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1. Version ru T p F PAT 11 A 1 UNA oA rw or rh 1 7 i Mans h n i hae i A LA 00 aL 000 0 a Chassis ID The chassis with management IP address is the first or ID zero chassis From this NMC up to 10 chassis may be managed using only a single IP address Chassis ID are numbered from zero to nine 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 56 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 0 000 The first field represents the hardware version version 1 1 in this case the second field shows the firmware or software version version 1 001 shown here the third field shows the CPLD version and the forth field the FPGA version where applicable The 10 1001 has no CPLD or FPGA so those
2. User Manual Tag FRM220 NMC Network Management Controller union CTC UNION TECHNOLOGIES CO LTD CTC Union Technologies Co Ltd Far Eastern Vienna Technology Center Neihu Technology Park SF No 60 Zhouzi St Neihu District Taipei 114 Taiwan Tel 886 2 26591021 Fax 886 2 27991355 Email sales 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 9 Aug 3 2009 Update Version 0 9k June 1 2010 Update Version 0 91 Sep 15 2010 Update Version 0 9m April 2011 Update Version 0 9n July 2011 Update Version 0 90 July 25 2011 Update Version 0 9p Aug 16 2011 Update Version 0 9q Sep 1 2011 Update Version 0 9r Jun 6 2012 Update Version 0 9s Sep 28 2012 Update Version 0 9t Oct 22 2013 Update Copyright 2007 2013 CTC Union Technologies Inc All rights reserved All specifications are subject to change without prior notice 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 CTC Union Technologies reserves the right to make changes in its products or product specifications with the intent to improve
3. Key set Parameters Port Reset set ta Default Refresh Status SFP and D D Information Line Side Client Side Vendor Name FIBERXON INC Vendor Name CTC UNION Vendor Part Number FTM 3125C L40 Vendor Part Number 3F5 5030 L311 Fiber Type Single Fiber Type Single Wave Length 1310 run Wave Length 1310 run Wave Length 2 Wave Length 2 TIM Link Length 40 km Link Length 30 km Digital Diagnostic Tx Power Rx Power Rx Sensitivity Rx Power Margin Temperature H146 degree C Power Loss 0 dE 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 116 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 1s 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update
4. VVVVVV VV OV gt KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK wee CTC UNION TECHNOLOGIES CO KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK lt lt SNMP System Configuration Setup gt gt Model FRM220 S N 123456789 Target MAC Address _00 02 ab 06 20 20 Write to system and go to previous menu 7 8 9 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 Empt y Empty Empty LID ee E FFF These are the default TCP IP settings You can directly connect by Telnet or web browser if you have configured your Ethernet connected PC for this subnet Using the menu items 1 2 3 amp 5 keyin the networking values If your laptop will run the TFTP daemon set its IP in the configuration for item 5 TFTP Server IP If you have made any changes to items 1 5 you must write ESC and reboot R the NMC Press ESC to store the results and at the main menu press R and confirm with y The NMC will reboot completely in about 20 30 seconds The kernel and filesystem are in compressed format We previously used the zip file extension but to avoid confusion we now use the gz file extension so that users will not mistakenly unzip the images The version format is imbedded in the compressed gz file s name This will make it easier to identify different versions For example kernel12314 gz would refer to kernel with bui
5. Do Delete all settings lt N gt Go to Manager Configuration menu lt S gt Confirm above setting and restart SNMP lt ESC gt Back to main menu without modification Please select an item There are up to eight entries that can be filled for individual syslog server destination IP addresses Press any number key 1 through 8 and key in the syslog server s IP address Press the lt D gt key to delete all entries Using lt S gt will save the settings and restart the SNMP daemon Press lt ESC gt to exit back to the Main Menu 19 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 amp Chassis configuration Version display meaning Hardware version 1 00 CTC UNION TECHNOLOGIES CO LTD Sofware version 393 FRM220 NMC VER Se2o Kernel build 14622 KXKKKKAAAA AA AAAAAA A AAA AAA AARAAAAAA AAA AAA AA RA This Chassis ID 00 Cascaded Yes Monitored Chassis ID 00 SLOT 01 gt NMC and Chassis Ver 1 00 3 23 14622 Power l Type DC36 72V Status Fan l RPM 3810 Status OK KKKKKKK
6. Power Power Y Power Power Power NMC Todi Irit HO Pur e Dun D Fiberi Link PP T ee P Ok a das A FX FEF FX FEF FX FEF FX FEF Fiber2 Lik FAW Ver 3 26 n Tai gt 59 125 162 252 Dro A Oro dh Orar A ei A QUTPSL s s gs Oo i 1O Tx Ful e TX Ful e bees T UTP31000 pa oe i oe eae Oe Oe Oe E CHASSIS LIST M2 i de 1x 100 cae 1x 100 k she 1x 100 cae x 100 cae cae UTP4 Link y STK gt UTP4 1000 0 4 4 4 4 4 4 4 2CH a 4 4 4 4 4 4 4 4 4 4 4 4 4 Language English Language Select 2 SYSTEM 23123 Local Area PO E lt fe aa Mi Local Remote A A ES wre L TDI D gt Line a e Lin Overview Area Vries gt e y ws T Line Lex Line Le Cent Link Chien Lina a E a El g Properties 5 a LB Test y LB Test 29 SNMP CHASSIS Manager Setup NMC Log SS a cru Syslog Setup Y 4 22 FRII220 FMIC Lin 10 1001 Liege Test 4 Slot 02 Loca A In Band remote Slot 02 Remote Slot 03 Loca Refresh z giji Slot 04 Loca Refresh YA FAN1 DC Power1 AC Power2 FAN2 Slot 04 Remote Slot 05 Loca Slot 05 Remote v Done Internet oy 95 gt Figure 3 2 Selectable features of the Main Web GUI 2 CHASSIS LIST oJ Use the Chassis List control to select the ch
7. 10 100Base TX bs E Ethernet gt K Auto MDIX Figure 1 1 Chassis Front View 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 Management is accomplished either via local control on the asynchronous RS 232 port with an ASCII terminal or via Ethernet and any standard SNMP network management software that supports MIB II The Web based interface provides an easy method for the user to operate and monitor the whole system through a more user friendly point and click graphic system using any web browser Almost all FRM220 cards support remote in band configuration when paired with the same type FRM220 or FMC stand alone in band converter 12VDC a COA empece RS232 driver 32 bit CPU RS485 driver JOJ9IUUO I3PH IWA pred PHY RJ 45 Figure 1 2 NMC Block Diagram The design of the Network Management Controller is built around a 32 bit embedded processor Most cards are designed using 8 bit 8051 microprocessors that handle all configuration of the converter card through
8. D Use this key to delete all of the management settings N Use this key to go to the Trap manager configuration menu X Use this key to go to the Syslog server setting menu S Use this key to confirm the settings save and restart the SNMP daemon ESC Use the escape key to exit this menu without doing any changes KKKKKKKKKKKKKKKKKKKKKRKKKKRKKKKKKKKKKKKKKK eae CIC UNION TECHNOLOGIES Cep LID eS ERE ERM220 NMC VERa L205 KKKKKKKKKKKKKKKKKRKKKKRKKKKRKKKKRKKKKKKKKKEKK All managers on this subnet have read write access with community lt lt SNMP Manager Configuration Setup gt gt Manager s IP Community Strang Access string private 1 192 168 1 0 24 private read write i defau oubl ead on to 1 2224 1 125 private read write A i o o o This single manager has o as Es o read write access with Command Function Key community string private lt 1 gt lt 8 gt Edit manager 1 to 8 setting lt p gt Delete all settings lt N gt Go to Trap Configuration menu lt K gt gt Go to Syslog Configuration menu lt 5 gt Confirm above setting and restart SNMP lt ESC gt Back to main menu without modification Please select an item 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 access string read write or read only 2 Whe
9. Loopback Function Disable Line Side Loopback OFF Client Side Loopback OFF Line Side Loss Propagation Disable Client Side Loss Propagation Disable Line Side Auto Laser Shutdown Disable Client Side Auto Laser Shutdown Disable Port Reset Set bo de tau lts Line Side Small Form Pluggable SFP Yes Digital Diagnostic D D Yes Client Side Small Form Pluggable SFP Yes Digital Diagnostic D D No lt 1 gt Port Active Use this item to enable or disable the line card When disabled all transmission will be blocked and all the line card LED indicators will be Off lt 2 gt Baud Rate Select As a 3R repeater the device needs to be set to the proper data rate for the intended application lt 3 gt Loop Back Function This is a master loop back item If this is enabled the loop back configured in 4 amp 5 is enabled If this is disabled all loop back is disabled regardless of the setting of 4 amp 5 lt 4 gt lt 5 gt lt 6 gt lt 7 gt lt 8 gt lt 9 gt lt A gt Line Side Loop Back This initiates the line side top fiber connector loop back Client Side Loop Back This initiates the client side bottom fiber connector loop back Line Side Loss Propagation This enables or disables the Line Side Link Fault Passthru function of the converter Client Side Loss Propagation This enables or disables the Client Link Fault Passthru function of th
10. Upgrade Mozilla Firefox 1 htEp frm220 ctcu com ta fupgrade asprlanguage 0 Type FRM220 10 7001 and FIMC 10 700 FRM220 SERIAL FRM220 DATAPORT O FRM220 1000EDS and FRM220 1000ES 2F O FRM220 10 10015 2 O FRM220 3R 2 7G 2S and 3R 2 7G 3S FRM220 5E1 ET100S FRM220 3R 10G SS SX XX O MUX DEMUX FRM220 10 1001 2E FOM04 FPGA 2R 4G 2S 3S FOMO1 FPGA DAR e O FRM220 FXO FXS FRIM220 155MS FRM220 E1 T1 FRM220 1000ES 1 and 1000E 2F and FRM220 1000E 1 O FRM220 1000TS and FRM220 1000T FRM220 5E1 ET100T O FRM220 Evel FRM220 3R 10G SS SX XX CDR FRM220 E1 DATA FRM220 FOM04 O FRM220 FTEC FRM220 FOM07 10G SXX SX XX Slot All Slots Slot 02 Slot 03 Slot 06 Slot 07 Slot 08 Slot 11 Slot 12 Slot 13 Slot 16 Slot 17 Slot 18 Side Local Pemote Pemote B Image iz Name MS155Main 103 Upgrade Key e 117 Slot 04 Slot 09 O Slot 14 O Slot 19 Slot 05 Slot 10 Slot 15 Slot 20 14 Appendix A p 7 ae Click the OK button to confirm The page at http frm220 ctcu com tw says y Type FRM220 1000ED5 and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card j Cancel 8 Heed the warning messages Upgrade Status 9 View the success results WARNING The
11. FRIM220 E1 DATA FRM220 FOM04 FRM220 FTEC FRM220 FOM01 O 10G SXX SX XX Type FRM220 10 400 and FIMC 10 700 FRM220 SERIAL FRM220 DATAPORT Slot All Slots Slot 02 Slot 03 Slot 06 Slot 07 Slot 08 Slot 11 Slot 12 Slot 13 Slot 16 Slot 17 Slot 18 Side Local O Remote O Remote E Image e Name ET1Main105 bin Function Key Upgrade k O Slot 04 O Slot 09 O Slot 14 O Slot 19 Slot 05 Slot 10 Slot 15 Slot 20 Appendix A bs bn ih Click the OK button to confirm The page at http frm220 ctcu com tw says u Type FRM220 1000EDS and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card i Cancel 8 Heed the warning messages Upgrade Status 0 View the success results WARNING The page at http frm220 ctcu com tw says lt lt esa Line Card Status gt gt 3 Local Side Do not link to other web pages SLOT O2 SLOT O3 __ SLOTO4 __ SLOTOS __ SLOT 06 ____ SLOT O7 __ SLOT O8 ___ SLOT 09 0K aris Ronis Ed SE i SLOT 14 L Do not close this page SLOT 18 ___ stoT19 __ SLOT20 ___ A Remote Side P SLOT O2 ___ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ SLOTO7 __ SLOTOS __ SLOTO9 __ SLOT 10 ___ SLOT 11 __ SLOT 12 __ SLOT13 ___ SLOT 1
12. Figure A 6 1 Panel designations of FRM220 1000EDS 69 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 1t into the cage A 6 3 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 6 2 Bale Clasp type SFP with bale open A 6 4 Provisioning by DIP Stand alone There are two DIP Switches installed on the PCBA of the 1000EDS DIP SW 1 DIP SW 2 70 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 o_o CIRIA a 1000 FULL forced ox os LOO HALE once OFF 10 FULL forced LFP Enable 2 pair channel mode DIP SW 1 SWS dual mode S ports switch mode DIP SW 2 SWS not defined DIP SW 1 SW1 3 define the auto forced port mode of Port 3 while DIP SW 2 SW1 3 define the auto forced mode of Port 4 DIP SW1 SW4 defines the LF
13. Slot 07 Slot 08 Slot 11 O Slot 12 Slot 13 Slot 16 Slot 17 Slot 18 Side Local O Remote O Remote E Image e Name ET1Main105 bin Key Upgrade O Slot 04 O Slot 05 O Slot 09 O Slot 14 O Slot 15 O Slot 19 O Slot 20 Appendix A p 7 ae Click the OK button to confirm The page at http frm220 ctcu com tw says y Type FRM220 1000ED5 and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card j Cancel 8 Heed the warning messages Upgrade Status 9 View the success results WARNING The page at http frm220 ctcu com tw says lt lt pane Line Card Status gt gt a Local Side Do not link to other web pages SLOT O2 SLOT 03 __ SLOTO4 _ SLOTOS __ SLOT 06 ___ SLOT O __ SLOT O8 ___ SLOT 09 0K SLOT 10 SLOT np al mi ie Bi E i SLOT 14 SLOT 15 LOT 16 i7 Do not close this page sLOT18 __ sLtOT19 __ SLOT20 __ Remote Side A A SLOT 02 __ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ sLoTo7 __ SLOTOS __ SLOT o9 __ SLOT 10 ___ SLOT 11 ___ SLOT12 ___ SLOT13 ___ SLOT 14 ___ SLOT 15 __ SLOT 16 __ SLOT17 __ SLOT 18 ___ SLOT19 __ SLOT20 ___ Remote B Side SLOT OZ __ SLOT O3 __ SLOTO4 __ SLOTOS ___ STAGE Transmit to units SLOTO6 _ SLOTO _ SLOTOS __ SLOTO9 __
14. Supports OAM remote loopback to assist in diagnosing network problems E q Wi ce e Supports bandwidth control re Supports Dying Gasp Reporting for power outage Supports QoS Classification Supports local remote monitor Supports local remote Configuration Supports Q in Q double tagged frame transparent Supports remote firmware upgrade Supports IEEE 802 1q Tag VLAN pass thru Compatible with FRM220 Managed Chassis LAN Interface Specification Two RJ 45 female connectors for straight or cross over connection Supports 10 100Base TX n way Auto Negotiation Transmission Packet Rate for 1OBase T 14880 per second 10 100AS 2 is a stand alone 100Base TX 148800 per second manageable 4 port Fast Ethernet Copper TP cable 4 pair Cat 3 4 5e or 6 UTP fiber switch utilizing SFP for Optical Interface Specification 100Base FX fiber connection and Transceiver Connector type ST or SC single port fixed type two 10 100 Ethernet electrical ports or LC with SFP Supports Full 1OOMbps speed Supports auto receive sensitivity function no extra attenuators needed General Specification IEEE 802 3ah In band OAM management compliant 6 diagnostic LEDs Power FX Link TX Speed TX Duplex TX Link Test loopback Temperature 0 50 C Operating 0 70 C Storage Humidity 20 80 non condensing Operating 10 90 Storage Power DC Jack Switching adaptor 12V 400mA Consumption lt 4W Dimensions 155mm x 88mm x 23mm LxWxH W
15. The FRM220 E1 Data is a single port G 703 704 Fractional El 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 Cable solutions are provided for RS 530 449 X 21 V 35 and RS 232 The unit can recognize the cable type attached and automatically self configure the interface circuits Choosing from one of two model types the E1 connection is either unbalanced 75 ohm with two BNC connectors or balanced 120 ohm with one RJ 45 connector When the FRM220 E1 Data card is placed in the FRM220 rack with SNMP management the management can view the converter card s status type version E1 link status and alarms The card can be configured to enable or disable the card reset the card set clocking frame mode interface type and provide analog or digital diagnostic loopbacks Features Standalone type 1 port El to Synchronous Data converter e ee Interface connectors RJ 48C for El Data R BNCx2 for El Data B _ E1 DATA B El settings Line Code HDB3 or AMI Full or Fractional Frame setting El CCS CAS CRC enable disable Idle code setting Ox7E or OxFF Auto generate AIS enable disable setting Timing source setting Receive El recove
16. W x D x H mm e 1000TS DC12 88 x 160 x 24 1000T S AC 135 x 201 x 35 e 1000TS DC48 135 x 201 x 35 1000T S AD AA DD 135 x 201 x 35 This product includes the following models FRM220 1000TS GbE to Gigabit Fiber Converter Card 146 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 When FRM220 4G 2S card is placed in FRM220 rack with SNMP management the management can view the converter card s status type version fiber link status and alarms The card can be configured to enable or disable the port reset the port provide client or line side diagnostic loop back and set the desired data rate FRM220 4G 3S is in every way the same as the 2S model except an additional optical port is added to provide 1 1 optical protection Automatic optical line Protection Switching is supported for the aggregate fiber port Features e Supports multiple protocols and data rates from 28Mbps to 4 25Gbps e 2R Repeater functions for re amplification and re shaping e Low cost transponder application e Available with redundant fiber support 3S model e Supports rack management or stand alone e Supports Auto Laser Shutdown ALS
17. 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management A 5 2 Panel 2 x SFP ports support any 1000EAS 1 25G transceiver LED Indicators On Link Flash Activity DEFAULT Use to recover lost password or to return TCP IP settings to factory default values Off no link Figure A 5 1 Panel designations of FRM220 1000EAS 66 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 1f enabled A 5 3 1 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 5 3 2 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 1t into the cage A 5 3 3 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between
18. 36dB e RJ 45 Connector USOC RJ 48C El Interface Specifications e Complies with ITU T G 703 Recommendation e Bit rate 2 048Mbps e Frame format CAS PCM30 or CCS PCM31 e Line code HDB3 e Voice channel sample rule A Law e CRC check CRC 4 enable disable e Impedance 75 Ohm or 120 Ohm selectable e Transmit pulse level 75 Ohm 2 37V 10 e Impedance 120 Ohm 3 0V 10 e Receive signal level O to 30dB e RJ 45 Connector USOC RJ 48C e BNC via RJ 45 to 2xBNC adapter cable Timeslot mapping selectable e El CAS mode TS1 TS15 TS17 TS31 any 24 timeslots e El CCS mode TS1 TS31 any 24 timeslots This product includes the following models FRM220 FTEC E1 T1 Cross Rate Converter Card 145 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 The FRM220 CHO01 is a stand alone case for FRM220 slide in cards with built in power supply features All media converters are available with either multi mode or single mode optical transceivers with SC connectors for fixed transceivers or LC connectors for the SFP ve
19. 4 n512K n 0 200 p l The above is an example of setting a 2Mbit bandwidth limit for both ingress and egress Note Beginning with firmware version 1 240 in the 10 100i whenever forced mode or bandwidth control are enabled the flow control 802 3X is disabled automatically on the fiber to avoid a traffic block caused by hanging of the IP113S switch chip in the 10 1001 Since this version we recommend setting bandwidth at both local and remote converters and by adjusting Ingress only The following example is a 2M download 1M upload configuration The local side set 2Mbps Ingress and the remote side set 1Mbps Ingress rate limits Egress Rate Limit Mode ERL Chassis ID Local FRA220 10 1001 1 100 3 OANM 0 000 0 000 FX Information Remote PWR LB Status OK Off Port Active Auto Laser Shutdown ALS Operation Mode Loopback Test Link Fault Pass Through LFP Disable In Band Management IRL ERL 2Mb Ingress Rate Limit Mode IRL n 512K n 0 200 n la Egress Rate Limit Mode ERL n 0 Chassis ID Remote FRIC 10 1001 1500 3 0AM 0 000 0 000 FX AA Port Active Auto Laser Shutdown ALs aa Disable Operation Mode Loopback Test Of he Accept Remote H W Reset FHR Link Fault Pass Through LFP IRL ERL 1Mb Ingress Rate Limit Mode IRL n 512K n 0 200 p l2 No Limit n lo Egress Rate Limit Mode ERL 48 Appendix A A 1 4 3 UTP Information The basic link information
20. Supports simple text menu when in CHO1M T1 E1 RJ 45 USOC RJ 48C or Coax BNC Fiber Modem Supports AMI or B8ZS HDB3 line codes Unframed transparent clear channel mode N x 64K fractional E1 mode Supports point to point CPE solution with FRM220 DATA User selectable Loop back tests Far End Fault FEF detection E1 T1 is a stand alone manageable G 703 E1 DS1 T1 Fiber Optical Modem that can carry E1 T1 over fiber transparently or with framing One model is designed with RJ 45 while another model supports El via coaxial BNC connections Specifications Ports Connector 1x9 SC ST FC or SFP LC Optical Interface Cable type MM 62 2 125um 50 125um SM 9 125um Cable length MM 2km SM 15 30 50 80 120km WDM 20 40 60 80km Wavelength MM 1310nm SM 1310 1550nm WDM 1310Tx 1550Rx type A 1550Tx 1310Rx type B Data rate 36 864Mbps Electrical Interface Connector RJ45 El 1200hm T1 1000hm BNC El 750hm Data rate El 2 048Mpbs T1 1 544Mbps Line Code El HDB3 AMI T1 B8ZS AMI Cable type Cat 3 or higher Twisted Pair cable Standards El ITU T G 703 G 704 G 706 G 732 G 823 T1 ITU T G 703 G 704 AT amp T TR 62411 ANSI T1 403 LEDs Power FX Link E1 T1 SIG Test SYN RD TD AIS Power DC In 12V Consumption lt SW Dimensions 155 x 88 x 23mm D x W x H mm Weight 120g Temperature 10 60 C Operating 20 70 C Storage Humidity 10 95 non condensing Certification CE FCC LVD RoHS MTBF 65 000 h 25 C This product includes
21. Uy Ri 1 Margo Elsie eepe 1 SOTA If Silay SHE ESE TALE A ASEO A 14 SLOT 18 ____ SLOT19 ___ SLOT20 __ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 142 Appendix A A 17 FRM220 Eoe1 Ethernet over E1 Converter The FRM220A Eoel 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 One single model supports either unbalanced 75 ohm with two BNC connectors or balanced 120 ohm with one RJ 45 connector When the FRM220A Eoe1 card is placed in the FRM220 rack with SNMP management the management can view the converter card s status type version Ethernet link status and alarms The card can be configured to enable or disable the port reset the card set clocking frame mode and provide analog diagnostic loopbacks A unique feature of the FRM220A Eoel is the use of a common card design which may either be inserted in the FRM220 CHO1M single slot chassis as a stand alone modem or as a card when placed in the FRM220 CH20 In band managed rack Features ei e Standalone type 1 port El to HDLC converter EV ET1007 e Uplinks 100M Ethernet to Gigabit trunk card of FRM220A e Interface connectors RJ 48C for 120 BNC 2 for 757 e El settings e
22. menu click the Upgrade Line Card button 2 Select the card type radio button which in this case 1s 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Upgrade Mozilla Firefox AE l http JfFrm220 ctcu com twupgrade aspelanguage 0 3 ho Type FRM220 10 100 and FMC 10 1001 FRM220 FXO FXS FRM220 SERIAL FRM220 155MS FRM220 DATAPORT FRM220 E1 T1 ne Ti FRM220 1000ES 1 and 1000E 2F and FRM220 1000EDS and FRIM220 1000ES 2F FRM220 1000E 1 FRM220 10 10015 2 FRM220 1000TS and FRM220 1000T FRM220 3R 2 7G 2S and 3R 2 7G 3S FRM220 5E1 ET100T FRM220 5E1 ET100S FRIM220 Eoet FRM220 3R 10G SS SX XX FRIM220 3R 10G SS SX XX CDR MUX DEMUX FRM220 E1 DATA FRM220 10 1001 2E FRM220 FOM04 FOM04 FPGA FRM220 FTEC 2R 4G 2S 3S FRM220 FOMO01 FOM01 FPGA 10G SXX SX IX Slot All Slots Slot 02 Slot 03 Slot 04 Slot 05 Slot 06 Slot 07 O Slot 08 Slot 09 Slot 10 Slot 11 Slot 12 Slot 13 Slot 14 Slot 14 Slot 16
23. read only or read write 2 When using the subnet delimiter 8 16 24 etc the entire subnet can be allowed management rights 3 When assigning only a single IP address for management use the 0 subnet The community strings act like passwords in dealing with the device via SNMP protocol By changing the community strings for read write private in these examples and read only public access and assigning a community string to an access IP an administrator can control access to the FRM220 Community string names are case sensitive therefore puBlic Public and public are all different strings 3 3 2 11 SNMP Chassis NMC Log The NMC maintains a System Log buffer with the last 255 log messages Each new message is assigned a new and consecutive log number The last 255 messages are available for view through the NMC Log page of the Web interface Pressing the Clear All button will delete all of the displayed alarms and reset the Log number to one Function Key Clear All Refresh Status Last Clear Log Time Never Done Log Information ltem Log No Time Type Message 5 001 36 2011 07 25 17 4342 1100 Chaesis0 Anonymous Login Web From 61 31 21 146 35 2011 07 25 17 19 52 1100 Chaesis0 Anonymous Login Web From 109 107 36 71 003 34 2011 07 25 16 08 32 1065 Chassis0 Stot09 Remote FMC 10 1001 Found 004 33 2011 07 25 16 08 32 1065 Chassis0 Slot08 Remote FMC 10 1001 Found 005 32 2011 07 25 16 08 31 1065 Chas
24. 136 A 16 5 Provisioning by NMC Tel rin 137 AMLO Provisiomine by NME Web sio eee 140 Ae FO A A saan eusesaatat 141 AAP ERM 20 E06L Ethemet over El COVE ind 143 ALS ERM220 F Data DS SU Converter Caducidad 144 AMO PR 20 P TEC EITI Cross Rate Converter Gard usnetsi ea ina 145 A 20 FRM220 1000TS GbE to Gigabit Fiber Converter Card 00 ccccccccccccsssseessssssseeeeeceecccccceccccsseneeasssessseseececesseeeeeeessees 146 2 RIM 20246 s 25 35 2R 4 5G Transponder Cardinal 147 ALET pono ional Dera Sa ita 148 A2 EZ Iastallation ot ER Modules ca it 148 AA Provisionins by DI Stands ar ida 149 AZ 14 Provisi n by NMC Ae Med ld ls a 150 AZO Provisionin Dy NIMC We Dai 151 AN ii cu AMA O E o ube inden cite tana die os lori eat eu ved dua Abas eeaenaeaenidesa et 152 A 22 FRM220 FOMO1 1xE1 T1 100M Ethernet Fiber Optical Multiplexer Card ooocccccccccccnnnooononoonnnnnnnnnnnnonononnnnnnnnnos 154 A 23 FRM220 FOM04 4xE1 T1 100M Ethernet Fiber Optical Multiplexer Card occccccccccccnnnonnonononnnncnnnnnnnnnnnonononononos 155 A 24 FRM220 10G SXX 10Gbps 3R Transponder with Protectl0N cccccccccooonoooonononnncnnnnnnnnnnnonononononononnnnnnnnnnnnnnnnnnnnnnnnnos 156 A 25 FRM220A 1000EAS X 802 3ah In band Managed Gigabit Fiber Media ConVerterT cooooooooooooooonononnccnonnnnnnnnnnnnnonnnonos 157 A Unona l DE hs AA ere Ie N 158 IA A A N 158 AZ PASO Reset Pro CCU is AOS 159 A AA o O een eaten 159 A 26 FRM220A FSW3
25. 2 Terminal Connection A laptop computer has become an invaluable tool of the Systems Engineer Connection to the computer is very simple The FRM220 SNMP acts as a DCE to the PC s DTE communications port The only hardware required is a DB9 pin one to one male to female cable lf the laptop does not have a serial COM port you may also use a commercially available USB to RS 232 adapter A convenient application provided with the Microsoft Windows operating systems is HyperTerminal To Start the HyperTerminal program following the steps below Please follow the instruction to connect in console mode HyperTerminal is no longer provided with Windows since the release of Vista We recommend using HyperTerminal PE or PuTTY on Vista OS computers la Start HyperTerminal program Click Start select Programs Accessories Communication HyperTerminal Enter Connection Name Select an Icon Click OK 2 Select COM port to communicate with SNMP Card Choose direct to COM1 or COM2 click OK COM number may also depend on your USB to RS 232 adapter 3 Set Port Properties Port Settings ET Bits per second 115200 ESEN Data bits 8 iii Parity bits None Stop bits 1 fas pi cecared sao Flow Control None Data bits E x Parity None Stop bits 1 Flow contro IET Restore Defaults Cancel Apply Figure 2 2 HyperTerminal port settings for FRM220 NOTE Make the appropriate connections between
26. 4 Provisioning by DIP Stand alone 0 0 0 0 ccc cccccccccccccccceccceeeesssssseeeeecccccceeeeseaaaeeesssseeeeeeccecececeesessaaaaaegesssseeeeeeeeeeeeeeeaqags 70 AO Provisionins Dy NMC Telni series iar stst ic tiets a latins eas aatiege a tatdss wea sanitesalaan es 71 A50 0 Provisionito Dy INIMIG Weoo il 74 A a A eeetatssase ean ansteee ces 75 A 7 FRM220 E1 T1 In band managed G 703 El T1 DS1 Fiber Modem ooccccncncnnnnnnnnnnnnnnnnnonnnnnnnnnnnnnnononnnnnnnnnnnnnnnnnnnnnnnnnnnnss 71 Ra AA A E A II ea ENE 78 A ANG A II A O recs radcog AE 78 Aosta lato nor SPF Mo dile Sid dd os 79 Asi A Provisions py DIP Stand alone sp di iia 79 Ali Pr OVisioniie DY NMC Tee ua a r a a a E E 83 A rO PO VISION O DV NME Web Id r e r S 85 Adi E We UDANA E ea a Gui dauulbaatatantundtaxabinnds autnidae wuananiacdieretebads aduadaubauassaaastandantans 86 A 8 FRM220 Data In band managed V 35 X 21 RS 530 449 232 Fiber MoOdeM cooooooooooonnnnccnnnnnnnnnnnnononnnnnnnonnncnncnnnnnnnnnnnnnos 88 Ao Pune Gong Detalla 89 Paso SE ANG less sete stares e ra tena ola badeid beta dias enecdaun uanadive balsas beiasuasaetacdads 89 553 Installarioneor SEP Mode ad cdd 90 ASA Provisions Dy DEP Stata ai 90 ASF TOVON Dy NMC Temes aia aiade 94 AS POSO TO DY NMC Walla 96 A Mate OCT ALG uno aliada 97 A 9 FRM220 Serial 485 In band managed RS 485 422 232 Fiber Modem sssssssseeeceeeeeeeeeeeeeeaeeeeesseeseeeeeeeeeeeeeeeeeaqaas 99 AITF honil Deals ana olds 100
27. 802 3u Duplex modes Full Half Indications OP1 Link OP2 link El T1 Mode Link Loopback test Order wire LAN Link Speed Power Input AC adapter 12VDC or with built in power in CH20 or CHO2M Dimensions 88 x 42 x 139mm DxWxH Temperature 0 60 C Operating 10 70 C Storage Humidity 10 90 RH non condensing Certifications CE FCC RoHS This product includes the following models FRM220 FOMO04 Fiber Multiplexer Card FOM220 FOM04 CH02M Stand alone FOM in 2 slot chassis 155 Appendix A A 24 FRM220 10G SXX 10Gbps 3R Transponder with Protection tba 156 Appendix A A 25 FRM220A 1000EAS X 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 100 1000Base SX LX with SFP LC connector With SNMP agent and GUI Web based management in the FRM220 the Network administrator can monitor configure and control the activity of each 802 3ah series line card This 802 3ah OAM Compliant media converter with its Q in Q and maximum interoperability will enable carriers and service provider to have a clear vision of their network and conveniently manage their demarcation point Features 802 3ah In band OAM management compliant 2 ports 10 100 1000Base T and 2 ports 100 1000 fiber SFP Supports Flow control function Supports OAM remote loopback Supports spanning tree function Supports bandwid
28. CH20 with NMC Network Management Controller the FXO FXS card and remote are configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 FXO FXS supports in band management A 10 2 Panel Eb bE Fr izb pa mr ae Figure A 10 1 Panel designations of FRM220 FXO FXS There are two variations of this media converter the FXO FXS converter with fixed optical transceiver or in an SFP version 107 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 1t into the cage A 10 3 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove 1t from the SFP cage Figure A 8 2 Bale Clasp type SFP with bale open A 10 4 Provisioning by DIP Stand alone There is one DIP Switch installed on the Face of the FXO FXS FIBER RJ 11 SW
29. FTEC is a T1 US Standard E1 European Standard converter and timeslot cross connect which enables conversion between one T1 signal and one El signal T1 and El 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 The E1 interface supports CCS PCM31 or CAS PCM30 framing without CRC 4 and framing with CRC 4 The line coding is HDB3 Tests and diagnostics can easily be performed from the local console interface or via Web based management of the FRM220 Diagnostics include T1 local remote and E1 local remote loop back Features Converts between T1 and El data and signaling Enable equipment to operate at T1 and El rates Support G 802 Annex B T1 over El Configures A law u law and signaling conversion Transparent conversion at 64kbps timeslot level Controlled slip for buffer over or under flow 24 timeslots of T1 Nx64 can be inserted into El Nx64 30 CAS or 31 CCS timeslots Specifications T1 Interface Specifications e Complies with ITU T G 703 Recommendation e Bit rate 1 544Mbps e Frame format D4 SF or ESF selectable e Line code AMI or B8ZS selectable e Equalization 0 655 feet settable e Voice channel sample rule u Law e CRC check CRC 6 when ESF e Impedance 100 Ohm balanced e Transmit pulse level 3 0V 10 e Receive signal level O to
30. IP address of the TFTP server used for upgrading Use this key to set the path and filename of the kernel upgrade image file Use this key to set the path and filename of the File System upgrade image file This key will reset all settings to factory default O O JO OF OQ N This key will initiate the TFTP image transfer and flash upgrade the kernel gt This key will initiate the TFTP image transfer and flash upgrade the File System T Use this key get to the date and time setting menu including network time setting U This will enter the menu used to upgrade line cards installed in the chassis ESC This key will write any changes and leave the system setting menu 16 Chapter 2 Provisioning Step Two Manager Configuration Process a Assign Managers Press the M key lt lt SNMP Manager Configuration Setup of Chassis 0 gt gt Manager s IP Community String Access These eight locations can be used to setup a single or large number of authorized managers Command Function Key lt 1 gt lt 8 gt Edit manager 1 to 8 setting lt p gt Delete all settings lt N gt gt Go to Trap Configuration menu lt X gt r GO to Syslog Configuration menu lt gt Confirm above setting and restart SNMP lt ESC gt Back to main menu without modification Please select an item 1 8 Use these keys to set the IP address IP address range or disable for up to 8 SNMP management destinations
