Specifications

ManualsBrandsCTC Union ManualsNetworkingFRM220-100M

FRM220-NMC

Network Management Controller

Summary of content (170 pages)

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FRM220-NMC Network Management Controller
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CTC Union Technologies Co., Ltd. Far Eastern Vienna Technology Center (Neihu Technology Park) 8F, No. 60 Zhouzi St. Neihu District Taipei 114 Taiwan Tel: +886-2-26591021 Fax: +886-2-27991355 Email: info@ctcu.com URL: http://www.ctcu.com FRM220 NMC Software Operation Manual Network Management Card Media Platform Rack, 20 Slot, 2U Version 0.9h Feb 2009 (Draft) Version 0.9j Aug 3, 2009 (Update) Version 0.9k June 1, 2010 (Update) Version 0.9l Sep 15, 2010 (Update) Version 0.9m April, 2011 (Update) Version 0.
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Legal The information in this publication has been carefully checked and is believed to be entirely accurate at the time of publication. CTC Union Technologies assumes no responsibility, however, for possible errors or omissions, or for any consequences resulting from the use of the information contained herein.
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Table of Contents Chapter 1 Introduction.................................................................................................................................................................. 9 1.0 Introduction.......................................................................................................................................................................... 9 1.1 Brief Functional Description......................................................................................
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Table of Contents A.4 FRM220-10/100A(S) 802.3ah OAM/IP In-band managed 10/100 Fiber Media Converter.............................................. 62 A.4.1 Specifications.............................................................................................................................................................. 63 A.4.2 Management Features ................................................................................................................................................. 63 A.4.
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Table of Contents A.12 FRM220-2.7G-2S, 2.7Gbps 3R Fiber Transponder ...................................................................................................... 119 A.12.1 Functional Details................................................................................................................................................... 120 A.12.2 Installation of SFP Modules .............................................................................................................................
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Table of Contents iv
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Chapter 1 Introduction Chapter 1 Introduction 1.0 Introduction Thank you for choosing the FRM220 Platform Fiber Media Converter Rack. If you would like to skip right to the provisioning of the Network Management Controller, proceed to Chapter 2. This manual is used to explain the configuration of the FRM220-NMC (Network Management Controller) and operating procedures. This manual is divided into 4 Sections, the Introduction, Provisioning, Web Based Management and Trouble Shooting, plus the Appendices.
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Chapter 1 Introduction 1.3 Card Options The FRM220 is capable of supporting a variety of in-band managed card types which may be mixed and matched in any slot of the rack. Please refer to Appendix A of the latest version manual for details of all the card options and operation for the FRM220. 1.4 NMC (SNMP) 1.4.1 NMC Introduction The FRM220 must be ordered with an NMC (Network Management Controller) Card in order to support management. The card is placed in the far left, number one card slot.
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Chapter 1 Introduction 1.4.2 FRM220 NMC Connections DB9F to DB9M Console Cable, provided w/ NMC Connect to PC's COM port Cat 5 or 6 Ethernet Cable (not included) PC with TCP/IP and Terminal Emulator Connects to PC's LAN or to Network's Switch Figure 1-4 FRM220 NMC Connections 1.4.
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Chapter 1 Introduction 1.4.6 NMC LED Indicators Indication PWR1 Color Green PWR2 Green FAN1 Green FAN2 Green ALM1 Red ALM2 Red STK Green ACT Green 100 Green LNK Green State ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON Blink OFF ON OFF ON OFF Blink Description Indicates that the No. 1 power module is correctly providing power No power from No. 1 power module or not installed Indicates that the No. 2 power module is correctly providing power No power from No.
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Chapter 2 Provisioning Chapter 2 Console Provisioning 2.1 Introduction This chapter will go into the details of the specific provisioning and operation of the FRM220-NMC. Broken into two chapters, this chapter outlines the procedures and functions when using the serial console for configuration. The next chapter will outline the operation when using a network connection, including the Web based management.
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Chapter 2 Provisioning 2.2 Console Mode 2.2.1 Control Port General The FRM220-NMC Console Port, labeled 'Console' on the card face, is an RS-232 asynchronous console terminal port designed to facilitate monitoring the condition of all converter cards and links as well as setup of all networking parameters through the use of a standard text based terminal or any terminal emulation program running on a Personal Computer. 2.2.
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Chapter 2 Provisioning 2.2.4 Terminal Login To enter "Console mode", a password may be required. By default, there is no password set from the factory. The user password provides security to protect the system. From a Telnet connection, if you enter the wrong password three times, the security system will not allow any login again for 15 minutes. **************************************** *** CTC UNION TECHNOLOGIES CO., LTD. *** *** FRM220 NMC VER. 1.
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Chapter 2 Provisioning 2.2.5 TCP/IP Configuration The Network Management modes that require TCP/IP communications must first have all TCP/IP configuration settings completed while in the "Console Mode". Once the settings are completed, the FRM220-NMC card can be accessed by Telnet, the Web or via standard SNMP protocol. Two Step Configuration The management configuration process is broken down into two logical steps.
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Chapter 2 Provisioning Step Two: Manager Configuration Process a.) Assign Managers Press the 'M' key << SNMP Manager Configuration Setup of Chassis Manager's IP Community String Access =================== ================ ========== #1 ------#2 ------#3 ------#4 ------#5 ------#6 ------#7 ------#8 ------Command Function Key: <1>~<8>: Edit manager #1 to #8 setting. : Delete all settings. : Go to Trap Configuration menu. : Go to Syslog Configuration menu.
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Chapter 2 Provisioning b.) Trap Management From the SNMP Manager Configuration Menu, select 'N' for trap management configuration. **************************************** *** CTC UNION TECHNOLOGIES CO., LTD. *** *** FRM220 NMC VER. 1.95 *** **************************************** << Trap Configuration Setup of Chassis 0 >> Trap Receiver IP Community String ================ ================ Set up to 8 trap receivers, #1 192.168.1.100 private entering their IP addresses.
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Chapter 2 Provisioning 2.2.6 Using a Syslog Server Syslog is a standard for logging program messages and is now standardized within the Syslog working group of the IETF. Syslog allows separation of the software that generates messages from the system that stores them and the software that reports and analyzes them. Syslog, in the FRM220-NMC, can be used for security auditing (login) as well as generalized informational (link down), analysis, and debugging (loop back) messages.
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Chapter 2 Provisioning 2.2.7 Chassis Information and Alarm setup The FRM220 supports two dry contact alarms that are user configurable for a number of different alarm conditions. Alarm conditions are configurable for alarms from Power, Fans, and UTP or Fiber link and Far End Fault states for local and remote converters. The alarms must also be configured for NMC to send SNMP traps. From the main menu of the FRM220, press the '1' (one) key to enter the NMC & Chassis configuration.
