Mercedes-Benz 2007 S 550 Automobile User Manual
Contents
1. _1 i L r LACT FD LACT FD PWR USB Link Activity __ Duplex LED USB LED LED Qty 2 QTY 2 Power LED Figure 7 CBFFG1040 140 Device Front Panel Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 11 Section FBRM BFFG Product Description Transition Networks Hardware description continued Rear panel On the standalone SFBRM and SBFFG Devices only the rear panel consists of a standalone power barrel connector for connecting power via a power adaptor See Figure 8 Standalone Rear View Power Connector Figure 8 SFBRM SBFFG 1xxx 1xx Device Real Panel Standalone Only Note The Point System chassis powers the CFBRM and CBFFG chassis Devices 12 Transition Networks Section FBRM BFFG Product Description FBRM BFFG13xx 1xx fiber to fiber gigabit models Gigabit Gbit The FBRM100Base FX to 1000Base X and the BFFG 1000Base X to 1000Base X models are the Gbit versions of the IEEE 802 3ah managed Devices The BFFG models link Gbit fiber connections the FRBRM models convert 100Base Fx 100 Mbit s to Gbit These Devices function generally in the same manner as copper to fiber FBRMs the difference is the way the ports are configured See Tables 1 and 2 Table 1 FBRM12. ND 1 5 6 1 4 1 668 2 5 1 Figure 49 Private MIB Objects 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section V FBRM BFFG Device Management Device management via chassis agent MMU web based Management To set up the FBRM BFFG initially via the MMU do the following via MMU Open a web browser At the URL type the IP address of the chassis MMU Click the GO button to launch the password screen See Figure 50 Transition Networks CPSMM100 200 Point System agent version 061205QM System Name CPSMM 100 200 Password log in Figure 50 Chassis Agent MMU Login Screen Type the password default is private 5 Press the ENTER key to launch the chassis agent s main menu as shown in Figure 51 Transition Networks Point System Agent Summary 192 251 144 130 C PSMM100 200 Cabinets Description Model Group Control Strin g apply Figure 51 Chassis Agent MMU Main Menu Click the VIEW button to show the Devices in the cabinet slots as shown in Figure 52 GP 18 Slot chassis Slot Power for cabinet S N 30465 LMM ZM 446 5EM 6M 7 6 8 4 9M 10 4 11 4 12 4 13 4 14 4 15 4 16 4 17 4 18 6 save Cab__ Slot__ Device Summ vend Soe T Base Management Module Link UP 1 Primary YES 1 IP 192 251 144 130 Firmware 061205QM S N 1496913 me rye Ee nee 10 100 AH IP Converter 1 Link DOWN 2 2 Link DOWN 2 me aa E tren 6
3. 97 Transition Networks Section IX FBRM BFFG Cable amp Fiber Optic Specifications Fiber optic cable and connector specifications continued BFFG fiber to fiber Gbit connector continued Fiber Optics CBFFG1335 100 SBFFG1335 100 Fiber optic transmitter power Fiber optic receiver sensitivity Link budget Port 1 Specification 1300 nm multimode min 19 0 dBm max min 30 0 dBm max 11 dB BFFG fiber to fiber Gbit with DMI connector 98 Fiber Optics CBFFG1313 110 DMI SBFFG1313 110 DMI Fiber optic transmitter power Fiber optic receiver sensitivity Link budget CBFFG1314 110 DMI SBFFG1314 110 DMI Fiber optic transmitter power Fiber optic receiver sensitivity Link budget CBFFG1315 110 DMI SBFFG1315 110 DMI Fiber optic transmitter power Fiber optic receiver sensitivity Link budget CBFFG1329 110 DMI CBFFG1329 111 DMI SBFFG1329 110 DMI SBFFG1329 111 DMI Fiber optic transmitter power Fiber optic receiver sensitivity Link budget Note Port 1 Specification 1300 nm multimode min 19 0 dBm max min 30 0 dBm max 11 dB 1300 nm multimode min 19 0 dBm max min 30 0 dBm max 11 dB 1300 nm multimode min 19 0 dBm max min 30 0 dBm max 11 dB 1300 nm multimode min 19 0 dBm max min 30 0 dBm max 11 dB 14 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm Port 2 Specification 1310 n
4. Console gt Figure 31 Enable DHCP Type reboot Press the ENTER key to reboot the Device and start the DHCP process Note DHCP successful will appear on the screen when completed or failed if not successful Continued on next page 36 Transition Networks Section IV FBRM BFFG Initial Device Setup Initial Device setup via USB CLI continued Show system configuration To show the Device system configuration do the following 24 Hour Technical Support 1 800 260 1312 At the console gt prompt type show 2 Press the ENTER key to bring up the Device system configuration screen shown in Figure 32 System configuration System name System location System contact Bootloader Version CFBRH16 166 Not Initialized Soper EUAN ENON 4 Firmware Version DHCP Enabled IP address 192 251 144 159 Subnet mask 200 200 2090 6 Default gateway 192 168 1 2 MAC address 66 CO F2 66 01 C2 System UpTime d h m s 0 0 59 20 SNHP Trap Manager 6 0 6 6 SNMP Community Name private Group string lt NOT SET RADIUS authentication Disabled RADIUS server 6 6 6 6 Layer 3 Capability Enabled SNMP Access Enabled TFIP Server TFIP Filename Management YLAN ID Console gt _ 192 251 144 242 So ecw Figure 32 Example System Configuration Screen International 00 1 952 941 7600 37 Section IV FBRM BFFG Initial Device Setup Transition Networks Initial Device s
5. Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section VII FBRM BFFG Operation Firmware upgrades continued Accessing the bootloader CLI continued 3 At the B00T gt prompt type the letter t to establish TFTP as the reboot method 4 At the B00T gt prompt type the letter s to view system information as shown in Figure 67 System configuration IP Address gt 192 251 144 150 Subnet Mask 255 255 2255 20 Default Gateway m LOD 251 laa 2 MAC Address gt 00 c0 f2 00 d1 bc TFTP Server address 0 0 0 0 TFTP Filename BOOT gt Figure 67 System Configuration Information If system configuration parameters are entered incorrectly or missing as shown above at the BOOI gt prompt type the letter n Press the ENTER key until the desired parameter appears on the screen TFTP Filename See Figure 68 BOOT gt Enter the Network configuration IP Address 192 251 144 150 Subnet Mask 255 255 255 0 Gateway 192 251 144 2 TFTP Server IP 0 0 0 0 TFTP Filename Figure 68 Network Configuration Screen Enter the necessary data When done press the letter r key to reboot the Device The firmware image will be burned to flash memory of the Device When completed the Device will reboot and return to the Login gt prompt 24 Hour Technical Support 1 800 260 1312 International OO 1
6. 19 0 dBm max 14 0 dBm min 5 0 dBm max 0 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 24 0 dBm max 3 0 dBm Link budget 11 dB 19 dB CFBRM1329 110 DMI 1310 nm TX 1490 nm RX CFBRM1329 111 DMI 1490 nm TX 1310 nm RX SFBRM1329 110 DMI 1310 nm TX 1490 nm RX SFBRM1329 111 DMI 1300 nm multimode 1490 nm TX 1310 nm RX Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 9 0 dBm max 3 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 20 0 dBm max 3 0 dBm Link budget 11 dB 11 dB CFBRM1329 112 DMI 1310 nm TX 1490 nm RX CFBRM1329 113 DMI 1490 nm TX 1310 nm RX SFBRM1329 112 DMI 1310 nm TX 1490 nm RX SFBRM1329 113 DMI 1300 nm multimode 1490 nm TX 1310 nm RX Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 9 0 dBm max 3 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0dBm min 20 0 dBm max 3 0 dBm 11 dB Continued on next page 95 Transition Networks Section IX FBRM BFFG Cable amp Fiber Optic Specifications Fiber optic cable and connector specifications continued Copper to fiber The following are BFFG10x40 100 copper to fiber connector specifications connectors Fiber Optics Specifications CBFFG1040 100 SBFFG1040 100 Empty Slot Fiber optic transmitter power Fiber optic receiver sensitivity Link budget Note The fiber optic transmitters on these Devices meet Class I Laser safety requirement
7. O DPX LACT PW O O 10 100Base TX CLA USB Link Active RJ45 Port USB LED Figure 2 CFBRM1040 100 Front Panel Front Panel LEDs e Power one e Link Active e Speed e Duplex one e USB one Note The LEDs and ports are the same on the SFBRM1040 140 standalone models Continued on next page Transition Networks Section FBRM BFFG Product Description Hardware description continued Front panel The front panel of the CFBRM13xx 1xx Devices has the following ports and LEDs CFBRM Gbit Front Panel LEDs e Power one One 100 Base T e Fiber Port Link one One 1000Base FX LX BX fiber either SC or ST connectors e Fiber Port Link one One USB e USB one SC Connector SC Connector Fiber Fiber USB Port LNK amp CFBRM110 USB LED LED Fiber Link Pibarkink LED LED Figure 3 Chassis CFBRM13xx 1xx Device Front Panel Note The LEDs and ports are the same on the SFBRM13xx 1xx standalone models Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 7 Section I FBRM BFFG Product Description Transition Networks Hardware description continued Front p
8. an eee O gt O 4 U JI oO oO D a T D ee a FS fF lt C teal Lees _ ina G LACT FD LACT FD PWR USB PXLACT S O L PWRO f 2 Ci c O D w LACTO L ee P i 1000Base X 10 100 1000 USB v 5 Ld care gt lt CBFFG ale Ol TONO LNK USB gsn X1 seg00t 0L L 1000Base X 1000Base X USB CFBRM O i O LNK USB gsnNn XL esegootr or C CFBRM FBRM1xxx 1xx amp BFFG1xxx 1xx Chassis amp Stand Alone Remotely Managed Devices Manual 33345 Revision D Transition Networks Table of contents DE CUIOM E A O 1 Product DES CIOL ON rrine a E N S a lang siaaud ssa uekosensentanean lees 1 GE Sil