31. 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Upgrade Mozilla Firefox http Frmz20 ctcou com Em fupgrade asprlanguage 0 Saka O FRM220 10 10015 2 O FRM220 3R 2 7G 2S and 3R 2 7G 3S O FRM220 5E1 ET100S O FRM220 3R 10G SS SX XX O MUX DEMUX FRM220 10 1001 2E O FOMO4 FPGA O 2R 4G 2S 3S FOMO1 FPGA Slot 03 Slot 08 Slot 13 Slot 18 Slot 02 Slot 07 Slot 12 Slot 17 All Slots Slot 06 Slot 11 Slot 16 Remote Remote B Type Se S FRIM220 70 700 and FMC 70 700 OrRm220 sERAL FRIM220 SERIAL FRM220 DATAPORT FRM220 1000EDS and FRM220 1000ES 2F Local Image ra Name Sertain 101 Key Upgrade ae E O FRM220 FXO FXS FRM220 155MS FRM220 E1 T1 FRM220 1000ES 1 and 1000E 2F and FRIM220 1000E 1 O FRM220 1000TS and FRM220 1000T FRM220 5E1 ET100T O FRM220 Evel FRM220 3R 10G SS SX XX CDR FRIM220 E1 DATA FRM220 FOM04 FRM220 FTEC FRM220 FOM01 10G SXX SX XX Slot 04 Slot 05 O stot 09 Slot 14 Slot 15 Slot 19 Slot 20 IES 104 Appendix A bs bn ih Click the OK button to confirm The page at http frm2
32. NJ TFTP server Ly Configuration Settings Other Places Ph Jounin 1 KB P Eaa B umc LS My Documents 4 My Computer Windows Security Alert To help protect pour computer Windows Firewall has blocked some features of this program Do you want to keep blocking this program Tag Hame TFTF server NE Publisher Ph Jounin Keep Blocking d Unblock D Ask Me Later ee Windows Firewall has blocked this program from accepting connections from the Internet ora network IF you recognize the program or trust the publisher you can unblock it When should unblock a program Tftpd32 by Ph Jounin EIR Current Directory lEXFRM220_NM C A2 v3 23 Upgrad Browse Server interfaces 192168 1 100 Show Dir Titp Server Log viewer Connection received from 192 168 1 1 on port 1024 05 05 10 12 25 359 Read request for file lt romfss23 g2 gt Mode octet 05 05 10 12 25 359 Using local port 1078 05 05 10 12 25 359 romfss23 gz sent 3298 blks 1688707 bytes in 4 s 0 blk resent 05 05 10 7 settings Help 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
33. Rx Active off lt 27 Negotiation Auto lt 3 gt Speed E a lt 4 gt Duplex Had lt 5 gt Rate Limit Mode Unlimited lt 6 gt Ingress Rate Limit Disable lt 7 gt Egress Rate Limit Disable I2 lt 1 gt lt 2 gt lt 4 gt lt 5 gt lt 7 gt Appendix A Port Active The port can be disabled so that no traffic will pass The default is with port enabled Negotiation The default is Auto per 802 3u Set to Manual to configure forced mode lt 3 gt Speed The UTP supports 10 100 1000 speed setting if negotiation is set to manual Duplex The UTP supports Full or Half Duplex setting if negotiation is set to manual Rate Limit Mode Used in conjunction with IRL and ERL settings this item enables or disables rate limiting lt 6 gt Ingress Rate Limit Provides pre set limits to incoming packets Must be enabled with item 2 Egress Rate Limit Provides pre set limits to outgoing packets Must be enabled with item 2 Egress Rate Limit lt 0 gt Disable lt i gt lt 6 gt lt C gt 31M Ape 6M lt D gt lt I gt 8 96K lt J gt lt 0 gt 512K lt P gt lt U gt 128K lt V gt lt 5 gt Device Information and Settings lt lt lt Device Information gt gt gt lt gt lt 2 gt lt 3 gt lt 4 gt lt 15 gt lt 6 gt lt I gt lt 3 gt lt 4 gt lt 5 gt lt 6 gt Device Active Enable Operation Mod
34. SLOT 10 gt FRM220 5E1 ET100T Local Ver 1 200 1 057 1 000 1 000 Remote Link Up Remote Power Normal als FEEL LA POrE Suacuss lt 2 gt El 1 5 Loopback Parameters lt 3 gt LAN Port Settings Status lt 4 gt Device Active Enable lt 5 gt Timing Source Recovery from El 1 lt 6 gt lt GEP VCG LCAT Settings lt 7 gt Speed Limit Settings OL BZ KEI lt 8 gt VCG Member Settings amp Status lt 9 gt NMC Channel Settings lt A gt BERT Settings amp Status lt B gt Port Reset lt C gt Set to Derault lt R gt RMON IN OUT Counters Information lt D gt Go to Line Card Status menu lt N gt Go to the Remote menu lt 1 gt Port Status Use this item to view the status of all El connections See an example below lt 2 gt E1 Loop Back amp Parameters This will bring up the sub menu see below for setting these specific parameters lt 3 gt Timing Source The timing source can be configured as Internal Osc Recover clock from received El signal or recover clock from signal via fiber Use the latter setting for the remotely connected fiber unit Use internal clock for fixed point to point applications and use El recovery when connecting to other El networked devices lt 4 gt Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Optical port lt 5 gt Active Rates This item sets the total data nx64k rate for either the El n 1
35. Sette Subnet Mask Default Gateway C WINDOWS As ystems2 gt ping 599 125 162 252 Pinging 599 125 162 252 with 32 bytes of data Reply from 559 125 162 252 bytes 32 time 12ms TIL 51 Reply from 599 125 162 252 hytes 32 time 11ims TTL 51 Reply from 59 125 162 252 bytes 32 time 1lilms TIL 51 Reply from 59 125 162 252 bhytes 32 time 12ms TIL 51 Ping statistics for 599 125 162 252 Packets Sent 4 Received 4 Lost CH loss gt Approximate round trip times in milli seconds Minimum tims Maximum i2ms Average iims SWOTINDOWS systema gt 192 168 6 4 255 255 255 B 192 168 60 18 Figure 4 2 Ipconfig and Ping Remote Network Device Check with your network administrator to ensure that any firewalls in place will allow passing of SNMP protocol in order to connect with an FRM on a remote network By default SNMP uses port 161 Traps are unsolicited UDP messages that are sent out port 162 Always check all connections and double check all configurations We have tested the FRM220 extensively on local networks on remote networks through bridges and routers and even over wireless links You should not experience any problems if you follow each and every step in this guide We hope you enjoy using the FRM with SNMP option and web based GUI manager Trouble with NAT Because SNMP uses UDP NAT between networks will not allow forwarding packets unless specific port forwarding rules are written into the
36. Shutdown Disable Fx2 Auto Laser Shutdown Disable Device Information Device Active Enable v Loopback Test Function Disable Baud rate 1G Fiber Channel Function Key SFP and D D Information Fiber Fiber2 Wendor Name FIBERXON INC Vendor Name CTC UNION Vendor Part Number FTM 3125C L40 Vendor Part Number SFS 7010 131T Fiber Type Single Fiber Type Single Wave Length 1310 nm Wawe Length 1310 nm Wave Length 2 1310 nm Wave Length 2 1310 nm Link Length 0040 km Link Length 0010 km Digital Diagnostic Tx Power Rx Power Rx Sensitivity dBm Rx Power Margin E Temperature H47 degree C 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 130 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 The TFTP server should be able to find this file and t
37. Slot 17 Slot 18 Slot 19 Slot 20 ht Side Local Remote Remote B Image File Name DataMain106 bin Function Key gt F 97 Appendix A p 7 ae Click the OK button to confirm The page at http frm220 ctcu com tw says y Type FRM220 1000ED5 and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card j Cancel 8 Heed the warning messages Upgrade Status 9 View the success results WARNING The page at http frm220 ctcu com tw says lt lt pane Line Card Status gt gt a Local Side Do not link to other web pages SLOT O2 SLOT 03 __ SLOTO4 _ SLOTOS __ SLOT 06 ___ SLOT O __ SLOT O8 ___ SLOT 09 0K SLOT 10 SLOT np al mi ie Bi E i SLOT 14 SLOT 15 LOT 16 i7 Do not close this page sLOT18 __ sLtOT19 __ SLOT20 __ Remote Side A A SLOT 02 __ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ sLoTo7 __ SLOTOS __ SLOT o9 __ SLOT 10 ___ SLOT 11 ___ SLOT12 ___ SLOT13 ___ SLOT 14 ___ SLOT 15 __ SLOT 16 __ SLOT17 __ SLOT 18 ___ SLOT19 __ SLOT20 ___ Remote B Side SLOT OZ __ SLOT O3 __ SLOTO4 __ SLOTOS ___ STAGE Transmit to units SLOTO6 _ SLOTO _ SLOTOS __ SLOTO9 __ Uy Ri 1 Margo Elsie eepe 1 SOTA If Silay SHE ESE TALE A ASEO A 14 SLOT 18 ____ SLOT19 ___ SLOT20
38. This model is designed for both stand alone use and for management when installed in managed chassis Both models have a single on board 8 pole DIP Switch which can be used to configure the devices for stand alone operation When placed in a stand alone chassis with console port these devices also support a text based serial terminal with an easy to use menu system for configuration When placed in a managed chassis the card is configured and monitored through the chassis NMC network management controller via console Telnet Web HTTP or SNMP When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller the 4G 2S 3S card is configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 serial console when placed in CHOIM or CHO2M 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 4G 2S 3S does NOT support in band management There are two variations of this media converter the 4G 2S converter with two optical ports Line and Client and the 4G 3S with three optical ports Line Primary and Secondary supporting 1 1 fiber protection A 21 2 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 21 2 1 Inserting a Bale Clasp SFP Module into
39. Ve oe A en CT FOR SEA SEE ER RN DENN eS Ee Ce ON eT ee een reer ern rr ee rere 100 xD insta lidi onor Er Modules o A ia ena ae 101 NOA Provisions Dy DIE Gand alone aa e ti a aio 101 ADS Provi sionin Dy NAME ae ida 102 9 6 es COSO IA A O 103 UN FEO e UET de oE E td asada auaut E ae Set cans erste etuelcad eetaiecaae ee ed 104 A 10 FRM220 FXO FXS In band managed POTS Voice over Fiber MOdem ccccccccceeccccceeeeeeeessseseeeeeeeeeeeeeeseeeaaaas 106 sl O htore aiatoara eat caaeia ces 107 A O2 Pane Weise sae haat A ante bcdeeasasecestaaeetace aoe 107 ALOS Installation OLEO Modules wisi dich ectcci nie a eon cacti caw aa 108 A 10 4 Provisionine by DIP Stand alone a 108 AOS Provision DAN MCA ALEM otc sates Ba maie ns a awe tang tune ana ewe tendone ont neeectemaen tess 109 10 6 Provisionin DAN MC WED ois once sits rt A saa neteaunmet tes 110 Pe MOT ita yy ane Oy O a aya aiete a att pose uae ae al wag neti oe sass aeae Aranda tatoo deena tan maaiumiestetss 111 ASI FRM220 155MS SM MIM MM SM converter TEE ede eaade a ys 113 AMAT URC Oral Details Aa 114 AZ Tastallation Ors P Modules A 114 ALL Provisions by DEP Stand alone Voeden anre EEE A AEE E E aE 114 ALLA Provisions DyN MC Telme reovee EE E EENE 115 ALKO Provisionine by IN MIC W CD eioen EE EEEIEE 116 ALR Titi are Uporade vist ssetsstidobisdaietsiabsddohsoioghoniasatesneeteanstuntae gebsnsaanoneasaueapeeneaanseadaanabssoannandneasanneasenca boa ganssemnnoneadaibiabebads 1
40. Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 Serial console when placed in CHO1M 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 DATA supports in band management A 8 2 Panel O DATA SEFP a G 5 o o a i a pa 5 o o o Ss z1 o o o o o o o o 2 050000060 ooo oo coo o Figure A 8 1 Panel designations of FRM220 DATA There are two variations of this media converter the DATA converter with fixed optical transceiver or in an SFP version 89 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 1t into the cage A 8 3 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove 1t from the SFP cage Figure A 8 2 Bale Clasp type SFP with bale open A 8 4 Provisioning by DIP Stand alone There are four DIP Switches installed on the PCBA of the DATA FIBER HDB26 Switch 1 provides receive timing se
41. __ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 98 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 The FRM220 Serial 485 secures data transmission over EMI resistant fiber at speeds up to 460kbps for RS 232 or up to 1024kbps for RS 485 422 When the FRM220 Serial 485 card modem 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 Both card and remote can be configured to enable or disable the port reset the port and set the interface type Features Extend asynchronous serial transmission from 2km to 120km over fiber In band network management Manage via terminal web or SNMP in FRM220 CH20 chassis Software selectable data interface for RS232 422 485 Software selectable two wires half duplex or four wires full duplex RS485 Software selectable three or five wires RS232 Speeds up to 460kbps for RS232 Async mode Speeds up to 1Mbps for RS485 422 Async Specifications Ports Optical Interface Connector 1x9 SC ST FC or SFP LC Data
42. and Link Fault Pass through LFP e Supports both line side and client side optical loop backs e Digital Diagnostic Monitor of supported SFP modules e Optical Connector SFP LC On both Line amp Client Side Specifications Optical Interface Connector SFP LC Data rate 28Mbps 4 25Gbps Fiber MM 62 2 125um 50 125um SM 9 125um Distance 2 120km Wavelength 850 1311 1471 161 1nm Indications Power Link Line Link Client TX Act Loopback Power Input Card 12 VDC Stand alone AC DC option Power Consumption lt SW Dimensions 155 x 88 x 23mm D x W x H Weight 120g Temperature 0 60 C Operating 10 70 C Storage Humidity 10 90 non condensing Certification CE FCC RoHS MTBF 75 000 hours This product includes the following models FRM220 4G 2S 2R 4 25G Transponder Card FRM220 4G 3S 2R 4 25G Transponder Card w 1 1 fiber protection 147 Appendix A A 21 1 Functional Details Fiber The 2R 4G 28 3S fiber to fiber 2R repeater uses a transparent optical line coding to provide an optical repeater transponder function for use in low cost extension multimode to single mode conversion or CWDM applications Only SFP models are available Management The FRM220 4G 2S 3S has a small processor that is used to read the set DIP switch when used stand alone to provide a texted based operation menu when used in CHO1M and serial terminal or to communicate with the NMC when the card is placed in the managed rack
43. and then separated at the remote CPE between the two UTP ports Each UTP supports setting a VID from 1 to 4094 Link Fault Pass Through AKA LFP This media converter incorporates a Link Fault Forwarding feature based on standard IEEE802 3u which allows indirect sensing of a Fiber or UTP Link Loss via both the 100 Base TX UTP and 100Base FX connections When this feature is enabled and the media converter detects a Link Loss condition on the Receive fiber Fiber LNK down immediately sends a standard IEEE802 3u Far End Fault code by Transmit fiber to the remote converter and it disables its UTP transmitter so that a Link Loss condition will be sensed on the receive UTP port See the following figure The link loss can then be sensed and reported by a Network Management agent at the host equipment of local and remote UTP port and at the local fiber port e Broken Fiber remote receive l 1 fiber 4 Link fault broken 2 UTP disabled sensed locally condition forwarded remote local 3 Fiber link condition forwarded by FEF Remote UTP disconnected 1 UTP 3 Link fault broken sensed locally local UTP link remote condition forwarded by FEF Far End Fault FEF The Far End Fault or FEF feature is a built in part of the OAM Besides alerting the local MC of a remote fiber receive transmission break the FEF is also used in reporting remote power failure or dying gasp 1 fiber Remote Rx fiber 4 FEF Led lit broken 2 FX L
44. applications With standard SNMP management carriers or Internet Service Providers will have confidence to deploy a solution that provides the necessary remote monitoring and configuration features FTTx Solution GbE Switch D 1G 1G FE Switch y E Switch FE Switch Z FRM220 E FRM220 FRM220 100M 100M 100M Triple Play IP Ey FSW3408 TH QY DSLAM Fiber Switch IAD FTTB MS Sp Media Converters Figure 1 5 Application 12 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 For initial operation until the TCP IP settings are completed a terminal connection to the Console port is typically required All of the features and controls described in this chapter require the FRM220 chassis to have the NMC Network Management Controller installed The Management System is a collection of three control modes for the FRM220 The simplest and most basic mode is Console Mode The terminal or console mode is a local control which requires an VT100 based terminal and an RS 232 connection to the RS 232 console port of the NMC card Provisioning and monitoring are performed through a
45. bit RMON counters per port that can be displayed through the management system or received via SNMP standard MIB statistics 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 All UTP connections are designed for auto MDI X operation requiring only a straight connection to any device A unique feature of the FRM220 1000EAS switch converter is the use of a common PCB card which may either be used as a standalone converter FRM220 CH01 series or placed in the FRM220 CH20 rack Management The FRM220 1000EAS has its own embedded processor which can be used to configure the device for stand alone operation When placed in a stand alone chassis this device supports a text based Telnet terminal with an easy to use menu system for configuration The embedded HTTP server provides an easy to use GUI Graphical User Interface with any web browser SNMP is also supported in the stand alone operation When using network management software and our proprietary MIB file specifically for the 1000EAS all settings can be performed performance monitoring realized and alarm traps received When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller card the 1000EAS card is configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone IP settings allow management by Telnet Web or SNMP
46. 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 UTP Information Link Rx Active Speed Duplex Up of 100M Full Negotiation Auto w UTP Information Link Rx Active Speed Duplex Up Off 100M Full Negotiation Manual vw Speed 100M e Duplex Full w A 1 4 4 Function Keys Set Parameters This is the button used to actually set the parameters to the local or remote converter The Set Parameters button executes the changes while the Refresh Status button displays the new parameters from the local or remote converter Function Key set Parameters Port Reset Remote HAY Reset set to Default Refresh Status Port Reset The port reset function does a reset of the switch chip of the converter Normally this is not a function that should be used as it will cause a momentary traffic block however if after doing many different settings quickly and the chip becomes confused with those settings or hung this will quickly bring it back It is like a soft reset Remote H W Reset This function performs a software reset of the CPU on the remote converter However in order to perform the remote reset the remote unit must first be set to allow
47. com tw says lt lt pane Line Card Status gt gt a Local Side Do not link to other web pages SLOT O2 SLOT 03 __ SLOTO4 _ SLOTOS __ SLOT 06 ___ SLOT O __ SLOT O8 ___ SLOT 09 0K SLOT 10 SLOT np al mi ie Bi E i SLOT 14 SLOT 15 LOT 16 i7 Do not close this page sLOT18 __ sLtOT19 __ SLOT20 __ Remote Side A A SLOT 02 __ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ sLoTo7 __ SLOTOS __ SLOT o9 __ SLOT 10 ___ SLOT 11 ___ SLOT12 ___ SLOT13 ___ SLOT 14 ___ SLOT 15 __ SLOT 16 __ SLOT17 __ SLOT 18 ___ SLOT19 __ SLOT20 ___ Remote B Side SLOT OZ __ SLOT O3 __ SLOTO4 __ SLOTOS ___ STAGE Transmit to units SLOTO6 _ SLOTO _ SLOTOS __ SLOTO9 __ Uy Ri 1 Margo Elsie eepe 1 SOTA If Silay SHE ESE TALE A ASEO A 14 SLOT 18 ____ SLOT19 ___ SLOT20 __ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 166 167 Appendix A CTC union SA yo S OSA A www e ctcu com T 886 2 2659 1021 F 886 2 2659 0237 E sales ctcu com e 5 7
48. 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 Local Alias Information Alias Slot Alias Slot Alias alpel i 4 alpel Ma London alpel ipei Washington Taipei ipei i Washington Slot Alias Slot Alias Slot Alias Moscow London Beijing Other Information Refresh Interval Function key Set Parameters Cancel The Refresh rate setting is used to set the reload interval for the browser screen On lower bandwidth management links it is better to set the refresh rate longer or even to Manual Other Information Refresh Interval Function key second Set Parameters 10 Second 60 second Manual 33 Chapter 3 Web Based Management 3 3 2 9 SNMP Chassis Click on SNMP Chassis from the left hand window menu bar Chassis ID 00 01 Local SNMP 1 00 3 26 14622 Chassis Information Type Status Type Status Power 1 E Power 2 ACO0 250V OK Fan 1 E e Fan 2 A 3855 OR 3795 OR Redundancy Mode Disable 10 1001 Series only Alarm Information Alarm 1 Status Alarm 2 Status Inactive Inactive Alarm 1 Settings Mode By Powers Ww LI Power 1 Power 2 hassis L Fan 1 Li Fan 2 L UTP Link Down OFX Link Down User 1 Local L FEF Detect Ll Remote
49. draa KKKKKKKKKKKKKKKKKRKKKKRKKKKKKKKKKKKKKKKKEKK This Chassis ID 00 Cascaded Yes Chassis List Master xX 2 3 4 NMC amp Chassis FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 10 1001 FRM220 1000EDS lt gt Monitor Previous Chassis lt gt Monitor Next Chassis lt L gt SNMP System Configuration Setup lt M gt SNMP Manager Configuration Setup lt P gt Password Setup lt R gt Reboot lt Z gt Logout Please select an item FRM220 FOM04 FRM220 DATAPORT FRM220 155MS FRM220 155MS FRM220 DATAPORT FRM220 E1 T1 FRM220 E1 T1 FRM220 FXO FXS VVV VV VV VV V The inventory of all slots in the rack is shown In this example the chassis is filled with a mix of 10 100 Ethernet in band cards Gigabit Ethernet cards Data E1 T1 FXO FXS and of course the NMC card If no card is found in a slot the slot status will display Empty The cards are number in slots 01 20 left to right looking from the front of the FRM220 CH20 and can be selected with single keyin of 1 9 or A K Pressing the card number will immediately display card s status and configuration screen For details of line card settings please refer to Appendix A for the specific line card type The other function keys are explained below 1 this key will immediately display the status and alarm settings of the power supplies and all fans chassis L the L key ente
50. features OAM An optional console manageable single slot chassis the CHO1M is also available with DB9F connector for stand alone serial console management Features e Supports Loop Back Test e Auto Cross over for MDI MDIX in TP port d e Supports far end fault FEF function via OAM T e Auto Negotiation or Manual mode in TP port i Fiber e Supports link fault pass through LFP function SC Type e Bandwidth control 32K or 512Kbps x N CPU nh gt e Forward 2046 bytes max packets in switch mode Chip LED e Forward 9K jumbo packets in converter mode E 4 dica e Supports forwarding mode option e Store and forward switch mode Convert mode small latency e Supports local or remote In band management Monitor and 10 100 Ethernet Configure status by the SNMP manager in FRM220 Supports remote CPE power fail detection Dying gasp Provides Auto Laser Shutdown ALS function Supports Fiber Hardware Reset FHR function Provides fiber transceiver information for management Supports On Line In band F W upgrade local or remote by the SNMP manager in FRM220 10 1001 is a media converter that must be placed in FRM220 CH20 for management It utilizes fixed transceiver for 100Base FX fiber connection and one 10 100 Ethernet electrical port Specifications Complies with IEEE 802 3 and IEEE 802 3u 288kb packet buffer in switch mode 1K MAC address table in switch mode Supports IEEE802 3x flow con
51. filters OAM frames and supports 9KB jumbo packet in this mode Again the switch engine is disabled in this mode and the UTP must be 100Base Full Duplex to match the fiber s 100Base Full The default setting is switch mode for this media converter Link Fault Pass Through This pull down chooses between enabling and disabling the LFP function The LFP function is explained in A 1 2 The default is disabled Auto Laser Shutdown This pull down chooses between enabling and disabling the ALS function The default is disabled Loopback Test Use this pull down to activate the non intrusive OAM loopback test function Remember to turn it off when finished testing In Band Management This pull down is used to enable or disable the OAM In Band Management function Once disabled the OAM maintenance frames will no longer be transmitted while received frames will be ignored Monitoring and managing of the remote converter will be disabled The default setting for this function is enabled 47 Appendix A Bandwidth Limiting Ingress Rate Limit Mode IRL No Limit n 0 Egress Rate Limit Mode ERL n 0 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 IRL 2Mb ERL Ingress Rate Limit Mode IRL n 512K n 0 200 p
52. function or design at any time and without notice and is not required to update this documentation to reflect such changes CTC Union Technologies makes no warranty representation or guarantee regarding the suitability of its products for any particular purpose nor does CTC Union assume any liability arising out of the application or use of any product and specifically disclaims any and all liability including without limitation any consequential or incidental damages CTC Union products are not designed intended or authorized for use in systems or applications intended to support or sustain life or for any other application in which the failure of the product could create a situation where personal injury or death may occur Should the Buyer purchase or use a CTC Union product for any such unintended or unauthorized application the Buyer shall indemnify and hold CTC Union Technologies and its officers employees subsidiaries affiliates and distributors harmless against all claims costs damages expenses and reasonable attorney fees arising out of either directly or indirectly any claim of personal injury or death that may be associated with such unintended or unauthorized use even if such claim alleges that CTC Union Technologies was negligent regarding the design or manufacture of said product TRADEMARKS Microsoft is a registered trademark of Microsoft Corp HyperTerminal is a registered trademark of Hilgraeve Inc WARNING Thi
53. mode e Auto negotiation or forced mode e Auto MDI MDIX e Forward 2046 bytes Max packets e Support Bandwidth Control 70k 250Mbps 1000EDS s manageable d pon De a cor taci n SH hee er sic Waen placed in the FRM220 CH20 or by e Supports remote CPE power fail detect dying gasp DiPewiteh s usd senda e Auto Laser Shutdown ALS utilizes SEP for 1000Base SX LX e Online local f w upgrade in FRM220 CH20 fiber connection and two 10 100 1000 Ethernet electrical ports Specifications Ports Optical Interface Connector SFP LC x 2 Optical Data rate 1250Mbps Duplex mode Full duplex Cable type MM 62 2 125um 50 125um SM 9 125um Distance MM 2km SM 15 30 50 80 120km WDM 20 40 60 80km Wavelength 1310nm 1550nm Electrical Interface Connector RJ45 x 2 Data rate 1OMbps 100Mpbs 1000Mbps Duplex mode Half Full duplex Cable type 10Base T Cat 3 4 5 UTP 100Base TX Cat 5 5e 1000Base T Cat 5e or higher Distance 100 meters Standards IEEE 802 3 IEEE 802 3u IEEE802 3ab IEEE802 3z LEDs Power FX Link 1 2 2Ch TX Link TX SPD Power DC In 12V Power Consumption lt 5W Dimension D x W x H mm 155 x 88 x 23mm Weight 120g Temperature 10 60 C Operating 20 70 C Storage Humidity 10 95 non condensing Certification CE LVD EMI FCC RoHS MTBF 65 000 h 25 C This product includes the following models e 1000EDS 2 electrical plus 2 SFP e 1000ES 1 1 electrical plus 1 SFP e 1000E 1 1 electrical plus
54. modules which support Digital Optical Monitor DOM function Example of reading Digital Diagnostics in SFP from Fiber sub menu lt lt Fiber Side Status and Configuration gt gt lt 1 gt Auto Laser Shutdown Disable Fiber Link Up FX Small Form Pluggable Yes Digital Diagnostic eunction Yes CEE Union SEs o0 30 hk3d EE Single LS Orim Vendor Name Vendor Part Number Fiber Type Tx Wave Length Link Length 0030Km Tx Power 08 aBm Rx Power 26 dBm Rx Sensitivity 34 dBm Temperature 43 C lt ESC gt Go to previous menu RX Wave Length is i0Onm A Auto Laser Shutdown Automatic Laser Shutdown ALS is a technique used to automatically shut down the output power of the transmitter in case of fiber break according to ITU T G 664 This is a safety feature that prevents dangerous levels of laser light from leaking out of a broken fiber provided ALS is provisioned on both ends of the fiber pair The sequence of events is as follows If a fiber is cut the receiver will detect a Loss Of Signal LOS The ALS agent will turn off the transmitter The receiver at the far end will then detect an LOS and its ALS agent will turn off the transmitter In this way the entire fiber will go dark 163 Appendix A A 26 6 Provision by Web CEST E A A A Local ESwW105 1 000 1 000 0 000 0 000 FX Information Link Up UTP1 Information Link 5peed Up 100 Au
55. or recovered from any one of the received El signals Fiber The Ethernet port utilizes a single RJ 45 connector or SFP for optical fiber depending on model The SFP should meet the data rate for 100Base FX Management The FRM220 nE1 ET100 has one on board 6 pole DIP Switch which can be used to configure the device as master slave and E1 impedance 75 or 120 ohm When placed in a stand alone chassis with DB9 console port these devices support a text based serial terminal with an easy to use menu system for configuration When placed in a managed chassis the card is configured and monitored through the chassis NMC network management controller via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 Serial console when placed in CHO1M or CHO2M 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 E1 T1 supports in band management A 16 2 Panel 16E1 ET100T 16E1 ET100S SEV ETIO0OT 1 j M Link PAR BD BE1 ET100T 8E1 ET1005 AA J E 3 da E 4 O Z del amp ont A 1 5 El Port 1 5 El Port 1 8 El Port UES El Port Figure A 16 1 Panel designations of FRM220 nE1 ET100 There are six variations of this media converter There are 5xE1 8xE1 and 16xE1 inverse multiplexer models each available with either RJ 45 Ethernet copper or SFP 100Base FX fiber 135 Appendix A A 16 3 Installation of
56. p Power T FX Link q D FX FEF CHASSIS LIST 0 SYSTEM Local Area Remote Area Overview rea ee i b b i h b b 1 I E Properties Ue b rE b bh bh b A E b 2 SNMP CHASSIS p Power p Power p Power p Power p D Power p Power p D Power p Power p Power Manager Setup FX Link FX Link Ty FX Link FX Link iD FX Link FX Link FX Link FX Link iD FX Link D FX FEF erxrer FP Fxrer FXFEF oerxrer dl Fx rer eorxre Te FX FEF NMC Log b 4 a pS i 9 p TX Link p TX Link p TX Link p gt TX Link p TX Link p TX Link p TX Link SFRM220 FMC gt TX Ful Ar A LE A TX Full 2 TX Full TX Full TX Full 10 1001 TX 100 x TX 100 s 1x 100 a D TX 100 a D TX 100 a D TX 100 a D TX 100 Slot 03 Local Slot 04 Local Slot 04 Remote Slot 05 Local Slot 05 Remote Slot 06 Local LOCAL Slot 07 Local e Ery FAN1 DC Power1 AC Power2 is FAN2 Slot 07 Remote Switching will occur when NMC polling indicates an active 10 100i has experienced any fiber link UTP link or FEF fault The switch over should occur within 6 10 seconds of actual fault occurrence As traffic is switched to a different pair any connected switch will need to re learn the MAC and generate new tables before normal filtering will be re established 35 Chapter 3 Web Based Management Alarm 1 amp 2 Settings Alarm Information Alarm 1 Status Alarm
57. page at http frm220 ctcu com tw says lt lt pane Line Card Status gt gt a Local Side Do not link to other web pages SLOT O2 SLOT 03 __ SLOTO4 _ SLOTOS __ SLOT 06 ___ SLOT O __ SLOT O8 ___ SLOT 09 0K SLOT 10 SLOT np al mi ie Bi E i SLOT 14 SLOT 15 LOT 16 i7 Do not close this page sLOT18 __ sLtOT19 __ SLOT20 __ Remote Side A A SLOT 02 __ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ sLoTo7 __ SLOTOS __ SLOT o9 __ SLOT 10 ___ SLOT 11 ___ SLOT12 ___ SLOT13 ___ SLOT 14 ___ SLOT 15 __ SLOT 16 __ SLOT17 __ SLOT 18 ___ SLOT19 __ SLOT20 ___ Remote B Side SLOT OZ __ SLOT O3 __ SLOTO4 __ SLOTOS ___ STAGE Transmit to units SLOTO6 _ SLOTO _ SLOTOS __ SLOTO9 __ Uy Ri 1 Margo Elsie eepe 1 SOTA If Silay SHE ESE TALE A ASEO A 14 SLOT 18 ____ SLOT19 ___ SLOT20 __ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 118 Appendix A A 12 FRM220 2 7G 2S 3S 3R Transponder with Protection The FRM220 2 7G 2S 35 is an optical 3R regeneration device which provides re amplification reshaping and retiming and offers fiber protection 8S model 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 7
58. product to its intended use Installers should read the FRM220 Hardware Installation Manual and the Cabling Specification Appendix in this manual Operating Personnel would use the Provisioning and Web Based Management Chapters and Appendices to become familiar with the various media converter cards and settings Network Administrators should read the chapters on Provisioning Web Based Management and Trouble Shooting to become familiar with the diagnostic capabilities network settings and management strategies for the SNMP managed chassis with NMC 1 1 Brief Functional Description The FRM220 CH20 is a 2U 19 23 20 slot modular media converter rack The FRM220 CH20 provides an economic solution in high density Fiber Converter installations for FTTx Metro LAN or in enterprises campus and central offices All critical components such as power modules fans assemblies management modules and interface cards are hot swappable allowing online field replacement Additional features allow the FRM220 CH20 to detect the working or failing status either of power module or any fan assembly in the unit and activate relays that can be used to control external alarm devices The FRM220 CH20 has a total of 20 slots in the front of the chassis There are 19 slots available for installation of FRM220 converter cards with 1 one slot reserved for the FRM220 NMC network management controller The FRM220 NMC or Network Management Controller is installed in the firs