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Chapter 2 Provisioning For an example of configuration for Alarm #2, press '5' (five). Alarm#2 Mode: <0>: Disable -- ignore all alarm conditions <1>: By Fans -- active if any fan fails <2>: By User#2 -- active if any user#2 definition is met <3>: Active -- for manual testing : Go to previous menu. Please select an item. 0 : This will completely disable Alarm #2. The relay dry contact will not close and the NMC ALM2 red LED will not light. 1 : This is the factory default setting.
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Chapter 2 Provisioning 2.2.8 User Password Setup From the main menu page, press the 'P' key to enter the Password Setup. There are two user setups. << Password Setup >> <1>: User Name #1: [ -------- ] Password: [ ******** ] <2>: User Name #2: [ -------- ] Password: [ ******** ] Keyin: 1 : Go to previous menu. Please select an item.
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Chapter 2 Provisioning 2.2.9.4 Setup the FRM220 The following screens will show the detailed procedures to setup the networking for the FRM220 and prepare for TFTP upgrade of the SNMP. Once the console port is connected to a terminal, the following screen will display. **************************************** *** CTC UNION TECHNOLOGIES CO., LTD. *** *** FRM220 NMC VER. 3.
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Chapter 2 Provisioning Ping the NMC from the TFTP server PC and be sure there is a response. Place the upgrade file(s) in the same folder as the TFTP server program. Start the TFTP server on the connected PC. In our example, we are using the free tftp32 TFTP server. If Windows® is running a firewall, a security alert will popup. Click the "Unblock" button to allow TFTP protocol from the TFTP Server application.
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Chapter 2 Provisioning OK, now let's verify the version number of the SNMP. Login to the terminal of the FRM220. Note that the version is now the new version. (in our example, 3.23) ************************************************************** *** CTC UNION TECHNOLOGIES CO., LTD V3.
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Chapter 2 Provisioning This page left blank intentionally.
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Chapter 3 Web Based Management Chapter 3 Web Based Management 3.1 Introduction This chapter will explain the operation of the FRM220-NMC Web based interface used to monitor and configure the FRM220 fiber media converter rack. The management station may be attached directly to the FRM220-NMC card with an Ethernet cable.
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Chapter 3 Web Based Management 3.2.2.2 Home Page The Web GUI behaves just like any other web based application. The following graphic shows all of the areas that may be clicked for further configuration. Slots without any line card or without manageable line card will be shown as 'Empty'. Line Cards Slots 2~20 NMC & Chassis Language Select Local / Remote SNMP Setup Local Slot In-Band remote Figure 3.
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Chapter 3 Web Based Management 3.2.2.3 System Information Clicking on the "System" item will display an overview screen that allows setting system information, TFTP kernel and file system update, date & time setting, and parameter management.
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Chapter 3 Web Based Management The System Information field provides the following settings: 1. 2. 3. 4. 5. 6. 7. Target IP : This is the IPv4 dotted decimal IP address assigned to the NMC itself. Netmask : This value is set to the subnet address of the network to which the NMC is attached. Gateway IP : This IPv4 dotted decimal address is the default router to the network to which the NMC is attached. Target Name : This is the ‘sysName’ given to the NMC that will be displayed via SNMP standard MIB-2.
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Chapter 3 Web Based Management 3.2.2.4 Update Kernel and File System To update the NMC via the web interface, type in the kernel and file system image names and make sure those files are available from a TFTP server. Click the "Set Parameter" button. To update the kernel click the "Flash Kernel" button. To update the filesystem click the "Flash File System" button. Image upload may fail due to memory fragmentation. In this case it is necessary to reboot the NMC before performing an update.
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Chapter 3 Web Based Management 3.2.2.6 System / Remote Area The "Remote Area" will give a graphic representation of all the remotely connected stand-alone converters. The following graphic shows all of the remote converters available through the in-band management. Click on any card to enter into the configuration graphic screen for that converter. Refer to Appendix A for each card type. 3.2.2.
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Chapter 3 Web Based Management 3.2.2.8 System / Properties The "Properties" page allows setting naming information for each local and remote converter along with the "Refresh" rate to redraw the browser screen. The name entries are also capable of supporting Unicode characters. The naming space allows up to 10 ASCII characters or 5 2-Byte (Chinese) characters. The "Refresh" rate setting is used to set the reload interval for the browser screen.
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Chapter 3 Web Based Management 3.3.2.9 SNMP + Chassis Click on "SNMP+Chassis" from the left hand window menu bar. Header The top header displays the chassis ID (0 for the master chassis, 1~9 for cascaded slave chassis), the slot number for NMC is always 1, NMC is always in local and the version displayed in the format h/w-s/w. In the above example, the NMC hardware version is 1.0 while the software version is 3.263 and kernel build 14622.
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Chapter 3 Web Based Management Redundancy Mode Caution: Exercise extreme care and do not enable this mode unless you know what you are doing. The redundancy feature is a special operation mode designed only for FRM220-10/100i in-band managed cards. This mode allows the converter cards to be paired for redundancy. If either local or remote converter or fiber becomes disconnected, the data path will fallback to the secondary converter/fiber pair.
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Chapter 3 Web Based Management Alarm 1 & 2 Settings Alarm 1 Mode can choose Disabled, By Powers, By User 1 or Active from the drop-down menu. If disabled, no condition will cause the Alarm 1 relay to close or become active. When selecting the "By Powers" option, the Alarm 1 relay will be closed on any single power failure. The "By User 1" option is used in conjunction with the "Chassis", "Local" and "Remote" User check boxes. User setting allows configuring custom alarm conditions.
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Chapter 3 Web Based Management 3.3.2.10 SNMP + Chassis / Manager Setup Please note the following when setting the Manager's IP: 1. Using the word 'default' will allow any IP address to manage the rack. They will be assigned the access authority per the assigned community string and radio button setting, read-only or read-write. 2. When using the subnet delimiter (/8 /16 /24, etc.) the entire subnet can be allowed management rights. 3.
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Chapter 3 Web Based Management 3.3.2.12 Syslog Setup Syslog is a standard for logging program messages and is now standardized within the Syslog working group of the IETF. Syslog allows separation of the software that generates messages from the system that stores them and the software that reports and analyzes them. Syslog, in NMC, can be used for security auditing (login) as well as generalized informational (link down), analysis, and debugging (loop back) messages.
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Chapter 4 Troubleshooting Chapter 4 Troubleshooting 4.1 Network Settings 4.1.1 Review Agent Settings During unit startup, the "SNMP" LED will light as the agent boots up, and then it should blink at about one cycle per second after boot up and during normal operation. Refer to Chapter 2 section 2.2.5 TCP/IP Configuration for the SNMP agent settings.