9. Device Software configurable Features continued Pause flow control and Back Pressure Point System Management Pause is used to suspend data transmission temporarily to relieve buffer congestion If a Device needs sometime to clear network congestion it will send a pause signal to the Device at the other end then that Device will wait a predetermined amount of time before re transmitting its data This feature reduces data bottlenecks and allows efficient use of network Devices preventing data losses The pause feature is set in Firmware mode using the SNMP interface It can be set to one of four settings e Disable no pause e Symmetrical pause e Asymmetric TX transmit pause e Asymmetric RX receive pause Note Enable the pause feature if available on ALL network Devices attached to the media Device s otherwise disable this feature Back pressure is used in half duplex mode Back pressure ensures the retransmission of incoming packets when a port using half duplex is temporarily not able to receive in coming frames The slide in Device plugs into the chassis to provide management through the I C interface This provides SNMP and Web based management through the MMU Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 67 Section VI FBRM BFFG Software Features Transition Networks Software feature descriptions continued Table 3 Device Software C
10. This is a Class A product In a domestic environment this product could cause radio interference in which case the user may be required to take adequate measures Achtung Dieses ist ein Ger t der Funkstorgrenzwertklasse A In Wohnbereichen k nnen bei Betrieb dieses Ger tes Rundfunkst6rungen auftreten In diesem Fall ist der Benutzer fur Gegenma nahmen verantwortlich Attention Ceci est un produit de Classe A Dans un environment domestique ce produit risque de cr er des interf rences radio lectriques il appartiendra alors l utilsateur de prende les measures sp cifiques appropri es Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 107 Transition Networks Section X FBRM BFFG Contact Us Warranty amp Conformity Information Compliance information continued European In accordance with European Union Directive 2002 96 EC of the Regulations re European Parliament and of the Council of 27 January 2003 Transition continued Networks will accept post usage returns of this product for proper disposal gums The contact information for this activity can be found in the Contact Us portion of this document CAUTION RJ connectors are NOT INTENDED FOR CONNECTION TO THE PUBLIC TELEPHONE NETWORK Failure to observe this caution could result in damage to the public telephone network Der Anschluss dieses Ger tes an ein ffentlickes Telekommunikationsnetz in den EG Mitglieds
11. e RMON statistics e AutoCross on copper port e Remote fault detect e Enable disable far end fault on fiber e Transparent link pass through e 802 3ah OAM enable disable on all ports e OAM channel statistics e OAM remote loopback e Rate limiting band width allocation using fixed rate sets e IP traffic class priority e 802 1q VLAN support e Virtual cable test The remote Device can be managed completely through OAM Figure 49 shows an example of a private MIB objects tree Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 51 52 Section V FBRM BFFG Device Management Transition Networks SNMP IP based management continued MIB objects Figure 49 shows the placement of the MIB objects on the private tree lt MG SOFT MIB Browser Professional Edition MAk File Edit View SNMP Action Tools Window Help SHONO igawa BEd Guey MIB Pina Remote SNMP agent e a ae 192251144150 o MA E Aveca J iso org E dod E 9 internet directory mart 9 experimental private enterprises milan C transition 9 productld 9 products EES tbr in 00 E J sfbrmSystem E 9 storm 1 005 ystemT able fe shirm1005ustemEntry El g sfbrmSwitch Hf stb O0SwT able eg fbr 005 wiPPrioT able q sfbrmPort Fa stbrm100FortT able 9 stb 00PortStatsT able Private MIB Objects we
12. either case the firmware revision on the local Device will replace that of its remote passive peer The firmware of the local active peer Device should be upgraded before the remote passive peer Device to ensure that the correct firmware version is on both Devices Continued on next page 60 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Transition Networks Section Vl FBRM BFFG Software Features Software feature descriptions continued Table 3 Device Software Configurable Features continued Auto Negotiation This feature allows the two Devices to configure themselves to achieve the best possible mode of operation over a link automatically The Device broadcasts its speed and duplex full or half capabilities to the other Device and negotiates the best mode of operation Auto Negotiation allows quick connections because the optimal link between the Devices is established automatically In a scenario where the Device links to a non negotiating Device disable Auto Negotiations In this instance the mode of operation will drop to the lowest common denominator between the two Devices e g 10 Mb s at half duplex Disabling this feature allows forcing the connection to the desired speed and duplex mode of operation Backup Configuration The firmware uses TFTP to upload its present configuration onto a TFTP server and can also download the configuration from the TFTP server and update its sett
13. 0 are considered tagged Double Tagging This enables ingress double tagging It is a way to isolate one VLAN from another VLAN hierarchically When enabled also enables egress double tagging In this mode the Ingress port removes the first IEEE 802 3ac tag that appears after the source address If a frame is untagged it is not modified If it is single tagged it is removed if it is double tagged the first tag is removed The Duplex Modeof the port half full Egress Monitor v When enabled all egress frames that Port come from this port are sent to the egress monitor destination port sfhbrm100SwEgressMonPort Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 133 Transition Networks Appendix D IP Based and Chassis Management Parameters 134 Table 28 Port Configuration Parameters continued IP based Egress Rate v v Controls the effective port transmission rates The rate limit is provided as a list of pre defined values noLimit 1 rate64K 2 rate96K 3 ratel28K 4 ratel60K 5 ratel92K 6 rate224K 7 rate256K 8 rate320K 9 rate384K 10 rate512K 11 rate768K 12 ratelM 13 ratel_2M 14 ratel_SM 15 rate2M 16 rate3M 17 rate4M 18 rateSM 19 rateSM 20 ratelOM 21 rate20M 22 rate30M 23 rate40M 24 rate60M 25 rateS80M 26 Far End Fault v v Far E
14. 56 The FBRM BFFG Device supports complete Web based management for viewing statistics and configuring the Device See the help file on Transition Networks website for more details about different configuration variables To manage the Device via the IP web based do the following Mozilla Firefox File Edit View Go Bookmarks Tools Help S ii 3 A http 192 251 144 130 _ Customize Links _ Free Hotmail Windows Marketplace _ Windows Media Windows _ Transition Networks FBRM1029 200 Remote CPSMM100 120 993 2 Device Details _ http 192 251 144 130 Transition Networks FBRM10 100 Remotely Managed Switch System Name FBRM10xx 100 Password login Figure 56 Device Password Screen Note DO NOT use the browser BACK button to navigate the screens This will cause the connection to drop Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section V FBRM BFFG Device Management Device management via IP web base directly to Device continued IP web based management continued 5 Click the LOG IN button to bring up the main menu of the Device See Figure 57 Note Any Transition Networks FBRM BFFG remote peer can be completely managed by an FBRM BFFG local peer through OAM Transition Networks 192 2351 144 150 xF BRM1013 100 10 100 Remote Managment with 802 3ah Bridge view Local System Configuration
15. 952 941 7600 81 Transition Networks Section VIII Troubleshooting Introduction This section provides basic troubleshooting information for the FBRM BFFG Device via a problem and corrective action table The problems are stated in the problem column and the action s to take for the problem is stated in the corrective action column If the corrective measures listed do not correct the problem contact our 24 Hour Technical Support department at 1 800 260 1312 International 00 1 952 941 7600 In this section These are the topics Troubleshooting problem and corrective action table 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 82 Section VIII FBRM BFFG Troubleshooting Transition Networks Troubleshooting problem and corrective action table Corrective Action Device does not power e Is the Device power LED ON uP e Is the power adapter s barrel inserted fully into the Device e Is the power adapter plugged into an AC outlet e Is the AC outlet active if not check the outlet s circuit breaker e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 Cannot detect or e If CFBRM CBFFG is in a cascaded chassis move the CFBRM CBFFG communicate with the to the master chassis XFBRM xBFFG e Upgrade to the latest version of firmware e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 Cannot access the Device e Is