59. 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 media converter s chip supports forwarding IEEE802 3x pause frames In switch mode the MC operates with a store forward method that supports a 1K MAC address table The UTP side may be 10 or 100 speed and in full or half duplex while the fiber side runs in 100Base full duplex In Tag Based VLAN mode the MC is able to do VID tagging and untagging so that traffic between the two UTP ports can be isolated sent over fiber and then separated at the remote CPE between the two UTP ports Each UTP supports setting a VID from 1 to 4094 Link Fault Pass Through This pull down chooses between enabling and disabling the LFP function The LFP function is explained in A 1 2 The default is disabled In Band Management This pull down is used to enable or disable the OAM In Band Management function Once disabled the OAM maintenance frames will no longer be transmitted while received frames will be ignored Monitoring and managing of the remote converter will be disabled The default setting for this function is enabled Bandwidth Limiting IRL1 ERL1 Ho Limit Ho Limit Ingress Rate Limit Mode IRE No Limit hd n 0 Egress Rate Limit Mode ER LT Mo Limit n lo IRL2 ERL2 Ho Limit Ho Limit Ingress Rate Limit Mode2 IRL2 No Limit hd n 10 Egress Rate L
60. series of menus and menu selection items All changes made to cards through console mode are executed immediately or when escaping a menu and do not require any separate save operations From the console mode the initial network configuration can be accomplished This will allow remote network configuration to proceed from Telnet connection remote console web browser or any network management software after compiling the enterprise MIB II compliant file for FRM220 NMC A MIB browser provides another simple platform for the user to setup using the SNMP protocol remotely te Q FRM220 MMC e Chassis Status LEDs ds Power Fans Alarms Serial Console port DCE 115 2K 8 N 1 06 0 N 0 L E Chassis Stack LED SNMP activity LED 10 100Base LAN connection auto negotiation auto MDI MDIX Figure 2 1 NMC card front panel management interfaces Prior to any initial use of the LAN interface on the NMC card the configuration settings for networking must be performed These include the NMC IP address and subnet mask the network s default gateway the IP address of any TFTP server that may be used to update the NMC firmware and lastly the IP addresses of the management workstations that will be managing the system via SNMP protocol The front panel of the NMC card provides the connections and indicators The DB9 Female connector is an RS 232 DCE connector designed to connect directly to a terminal or a PC running termin
61. software and provide the communication via RS 485 bus from the converter card to the Network Management Controller NMC Console Ethernet Fiber Electrical Fiber Electrical Fiber Electrical Fiber Electrical AC DC NMC MC MC MC MC se HL Seas Me E E a E RS485 Figure 1 3 FRM220 System Block Diagram 10 Chapter 1 Introduction 1 4 2 FRM220 NMC Connections DB9F to DB9M Console Cable provided w NMC Connect to PC s COM port a a Cat 5 or 6 Ethernet Cable PC with TCP IP not included and Terminal Emulator Connects to PC s LAN or to Network s Switch Figure 1 4 FRM220 NMC Connections 1 4 3 FRM220 NMC Fault Handling The FRM220 management is designed is such a way as to minimize any disruption to normal traffic in the event of any single component failure and to allow rapid recovery of full operations through replacement of FRUs Field Replaceable Units The Power Modules support fully redundant operation Utilizing a modular design any mix of AC or DC power sources may be used to supply power to the FRM220 CH20 Chassis Power modules are completely Hot Swappable As long as one module is able to supply power the chassis will operate non stop Removing any one power module from a two module redundant chassis will not effect the operation of the entire chassis in any manner All cards are designed to be Hot Swappable This includes any media converter cards as well as the NMC card itself The following d
62. success results WARNING The page at http frm220 ctcu com tw says lt lt Upgrade Line Card Status gt gt z Local Side Do not link to other web pages SLOTOZ __ SLOTOS L__ SLOT E SLOTO6 __ SLOTO7 __ sLOTOS __N SLOT 09 0k SLOT ot aed SLOT H SLOT Ha i i i SLOT 14 AOIS SLOT 16 SLOT 17 Do not close this page SLOT18 _ SLOT 19 __ SLOT20 __ EF Remote Side e a sotos SLOTOS _ SLOT O04 ____ SLOTOS ___ Do not insert or remove any cards during upgrade process SLOT o6 __ SLOTO7 __ SLOTOS __ SLOT o9 __ SLOT 10 ___ SLOT 11 __ SLOT12 ___ SLOT13 ___ SLOT 14 ___ SLOT 15 ___ SLOT 16 __ SLOT17 ___ SLOT 18 ___ SLOT 19 __ SLOT20 ___ Remote B Side SLOT OZ __ SLOT O3 __ SLOTO4 __ SLOTOS ___ STAGE Transmit to units SLOT O6 ___ SLOTO7 __ sLOTO8S __ SLOTO9 ___ SOTO A i Sieg silt SOTA A ESTATE A SOTA SOTA A ESTO TELE A ESTELA AA 14 SLOT18 __ SLOT19 __ SLOT 20 ___ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 153 Appendix A A 22 FRM220 FOM01 1xE1 T1 100M Ethernet Fiber Optical Multiplexer Card FRM220 FOMO1 is a modular design for 1xE1 T1 Fast Ethernet multi service to dual strand fiber PDH multiplexer FRM220 FOMO1 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 allo
63. the 1000EAS X 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 1f enabled A 25 3 1 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 25 3 2 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 1t into the cage A 25 3 3 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove 1t from the SFP cage a a nz El a gt a ene a a a pan e 7 a nn a A a a j l E a Pri w Poki r p T a a al A EEE E A MP Figure A 25 2 Bale Clasp type SFP with bale open A 25 4 Provisioning Because of the complex settings of 1000EAS X and because there exists a stand alone user manual for the 1000EAS X this NMC user manual will not go into the detailed settings here Please refer to the FRM220A 1000EA
64. the NMC card and the COM port apply power to the FRM220 CH20 then press ESC SPACE or ENTER after NMC card is fully booted about 20 seconds When the ACT LED is flashing steadily once per second you may then use the Console Mode to access the FRM220 2 2 3 Terminal Pin Definition The console port of the FRM220 NMC is an RS 232 interface DCE that utilizes a DB9F connector Use the configuration cable that is supplied with the FRM220 or prepare a three wire DB9 F to DB9 M cable with the following pin out DB9 M Signal DB9 F 5 GND E 2 TD 2 3 RD 3 14 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 KKKKKKKKKKKKKKKKKRKKKKRKKKKRKKKKRKKKKKKKKKEKK Ae CTO UNION TECHNOLOGIES CO LTD SY ERMZZO NMC VER e Leto ES KKKKKKKKKKKKKKKKKRKKKKRKKKKRKKKKKKKKKKKKKKK Login admin Password After entering the correct password if required you will see the main menu display on the screen as follows Up to 10 chassis may be cascaded and controlled from a single point Current F W version of NMC Ke KK KK KI KK KK KKK KKK KKK KKK KKK KK KKKKKKK KEKE 22 CTC UNION TECHNOLOGIES CO LID WS IPRM220 NMC VER s
65. the following models e El TIR RJ 45 electrical plus fixed optical e ElB Dual BNC plus fixed optical EITIRS RJ 45 electrical plus SFP EIBS Dual BNC plus SFP 77 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 El are supported The payload timeslots are assigned consecutively from a starting timeslot and continue through the number of timeslots assigned Random timeslot assignment is not supported Management The FRM220 E1 T1 has a small processor that is used to read the on board DIP switches When used stand alone the configuration can be done via the DIP switches or through a text based menu driven console when the card is placed in the CHO1M with DB9 When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller the E1 t1 card and remote are configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 Serial console when placed in CHO1M 2 Rack management When placed in NMC managed rack al
66. the remote reset The default remote setting is to disallow remote reset Here is an example of configuring the remote to accept the hardware reset Port Active Auto Laser Shutdown ALs Disable Operation Mode Loopback Test Link Fault Pass Through LFP Disable Click the Remote H W Reset once to have the remote do a soft restart Function Key r set Parameters Port Reset Remote H Reset set to Default Refresh Status Following a restart the remote card should have a Found entry in the NMC log 001 38 2009 07 30 16 46 11 1063 Chassi50 Slot03 Remote FMC 10 1001 Found Set to Default The Set to Default button will return all fields to their factory default The Set Parameters button will then save those settings 49 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 1001 and FMC 10 1001 3 Select the slot to update Selecting All Slots will upgrade all local and remote 10 1001 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Type FRM220 10 100 and FMC 10 1001 FRM
67. to 31 or T1 n 1 to 24 lt 6 gt Start Timeslot This unit does not support random timeslot assignment It supports a contiguous range with a starting timeslot plus the number of timeslots This item sets the starting timeslot default is TS1 lt T gt Loop Back Setting There is support for loop back of both El signal and optical Refer to the next page lt 8 gt Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt 9 gt Set to Default This action will return the E1 T1 card to factory default settings lt D gt Go to Line Card Status menu If an SFP is installed for optical the information can be viewed here See next page lt N gt Go to the Remote menu This device supports remote in band management via Embedded Operations Channel Port Status SLOT 10 gt FRM220 5E1 ET100T Local Ver 1 200 1 057 1 000 1 000 El Channel 1 El Signal Normal El Syne LSyna Receive AIS No Connector Type RJ 48C RAI No LOMF No Active VLAN Active Channel 2s El Signal Normal Bl syne NOME Receive AIS No Connector Type RJ 48C RAI No LOMP Active VLAN Active Channel 3 El Signal Normal EL Syne iSync Receive AIS No Connector Type RJ 48C RAT No LOMF Active VLAN Active Channel 4 El Signal Normal l Bl SRC sync Receive AIS No Connector Type RJ 48C RA
68. to protect 1t from unauthorized access 162 Appendix A Example of the Device Status and Configuration sub menu KKEKKKKKKKKKKKKRKKKKRKKKKRKKKKKKKKKKKKKKKKEKK wae CIC UNION TECHNOLOGIES CO LTD 8 EX PRMZZOA FOWLOS Manager Ver l 0 KKEKKKKKKKKKKKKRKKKKRKKKKRKKKKKKKKKKKKKKKKKK Versa on 1 00 L 000 0 000 0 000 lt lt Device Status and Configuration gt gt lt 1 gt Device Service Enable lt 2 gt Store Configuration lt 3 Default Contiguration lt 4 gt Reset Device Configuration lt ESC gt Go to previous menu Please select an item lt 1 gt Device Service Disabling the device will halt all traffic through all ports lt 2 gt Store Configuration After making device changes use this to store the parameters into NVR lt 3 gt Default Configuration This will restore the parameters to factory default Then do a Store to write changes to NVR lt 4 gt Reset Device This will reset the CPU and the switch on the device warm start Digital Optical Monitoring Modern optical SFP transceivers support digital diagnostics monitoring DDM functions according to the industry standard SFF 8472 This feature is also Known as digital optical monitoring DOM and gives the end user the ability to monitor real time parameters of the SFP such as optical output power optical input power temperature etc Parameters are read from any MSA compliant SFP module Extended information is only available in
69. 0 125um 62 2 125um Wavelength 850 1310 1550nm Power Line Link Primary Link Secondary Link Test Alarm DC In 12V lt 10W 155 x 88 x 23mm 120g 10 60 C Operating 20 70 C Storage 10 95 non condensing CE FCC LVD RoHS 65 000 h 25 C 119 Appendix A A 12 1 Functional Details Fiber The 3R 2 7G 2S 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 2S 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 This model is designed for both stand alone use and for management when installed in managed chassis When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller the 2 7G 2S 3S card is configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 serial console when placed in CHOIM or CHO2M 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 2 7G 2S 3S does NOT support in band management There are two variations of this media converter the 2 7G 2S converter with two optical ports Line and Client and the 2 7G 35S with three optical po
70. 0 ckhcu com tm upgrade asp language 0 KEk O FRM220 10 10015 2 O FRM220 3R 2 7G 2S and 3R 2 7G 3S FRM220 5E1 ET100S FRM220 3R 10G SS SX XX MUX DEMUX FRM220 10 1001 2E O FOM04 FPGA 2R 4G 2S 3S O FOM01 FPGA All Slots Slot 02 Slot 03 FRM220 FXO FXS O FRM220 155MS O FRM220 E1 T1 O FRM220 1000ES 1 and 1000E 2F and FRIM220 1000E 1 O FRM220 1000TS and FRIM220 1000T O FRM220 5E1 ET100T O FRM220 Eoe1 O FRM220 3R 10G SS SX XX CDR FRM220 E1 DATA O FRM220 FOM04 FRM220 FTEC FRM220 FOM01 10G SXX SX XX Slot 06 Slot 11 Slot 16 Slot 07 Slot 12 Slot 17 Slot 08 Slot 13 O Slot 18 O Remote Remote E Type FRM220 10 1001 and FMC 10 1001 FRM220 SERIAL FRM220 DATAPORT FRM220 1000EDS and FRM220 1000ES 2F Local Image rr Name PotsMain 303 E Key Upgrade Slot 04 O Slot 05 Slot 09 Slot 10 Slot 14 Slot 75 O Slot 20 ES 111 Appendix A p 7 ae Click the OK button to confirm The page at http frm220 ctcu com tw says y Type FRM220 1000ED5 and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card j Cancel 8 Heed the warning messages Upgrade Status 9 View the success results WARNING The page at http frm220 ctcu com tw says lt lt pane Line Card Status gt gt a Local
71. 01 Managed 1 Fiber 3 UTP Fast Ethernet Switch Card oooooooonnnnncccncnnnncnnnnnnnnnononocnncnncnnncnnnnnnnnnnos 160 2201 PUC ona DE A as 161 A202 Panne A A Ago tes asts sus O NEE NE ona tedests stag totaaavasesateasscs tease eens 161 A20 Insta lato OSEA A annem ool 161 A 26 4 Provision by DIP SMA a E cesta Gules Setee busied hewspndee S 162 A 265 Provision by Console Management lia 162 A 200 Provision Dy W ED isiesgiesec A dacs Noe ce beaplaemesaasa decide cet s eu esusl tolerance anemone 164 PY 2 Oy Ti DTW AN A pe a sala ced E actin inal E E E E E E E uae E E 165 111 Table of Contents 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 The Appendices include the details for each card pin assignments of special cables and gives further information on options for placing the device in service The divisions of the manual are intended for use by personnel to answer questions in general areas Planners and potential purchasers may read the Introduction to determine the suitability of the
72. 0A 1000EAS X has its own embedded processor which can be used to configure the device for stand alone operation When placed in a stand alone chassis this device supports a text based Telnet terminal with an easy to use menu system for configuration The embedded HTTP server provides an easy to use GUI Graphical User Interface with any web browser SNMP is also supported in the stand alone operation When using network management software and our proprietary MIB file specifically for the 1000EAS X all settings can be performed performance monitoring realized and alarm traps received When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller card or the FRM220A CH20 with GSW Gigabit Switch card the 1000EAS X card is configured and monitored through the chassis NMC or GSW via console Telnet Web HTTP or SNMP 1 Stand alone IP settings allow management by Serial console Telnet Web or SNMP 2 Rack management When placed in NMC or GSW managed rack all other settings can be overridden by the management A 25 2 Panel 2 x SFP ports support any 1000EAS X 155M or 1 25G transceiver LED Indicators On Link Flash Activity DEFAULT Use to recover lost password or to return TCP IP settings to factory default values Off no link Figure A 25 1 Panel designations of FRM220A 1000EAS X 158 Appendix A A 25 3 Factory Reset Procedure Apply power to
73. 1 Switch 1 provides the FXO FXS setting Leased line mode and Ring frequency 108 Appendix A Switch 1 settings firmware version 3 03 Main Mode setting A AA OFF OFF FXS Mode 20 35Hz 1 0 ON ON FXS Mode 40 55Hz 0 1 FXO Mode FXS leased line Mode Slave timing A 10 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 TDS 007 Cascaded Yes Monitored Chassis ID 00 SLOT es gt FRM220 FXO FXS Local 1 Vert 000 2 050 2 000 0 000 lt l gt Port Active Enable FX Link Up FX Signal Yes EX PRE Ort FXO FXS Active Status Inactive FXO FXS Ring Status NO Ring FXS ON OFF Hook ON Hook Operation Mode FXO Ring Frequency 30 35Hz Timeing select Leased line mode gt Auto Laser Shutdown ALS Disable Port Reset Set to Default Small Form Pluggable SFP No Digital Diagnostic D D No Go to Line Card Status menu Go to the Remote menu lt 1 gt Port Active Use this item to enable or disable the line card When disabled all transmission will be blocked and all the line card LED indicators will be Off lt 2 gt Operating Mode The electrical interface 1s software selectable between FXO Foreign eXchange Office and FXS Foreign eXchange Subscriber interface When connecting to a PBX or PSTN set FXO When connecti
74. 1 fixed optical 68 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 All UTP connections are designed for auto MDI X operation requiring only a straight connection to any device A unique feature of the FRM220 1000EDS switch converter is the use of a common PCB card which may either be used as a standalone converter FRM220 CHO1 series or placed in the FRM220 CH20 rack Management The FRM220 1000EDS has a small processor that is used to read the on board DIP switches When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller the 1000EDS card is configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 1000EDS does not support in band management A 6 2 Panel 2 x SFP ports support any 1000EDS 1 25G transceiver LED Indicators On Link Flash Activity Off no link
75. 10 1001 28 Console Configuration eiiiai EE EEA I A ERREA E REENE AEEA EEn 55 A 3 4 FRM220 10 1001 2E Web Based Configuration oooooooooooccnccnnnnnnnnnnnnnononnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnas 56 Table of Contents A 4 FRM220 10 100A S 802 3ah OAM IP In band managed 10 100 Fiber Media Converter cccccccccnncnnnnnnnoccnnnnnnnnnnnnnonnnnnos 62 JS aca S EE A easiest our taieai E E A T T ete aa E E T N E A Vetus 63 A F CAITCS 35 esas vee E EI E wuxadanapeineacen veasoucaas 63 AA Factory Reset Proced re A A AAA AA A AAA E ISR 63 AA A a a a Micmac Mean Ronee 64 AAS Tastalla ton or SEP ME a 64 PS O eo ort as sesunts idan ss el aca atagoi sae any ttestita tess namar tse Sanne udp outate Spy osat Maas ale eaanen unos eae aaneeseanea Lastest 64 A 5 FRM220 1000EA S 802 3ah In band managed Gigabit Fiber Media CoONVerteL ooooooooonnnncncnnncnnnnnnnonononnnonononnnnnnnnnnnnnnnnos 65 AS Pa yl U1 816 16 08 Il Be 0 ks Derg reign rene peri eT Renin eerie Cr mre oe emt a Mar INCRE nena RMMeT a Rte Tener Tm MCRL OnT 66 NA 66 PED Ad A O O a E A II II a 67 RS OW ASTON 11 ate rel ant hoster a strona stalstitrsa tenscecta atv arse ded A Metiomned ata matecra maa E a E E E N 67 A 6 FRM220 1000EDS Managed Gigabit Fiber Media Converter ccccccccccccccccssssssssssssseeececeeeeeeeeeeaaeeescsesesseeeeeeeeeseeeeeaqaas 68 Os DUC MONG MDC AA o A A vee Nance 69 O A E 69 A 6 3 Installation of SFP Mod leS series a ido 70 A 6
76. 17 11 Table of Contents A 12 FRM220 2 7G 25 35 3R Transponder with Protection occciccceccecaccescssiecedeccectinccecisvsessevccsteetsnavecdactootewssas edades 119 Ae V2 A Functional Details A A AA AAA A A ts 120 A122 Installation ot SFPE Modules NA AA A A EE 120 A 123 Provisionins DY DIP Stand alone A sce ave AA ii 121 AZ A Provis omie Dy ININEG CT NCE io vases she aries asa a aan ease aed oe Ornate baaeaea aoe eae 122 AZ O Provis onne Dy IN MiG Web sso raed Seacmsl ess cession e 123 PO Pi Welk e UDa adea a Geuctaletss 124 Ayl4A ERMO220 106 55 LOGbps 3R Fiber Transponder iesen sieberiana as aa uses Osuna eden meee 126 Pe NY RA O O A A A cust 127 Aala TastallatiomoL S PP Modules seal asentar ao lali dia 127 ALIAS Provis omine Dy DEP Stand alono kienean ip reine dd 128 AAA Provisionins by NIMC A Telecinco ir iii 129 AA PrOVISIONIAS DY NMU WED cositas rro nr bli 130 ARO AMM T EEEE E T AE A 131 ALS FRM220 MD40 80 CWDM DIE DEMO sectorial i T aaa EE E E NE Oa NA E NERA EEA 133 A 16 FRM220 iMUX Inverse Multiplexer Blades coooooooooonooonoooocccnnnncnnnnnnnnnnnonononononnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnrnnnnnnnnnnnnnns 134 Pot Ol AA e O PO o o A E 135 A rate EEE EEE PTI aaah eats au EA ITA ET EA TT EATA EEE OR T AA E A T 135 A 16 3 Installation Of SEP Modules rin 136 A 16 4 Provisioning by DIP Stand alON ooccccccccnonooonnnnononocononnnnnnnnnnnnnnonnonnnnnnnnnnnnnnnnnnnnnnnnnnnnn nono nnnnnnnnnnnnnnnnnnnnnnnnnos
77. 192 168 1 1 bytes 32 timetims TTL 64 Reply from 192 168 1 1 bytes 32 timetims TTL 64 Ping statistics for 192 168 1 1 Packets Sent 4 Received 4 Lost loss Approximate round trip times in milli seconds Mininum ms Maximum ms Average ms GisDocuments and Settings ems gt _ Figure 4 1 Ping The ipconfig command from a command window in NT will display the workstation s IP subnet and gateway settings The ping command will send an ICMP protocol message to the agent which in turn should reply If no reply double check all network connects connect directly from a workstation to the FRM or as a last resort replace the NMC card of the FRM 39 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 Microsoft Windows AF Version 5 1 26M64 1 LG Copyright 19785 2661 Microsoft Corp CAMINADO s ys tem32 gt ipconfig Mindows IP Configuration Ethernet adapter Local Area Connection 2 Media State Media disconnected Ethernet adapter Local Area Connection Connection specific DNS Suffix IP Address a
78. 2 Status Inactive Inactive Alarm 1 Settings Mode By Powers e a OPower 1 Power 2 Chassis Cees a i Fan 1 Fan 2 Disable LI UTP Link Down LI FX Link Down By Powers User1 Local O FEF Detect Ll Remote Power Fail re O Signal Loss E L UTP Link Down LFX Link Down Remote LI Signal Loss Alarm 2 Settings By Fans w Ol Power 1 O Power 2 Chassis CI Fan 1 Ll Fan 2 pem E Disable UTP Link Down LIFX Link Down User 2 Local O FEF Detect O Remote Power Fail By User 2 See Active LI Signal Loss O UTP Link Down OFX Link Down Remote L Signal Loss 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 These alarm settings are also used to send SNMP traps Therefore the settings are not only important for the alarm relays but also for SNMP management as well The Active setting will close the Alarm 1 relay for testing purposes Set it back to any other mode after test Alarm 2 Mode can choose Disabled By Fans By User 2 or Active from the drop down menu If d
79. 2 has its own embedded processor which can be used to configure the device for stand alone operation When placed in a stand alone chassis this device supports a text based Telnet terminal with an easy to use menu system for configuration The embedded HTTP server provides an easy to use GUI Graphical User Interface with any web browser SNMP is also supported in the stand alone operation When using network management software and our proprietary MIB file specifically for the 100A all settings can be performed performance monitoring realized and alarm traps received When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller card the 10 100A card is configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone IP settings allow management by Telnet Web or SNMP 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management A 4 3 Factory Reset Procedure Apply power to the 10 100A 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 1 200 The username and password are both reset to admin if enabled 63 Appendix A A 4 4 Panel 2 x SFP
80. 20 ctcu com tw says u Type FRM220 1000EDS and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card i Cancel 8 Heed the warning messages Upgrade Status 0 View the success results WARNING The page at http frm220 ctcu com tw says lt lt esa Line Card Status gt gt 3 Local Side Do not link to other web pages SLOT O2 SLOT O3 __ SLOTO4 __ SLOTOS __ SLOT 06 ____ SLOT O7 __ SLOT O8 ___ SLOT 09 0K aris Ronis Ed SE i SLOT 14 L Do not close this page SLOT 18 ___ stoT19 __ SLOT20 ___ A Remote Side P SLOT O2 ___ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ SLOTO7 __ SLOTOS __ SLOTO9 __ SLOT 10 ___ SLOT 11 __ SLOT 12 __ SLOT13 ___ SLOT 14 ___ SLOT 15 __ SLOT 16 __ SLOT 17 ___ SLOT 18 ___ SLOT 19 __ sLOT20 ___ Remote B Side SLOT 02 ___ SLOT 03 __ SLOT 04 __ SLOTOS __ STAGE Transmit to units SLOTO6 _ SLOTO __ sLoOTO8S _ stOTO9 __ SOTO A SETA A SOTA A ESTATE A SOTA SOTA A ESTO TELE A ESTELA AA 14 SLOT18 __ SLOT19 __ SLOT 20 ___ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 105 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 distan
81. 220 1000TS and FRM220 1000T O FRM220 5E1 ET100T FRM220 Eoe1 FRM220 3R 10G SS SX XX CDR FRM220 E1 DATA FRM220 FOM04 FRM220 FTEC FRM220 FOM01 O 10G SXX SXIXX 75 Appendix A Slot All Slots Slot 02 Slot 03 Slot 04 Slot 05 Slot 06 Slot 07 Slot 08 Slot 09 Slot 10 Slot 17 Slot 12 Slot 13 Slot 14 Slot 15 Slot 16 Slot 17 Slot 18 Slot 19 Slot 20 Side Local Remote Remote B Image a Name EDS16 BIN mz Key Upgrade The page at http frm220 ctcu com tw says Slot Slot 09 Side Local File EDS16 BIN 7 Click the OK button to confirm Y Type FRM220 1000ED5 and FRM220 1000E5 2F Do TFTP and Upgrade Line Card E Cancel 8 Heed the warning messages Upgrade Status 9 View the success results The page at http frm220 ctcu com tw says WARNING lt lt Upgrade Line Card Status gt gt Local Side SLOT O2 ____ SLOT 03 __ SLOTO4 __ SLOTOS __ SLOT O6 __ SLOT O7 __ SLOTO8 __ SLOT O9 0K SLOT 10 _ SLOT11 ___ SLOT 12 __ SLOT13 ___ SLOT i4 __ SLOT15 ___ SLOT 16 ___ SLOT17 __ SLOT18 _ SLOT19 ___ SLOT 20 ___ Remote Side SLOT O2 ____ SLOT 03 __ SLOTO4 __ SLOTOS ___ SLOT O6 ___ SLOTO ___ SLOTOS ____ SLOTO9 ___ STA i SOTA A SETA A ESTA A SOTA SOTA I SE TALE eoe T SLOT 18 ____ SLOT19 __ SLOT 20 ___ Remote B Sid
82. 220 SERIAL O FRM220 DATAPORT FRM220 1000EDS and FRM220 1000ES 2F FRM220 10 10015 2 FRM220 FXO FXS FRM220 155MS FRM220 E1 T1 FRM220 1000ES 1 and FRM220 1000E 2F and FRM220 1000E 1 Slot 03 Slot 04 Slot 05 Slot 08 Slot 09 Slot 10 Slot 13 Slot 14 Slot 15 Slot 18 Slot 19 Slot 20 Slot All Slots Slot 02 Slot 06 Slot 07 Slot 11 Slot 12 Slot 16 Slot 17 Side Image fe Name CTC 10011240_BlN Function Ke egos 7 Click the OK button to confirm 8 Heed the warning messages Upgrade Status WARNING Do not link to other web pages Do not close this page Do not insert or remove any cards during upgrade process STAGE Transmit to units 14 Message from webpage Type FRM220 10 1001 and FMC 10 1001 Slot All Slots Side Local and Remote File CTC 10011240 61N Do TFTP and Upgrade Line Card 9 View the success results Message from webpage lt lt Upgrade Line Card Status gt gt Local Side SLOT 02 OK SLOT 03 OK SLOT 04 OK SLOT 05 0K SLOT 06 OK SLOT O7 OK SLOT O8 __ SLOTO9 ___ SOTO SOT A STD STEEL A SLOT14 _ SLOT 15 __ SLOT 16 __ SLOT17 ___ SLOT 18 __ SLOT19 __ SLOT20 ___ Remote Side SLOT 02 OK SLOT 03 OK SLOT 04 OK SLOT 05 OK SLOT 06 OK SLOT 07 OK SLOT 08 Fail SLOT 09 __ Skep HE SOT SOT SLOT A SLOT 14 ___ SLOT 15 Fail S
83. 4 ___ SLOT 15 __ SLOT 16 __ SLOT 17 ___ SLOT 18 ___ SLOT 19 __ sLOT20 ___ Remote B Side SLOT 02 ___ SLOT 03 __ SLOT 04 __ SLOTOS __ STAGE Transmit to units SLOTO6 _ SLOTO __ sLoOTO8S _ stOTO9 __ SOTO A SETA A SOTA A ESTATE A SOTA SOTA A ESTO TELE A ESTELA AA 14 SLOT18 __ SLOT19 __ SLOT 20 ___ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 87 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 Both card and remote can be configured to enable or disable the port reset the port set the data rate modify the clock mode and initiate local or far end loop back tests The FRM220 Data Fiber Modem may also be paired with the FRM220 E1 T1 for Nx64K transmissions Features Synchronous or Asynchronous data over fiber In band network management Manage via terminal web or SNMP in FRM220 CH20 chassis Software selectable interface V 35 X 21 RS530 RS449 RS232 Software selectable DCE or DTE mode User selectable data rate n x 64kbp
84. 4G FC 4 25G 8G FC 8 5G 10G FC 10 51875G 10G Base Ethernet 10 3125G STM 64 0C192 9 95328G OTN G 709 OTU2 10 709225G Loop back Line Client Cable type SM 9 125um MM 50 125um 62 2 125um Wavelength 850 1310 1550nm LEDs Power Line Link Client Link Test Power DC In 12V Power Consumption lt 8W Dimension D x W x H mm 155 x 88 x 23mm Weight 120g Temperature 10 60 C Operating 20 70 C Storage Humidity 10 95 non condensing Certification CE FCC LVD RoHS MTBF 65 000 h 25 C Warning Due to high power requirements and heat dissipation of 10G Series cards they are limited to placing a maximum of 10 cards in CH20 chassis leaving an empty space between each card 10G Series cards should not be placed in CHOI single slot chassis for this same reason Additionally only one card should be placed in CHO2 with an additional NMC for management This product includes the following models e FRM220 10G SS 10G fiber 3R transponder repeater SFP to SFP 126 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 comm
85. 510 1530 1550 1570 1590 1610nm Insertion Loss lt 2 8dB including connector loss Return Loss gt 45dB FRM220 MD80 1UP 8 Wavelength CWDM Mux DeMux Card 1 upgrade port Wavelengths 1470 1490 1510 1530 1550 1570 1590 1610nm Upgrade port 1 1260 1457nm Upgrade port isolation gt 30dB Insertion Loss lt 2 8dB including connector loss Return Loss gt 45dB Environment Dimension D x W x H Weight Operating Temp 0 C 50 C Single width blade 155 x 88 x Single width blade card 200g Storage Temp 10 C 70 C 23mm Double width blade card 300g Humidity 5 90 non Double width blade 155 x 88 x condensing 41mm Certification RoHS MTBF gt 275 000 hours 133 Appendix A A 16 FRM220 MUX 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 Els 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 One single model supports either unbalanced 75 ohm or balanced 120 ohm adapter cables required When the FRM220A nE1 ET100 card is placed in the FRM220A rack with GSW SNMP management the management can view the converter card s
86. 821 Standards ITU T G 703 G 704 G 706 and G 732 Interface Connectors RJ 45 BNC Test Loops LLB Local Loop Back RLB Remote Loop Back Ethernet Interface Type 10 100Base TX Connector RJ 45 Standards IEEE 802 3 802 3u Duplex modes Full Half Indications OP1 Link OP2 link El T1 Mode Link Loopback test Order wire LAN Link Speed Power Input AC adapter 12VDC or with built in power in CH20 or CHO2M Dimensions 88 x 23 x 139mm DxWxH Temperature 0 60 C Operating 10 70 C Storage Humidity 10 90 RH non condensing Certifications CE FCC RoHS This product includes the following models FRM220 FOMO1 Fiber Multiplexer Card FOM220 FOM01 CH01M Stand alone FOM in 1 slot chassis 154 Appendix A A 23 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 The use of bi directional SFPs maximizes the utilization of the fiber optic line and results in saving line costs 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 Featu
87. ALS LFP ALS po Protocol Supported FiberDataRate 10G On Off Off Off 10G Fiber Channel 10 51875Gbps Off On Off Off OC 192 STM 64 9 95328Gbps On On Sw5 Line LFP On enables the line side Link Fault Pass thru function Sw6 Line ALS On enables the line side Auto Laser Shutdown function Sw7 Client LFP On enables the client side Link Fault Pass thru function Sw8 Client ALS On enables the client side Auto Laser Shutdown function Notice All of these settings are ignored if the card is placed in the FRM220 CH20 with NMC SNMP management or in the CHO2M with local console The card will follow the settings done via the chassis management Refer to NMC operation manual for details on managing all cards 128 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 TDs 1001 Cascaded Yes Monitored Chassis I1D 00 SLOT 10 gt FRM220 3R 10G SS bocas L Vers LetO0 7 007 e lOO S00 00 Line Side Link Up Line Side CDR Lock Locked Tx Fail Normal Client Side Link Up Client Side CDR Lock Locked Tx Fail Normal lt 1 gt lt 2 gt lt 3 gt lt 4 gt lt 5 gt lt 6 gt lt 7 gt lt 8 gt lt 9 gt lt A gt lt B gt lt C gt lt D gt Port Active Enable System Status Ok Baud Rate Select 1G Fiber Channel