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Chapter 4 Troubleshooting 4.1.2 Review Manager Settings For SNMP management software to connect to the FRM for management, the FRM's NMC must be properly configured with the manager's IP address and authorized for read/write (via community string setting) and trap messages. Review the settings explained in 2.2.5 TCP/IP Configuration. If the management workstation is on a remote network, ensure it can also pass the ping test. Figure 4.
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Appendix A Appendix A. FRM220 Cards Options A.0 Introduction The FRM220 In-Band Managed Media Converter Chassis is designed to accept a variety of optical to electrical or optical to optical converter cards. As cards are added, this section will be updated with the relevant information for the new cards. The management interface and all cards support software upgrading so that new cards and new features may be added at any future date.
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Appendix A Operation Modes The default operational mode for the FRM220-10/100i is 'switch mode'. When the MC works in 'switch mode' mode, it does not begin to forward a packet to a destination port until after the entire packet is received. The latency therefore depends on the packet length. The maximum packet length supported is up to 2046 bytes in this mode. Different from a normal switch chip, the MC's chip supports forwarding IEEE802.3x pause frame or 'flow control'.
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Appendix A Local Rx fiber Broken 2. FX Link Down 3. Fault condition sent via OAM to far end MC fiber 1. fiber broken local Remote Power Failure 1. MC powered OFF fiber 2. Fault condition sent via dying gasp local MC remote 3. FEF LED lit MC 4. FEF Led Lit MC remote LED Status Indicators LED PWR Function State Status Power indicator On Converter has power. Off Converter has no power or has been disabled. Blinking Card is being upgraded.
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Appendix A A.1.2 Block Diagram of 10/100i Edge Connector 12VDC Reg. LEDs μP RS485 driver MII MAC FX PHY MAC TP PHY Card Face MAC Switch OAM (For reference only) FIFO A.1.3 FRM220-10/100i Console Configuration From the main menu of the FRM220 NMC console, select the slot number containing the 10/100i line card. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #02 > FRM220-10/100I [Local ] [ Ver:1.100-1.279-0.000-0.
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Appendix A Below is an example of managing the remote MC via OAM. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #02 > FRM220-10/100I [Remote] [ Ver:1.100-1.279-0.000-0.000 ] Port Active:[Enable ] UTP Link:[Up ] Rx Active:[On ] <2>: Negotiation:[Auto ] <3>: Speed: [100 ] <4>: Duplex: [Full] FX Link:[Up ] Rx Active:[On ] FEF:[Off ] Remote PWR:[OK ] <5>: Loop Back Test:[Off ] Status:[----] <6>: Operation Mode: [Switch ] <7>: Ingress Rate Limit(IRL) Mode: [No Limit] [100.
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Appendix A Slot The slots in the chassis are numbered 1 ~ 20 from left to right when viewing from the front of the FRM220. The first slot is reserved for the NMC card. This card is required in every chassis, even in a cascaded stack. The slots for cards are numbered 2 ~ 20. The example above shows the card in slot 2 or the first available slot for interface cards.
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Appendix A DD Digital Diagnostics is an extended function of SFP modules that is specified in MSA (Multi-Source Agreements). Standard information that can be read from SFP includes the manufacture's name, model and serial number of the SFP. DD includes real time values for transmit and receive power and temperature within the SFP. Examples of SFP without and with DD function. Port Active Use this pull-down to select whether to enable or disable the state of the media converter.
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Appendix A Bandwidth Limiting This converter supports both ingress (UTP to Fiber) and egress (Fiber to UTP) bandwidth control in granularities of 32K or 512K. This provides a very flexible and controllable bandwidth usage through the media converter. The default setting is with no limiting. The above is an example of setting a 2Mbit bandwidth limit for both ingress and egress. Note: Beginning with firmware version 1.
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Appendix A A.1.4.3 UTP Information The basic link information can be viewed and the Ethernet parameters can be configured for forced mode here. The default setting is auto-negotiation enabled. Please be careful when setting manual or forced mode when connecting to another auto device to avoid performance killing duplex mismatch. Always connect auto to auto or set both connected interfaces to the same forced settings. A.1.4.
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Appendix A A.1.4.5 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-10/100i and FMC-10/100i 3. Select the slot to update. Selecting "All Slots" will upgrade all local and remote 10/100i cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local or remote unit. 5. The image file name needs to be keyed in.
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Appendix A A.2 FRM220-10/100iS-2 Dual Channel In-band managed 10/100 Fiber Media Converter The FRM-10/100iS-2 (in-band converter) is a Dual Channel (2 converters in 1 card) In-band Managed (OAM) Fiber Ethernet media converter (MC) that supports 10Base-T or 100Base-TX and converts to 100Base-FX (fiber). The UTP side supports auto-negotiation or forced settings for speed and duplex by setting as well as auto-MDIX.
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Appendix A A.3 FRM220-10/100i-2E In-band managed 10/100 Fiber Media Converter The FRM-10/100i-2E (in-band converter) is an In-band Managed (OAM) Fiber Ethernet media converter (MC) that supports 2 Ethernet channels of 10Base-T or 100Base-TX and converts to 100Base-FX (fiber). The UTP ports support auto-negotiation or forced settings for speed and duplex by setting as well as auto-MDIX. When the FRM10/100i-2E is placed in the FRM220 with NMC, the settings are controlled by the chassis management system.
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Appendix A Operation Modes The default operational mode for the FRM220-10/100i-2E is 'switch mode'. When the MC works in 'switch mode' mode, it does not begin to forward a packet to a destination port until after the entire packet is received. The latency therefore depends on the packet length. The maximum packet length supported is up to 2046 bytes in this mode. Different from a normal switch chip, the MC's chip supports forwarding IEEE802.3x pause frame or 'flow control'.
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Appendix A Local Rx fiber Broken 2. FX Link Down 3. Fault condition sent via OAM to far end MC local Remote Power Failure fiber 1. fiber broken local MC remote 3. FEF LED lit MC 4. FEF Led Lit 1. MC powered OFF fiber 2.
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Appendix A A.3.2 Block Diagram of 10/100i-2E Reg. LEDs μP RS485 driver MAC FX PHY Switch Tx1 Tx2 OAM (For reference only) Card Face MAC MAC MII MAC Edge Connector 12VDC FIFO A.3.3 FRM220-10/100i-2e Console Configuration From the main menu of the FRM220 NMC console, select the slot number containing the 10/100i-2E line card. This SLOT <1>: <2>: <3>: <4>: <5>: <6>: <7>: <8>: <9>: : : Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] #09 > FRM220-10/100I-2E [Local ] [ Ver:1.100-1.
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Appendix A Below is an example of managing the remote MC via OAM. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #09 > FRM220-10/100I-2E [Remote] [ Ver:1.100-1.001-0.000-0.000 ] Port Active:[Enable ] <2>: UTP 1 Information and Settings. <3>: UTP 2 Information and Settings.