16. DO NOT stare into the beam or view the beam directly with optical instruments Failure to observe this warning could result in an eye injury or blindness WARNING Use of controls adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure WARNING If the media Device is an IEEE802 3 2005 Powered Device PD capable of receiving power via the Medium Dependent Interface MDI leads the power source connector and cabling attached to the barrel power connector must meet the isolation requirement specified in IEEE802 3 2005 Failure to observe this warning could result in an electrical shock The xFBRM xBFFG Device product family is not compatible with the CPSMM 200 and CPSMM 210 management modules when they are used in a cascaded application The xFBRM xBFFG can be installed in the master chassis with the CPSMM 200 but they can not be installed in a cascaded chassis using the CPSMM 210 Alternatively the xFBRM xBFFG can be used with the CPSMM 120 base management module which does not support cascading of the chassis 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 121 Transition Networks Appendix C Device Commands amp Descriptions Displays the arp cache clear counter Clears counters on all ports or on a specific port Usage clearcounter port lt portno gt Clears the screen exit Exits the CLI Telnet session factory
17. Devices observe electrostatic discharge precautions This requires proper grounding 1 e wear a wrist strap Failure to observe this caution could result in damage to the chassis Device In this section These are the topics Installing CFBRM CBFFG Devices into a point system chassis Installing SFBRM SBFFG standalone models T nstalling copper and fiber cables Connecting power standalone models 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 17 Section Il FBRM BFFG Hardware Installation Transition Networks Installing CFBRM CBFFG Devices into point system chassis IMPORTANT The CFBRM CBFFG Device product family IS NOT compatible with the CPSMM 200 and CPSMM 210 MGMT modules when used in a cascaded application The CFBRM CBFFG can be installed in the master chassis with the CPSMM 200 MGMT module but they can not be installed in a cascaded chassis using the CPSMM 210 MGMT module Alternatively the CFBRM CBFFG can be used with the CPSMM120 MGMT module which does not support chassis cascading Caution h Weara grounding strap and observe electrostatic discharge precautions when installing the CFBRM CBFFG Device into the Point System chassis Failure to observe this caution could result in damage to the Device Chassis Device To install the chassis Device into the Point System chassis do the following installation Locate an empty slot in the Point System chassis Grasp the edges of the De
18. LOOBaSe PXI EXT BX oriana 5 Index US Boasirsese en 5 7 10 Power Port Standalone On Porissa eee devimsesoweaukd 12 Product Feature GESCIIDU ONS ainsin a a E 62 Radius Authentication GES CMO WON misan 69 Redundant SFBRM SFP 3 Port Switch 3 port switch MOE innne 16 ACCESSING Vid IP oarre re A aces 49 CON e serCas 50 redundant mode explanation s000ssseooeeeeeeeeeee 15 revert option explanation see NOTE 15 Security CRAIG outidle orse i e a cnese 71 IP ACCES S erneer slasertie ecient ascend R 71 mac address DIOCKING ccceccsssssseeeeseeeeeeeees 71 mac TLC PUI eiere a a ts decrceta le sleeiinde se 71 NME ACCESS cca tothe cla a a a 72 radius authenticator e 71 USB ICES Saa AN 72 USEMaMMe PASSOWIC eia a oie T2 NLAN manioc MEM oriec aa a 71 Selective Link Pass THru ccccccccccssssscssssssees 70 Set Up CLI System c Oni GC eie a a 37 CONDO onea tausactandeateeceseruenedewts 29 COM port properties ccccccccssssssssssssesseeeeeeeees 31 IP configuration directly to device 46 terminal CMU ALOM iiaseecorcasesacdvasmuccusisesdeevatenatocendues 30 USB IP configuration ates cede wirdsaceeincuatiens 35 WeD DaSEG to MMU esc crsatctesitanensnidacotevestustesaniaats 43 System Configuration parameters IP based VS CHASSIS 0000000000000 131 Telnet commands directly to deVICE cccceeeeeeeeees 42 set up directly to standalone device 006 38 system config directly to
19. OAM enabled and scenario Active by default To manage the remote passive peer via OAM configure P1 of explanation the active local peer as follows e Enable OAM e Select Active mode If the connection to the passive remote peer is made thru P2 of the active local peer OAM occurs without human intervention Note Automatic firmware upgrades will not occur with different types of FERM or BFFG Device configurations 14 Transition Networks Section FBRM BFFG Product Description Redundant SFBRM1040 140 models Redundant models Explanation These SFBRM SFP Devices support fiber redundancy They have two 2 fiber SFP ports and one 1 copper port When you tag the fiber ports as primary and secondary with redundancy enabled any fault on the primary port results in the secondary port becoming operational There is an option for reverting back to the primary once it has been restored or you can continue using the secondary port these are user selectable features See Figure 10 Local Remote Primary Link Secondary Link Figure 10 SFBRMs in Redundant Mode With Port 3 as the secondary port in Redundancy Mode and Port 2 the primary goes down the following will happen Description All Physical layer and OAM configurations of Port 2 will be applied to Port 3 O B Port 2 is disabled and Port 3 initialized to take over An SNMP trap is sent indicating that the ports have switched D OAM reinitial
20. Part Number CBFFG1313 100 CBFFG1313 110 DMI SBFFG1313 100 SBFFG1313 110 DMI CBFFG1314 100 CBFFG1314 110 DMI SBFFG1314 100 SBFFG1314 110 DMI CBFFG1315 100 CBFFG1315 110 DMI SBFFG1315 100 SBFFG1315 110 DMI CBFFG1317 100 CBFFG1317 110 DMI SBFFG1317 100 SBFFG1317 110 DMI CBFFG1335 100 SBFFG1335 110 DMI CBFFG1335 100 SBFFG1335 110 DMI 220 722 ft 550 m 1 804 ft Port 1 Fiber 1000Base SX SC 1000Base SX 850 nm MM 220 550 m 722 1 804 ft SC 1000Base SX 850 nm MM 220 550 m 722 1 804 ft SC 1000Base SX 850 nm MM 220 550 m 722 1 804 ft SC 1000Base SX 850 nm MM 220 550 m 722 1 804 ft SC 1000Base SX 850 nm MM 220 550 m 722 1 804 ft 62 5 125u fiber 50 125 fiber Port 2 Fiber 1000Base SX LX SC 1000Base SX 850 nm MM 220 550 m 722 1 804 ft SC 1000Base LX 1310 nm SM 10 Km 6 2 miles SC 1000Base LX 1310 nm SM 25 km 15 5 miles SC 1000Base LX 1310 nm SM 65 km 40 3 miles SC 1000Base LX 1310 nm SM 120 km 74 6 miles Continued on next page 116 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Appendix A FBRM BFFG Part Numbers Transition Networks BFFG fiber to fiber part numbers continued Single fiber models The models shown in Table 22 are single fiber models and must be installed in pairs Table 22 BFFG13xx 1xx Single Fiber Model Pairs Part Number CBFFG1329 100 Port 1 Fiber 1000Base SX SC 1000Base SX 850 nm P
21. Section VI FBRM BFFG Software Features Transition Networks Software feature descriptions Note The FBRM BFFG Devices does not have configuration switches Firmware The FBRM BFFG series Devices features can be configured via USB MMU or IP activated Table 3 explains the configurable parameters of the Devices features Table 3 Device Software Configurable Features AutoCross When the AutoCross feature 1s active it allows the use 10 100Base T or of a straight through MDI or crossover MDI X 10 100 1000Base T copper cable when connecting to 10 100Base T or 10 100 1000Base T Devices AutoCross determines the characteristics of the connection and configures the Devices to link up automatically This occurs regardless of the cable configuration MDI or MDI X Transition networks recommends leaving AutoCross in default mode enabled Automatic Firmware The Device has an automatic firmware upgrade feature Upgrades This feature applies to a communication link between a local peer and its remote peer Devices connected via a fiber optic cable If the remote passive peer Device is not in Active Mode and a local active peer Device detects a different firmware revision on its remote passive peer Device the local active Device will force a bootload condition and download its firmware revision to its remote passive peer Device Note The local Device could have a different firmware revision newer or older than its remote peer In
22. Software Configurable Feature continued OAM Exchange of configuration information and remote upgrades with organizational specific PDUs IEEE 802 3ah 2004 standard Link Status Failure Indications Standard MIB Counters The remote peer Device only if a TN FBRM BFFGDevice set to passive mode can be completely managed through the SNMP Web management by its active peer Device when set to Active Mode This is done using organizational specific PDUs When the active peer upgrades to a new revision of firmware it detects the firmware configuration of its remote peer Device and upgrades it automatically If the active peer is in a chassis the remote peer can be managed through Point System management by the management module unit MMU Link status failure indication with OAM PDU flags fielded and sent as an OAM critical event refer to 57 4 2 1 of the standard The Device provides complete management through the SNMP interface It supports the following standard MIBs for management using SNMPvlI e RFC 1213 MIB II e RFC 2819 RMON statistics group e REC 2863 IF MIB counters e RFC 3635 Ether like MIB counters e RFC 1493 Bridge MIB object counters e RFC 2674 Bridge extensions counters Continued on next page 66 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Transition Networks Section Vl FBRM BFFG Software Features Software feature descriptions continued Table 3