88. CA A A AA A A E 9 VO sD UCM A A AE AA AA AE AAA AAA AAA AAA N 9 1 1 Bret Functional DES Crip UO nse iiA as e ER E E ess catd sta E Mink eee tenidai 9 AA Te NMC O N 9 SC ata OPUS a o a Al 10 A TNIV CCS INI saat seca e a e e a al 10 LATINME TAO UCA e a el 10 LAZERM20NME Connec CHOI pauses T acaba he Domnall gM ela e a e da A 11 ASERVMEZ20NME Earle Hands tias ticiegiciias rice pirita 11 Ae NMC card bauit and Replacement italicize ties ic ade 11 14 5 Media Converter cara Fault and Replacement ari lira ii ic ads 11 LAGINME DEDICAS st enone ENRE A TENOAREN ocean elit 12 Te Dl IVI OPAC A OM ica retornos enteras 12 Chapter 2 Console Pi Ov SION tito nt tic ico eins liar eii 13 Disks A e 13 O A O AS 14 A Meta baat Sareea sant nat tes beac aeacins ies tna santas at en needaamaciata ts ness aahaatst aa hedatmacincan aanaaantastasaae wassaapaaagetaeeaaeaaeidstaas 14 SAS NN E taal haa banda amide sta Nain aa Gdns dasaacm ciate A daesanatasstamenicesantaed 14 2a DA nn eas cmaaasenage a N N desaaanatasetany N 14 Dr eR MMM Al Neo Miles O E aida Me aaanse tah ineueenaat 15 229 VC PAP C onfi A A A esata 16 DDO E EoD LO UVC las ha shauna E E E EES EEE EE E N EEE EIN E E PE E EET EE EEE E 19 22 1 Chassis Iintormati n and Alarm SE DUP enneren dd diia 20 E SA a a A NTN 22 US A A aE a Ana 22 Chapter o Webs asca lata scene tildado 21 Ss AAA On E te ake ai taadet tutianindjatundiincdeumemenbuanets 27 32 Web Based Manas cement Operation dai 27 S22 A E E nce So
89. Default Function Key 38 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 Be sure you have a valid IP address for the attached network that the subnet mask is properly set and that the default gateway is set if you wish to manage the FRM220 from a remote network Attach a network cable to the NMC s front panel LAN SNMP connector using a straight cable if connecting to a HUB or to another MDI device such as direct connection to a workstation The Link LED should be on or flashing No link LED means no link From any PC on the network confirm the agent can be pinged cx Command Prompt Microsoft Windows AP Version 5 1 2688 CG Copyright 19785 2601 Microsoft Corp GisDocuments and Settings ems gt ipconfig Windows IP Configuration Ethernet adapter Local Area Connection Connection specific DNS Suffix gt aR Ailes Es ay as ah SS ah af n a8 a f 192 168 1 1006 Subnet Mask z 255 255 255 6 Default Gateway ee r ee T CG 5 Documents and Settings sem ping 192 168 1 1 Pinging 192 168 1 1 with 32 bytes of data Reply from 192 168 1 1 bytes 32 time lt ims TTL 64 Reply from 192 168 1 1 hytes 32 time lt ims TTL 64 Reply from
90. F 88 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 The DATA card supports multiple options for clocking by using independent transmit and receive clocks This provides the ability to have synchronous transmissions with different bi directional data rates This feature could be especially useful in satellite transmissions that may have different upstream and downstream rate requirements A HDB26 female connector provides the data port connection with a variety of adapter cables The DB25 cable can be used for RS 530 or RS 232 The DB15 cable is for X 21 The DB37 cable is for RS 449 Finally the MB34 cable is for V 35 Management The FRM220 DATA has a small processor that is used to read the on board DIP switches When used stand alone the configuration can be done via the DIP switches or through a text based menu driven console when the card is placed in the CHO1M with DB9 When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller the DATA card and remote are configured and monitored through the chassis NMC via console Telnet
91. F Off Remote PWR OK e Loop Back Test sees lt 6 gt Operation Mode lt 7 gt Ingress Rate Limit IRL Mode 100 0M lt 8 gt Egress Rate Limit ERL Mode 100 0M lt 9 gt 7 Link Fault Pass Through LFP lt A gt Auto Laser Shutdown ALS lt B gt Accept Remote Hardware Reset lt gt Port Reset lt K gt Set to default Small Form Pluggable SFP No Digital Diagnostic D D Function No lt D gt Go to the D D Functions menu lt N gt Go to the Local menu lt ESC gt Go to previous menu Please select an item When managing the remote converter the port cannot be disabled To do so would put it to sleep forever as it cannot be awoken by any OAM command once the fiber is down Therefore no port disable option is provided in the remote It really is no problem as you can always disable the link from the CO side which is preferred anyway A 1 4 FRM220 10 100i Web Based Configuration Physical Slot number in CH20 gt 02 Card Model gt p Card Active when lit gt Pila Fiber is linked when lit gt pl OFX Link Remote has fault if lit gt Ma UTP is linked if lit gt DALIL Ethernet is running Full Duplex gt MAL Ethernet speed is 100M gt PE ARS E A A O A A A A A A O O The above graphic represents a single slot in the FRM220 The entire chassis with all slots will be displayed in the Local Display view Double click on any slot to go to
92. G 2S 3S 3R card is placed in the FRM220 rack with SNMP management the management can view the converter card s status type version fiber link status and alarms The card can be configured to enable or disable the port reset the port and set the desired data rate Features Up to 2 7Gbps Protocol transparent fiber media converter repeater Supports fiber redundancy by switching Primary to Secondary path 3S only Programmable receive optical threshold fiber protection Clocking for Fast Ethernet OC3 STM 1 STM 4 STM 16 FC 1 FC 2 Network management via terminal web or SNMP in FRM220 CH20 chassis Extend transmission from 2km to 120km over fiber Perform 3R optical repeater function Re amplification amp Reshaping Re clocking Supports Line Primary Secondary loop back test Link Fault Pass through LFP Auto Laser Shutdown ALS Serial console for stand alone management When used with CHO2M two slot chassis Specifications Ports LEDs Power Power Consumption Dimension D x W x H mm Weight Temperature Humidity Certification MTBF Optical Interface Connector LC 1 Line SFP 1 Primary SFP 1 Secondary SFP Data rate Up to 2 7Gbps Fixed rates for E3 34 368M DS3 T3 44 736M OC1 STM 0 51 84M Fast Ethernet 125M STM 1 0C3 155 52M STM 4 0C12 622 080M STM 16 0C48 2 488 32M FC 1 1 0625G FC 2 2 125G Regeneration type 3R Loop back Line Primary or Secondary Cable type SM 9 125um MM 5
93. H20 with NMC this card can be configured through any of the NMC interfaces including Telnet Web GUI and SNMP Chassis ID 00 Cascaded Yes Monitored Chassis I1D 00 18 gt FRM220 E1 T1 Local Versd 000 1 110 1 020 0 000 Port Active Enable FX Link Down EX Signal No FX FEF OTE RD State On TD State Flash Test State Normal EL TL Signal Signal loss Frame Sync Sync loss Receive AIS No Connector Type BNC El TL Parameter Timing Source Recovery from E1 T1l receive Auto Laser Shutdown ALS Disable Active Rates Start Timeslot Loop Back Setting Off Port Reset Set to default Small Form Pluggable SFP No Digital Diagnostic D D No Go to Line Card Status menu lt 1 gt Port Active Use this item to enable or disable the line card When disabled all transmission will be blocked and all the line card LED indicators will be Off lt 2 gt E1 T1 Parameters This will bring up the sub menu see below for setting these specific parameters lt 3 gt Timing Source The timing source can be configured as Internal Osc Recover clock from received El signal or recover clock from signal via fiber Use the latter setting for the remotely connected fiber unit Use internal clock for fixed point to point applications and use El recovery when connecting to other El networked devices lt 4 gt Auto Laser Shutdown ALS Enables or dis
94. IP 659 125 162 243 Kernel File Name kernel14622 97 File System File Name romfs326 97 Function Key set Parameters Cancel Flash Kernel Flash File System Uparade Line Card NMC Reboot Refresh status Current Date and Time 2011 07 25 10 28 44 Mon Time Server IP NTP 220 130 158 714 Time Zone GMT vlos w 00 v Auto Adjust Time 1 Hr Enable Y Date and Time Year 2011 Mon 07 Day 25 Houro9 Min 4g Sec 38 Time Function Key set Parameters Get PC Time set Current Time sync with NTP sync with PC Date and Time Information Parameter Management Restore Parameters Destination With File ll Browse Upload Save Parameters Source All Cards vw Download Copy Parameters Source l Destination All Same Type w Chassis 0 ka Slot 02 Side Local ME Save amp Restore System Parameters Chassis 0 v l Browse Upload 29 Chapter 3 Web Based Management The System Information field provides the following settings di ala Target IP This 1s 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 1s 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 TFTP Server IP This is the IPv4 address of the TFTP
95. KKKKKKKKKKRKKKKRKKKKRKKKKRKKKKKKKKKEKK UTP_Link_Down FX Link Down FEF Detected Remote Power _Fail lt R gt Redundancy Mode Disable 5 107 100 only lt ESC gt Go to previous menu Please select an item Power 2 Type AC90 250V Status OK Fan 2 RPM 3750 Status OK Alarm 1 Status Active Alarm 2 Status Inactive lt l gt Alarm l1 Mode By User 1 lt 2 gt User l Chassis Power l Power 2 Fan 1 Fan 2 oP Local UTP_Link_Down FX Link Down FRE Detect Remote Power _Fail lt dl gt Remote JUTP_ Link Down FX Link Down FEF Detect Remote Power _Fail lt 5 gt Alarm 2 Mode By Fan lt 6 gt User Z2 Chassis Power 1 Power 2 Fan 1 Fan 2 ls Local JUTP_ Link Down FX Link Down FEF Detected Remote Power Fail lt a gt Remote ir i al Description of Menu contents This Chassis ID This ID number will reflect the actual ID number set on the selector switch on the rear of the chassis Power l and Power 2 Type amp Status The FRM220 can accommodate two power supply modules of any type There are three types available 1 AC Model supports 90 250VAC input 150watt maximum output 2 DC48 Model supports 36 75VDC input 150 watt maximum output 3 DC24 Model supports 18 36VDC input 150 watt maximum output 200 watt power supplies were introduced in the second half of 2010 replacing the 150 watt as the standard po
96. LOT 16 __ SLOT 17 __ SLOT18 _ SLOT19 __ SLOT20 ___ Remote B Side ATI ESOS I TA T STA AA SLOTO6 _ SLOTO7 _ SLOTOS _ SLOT 10 __ SLOT 11 __ SLOT 12 __ SLOT13 ___ SOTA SLOTS ESO TAE A SUCIA A SLOT18 _ J SLOT19 ____ SLOT 20 ___ 50 Appendix A A 2 FRM220 10 1001S 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 When the FRM 10 100iS 2 is placed in the FRM220 with NMC the settings are controlled by the chassis management system The remote FRM 10 100i stand alone may also be configured from the FRM220 through the in band management features OAM Features fos Y e Dual Converter on a single card 2 independent channels 10 1001S 2 f e Supports Loop Back Test ory m 1 e Auto Cross over for MDI MDIX in TP port ae fee Fiber SFP e Supports far end fault FEF function via OAM a i ah IA LC Type e Auto Negotiation or Manual mode in TP port an Rig e Supports link fault pass through LFP function CPU e Bandwidth control 32K or 5 12Kbps X N Chip x LED e Forward 2046 bytes max packets in switch mode esa e Forward 9K jumbo packets in converte
97. Line Code HDB3 or AMI e Full or Fractional e Frame setting ElL CCS CAS e Idle code setting Ox7E or OxFP e Auto generate AIS enable disable setting e Timing source setting Receive El recovery or internal oscillator e Active timeslot number setting El CCS 1 31 or El CAS 1 30 e Base timeslot setting El CCS 1 31 El CAS 1 15 or 17 31 e Loop Back with integral BERT e LED indicators Specifications e G 703 Interface e Connector 1 x RJ 45 and 2 x BNC e Data rate 2048kb s e Impedance 75 ohm for unbalanced 120 ohm for balanced e Framing CCS CAS Unframed e RxSensitivity 43dB extra Long Haul e TxPulseAmp 3 00V p p 120 ohm 2 73V p p 75 ohm e Line code HDB3 or AMI selectable e Indications LED PWR TD RD act Test Signal loss Sync loss e Alarm Error e Ethernet Port 1 x RJ 45 Auto Negotiation Auto MDIX e Power Card supports hot swapping e Input Card 12VDC Standalone AC DC options e Consumption lt 6W e Dimensions 155 x 88 x 23mm D x W x H e Weight 120g e Temperature 0 50 C Operating 10 70 C Storage e Humidity 10 90 non condensing e Certification CE EMI LVD FCC RoHS e MTBF 75000 hrs 25 C e Tests set from console e El Loops Remote and Request Remote Loop back e BERT Integral 511 pattern generator set from console This product includes the following models FRM220A Eoel Ethernet over El converter card 143 Appendix A A 18 FRM220 E1 Data DSU CSU Converter Card
98. MC R2 Ram increased from 16 to 32MB was released and follows the 3 xx code branch As of this manual edition both 2 xx and 3 xx codes are being maintained The purpose of this section is to outline the procedures and pitfalls in upgrading the NMC of the FRM220 2 2 9 1 Preconditions Software upgrade is performed by the user by interacting with the NMC via the serial console port on an ASCII terminal optionally via Telnet or Web The software transfer mechanism is the TCP IP protocol TFTP Trivial File Transfer Protocol The end user or network engineer can perform an upgrade easily from one personal computer or from a Laptop Computer connected to the same network as the NMC 2 2 9 2 Items required a The FRM220 unit with NMC installed configured and network connected Version 1 XX to be upgraded to version 1 YY b A Windows based PC with a network connection and with at least one free COM port and terminal emulation software such as HyperTerminal PuTTY or Telnet c Serial console cable DB9M to DB9F not required if performing by Telnet or Web d Ethernet UTP cables e FRM220 NMC latest version kernel and romfs file system f Free TFTP server for Windows Ph Jounin TFTP32 2 2 9 3 Equipment Setup The upgrade procedure should not have any effect on the traffic passing through an online FRM220 unit It is not required that the unit be taken offline for maintenance It is also a good idea to do a reset of the NMC prior to
99. P of Port 3 while DIP SW2 SW4 defines the LFP of Port 4 Use DIP SW1 SW5 to select between 4 port switch mode and Port VLAN mode dual converter When this mode is selected the front panel LED labeled 2CH will light indicating the media converter is in the two channel mode DIP SW2 SW5 is reserved and has no function A 6 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 09 gt FRM220 1000EDS Local Ver 1 200 1 600 0 000 0 000 lt 1 gt Fiber 1 Information and Settings lt 2 gt Fiber 2 Information and Settings lt s gt UIP 3 Information and Settings lt 4 gt UTP 4 Information and Settings lt 5 gt Device Information and Settings lt 6 gt RMON IN OUT Counters Information lt 7 gt Clear all RMON Counters lt 8 gt Device Reset lt 9 gt Set to Default 71 Appendix A Description of Menu Settings lt 1 gt Fiber 1 Displays information and settings for Port 1 fiber lt 2 gt Fiber 2 Displays information and settings for Port 2 fiber This Chassis ID 00 Cascaded Yes Monitored Chassis ID 00 SLOT 09 gt FRM220 1000EDS Locat I jb Nere kea 00s leo 00S 0 000E 0 0000 lt A lt Farber L LIAtOrmat LON ZSF lt 1 gt Port Active Enable Link Down BPs Otte Spe
100. Power Fail L Signal Loss L UTP Link Down LFX Link Down Remote O Signal Loss Alarm 2 Settings By Fans CO Power 1 CO Power 2 Chassis Dl Fan 1 L Fan 2 C UTP Link Down OFX Link Down User2 Local L FEF Detect C Remote Power Fail O Signal Loss OUTP Link Down OFX Link Down Remote U Signal Loss Function Key Sel Parameters Refresh Status 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 Chassis Information The Chassis Information group displays the power supply types and the power and fan status There are slots for installing one or two power modules They may hold either AC or DC type modules Power 1 refers to the module installed in the left slot as viewed from the rear of the chassis while Power 2 refers to the right slot An OK status indicates the power module is working within normal parameters Fan status is indicated with both the current RPM speed of the cooling fans and with a status of OK or Failed If the RPM of the fan falls below 1650RPM a failed status will be indicated 34 Chapter 3 Web Based Management Redundancy Mode Caution Exercise extreme care and do not enable this mode
101. Rate Limit Disable v Fiber 2 Information Link FEF Remote PWR Speed SFP D D Up HF CE 100071 Yes Yes Rate Limit Mode Unlimited Ingress Rate Limit Disable UTF 3 Information Link Up Port Active Enable Negotiation Auto hd Speed 10004 Duplex Full v Egress Rate Limit Disable UTF 4 Information Link Up Port Active Enable hd Negotiation Auto hd Speed 10001 hd Duplex Full hd Rate Limit Mode Unlimited hd Ingress Rate Limit Disable v Egress Rate Limit Disable Auto Laser Shutdown ALS1 Disable w Auto Laser Shutdown ALS 2 Disable w Device Information z Active Enable w Operation Mode Switch Mode w Function Key Set to Default Fefresh Status Clear EMON 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 74 Appendix A Lastly the counters and SFP information is displayed at the bottom of the web page Counters Information RMON IN OUT Counters Fiber 1 In Fiber 1 Out Fiber 2 In Fiber 2 Out UTP 3 In UTP 3 Out UTP 4 In UTP 4 Out SFP and D D Information Fiber 1 Vendor Name CTC UNION Vendor Farn Number SFS 7020 131T Fiber Type Si
102. S X User Manual 159 Appendix A A 26 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 This media converter is completely transparent to Layer 2 and Layer 3 protocols including IEEE 802 1q VLAN tag Q in Q STP IPX IP etc Features 3 Port 10 100BASE TX and 1 Port 100BASE FX Converter Auto Cross over for MDI MDIX at UTP port Auto Negotiation or Manual forced mode for UTP port Supports flow control 802 3X Forward 1552 bytes max MTU VLAN tag transparent Supports LED indicators Power FX Link TX1 Link TX1 Speed TX2 Link TX2 Speed TX3 Link TX3 Speed Supported by FRM220 or FRM220A for Ethernet Aggregation managed chassis systems Supports the local management Monitor or Configure status by the SNMP manager when placed in managed system Supports DOM function for SFP fiber transceiver Supports Auto Laser Shutdown ALS function Provides product information for management Supports On Line F W upgrade local by the SNMP manager when placed in managed system Management Fea
103. S485 driver E MII Q T a lt A T gt rs O Switch O 2 S a gt 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 gt FRM220 10 1001 Local Ver 1 100 1 279 0 000 0 000 lt L gt Port Active Enable UTP Link Up Rx Active On LASi Negotiation Auto ma Speed 100 lt A gt Duplex Full FX Link Up Rx Active On FEF Off Remote PWR OK Looi Loop Back Test Status lt 6 gt Operation Mode lt 7 gt Ingress Rate Limit IRL Mode 1 100 0M lt 8 gt Egress Rate Limit ERL Mode 100 0M lt 9 gt 2 Link Fault Pass Through LFP 4 I lt A gt Auto Laser Shutdown ALS lt B gt Send Remote Hardware Reset lt M gt In Band Management Enable lt C gt Port Reset K gt 3 Set to default Small Form Pluggable SFP No Digital Diagnostic D D Function No lt D gt Go to the D D Functions menu lt N gt Go to the Remote menu lt ESC gt Go to previous menu Please select an item The chassis ID in a stacked set is shown on the first line The next line shows the slot number card type location and version In this example the card s hardware version 1s 1 100 and the firmware version 1s 1 279 lt 1 gt When the port is disabled the PHY becomes
104. 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 1t into the cage A 16 3 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 16 2 Bale Clasp type SFP with bale open A 16 4 Provisioning by DIP Stand alone There is one DIP Switch installed on the PCBA of the nE1 ET100 SW1 not to scale DIP SW Function gt S O o HE Sets the E1 impedance for all channels to 120 Ohms Sets the E1 impedance for all channels to 75 Ohms 2 ee Slave in this mode all stand alone in band management is disabled Master In band management is supported in stand alone mode 3 HE Default Setting is OFF 3 For factory use ONLY For factory use ONLY reserved 2 Default setting is OFF 136 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 EDA 0 01 Cascaded Yes Monitored Chassis ID 00
105. Server application From the console terminal menu select 9 to upgrade the kernel very rare or A to upgrade the filesystem more likely The screen at the left shows that the romfs323 gz file was transferred OK Note Use the console menu items 6 amp 7 to set the filenames for the kernel and or filesystem if they do not match the upgrade file names You may now close the TFTP server on the PC by click the upper right corner X 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 KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK KKKKKKKKKKKKKKKKKKEKK CTC UNION TECHNOLOGIES CO V3 23 xxx FRM 220 Fiber Optical Media inverter Rack Management KKKKKKKKKKKKKKKKKKKK AAA A ARAA AAA AAA A KKKKKKKKKKKKKKKKKKKKG KkK K Main Menu and Rack Status 1 Slot 1 gt gt Empty lt lt 9 Slot 9 gt gt El BNC lt lt 2 Slot 2 gt gt Empty lt lt A Slot 10 gt gt 10 100 Base lt lt 3 Slot 3 gt gt Empty lt lt B Slot 11 gt gt 10 100 Base lt lt 4 Slot 4 gt gt Empty lt lt C Slot 12 gt gt 10 100 Base lt lt 5 Slot 5 gt gt Empty lt lt D Slot 13 gt gt 10 100 Base lt lt 6 Slot 6 gt gt Empty lt lt E Slot 14 gt gt 10 100 Base lt lt 7 Slot 7 gt gt Empty lt lt F Slot 15 gt gt 10 100 Base lt lt 8 Slot 8
106. Setting 0x7E lt l gt E1 T1 Select Selects the operation mode between El or T1 lt 2 gt Line Code Setting Selects either AMI line code or HDB3 for El B8ZS for T1 lt 3 gt Full Fractional Sets either unframed mode or fractional nx64k framing lt 4 gt Framer Setting For El fractional choose between CCS PCM31 or CAS PCM30 framing For T1 select between D4 SF or ESF framing lt 5 gt CRC Setting Disables or enable CRC4 for El or CRC6 for T1 lt 6 gt Receive Loss Transmit AIS When enabled if a fiber receive experiences LOS then the El transmit will issue AIS lt 7 gt Unused Timeslot Code Setting Typically the un used El timeslots will have an idle code of 0x7E inserted This menu option allows setting the idle code instead to OxFF 83 Appendix A E1 T1 and Fiber Loop Back Here is a review of the loop back functions available for the E1 T1 line card 0 LLB Local 0 loopback lt lt Local Side Remote Side 0 RLB Remote 0 loopback lt lt Local Side Remote Side RRLB Request Remote k id Local Side Remote Side E1 T1 Loop Back Functions LLB Local loopback lt M Local Side Remote Side RLB Remote loopback lt _ Local Side Remote Side RRLB Request Remote lt lt _ loopback Local Side Remote Side Fiber Loop Back Functions Line Card Status Menu This Chassis Ibs 00 Cascaded Yes Monitored Chassis ID 00 SLOT 10 gt FRM220 E1 T1 Local I V
107. Side Do not link to other web pages SLOT O2 SLOT 03 __ SLOTO4 _ SLOTOS __ SLOT 06 ___ SLOT O __ SLOT O8 ___ SLOT 09 0K SLOT 10 SLOT np al mi ie Bi E i SLOT 14 SLOT 15 LOT 16 i7 Do not close this page sLOT18 __ sLtOT19 __ SLOT20 __ Remote Side A A SLOT 02 __ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ sLoTo7 __ SLOTOS __ SLOT o9 __ SLOT 10 ___ SLOT 11 ___ SLOT12 ___ SLOT13 ___ SLOT 14 ___ SLOT 15 __ SLOT 16 __ SLOT17 __ SLOT 18 ___ SLOT19 __ SLOT20 ___ Remote B Side SLOT OZ __ SLOT O3 __ SLOTO4 __ SLOTOS ___ STAGE Transmit to units SLOTO6 _ SLOTO _ SLOTOS __ SLOTO9 __ Uy Ri 1 Margo Elsie eepe 1 SOTA If Silay SHE ESE TALE A ASEO A 14 SLOT 18 ____ SLOT19 ___ SLOT20 __ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 112 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 Whe
108. T INGO LOMF Active VLAN Active Channel 5 El Signal Normal EL Syne loye Receive AIS No Connector Type RJ 48C RALSENO LOMF Active VLAN Active 137 Appendix A El Loopback amp Parameters 10 gt FRM220 5E1 ET100T Bl boop Back OEE Loop ELl Z LOOP Back OFF Loop EL 3 boop Back OFF Loop th 1l 4 Loop Back OFF Loop Els Loop Back OFF Loop Channel Defect 1E 6 Channel Loop Detection Enable Check Check Check Check Check Local I Status Status Status Status Lats 138 Defect Defect Defect Defect Defect Vert le 200K 1 205 721 000 2000 Status STatuss Statusi Status Status No 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 Local Side Remote Side El Remote Loop Back Functions Line Card Status Menu This Chassis ID 00 Cascaded Yes Monitored Chassis ID 00 SLOT 10 gt FRM220 E1 T1 Local 1 1 Vers1000 2 080 1 020 0 000 Vendor Name i Vendor Part Number Fiber Type Wave Length Wave Length 2 FIBERXON INC PeM 3125C h40 Single 1310nm gt 0 Tx Power 01dBm Rx Power Rx Sensitivity Temperature Power Margin Power Loss Link Length 40km sl When an SFP with digital diagnostic is ins
109. Test This initiates the sub menu to select Line Side Primary amp Secondary Side or All Enable both line and client simultaneous loop back lt 3 gt Loss Propagation This enables or disables the Link Fault Pass through function of the converter lt 4 gt Line Side Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Line Side Optical port lt 5 gt Primary Side Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Primary Optical port lt 6 gt Secondary Side Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Secondary Optical port lt 7 gt Optical Fiber Protection Selects the protection type between 1 Manual Permanently forces the path to the selected Active Path parameter 2 Auto Sets the protection mode to Revertive automatically switches back to the active path when restored 3 Semi Auto Sets the protection mode to Non Revertive will only switch back to active path from the protected path 1f forced or by breaking the protected path lt 8 gt Active Path Selects the path Primary or Secondary which is used for Manual protection or which is used as the revert to path when both paths are good lt 9 gt Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt A gt Set to Default Force all card settings back to their fac
110. __ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 125 Appendix A A 14 FRM220 10G SS 10Gbps 3R Fiber Transponder The FRM220 10G SS is a series of managed 106 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 One of the major applications for this converter is in connecting proprietary transceiver equipment to CWDM or DWDM when these colored optical modules are not available for the proprietary equipment With full duplex wire speed forwarding capability between the 2 fiber media the FRM220 10G SS brings you the best and simplest solution for your 10G conversion between fiber and fiber Features e Protocol transparent 3R fiber media transponder repeater e Supports IEEE802 3ae 10G Fiber Ethernet e Supports 10G Fiber Channel STM 64 e Network management via terminal web or SNMP in FRM220 CH20 chassis Extend 10G Ethernet transmission over fiber e Useful as a Transponder in CWDM or DWDM systems for 10G Ethernet Fiber Channel STM 64 e Supports Client Line loop back tests e Serial console for stand alone management when inserted in CHO2M Two Slot Chassis Specifications Ports Optical Interface FRM220 10G SS Connector LC 1 Line SFP 1 Client SFP Data rates 1G FC 1 0625G 2G FC 2 125G
111. ables the ALS safety feature for the Optical port lt 5 gt Active Rates This item sets the total data nx64k rate for either the El n 1 to 31 or T1 n 1 to 24 lt 6 gt Start Timeslot This unit does not support random timeslot assignment It supports a contiguous range with a starting timeslot plus the number of timeslots This item sets the starting timeslot default is TS1 lt T gt Loop Back Setting There is support for loop back of both El signal and optical Refer to the next page lt 8 gt Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt 9 gt Set to Default This action will return the E1 T1 card to factory default settings lt D gt Go to Line Card Status menu If an SFP is installed for optical the information can be viewed here See next page lt N gt Go to the Remote menu This device supports remote in band management via Embedded Operations Channel E1 T1 Parameter Menu This Chassis ID 00 Cascaded Yes Monitored Chassis ID 00 OLOT ka gt FRM220 E1 T1 Local verir 000s LLO L 020 gt 0 000 lt 1 gt El TL Select E1 lt z gt Line Code Setting HDB E1 B82ZS T1 lt 3 gt Full Fractional ae lt A gt y Framer Setting CCs E1 D4 T1 lt o gt CRC Setting en a lt 6 gt Receive Loss Transmit AIS Disable lt 7 gt Unused Timeslot Code
112. affic on the Ethernet fiber link When this status is OK it indicates the OAM loop back is running without error A Failed status indicates that loop back is active but the loop back is failing Off indicates loop back is not running and is the normal condition SFP This field will be No if the converter is using a standard fixed 1x9 transceiver and will be Yes if the converter uses an SFP for optical connection FRM220 10 100iS model 46 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 SFP and D D Information SFP and D D Information Vendor Name FIBERXON INC Vendor Part Number FTM 31250 L40 Fiber Type Single Tx Wave Length 1310 nm Rx Wave Length 1310 nm Link Length 40 km Vendor Hame CTC UNION Vendor Part Number SFS 7020 L31 A Fiber Type Single Tx Wave Length 1310 nm Rx Wave Length 1310 nm Link Length 20 km Digital Diagnostic Tx Power 01 dBm l Rx Power 03 dBm Examples of SFP without and with DD function Rx Sensitivity 00 dBm Temperature 49 degree C Power Margin 0 dB Fower Loss 0 dB Port Active Auto Laser Shutdown ALS Disable Operation Mode Loopback Test Off kd Link Fault Pass Throug
113. al The actual mechanism uses egress with pause flow control at both ports of the switch Flow control allows reasonable bandwidth control of layer 7 applications FTP WEB etc without dropping packets Appendix A A 3 2 Block Diagram of 10 1001 2E es da 12VDC J H e RS485 driver MII a x E Switch pP Ss E s o ME For reference only 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 Chassis ID 00 Cascaded Yes Monitored Chassis ID 00 SLOT 09 gt Local Ver 1 100 1 001 0 000 0 000 lt 1 gt Port Active lt 2 gt UTP 1 Information and Settings lt 3 gt UIP 2 Information and Settings FX Link Up FEF Off Remote PWR OK lt 4 gt Operation Mode Switch lt 35 gt Link Fault Pass Through LFP I lt 6 gt Auto Laser Shutdown ALS NN lt gt In Band Management Enable lt 8 gt Send Remote Hardware Reset lt gt Port Reset lt A gt Set to default Small Form Pluggable SFP No Digital Diagnostic D D No lt D gt Go to Line Card Status menu lt N gt Go to the Remote menu Please select an item The chassis ID in a stacked set is shown on the first line The next line shows the slot number card type location and version In this example the card s hardware version 1s 1 100 and the firmware version is 1 001 lt 1 gt When
114. al Port Mode This sets the electrical interface to RS 422 4 wire RS 485 2 wire or RS 232 3 or 5 wire lt 3 gt Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Optical port lt 4 gt Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt 5 gt Set to Default This action will return the Serial card to factory default settings lt D gt Go to Line Card Status menu If an SFP is installed for optical the information can be viewed here See next page lt N gt Go to the Remote menu This device supports remote in band management via Embedded Operations Channel Line Card Status SLOT 10 gt FRM220 SERIAL Local L Vers 100 L 010 L 030 0 000 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 naa FIBERXON INC FTM 3125C L40 Single 1310nm Nm 40km 01dBm 04dBm 102 Appendix A A 9 6 Provisioning by NMC Web RS AA A A A Local FERTZ20 5ER14 L 1 100 1 010 1 030 0 000 FX Information Link Signal FEF SFP D D Up Yes Detected Yes Yes Port Active Enable Auto Laser Shutdown ALS Disable Serial Port Information Data In eee eee Data Out DO eee eee Mark Seria
115. al emulation software The ACT LED will flash once per second when the NMC has successfully booted and is running The STK LED will always be lit on the master chassis If multiple chassis are cascaded the slave NMC cards will have the STK stack LED lit if the stack connection is normal STK LED will be off if the link to upstream chassis is broken The LAN connector is an RJ 45 designed for direct connection to either a HUB or DTE device auto MDIX supported The interface supports 10 100Base Ethernet auto negotiation The LNK LED will light to indicate the Ethernet has a successful link and flash when there is activity on the Ethernet The 100 LED will light to indicate the Ethernet connection speed is 100M and will be off if the connected speed is 10M A unique feature of the NMC the system can restore all the previous settings in case some unexpected event occurs such as the sudden power loss After power is restored all the settings will be restored to each line card and remote units that apply 13 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
116. and the forth field the FPGA version where applicable The 10 1001 has no CPLD or FPGA so those fields are shown as zeros A 1 4 2 FX Information The FX Information shows the current state and settings of the optical interface of the media converter Link This field represents the fiber link state either Up or Down Rx Active This field shows whether or not there is transmission activity on the receive fiber With a connected pair and In Band Management enabled this will be On FEF FEF or Far End Fault uses a combination of standard IEEE802 3u and OAM to detect faults originating from the remote or far end unit If the remote has LLF enabled and its UTP link goes down the local side will receive the FEF code and FEF will be On If the remote unit is powered off the local will also receive FEF code as well as dying gasp see Remote PWR Remote PWR In a normal link this field will have a status of Ok If a remote converter experiences a power failure it will issue a FEF in what is commonly referred to as dying gasp to the local unit In this case the administrator will be able to distinguish between a fiber down from broken fiber or fiber down because of remote power failure LB Status The loop back function of this converter uses OAM and an echoed pattern to test the transmission connection and quality By using only the OAM frames the loop back functions runs non intrusively without affecting any normal tr
