Actuator* for Trailer Brakes  74 319 0559 0 de Bedienungsanleitung fr Mode d`emploi it Istruzioni  Organic Laboratories 100521656 Use and Care Manual  Gateway 8300 Network Card User Manual  Shark S3251 mop      Sony VAIO VPCSB16FG  

Copyright © All rights reserved.
Failed to retrieve file