23. be enabled disabled Oammode OAM Mode can be set to Passive Active Mode Oamrmtloop OAM loopback can be enabled disable on the remote Device peer Displays all active and passive sockets ping Pings the host to check if it is reachable using ICMP requests Displays the system processes Se Saves the current configuration and reboots the system Saves the current configuration to non volatile memory t Sets network settings and system configuration Usage set dhcp lt enable disable gt ip nn nn nn nn netmask nn nn nn nn gateway nn nn nn nn trapmgr nn nn nn nn community lt value gt max 64 groupstring lt value gt max 64 radius lt enable disable radiusip nn nn nn nn radiussercret lt value gt max 64 username lt value gt max 64 password lt value gt max 64 usb lt enable disable gt l3capability lt enable disable snmpaccess lt enable disable tftpserver nn nn nn nn tftpfile lt value gt max 64 mgmtvlan lt vlanid gt 2 4096 set autoupg Enable disable auto upgrade When enabled automatically upgrades the firmware Usage set autoupg lt enable disable gt This locks unlocks firmware upgrades from an active OAM Device peer Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 123 Transition Networks Appendix C Device Commands amp Definitions Command set communi
24. efm mib EFM OAM MIB Use the version provided on the CD When the link on the other port fails the Device sends an OAM critical event signal to its peer indicating the fault condition An active state Device initiates OAM communications by sending PDUs across the link connected to an OAM enabled port The Device at the other end if OAM capable responds to the request from the active Device by establishing an OAM communications channel An OAM link event notifies its OAM peer of any symbol or frame errors that occurred on its link The window used for error monitoring along with the threshold value are configurable At the end of the window if the errors are greater than or equal to the threshold value an OAM event notification is sent to its peer If the threshold is set to zero then at the end of each window an event notification is sent this acts more like an asynchronous update of the link statistics Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section Vl FBRM BFFG Software Features Software feature descriptions continued Table 3 Device Software Configurable Features continued Last Gasp Dying Gasp OAM IEEE 502 3ah 2004 standard Remote Loop Back OAM IEEE 802 3ah 2004 standard Active All FBRM BFFG Devices come equipped with a Last Gasp OAM Dying Gasp feature This feature enables the Device to store a small amount
25. has the following ports and LEDs Ports Front Panel LEDs e Power one Two 1000Base FX LX BX fiber either SC or ST connectors e Fiber Port Link two e Duplex one One USB e USB one SC Connector SC Connector Fiber Fiber USB Port USB LED Fiber Link E Fiber Link LED LED Figure 6 Chassis CBFFG13xx 1xx Device Front Panel Note The LEDs and ports are the same on the SBFFG13xx 1xx standalone models Continued on next page Transition Networks Section FBRM BFFG Product Description Hardware description continued Front panel The front panel of the SFBRM1040 140 redundant Devices has the following ports SFBRM and LEDs Front Panel LEDs e Power one 1000Base SX LX SFP ports 2 and 3 e Link Active e Duplex 10 100 1000Base T copper port 1 e Speed e Duplex one One USB e USB one Duplex LED SFP Port 3 SFP Port 2 Speed LED por e USB Port i 7 f A ad N P f a
26. in Figure 26 Connect To x ee e Enter details for the phone number that you want to dial Countryvregion United States of America 1 Area code BEE Phone number Connect using COM Cok COM COMMS TCP IP Mfinsock n Figure 26 Connect To Dialog Box Continued on next page 30 Transition Networks Section Ill FBRM BFFG1 Driver Installation amp COM Port Setup Contiguring COM port continued Terminal emulator setup continued Select the COM port identified for the USB Device shown in the Device manager z Click the OK button to bring up the port settings dialog box shown in Figure 27 COM3 Properties Ei Port Settings Bits per second svs0o A Data bits fe Ff Parity None ssi Stop bitz 1 Flow control eae Restore Defaults Figure 27 COM Port Settings Dialog Box Set the COM port properties as follows e Baud 57600 e Data length 8 e Parity None e Stop bit l e Flow Control None Click the OK button and the Device login prompt will appear 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 31 Transition Networks Section live Initial Device Setup Introduction There are four ways to set up the FBRM BFFG 1xxx 1xx Devices before the Device can be operated and managed e USB CLI e Telnet e Chassis MMU chassis model e P based directly to FBRM BFFG The factory default IP configuration
27. is the following e IP address 192 168 1 1 e Subnet Mask 255 255 255 0 e Gateway 192 168 1 2 In this section These are the topics USB CLI access Initial Device setup via USB CLI Initial Device setup via Telnet directly to Device Initial Device setup via chassis agent MMU web based Initial Device setup via IP web based directly to Device 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 a Transition Networks Section IV FBRM BFFG Initial Device Setup USB CLI access Accessing the To access the USB CLI do the following USB CLI Connect the Device to a computer via the USB port Activate the terminal emulator software to launch the emulator screen Press the ENTER key to bring up the password prompt 4 Enter the password and then the login default is root in both cases to bring up the Device console gt prompt shown in Figure 28 Password Login root Password Console gt _ Figure 28 Device Console Prompt To access the commands list at the console gt prompt type help or Press the ENTER key to launch the commands screen shown in Figure 29 Password Login root Password Console gt help Commands are arp sys contact set usb netstat set set l3capability ps set dhcp set snmpaccess exit set gateway set mgmtvlan help set ip ifconfig set netmask 1foam cls set trapmgr show ping set community show ifconfig reboot set grou
28. performance In addition the Devices filter packets destined for local Devices which reduces network congestion Far End Fault FEF FEF is a troubleshooting feature With FEF enabled if the receiver on the fiber port goes down on one Device a FEF idle pattern is sent to the other Device to terminate data transmission Then an SNMP trap is sent to the administrator identifying the fiber link loss If FEF is disabled a down Rx link on one Device does not transmit to its peer the down link notification will not be passed on For FEF enabled and disabled scenarios see illustration below Converter 2 1 Up Disabled If Fx 1 Drops iE Converter 1 Up Fx 2 Stays Up Enabled If Fx 1 Drops Tx FBRM FBRM Tx Up Converter 1 Converter 2 Up Fx 2 Goes Down Far End Fault Detection If FEFD is enabled when the receiver on the fiber port FEFD Fiber Ports goes down on one Device it sends a far end fault pattern to the other side to bring down the fiber port on both ends An SNMP trap will be sent to the administrator indicating the fiber link loss If FEFD is disabled a down Rx link on one Device is not transmitted to the other Device the link down signal will not be passed over the link Continued on next page 62 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Transition Networks Section Vl FBRM BFFG Software Features Software feature descriptions continue
29. port Ethernet Switch Port Link 1 DOWN 2 42 DOWN 2 3 DOWN 2 4 DOWN 2 5 DOWN 2 46 DOWN 2 zoags 125 CPSMP100 200 Instant Failover Power Supply Pwrl Power OK YES 1 In Use YES 1 refresh agent summary Figure 52 Devices in Chassis Slots Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 53 Section V FBRM BFFG Device Management Transition Networks Device management via chassis agent MMU web based continued 54 7 Click the VIEW button of the CFBRM CBFFG Device to bring up the local switch management screen See Figure 53 CFBRM1054010 100 10 100 AH IP Converter Cabinet30465 Sloi6 Local Switch Parameter V alue Followed by integer value from MIB if applicable Group membership Ic onfig Match NAG Serial Number 1032 Firmware Rewision D Link Passthrough Transparent End IF to End TP ENABLED Local Fiber to TF ENABLED Figure 53 Local Switch Configuration Screen i ee Scroll down to the LOCAL PORT buttons shown in Figure 54 Local Pot 1 RJ 45 10 DOWN Local Port 2 SFP slot 40 DOWN device summary agent summary roubleshooting Hel Figure 54 Local System Configuration Local Port Buttons Note DO NOT use the browser BACK button to navigate the screens This will cause the connection to drop Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Sec
30. the administrator 70 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section VII Operations Introduction This section explains the operational status LEDs and what they indicate along with product features and the three methods use to upgrade the firmware In this section These are the topics Status LEDs OAM Device management configuration options 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 71 Section VII FBRM BFFG Operation Transition Networks Status LEDs Status The FBRM series Devices are designed to operate without user intervention Use the monitoring status LEDs to monitor Device operation once it has been installed in the network LEDS See Figure 59 Duplex LED Speed LED Power LED L Act LED 100Base FX 10 100Base TX USB Duplex LED USB LED Figure 59 FBRM Device LEDs LED status Tables 5 6 and 7 explain the status of the power USB twisted pair TP and fiber tables LEDs Table 5 Power and USB LEDs FBRM Devices ON has power OFF no power Blinking activity OFF no activity Table 6 TP Bi Color LEDs FBRM Devices TP LEDs Duplex Yellow Half duplex TPLink activity ON link BLINK activity Green Full duplex TPLink activity ON link BLINK activity Speed Yellow ON 10Mbs Green ON 100Mbs Table 7 Fiber LEDs FBRM Devices Fiber LEDs ON link blinking activity ON full OFF half Continued on