117. assis in the cascade group Using only one IP address and one single point of management up to 10 chassis ID 0 9 can be managed Language The NMC currently supports four different language interfaces English Simplified Chinese Traditional Chinese and Japanese user interfaces If a user has never logged into the FRM220 before he will be presented with the default language that follows the operating system For example if a Simplified Chinese PC opens a browser and connects to the FRM220 the user interface displayed will be Simple Chinese If any other language is selected that selection choice is recorded in a cookie The next time the browser opens the FRM220 web page for management the cookie information is retrieved and the selected language interface will be displayed The language can again be switch and the cookie will be modified If cookies are deleted the behavior returns to the initial case where the language interface of the FRM220 follows the default operating system language 28 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 amp time setting and parameter management Serial Number MAC Address FRBA220 00000 00 02 4B 0D 64 FC System Information Target IP 59 125 162 252 Netmask 255 255 255 240 Gateway IP 59 125 162 241 Target Name FRM220 TFTP Server
118. ata Port Loop Back Functions LLB Local loopback lt lt Local Side Remote Side RLB Remote loopback lt _ Local Side Remote Side RRLB Request Remote lt lt loopback Local Side Remote Side Fiber Loop Back Functions 95 Appendix A A 8 6 Provisioning by NMC Web AAA A O Local FRIVZ20 DLATA PORT 1 000 1 050 1 010 0 000 FX Information Link Signal FEF SFP DID Up Yes HF Ho Ho Port Active Enable Auto Laser Shutdown Disable v Loop Back OFF hd DSR DTR RLB LLB TM ON OFF OFF OFF OFF TC Setting Mormal CTS RTS Setting Constantly ON v ETC Setting Normal DSR DTR Setting Constantly ON RC Setting Normal DCD Setting Constantly ON v DataPort Mode OCE Mode DataPort Interface 435 Ww Dataport Information _ _ _ _aae_ RD TD RTS CTS DCD OFF OFF OFF ON ON Transmit Timing Source Internal v Receive Data Rate amp Group Groupi 64k 2048k hd 2045K v Transmit Data Rate amp Group Groupi 64k 2046k hd 2046K v Function Key eee Dataport Receive amp Transmit E Timing Source Internal we 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 96 Appendix A A 8 7 Firmware Upgrade 1 From the System
119. ber 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 When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller the 155MS card is configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 ISSMS does NOT support in band management There are two variations of this media converter the 155MS converter with fixed optical transceiver or in an SFP version A 11 2 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 11 2 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 11 2 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Gra
120. ber switch utilizing SFP for 100Base TX 148800 per second 1000Base T 1488000 per second 1000Base SX LX fiber connections Copper TP cable 4 pair Cat 5e or 6 UTP and two 10 100 1000 Ethernet Optical Interface Specification electrical ports Transceiver Connector type SFP LC Supports 2 port 1000Mbps SFP slot Supports auto receive sensitivity function no extra attenuators needed General Specification Standards IEEE 802 3 10Base T IEEE 802 3u 100Base TX 100Base FX IEEE 802 3ab 802 3z 1000Base T 1000Base SX LX IEEE 802 3ah In band OAM management compliant 6 diagnostic LEDs Power FX Link TX Speed TX Duplex TX Link Test loopback Temperature 10 60 C Operating 20 70 C Storage Humidity 0 95 non condensing Operating 10 90 Storage Power DC Jack Switching adaptor 12V 1A Consumption lt 12W Dimensions 155mm x 88mm x 23mm LxWxH Weight 120g Compliance FCC part 15 Subpart B Class A ANSI C63 4 2003 CE EN55022 2006 Class A EN55024 1998 A1 2001 A2 2003 LVD EN60950 1 2001 MTBF 65 000 h 25 C 65 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
121. ck the Upgrade Line Card button 2 Select the card type radio button which in this case 1s the FRM220 10 1001 2E 3 Select the slot to update Selecting All Slots will upgrade all local and remote 10 1001 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Type FRM220 10 1001 and FMC 10 100 FRM220 SERIAL FRM220 DATAPORT FRM220 1000EDS and FRM220 1000ES 2F FRM220 10 10015 2 FRM220 3R 2 7G 2S and 3R 2 7G 3S FRM220 5E1 ET1005 FRM220 3R 10G S S SXIKX O MUX DEMUX FOM04 FPGA 2R 4G 28 35 FOM01 FPGA Slot Slot 06 Slot 07 Slot 11 Slot 12 Slot 16 Slot 17 Side Image File Name jon Key Uparade Slot 03 Slot 08 Slot 13 Slot 18 FRM220 FXO FXS FRM220 155MS FRM220 E1 T1 FRM220 1000ES 1 and 1000E 2F and FRM220 1000E 1 FRM220 1000TS and FRM220 1000T FRM220 5E1 ET100T FRM220 Eoe1 FRM220 3R 10G SS SX XX CDR FRM220 E1 DATA FRM220 FOM04 FRM220 FTEC FRM220 FOM01 10G SXX SXIXX Slot 04 Slot 05 Slot 09 Slot 10 Slot 14 Slot 15 Slot 19 Slot 20 Message from webpage 7 Click
122. conditions lt i gt By Fans gt active if any fan falls lt 2 gt By User 2 active if any user 2 definition is met lt 3 gt Active for Manual testing lt ESC gt 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 This alarm will only be off when one or both fans fail or are removed 2 This setting will take the user parameters and set the alarm according to failures in any parameters set under items 6 7 8 3 This selection will set the alarm for testing purposes The ALM2 LED will light and dry contact for Alarm 2 will close User Alarm Definitions Chassis X Power l X Power 2 X Fan l X Fan 2 Local X UTP_Link Down X FX_Link Down X FEF Detect X Remote Power Fail Remote X UTP_Link Down X FX_Link_ Down When alarm mode is set to User these definitions may be added to either User 1 or User 2 Any selected item that fails will cause alarm activation For chassis activated alarms the user may select individual power or fan combinations For locally generated alarms any copper fiber Far End Fault or Remote Power Failure can be selected only for cards that support dying gasp in any combination to generate an alarm on failure from installed cards For any remotely connected in band converters any copper fiber or Far End Fault may be used to trigger the alarm re
123. configure the FRM220 fiber media converter rack The management station may be attached directly to the FRM220 NMC card with an Ethernet cable Typically the workstation will be attached to a network s HUB or switch and the equipment to be managed may be connected to the same subnet or may be connected on a remote network that has access via a router to the local subnet Follow the procedures in Chapter 2 for configuring the NMC for TCP IP communication Once this is completed and the Ethernet port of the NMC is connected to your network the unit may be managed from any browser under any Operating System The examples that follow are done with Internet Explorer 8 running on XP 3 2 Web Based Management Operation 3 2 1 Introduction This section assumes that the Web Based management using a workstation as in section 1 and that the SNMP agent has been correctly configured as in section 2 This chapter will detail the operation of the web GUI in monitoring and controlling the FRM220 Platform Media Rack 3 2 2 Configuration 3 2 2 1 Start the Web Based application Start the application by opening a web browser application such as Internet Explorer or Firefox Enter the address of the FRM220 in the format http xxx xxx xxx xxx where xxx xxx xxx xxx IS the IP address of the NMC card A login username and password may or may not be required to enter the configuration The default username and password are not set initially In the example we have alr
124. dBm Rx Power Margin dB Temperature H42 degree C Power Loss O de 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 85 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Upgrade Mozilla Firefox http Frmz20 ctcou com Em fupgrade asprlanguage 0 O FRM220 1000EDS and FRM220 1000ES 2F O FRM220 10 10015 2 O FRM220 3R 2 7G 2S and 3R 2 7G 3S O FRM220 5E1 ET100S O FRM220 3R 10G SS SX XX O MUX DEMUX FRM220 10 1001 2E O FOMO4 FPGA O 2R 4G 2S 3S FOMO1 FPGA Se ES x Ea O FRM220 FXO FXS FRIM220 1000E 1 FRM220 1000TS and FRM220 1000T FRM220 5E1 ET100T O FRM220 Evel FRM220 3R 10G SS SX XX CDR
125. e n SLOTO2 _ keH J SLOT O4 ____ SLOTOS ___ STAGE Transmit to units SLOT O6 _ SLOTO __ SLOTO8 __ SLOTO9 ___ lo gi 1 Seg Slteyp ile P Suey ie 1 lo gi soris Step aed 1 epi 1 14 STE A SOTA A PE TAO A 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error Do not link to other web pages Do not close this page Do not insert or remove any cards during upgrade process 76 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 When the FRM220 E1 T1 card is placed in the FRM220 rack with NMC the local the card status type version fiber link status E1 or T1 link status and alarms can all be displayed as well as the remotely fiber connected E1 T1 via in band management Configuration is also available to enable or disable the port reset the port do far end fault setting and initiate local or far end loop back tests When configured in G 703 E1 mode this model also supports fractional E1 G 704 as well as remote connection to FRM220 Data V 35 RS 530 449 X 21 fiber modem for either unframed 2048Kbps or fractional nx64kbps where n 1 to 31 transmissions Features Network Management via Terminal web or SNMP in FRM220 chassis
126. e Switch Mode Auto Laser Shutdown 1 ALS1 Disable Auto Laser Shutdown 2 ALS2 Disable Link Baute Pass Tnrougi Ll LRP IDiIisable Link Fault Pass Through 1 LFP2Z Disable Device Active Use this to completely disable the device and stop all transmissions lt 2 gt Auto Laser Shutdown 1 ALS1 Enable ALS for Fiber port 1 Auto Laser Shutdown 2 ALS2 Enable ALS for Fiber Port 2 Link Fault Pass Through 1 LFP1 Enable LFP for UTP port 3 Link Fault Pass Through 1 LFP2 Enable LFP for UTP port 4 Operation Mode This toggles between 4 port switch mode and the Port VLAN mode lt 6 gt RMON IN OUT Counters Information lt T gt Clear all RMON Counters lt lt lt RMON In Out Counters gt gt gt Fiber Fiber Fiber Fiber UTP UTP We UTE 1 In 1 Out Z Ai Z OU In QUE In lt 8 gt Device Reset This function will reset the switch and will cause some traffic loss until the unit recovers lt 9 gt Set to Default This will return the unit to factory default settings 73 Appendix A A 6 6 Provisioning by NMC Web ROSS A YE DIS Ee Local FRIW220 1000ED3 1200 1 600 0 000 0 000 Port Active Enable w Rate Limit Mode Unlimited w Ingress Rate Limit Disable w Egress Rate Limit Disable w Fiber A Link FEF Remote PWR Speed SFP D D Up OF OK 1000741 Yes Ho Port Active Enable w Rate Limit Mode Unlimited v Ingress Rate Limit Disable Egress
127. e 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 1t into the cage A 26 3 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 26 2 Bale Clasp type SFP with bale open 161 Appendix A A 26 4 Provision by DIP Stand alone FSW103 has no DIP All provisioning stand alone must be done through serial console when placed in CHO1M chassis A 26 5 Provision by Console Management Place FSW103 in a CHO1M and connect serial console cable Set terminal for 38 4K 8 N 1 and no flow control KKEKKKKKKKKKKKKRKKKKRKKKKRKKKKRKKKKKKKKKKKKEKK AGE wee UNT ON TECHNOLOGIES COs LTD FEF FRM220A FSW103 Manager Ver 1 0 KKEKKKKKKKKKKKKRKKKKRKKKKRKKKKKRKKKKKKKKKKKKK Vers Ona ds 00 2000 0 000 0 2000 LAN 1 Service On Link Up Negotiation speed Status Duplex Status LAN 2 Service Link Negotiation speed Status Duplex Status LAN 3 Service On Negotiation Auto Speed VOO Status Duplex Full Status Device Status and Configuration Fiber Status and Configuration Setting Password Link Operation Select any of the menu items by keying in the menu item number or letter Use the ESC to return to a previous menu Any
128. e PWR OK lt 4 gt Operation Mode lt 5 gt Link Fault Pass Through LEFF I lt 6 gt Auto Laser Shutdown ALS lt 7 gt In Band Management Enable lt 8 gt Accept Remote Hardware Reset Disable lt 9 gt Port Reset lt A gt Set to default Small Form Pluggable SFP No Digital Diagnostic D D No lt D gt Go to Line Card Status menu lt N gt Go to the Local menu Please select an item When managing the remote converter the port cannot be disabled To do so would put it to sleep forever as it cannot be awoken by any OAM command once the fiber is down Therefore no port disable option is provided in the remote It really is no problem as you can always disable the link from the CO side which is preferred anyway A 3 4 FRM220 10 100i 2E Web Based Configuration Physical Slot number in CH20 gt Card Model gt Card Active when lit gt Card is in VLAN mode gt Link Fault Pass thru is enabled gt Fiber is linked when lit gt Port 1 UTP is linked if lit gt Ethernet speed is 100M if lit gt Port 2 UTP is linked if lit gt Ethernet speed is 100M if lit gt The above graphic represents a single slot in the FRM220 The entire chassis with all slots will be displayed in the Local Display view Double click on any slot to go to the management page for that particular converter card A 3 4 1 Header The header information shows the current chassis ID Slot Side Type and Version
129. e conversion between 10 100 1000Base TX and 1000Base SX LX with SFP LC connector With SNMP agent and GUI Web based management in the FRM220 the Network administrator can monitor configure and control the activity of each 802 3ah series line card This 802 3ah OAM Compliant media converter with its Q in Q and maximum interoperability will enable carriers and service provider to have a clear vision of their network and conveniently manage their demarcation point Features 802 3ah In band OAM management compliant 2 ports 10 100 1000Base T and 2 ports GbE fiber SFP Supports Flow control function Supports OAM remote loopback Supports spanning tree function Supports bandwidth control Supports Dying Gasp Reporting for power outage Supports local remote monitor Supports local remote Configuration Supports Q in Q double tagged frame transparent Supports remote F W upgrade In band Supports IEEE 802 1q Tag VLAN pass thru and port base VLAN Provides fiber transceiver information for management Compatible with FRM220 Managed Chassis Fiber SFP LC Type LED ndicators 10 100 1000 Ethernet LAN Interface Specification Two RJ 45 female connectors for straight or cross over connection Supports 2 port 10 100 1000Base n way Auto Negotiation 1000EAS is a stand alone Supports Full Half duplex 10 100 1000 speed force mode selections manageable 4 port Gigabit Ethernet Transmission Packet Rate for 10Base T 14880 per second fi
130. e converter Line Side Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Line Side Optical port Client Side Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Client Optical port Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt B gt Set to default This returns all settings to factory default lt C gt Line Side SFP If an SFP is installed for optical the information can be viewed here See below lt D gt Client Side SFP If an SFP is installed for optical the information can be viewed here See below Line Side SFP Status SLOT 10 gt FRM220 3R 10G SS Local Ver 1 100 2 007 1 100 0 000 Vendor Name Vendor Part Number Fiber Type Wave Length Wave Length 2 Link Length Tx Power ci 07dBm Al a al Rx Power Temperature Rx Sensitivity Power Margin FIBERXON INC FIM 3125C0 L40 Single 1310nm 1310nm 0040km Li 08dBm LI bed bed bd bed bed LI A VE 129 Appendix A A 14 5 Provisioning by NMC Web a sto Sie Type Version 00 10 Local FRIV220 SR10G 35 1100 2 007 1 100 0 000 FX Information CDR Lock Tx Fail Locked N ormal Locked Normal Fx1 Loopback Test OFF Fx2 Loopback Test OFF Fx Loss Propagation Disable w Fx2 Loss Propagation Disable Fx Auto Laser
131. eady set a user as admin through the console Connect to 559 125 167 257 The server 59 125 162 252 at FRM220 requires a username and password User name f admin Password Remember my password Figure 3 1 Web manager login After a successful login the home page for the rack will be displayed All card inventory and LED status are shown in near real time Note CTC Union has an online demo unit placed on a public IP and answerable by DNS We hope this demo will help our resellers to promote our product End users may also find that evaluating our unit could lead to a decision to purchase our product We are also trusting everyone to behave and not corrupt our demo unit or place any graffiti on it http frm220 ctcu com tw No password is required 2l 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 FRM220 SERIES Windows Internet Explores Line Cards Slots 2 20 Ele fx mA F e http 59 125 162 252findex asp o A Pir File Edit View Favorites Tools Help yy Favorites 3FRm220 SERIES fy 7 eh Page Safety Tools A 06 08 09 10 j Mi 222 333 444 FC Pesona TESTI union A 0 a Y aC ae a gt e a gt
132. ed 1000 Rx Active Off Remote Power Ok Rate Limit Mode Unlimited Ingress Rate Limit Disable Egress Rate Limit Disable Small Form Pluggable SFP Yes Digital Diagnostic D D No Go to the Line Card Status lt 1 gt Port Active The port can be disabled so that no traffic will pass The default is with port enabled lt 2 gt Rate Limit Mode Used in conjunction with IRL and ERL settings this item enables or disables rate limiting lt 3 gt IRL or ingress rate limit provides pre set limits to incoming packets Must be enabled with item 2 lt 4 gt ERL or egress rate limit provides pre set limits to outgoing packets Must be enabled with item 2 Ingress Rate Limit lt gt Disable lt 1 gt 2 250M lt o2 2 31M Jee 20M lt C gt i6M lt D gt 4M lt I gt 896K lt J gt 2 832K lt O gt 2 524K lt P gt 448K SUS tL ao V gt 3 TOR FIBERXON INC FTM 3125C L40 Single 1310nm 1M 0040km 01dBm Vendor Name Vendor Part Number Fiber Type Wave Length Wave Length 2 Link Length Tx Power Rx Power Temperature Rx Sensitivity Power Margin Power Loss ee ee ee ee ee ee ee ee ee ee ee NA M5 es es es PT es ee es Pr 1 lt 3 gt UTP 3 Displays information and settings for Port 3 UTP lt 4 gt UTP 4 Displays information and settings for Port 4 UTP lt lt lt UTE 3 Enrormelion gt gt gt lt 1 gt Port Active Enable Link Down
133. ed with a different type media converter in the same slot the NMC will recognize that the card has been changed with different type converter and will upload the factory default for that card 11 Chapter 1 Introduction 1 4 6 NMC LED Indicators Indication PWRI1 Green Indicates that the No 1 power module is correctly providing power No power from No 1 power module or not installed PWR2 Green Indicates that the No 2 power module is correctly providing power No power from No 2 power module or not installed FANI Green Indicates that the No 1 cooling fan is operating correctly K OFF No cooling fan is not working or not installed FAN2 Indicates that the No 2 cooling fan 1s operating correctly OFF No 2 cooling fan is not working or not installed ALM1 Alarm 1 is active OFF Alarm 1 is inactive Alarm 2 is active OFF Alarm 2 is inactive NMC is IDO or it is slave with good connection to master OFF NMC is slave ID1 9 with no connection to master ACT NMC kernel is booting or has hung Blink NMC kernel has booted and running normally OFF NMC kernel O LAN port has link at 100M speed OFF LAN port has no link or the link speed is 10M O LAN port has good Ethernet link OFF LAN port has no link LAN port has Ethernet link and activity ALM2 STK 1 5 FRM220 Application The FRM220 is an excellent choice for complimenting fiber infrastructure in Metro LAN campus corporate buildings factories or in FTTx
134. eight 120g Compliance FCC part 15 Subpart B Class A ANSI C63 4 2003 CE EN55022 2006 Class A EN55024 1998 A1 2001 A2 2003 LVD EN60950 1 2001 MTBF 65 000 h 25 C This product includes the following models e FRM220 10 100AS 2 2 electrical plus 2 SFP 4 port fiber switch e FRM220 10 100A 2 electrical plus 1 fixed transceiver 3 port fiber switch 62 Appendix A A 4 1 Specifications Optical Interface Connector SFP cage depending on model Optical rate 125Mb s u Duplex mode Full duplex m Fiber MM 50 125um 62 5 125um SM 9 125um depending on SFP m Distance MM 550M 2KM SM 15 30 50 80 120KM depending on SFP Wavelength Depends on SFP and model Electrical Interface Connector RJ 45 x 2 a Data Rates 10Mbps 100Mbps Duplex Full or Half Duplex m Cable 10Base T Cat 3 4 5 5e UTP m 100Base TX Cat 5 5e or higher Standards IEEE802 3 802 3u 802 3ah 802 3x Maximum MTU Indications 802 1D 802 1p 802 1Q 802 lad RFC 4330 SNTP 1536 bytes LED PWR Fiber 1 amp 2 Link Test UTP 3 amp 4 Link UTP 3 amp 4 Speed Power Card supports hot swapping m Input Card 12VDC Standalone AC DC options Consumption lt 8W Dimensions 155 x 88 x 23mm D x W x H Weight 120g Temperature 0 50 C Operating 10 70 C Storage Humidity 10 90 non condensing Certification CE EMC LVD FCC RoHS MTBF 75000 hrs 25 C A 4 2 Management Features The FRM220 10 100AS
135. ent needs its own IP address b The SNMP card needs to know the IP address of the management workstation c The community string must be set d The SNMP card s subnet mask can be set Step One Agent Configuration Process From the main menu type L lt lt SNMP System Configuration Setup of Chassis 0 gt gt Model NMC S N 000000 Target MAC Address U0P02Z sab20d 6427 lt l gt Target IP rg e ara i ot aan lap lt 2 gt Target Netmask 1955 955 556 0 These are the default TCP IP settings lt 3 gt Target Gateway E 192 168 1 2594 You can directly connect by web lt 4 gt Target Name FRM220 browser if you have configured your Ese TIP Server TP 1197 168 1 100 Ethernet connected PC for this subnet lt 6 gt TFTP Download Kernel gt kernel14622 gz lt gt TFTP Download File System romfs323 gz lt 8 gt Load default settings and write to system lt 9 gt Do TFTP and Flash Kernel function lt A gt Do TFTP and Flash File System function lt T gt Adjust Date and Time lt U gt Upgrade Line Card Menu lt ESC gt Write to system and go to previous menu Please select an item The following are descriptions of the function keys available and the actions which they perform Use this key to set the NMC card s IP address Use this key to set the NMC card s subnet mask Use this key to set the NMC card s default gateway Use this key to set the System Name Use this key to set the
136. er 1 000 1 080 L 020 0 000 FIBERXON INC FTM 31256 1540 Single 110mm 40km t0LdABm 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 ral ail El i a ail zM el al i al When an SFP with digital diagnostic is installed in the E1 T1 the DOM contents can be displayed 84 Appendix A A 7 6 Provisioning by NMC Web a INE AECI IET Local FRMZA20 ElFP1 1 OO0 1 020 1 020 0 000 FX Information Link Signal FEF SFP D D Dower Ho Or Yes Yes Port Active Enable we Auto Laser Shutdown Disable v Loop Back OFF E1 T1 Information RD TD TEST E1 T1 Signal Frame Syne ON OFF Hormal mignal Loss sync Loss Receive AIS Connector Type Ho RJ 48C El1 T1 Select El Line Code Setting HDB3 E1 Bo45 T1 Receive loss transmit AlS Enable Framer Setting COSIE1D41T1 CRC Setting Disable v A Fraction EITI Y Unused timeslot code 0x7E y Timing Source Recovery from E1 T1 recewe Y Active Rate 1024K e Start Timeslot e Key Set Parameters Port Reset Set ta Default Refresh Status SFP and D D Information Vendor Name FIBERZXOMN INC Vendor Part Number FTM 3125C L40 Fiber Type Single Wave Length 1310 nm Wave Length 2 fit Link Length 40 km Digital Diagnostic Tx Power H1 dBm Rx Power 40 dBm Rx Sensitivity
137. escribes what happens logically for any card fault and subsequent replacement 1 4 4 NMC card Fault and Replacement If the NMC card should develop a fault all media converter cards in the chassis will continue to run with their current configuration settings with no negative effect to any traffic The defective NMC may be pulled from the running chassis without affecting any other media converter card When a replacement NMC is inserted into the hot chassis it will boot and immediately recognize that it is booting into an already running hot chassis The TCP IP and SNMP settings will either be factory default if the card was not previously provisioned or the settings will reflect previous provisioning All provisioning settings from all the installed media converter cards and all remote media converters will be downloaded into the new NMC card and saved If any future system power off is experienced all previous settings are restored to each media converter card from the NMC When the NMC is rebooted hot swapped or upgraded it will not effect any running media converter card s transmissions in any way 1 4 5 Media Converter card Fault and Replacement If a media converter card develops a fault it may immediately be replaced with a spare media converter card of same type The new card will be loaded with exactly the same settings as the previous card from the provisioning settings stored in the NMC If a media converter card is replac
138. f these will result in the effected icon s LED blinking in RED 31 Chapter 3 Web Based Management 3 2 2 6 System Remote Area Remote rea 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 FIMC T001 FIVNIC 3001 FMC 700 F 0 Power DATAPORT p EN i t a t p or un 15232 Act Power 4 or Li 52 Teal i i E Lik a qd Peon d GLS i J L mm T CHi Lit 2 P Spec i 17D gt CHi Tesi ak iTS d b RTS 8 cro ue a CH Tesi cH una D CH3 Tesi a CH4 Link bD CHI Test REMOTE 3 2 2 7 System Overview Area Overview Areg a The Overview Area will give a quick link alarm indication of every card in all 10 managed chassis of a cascaded system lf there is no link to a remote no LED will be displayed A RED LED indicates an alarm for that card or remote Local Area Remote Area ss s c chassis 0 ET a ee oe 12 13 14 A se 4 se 4 Chassis 1 Chassis 2 Chassis 3 Chassis 4 Chassis 5 Chassis 6 Chassis 7 Chassis 8 Chassis 9 32 Chapter 3 Web Based Management 3 2 2 8 System Properties The Properties page allows setting naming information for each local and remote
139. fault This action will return the DATA card to factory default settings lt D gt Go to Line Card Status menu If an SFP is installed for optical the information can be viewed here See next page lt N gt Go to the Remote menu This device supports remote in band management via Embedded Operations Channel Receive Side Setting Menu Receive Side Setting lt 0 gt Receive Data Rate amp Group Groupl 256K lt 1 gt Receive Timing Source Recovery from remote transmit Side Select the group rate and timing source for the receive clock Transmit Side Setting Menu Transmit Side Setting lt 0 gt Transmit Data Rate amp Group Groupl 256K lt 1 gt Transmit Timing Source Same as Receive Timing Source Select the group rate and timing source for the transmit clock 94 Appendix A Data Port Control Settings Menu Data Port Control Setting lt 0 gt DSR DTR output setting Constantly ON P lt L gt E TC polarity settino Normal lt 2 gt CTS RTS output setting Constantly ON ILSS2 TC polarity setti1ino Norma lt 4 gt DCD output setting Constantly ON lt 5 gt RC polarity setting Normal Data Port and Fiber Loop Back Here is a review of the loop back functions available for the DATA line card 0 LLB Local A loopback lt M Local Side Remote Side 0 RLB Remote 0 loopback t Local Side Remote Side 0 RRLB Request 0 Remote lt lt 1 k PES Local Side Remote Side D
140. fields are shown as zeros A 3 4 2 FX Information The FX Information shows the current state and settings of the optical interface of the media converter Link FEI Remote PWR Up Of OK No No Link This field represents the fiber link state either Up or Down FEF FEF or Far End Fault uses a combination of standard IEEE802 3u and OAM to detect faults originating from the remote or far end unit If the remote has LLF enabled and its UTP link goes down the local side will receive the FEF code and FEF will be On If the remote unit is powered off the local will also receive FEF code as well as dying gasp see Remote PWR Remote PWR In a normal link this field will have a status of Ok If a remote converter experiences a power failure it will issue a FEF in what is commonly referred to as dying gasp to the local unit In this case the administrator will be able to distinguish between a fiber down from broken fiber or fiber down because of remote power failure SFP This field will be No if the converter is using a standard fixed 1x9 transceiver and will be Yes if the converter uses an SFP for optical connection FRM220 10 100iS model 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 p
141. firewall If the NMC is on a public network and the manager workstation is behind a NAT firewall then there is no way for traps to reach the manager the firewall will block them The alternative is to setup port forwarding on the network s firewall so that the traps on UDP port 162 are redirected to the internal SNMP management workstation 40 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 Please refer to Chapters 283 for details on the upgrade method and procedures for operating the FRM220 NMC A 1 FRM220 10 1001 In band managed 10 100 Fiber Media Converter The FRM 10 100i in band converter is an 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 When the FRM 10 100i is placed in the FRM220 with NMC the settings are controlled by the chassis management system The remote FRM 10 100i stand alone may also be configured from the FRM220 through the in band management
142. for management Supports On Line In band F W upgrade local or remote by the SNMP manager in FRM220 Features T e Supports Loop Back Test 10 1001 e Auto Cross over for MDI MDIX in TP port a4 e Supports far end fault FEF function via OAM 3 7 e Auto Negotiation or Manual mode in TP port IES Fib r e Supports link fault pass through LFP function E 29 a SC Type e Bandwidth control 32K or 512Kbps x N CPU A ig e Forward 2046 bytes max packets in switch mode Chip Pa LED e Supports optional Tag Based VLAN mode ak Ea e Supports local or remote In band management Monitor and i E le pm Configure status by the SNMP manager in FRM220 a A a e Supports remote CPE power fail detection Dying gasp a o El e Provides Auto Laser Shutdown ALS function H via Pi pga Us hi Sha a 10 1001 2E is a media converter that must be placed in FRM220 CH20 for management It utilizes fixed transceiver for 100Base FX fiber connection and two 10 100 Ethernet electrical ports Specifications Complies with IEEE 802 3 and IEEE 802 3u 288kb packet buffer in switch mode 1K MAC address table in switch mode Supports IEEE802 3x flow control in switch mode OAM is based on TS 1000 protocol 10Base T UTP Cable Requirement Cable type Category 3 4 or 5 Maximum distance 100 meters 328 feet 100Base TX UTP Cable Requirement Cable type Category 5 minimum Maximum distance 100 meters 328 feet A 3 1 Functional Details Managemen
143. g by DIP Stand alone There is one DIP Switch installed on the PCBA of the Serial FIBER 6 PIN Switch 1 provides the interface setting termination and pull up down for RS 485 101 Appendix A Switch 1 settings DIP SW NO SW State Function 1 2 OFF OFF RS 4224Wire ON OFF RS 4852 Wire gt OFF ON RS 232 with RTS CTS 5 Wire ON ON RS 232 3 Wire RS 485 RS 422 Receive B 1K ohm pull down OFF NN LORE RS 485 RS 422 Receive A 1K ohm pull up OFF RS 485 RS 422 Receive A 1K ohm pull up ON A 9 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 S This SLOT lt 1 gt NMP Chassis ID 00 Cascaded Yes Monitored Chassis ID 00 10 gt FRM220 SERIAL Local I Vert 100 1 010 1 030 0 000 gt Port Active Enable Data In DI Status Mark Data Out DO Status Mark FX Link lt Up J FX Signal Yes FX FRE Detected Serial Port Mode RS 422 Auto Laser Shutdown ALS Disable Port Reset Set to Default Small Form Pluggable SFP Yes Digital Diagnostic D D Yes Go to Line Card Status menu Go to the Remote menu lt 1 gt Port Active Use this item to enable or disable the line card When disabled all transmission will be blocked and all the line card LED indicators will be Off lt 2 gt Seri
144. gt gt Empty lt lt G Slot 16 gt gt 10 100 Base lt lt Command Function Key LE tO Cono TAL TO tG T70 taras Setting P Show Fans and Powers Status R Refresh Status ESC Logout M Manager Configuration Setup S System Configuration and TFTP Setup Console On line Telnet Off line GUI Off line This completes the NMC upgrade procedure Note When CTC Union releases an update a package will be generated that includes all required code the TFTP server application a detailed upgrade procedure in PDF format specifically for the release and a release notice listing the fixes or added features of the firmware Latest packages may be found on our support Web site http support ctcu com and are available to registered members registration is free This completes the basic chassis provisioning for the FRM220 2U 20 slot Platform Media Converter Rack through serial console You will find provisioning and use of the web interface in the next chapter Chapter 3 Specific configuration for line cards are located in the Appendix starting with the first release line card the FRM220 10 100i in band managed Fast Ethernet fiber media converter 25 Chapter 2 Provisioning This page left blank intentionally 26 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