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Appendix A Side Because most of the cards for the FRM220 series support in-band management, the "Side" parameter lets the user know if he is in the management screen for the "Local" or in the FRM220 chassis or for the "Remote" or fiber connected stand-alone converter. Type The field just tells the type of card installed in the slot (for local) or attached by fiber (for remote). Version The version parameter is broken into four fields as follows: 1.100-1.001-0.000-0.
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Appendix A Port Active Use this pull-down to select whether to enable or disable the state of the media converter. When disabled, all LEDs on the unit and in the Web GUI will be extinguished. This function is not allowed when managing the remote converter and will be 'grayed out'. To disable a link, the local or 'in-chassis' converter must have its port disabled. Auto Laser Shutdown This pull-down chooses between enabling and disabling the ALS function. The default is disabled.
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Appendix A A.3.4.3 UTP Information The basic link information can be viewed and the Ethernet parameters can be configured for forced mode here. The default setting is auto-negotiation enabled. Please be careful when setting manual or forced mode when connecting to another auto device to avoid performance killing duplex mismatch. Always connect auto to auto or set both connected interfaces to the same forced settings. A.3.4.
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Appendix A A.3.4.5 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-10/100i-2E 3. Select the slot to update. Selecting "All Slots" will upgrade all local and remote 10/100i-2E cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local or remote unit. 5. The image file name needs to be keyed in.
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Appendix A 8. Heed the warning messages!!!! 9.
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Appendix A A.4 FRM220-10/100A(S) 802.3ah OAM/IP In-band managed 10/100 Fiber Media Converter This IEEE802.3ah OAM compliant copper to fiber Fast Ethernet solution is designed to make conversion between 10/100Base-TX and 100Base-FX with SC or ST connector. With its own built-in SNMP agent and GUI Web-based management or when placed in the managed FRM220, the Network administrator can monitor, configure and control the activity of each 802.3ah series line card. This 802.
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Appendix A A.4.1 Specifications Optical Interface Connector Optical rate Duplex mode Fiber Distance Wavelength Electrical Interface Connector Data Rates Duplex Cable Standards Maximum MTU Indications Power Input Consumption Dimensions Weight Temperature Humidity Certification MTBF SFP cage (depending on model) 125Mb/s Full duplex MM 50/125um, 62.
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Appendix A A.4.4 Panel Amber On:100M 10/100AS-2 2 x SFP ports, support any 155M transceiver 1 Off:10M LED Indicators 2 3 Green On: Link Red Test Green Power Green 1, 2 Link 4 Flash: Activity DEFAULT: (recessed pushbutton) Use to recover lost password or to return all settings to factory default values. Off: no link Figure A.4.1 Panel designations of FRM220-100AS-2 A.4.5 Installation of SFP Modules CTC Union supplied SFP modules are of the Bale Clasp type.
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Appendix A A.5 FRM220-1000EA(S) 802.3ah In-band managed Gigabit Fiber Media Converter This IEEE802.3ah OAM compliant copper to fiber Gigabit Ethernet solution is designed to make conversion between 10/100/1000Base-TX and 1000Base-SX/LX with SFP-LC connector. With SNMP agent and GUI Webbased management in the FRM220, the Network administrator can monitor, configure and control the activity of each 802.3ah series line card. This 802.
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Appendix A A.5.1 Functional Details Ethernet The 1000EAS is based on a L2 switch chip which supports non-blocking switching fabric with up to 1024 MAC lookup filtering table and support for Egress tagging/untagging selectable per port in any combination using 802.1Q VLAN support for 4094 VIDs and BPDU handling for spanning tree protocol. There are also 28 32bit and 2 64 bit RMON counters per port that can be displayed through the management system or received via SNMP standard MIB statistics.
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Appendix A A.5.3 Factory Reset Procedure Apply power to the 1000EAS and allow 30 seconds to fully boot. Using a pencil or ball-point pen, press the 'DEFAULT' recessed push-button switch (located on the face plate) and hold for 9~10 seconds. DO NOT POWER OFF. Allow the unit to again fully reboot. The defaults are: IP=10.1.1.1 netmask=255.0.0.0 GW=10.1.1.254 TFTP server=10.1.1.100 The username and password are both reset to 'admin' if enabled. A.5.3.
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Appendix A A.6 FRM220-1000EDS Managed Gigabit Fiber Media Converter The FRM220-1000EDS is a 4-port switch or dual channel (two in one) copper to fiber Gigabit Ethernet solution designed to make conversion between 10/100/1000Base-TX and 1000Base-SX/LX with SFP transceivers. With SNMP and Web-based management in the FRM220, the Network administrator can monitor, configure and control the activity of each card in the chassis.
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Appendix A A.6.1 Functional Details Ethernet The 1000EDS is based on a L2 switch chip which supports non-blocking switching fabric with up to 1024 MAC lookup filtering table. There are also two 64 bit RMON counters per port that can be displayed through the management system of the FRM220-CH20 chassis. The 10/100/1000Base RJ-45 connectors are located on the front panel of the card along with two SFP cages for industry standard 1.25Gbps SFP modules.
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Appendix A A.6.3 Installation of SFP Modules CTC Union supplied SFP modules are of the Bale Clasp type. The bale clasp pluggable module has a bale clasp that secures the module into the SFP cage. A.6.3.1 Inserting a Bale Clasp SFP Module into the Cage Step 1 Close the bale clasp upward before inserting the pluggable module. Step 2 Line up the SFP module with the port, and slide it into the cage. A.6.3.2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module.
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Appendix A DIP SW 1 and DIP SW 2： (note: 1000ES-1 has one DIP switch for its LAN 1 port only. SW5 has no function.) (note2: 1000EDS has two DIP switches, DIPSW1 for LAN1 and DIPSW2 for LAN 2.
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Appendix A Description of Menu Settings <1> : Fiber 1 Displays information and settings for Port 1 fiber. <2> : Fiber 2 Displays information and settings for Port 2 fiber. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #09 > FRM220-1000EDS [Local ] [ Ver:1.200-1.600-0.000-0.
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Appendix A <1> : Port Active: The port can be disabled so that no traffic will pass. The default is with port enabled. <2> : Negotiation: The default is ‘Auto’ per 802.3u. Set to ‘Manual’ to configure forced mode <3> : Speed : The UTP supports 10, 100, 1000 speed setting if negotiation is set to manual. <4> : Duplex : The UTP supports Full or Half Duplex setting if negotiation is set to manual.
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Appendix A A.6.6 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Fiber port 1, Fiber port 2, UTP port 3 and UTP port 4 have their information and settings. The Device Information box has the operation mode pull-down and the Auto Laser Shutdown settings. After making any changes, be sure to click the “Set Parameters” button.