31. transportation cost to Transition Networks for evaluation of said product s for repair or replacement Transition Networks will pay for shipping the repaired or replaced in warranty product s back to the customer any and all customs charges tariffs or and taxes are the customer s responsibility Before making any non warranty repair Transition Networks requires a 200 charge plus actual shipping costs to and from the customer If the repair is greater than 200 an estimate is issued to the customer for authorization before making the repair If no authorization is obtained or the product is deemed not repairable Transition Networks will retain the 200 service charge and return the product to the customer not repaired Non warranted products repaired by Transition Networks for a fee will carry a 180 day limited warranty All warranty claims are subject to the restrictions and conventions set forth by this document Transition Networks reserves the right to charge for all testing and shipping incurred if after testing a return is classified as No Problem Found This warranty is your only remedy No other warranties such as fitness for a particular purpose are expressed or implied Transition Networks is not liable for any special indirect incidental or consequential damages or losses including loss of data arising from any cause or theory Authorized resellers are not authorized to extend any different warranty on transition n
32. 100 SFBRM1035 100 Fiber optic transmitter power Fiber optic receiver sensitivity Link budget CFBRM 1029 100 CFBRM1029 101 SFBRM1029 100 SFBRM1029 101 Fiber optic transmitter power Fiber optic receiver sensitivity Link budget CFBRM 1029 102 CFBRM1029 103 SFBRM1029 102 SFBRM1029 103 Fiber optic transmitter power Fiber optic receiver sensitivity Link budget Note Specifications 1310 nm single mode min 5 0dBm max 0 0 dBm min 34 0 dBm max 7 0 dBm 29 dB 1550 nm single mode min 5 0dBm max 0 0 dBm min 34 0 dBm max 7 0 dBm 29 dB 1550 nm single mode min 0 0 dBm max 5 0 dBm min 36 0 dBm max 3 0 dBm 36 dB 1310 nm TX 1550 nm RX simplex 1550 nm TX 1310 nm RX simplex 1310 nm TX 1550 nm RX simplex 1550 nm TX 1310 nm RX simplex min 14 0 dBm max 8 0 dBm min 33 0 dBm max 3 0 dBm 19 dB 1310 nm TX 1550 nm RX simplex 1550 nm TX 1310 nm RX simplex 1310 nm TX 1550 nm RX simplex 1550 nm TX 1310 nm RX simplex min 8 0dBm max 3 0 dBm min 33 0 dBm max 3 0 dBm 25 dB The fiber optic transmitters on these Devices meet Class I Laser safety requirements per IEC 825 CDRH standards and comply with 21 CFR1040 10 and 21CFR1040 11 WARNING Visible and invisible laser radiation when open Do not stare into the beam or view the beam directly with optical instruments Failure to observe this warning could result in an eye injury or blindness WARNING Us
33. 3 amp 6 are the two active pairs in an Ethernet network e RJ 45 pin outs on MDI cable Pin 1 TD Pin 2 TD Pin 3 RD Pin 6 RD e Use only dedicated wire pairs for the active pins e g blue white amp white blue orange white amp white orange etc e DO NOT use flat or silver satin wire straight Through Cable Crossover Cable Twisted Pair 1 Twisted Pair 1 Twisted Pair 2 Twisted Pair 2 Figure 69 MDI Straight Through and MDI X Crossover Cables 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 89 Transition Networks Section IX FBRM BFFG Cable amp Fiber Optic Specifications Fiber optic cable and connector specifications Fiber cable Cable physical characteristics must meet or exceed EEE 802 3 specifications characteristics Parameter Specification Bit Error Rate lt 10 9 Single mode fiber 9 um Multimode fiber 62 5 125 um Multimode fiber 100 140 85 140 50 125 um Copper to fiber The following are FBRM10xx 1xx copper to fiber connector specifications connectors Fiber Optics CFBRM1011 100 SFBRM1011 100 Specifications 1300 nm multimode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm Link budget 11 dB CFBRM1013 100 SFBRM1013 100 1300 nm multimode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0
34. 312 Continued on next page International 00 1 952 941 7600 Section IX FBRM BFFG Cable amp Fiber Optic Specifications Transition Networks Fiber optic cable and connector specifications continued FBRM fiber to fiber Gbit connectors continued Fiber Optics CFBRM1335 100 SFBRM 1335 100 Link budget 24 Hour Technical Support 1 800 260 1312 Port 1 Specification 1310 nm multimode 11 dB International 00 1 952 941 7600 Port 2 Specification 1550 nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 0 0 dBm max 5 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0dBm min 27 0 dBm max 3 0 dBm Link budget 11 dB 27 dB FBRM fiber to fiber Gbit with DMI connectors Fiber Optics Port 1 Specification Port 2 Specification CFBRM1313 110 DMI SFBRM1313 110 DMI 1300 nm multimode 850nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 9 5 dBm max 4 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 18 0 dBm max 3 0 dBm Link budget 11 dB 8 5 dB CFBRM1314 110 DMI SFBRM1314 110 DMI 1300 nm multimode 1310 nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 9 0 dBm max 3 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 21 0 dBm max 3 0 dBm Link budget 11 dB 12 dB CFBRM1315 110 DMI SFBRM1315 110 DMI 1300 nm multimode 1310 nm single mode Fiber optic transmitter power min
35. 312 International OO 1 952 941 7600 21 Section Il FBRM BFFG Hardware Installation Transition Networks Connecting power standalone models Chassis powers Transition Networks Point System chassis powers the CFBRM CBFFG chassis slide in Device Devices Adapter powers Use an AC power adaptor to power the SFBRM SBFFG standalone Device To standalone connect power to the Device do the following Connect the barrel connector on the power adapter cord to the power connector on the Device located on the rear of the Device See Figure 16 Rear Panel Power Connector Gonvaner Figure 16 Standalone Device Power Connector Connect the power adapter plug into AC power Verify that the Device has powered UP the power indicator LED will be lit 22 Transition Networks Section Il FBRM BFFG Hardware Installation Intentionally Blank 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 23 Transition Networks Section III USB Driver Installation amp COM Port Setup Introduction This section shows how to install the USB driver and configure COM ports In this section These are the topics Topic Installing USB driver Configuring COM ports 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 24 Transition Networks Section Ill FBRM BFFG1 Driver Installation amp COM Port Setup Installing USB driver USB driver The driver installation instructions are for
36. 3ah Bridge MainMenu LocalREBOOT Figure 42 FBRM BFFG Main Menu Continued on next page Transition Networks Section IV FBRM BFFG Initial Device Setup Initial Device setup IP web based directly to Device continued Click the local system configuration VIEW button to show the local system configuration menu shown in Figure 43 Note You can configure the IP along with other Device parameters on this screen MainMenu LocalREBOOT Local System Configuration Parameter Value Followed by integer value from MIB if applicable Description Transition Networks CFERM100 802 3ah Remotely Me Contact fiechsuppor tansiioncom Name keema oo Location Not nitialized UpTime 01 16 16 56 SEVE Execute Farameter Value Followed by integer value from MIB if applicable Marketing Rewsion bere Config Match NOT APPLICABLE 3 Bootlo ader Version D Firmware Version E Serial Humber 1234567890 MAC Address 00 CO F2 01 04 96 DHCP DISABLE 2 Reset system for DHCP configuration to take effect T Address f g2 251 144 150 Subnet Mask 255 255 255 0 Default Gateway f 92 251 144 2 SNMP Trap Mer ooo SAVE Execute Figure 43 FBRM BFFG Local System Configuration Screen Note DO NOT use the browser BACK button to navigate the screens This will cause the connection to drop Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 45 Section IV FBRM BFFG Initial Dev
37. 3xx 1xx 100Base FX to 1000Base X Device Configuration Port 1 100Base FX e Default setting 100Mbs and full duplex e FEFI Far end fault indication is configurable Port 2 1000Base X Default e Auto Negotiation enabled e OAM enabled and in Active Mode if chassis Device passive if standalone Table 2 BFFG13xx 1xx 1000Base X to 1000Base X Device Configuration Port 1 1000Base X Default Auto Negotiation enabled Port 2 1000Base X Default e Auto Negotiation enabled e OAM is enabled and in Active Mode if chassis Device passive if standalone Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 13 Section I FBRM BFFG Product Description Transition Networks FBRM BFFG13xx 1xx fiber to fiber gigabit models continued Connectivity The different versions of the FBRM and BFFG can be connected and set up to manage a remote peer completely In a mixed setup with other FBRM or BFFG Devices consider the connectivity scenarios in Figure 9 and the explanation that follows Scenario 1 1000Base X 10 100Base T 100Base FX Ports gt 4 A Active Local Peer P Passive Remote Peer Scenario 2 1000Base X 100Base FX Single Mode 1000Base X Single Mode gt Multimode Fiber gt lt A Active Local Peer P Passive Remote Peer Figure 9 Connectivity Scenarios Connection In Figure 9 P2 of the active local peer in both scenarios is