145. h LFP Disable In Band Management Enable v 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 Operation Mode This pull down chooses between switch mode and converter mode When the media converter 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 media converter s chip supports forwarding IEEE802 3x pause frames In switch mode the MC operates with a store forward method that supports a 1K MAC address table The UTP side may be 10 or 100 speed and in full or half duplex while the fiber side runs in 100Base full duplex In converter mode the MC operates with low latency The transmission does not wait until the entire frame is received but instead it forwards the received data immediately Both transceivers UTP and Fiber in the MC are interconnected via the OAM Operation Administration and Maintenance engine while the internal switch engine and data buffer are not used The MC
146. he 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 Click the NMC Reboot button Upgrading or rebooting the NMC will not affect any card transmissions Cards can also be upgraded online Click the Upgrade Line Card button More details are in the appendix for each particular card The update image for the card must also be on the TFTP server a 3 2 2 5 System Local Area i Local Area will display a graphic representation of all the cards inserted in the chassis and the real time status of all LEDs this display is also the default Home page of the web interface Link states are shown with green LEDs Flashing LEDs also indicate that there is traffic on the interface Alarm LEDs are shown in RED When any loop back test is being performed the LB Test LED will also be shown in RED When a Power LED is not lit it indicates that this converter has been disabled through software You can click on any card and be taken directly to its management page Please refer to Appendix A for all the detailed operation of the individual cards 100 001 TOOOEDS p p Power 7 D Fieri imk LOCAL Refresh j TI bee FANT j DC Power1 En AC Power AE FAN The graphic indicators at the bottom of the display show the real time status of the two Power Modules and the two chassis fans An error in any o
147. he System settings need to be correct see Chapter 2 settings There are two image files for the 1OG SS one is the firmware the other is the CDR code Upgrade the firmware first and then upgrade the CDR if required 6 Click the Upgrade button to start the update Upgrade Mozilla Firefox http i Fro220 ckhcu com tmfupagrade aspelanguage 0 Type FRM220 10 1001 and FMC 10 1001 FRM220 SERIAL FRM220 DATAPORT O FRM220 1000EDS and FRM220 1000ES 2F O FRM220 10 10015 2 O FRM220 3R 2 7G 2S and 3R 2 7G 3S FRM220 5E1 ET100S FRM220 3R 10G SS SX XX ak FRM220 FXO FXS FRM220 155MS FRM220 E1 T1 FRM220 1000ES 1 and 1000E 2F and FRIM220 7000E 1 FRM220 1000TS and FRM220 1000T FRM220 5E1 ET100T O FRM220 Eoe1 O FRM220 3R 10G SS SX XX CDR FRM220 E1 DATA FRM220 FOM04 O FRM220 FTEC O FRM220 FOM01 O 10G SXX SX XX O MUX DEMUX FRM220 10 7001 2E FOMO4 FPGA O 2R 4G 2S 3S O FOMO FPGA Slot OAI Slots Slot 02 Slot 03 Slot 06 Slot 07 Slot 08 Slot 11 Slot 12 Slot 13 Slot 16 Slot 17 Slot 18 Remote Remote B Image File Name 3R10G_v2007 bin Key Side Local Upgrade i 4 131 Slot 04 Slot 05 O stot 0s Slot 14 Slot 15 Slot 19 Slot 20 Appendix A p 7 ae Click the OK button to confirm The page at http frm220 ctcu com tw says y Type FRM220 1000ED5 and FRM220 1000E5 2F Slo
148. he NMC is able to restore parameters from a previously saved parameter file From the pull down it is also able to take the parameter settings saved of one card and place them to all other cards in the chassis of the same type Lastly 1f checked the parameter is able to be taken from a saved parameter file and restored to a specifically selected local or remote slot Save Parameters The NMC is able to save all cards parameters to a single file or it can choose a single card slot to save just that card s parameters to an exported file Copy Parameters The copy parameters dialogue allows copying once card s settings to all other cards of same type or the settings can be copied to a selected group of cards through check boxes Save amp Restore System Parameters This function will backup all vital settings of the chassis with the exception of the Target IP subnet mask gateway and target name It will backup all other system settings such as aliases NTP SNMP and Syslog server settings It does NOT specifically backup any other card settings only the system settings related to the NMC itself 30 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 t
149. hondincme tenn cane 27 IZZA ODDA OM dai a tbieninmaaciaes 27 32 2 Start the Web Based app heao a a estee 21 A Home Pagese RO 28 E PODA RS Mo Y Se MOa Oaa CORDONES E E E E E A E 29 5222 4 Update Kemekand Bile 5 SM E 31 E POLA SY SLCMI LOCA ATCA SERRA ROOM DIOS REO owe teas eer oiler este 6 pau shea etl ar EE E EA 31 SPP SNE O o EA AAA E A EE ison Es awe Oras demon eeasicieses 32 Die S EM OVE EN ATE AA o E T E ET 32 AN PTODE A cee ea E o a ane ee necktie 33 O A SNM PE CSS Se E 34 53210 SNMP Chassis A M AMA A E 37 A SINIVI FEMS ANMC a O ta reese daa 37 SN SS o e Ree eC Pe ee Pr ee ne er 38 Chapter TT OWOSSO iin Ss a ia te a A A esl leaden awe alone hata 39 A ACTING LW Ol ke EMS a Es 39 IN LS Agent AAA S O A a R 39 Ald Review NA A AO iaa 40 Appendix A FRM220 Cards Opus ias 41 A NN 41 A 1 FRM220 10 1001 In band managed 10 100 Fiber Media Converter cccccccccconnnnnoncnnnnnnnnnnnnnnonononnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnos 41 ALL Fonciona DS o a 41 WA Block Diastam of OO oi 44 AA EERNM220 10 1001 Console Conie urato cesar e angers et au armcente oat 44 AA FRM220210 1 001 Web Based Configurations id 45 A 2 FRM220 10 10015 2 Dual Channel In band managed 10 100 Fiber Media Converter cccccceeeeeeeeeeeeeeeeeeeeeeeeeees 51 A 3 FRM220 10 1001 2E In band managed 10 100 Fiber Media Converter ooooooonnnnnccnnnnnnnnnnononnnnnnnnnnnnonnnnnnnnnnnnnnnnnnnnnnnnnnnnnos 52 A O 52 Ao 2 Block Das ran OF 0 AAPP E AEE T 55 A3 ERM220
150. ht that can injure your eyes Never look into an optical fiber or connector port Always assume that fiber optic cables are connected to a laser light source 160 Appendix A A 26 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 When placed in a managed chassis all functions are controlled from the management card in the chassis Any settings previously done in stand alone are overridden by management card A 26 2 Panel UTP Ports FX Port E0LMS4 LED Color State Status PWR Green On Power on Off Power off or device disabled Flash During firmware upgrade FX Green On Fiber port link Off Fiber port no link 100 Green On UTP port at 100M Off UTP port at 10M LNK Green On UTP port link Off UTP port no link Flash UTP port link and active A 26 3 Installation of SFP 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 26 3 1 Inserting a Bale Clasp SFP Module into th
151. imit Mode2 ERL2 Mo Limit n lo 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 IRL1 ERL1 2Mb 2Mb Ingress Rate Limit Mode1 IRL1 n 512K n 0 200 w n 4 Egress Rate Limit Model ERL 1 n 512K n 0 200 w n 4 58 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 UTP1 Information Link Speed Duplex Up 100M Full Negotiation Auto we VIDI Number 1 4094 10 UTP2 Information Link Down Negotiation Manual Speed 100M w Duplex Full w VID Number 1 4094 20 A 3 4 4 Function Keys Set Parameters This is the button used to actually set the parameters to the local or remote converter The Set Parameters button executes the changes while the Refresh Status button displays the new parameters from the local or remote converter Function Key _ gt Sel Parameters Por
152. inactive and all Ethernet traffic will be blocked lt 2 gt lt 3 gt lt 4 gt Control the auto negotiation n way and forced mode Ethernet settings lt 5 gt Performs an OAM loop back test non intrusive to client s transmitted data i e no traffic is blocked lt 6 gt Configures the MC between either switch mode store amp forward or converter mode jumbo frame support lt 7 gt Sets a rate limit on packets passing from UTP to Fiber in either multiples of 32K or 512K lt 8 gt Sets a rate limit on packets passing from Fiber to UTP in either multiples of 32K or 512K lt 9 gt Enables or disables the Link Fault Pass Through LFP function lt A gt Enables or disables the Auto Laser Shutdown ALS function lt B gt Send a hardware reset to remote unit via fiber must enable reception from the remote side first lt C gt Performs a reset on the local switch port lt D gt View the transceiver s digital diagnostics DD if available only for SFP modules that support DD function lt N gt Go to manage the remote via OAM lt ESC gt Escape back to previous menu 44 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 gt FRM220 10 1001 Remote Ver 1 100 1 279 0 000 0 000 Port Active Enable UTP Link Up Rx Active On lt a Negotiation Lori Speed 100 lt A gt Duplex Full FX Link Up Rx Active On FE
153. ing PWA LED The we mac fore 40 card wl stow Notice All of these settings except switch 6 are ignored if the card is placed in the FRM220 CH20 with NMC SNMP management The card will follow the settings done via the chassis management 149 Appendix A A 21 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 IDS 001 Cascaded Yes Monitored Chassis ID 001 SLOT 09 gt FRM220 2R 4G 3S Locali I Verele200 1 600 0 2000 0000 1 Line Status Us Primary Status Up d Secondary Status Up Line Tx Detect Normal Primary Tx Detect Normal Secondary Tx Detect Normal lt 1 gt Port Active Enable System Ok lt 2 gt Loopback Test Function Disable lt 3 gt Loss Propagation Disable lt 4 gt Line Side Auto Laser Shutdown gt Disable lt 5 gt Primary Side Auto Laser Shutdown Disable lt 6 gt Secondary Side Auto Laser Shutdown Disable lt 7 gt Optic Fiber Protection Semi Auto lt 8 gt Active Path Primary lt 9 gt Port Reset lt A gt Set to default lt D gt Go to Line Card Status menu lt ESC gt Go to previous menu Please select an item lt 1 gt Port Active Use this item to enable or disable the line card When disabled all transmission will be blocked and all the line card LED indicators will be Off lt 2 gt Loop Back
154. ink Down Broken remote 3 Fault condition sent via OAM to far end 53 Appendix A 3 Fault condition sent via OAM to far end i Local Rx fiber 2 FX Link Down gt 4 FEF Led Lit Broken local 1 fiber remote broken Remote Power 3 FEF LED lit 1 MC powered OFF Failure local 2 Fault condition sent remote via dying gasp LED Status Indicators LED Function State Status Power Power indicator On Converter has power Off Converter has no power or has been disabled Blinking Card is being upgraded VLAN VLAN mode On Indicates the media converter is set to Tag Based VLAN mode Off Normal switch mode FX Link Fiber link On The fiber link is ok Off No link or the link is faulty Blinking Receiving data on the fiber Txl Link Ethernet link On The UTP Port 1 link is ok Off No link or the link is faulty Blinking Receiving data on Ethernet Tx1 1OOM mode display On UTP Port 1 is operating in 100Mbps mode Off UTP is operating in 10Mbps mode or no link Tx2 Link Ethernet link On The UTP Port 2 link is ok Off No link or the link is faulty Blinking Receiving data on Ethernet Tx2 LOOM mode display On UTP Port 2 is operating in 100Mbps mode Off UTP is operating in 10Mbps mode or no link Bandwidth Control The bandwidth control in this converter is settable in granules of 32Kbps or 512Kbps In the user interface we define Ingress as traffic flowing from electrical to optical and Egress as flowing from optical to electric
155. ion Syslog Receiver IP 7 2 3 4 5 G i g item Facility Severity NMC Startup 0 Kernel messages e 1 Alert Ww NIC Restart O Kernel messages e 1 Alert Ww Chassis power 16 Local use 0 w 0 Emergency w Chassis Fan 16 Local use 0 td 0 Emergency w UTP down 17 Local use 1 2 Critical w FX down 17 Local use 1 2 Critical w FEF detected 17 Local use 1 2 Critical w Remote power fail 17 Local use 1 w 2 Critical w Card plug 17 Local use 1 w 2 Critical w Alarmi mode change to disable 10 Security authorization messages e 4 Warming k Alarm mode change to by power 10 Security authorization messages w 5 Notice w Alarmi mode change to by usert 10 Security authorization messages 5 Notice w Alarmi mode change to active 10 Security authorization messages e 5 Notice w Alarm2 mode change to disable 10 Security authorization messages ww 4 Warning s Alarm mode change to by power 10 Security authorization messages 5 Notice w Alarm mode change to by user 10 Security authorization messages w 5 Notice w Alarm mode change to active 10 Security authorization messages w 5 Notice w Restore parameters 10 Security authorization messages bl 4 Warning e Chassis stack out 0 Kernel messages e 1 Alert ww Log in 4 Security authorization messages e 5 Notice w Log in error 4 Security authorization messages ka 5 Notice ka Signal Loss 17 Local use 1 v 2 Critical we set Parameters Setto
156. isabled no condition will cause the Alarm 2 relay to close or become active When selecting the By Fans option the Alarm 2 relay will be closed on any single fan failure The By User 2 option gives any user selectable fault option to be assigned to the Alarm 2 relay The Active setting will close the Alarm 2 relay for testing purposes Set it back to any other mode after test Note The UTP remote UTP and Fiber link status monitoring and Remote Power Fail dying gasp only apply to OAM cards 10 1001 10 100A 1000EAS Signal loss only applies to the E1 T1 card Remote power failure only works with in band cards that support dying gasp 36 Chapter 3 Web Based Management 3 3 2 10 SNMP Chassis Manager Setup Manager Information Manager IP Community String Access iprivate O read only read write read only O read write read only read write read only read write read only read write read only read write read only read write cops D amp w BS a read only read write The manager IP can be default 192 168 0 100 or 192 168 0 0 24 format Trap Information Trap Receiver IP Community String iprivate 1 2 3 4 a 6 7 8 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
157. isio sto ide pe Version 0 10 Local FRIVZ20 SR2 70 35 1 100 1 009 1 100 0000 Fx Information Fx Auto Laser Shutdown Disable Fx2 Auto Laser Shutdown Disable Fx3 Auto Laser Shutdown Disable Device Information Device Active Enable v Loss Propagation Disable v Optic Fiber Protection OFF Active Path Primary Loopback Test Disable Baud Rate Gigabit Etherne Key r Set Parameters Port Reset Refresh Status SFP and D D Information Fiber Fiber2 Vendor Name FIBERZ N INC Vendor Name CTC UNION Vendor Part Number FTM 3125C L40 Vendor Part Number SES 7010 L317T Fiber Type Single Fiber Type Single Wave Length 1310 nm Wave Length 1310 nm Wave Length 2 fifth Wave Length 2 1310 nm Link Length 0040 km Link Length 0010 don Digital Diagnostic Tx Power Rx Power Rx Sensitivity Rx Power Margin Temperature H145 degree C Vendor Name CTC UNION Vendor Part Number SF5 7010 L31 7 Fiber Type Single Wave Length 1310 nm Wave Length 2 1310 nm Link Length 0010 km 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 123 Appendix A A 12 7 Firmware Upgrade 1 From the System menu click
158. ithout local or remote connection to FRM220 NMC management the two separate MC run with default parameters The default parameters are switch mode auto negotiation LFP disabled ALS Auto Laser Shutdown disabled and no bandwidth limit When a fully populated CH20 with 19 10 100iS 2 is deployed a total of 38 loops are available from the 2U FRM220 CH20 Due to dimension limitations the 10 100iS 2 is only available for SFP based fiber optics The management features for this card are identical to the 10 100i except that all functions are doubled on the dual independent channel card 51 Appendix A A 3 FRM220 10 1001 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 FRM 10 100i 2E is placed in the FRM220 with NMC the settings are controlled by the chassis management system The remote FRM 10 100i 2E stand alone may also be configured from the FRM220 through the in band management features OAM An optional console manageable single slot chassis the CHO1M is also available with DB9F connector for stand alone serial console management Supports Fiber Hardware Reset FHR function Provides fiber transceiver information
159. l TxPulseAmp 3 00V p p 120 ohm 2 73V p p 75 ohm Line code HDB3 Indications LED PWR Alarm Individual E1 status Link SD Ethernet Port 1 x RJ 45 Auto Negotiation Auto MDIX T model 1 x caged SFP 100Base FX S model VLAN IEEE802 1Q tagged VLAN support Maximum MTU 1916 bytes Ingress Egress Bandwidth control 32K to 100M nx32K granularity ol tat Titties H Hi nh appaga T na ge Lew 29 Wag aR ia piles 7 eit o GFP F per ITU T G 7041 LCAS Enabled or disabled Power Card supports hot swapping Input Card 12VDC Standalone AC DC options Consumption lt 6W Dimensions 155 x 88 x 23mm D x Wx H Weight 120g Temperature 0 50 C Operating 10 70 C Storage Humidity 10 90 non condensing Certification CE FCC LVD RoHS MTBF 65000 hrs 25 C Test Loops set from console El Remote and Request Remote Loop back BERT Integral 511 pattern generator set from console This product includes the following models FRM220A 5 8 16E1 ET100T 5E1 8E1 or 16E1 with RJ 45 LAN FRM220A 5 8 16E1 ET100S 5E1 8El or 16E1 with SFP LAN 134 Appendix A A 16 1 Functional Details The FRM220A nE1 ET100 are 5 8 or 16 El port inverse multiplexer cards with built in Bridge for the FRM220 220A Series Platform Media Converter Rack The multiplexers support bundling Unframed Els using GFP F Generic Framing Procedure Framed The clock source may be selected internally
160. l Port Mode RS 485 e Function oe SFP and D D Information Vendor Name FIBERZXON IHC Vendor Part Number FTI1 3125C L40 Fiber Type Single Wave Length 1310 run Wave Length 2 E ii Link Length 40 km Digital Diagnostic Tx Power Hil dBm Rx Power Hd dBm Rx Sensitivity dBm Rx Power Margin fle Temperature HI38 degree C Power Loss O dB 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 If a transceiver losses optical signal at its receive port it will turn off the transmitting laser 3 Serial Port Mode The interface can be selected from RS 422 4 wire Tx and Rx pair RS 485 2 wire Half Duplex RS 232 3 wire TD RD and SG or RS 232 5 wire TD RD SG plus handshaking In amp Out 103 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 1s 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
161. l other settings can be overridden by the NMC management 3 E1 T1 supports in band management A 7 2 Panel E1 T1R E1 T1R S E1B E1B S LED Indicators Figure A 7 1 Panel designations of FRM220 E1 T1 There are four variations of this media converter The E1 T1 with RJ 45 comes with either a fixed optical transceiver or in a version that supports pluggable SFP optics The E1 only with BNC also comes in either a fixed optical transceiver or in an SFP version 78 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 1t into the cage A 7 3 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 7 2 Bale Clasp type SFP with bale open A 7 4 Provisioning by DIP Stand alone There are three DIP Switches installed on the PCBA of the E1 T1 Switch 1 provides the E1 T1 settings for framing line coding CRC and clocking Switch 2 sets the number nx64 of assigned active timeslots while switch 3 configure
162. lay only for OAM managed converters Below is an example of user settings where Alarm 1 will be triggered by any chassis component failure power or fan At the same time Alarm 2 will be triggered if any local copper or fiber link Far End Fault or remote power has failure The system is designed to allow very flexible use of the two dry contact alarms through customized monitoring schemes KKKKKKKKKKKKKRKKKKRKKKKRKKKKRKKKKRKKKKKKKKKKK BR CTC UNION TECHNOLOGIES COsy LTD x FRM220 NMC VER 1 95 KKEKKKKKRK KKK KKK KKR KEK KKK KR KKK KKK KKK KKK KKK IKE This Chassis ID 00 Cascaded Yes Monitored Chassis ID 00 SLOT 01 gt NMC and Chassis Ver 1 00 1 95 12314 Power 1 Type Empty Status Fan l RPM 2910 Status OK Power 2 Type AC90 250V Status OK Fan 2 RPM 2940 Status OK Alarm l Status Inactive Alarmr2 Status Inactive lt io lt 2 gt User l E Local JUTP_Link_Down FX Link Down FEF Detect Remote Power Fail lt A gt Remote UTP_Link Down J FX Link Down lt gt lt 6 gt User 2 Chassis Power l Power 2 Fan 1 Fan 2 lt gt Dri Remote JUTP_Link_ Down TEX LINE Down for 2 OAM units only lt R gt Redundance Mode Disable 10 1001 Series only lt ESC gt Go to previous menu Please select an item Note When receiving traps via SNMP management Alarml is seen as Major Alarm while Alarm2 is seen as Minor Ala
163. ld 12314 romfs316 gz is a file system image for version 3 16 Kernel versions will change less often while file system versions will change more often 23 c Command Prompt Microsoft Windows KP Version 5 1 2600 lt C Copyright 1985 2661 Microsoft Corp C Documents and Settings ems gt ipconf ig Windows IP Configuration Ethernet adapter Local Area Connection Connection specific DNS Suffix IP Address 192 168 1 100 Subnet Mask gt 255 255 255 0 Default Gateway 172 24 1 254 C Documents and Settings ems gt ping 192 168 1 1 Pinging 192 168 1 1 with 32 bytes of data Reply from 192 168 1 1 bytes 32 time lt ims TTL 64 bytes 32 time lt ims TTL 64 1 1 bytes 32 time lt ims TTL 64 Reply from 192 168 1 1 bytes 32 time lt ims TTL 64 Ping statistics for 192 168 1 1 Packets Sent 4 Received 4 Lost z loss gt Approximate round trip times in milli seconds Minimum ms Maximum ms Average Gms C Documents and Settings ems gt _ G Ver_ 3 23 File Edit View Favorites Tools Help Q tek y Y Search E Folders Gi Address Q E 0C_DRIVE 220 NMC Ver_3 23 A i FRM220_NMC R2_v3 23_Upg FRM220 Logo 183 mib File and Folder Tasks 2 P POF Document adii OSEA ompi gt 421 KB Lompier 990 KB CJ Make a new Folder ER 3 Publish this Folder to 27 release_note txt romPs323 g2 the Web Text Document HE GZ File n El Share this folder oie TAN tftpd32 exe AA tftpd32 ini
164. le vw Auto Laser Shutdown ALS Disable Operation Mode Switch Link Fault Pass Through LFP Disable w In Band Management Enable w IRL1 ERL1 No Limit No Limit Ingress Rate Limit Modet IRL1 No Limit ha n 0 Egress Rate Limit Model ERL1 No Limit se n 0 IRL2 ERL2 No Limit No Limit Ingress Rate Limit Mode2 IRL2 No Limit we 0 Egress Rate Limit Mode ERL No Limit wo n UTP1 Information Link Speed Duplex Up 100M Full Negotiation Auto e WIDI Number 1 4094 10 UTP2 Information Link Down Negotiation Auto VID Number 1 4094 20 Function Key Set Parameters Remote HAY Reset Refresh Status 61 Appendix A A 4 FRM220 10 100A S 802 3ah OAM AP 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 3ah OAM compliant media converter with its Q in Q and maximum interoperability will enable carriers and service provides to have a clear vision of their network and conveniently manage their demarcation point Features 10 100Mbps auto negotiation or forced mode operation on the TP interface f Le Fiber 100Mbps Full E Supports Flow control function Fa F
165. mote B Image opacar Name GR27G1009 bin 261009 bin fe Key Upgrade Slot 04 O Slot 05 O Slot 09 O Slot 14 Slot 15 O Slot 19 O Slot 20 lt Appendix A bs bn ih Click the OK button to confirm The page at http frm220 ctcu com tw says u Type FRM220 1000EDS and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card i Cancel 8 Heed the warning messages Upgrade Status 0 View the success results WARNING The page at http frm220 ctcu com tw says lt lt esa Line Card Status gt gt 3 Local Side Do not link to other web pages SLOT O2 SLOT O3 __ SLOTO4 __ SLOTOS __ SLOT 06 ____ SLOT O7 __ SLOT O8 ___ SLOT 09 0K aris Ronis Ed SE i SLOT 14 L Do not close this page SLOT 18 ___ stoT19 __ SLOT20 ___ A Remote Side P SLOT O2 ___ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ SLOTO7 __ SLOTOS __ SLOTO9 __ SLOT 10 ___ SLOT 11 __ SLOT 12 __ SLOT13 ___ SLOT 14 ___ SLOT 15 __ SLOT 16 __ SLOT 17 ___ SLOT 18 ___ SLOT 19 __ sLOT20 ___ Remote B Side SLOT 02 ___ SLOT 03 __ SLOT 04 __ SLOTOS __ STAGE Transmit to units SLOTO6 _ SLOTO __ sLoOTO8S _ stOTO9 __ SOTO A SETA A SOTA A ESTATE A SOTA SOTA A ESTO TELE A ESTELA AA 14 SLOT18 __ SLOT19 __ SLOT 20 _
166. mote fiber Off Normal no fault condition FX Link Fiber link On The fiber link is ok Off No link or the link is faulty Blinking Receiving data on the fiber 100 mode display On UTP side is operating in 100Mbps mode Off UTP side is operating in 10Mbps mode Full mode display On UTP side full duplex mode 20 200mbps Off UTP side half duplex mode 10 100mbps Blinking Collision detected while in half duplex mode TX Link Ethernet link On The UTP link is ok Off No link or the link is faulty Blinking Receiving data on Ethernet Bandwidth Control The bandwidth control in this converter is settable in granules of 32Kbps or 512Kbps In the user interface we define Ingress as traffic flowing from electrical to optical and Egress as flowing from optical to electrical The actual mechanism uses egress with pause flow control at both ports of the switch Flow control allows reasonable bandwidth control of layer 7 applications FTP WEB etc without dropping packets The settings for bandwidth control should be refined to follow the below setting suggestions 1 Only use the Ingress setting and leave Egress set to unlimited 2 For two way bandwidth control set Ingress rate at CO side and at Remote side individually to attain 2 way bandwidth control Ingress Local Remote FRM220 FRM220 or 10 1001 FMC 10 1001 Ingress UTP Fiber UTP 43 Appendix A A 1 2 Block Diagram of 10 1001 es da 12VDC gt Ree E S uP LEDs 8 R
167. n card for CWDM wavelengths including 1470nm 1490nm 1590nm 1610nm and two upgrade ports for CWDM wavelength ranges of 1503nm 1577nm and 1260nm 1457nm The FRM220 MD80 UP01 is 8 channels MUX DEMUX modular design card for CWDM wavelengths including 1470nm 1490nm 1510nm 1530nm 1550nm 1570 1590 1610nm and one upgrade port for CWDM wavelength range of 1260nm 1457nm The MUX DEMUX cards provide the primary wave division and combination functions for CWDM Line side wave lengths require translation to client side equipment via a transponder card Features Full native mode performance Optical connectors LC UPC Passive model requires no power Protocol transparent no limitation Utilizes industry standard ITU CWDM wavelength High isolation WDM Low insertion loss Wide Operation wavelength Range Environmentally Stable Specifications Connector LC UPC Standard ITU T G 694 2 CWDM grid FRM220 MD40 4 Wavelength CWDM Mux DeMux Card Wavelengths 1510 1530 1550 1570nm Insertion Loss lt 1 8dB including connector loss Return Loss gt 45dB FRM220 MD40 2UP 4 Wavelength CWDM Mux DeMux Card 2 upgrade ports Wavelengths 1470 1490 1590 1610nm Upgrade port 1 1503 1577nm Upgrade port 2 1260 1457nm Upgrade port isolation gt 30dB Insertion Loss lt 2 2dB including connector loss Return Loss gt 45dB FRM220 MD80 8 Wavelength CWDM Mux DeMux Card Wavelengths 1470 1490 1
168. n the FRM220 155MS card is placed in the FRM220 rack with SNMP management the management can view the converter card s status type version fiber link status and alarms The card can be configured to enable or disable the port reset the port or enable disable Auto Laser Shutdown E e n Mi ACES Tar 155MS SFP Features Transparent fiber media converter repeater Speed up to 155Mbps Fast Ethernet OC3 STM 1 Manage via terminal web or SNMP in FRM220 CH20 chassis Extend transmission from 2km to 120km over fiber Perform optical repeater function Re amplification amp Reshaping Supports Client Line loop back test Link Fault Pass through LFP Auto Laser Shutdown ALS Specifications Ports Optical Interface Connector 1x9 SC ST FC or SFP LC Data rate Up to 155Mbps Fast Ethernet OC3 STM 1 Regeneration type 2R Loop back Line Client Cable type MM 62 2 125um 50 125um SM 9 125um Wavelength 1310nm 1550nm LEDs Power Line Link Client Link Test Power DC In 12V Power Consumption lt 5W Dimension D x W x H mm 155 x 88 x 23mm Weight 120g Temperature 10 60 C Operating 20 70 C Storage Humidity 10 95 non condensing Certification CE LVD EMI FCC RoHS MTBF 65 000 h 25 C This product includes the following models e FRM220 155MS STM 1 Fiber Repeater with fixed transceivers e FRM220 155MS SFP STM 1 Fiber Repeater with SFP 113 Appendix A A 11 1 Functional Details Fi
169. n using the subnet delimiter 8 16 24 etc the entire sub net can be allowed management rights 3 When assigning only a single IP address for management there is no need to use the xx subnet 17 Chapter 2 Provisioning b Trap Management From the SNMP Manager Configuration Menu select N for trap management configuration KKKKKKKKKKKKKKKKKRKKKKRKKKKRKKKKKKKKKKKKKEKK CTC UNION TECHNOLOGIES CO LTD xxx FRM220 NMC VER 1 95 KKKKKKKKKKKKKKKKKKKKKKKKKKEKKKEKKEKKKKKKK IKK lt lt Trap Configuration setup of Chassis 0 gt gt Trap Receiver IP Community String 192 168 1 100 private Set up to 8 trap receivers entering their IP addresses Command Function Key lt 1 gt lt 8 gt Edit trap receiver 1 to 8 setting lt D gt Delete all settings lt N gt gt Go to Manager Configuration menu lt X gt GO to Syslog Contigur arcion menu lt S gt Confirm above setting and restart SNMP lt ESC gt Back to main menu without modification Please select an item The following are descriptions of the function keys available and the actions which they perform 1 8 Use these keys to select any one of eight trap destination addresses D Use this to clear all settings N Use this key to go back to manager configuration X Use this key to go to the Syslog server setting menu S Use this key to confirm settings and restart the SNMP daemon ESC This key will leave the setting menu withou
170. ng to a telephone handset set FXS lt 3 gt Ring Frequency Different carriers and national standards use different ring frequencies Set the proper frequency here for your location lt 6 gt Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Optical port lt 7 gt Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt 8 gt Set to Default This action will return the Serial card to factory default settings lt D gt Go to Line Card Status menu If an SFP is installed for optical the information can be viewed here See next page lt N gt Go to the Remote menu This device supports remote in band management via Embedded Operations Channel 109 Appendix A Line Card Status SLOT 19 gt FRM220 FXO FXS bocal I Verzl 000 3 050 z2 000 0 000 FIBERXON INC FTM 3125C L40 Single 1310nm 40km 01dBm 04dBm 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 ll Ai A 10 6 Provisioning by NMC Web CCC IEC IEC AT IT Local FRMIZ20 FAD FAS 1 000 5 030 2 000 0 000 FX Information Link Signal FEF SFP D D Up Yes HF Ho Ho Port Active Enable k Auto Laser Shutdown ALS Disable we FXO FAS Information Active Statu
171. ngle Wave Length 1310 run Wave Length 2 tiiti Link Length 0020 km E gt FS BSS e ee Fiber 2 Vendor Name FIBERXON INC Vendor PartNumber FTM 3125C L40 Fiber Type Single Wave Length 1310 nun Wave Length 2 YM Link Length 0040 ton Digital Diagnostic Tx Power 11 dBm Rx Power 13 dBm Temperature H44 degree Rx Sensitivity dBm Rx Power Margin sons El 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 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Type FRM220 10 1001 and FMC 10 1001 FRIM220 SERIAL O FRM220 DATAPORT O FRIM220 10 10015 2 FRM220 3R 2 7G 2S and 3R 2 7G 3S O FRM220 5E1 ET100S FRM220 3R 10G SS SX XX MUX DEMUX FRM220 10 1001 2E FOM04 FPGA 2R 4G 2S 3S FOMO1 FPGA FRM220 FXO FXS FRM220 155MS FRM220 E1 T1 O FRM220 1000ES 1 and 1000E 2F and FRIM220 1000E 1 O FRM
172. nitor previous chassis SNMP System Configuration Setup VVVVVV VV OV gt KKKKKKKKKK KKK KKKKKKK KKK KKK KKK AAA AAA AAA wee CTC UNION TECHNOLOGIES CO EX FRM220 NMC 2 3 4 NMC amp Chassis FRM220 10 100I FRM220 10 100I FRM220 10 1001 FRM220 10 1001 FRM220 10 100I FRM220 10 100I FRM220 10 1001 FRM220 10 1001 FRM220 10 100I SNMP Manager Configuration Setup Password Setup Reboot lt Z gt Logout Press L to enter the System Configuration Setup lt 1 gt Target IP lt 2 gt Target Netmask lt 3 gt Target Gateway lt 4 gt Target Name lt b gt TFTP Server IP wee FRM220 NMC VER LID xk uk Salo ees KKKKKKKKKK KKK KKKKKKK KKK KKK KKK KKKKKKKKKKK This Chassis ID 00 Cascade Yes Monitored Chassis ID 00 5 lt B gt lt D gt lt F gt lt I gt lt K gt lt 6 gt TFTP Download Kernel linux zip lt 7 gt TFTP Download File System romfs zip Load default settings and write to syste SLOT lt C gt SLOT lt E gt SLOT lt G gt lt H gt SLOT lt J gt SLOT lt gt Monitor next chassis SLOT SLOT SLOT SLOT SLOT 9 gt Do TFTP and Flash Kernel function A gt Do TFTP and Flash File System function lt gt Please select an item OY SH od de de de Se Se Se FR RFF RFR H j OA Gama oN 19 20 VER
173. nk Length 0020 km 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 151 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 2R 4G 2S 3S 3 Select the slot to update Selecting All Slots will upgrade all local 2R 4G 2S 3S cards this may take up to 15 minutes 4 If selecting an individual slot you must also select ONLY the local unit no in band supported in this model 5 The image file name needs to be keyed in The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Upgrade Mozilla Firefox L 0 demo ctcu com tw 8191 upgrade asp language 0 Type 2R4G_V1 8 bin Function Key Upgrade 152 Appendix A e e ih Click the OK button to confirm The page at http frm220 ctcu com tw says u Type FRM220 1000ED5 and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card i Cancel 8 Heed the warning messages Upgrade Status 0 View the