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Appendix A Lastly the ‘counters’ and SFP information is displayed at the bottom of the web page. The counters are 64 bit registers for in and out traffic, for each port. A.6.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-1000EDS 3. Select the slot to update. Selecting "All Slots" will upgrade all local 1000EDS cards. (this may take up to 15 minutes) 4.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.7 FRM220-E1/T1 In-band managed G.703 E1/T1(DS1) Fiber Modem The FRM220-E1/T1 is a fiber modem transport for G.703 E1 or T1(DS1) transmission. The BNC model (E1 only) provides unbalanced 75 Ohm coaxial connections while the RJ-45 model provides balanced 100/120 Ohm connections over twisted pair wiring.
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Appendix A A.7.1 Functional Details Fiber The E1/T1 fiber modem uses a proprietary scrambled NRZ optical line coding to provide extremely low BER for E1 over fiber. The electrical interface is an unbalanced 75 ohm for the BNC model or balanced twisted pair on industry standard USOC RJ48C wiring on a physical shielded RJ-45. In T1 mode, only unframed, clear channel transmissions are supported. In E1 mode, however, both transparent unframed and fractional (nx64) E1 are supported.
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Appendix A A.7.3 Installation of SFP Modules CTC Union supplied SFP modules are of the Bale Clasp type. The bale clasp pluggable module has a bale clasp that secures the module into the SFP cage. A.7.3.1 Inserting a Bale Clasp SFP Module into the Cage Step 1 Close the bale clasp upward before inserting the pluggable module. Step 2 Line up the SFP module with the port, and slide it into the cage. A.7.3.2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module.
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Appendix A Switch 1 settings DIP SW1 1 SW STATE 1 OFF ON Function E1/T1 Setting E1 T1 2 2 OFF ON Line Code Setting HDB3(E1)/B8ZS(T1) AMI 3 3 OFF ON Full or Fraction Setting Full E1/T1 Fractional E1/T1 4 4 OFF ON Frame setting CCS(E1), D4(SF)(T1) CAS(e1), ESF(T1) 5 5 OFF ON CRC setting Disable Enable 6 6 OFF ON Auto transmitted AIS when Disable Enable 7,8 7 OFF ON OFF ON 8 OFF OFF ON ON E1/T1 transmitted timing setting Recovery from remote side Internal oscillator.
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Appendix A Switch 2 settings Use the switches 1~5 to set the nx64k rate For T1, the maximum is 24 timeslots For E1-CCS the maximum is 31 timeslots For E1-CAS the maximum is 30 timeslots DIP SW2 1,2,3,4,5 1 OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON 2 OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON SW STATE 3 OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF O
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Appendix A Switch 3 settings After setting the required nx64k timeslot amount, set the starting timeslot number for the contiguous set of active timeslots.
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Appendix A A.7.5 Provisioning by NMC (Telnet) When placed in the CH20 with NMC, this card can be configured through any of the NMC interfaces, including Telnet, Web GUI and SNMP. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #18 > FRM220-E1/T1 [Local ] [ Ver:1.000-1.110-1.020-0.
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Appendix A E1/T1 and Fiber Loop Back Here is a review of the loop back functions available for the E1/T1 line card.
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Appendix A A.7.6 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Fiber port, E1/T1 port, Function buttons and SFP information at the bottom. After making any changes, be sure to click the “Set Parameters” button.
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Appendix A A.7.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-E1/T1 3. Select the slot to update. Selecting "All Slots" will upgrade all local and remote E1/T1 cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local or remote unit. 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.8 FRM220-Data In-band managed V.35, X.21, RS-530/449/232 Fiber Modem The FRM220-DATA is a fiber modem for high-speed (up to 8.192Mbps) synchronous or low speed synchronous and asynchronous data transmissions (V.35, RS-232, RS-530, X.21 or RS-449) over fiber optical media. When the FRM220-DATA card is placed in the FRM220 rack with SNMP management, in-band management allows viewing the card and remote modem's status, type, version, fiber link status, data link status and alarms.
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Appendix A A.8.1 Functional Details Fiber The DATA fiber modem uses a proprietary scrambled NRZ optical line coding to provide extremely low BER for Serial Data over fiber. The electrical interface is software selectable between RS-530 (including X.21 and RS-449), V.35 or RS-232. The interface is also software selectable between DCE and DTE, which will eliminate using any special cross-over or null-MODEM cables.
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Appendix A A.8.3 Installation of SFP Modules CTC Union supplied SFP modules are of the Bale Clasp type. The bale clasp pluggable module has a bale clasp that secures the module into the SFP cage. A.8.3.1 Inserting a Bale Clasp SFP Module into the Cage Step 1 Close the bale clasp upward before inserting the pluggable module. Step 2 Line up the SFP module with the port, and slide it into the cage. A.8.3.2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module.
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Appendix A Switch 1 settings (Receive timing) SW1 1,2,3,4, 5 6,7,8 9,10 SW STATE 1 2 OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON 6 OFF ON OFF ON OFF ON OFF ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON 9 OFF ON OFF ON 3 4 OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON 7 OFF OFF ON ON OFF OFF ON ON O
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Appendix A Switch 2 settings (Transmit timing) SW1 1,2,3,4, 5 SW STATE 1 2 OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON 6 6,7,8 9,10 OFF ON OFF ON OFF ON OFF ON 9 OFF ON OFF ON 3 4 5 OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF OFF OFF OF
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Appendix A Switch 3 settings Use the switches 1~2 to set the DSR/DTR handshaking Use the switches 3~4 to set the CTS/RTS handshaking Use the switch 5 to set the ETC polarity Use the switch 6 to set the TC polarity Use the switch 7 to set the RC polarity Use the switch 8 to select the port setting as DCE or DTE.
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Appendix A A.8.5 Provisioning by NMC (Telnet) When placed in the CH20 with NMC, this card can be configured through any of the NMC interfaces, including Telnet, Web GUI and SNMP. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #16 > FRM220-DATAPORT [Local ] [ Ver:1.000-1.050-1.010-0.
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Appendix A Data Port Control Settings Menu -----------------------------------------------------------------------Data Port Control Setting: <0>:DSR/DTR output setting[Constantly ON ]<1>:ETC polarity setting[Normal] <2>:CTS/RTS output setting[Constantly ON ]<3>:TC polarity setting[Normal] <4>:DCD output setting[Constantly ON ] <5>:RC polarity setting[Normal] ------------------------------------------------------------------------ Data Port and Fiber Loop Back Here is a review of the loop back functions ava
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Appendix A A.8.6 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Fiber port, DATA port, Function buttons and SFP information (if any) at the bottom. After making any changes, be sure to click the “Set Parameters” button.