38. Advanced System Configuration Port 1 Link Up Port 2 Link Up MAC Address Configuration VLAN Table Configuration Remote System on Port 2 Advanced Configuration for Remote System on Port 2 Port 1 Link Down z E Z D T D T D T D Port 2 Link Up MainMenu LocalIREBOOT Figure 57 FBRM BFFG Main Menu Note DO NOT use the browser BACK button to navigate the screens This will cause the connection to drop Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 57 Section V FBRM BFFG Device Management Transition Networks Device management via IP web base directly to Device continued OAM configuration OAM config screen 58 The OAM configuration screen allows enabling or disabling OAM by setting the mode to active or passive If the remote Device is a Transition Networks FBRM BFFG Device the main menu PORT button with the remote Device connected will show the options for managing the remote OAM peer The Devices are interoperable with other IEEE 802 3ah compliant Devices Standard OAM discovery loopback dying gasp link and other critical events are supported The OAM configuration screen for that port will show the following e OAM state e MAC address e OUI unique identifier Note On the SFBRM1040 1xx redundant models there can be only one 1 OAM session at a ttme the OAM
39. C and VLAN CaDIGCx PAN AMON sick dovisisiea cass teetsccrosweesihderioiendes 142 Management IP based Web ccccccccccceesececesseceeeeeeceeenees 4 58 VIII ane N 4 55 SANIP e E E E te 52 TG ING EE A AET A A E S A EAE T A 4 IN EV ate MIB Seerias rE 53 Blot 6 E ET EPE EE A TE ET Vereen T 4 MIB standard COUNLETS ynesiae EEEE 68 MMU lo alswiteh setine Siss a 44 OAM alternate loop Dack ccccscececceeeeeeeeeeeeeseeeeeeees 67 configurato Mie a 60 ER VENUS E E E 65 device configuration management options 77 CIS COVERY ea a ad dest N 65 event notification with logging cccseeeeeeees 66 inwa UP Clade merena a N 81 last easp dyine Gasp catia aeara N 67 Operation admin maintenance cccceeeeeeeeees 66 Ol Uperremrrrrrr rec wri etre tee N 68 redundant model note cece eeeceeceeceeeees 60 66 remote JOOP BACK s ienvi ove as ond tows E ones 67 WU IS 1 oh sovacnedotenlakdn yang E donatece 2 Panel Front BFFG gbit POLS and LEDS ee aAa 10 FBRM pors and LEDS reira a 5 FBRM gbit POLS and LEDS enirn renee EEE 7 SFBRM Redundant porns and LEDs aay easielan 11 Panel Rear POWEE CONNECOL oreinen e O 12 standalone models OnLY ccccccceceeceeeeseseeeeees 12 Pause flow control and back pressure c00seeeeeees 69 Port Configuration TE GD tees canta ENA 13 FBRM GD renTo hare haat eis 13 Ports 1000Base FX LX BX ccceeesessetcceeeeeeeeeeees 7 10
40. FBRM BFFG Software Features Software security feature descriptions Table 4 Device Software Configurable Security Features Security Feature 802 1x MAC filtering CLI Timeout on Idle IP access system level port level MAC addresses blocking Management VLAN SNMP access Radius authentication When enabled on a port stops learning all MAC addresses To allow any frame with a MAC address not in the Static MAC database access the user needs to add the new address or it will be discarded This allows filtering any unauthorized access to the network by unknown MAC addresses If the CLI session on USB Telnet is idle for more than two 2 minutes the session will time out requiring logging in to re gain access to the CLI Any management of the system via IP can be locked at the system level or only on certain ports For example management can occur via web SNMP only on Port 1 so that access via other ports can be blocked The MAC address can be added to the static MAC address database with the connected port as zero This will cause any frames from that MAC address database to cause an ATU member violation on that port resulting in sending a trap This could cause excessive traps overload the CPU with interrupts depending on the traffic generated by that MAC The user can disable all traps by setting the Ignore SA Violation on the port that is receiving the MAC address under Advanced Port Configuration on the web p
41. FBRM1017 110 DMI SFBRM1017 110 DMI 1550 nm single mode long wave length min 5 0dBm max 0 0 dBm Fiber optic transmitter power min 34 0 dBm max 7 0 dBm Fiber optic receiver sensitivity 29 dB Link budget CFBRM1035 110 DMI SFBRM1035 110 DMI 1550 nm single mode Fiber optic transmitter power min 0 0 dBm max 5 0 dBm Fiber optic receiver sensitivity min 36 0 dBm max 3 0 dBm Link budget 36 dB Continued on next page 92 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Section IX FBRM BFFG Cable amp Fiber Optic Specifications Transition Networks Fiber optic cable and connector specifications continued Copper to fiber connectors with DMI continued Fiber Optics Specifications CFBRM1029 110 DMI 1310 nm TX 1550 nm RX simplex CFBRM1029 111 DMI 1550 nm TX 1310 nm RX simplex SFBRM1029 110 DMI 1310 nm TX 1550 nm RX simplex SFBRM1029 111 DMI 1550 nm TX 1310 nm RX simplex Fiber optic transmitter power min 14 0 dBm max 8 0 dBm Fiber optic receiver sensitivity min 33 0 dBm max 3 0 dBm Link budget 19 dB CFBRM1029 112 DMI 1310 nm TX 1550 nm RX simplex CFBRM1029 113 DMI 1550 nm TX 1310 nm RX simplex SFBRM1029 112 DMI 1310 nm TX 1550 nm RX simplex SFBRM1029 113 DMI 1550 nm TX 1310 nm RX simplex Fiber optic transmitter power min 8 0dBm max 3 0 dBm Fiber optic receiver sensitivity min 33 0 dBm max 3 0 dBm Link budget 25 dB Note The fiber optic t
42. G1 Driver Installation amp COM Port Setup Installing USB driver continued J Use the BROWSE button to locate the USB driver as shown in Figure 20 Found New Hardware Wizard Please choose your search and installation options ee Y Search for the best driver in these locations Use the check boxes below to limit or expand the default search which includes local paths and removable media The best driver found will be installed C Search removable media floppy CD ROM Include this location in the search IC FBRM BFFG1xx RP Don t search will choose the driver to install Choose this option to select the device driver from a list Windows does not guarantee that the driver you choose will be the best match for your hardware Cea Figure 20 Driver Location Click the NEXT button to start installing the driver and the driver install screen will appear as XP copies the Device driver See Figure 21 Found New Hardware Wizard Please wait while the wizard installs the software D FBRM BFFG1xx Driver Figure 21 Windows XP Installing Driver Box Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 27 Section III FBRM BFFG USB Driver Installation amp COM Port Setup Transition Networks Installing USB driver continued Action After the driver installation is successful the finished installing dialog box will appear as shown in F
43. G1029 100 CBFFG1029 101 CBFFG1029 102 CBFFG1029 103 CBFFG1313 100 CBFFG1314 100 CBFFG1315 100 CBFFG1317 100 CBFFG1335 100 CBFFG1340 100 CBFFG1329 100 CBFFG1329 101 CBFFG1329 102 CBFFG1029 103 CBFFG1313 110 CBFFG1314 110 CBFFG1315 110 CBFFG1317 110 CBFFG1335 110 CBFFG1340 110 CBFFG1329 100 CBFFG1329 111 CBFFG1329 112 CBFFG1029 113 International 00 1 952 941 7600 Transition Networks Continued on next page 103 Transition Networks Section X FBRM BFFG Contact Us Warranty amp Conformity Information Conformity declaration continued SBFFG1313 100 SBFFG1314 100 SBFFG1315 100 SBFFG1317 100 SBFFG1335 100 SBFFG1340 100 SBFFG1329 100 SBFFG1329 101 SBFFG1329 102 SBFFG1029 103 SBFFG1313 110 SBFFG1314 110 SBFFG1315 110 SBFFG1317 110 SBFFG1335 110 SBFFG1340 110 SBFFG1329 110 SBFFG1329 111 CBFFG1329 112 SBFFG1029 113 Regulations EMC Directive 89 336 EEC Purpose To declare that the CFBRM1xxx 1xx SFBRM1xxx 1xx CBFFG1xxx 1xx and SBFFG1xxx 1xx Devices to which this declaration refers is in conformance with the following standards CISPR22 1993 EN55022 1994 A1 1995 A2 1997 Class A FCC Part 15 Subpart B UL1950 21 CFR Subpart J I the undersigned hereby declare that the equipment specified above conforms to the above Directive s and Standard s Spd Lte diim July 2008 Steven Anderson Vice President of Engineering Date 104 24 Hour Technical Support 1 800 260 1312 Intern
44. Negotiation to be enabled on the twisted pair interface Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Appendix D IP Based and Chassis Management Parameters Transition Networks Table 25 Media Device Parameters Chassis Fomarding DB __ he forwarding database of the atch oo a the forwarding database of the switch v v This erases all configuration data and sets e Device actor deta stings FlushFDB V __ Flushes all forwarding database entries __ Flush VLANDB V __ Flushes all VLAN database entries Histogram Mode v This determines what frame types are Factory Defaults accounted for in the port counters The choices are count only RX frames or TX frames or both IEEE Priority class v IEEE 802 1p priority mapping The value n 0 7 in this field is used as the priority of the frame if it has the tag n IP Traffic class n v IP priority remapping The value in this 1 64 field is used as the priority of the frame if its IP TOS bits have a traffic class value between 0x00 and OxEO with 1 gt 0x00 2 gt 0x04 64 gt OxEO Reset Counters Resets all port counters to zero Table 26 Port Configuration Parameters IP based Admin Status v v The administrative status of the interface should be enabled for normal operation When the admin state is disabled the port goes into listening mode the link will be UP but th