174. nsures that should it be intercepted by a sniffer the SNMP traffic is encrypted and not sent in plain text format making a man in the middle attack less likely 18 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 The syslog function of the FRM220 NMC can be used to integrate log data into a central repository Messages are assigned a priority level Emergency Alert Critical Error Warning Notice Info or Debug by the FRM220 NMC and then sent to syslog server The syslog messages are sent to a syslog server via TCP IP Therefore we must configure in the FRM220 NMC the destination address for syslog messages From the Main Menu select the lt M gt SNMP Manager Configuration Setup and from this menu select lt X gt Syslog Server Settings lt lt Syslog Configuration Setup of Chassis 0 gt gt Syslog Receiver IP 41 Set up to 8 Syslog server po receivers entering their IP 43 addresses 4 5 6 7 8 Command Function Key lt 1 gt lt 8 gt Edit trap receiver 1 to 8 setting
175. ocked and all the line card LED indicators will be Off lt 2 gt Baud Rate Select As a 3R repeater the device needs to be set to the proper data rate for the intended application lt 3 gt Loop Back Test This initiates the sub menu to select line side top fiber connector client side bottom fiber connector or both line and client simultaneous loop back lt 4 gt Loss Propagation This enables or disables the Link Fault Passthru function of the converter lt 5 gt Line Side Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Line Side Optical port lt 6 gt Client Side Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Client Optical port lt A gt Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt D gt Go to Line Card Status menu If an SFP is installed for optical the information can be viewed here See below Line Card Status SLOT F10 gt BRMZZ0 3R72 76 35 bocak T I Mere LO0 1 009 1 L00 0 000 FIBERXON INC FTM 3125C L40 Single 1310nm 0040km Vendor Name Ll Vendor Part Number Fiber Type Wave Length Wave Length 2 Link Length Li Rx Power Temperature Rx Sensitivity Tx Power Sl Seem ah a Power Margin al LI bed bd bd bed bed LI Le 122 Appendix A A 12 6 Provisioning by NMC Web Chass
176. ower and temperature within the SFP SFP and D D Information SFP and D D Information Vendor Name FIBERXON INC Vendor Name CTC UNION Vendor Part Number FTM 5125 L40 Vendor Part Number SFS 7020 L31 A Fiber Type Single Fiber Type Single Tx Wave Length 1310 nm Rx Wave Length 1310 nm Link Length 40 km Tx Wave Length 1310 nm Rx Wave Length 1310 nm Link Length 20 km Digital Diagnostic Tx Power 01 dBm Rx Power 03 dBm Examples of SFP without and with DD function aa as Temperature 49 degree C Power Margin 0 dB Fower Loss 0 dB 57 Appendix A Port Active Enable w Auto Laser Shutdown ALS Disable Operation Mode Switch we Link Fault Pass Through LFP Disable w In Band Management Enable w 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 Operation Mode This pull down chooses between switch mode and Tag Based VLAN mode When the media converter works in switch mode mode it does not begin to forward a packet to a destination port until after the entire packet is
177. peed TX Duplex TX Link Test loopback Temperature 10 60 C Operating 20 70 C Storage Humidity 0 95 non condensing Operating 10 90 Storage Power DC Jack Switching adaptor 12V 1A Consumption lt 12W Dimensions 155mm x 88mm x 23mm LxWxH Weight 120g Compliance FCC part 15 Subpart B Class A ANSI C63 4 2003 CE EN55022 2006 Class A EN55024 1998 A1 2001 A2 2003 LVD EN60950 1 2001 MTBF 65 000 h 25 C 157 Appendix A A 25 1 Functional Details Ethernet The 1000EAS X 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 The 10 100 1000Base RJ 45 connectors are located on the front panel of the card along with two SFP cages for industry standard 155M or 1 25Gbps SFP modules All UTP connections are designed for auto MDI X operation requiring only a straight connection to any device A unique feature of the FRM220A 1000EAS X switch converter is the use of a common PCB card which may either be used as a standalone converter FRM220 CHO1 series or placed in the FRM220 FRM220A CH20 rack Management The FRM22
178. polarity Use the switch 8 to select the port setting as DCE or DTE Use the switch 9 10 to set the Interface type DIP_ SWSTATE _ Functin___________ ue 3 4 CTS RTS output Setting Constantly ON oie NN ESS ou 5 ETC Polarity Setting Normal e TC Polarity Setting or Na ae 7 _ RC Polarity Setting Normal Invert 8 DataPOortMode Setting DCE Mode DTE Mode da Switch 4 settings Use the switches 1 2 to set the loop back type Use the switches 3 to select either fiber or data port for loop back Use the switch 4 to set the DCD behavior _DIP_ SW STATE Function aaas 1 2 Loop Back Function Setting ue Loop Back Select 3 Fiber Side Loop Back Data Port Side Loop Back DCD Output Setting 4 Constantly ON except when fiber LOS Follow Fiber Sync and remote DTE DCD 93 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 Chassis ID 00 Cascaded Yes Monitored Chassis ID 00 16 gt FRM220 DATAPORT Local Ver 1 000 1 050 1 010 0 000 Port Active Enable RD State Off TD State Off RTS State Off CTS State lon DCD State on DSR State on DTR State Off RLB State Off LLB State Off IM State Orr FX Link Up FX Signal Yes EX PRE Orr Receive Side Setting lt a gt Transmit Side Setting Auto Laser Sh
179. ports support any 155M transceiver Amber On 100M 10 100AS 2 Off 1OM LED Indicators Green On Link Flash Activity DEFAULT recessed pushbutton Use to recover lost password or to Off no link return all settings to factory default values 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 The bale clasp pluggable module has a bale clasp that secures the module into the SFP cage 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 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index gt ano PA remove it from the SFP cage P ale Clasp type SFP with bale open JE a a Figure A 4 2 nat A 4 6 Provisioning Because of the complex settings of 10 100AS and because there exists a stand alone user manual for the 10 100AS this NMC user manual will not go into the detailed settings here Please refer to the FRM220 10 100AS User Manual 64 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 mak
180. r connector towards the connected fiber equipment lt 4 gt Link Fault Pass Through This enables or disables the LFP function of the converter lt 5 gt Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Optical port lt 6 gt Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt 7 gt Set to Default This action will return the Serial card to factory default settings lt D gt Go to Line Card Status menu If an SFP is installed for optical the information can be viewed here See next page Line Card Status SLOT 10 gt FRM220 155MS bocal Ver 1 000 1 030 1 010 0 000 LINE Side CLIENT Side Vendor Name wc EEBEBRXON TNC CTE UNION Vendor Part Number FTM 3125C L40 So gt Uo Sha 1 Fiber Type Single Single Wave Length oh bo Loam 1310nm Wave Length 2 2 gt Am Link Length 40km Tx Power se Oem Rx Power Rx Sensitivity Temperature Power Margin Power Loss 115 30km Appendix A A 11 6 Provisioning by NMC Web CCC INTI IEC IT TT Local FRIW220 1 55 05 1 000 1 030 1 010 0 000 FX Information Line Side Link SFP DID Dower Yes Yes Client Side Link SFP DID Down Yes Ho Port Active Enable Auto Laser Shutdown ALS Disable w Line Side Loopback Olt v Client Side Loopback Orff w Link Fault Pass Through LFP Disable w
181. r making any changes be sure to click the Set Parameters button 140 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 1s 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Upgrade Mozilla Firefox http i Fro220 ckhcu com tmupgrade aspelanguage 0 FRM220 1000EDS and FRM220 1000ES 2F FRM220 10 10015 2 ba FRM220 3R 2 7G 25 and 3R 2 7G 35 gt FRIM220 3R 10G S5 S XXX O MUX DEMUX FRM220 10 1001 2E FOMO4 FPGA 2R 4G 2S 3S FOMO1 FPGA Sae O FRM220 FXO FXS FRM220 155MS FRM220 E1 T1 FRM220 1000ES 1 and 1000E 2F and FRIM220 1000E 1 FRM220 1000TS and FRM220 1000T FRM220 5E1 ET100T FRM220 Evel FRM220 3R 10G SS SX XX CDR FRIM220 E1 DATA FRM220 FOM04 FRM220 FTEC FRM220 FOM01 10G SXX SX XX Type FRM220 10 400 and FIMC 10 100 FRIM220 SERIAL FRM220 DATAPORT Slot All Slots Slot 02 Slot 03 Slot 06
182. r mode e Supports forwarding mode option 10 100 e Store and forward switch mode Convert mode small latency Ethernet e Supports local or remote In band management Monitor and Configure status by the SNMP manager in FRM220 e Supports remote CPE power fail detection Dying gasp Dual Chama CO a e Provides Auto Laser Shutdown ALS function Ciemne Cone der e Supports Fiber Hardware Reset FHR function e Provides fiber transceiver information for management e Supports On Line In band F W upgrade local or remote by the e SNMP manager in FRM220 10 100iS 2 is a dual channel media Specifications converter that must be placed in Complies with IEEE 802 3 and IEEE 802 3u FRM220 CH20 for management 288kb packet buffer in switch mode It utilizes SFP for fiber connection IK MAC address table in switch mode and two 10 100 Ethernet electrical Supports IEEE302 3x flow control in switch mode ports OAM is based on TS 1000 protocol Compliance FCC part 15 Subpart B Class A ANSI C63 4 2003 CE EN55022 2006 Class A EN55024 1998 A1 2001 A2 2003 LVD EN60950 1 2001 MTBF 65 000 h 25 C 10Base T UTP Cable Requirement Cable type Category 3 4 or 5 Maximum distance 100 meters 328 feet 100Base TX UTP Cable Requirement Cable type Category 5 minimum Maximum distance 100 meters 328 feet Management The 10 100iS 2 card is managed by an on card CPU when installed in the FRM220 CH20 chassis There are If the MC is placed stand alone w
183. rate 36 864Mbps f Line coding Scrambled NRZ Bit Error Rate Less than 107 Cable type MM 62 2 125um 50 125um SM 9 125um Distance MM 2km SM 15 30 50 80 120km WDM 20 40 60 80km Wavelength 1310nm 1550nm Electrical Interface Connector 6 pins Terminal block Data Signal Formats RS485 2 wire RS422 4 wire RS232 RTS CTS 5 wire RS232 3 wire Baud Rate RS422 RS485 up to 1024kbps RS232 up to 256kbps Standard EIA TIA RS485 RS422 RS232 LEDs Power FX Link DI DO Test Power DC In 12V Power Consumption lt 5W Dimension D x W x H mm 155 x 88 x 23mm Weight 120g Temperature 10 60 C Operating 20 70 C Storage Humidity 10 95 non condensing Certification CE LVD EMI FCC RoHS MTBF 65 000 h 25 C This product includes the following models e FRM220 Serial 485 6 pin terminal block and fixed fiber transceiver e FRM220 Serial 485S 6 pin terminal block with SFP 99 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 When used stand alone the configuration can be done via the DIP
184. res 4 channels unframed E1 T1 10 100Base TX Ethernet Auto MDI MDIX Auto Negotiation or Force mode Supports flow control Supports 9K jumbo packets Supports Link fault pass through LFP One clear channel RS232 up to 250Kbps Async 1 1 fiber protection less than 50ms Supports Digital Diagnostics Monitoring Interface DDMD AIS on signal loss on E1 T1 and fiber port Loopback test on Optical E1 T1 and RS232 ports Supports Dying Gasp Supports local or remote In band management Monitor and Configuration status by console port and SNMP manager Supports Order wire Ear Microphone port Supports On Line F W upgrade hs a AE s Ts o ys l PTT ETT uU Specifications E1 T1 ports Framing Unframed transparent Bit Rate E1 2 048 Mb s T1 1 544Mb s Line Code E1 AMI HDB3 T1 AMI B8ZS Line Impedance El Unbalanced 75 ohms BNC cable El Balanced 120 ohms RJ 45 T1 Balanced 100 ohms RJ 45 Receiver sensitivity Short haul Pulse Amplitude Nominal 2 37V 10 for 75 ohms Nominal 3 00V 10 for 120 ohms Zero Amplitude Nominal 0 3V Transmit Frequency Tracking 30 ppm Internal Timing Crystal Oscillator Jitter Performance According to ITU T G 823 Performance monitoring According to ITU T G 821 Standards ITU T G 703 G 704 G 706 and G 732 Interface Connectors RJ 45 BNC Test Loops LLB Local Loop Back RLB Remote Loop Back Ethernet Interface Type 10 100Base TX Connector RJ 45 Standards IEEE 802 3
185. rm Note Do not enable redundancy mode for 10 1001 unless you know exactly what you are doing This mode is discussed in detail in Chapter 3 under Web Management 21 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 lt lt Password Setup gt gt lt 1 gt User Name 1 Password ARA lt 2 gt User Name 2 Password aA lt ESC gt Go to previous menu Please select an item Enable User 1 y or n User Name 1l admin Keyin username amp password User Password 1 In the first software release two users are configurable in the FRM220 NMC Currently either user will have full control over all configuration and monitoring functions of the management system In some future release the management will be divided between different access levels and users will be assigned a level appropriate to their level of authority in the management scheme For now set at least one user and password to protect Telnet and Web access against unauthorized personnel 2 2 9 Upgrading the NMC The NMC and any cards including any remotely connected over fiber in band managed converters are all capable of online software upgrade The original version 1 0 hardware NMC was released with SNMP code version 1 xx for the FRM220 In March of 2010 the code had progressed to 2 xx branch By August of 2010 N
186. rs the System Configuration screen where the NMC card s networking settings are configured M the M key will enter the Manager Configuration screen where the manager workstation IP is configured the trap destinations may be setup and the SNMP community strings are defined P this key will enter the user and password setting feature R this key will reboot software reset the NMC Z this key will logout of the console mode the plus key will select the next chassis in a cascaded stack the minus key will select the previous chassis in a cascaded stack 15 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 First the SNMP agent the FRM220 NMC card itself must be configured with an IP address subnet mask and gateway IP Second the agent must be told who the network manager is e the management workstation s IP address Included in the second step are the community string settings and IP address to send the unsolicited trap messages alarm messages To configure the card for use by SNMP certain parameters must be set They are a The SNMP card ag
187. rsion In single mode WDM Wave Division Multiplexing with SC or LC or Bidi are also available in 20 40 60km reach which provide the ability to transmit and receive data using only a single optical fiber When the FRM220 1000T S card is placed in the FRM220 rack with SNMP management the card status type fiber link status and UTP link status can all be displayed This converter is excellent when used in high speed gigabit networks that employ jumbo packets The FRM220 1000T S supports unlimited packet size and has extremely low latency Features 1000Base T to 1000Base SX LX Network management via terminal web or SNMP in FRM220 chassis Forced 1000Base Full Ethernet Auto MDI MDIX Pass gt 9K bytes packets Supports Link Fault Pass Through LFP function Auto Laser Shutdown ALS Specifications Standards e JEEE802 3ab 1000Base T IEEE802 3z 1000Base SX LX Gigabit Standards 1000Base T RJ 45 Connectors e 1000T S One RJ45 connector is provided for UTP cable connection All RJ45 ports utilizing auto MDI MDIX which allow all UTP connections for both straight and crossover UTP cable 1000Base X Fiber Optic Connectors e 1000TS One SFP slot is provided for standard 1 25Gbps SFP module Environment e Operating 10 to 60C e Storage 20 to 70C e Humidity 10 to 90 non condensing Power e Adapter 12V DC 1A CHO1 DC12 e Built in AC Power 100 240 V CHO1 AC e Built in DC Power 18 72VDC CDO1 DC Dimensions
188. rted 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 In switch mode the MC operates with a store amp forward method that supports a 1K MAC address table The UTP side may be 10 or 100 speed and in full or half duplex while the fiber side always runs in 100Base full duplex In converter mode the MC operates with low latency The transmission does not wait until the entire frame is received but instead it forwards the received data immediately Both transceivers UTP and Fiber in the MC are interconnected via the OAM Operation Administration and Maintenance engine while the internal switch engine and data buffer are not used The MC filters OAM frames and supports 9KB jumbo packet in this mode Again the switch engine is disabled in this mode and the UTP must be 100Base Full Duplex to match the fiber s 100Base Full Duplex Link Fault Pass Through AKA LFP This media converter incorporates a Link Fault Forwarding feature based on standard IEEE802 3u which allows indirect sensing of a Fiber or UTP Link Loss via both the 100 Base TX UTP and 100Base FX connections When this feature is enabled and the media converter detects a Link Loss condition on the Receive fiber Fiber LNK down immediately sends a standard IEEE802 3u Far End Fault code by Transmit fiber to the remote converter and it disables its UTP transmitter so that a Link Los
189. rts and support for 1 1 fiber protection A 12 2 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 12 2 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 12 2 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 12 2 Bale Clasp type SFP with bale open 120 Appendix A A 12 3 Provisioning by DIP Stand alone There is one DIP Switch installed on the PCBA of the 2 7G 2S 3S On On Off O O O Off O O On On On On On Sw5 LFP Off Link Fault Pass thru disabled On enabled Off On Off On Off On Of Of On Off On ff ff ff ff ff ff 3 Rate 3 Rate 3 Off Off Off Off Off Off Off Off Rate 4 Rate 4 LFP LFP 6 7 E EB DS3 T3 34 368Mbps 44 736Mbps OC 24 STM 8 1 24416Gbps Sw6 ALS Off Auto Laser Shutdown disabled On enabled Sw7 Forced 3S Only Off Manual Forced Protection On Automatic Protection followed E3 Sw8 Path 3S Only Off Client is on Prima
190. ry Internal oscillator External from Synchronous Data port or transparent e Active timeslot number setting El CCS 1 31 or El CAS 1 30 e Base timeslot setting El CCS 1 31 El CAS 1 15 or 17 31 e Loop Back with integral BERT e LED indicators Specifications G 703 Interface Connector 1xRJ 45 or 2xBNC depending on model Data rate 2048kb s Impedance 75 ohm for unbalanced 120 ohm for balanced Framing CCS CAS w or w o CRC4 Unframed RxSensitivity 43dB extra Long Haul TxPulseAmp 3 00V p p 120 ohm 2 73V p p 75 ohm Line code HDB3 or AMI selectable Indications LED PWR TD RD act Test Signal loss Sync loss Alarm Error Data Port HD26 w cable for V 35 RS530 RS449 X 21 or RS232 software selectable DCE type Power Card supports hot swapping Input Card 12VDC Standalone AC DC options Consumption lt 6W Dimensions 155 x 88 x 23mm D x W x H Weight 120g Temperature 0 50 C Operating 10 70 C Storage Humidity 10 90 non condensing Certification CE FCC LVD RoHS MTBF 65000 hrs 25 C Test Loops set from console El Local Remote and Request Remote Loop back Data Local Remote and Request Remote Loop back BERT Integral 511 pattern generator set from console This product includes the following models FRM220 E1 Data R E1 DSU CSU Converter Card with RJ 45 FRM220 E1 Data B E1 DSU CSU Converter Card with BNC 144 Appendix A A 19 FRM220 FTEC E1 T1 Cross Rate Converter Card The FRM220
191. ry On Client is on Secondary works only when Sw7 is Off for manual forced setting Protocol Supported Fiber Data Rate Fiber Channel 1 1 0625Gbps when On Sw8 is not Notice All of these settings are ignored if the card is placed in the FRM220 CH20 with NMC SNMP management or in the CHO2M with local console The card will follow the settings done via the chassis management 121 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 LD 001 Cascaded Yes Monitored Chassis ID 00 SLOT 10 gt FRM220 3R 2 7G 3S Locari Vert t100 1 009 1100 000000 4 Line Status Up Primary Status LU Y Secondary Status Down Line Tx Detect Normal Primary Tx Detect Normal Secondary Tx Detect Normal lt 1 gt Port Active Enable lt 2 gt Baud Rate Select Gigabit Ethernet lt 3 gt Loopback Test Function Disable lt 4 gt Loss Propagation Disable lt 5 gt Line Side Auto Laser Shutdown Disable lt 6 gt Primary Side Auto Laser Shutdown Disable lt 7 gt Secondary Side Auto Laser Shutdown Disable lt 8 gt Optic Fiber Protection OFF lt 9 gt Active Path Brimary lt A gt Port Reset lt D gt 60 to Line Card Status menu lt 1 gt Port Active Use this item to enable or disable the line card When disabled all transmission will be bl
192. s up to 9Mbps Independent clock mode setting TC RC clock internal external or recovery Electrical and optical loop back tests Compatible with FRM220 El on same fiber link for N x 64k Stand Alone Console management with CHOIM single slot chassis a un Specifications Ports Optical Interface Connector 1x9 SC ST FC or SFP LC Data rate 36 864Mbps Line coding Scrambled NRZ Bit Error Rate Less than 10 10 Cable type MM 62 2 125um 50 125um SM 9 125um Distance MM 2km SM 15 30 50 80 120km WDM 20 40 60 80km Wavelength 1310nm 1550nm Electrical Interface Connector Line Code NRZ Baud Rate RS 232 up to 384K sync and async V 35 RS 530 up to 9152k sync async up to 2048k N 64Kbps where n 1 to 143 64K 9152KKbps Receive and Transmit Clock source Internal Recovery External Standards ITU T LEDs Power FX Link RTS Test TD RD CTS DCD Power DC In 12V Power Consumption lt 5W Dimension D x W x H mm 155 x 88 x 23mm Weight 120g Temperature 10 60 C Operating 20 70 C Storage Humidity 10 95 non condensing Certification CE LVD EMI FCC RoHS MTBF 65 000 h 25 C This product includes the following models e FRM220 Data XXX Fiber Modem with fixed optical and adapter cable e FFRM220 DataS XXX Fiber Modem with SFP and adapter cable Where XXX equals 232 for RS 232 cable DB25F 530 for RS 530 cable DB25F V35 for V 35 cable MB34F X21 for X 21 cable DB15F 449 for RS 449 cable DB37
193. s Ring Status FXS Hook Inactive Ho Ring ON Hook Operation Mode FXO v Ring Frequency 30 35Hz sel Parameters Port Reset Set to Default Refresh Status SFP and D D Information Key Vendor Name FIBERZON IHC Vendor Part Number FTM 3123C L40 Fiber Type Single Wave Length 1310 run Wave Length 2 iE Link Length 40 km Digital Diagnostic Tx Power Hi dBm Rx Power Hd dBrn Rx Sensitivity dBm Rx Power Margin gt 818 Temperature H138 degree C Power Loss O dB The settings described in the Telnet operation are easily manipulated here in the Web GUI From the top the Fiber port voice port Function buttons and SFP information if any at the bottom After making any changes be sure to click the Set Parameters button 110 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 1s 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Upgrade Mozilla Firefox http i Frm2 2
194. s condition will be sensed on the receive UTP port See the following figure The link loss can then be sensed and reported by a Network Management agent at the host equipment of local and remote UTP port and at the local fiber port Tats eae ISSA RSET Broken Fiber remote receive 1 fiber 4 Link fault broken 2 UTP disabled sensed locally condition forwarded remote local 3 Fiber link condition forwarded by FEF Remote UTP disconnected 1 UTP 3 Link fault broken sensed locally local UTP link remote condition forwarded by FEF Far End Fault FEF The Far End Fault or FEF feature is a built in part of the OAM Besides alerting the local MC of a remote fiber receive transmission break the FEF is also used in reporting remote power failure or dying gasp 1 fiber l Remote Rx fiber 4 FEF Led lit broken 2 FX Link Down Broken remote 3 Fault condition sent via OAM to far end 42 Appendix A 3 Fault condition sent via OAM to far end Local Rx fiber 2 FX Link Down gt 4 FEF Led Lit Broken local 1 fiber remote broken Remote Power 3 FEF LED lit 1 MC powered OFF Failure MC MC local 2 Fault condition sent remote via dying gasp LED Status Indicators LED Function State Status PWR Power indicator On Converter has power Off Converter has no power or has been disabled Blinking Card is being upgraded FEF Far End Fault On Indicates some fault condition from the unit connected on the re
195. s equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference in which case the user will be required to correct the interference at his own expense NOTICE 1 The changes or modifications not expressively approved by the party responsible for compliance could void the user s authority to operate the equipment 2 Shielded interface cables and AC power cord if any must be used in order to comply with the emission limits CISPR PUB 22 Class A COMPLIANCE This device complies with EMC directive of the European Community and meets or exceeds the following technical standard EN 55022 Limits and Methods of Measurement of Radio Interference Characteristics of Information Technology Equipment This device complies with CISPR Class A CE NOTICE Marking by the symbol CE indicates compliance of this equipment to the EMC and LVD directives of the European Community Such marking is indicative that this equipment meets or exceeds the following technical standards EN 55022 2006 Class A EN55024 1998 A1 2001 A2 2003 and EN60950 1 2001 Table of Contents Chapter LITO U
196. s the first or starting timeslot of the contiguous block of assigned timeslots 79 Appendix A Switch 1 settings DIP SWI SW STATE E1 T1 Setting 1 7 8 FF Fractional E1 T1 ON ON CCS E1 D4 SF T1 CAS el ESF T1 o ransmived AIS when A EIT ransmined ining seine 80 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 SW SW STATE 1 2 3 4 5 Ts Tore Om or oN OFF Btiesiog ON OFF orr on OFF oumes o om on orr on OFF ioimesos ON on or on OFF TTtimestos om or on on OFF iims A E N S ON Rabie AAA TR 81 Appendix A Switch 3 settings After setting the required nx64k timeslot amount set the starting timeslot number for the contiguous set of active timeslots Do not use TS16 if E1 CAS is used For T1 there are no timeslots above TS24 3 ETSII FOR ran F OFF Times oo F OFF Timeslr ooo FOR rimesora ROA imei Timeslot 5 DE DE P OFF rimeso ORF Times ooo OFF mmes oo OFF Tms Or fms Timeslot 12 OR neon 3 Or mee E Timeslot 15 DEME 16 ETCAS Doria F ON Times ooo Fos tins Timeslot 19 ON times ON rms oF ON rieorza oxo 08 rin Timeslor2 IN IN EEN J op Back Group Setting 82 Appendix A A 7 5 Provisioning by NMC Telnet When placed in the C
197. server that will be used to download update images to the NMC Kernel File Name When performing kernel update this is the file name case sensitive of the kernel image file located on the TFTP server File System File Name When performing file system update this is the file name case sensitive of the file system image file located on the TFTP server Function Key ey ee Set Parameters This button must be clicked to save any changes made to the System Information Cancel Before doing any Set Parameter clicking cancel will restore all fields in System Information to their current saved parameters Flash Kernel This button will start the kernel update via web interface see below Flash File System This button will start the file system update via web interface see below Upgrade Line Card This will bring up the window for doing online upgrade to cards installed in the chassis NMC Reboot This button is used to do a soft reset of the NMC Refresh Status After doing a Set Parameters operation this button will load the newly set values in the system information fields Date and Time Information The NMC supports time setting manually by syncing to PC s clock or by SNTP network time protocol To setup the unit for automatic time adjustment enter the IP address of the Time Server adjust the time zone offset enable the automatic time adjustment and then click the Set Parameters button Next click Sync wi
198. setting is immediately applied to the transponder s circuitry After all of the parameter settings have been selected go to the lt D gt Device Status and Configuration menu from the main menu and press lt 2 gt Store Configuration to write the configuration in non volatile RAM NVR Explanation of Settings lt 1 5 9 gt LAN Service This brings up the sub menu to enable disable the device s port When disabled no traffic can go through lt 2 6 A gt Negotiation The default setting provides auto negotiation per IEEE802 3u Using this selection will bring up the sub menu to switch to manual mode setting lt 3 7 B gt Speed This will bring up the sub menu to set the speed to either 10M or 100M This setting will not be applied unless the negotiation 1s set to Manual lt 4 8 C gt Duplex This will bring up the sub menu to set the duplex to either Full or Half This setting will not be applied unless the negotiation 1s set to Manual lt D gt Device Status and Configuration This will bring up the sub menu that includes disabling the entire device all ports saving the configuration to NVR restoring the factory default configuration and resetting the switch lt E gt Fiber Status and Configuration This will bring up the sub menu specifically for the fiber interface This includes enabling or disabling Auto Laser Shutdown ALS and displaying the SFP information lt P gt Password Use this menu item to set the device login password
199. sis0 Slot07 Remote FMC 10 1001 Found 31 2011 07 25 16 08 31 1065 Chaesis0 Slot06 Remote FMC 10 1001 Found 007 30 2011 07 25 16 08 31 1065 Chassis0 Slot05 Remote FMC 10 1001 Found 29 2011 07 25 16 08 31 1065 Chassis0 Slot04 Remote FMC 10 1001 Found 009 28 2011 07 25 16 08 31 1065 Chassis0 Slot03 Remote FMC 10 1001 Found 010 27 2011 07 25 16 08 31 1065 Chassis0 Slot02 Remote FMC 10 100I Found 011 26 2011 07 25 16 08 26 1100 Chassis0 Anonymous Login Console on 25 2011 07 25 16 08 22 1065 Chassis0 Slot20 Remote FRM220 FXO FXS Found A 37 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 The syslog function of NMC can be used to integrate log data into a central repository Each alarm item in the NMC is assigned a specific Facility message and then is further assigned a Severity Emergency Alert Critical Error Warning Notice Info or Debug by NMC Generated alarms are then sent to syslog server There are 8 eight entries available for Syslog receiver IP addresses Syslog Informat
200. sp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 11 2 Bale Clasp type SFP with bale open A 11 3 Provisioning by DIP Stand alone There is NO DIP Switch installed on the PCBA of the 155MS 114 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 I1D 00 SEO ee gt FRM220 155MS Local Ver 1 000 1 030 1 010 0 000 lt 1 gt lt 2 gt lt 3 gt lt 4 gt lt 59 gt lt 6 gt lt gt Port Active Enable Line Side Link Down Client Side Link Line Side Loopback Off Client Side Loopback Off Link Fault Pass Through LFP Disable Auto Laser Shutdown ALS gt Disable Port Reset Set to Default Line Side Small Form Pluggable SFP Line Digital Diagnostic D D Client Side Small Form Siucoaple sEp Client Digital Diagnostic D D Go to the SFP and D D Functions menu Down lt 1 gt Port Active Use this item to enable or disable the line card When disabled all transmission will be blocked and all the line card LED indicators will be Off lt 2 gt Line Side Loop Back This initiates the line side top fiber connector towards the connected fiber equipment lt 3 gt Client Side Loop Back This initiates the client side bottom fibe
201. status type version Ethernet link status and alarms The card can be configured to enable or disable the port reset the card set clocking Ethernet mode and provide E1 analog diagnostic loopbacks A unique feature of the FRM220A nE1 ET100 is the use of a common card design which may either be inserted in an appropriate single or dual slot chassis as a stand alone modem or as a card when placed in the FRM220A CH20 In band managed rack Features emo p e Standalone type Ethernet to 5 8 or 16 port El converter iN ome e Uplinks 100M Ethernet to aggregate trunk card of FRM220A i H is on Do e Interface connectors RJ 48C for 1200 BNCx2 for 75Q per channel TE Ii B E e Els are bundled according to standard GFP F ME j i e LCAS Link Capacity Adjustment Scheme supports dynamic R 3 it bandwidth of virtual concatenated containers El settings e El loopback per channel e 75 or 120 ohm impedance Timing source setting Any receive El recovery or internal oscillator Embedded Operations Channel EOC for remote in band management Integrated BERT function RMON counter for LAN Tx Rx byte count VLAN tag support Bandwidth control 32K to 100M LED indicators Specifications a O G 703 Interface gt BET ET1008 Connector HDB26 Female with adapters for 75 or 120 Ohm Data rate 2048kb s Impedance 75 ohm for unbalanced 120 ohm for balanced Framing Requires Unframed transparent clear channel Eis RxSensitivity 43dB extra Long Hau
202. switches When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller the Serial card and remote are configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 DATA supports in band management A 9 2 Panel Fiber Optical Transceiver SERIAL R X LED Indicators ANA HUL 6 Pin terminal block Figure A 9 1 Panel designations of FRM220 Serial There are two variations of this media converter the Serial converter with fixed optical transceiver or in an SFP version 100 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 1t into the cage A 9 3 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 8 2 Bale Clasp type SFP with bale open A 9 4 Provisionin