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Appendix A A.8.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-DATA 3. Select the slot to update. Selecting "All Slots" will upgrade all local and remote DATA cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local or remote unit. 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.9 FRM220-Serial/485 In-band managed RS-485/422/232 Fiber Modem The FRM220-Serial/485 provides an Asynchronous Fiber Modem solution to extend RS-485 or RS-232 transmission distance up to 2km over multimode fiber or up to 120km over single mode fiber. The modem is equipped with multiple interface circuits for connection to RS-232 or RS-485/422 (2 or 4 wire, full or half duplex).
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Appendix A A.9.1 Functional Details Fiber The Serial fiber modem uses a proprietary scrambled NRZ optical line coding to provide extremely low BER for Serial Data over fiber. The electrical interface is software selectable between RS-232 3-wire or 5-wire and RS-485 4-wire Full Duplex or 2-wire Half Duplex interface. A 6-Pin Terminal block provides the interface port connections. Management The FRM220-Serial has a small processor that is used to read the on-board DIP switches.
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Appendix A A.9.3 Installation of SFP Modules CTC Union supplied SFP modules are of the Bale Clasp type. The bale clasp pluggable module has a bale clasp that secures the module into the SFP cage. A.9.3.1 Inserting a Bale Clasp SFP Module into the Cage Step 1 Close the bale clasp upward before inserting the pluggable module. Step 2 Line up the SFP module with the port, and slide it into the cage. A.9.3.2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module.
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Appendix A Switch 1 settings DIP SW NO.
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Appendix A A.9.6 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Fiber port, DATA port, Function buttons and SFP information (if any) at the bottom. After making any changes, be sure to click the “Set Parameters” button. 1. Port Active: Setting this to ‘Disable’ will halt all traffic through the card. In the remote in-band unit, this option is not allowed. 2. ALS: Auto Laser Shutdown is a safety measure.
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Appendix A A.9.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-Serial 3. Select the slot to update. Selecting "All Slots" will upgrade all local and remote Serial cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local or remote unit. 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.10 FRM220-FXO/FXS In-band managed POTS (Voice) over Fiber Modem FRM220-FXO/FXS POTS phone line converter extender is used to connect PSTN voice signals to distant Plain Old Telephone (POTS) devices. FRM220-FXO/FXS provides a fiber media transport for POTS transmission and features an RJ-11C for copper connection. A pair of FRM220-FXO/FXS is required to implement an end to end system.
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Appendix A A.10.1 Functional Details Fiber The FXO/FXS fiber modem uses a proprietary scrambled NRZ optical line coding to provide extremely low BER for Voice over fiber. Electrical The electrical interface is software selectable between FXO (Foreign eXchange Office) and FXS (Foreign eXchange Subscriber) interface. An RJ-11 provides the interface port connections. Management The FRM220-FXO/FXS has a small processor that is used to read the on-board DIP switches.
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Appendix A A.10.3 Installation of SFP Modules CTC Union supplied SFP modules are of the Bale Clasp type. The bale clasp pluggable module has a bale clasp that secures the module into the SFP cage. A.10.3.1 Inserting a Bale Clasp SFP Module into the Cage Step 1 Close the bale clasp upward before inserting the pluggable module. Step 2 Line up the SFP module with the port, and slide it into the cage. A.10.3.2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module.
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Appendix A Switch 1 settings (firmware version 3.
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Appendix A Line Card Status SLOT #19 > FRM220-FXO/FXS Vendor Name :[ Vendor Part Number:[ Fiber Type :[ Wave Length :[ Wave Length 2 :[ Link Length :[ Tx Power :[ Rx Power :[ Rx Sensitivity :[ Temperature :[ Power Margin :[ Power Loss :[ [Local ] [ Ver:1.000-3.030-2.000-0.000 ] FIBERXON INC. FTM-3125C-L40 Single ] 1310nm ] ----nm ] 40km ] +01dBm ] +04dBm ] ------ ] +042C ] ------ ] 00 dB ] ] ] A.10.
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Appendix A A.10.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-FXO/FXS 3. Select the slot to update. Selecting "All Slots" will upgrade all local and remote FXO/FXS cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local or remote unit. 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.11 FRM220-155MS SM/MM, MM/SM converter / repeater The FRM220-155MS is a fiber to fiber optical media converter and repeater that allows data rates up to 155Mbps. FRM220-155MS supports 2R regeneration, which consists of re-amplification and reshaping. This converter is compatible with fiber interfaces such as 100Mbps Fast Ethernet, 155Mbps STM1 and OC3. The FRM220-155MS works well with FRM220-CH20 chassis as slide-in card or with FRM220-CH01, one slot chassis as a stand-alone fiber converter.
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Appendix A A.11.1 Functional Details Fiber The 155MS fiber to fiber 2R repeater uses a proprietary scrambled NRZ optical line coding to provide extremely low BER for Voice over fiber. A fixed transceiver or SFP models are available. Management The FRM220-155MS has a small processor that is used to communicate with the NMC. This model is NOT designed for stand-alone use and should be installed in managed chassis.
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Appendix A A.11.4 Provisioning by NMC (Telnet) When placed in the CH20 with NMC, this card can be configured through any of the NMC interfaces, including Telnet, Web GUI and SNMP. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #10 > FRM220-155MS [Local ] [ Ver:1.000-1.030-1.010-0.
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Appendix A A.11.6 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Line and Client Fiber ports, Function buttons and SFP information (if any) at the bottom. After making any changes, be sure to click the “Set Parameters” button.
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Appendix A A.11.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-155MS 3. Select the slot to update. Selecting "All Slots" will upgrade all local 155MS cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local unit. (remote not supported in this model) 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.12 FRM220-2.7G-2S, 2.7Gbps 3R Fiber Transponder The FRM220-2.7G-2S is an optical 3R regeneration device, which provides re-amplification, reshaping and retiming. The transponder card converts a data signal to the correct wavelength for transmission on a specific channel by supporting SFP optics on both line side and client side interfaces. When the FRM220-2.
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Appendix A A.12.1 Functional Details Fiber The 3R-2.7G-2S fiber to fiber 3R repeater uses a transparent optical line coding and clock data recovery to provide an optical repeater / transponder function for use in extension or CWDM applications. Only SFP models are available. Management The FRM220-2.7G-2S has a small processor that is used to read the set DIP switches when used stand-alone or to communicate with the NMC when placed in the managed rack.
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Appendix A A.12.3 Provisioning by DIP (Stand-alone) There are three DIP Switches installed on the PCBA of the 2.
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Appendix A A.12.4 Provisioning by NMC (Telnet) When placed in the CH20 with NMC, this card can be configured through any of the NMC interfaces, including Telnet, Web GUI and SNMP. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #10 > FRM220-3R/2.7G-2S [Local] [ Ver:1.100-1.012-1.100-0.
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Appendix A A.12.6 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Line (FX1) and Client (FX2) Fiber ports, Device Settings, Function buttons and SFP information (if any) at the bottom. After making any changes, be sure to click the “Set Parameters” button.