45. RM BFFG Troubleshooting Transition Networks Troubleshooting problem and corrective action table continued Corrective Action The Trap Server does not record traps continued Cannot activate IP based management TLPT and SLDP are not working OAM session 1s not active OAM remote Device is detected on local but cannot configure remote from local The response is FLASH Saving configuration please wait up to one minute Writing Flash 04004500 05F8 OOFEOO00 OOFFFFFE Erasing Done Erasing Verifying Writing 000005E8 0000F FFF Done Writing Verifying FLASH Write complete e Are the IP Gateway and subnet mask configured correctly e With DHCP enabled DHCP could have failed leaving the system with the old static IP config Verify the configuration via the USB port e Make sure IP based access is not turned OFF in the system e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 e Are the TLPT and SLDP enabled on both systems Refresh web pages to make sure they are set e Check if port binding for TLPT RFD is set to the active OAM channel e With 100Base Fx make sure far end fault is enabled e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 e If OAM is enabled check the ports on the local and remote Devices e Make sure the local Device is in OAM Active Mode e Make sure the remote peer Device is set to Pas
46. SS CHO UO Mi osiin AE AE 2 FOCUS ti eatr ES goias E O O E OTE E TA O OEE 3 Managemen INCU OCS amrin nirisn in se a E A R E A Dtette 4 BRE CE E D T ALEE EEE E E E EE A E E E T E ETE 5 FBRM BFFG13xx 1xx fiber to fiber gigabit models s sssssessssessssssessrsssessrsesessrsesessrsestesrsesteseseseeseseserseses 13 Redundant SFBRM1040 140 models cecesceeseeseeseesseesecsseesecseeesecseceeeesecseeesecseeesesseeeaeseeeeaeceeeseeeeenaeeaes 15 DS CLIO E N E A tances A E E S S T AE true A S T E A T 17 Hardware WAS Tel AU Omerin a A A N E tneseesseeasens e 17 Installing CFBRM CBFFG cards into point system Chassis eccescesceseeeeeeeceeceeeeceeseeseeeeeeeeseeaeeseeaeeaeens 18 Installing SFBRM SBFFG standalone models ssesssesesesessessessssssesrsrsrsrsesrsrstsrsrsrsestetstsrsesesesrsrsrsrseseseeee 19 IIStA UNS MIDE AIG Copper cable Seas a E E a A caa Ae 20 CONMeCIING DOW Er Canad onEe TOG EIS sinesine E E EE ai sevieostaupea toes 22 SE CUO My U ene TE T EOT ts omeuesivays ust OTE ie 24 USB Driver Msta lation amp COM Port SETUD siina astute ater lattes inca A uate sau ly 24 Tors Wi Tiare U SBOV aa E E T E emery rer eee ee 25 COMMU ING CIM DOreiriren anan A E heen aaa eewa ee eee 29 SS LOIN ast cla hermes oeeclentncet a teeta a aa eto hes A 32 PTET DECE SOUS acetates EE ceeulon cat E aa e eetieu iota E A 32 UOB CU ACCO S sasornsars scnnsgnsonmacttcasae nines shes sans eapnsansenaebbeameotsnachassoteeanoeeaaunsaadusipad heiboereieambitseset
47. Windows XP only Installing the USB driver using Windows 2000 is similar but not necessarily identical to the following Windows XP driver installation procedure Note The following USB drivers are provided with the product on a CD also available at www ftdichip com click on drivers WinXP64 Win Server 2003 Win 2002 Win ME 98 Mac OS X 9 8 and Linux Installing USB To install the USB driver on a computer with a Windows XP OS do the following driver Action l Extract the driver provided CD or from website and place it in an B e etocal dives PE hardware wizard dialog box shown in Figure 17 Select RADIO button No not this time as shown in Figure 17 Found New Hardware Wizard Welcome to the Found New Hardware Wizard Windows will search for current and updated software by looking on your computer on the hardware installation CO or on the Windows Update Web site with your permission Can Windows connect to Windows Update to search for software O ves this time only Yes now and every time connect a device No not this time Click Next to continue Figure 17 Found New Hardware Wizard Dialog Box Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 25 Section III FBRM BFFG USB Driver Installation amp COM Port Setup Transition Networks Installing USB driver continued Installing USB driver continued Action Click the NEXT butt
48. a Device operation once LEDs installed in the network See Figure 61 J WU O UO O UO OY 1000Base X Tt ge Duplex USB LED SED Fiber Link LED Fiber Link LED LED UJU U U U U O 1000Base X Fiber Link Fiber Link LED LED Figure 61 CBFFG CFBRM1xxx xx Gbit Device LEDs USB LED LED LED status Tables 11 and 12 explain the status of the power USB link duplex LEDs for Gbit table Gbit FBRM BFFG Devices Table 11 Power and USB LEDs ON has power OFF no power USB Blinking activity OFF no activity Table 12 Fiber LEDs Fiber LEDs ON link blinking activity ON full OFF half BFFG models only 74 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Transition Networks Section VII FBRM BFFG Operation OAM Device management configuration options OAM mgmt OAM Mode control is a feature of the FBRM BFFG Devices It can be set to Auto configuration default or set manually Active Passive Disabled options e In Auto Mode the Device decides the OAM operation e In Manual Mode the user decides the OAM Mode Active Passive Disabled Table 13 lists the default configuration Table 13 OAM Device Configurations S
49. age 126 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Appendix C Device Commands amp Definitions Transition Networks SNMP GET on the OID is performed try snmpget help for more information Usage snmpget oid 1 2 3 4 variable lt leaf var tableEntry x y gt e If the oid option is used the indices should be present for table variables and 0 for leaf variables e If the variable option is used the leaf variables can be named as 1s the table variables have the following format lt tableentry gt index index2 Ex snmpget variable sysUpTime snmpget variable ifEntry lt col gt lt ifNumber gt SNMP get next on the OID is performed if there is no OID specified It uses OID from the last SNMP query try snmpgetn help for more information Usage snmpgetn oid 1 2 3 4 variable lt leaf var tableEntry x y gt e If the oid option is used the indices should be present for table variables and O for leaf variables e If the variable option is used the leaf variables can be named as 1s the table variables have the following format lt tableentry gt index index2 Ex snmpgetn variable sysContact snmpgetn variable ifEntry if ntry lt col gt lt ifNumber gt SNMP SET on the OID is performed with the value try snmpset help for more information Usage snmpset oid lt xy z gt type lt STR IP INT gt value lt value gt e Strings must be enclosed in quote
50. age In a VLAN enabled network the administrator can assign a VLAN as a management VLAN This VLAN ID will be used in all management frames This separates the management traffic from the data The administrator can stop all SNMP access to the Device if not used This will prevent unauthorized access to the system configuration but the SNMP traps will still be sent The Device supports authentication using the RADIUS protocol When enabled RADIUS authentication is used for Web login serial port and Telnet authentication The Radius server and the shared secret needs to be configured using CLI Web SNMP before enabling RADIUS authentication Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 69 Section VI FBRM BFFG Software Features Transition Networks Software security feature descriptions continued Table 4 Device Software Configurable Security Features continued Security Feature Select Link Pass When enabled a link change on Port 2 is passed on to Through LTP Port 1 twisted pair For example on a 10 100BaseT to 100Base FX Device when the monitored port fiber Note Inthe redundant goes DOWN LPT forces the twisted pair DOWN The models SFBRM1040 LPT Port binding allows the user to choose which port to 1xx this feature only monitor for LPT works when the Device is in redundant mode unauthorized access to the system CLI configurable and can be set by
51. ances for Port 1 listed in Table 19 are typical maximum distances the physical characteristics of the network dictate actual distances Note Compatible SFP transceiver Devices for the FBRM1040 1xx Devices are available from Transition Networks sold separately See the TN SFP xxx series SFP manual 33308 at www transiton com for available options 114 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Appendix A FBRM BFFG Part Numbers Transition Networks BFFG copper to fiber part numbers Standard The models shown in Table 20 perform as described in this manual models Table 20 xBFFGxx 1xx Model Numbers Port 1 Copper Port 2 Fiber Fart Number 10 100 1000Base T 1000Base X CBFFG1040 100 RJ 45 Empty Slot SBFFG1040 100 100m 328 ft Note The distances for Port 1 listed in Table 20 are typical maximum distances the physical characteristics of the network dictate actual distances Note Compatible SFP transceiver Devices for the FBRM1040 1xx Devices are available from Transition Networks sold separately See the TN SFP xxx series SFP manual 33308 at www transiton com for available options Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 115 Transition Networks Appendix A FBRM BFFG Part Numbers BFFG fiber to fiber part numbers Gbit models The models shown in Table 21 perform as described in this manual Table 21 BF FG13xx 1xx Gbit Models