203. t Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card j Cancel 8 Heed the warning messages Upgrade Status 9 View the success results WARNING The page at http frm220 ctcu com tw says lt lt pane Line Card Status gt gt a Local Side Do not link to other web pages SLOT O2 SLOT 03 __ SLOTO4 _ SLOTOS __ SLOT 06 ___ SLOT O __ SLOT O8 ___ SLOT 09 0K SLOT 10 SLOT np al mi ie Bi E i SLOT 14 SLOT 15 LOT 16 i7 Do not close this page sLOT18 __ sLtOT19 __ SLOT20 __ Remote Side A A SLOT 02 __ SLOT 03 __ SLOT 04 __ SLOTOS __ Do not insert or remove any cards during upgrade process SLOT o6 __ sLoTo7 __ SLOTOS __ SLOT o9 __ SLOT 10 ___ SLOT 11 ___ SLOT12 ___ SLOT13 ___ SLOT 14 ___ SLOT 15 __ SLOT 16 __ SLOT17 __ SLOT 18 ___ SLOT19 __ SLOT20 ___ Remote B Side SLOT OZ __ SLOT O3 __ SLOTO4 __ SLOTOS ___ STAGE Transmit to units SLOTO6 _ SLOTO _ SLOTOS __ SLOTO9 __ Uy Ri 1 Margo Elsie eepe 1 SOTA If Silay SHE ESE TALE A ASEO A 14 SLOT 18 ____ SLOT19 ___ SLOT20 __ 0 Fail Num 1 Time Out 2 Checksum Error 3 Unknow Error 132 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 desig
204. t The 10 100i 2E line card is managed by an on card CPU when installed in the FRM220 CH20 chassis There If the MC is placed stand alone without local or remote connection to FRM220 NMC management the MC runs with default parameters The default parameters are switch mode auto negotiation LFP disabled ALS Auto Laser Shutdown disabled and no bandwidth limit An optional console manageable single slot chassis the CHO1M is available with DB9F connector for stand alone serial console management When using console port both local and remote unit can be configured and monitored 52 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 In switch mode the MC operates with a store amp forward method that supports a 1K MAC address table The UTP side may be 10 or 100 speed and in full or half duplex while the fiber side always runs in 100Base full duplex In Tag Based VLAN mode the MC is able to do VID tagging and untagging so that traffic between the two UTP ports can be isolated sent over fiber
205. t 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 FXO mode connects to a telephone line or PBX and has ability to detect ringing voltages and to act as a telephone FXS mode is the reciprocal unit and has ability to act as PSTN and connects to a telephone device When the FRM220 FXO FXS card is placed in the FRM220 rack with SNMP management in band management allows viewing the card and remote converter s status type version fiber link status on hook status and alarms Both card and remote can be configured to enable or disable the port reset the port and set the FXO or FXS mode Features Extend telephone voice transmission from 2km to 120km over fiber Management via terminal web or SNMP in FRM220 CH20 chassis Manage stand alone via DIP Switch Supports telephone voice transmission Supports caller ID pass through Selectable FXO or FXS mode Supports FXS to FXS hot line Specifications RS anora Ports Optical Interface gt ae 5 i Connector 1x9 SC ST FC or SFP LC a ws Cable type MM 62 2 125um 50 125um SM 9 125um Dns ro Distance MM 2km SM 15 30 50 80 120km WDM 20 40 60 80km Wavelength 1310nm 1550nm Electrical Interface Connector RJ 11 FXO mode Impedance 600 ohms Coding 16 bits liner Loop Current 10 100mA Ring Frequenc
206. t Reset Remote HAY Reset s tto Default Refresh Status Port Reset The port reset function does a reset of the switch chip of the converter Normally this is not a function that should be used as it will cause a momentary traffic block however if after doing many different settings quickly and the chip becomes confused with those settings or hung this will quickly bring it back It is like a soft reset Remote H W Reset This function performs a software reset of the CPU on the remote converter However in order to perform the remote reset the remote unit must first be set to allow the remote reset The default remote setting is to disallow remote reset Here is an example of configuring the remote to accept the hardware reset Port Active Auto Laser Shutdown ALs os Operation Mode Link Fault Pass Through LFP Loopback Test Accept Remote H W Reset FHR Enable able Click the Remote H W Reset once to have the remote do a soft restart Function Key a set Parameters Port Reset Remote HAY Reset setto Default Refresh Status Following a restart the remote card should have a Found entry in the NMC log 001 38 2009 07 30 16 46 11 1063 Chassis0 Slot05 Remote FMC 10 1001 Found Set to Default The Set to Default button will return all fields to their factory default The Set Parameters button will then save those settings 59 Appendix A A 3 4 5 Firmware Upgrade 1 From the System menu cli
207. t reserved slot for local and remote management purposes Each FRM220 card is an independent electrical to electrical optical to electrical or optical to optical converter When linked to a compatible FRM220 stand alone OAM series FMC Fiber Media Converter stand alone converter complete in band management is supported All settings of the line card and remote connected stand alone device may be managed through any of the available management interfaces A variety of cards are available that support multi mode or single mode fiber types and connections to LC SC ST FC or even the latest single fiber WDM Wave Division Multiplexing in ranges from 2Km to 120Km Converter cards include Fast Ethernet Gigabit Ethernet Asynchronous Serial RS 485 RS 232 and RS 422 G 703 El T1 DS1 Asynchronous and Synchronous Data V 35 RS 530 X 21 RS 449 and RS 232 POTS over fiber 2 7G 3R repeater 10G 3R repeater 4G 2R repeater 4E1 T1 FOM and more as the product matures 1 2 Installing the NMC The front of the FRM220 contains the card slots They are numbered 1 through 20 from left to right as viewed from the front The typical configuration requires one NMC Network Management Controller card in slot number 1 and in band manageable cards in any other slot numbered 2 through 20 FRM220 Series In Band Managed a pa Media Converter Cards Console Port DB9F RS 232 Async 15 X D 115 200 8 N 1 DCE tejs E IS __ NMC Must be in slot 1
208. t saving any changes Conclusion The community strings act like passwords in dealing with the device via SNMP protocol By changing the community strings for read write private in these examples and read only public access and assigning a community string to an access IP an administrator can control access to the FRM220 Community string names are case sensitive therefore puBlic Public and public are all different strings Now that both the System and Manager settings are complete the FRM220 is ready to be managed remotely over an IP network The system provides a Telnet server feature that allows login over TCP IP networks and provides a menu display almost identical to that of the serial console mode All functions available from Console are available in the Telnet session The FRM220 NMC is supplied with an enterprise MIB file Management Information Base that can be compiled into any standard SNMP network management software The MIB file complies with MIB II and ANS 1 standards The SNMP protocol used in the FRM220 NMC is compliant with both SNMP V1 and SNMP V2C The kernel in the FRM220 NMC is capable of supporting SNMP V3 however as of this writing that support has not yet been enabled The major difference between SNMP V2C and V3 is the use of encryption layer for SNMP traffic This requires the passing of public keys and key checks to ensure that both agent and manager are who they really say they are It also e
209. talled in the E1 T1 the DOM contents can be displayed 139 Appendix A A 16 6 Provisioning by NMC Web O Ii ci eh Local FRIW220 5E1 ETIO0T 1 200 1 057 1 000 1 000 Signal Syne AIS Connector Type RAI Hormal AYIE Ho EJ 4EL Ho LOMF Active Loop Check Defect Ho Active No Ho El 1Loop Back OFF Channel Defect 1E 6 v Channel Loop Detection Enable hd El Information k Port Active Active Negotiation Auta Speed 100 vw Duplex IS Flow Control Enable Y Vlan Aware Disable v Vian ID 1 4094 ph UTF Information Link Flow Control Down Enable Device Information LOM SOM CRC LOA LFD DDTO Remote Remote PWR Ho Ho Ho Ho Ho Ho Up Hormal Device Active Enable Timing Source Recovery from E1 1 FCS Disable v Auto Channel Adjust Enable hd Payload Scramble Enable Failover Disable LAN Speed Limit 0 Kbps LAN Speed Limit 32K n n 10 13125 0 to disable VCG Member v v 2 v 3 v 4 v 5 NMC Channel BIT Sad vl Sa5 lv 526 Y Sa7 Bert Information Errored Seconds ES Error Free Seconds EFS Severely Errored Seconds SES 0 0 0 Eert Function Disable v El Channel E1 1 s RMON Information RMON RX RMON TX 0 0 RMON Function Disable Function Key Clear RMON Ta Clear RMON Fx 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 Afte
210. th NTP button The Current Date and Time should now match the network Time Server s time L 2 3 4 5 Current Date and Time This read only field displays the date and time as currently set in the NMC Time Server IP NTP This is the IPv4 dotted decimal address of the time keeping server which the NMC will use to get and update its clock Time Zone GMT These are the plus and minus from GMT that should be set to the physical time zone where the NMC is located Auto Adjust Time 1 Hr To keep synchronization with external time server this must be enabled The NMC will then check the time server hourly and correct its time to exactly match the time server s Date and Time This field is used in conjunction with the Time Function Keys listed below Time Function Key l 2 3 4 5 Set Parameters This button must be clicked to save any changes made to the Date and Time information Get PC Time This button will place the connected PC s time into the Date and Time field Set Current Time This button takes the time shown in the Data and Time field and makes it the NMC time Sync with NTP This button manually forces the NMC to re synchronize its time to NTP server If the configured NTP server cannot be reach a time out will occur Sync with PC This button will manually force the NMC to synchronize its time to the connected PC Parameter Management L Restore Parameters T
211. th control Supports Dying Gasp Reporting for power outage Supports local remote monitor a A Supports local remote Configuration EW 225 a Aa Supports Q in Q double tagged packets ee i P Fiber SFP LC Type 10 100 1000 Supports remote F W upgrade Out band Ethernet Supports IEEE 802 1q Tagging VLAN and port base VLAN Provides fiber transceiver information for management Compatible with FRM220 FRM220A Managed Chassis Supports Jumbo packets to 10240k bytes LAN Interface Specification Two RJ 45 female connectors for straight or cross over connection Supports 2 port 10 100 1000Base n way Auto Negotiation 1000EAS X is a stand alone Supports Full Half duplex 10 100 1000 speed force mode selections manageable 4 port Gigabit Ethernet Transmission Packet Rate for 10Base T 14880 per second fiber switch utilizing SFP for 100Base TX 148800 per second 1000Base T 1488000 per second 100 1000Base SX LX fiber Copper TP cable 4 pair Cat 5e or 6 UTP connections and two 10 100 1000 Optical Interface Specification Ethernet electrical ports Transceiver Connector type SFP LC Supports 2 port Dual rate 100 1000Mbps SFP slots Supports auto receive sensitivity function no extra attenuators needed General Specification Standards IEEE 802 3 10Base T IEEE 802 3u 100Base TX 100Base FX IEEE 802 3ab 802 3z 1000Base T 1000Base SX LX IEEE 802 3ah In band OAM management compliant 8 diagnostic LEDs Power FX Link TX S
212. the OK button to confirm Type FRM220 10 1001 and FMC 10 1001 Slot All Slots Side Local and Remote File ETC 10011240 B14 Do TFTP and Upgrade Line Card 60 Cancel Appendix A 8 Heed the warning messages Upgrade Status 9 View the success results WARNING Message from webpage A lt lt po Line Card Status gt gt i Local Side wi nee adi bi a ee pagas SLOT 02 0K SLOT 03 OK SLOT 04 OK SLOT 05 OK SLOT 06 OK SLOT 07 OK SLOTOS __ SLOTOS ___ J SLOT10 _ SLOT 11 __ SLOT 12 __ SLOT 13 __ Do not close this page SLOT 14 __ SLOT 15 __ SLOT 16 __ SLOT17 ___ SeA SOTO A ESO TEO AA Remote Side s SLOT 02 OK SLOT 03 0K SLOT 04 0K SLOT 05 0K Do not insert or remove any cards during upgrade process ps e lla SLOT 10 __ SLOT11 __ SLOT12 __ SLOT13 __ SLOT 14 __ SLOT 15 Fail SLOT 16 __ SLOT17 __ SLOT18 __ SLOT19 __ SLOT20 __ Remote B Side STAGE Transmit to units SLOT 02 ___ SLOTO3 __ SLOTO4 __ SLOTOS ___ SLOT O6 ___ SLOTO7 __ SLOTOS __ SLOTO9 __ SLOT 10 __ SLOT11 __ SLOT12 __ SLOT 13 ___ SLOT14 __ SLOT1S __ SLOT16 __ SLOT17 __ 14 SLOT 18 ___ SLOT19 ___ SLOT 20 __ A 2 2 E FRM220 10 100 2E 1 100 1 001 0 000 0 0 00 FX Information Link FEF Remote PWR SFP D D Up ofi OK No No Port Active Enab
213. the Upgrade Line Card button 2 Select the card type radio button which in this case is the FRM220 2 7G 2S or 3S 3 Select the slot to update Selecting All Slots will upgrade all local 2 7G 2S 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Upgrade Mozilla Firefox o hEtp Frme 20 cteu com by upgrade asprlanguage 0 Type FRM220 10 1001 and FIMC 10 1001 FRM220 SERIAL FRM220 DATAPORT FRM220 1000EDS and FRM220 1000ES 2F O FRM220 10 10015 2 FRM220 3R 2 7G 2S and 3R 2 7G 3S FRM220 5E1 ET100S FRM220 3R 10G SS SX XX MUX DEMUX FRM220 10 1001 2E FOM04 FPGA 2R 4G 2S 3S FOM01 FPGA Sai FRM220 FXO FXS O FRM220 155MS O FRM220 E1 T1 O FRM220 1000ES 1 and 1000E 2F and FRIM220 1000E 1 O FRM220 1000TS and FRM220 1000T O FRM220 5E1 ET100T O FRM220 Eoe1 FRM220 3R 10G SS SX XX CDR FRM220 E1 DATA O FRM220 FOM04 FRM220 FTEC FRM220 FOM01 10G SXX SXIXX Slot All Slots Slot 02 Slot 03 Slot 06 Slot 07 Slot 08 Slot 11 O Slot 12 Slot 13 Slot 16 Slot 17 Slot 18 Side Local Remote Re
214. 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 21 2 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 21 2 Bale Clasp type SFP with bale open 148 Appendix A A 12 3 Provisioning by DIP Stand alone There is one DIP Switch installed on the PCBA of the 4G 2S 3S 1 ON ON Manual Primary Manual Secondary When set to Auto the protection works in Revertive mode This means when the damaged Primary path is repaired the protection will switch back to the Primary path When set Semi the protection works in Non Revertive mode Even if the broken Primary path is restored the protection will continue to operate on the Secondary path i e will not revert back DipSw 3 4 5 6 7 8 28 38 Switches 3 6 are described below while 7 amp 8 are reserved Sw3 ALS Off Auto Laser Shutdown disabled On enabled Sw4 Panel S2 Only Off disable the front panel user loop back switches On enable the front panel loop back switches Sw5 LFP Off Link Fault Pass thru disabled On enabled Sw6 Config Off Follow Dip switch settings On Follow settings saved in EEPROM from console setup shiitake et ON he spt wb a bin
215. the management page for that particular converter card A 1 4 1 Header The header information shows the current chassis ID Slot Side Type and Version A A A ee Local FRML220 10 1001 1 100 1 279 0 000 0 000 Chassis ID The chassis with management IP address is the first or ID zero chassis From this NMC up to 10 chassis may be managed using only a single IP address Chassis ID are numbered from zero to nine 45 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 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 1 279 0 000 0 000 The first field represents the hardware version version 1 1 in this case the second field shows the firmware or software version version 1 279 shown here the third field shows the CPLD version
216. the port is disabled the PHY becomes inactive and all Ethernet traffic will be blocked lt 2 gt lt 3 gt Select the information and settings for the two UTP ports Informational Shows fiber link status far end fault alarm and any dying gasp indication lt 4 gt Sets the operational mode between the default switch mode or the special Tag Based VLAN mode lt 5 gt Enables or disables the Link Fault Pass Through LFP function lt 6 gt Enables or disables the Auto Laser Shutdown ALS function lt 7 gt Enables or disables the OAM in band management function lt 8 gt Send a hardware reset to remote unit via fiber must enable reception from the remote side first lt 9 gt Performs a reset on the local switch port lt A gt Resets the card to factory default settings Informational If this is SFP model and SFP is installed will indicate Yes If SFP supports DD will indicate Yes lt D gt View the transceiver s digital diagnostics DD if available only for SFP modules that support DD function lt N gt Go to manage the remote via OAM lt ESC gt Escape back to previous menu 55 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 gt Remote Ver 1 100 1 001 0 000 0 000 Port Active lt 2 gt UIP 1 Information and Settings lt 3 gt UTP 2 Information and Settings FX Link FEF Off Remot
217. to dl UTP2 Information Auto UTP3 Information Link Speed Up 100 Auto t Device Information Function Key Set Parameters SFP and D D Information Vendor Name Vendor Part Number Fiber Type Wave Length Wave Length 2 Link Length Digital Diagnostic Tx Power Rx Power Rx Sensitivity Rx Power Margin Temperature Fiber Rx Loss SFP D O Ves Yes Yes Disable Duplex Full Enable Duplex Full Enable Duplex Full Enable kad Enable a PotReset SettoDefaut Refresh Status FIBEEXOH IHC FTMI 3125C LAQ single 1310 nm 0040 km 01 dBm 30 dBm dEr E H1d4 degree C Refer to A 26 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 164 Appendix A A 26 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 1s 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 The TFTP server should be able to find this file and the System settings need to be correct see Chapter 2 settings 6 Click the Upgrade button to start the update Upgrade Mo
218. tory defaults lt D gt Go to Line Card Status menu Shows the installed status of SFP cages and whether the installed SFP supports DDI Press the menu key number to view the SFP details Line Card Status 09 gt FRM220 2R 4G 3S Locair Ver rl 200 Lo00 0 000 0 00010 Line Side SFP Yes D Da ENG J Primary Side SFP Yes D D Secondary Side SFP Yes D D 150 Appendix A A 12 6 Provisioning by NMC Web _ side Type FRM220 2R 4G 35 Version 1 200 1 800 0 000 0 000 Port Link Tx Fail SFP D D Fx1 Auto Laser Shutdown Disable Fx2 Auto Laser Shutdown Disable Fx3 Auto Laser Shutdown Disable y Device Information Device Active Enable Loss Propagation Disable Optic Fiber Protection Semi Auto Active Path Primary y Loopback Test Disable a i Function Key Set Parameters Port Reset Set to Default Refresh Status SFP and D D Information Fiber1 Fiber2 Vendor Name CTC UNION Vendor Part Number S5FS 7010 L51 T Fiber Type Single Vendor Name CTC UNION Vendor Part Number 5F5 7020 WB DDI Fiber Type Single Wave Length 1550 om Wave Length 2 1310 nm 0020 km Wave Length 1310 nm Wave Length 2 1310 nm Link Length 0010 km Digital Diagnostic 06 dBm 05 dBm 23 dBm 18 dB 048 degree C Fiber3 Vendor Name CTC UNION Vendor Part Number S5F5 7020 L 51 1 Fiber Type Single Wave Length 1310 nm Wave Length 2 1310 nm Li
219. trol in switch mode OAM is based on TS 1000 protocol 10Base T UTP Cable Requirement Cable type Category 3 4 or 5 Maximum distance 100 meters 328 feet 100Base TX UTP Cable Requirement Cable type Category 5 minimum Maximum distance 100 meters 328 feet A 1 1 Functional Details Management The 10 100i line card is managed by an on card CPU when installed in the FRM220 CH20 chassis If the MC is placed stand alone without local or remote connection to FRM220 NMC management the MC runs with default parameters The default parameters are switch mode auto negotiation LFP disabled ALS Auto Laser Shutdown disabled and no bandwidth limit An optional console manageable single slot chassis the CHO1M is available with DB9F connector for stand alone serial console management When using console port both local and remote unit can be configured and monitored An additional model 10 100iD model is available that adds a 4 pole DIP switch However this switch can only support the settings of auto or forced mode on the Ethernet UTP and enabling LFP If placed in managed rack the switch is ignored 41 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 suppo
220. ttings and switch 2 the transmit timing The all important switch 3 sets handshaking polarity DCE DTE mode and I F type Switch 4 provides the fiber data loop back 90 Appendix A Switch 1 settings Receive timing SW STATE AAA 1 2 5 Receive Data Rate Select OFF OFF OFF OFF OFF 64K 2112K 4160K 6208kK 8256K 75 NA NA OFF ON ON OFF OFF 448k 2496k 4544k 6592k 8640K 600 NA NA ON ON ON OFF OFF 512k 2560k 4608K 66s6ek 8704K 900 NA NA ore 5 ONL oF J ON L ON LON A oe O A NN Asya E a esve baa Bae Tapsee o I M SB se ETC DCE RC input DTE Recover from remote receive side timing DCE TC input DTE 91 Appendix A Switch 2 settings Transmit timing SW STATE AAA 1 2 5 Transmit Data Rate Select OFF OFF OFF OFF OFF 64K 2112K 4160K 6208K 8256K 75 NA NA OFF ON ON OFF OFF 448k 2496k 4544k 6592k 8640K 600 NA NA ON ON ON OFF OFF 512k 2560k 4608K 6656k 8704K 900 NA NA iaa 5 OFF ON ON ON ON 1964K dos2k 6060K 8t26K NA NA NA NA AON ON J ON LON JON OA ose ertag ee Aye one ee ET DCE RC input DTE Recover from remote receive side timing DCE TC input DTE 92 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
221. tures When placed in a stand alone chassis with console port these devices support a text based serial terminal with an easy to use menu system for configuration When placed in a managed chassis the card is configured and monitored through the chassis NMC network management controller via console Telnet Web HTTP or SNMP Specifications Standard TEEE802 3 10BASE T IEEE802 3u 100BASE TX IOOBASE FX Supports Full Duplex Ethernet mode Supports Ethernet Packet up to 1552KBytes in size 10 100BASE TX RJ 45 Connectors FRM220A FSW103 Three RJ45 connectors and one SFP cage are provided Auto MDI X allows all UTP connections to be made using only a common straight through UTP cable Optical Specifications 100Base FX Connector FRM220A FSW103 One SFP with LC connector can be provided for optic cable connection Power Adapter 12VDC Built in AC Power 100 240V Built in DC Power 18 72V Consumption lt 4W Environment Operating 0 C 80 C Storage 10 C 80 C Humidity 10 95 non condensing Weight FRM220 FSW103 DC12 400g FRM220 FSW 103 AC 750g FRM220 FSW103 DC48 750g FRM220 FSW103 AD AA DD 800g Dimensions W x D x H mm FRM220 FSW 103 DC12 88 x 160 x 24FRM220 FSW103 AC 135 x 201 x 35 FRM220 FSW 103 DC48 135 x 201 x 35 FRM220 FSW103 AD 135 x 201 x 35 FRM220 FSW103 AD AA DD 135 x 201 x 35 Certifications CE EMI LVD FCC Class A RoHS compliant WARNING Fiber optic equipment may emit laser or infrared lig
222. unicate with the NMC when placed in the managed rack This model is designed for both stand alone use and for management when installed in managed chassis When placed in a managed chassis such as our FRM220 CH20 with NMC Network Management Controller the 10G SS card is configured and monitored through the chassis NMC via console Telnet Web HTTP or SNMP 1 Stand alone DIP settings when placed in CHO1 serial console when placed in CHOIM or CHO2M 2 Rack management When placed in NMC managed rack all other settings can be overridden by the NMC management 3 1OG SS does NOT support in band management A 14 2 Installation of SFP Modules CTC Union supplied SFP and 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 14 2 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 14 2 2 Removing a Bale Clasp SFP Module Step 1 Open the bale clasp on the SFP module Press the clasp downward with your index finger Step 2 Grasp the SFP module between your thumb and index finger and carefully remove it from the SFP cage Figure A 14 2 Bale Clasp type SFP with bale open 127 Appendix A A 14 3 Provisioning by DIP Stand alone There is one DIP Switch installed on the PCBA of the 10G SS Wiki 2 3 4 LFP
223. unless you know what you are doing The redundancy feature is a special operation mode designed only for FRM220 10 1001 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 Referring to the following diagram each link requires two completely redundant converters and fiber links The active link is shown in bold the standby link is grayed out Note that any switch can be used as the NMC controls which path is active A L2 switch with VLAN function or Spanning Tree is NOT required for this application Upon sensing a downed link the alternate path is automatically promoted to the active state A A A A RAR 3 2 Fully redundant 10 100 media converter link A fully loaded chassis can provide 9 pairs of redundant links The screen graphic below shows the odd even channel pairing in the highlighted bars Only one channel in the pair will be active at any time The pairs are 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 and 19 20 These pairs are fixed and cannot be changed so insert the paired cards accordingly into the chassis Slot 2 cannot be used in redundancy mode TC CIC FRM220 59 125 162 252 e Dr D FX Link D FX FEF TX Link T Power D FX Link gt FX FEF D TX Link D TX Full TX 100 Po D FX Link gt FX FEF D TX Link gt TX Full D Tx 100
224. upgrading The internal memory will become fragmented over a long period of uptime and this could lead to not having enough contiguous space to hold the newly extracted image prior to flashing Two connections are required between the PC that will do the upgrade and the FRM220 that will be upgraded First a console connection with terminal emulation program such as HyperTerminal with settings of 115 2K baud 8 bits no parity 1 stop bit and no flow control The second connection is an Ethernet connection either through a network or with a direct connection via UTP cable Check the Ethernet settings of the FRM220 through the console mode Either change the settings to match the network settings of your PC or set the PC s settings to match the FRM220 s network settings In the following example we are on a 192 168 1 0 network with a subnet mask of 255 255 255 0 and a default gateway of 192 168 1 254 Our PC is set with an IP address of 192 168 1 100 and our FRM220 has an IP address of 192 168 1 1 factory default settings 22 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 Chassis List 03 XxX Fis SLOT 01 SLOT 02 SLOT 03 SLOT 04 SLOT 05 SLOT 06 SLOT 07 SLOT 08 SLOT 09 SLOT 10 Mo
225. utdown ALS Disable Data Port Control Setting Loop Back Setting OTE Data Port Mode Setting DCE Mode Data Port Interface Setting V 35 Port Reset lt A gt Set to Default Small Form Pluggable SFP No Digital Diagnostic D D No Go to Line Card Status menu Go to the Remote menu lt 1 gt Port Active Use this item to enable or disable the line card When disabled all transmission will be blocked and all the line card LED indicators will be Off lt 2 gt Receive Side Setting This will bring up the sub menu see below for setting these specific parameters lt 3 gt Transmit Side Setting This will bring up the sub menu see below for setting these specific parameters lt 4 gt Auto Laser Shutdown ALS Enables or disables the ALS safety feature for the Optical port lt 5 gt Data Port Control Settings These are the handshaking and polarity settings menu on next page lt 6 gt Loop Back Settings There is support for loop back of both DATA signal and optical Refer to the next page lt 7 gt Data Port Mode Setting Selects between DCE RxD is output or DTE TxD is output mode lt 8 gt Data Port Interface Setting This sets the electrical interface to RS 530 X 21 RS 449 V 35 or RS 232 lt 9 gt Port Reset This function will clear and reload the CPLD effectively resetting the port Data loss will occur when performing this reset Use with care lt A gt Set to De
226. wer option Fan l and Fan 2 RPM amp Status There are two hot swappable cooling fan assemblies that may be field replaced The normal operational revolutions per minute RPM is between 2800 and 4000 The threshold for fan alarm is activated if the fan s RPM falls below 1650RPM Alarm 1 In the default configuration Alarm 1 is Active if any failure condition exists for power Alarm 2 is active if any fan fails or the RPM falls below the acceptable threshold 1650RPM For an example of configuration for Alarm 1 press 1 one Alarm l Mode lt 0 gt Disable ignore all alarm conditions lt 1 gt By Powers active if any power fails lt 2 gt By User l active if any user l definition is met Lora Active for manual testing lt ESC gt Go to previous menu Please select an item 0 This will completely disable Alarm 1 The relay dry contact will not close and the NMC ALM1 red LED will not light 1 This is the factory default setting This alarm will only be off when two power modules are installed and powered on 2 This setting will take the user parameters and set the alarm according to failures in any parameters set under items 2 3 4 3 This selection will set the alarm for testing purposes The ALM1 LED will light and dry contact for Alarm 1 will close 20 Chapter 2 Provisioning For an example of configuration for Alarm 2 press 5 five Alarm 2 Mode lt 0 gt Disable ignore all alarm
227. ws the flexible use of Multimode or Single mode lines and enables the support of different wavelengths and distances The use of bi directional SFPs maximizes the utilization of the fiber optic line and results in saving line costs 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 Features a M e Single channel unframed E1 T1 e 10 100Base TX Ethernet e Auto MDI MDIX e Auto Negotiation or Force mode e Supports flow control e Supports 9K jumbo packets e Supports Link fault pass through LFP e Supports Digital Diagnostics Monitoring Interface DDMD e AIS on signal loss on El T1 and fiber port e Loopback test on Optical and E1 T1 ports e Supports Dying Gasp e Supports local or remote In band management e Monitor and Configuration status by NMC manager e Supports On Line F W upgrade Specifications E1 T1 ports Framing Unframed transparent Bit Rate E1 2 048 Mb s T1 1 544Mb s Line Code El AMI HDB3 T1 AMI B8ZS Line Impedance El Unbalanced 75 ohms BNC cable El Balanced 120 ohms RJ 45 T1 Balanced 100 ohms RJ 45 Receiver sensitivity Short haul Pulse Amplitude Nominal 2 37V 10 for 75 ohms Nominal 3 00V 10 for 120 ohms Zero Amplitude Nominal 0 3V Transmit Frequency Tracking 30 ppm Internal Timing Crystal Oscillator Jitter Performance According to ITU T G 823 Performance monitoring According to ITU T G
228. y Acceptable 20 50Hz Insertion Loss 0 0 1 0dB at 1000Hz FXS mode Impedance 600 ohms Coding 16 bits liner Dial DTMF and Dial Paul Battery Source 48VDC 4V Ringing Waveform Sine wave Ringing Frequency 20 25 30 50 Hz selectable Ring Cadence FXS to FXS On 1 sec Off 2 sec FXO to FXS Reproduces the cadence detected by FXO Insertion Loss 0 0 1 0dB at 1000Hz REN 4 0B Ring Equivalence Number LEDs Power FX Link Phone Act Test Power DC In 12V Power Consumption lt 5W Dimension D x W x H mm 155 x 88 x 23mm Weight 120g Temperature 10 60 C Operating 20 70 C Storage Humidity 10 95 non condensing Certification CE LVD EMI FCC RoHS MTBF 65 000 h 25 C This product includes the following models e FRM220 FXO FXS POTS over Fiber fixed transceiver e FRM220 FXO FXS S POTS over Fiber SFP 106 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 When used stand alone the configuration can be done via the DIP switches When placed in a managed chassis such as our FRM220
229. your thumb and index finger and carefully remove it from the SFP cage ae nz El gt a ene a a Po Po mn ai 7 l m a E a _ y l E a Pri w r a po a a a pe i a EEE ar a A Figure A 5 2 Bale Clasp type SFP with bale open A 5 4 Provisioning Because of the complex settings of 1OOOEAS and because there exists a stand alone user manual for the 1000EAS this NMC user manual will not go into the detailed settings here Please refer to the FRM220 1000EAS User Manual 67 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 This converter also supports features such as ingress egress bandwidth control auto or forced mode setting for copper Ethernet as well as auto laser shutdown The FRM220 1000E s 1 is a single copper to single fiber Gigabit Ethernet solution designed to make conversion between 10 100 1000Base TX and 1000Base SX LX with SC or SFP LC connector Features e 2 port 10 100 1000Base T to 2 port 1000Base SX LX EDS e 1 port 10 100 1000Base T to 1 port 1000Base SX LX ES 1 e Supports dual converter mode or switch
230. zilla Firefox http ti Fro220 ctcu com tafupgrade asp language 0 KEX Type FRM220 10 7001 and FIMC 10 700 FRM220 SERIAL FRM220 DATAPORT FRM220 1000EDS and FRM220 1000ES 2F O FRM220 10 10015 2 O FRM220 3R 2 7G 2S and 3R 2 7G 3S O FRM220 5E1 ET100S O FRM220 3R 10G SS SX XX O MUX DEMUX O FRM220 10 1001 2E O FOMO4 FPGA O 2R 4G 25 35 O FOMO1 FPGA FRM220 FSW103 Slot 02 Slot 03 Slot 07 Slot 12 Slot 17 Slot 08 Slot 13 O Slot 18 e O FRM220 FXO FXS FRM220 155MS FRM220 E1 T1 FRM220 1000ES 1 and 1000E 2F and FRIM220 7000E 1 FRM220 1000TS and FRM220 1000T FRM220 5E1 ET100T O FRM220 Evel FRM220 3R 10G SS SX XX CDR FRIM220 E1 DATA FRM220 FOM04 FRM220 FTEC FRM220 FOM01 10G SXX SX XX Slot 04 Slot 05 Slot 09 Slot 10 Slot 14 Slot 15 Slot 19 Slot 20 O Remote O Remote E Slot All Slots Slot 06 Slot 11 O Slot 16 ile Name fowl 034100 bin _ Key Upgrade f 151 165 Appendix A p 7 ae Click the OK button to confirm The page at http frm220 ctcu com tw says y Type FRM220 1000ED5 and FRM220 1000E5 2F Slot Slot 09 Side Local File EDS16 BIN Do TFTP and Upgrade Line Card j Cancel 8 Heed the warning messages Upgrade Status 9 View the success results WARNING The page at http frm220 ctcu

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