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Appendix A A.12.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-2.7G-2S 3. Select the slot to update. Selecting "All Slots" will upgrade all local 2.7G-2S cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local unit. (remote not supported in this model) 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.13 FRM220-2.7G-3S 3R Transponder with Protection The FRM220-2.7G-3S is an optical 3R regeneration device, which provides re-amplification, reshaping and retiming and offers fiber protection. The transponder card converts a data signal to the correct wavelength for transmission on a specific channel by supporting SFP optics on line side to Primary or Secondary interfaces. When the FRM220-2.
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Appendix A A.13.1 Functional Details Fiber The 3R-2.7G-3S fiber to fiber 3R repeater uses a transparent optical line coding and clock data recovery to provide an optical repeater / transponder function for use in extension or CWDM applications. Only SFP models are available. Management The FRM220-2.7G-3S has a small processor that is used to read the set DIP switches when used stand-alone or to communicate with the NMC when placed in the managed rack.
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Appendix A A.13.3 Provisioning by DIP (Stand-alone) There are three DIP Switches installed on the PCBA of the 2.
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Appendix A A.13.4 Provisioning by NMC (Telnet) When placed in the CH20 with NMC, this card can be configured through any of the NMC interfaces, including Telnet, Web GUI and SNMP. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #10 > FRM220-3R/2.7G-3S [Local] [ Ver:1.100-1.009-1.100-0.
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Appendix A A.13.6 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Line (FX1), Primary (FX2) and Secondary (FX3) Fiber ports, Device Settings, Function buttons and SFP information (if any) at the bottom. After making any changes, be sure to click the “Set Parameters” button.
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Appendix A A.13.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-2.7G-3S 3. Select the slot to update. Selecting "All Slots" will upgrade all local 2.7G-3S cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local unit. (remote not supported in this model) 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.14 FRM220-10G-SS 10Gbps 3R Fiber Transponder The FRM220-10G-SS is a series of managed 10G fiber to fiber 3R repeater/transponders. Based on a number of 10 Gigabit Fiber standards, this transponder supports SFP+ to SFP+ (SS) fiber connections. The transponders are protocol transparent, providing 3R regeneration between these different optical module types.
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Appendix A A.14.1 Functional Details Fiber The 10G-SS fiber to fiber 3R repeater uses a transparent optical line coding and clock data recovery to provide an optical repeater / transponder function for use in extension or CWDM applications at speeds up to 10G. Only SFP+ model is available. (See 10G-SXX model for XFP support.) Management The FRM220-107G-SS has a small processor that is used to read the set DIP switches when used stand-alone or to communicate with the NMC when placed in the managed rack.
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Appendix A A.14.3 Provisioning by DIP (Stand-alone) There is one DIP Switch installed on the PCBA of the 10G-SS Dip Sw 10G 1 2 3 4 Rate 1 Rate 2 Rate 3 Rate 4 Off On Off On Off Off On On Off Off Off Off Off Off Off Off 5 6 Line Line LFP ALS Protocol Supported 10G Ethernet 10G Fiber Channel OC-192/STM-64 G.709 OTU2 7 8 Client Client LFP ALS Fiber Data Rate 10.3125Gbps 10.51875Gbps 9.95328Gbps 10.
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Appendix A A.14.4 Provisioning by NMC (Telnet) When placed in the CH20 with NMC, this card can be configured through any of the NMC interfaces, including Telnet, Web GUI and SNMP. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #10 > FRM220-3R/10G-SS [Local] [ Ver:1.100-2.007-1.100-0.
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Appendix A A.14.5 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Line (FX1) and Client (FX2) Fiber ports, Device Settings, Function buttons and SFP information (if any) at the bottom. After making any changes, be sure to click the “Set Parameters” button.
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Appendix A A.14.6 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-10G-SS 3. Select the slot to update. Selecting "All Slots" will upgrade all local 10G-SS cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local unit. (remote not supported in this model) 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.15 FRM220-MD40/80 CWDM Mux/DeMux The FRM220-MD40 is 4 channels MUX / DEMUX, modular design card for CWDM wavelengths including 1510nm, 1530nm, 1550nm, 1570nm. The FRM220-MD40-UP02 is 4 channels MUX / DEMUX, modular design card for CWDM wavelengths including 1470nm, 1490nm, 1590nm, 1610nm and two upgrade ports for CWDM wavelength ranges of 1503nm ~ 1577nm and 1260nm ~ 1457nm.
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Appendix A A.16 FRM220-iMUX Inverse Multiplexer Blades The FRM220A-nE1/ET100 are 5, 8 or 16 E1 port inverse multiplexer cards with built-in Bridge for the FRM220/220A Series Platform Media Converter Rack. The multiplexers support bundling Unframed E1s using GFP-F (Generic Framing Procedure-Framed). The clock source may be selected internally or recovered from any one of the received E1 signals. The Ethernet port utilizes a single RJ-45 connector or SFP for optical fiber, depending on model.
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Appendix A Edit here A.16.1 Functional Details The FRM220A-nE1/ET100 are 5, 8 or 16 E1 port inverse multiplexer cards with built-in Bridge for the FRM220/220A Series Platform Media Converter Rack. The multiplexers support bundling Unframed E1s using GFP-F (Generic Framing Procedure-Framed). The clock source may be selected internally or recovered from any one of the received E1 signals. Fiber The Ethernet port utilizes a single RJ-45 connector or SFP for optical fiber, depending on model.
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Appendix A A.16.3 Installation of SFP Modules CTC Union supplied SFP modules are of the Bale Clasp type. The bale clasp pluggable module has a bale clasp that secures the module into the SFP cage. A.16.3.1 Inserting a Bale Clasp SFP Module into the Cage Step 1 Close the bale clasp upward before inserting the pluggable module. Step 2 Line up the SFP module with the port, and slide it into the cage. A.16.3.2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module.
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Appendix A A.16.5 Provisioning by NMC (Telnet) When placed in the CH20 with NMC, this card can be configured through any of the NMC interfaces, including Telnet, Web GUI and SNMP. This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #10 > FRM220-5E1/ET100T [Local ] [ Ver:1.200-1.057-1.000-1.
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Appendix A E1 Loopback & Parameters SLOT #10 > FRM220-5E1/ET100T [Local ] [ Ver:1.200-1.057-1.000-1.
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Appendix A E1 Loop Back Here is a review of the loop back functions available for the Inverse Multiplexer line card. RRLB Request Remote loopback Remote Side Local Side E1 Remote Loop Back Functions Line Card Status Menu This Chassis ID:[00] Cascaded:[Yes] Monitored Chassis ID:[00] SLOT #10 > FRM220-E1/T1 [Local ] [ Ver:1.000-1.080-1.020-0.
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Appendix A A.16.6 Provisioning by NMC (Web) The settings, described in the Telnet operation, are easily manipulated here in the Web GUI. From the top, the Fiber port, E1/T1 port, Function buttons and SFP information at the bottom. After making any changes, be sure to click the “Set Parameters” button.
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Appendix A A.16.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-5E1/ET1001 3. Select the slot to update. Selecting "All Slots" will upgrade all local and remote 5E1/ET100 cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select either the local or remote unit. 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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Appendix A A.17 FRM220-Eoe1 Ethernet over E1 Converter The FRM220A-Eoe1 is a single port G.703/704 Fractional E1 DSU/CSU card with built-in HDLC Bridge for the FRM220/220A Series Platform Media Converter Rack. The converter supports Unframed, PCM31, and PCM30 framing modes. The clock source may be selected internally or recovered from received E1 signal. The Ethernet port utilizes a single RJ-45 connector.
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Appendix A A.18 FRM220-E1/Data DSU/CSU Converter Card The FRM220-E1/Data is a single port G.703/704 Fractional E1 DSU/CSU card for the FRM220/220A Series Platform Media Converter Rack. The converter supports Unframed, PCM31, PCM31+CRC4, PCM30, and PCM30+CRC4 framing modes. The clock source may be selected internally, recovered from received E1 signal, externally from the Data port or transparent. The Data port interface utilizes a single Hi-Density 26pin connector.
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Appendix A A.19 FRM220-FTEC E1/T1 Cross Rate Converter Card The FRM220-FTEC is a T1 (US Standard) /E1 (European Standard) converter and timeslot cross connect which enables conversion between one T1 signal and one E1 signal. T1 and E1 signals with framing employ u-Law and A-Law compander encoding principles respectively and encode those analog (voice) signals into 64kbits digital data. The T1 interface supports D4(SF) or ESF frame formats with B8ZS or AMI line code.
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Appendix A A.20 FRM220-1000TS GbE to Gigabit Fiber Converter Card The FRM220-1000T(S) is a 1000Base copper to fiber converter which transparently supports any protocol or packet size. This slide in fiber media converter is available in two different models that work stand-alone or as line cards for placement in the FRM220 Platform Media Converter chassis. The FRM220-1000T uses a fixed optical transceiver while the FRM220-1000TS features an standard SFP socket.
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Appendix A A.21 FRM220-4G-(2S/3S) 2R 4.25G Transponder Card FRM220-4G-2S is a multi-rate, 28M to 4.25G 2R optical repeater device. The "2R" consists of Re-amplification and Re-shaping. The transponder card converts a data signal to the correct wavelength for transmission on a specific channel by supporting SFP optics on both line side and client side interfaces.
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Appendix A A.22 FRM220-Serial/FDC RS-485/RS-232 Fiber Ring Converter Card The FRM220-Serial/FDC provides a dual fiber connection converter solution to extend asynchronous RS-485 or RS-232 transmission distance up to 2km over multimode fiber or up to 120km over single mode fiber. The dual fiber inputs allow connecting multiple devices in a cascade or "daisy chain" fashion as well as creating ring architecture for fiber redundancy.
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Appendix A A.23 FRM220-FOM01 1xE1/T1 +100M Ethernet Fiber Optical Multiplexer Card FRM220-FOM01 is a modular design for 1xE1/T1 + Fast Ethernet multi-service to dual strand fiber PDH multiplexer. FRM220-FOM01 provides E1/T1 transmission transparently and pure 100Mbps Fast Ethernet simultaneously. The fiber optic line uses either fixed transceiver or is based on the SFP technology that allows the flexible use of Multimode or Single mode lines and enables the support of different wavelengths and distances.
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Appendix A A.24 FRM220-FOM04 4xE1/T1 +100M Ethernet Fiber Optical Multiplexer Card FRM220-FOM04 is a modular design for 4xE1/T1 + Fast Ethernet multi-service to dual strand fiber PDH multiplexer. FRM220-FOM04 provides E1/T1 transmission transparently and pure 100Mbps Fast Ethernet simultaneously. The fiber optic line is based on the SFP technology that allows the flexible use of Multimode or Single mode lines and enables the support of different wavelengths and distances.
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Appendix A A.
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Appendix A A.26 FRM220-1000EAS/X 802.
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Appendix A A.27 FRM220A-FSW301 Managed 1-Fiber + 3-UTP Fast Ethernet Switch Card FRM220A-FSW103 is a three port copper to single port fiber Fast Ethernet solution designed to make conversion between 10/100Base-TX and 100Base-FX with SFP. With SNMP and Web-based management in FRM220-NMC or FRM220A-GSW/SNMP, the network administrator can monitor, configure and control the activity of each card from a centrally located managed rack controlling all converter settings including duplex and speed configuration.
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Appendix A A.27.1 Functional Details FSW103 is a card based switch. The face has three 10/100Base electrical UTP and one SFP optical for 100Base-FX transceiver. The card’s golden header provides power and management from the Platform Chassis and also has electrical Ethernet port which can be used by FRM220A-GSW/SNMP to aggregate Ethernet from all installed cards. FSW103 can be managed stand-alone when placed in single slot chassis with console port.
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Appendix A A.27.4 Provision by DIP (Stand-alone) FSW103 has no DIP. All provisioning stand-alone must be done through serial console when placed in CH01M chassis. A.27.5 Provision by Console Management Place FSW103 in a CH01M and connect serial console cable. Set terminal for 38.4K, 8,N,1, and no flow control. **************************************** *** CTC UNION TECHNOLOGIES CO.,LTD *** *** FRM220A-FSW103 Manager Ver:1.0 *** **************************************** Version:[1.00 -1.000-0.000-0.
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Appendix A Example of the Device Status and Configuration sub-menu: **************************************** *** CTC UNION TECHNOLOGIES CO.,LTD *** *** FRM220A-FSW103 Manager Ver:1.0 *** **************************************** Version:[1.00 -1.000-0.000-0.000] [ CH01M ] << Device Status and Configuration >> <1> Device Service [ Enable ] <2> Store Configuration <3> Default Configuration <4> Reset Device Configuration Go to previous menu. Please select an item.
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Appendix A A.27.6 Provision by Web Refer to A.27.5 Provision by Console Management for more details of each setting. From this page ALS can be enabled and each UTP set either auto-negotiation or forced mode.
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Appendix A A.27.7 Firmware Upgrade 1. From the "System" menu click the "Upgrade Line Card" button. 2. Select the card type radio button, which in this case is the FRM220-FSW103 3. Select the slot to update. Selecting "All Slots" will upgrade all local switch cards. (this may take up to 15 minutes) 4. If selecting an individual slot, you must also select the local unit ONLY. 5. The image file name needs to be keyed in.
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Appendix A 7. Click the "OK" button to confirm. 8. Heed the warning messages!!!! 9.
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