52. and xBFFG1xxx 1xx Media CFBRM1011 100 CFBRM1013 100 CFBRM1014 100 CFBRM1015 100 CFBRM1016 100 CFBRM1017 100 CFBRM1035 100 CFBRM1040 100 CFBRM1029 100 CFBRM1029 101 CFBRM1029 102 CFBRM1029 103 CFBRM1011 110 CFBRM1013 110 CFBRM1014 110 CFBRM1015 110 CFBRM1016 110 CFBRM1017 110 CFBRM1035 110 CFBRM1040 110 CFBRM1029 110 CFBRM1029 111 CFBRM1029 112 CFBRM1029 113 CFBRM1313 100 CFBRM1314 100 CFBRM1315 100 CFBRM1317 100 CFBRM1035 110 CFBRM1040 100 CFBRM1029 100 CFBRM1029 100 CFBRM1029 100 CFBRM1029 100 CFBRM1313 110 CFBRM1314 110 CFBRM1315 110 CFBRM1317 110 CFBRM1035 110 CFBRM1040 110 CFBRM1029 110 CFBRM1029 111 CFBRM1029 112 CFBRM1029 113 SFBRM1011 100 SFBRM1013 100 SFBRM1014 100 SFBRM1015 100 SFBRM1016 100 SFBRM1017 100 SFBRM1035 100 SFBRM1040 100 SFBRM1029 100 SFBRM1029 101 SFBRM1029 102 SFBRM1029 103 SFBRM1011 110 SFBRM1013 110 SFBRM1014 110 SFBRM1015 110 SFBRM1016 110 SFBRM1017 110 SFBRM1035 110 SFBRM1040 110 SFBRM1029 110 SFBRM1029 111 SFBRM1029 112 SFBRM1029 113 SFBRM1313 100 SFBRM1314 100 SFBRM1315 100 SFBRM1317 100 SFBRM1335 110 SFBRM1340 100 SFBRM1329 100 SFBRM1029 100 SFBRM1329 100 SFBRM1329 100 SFBRM1313 110 CFBRM1314 110 SFBRM1315 110 SFBRM1317 110 CFBRM1335 110 SFBRM1340 110 SFBRM1329 110 CFBRM1329 111 CFBRM1329 112 SFBRM1329 113 CBFFG1013 100 CBFFG1014 100 CBFFG1015 100 CBFFG1017 100 CBFFG1024 100 CBFFG1035 100 CBFFG1040 100 CBFF
53. anel The front panel of the CBFFG10xx 1xx Devices has the following ports and LEDs CBFFG Gbit Front Panel LEDs e Power one 1000Base SX LX BX fiber SC port e Link Active 10 100 1000Base T copper port e Speed e Duplex one One USB e USB one Fiber Port Power Duplex Link Speed USB Port O x z A ma GO 1000Base X 10 100 1000 C USB Link Active RJ45 Port USB LED Figure 4 CBFFG10xx 1xx Device Front Panel Note The LEDs and ports are the same on the SBFFG1Oxx 1xx standalone models Continued on next page Transition Networks Section FBRM BFFG Product Description Hardware description continued Front panel The front panel of the CBFFG1040 1xx Devices has the following ports and LEDs CBFFG Gbit Front Panel LEDs e Power one 1000Base SFP port e Link Active 10 100 1000Base T copper port e Speed e Duplex one One USB e USB one or POr Duplex Link Speed 1000Base X 10 100 1000 C USB Link Active RJ45 Port USB LED Figure 5 CBFFG1040 1xx Device Front Panel Note The LEDs and ports are the same on the SBFFG1040 1xx standalone models Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 9 Section I FBRM BFFG Product Description Transition Networks Hardware description continued Front panel CBFFG Gbit 10 The front panel of the CBFFG13xx 1xx Devices
54. ational 00 1 952 941 7600 Section X FBRM BFFG Contact Us Warranty amp Conformity Information Transition Networks Warranty Limited lifetime Effective for products shipped May 1 1999 and after Every Transition Networks warranty labeled product purchased after May 1 1999 will be free from defects in material and workmanship for its lifetime This warranty covers the original user only and is not transferable What the This warranty does not cover damage from accident acts of God neglect warranty does contamination misuse or abnormal conditions of operation or handling including not cover over voltage failures caused by use outside the product s specified rating or normal wear and tear of mechanical components If the user is unsure of the proper means of installing or using the equipment contact Transition Networks free technical support Services Establishing To establish original ownership and provide date of purchase please complete and original return the registration card accompanying the product or register the product on line ownership on our product registration page Transition Networks will at its option e Repair the defective product to functional specifications at no charge e Replace the product with an equivalent functional product e Refund the purchase price of a defective product Who to contact To return a defective product for warranty coverage contact Transition Networks for returns technical supp
55. cks the frames Override for VLAN IDs that have the VTU Priority override bit set in the VLAN database It then replaces the priority of the frames with the priority specified in the VLAN entry which has a higher priority than the default of the frame and IP IEEE priorities Normal frame priority processing occurs when disabled Static MAC The static MAC and VLAN tables are supported only through IP based management and VLAN and not through chassis based management The chassis supports RMON MIB tables counters only on ports The IP based management supports public MIB counters such as RMON IFmib Ether like MIB EFM OAM HUB MIB and port counters directly from the switch Note The MIBs used by the chassis agent for the FBRM BFFG Device and the MIB used by IP based management are different The chassis agent does not support the EFM hub MIB If the remote Device is OAM capable but not a FRBRM BFFG Device from Transition Networks the EFM hub MIB will be queried for OAM status 140 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 RFC compliance Transition Networks Appendix E Request for Comment RFC Compliance The following is a list of RFC compliances IP Postel J Internet Protocol DARPA Internet Program Protocol Specification RFC 791 USC Information Sciences Institute September 1981 ICMP J Postel Internet Control Message Protocol RFC 792 September 1981 ARP Plummer Dav
56. d Table 3 Device Software Configurable Feature continued Full Duplex In a full duplex network maximum cable lengths are determined by the cable type See the Cable Specifications section for the different FBRM and BFFG models The 512 Bit Rule does not apply in a full duplex network Firmware upgrades Auto firmware upgrade enable disable bootloader In some cases there may not be a requirement for automatic firmware upgrades For example one might connect a remote peer Device with the latest firmware version before upgrading the local peer Device Typically the local peer Device would detect a different firmware version and will downgrade the firmware on the remote peer Device To prevent this disable automatic upgrade on the remote peer Device The remote peer Device will reject all upgrade requests from the local peer Device you can then upgrade the local Device Force upgrade This is used to force a firmware upgrade on the remote peer Device when the auto upgrade feature is disabled on the remote peer Device This gives the local peer Device authority to override the auto upgrade feature of its remote peer Device Half Duplex In a half duplex network the maximum cable lengths are determined by the round trip delay limitations of each Fast Ethernet collision domain A collision domain is the longest path between any two terminal Devices e g terminal switch or router The 512 Bit Rule determines the maximum l
57. dBm Link budget 11 dB CFBRM1014 100 SFBRM1014 100 Fiber optic transmitter power Fiber optic receiver sensitivity Link budget CFBRM1015 100 long haul SFBRM1015 100 long haul Fiber optic transmitter power Fiber optic receiver sensitivity Link budget 1310 nm single mode min 15 0 dBm max 8 0 dBm min 31 0 dBm max 8 0 dBm 16 dB 1310 nm single mode min 8 0 dBm max 2 0 dBm min 34 0 dBm max 7 0 dBm 26 dB WARNING Visible and invisible laser radiation when open Do not stare into the beam or view the beam directly with optical instruments Failure to observe this warning could result in an eye injury or blindness WARNING Use of controls adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure Continued on next page 90 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Section IX FBRM BFFG Cable amp Fiber Optic Specifications Transition Networks Fiber optic cable and connector specifications continued Copper to fiber connectors continued 24 Hour Technical Support 1 800 260 1312 Fiber Optics CFBRM1016 100 extra long haul SFBRM1016 100 extra long haul Fiber optic transmitter power Fiber optic receiver sensitivity Link budget CFBRM1017 100 long wave length SFBRM1017 100 long wave length Fiber optic transmitter power Fiber optic receiver sensitivity Link budget CFBRM1035
58. ddress and filename must be configured before starting the upgrade process TFTP can be started in the following ways e tftpupgrade command at the CLI e On the web using gt Local System Configuration gt TFTP upgrade perform 1 e Using SNMP set sfbrm100SysTFTPCmd to 1 perform After initiating the command the system resets to start the bootloader and then the tftp upgrade will start A message will appear like the example shown Figure 64 10 100BaseT to 100BaseFX IPBased 802 3ah Bridge Version A Copyright c 2006 Transition Networks Reading config from flash done Erasing Application Memory Set to TFTP Boot from Server nnn nnn nnn nnn Getting File FBRM bin amp 4 4k 2 w amp amp done Checking CRC ee eo od Figure 64 Firmware Upgrade via TFTP After a successful upgrade the application will start up Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section VII FBRM BFFG Operation Firmware upgrades continued OAM method What happens when the upgrade fails Admin intervention Bootloader CLI OAM firmware upgrades are done by the local active peer Device to its remote passive peer Device automatically This occurs when the active peer Device finds that its remote peer has a firmware revision different from its own The active peer Device sends a bootloader command to its remote pee
59. de Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 5 0 dBm max 0 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 20 0 dBm max 3 0 dBm Link budget 11 dB 15 dB CFBRM1317 100 SFBRM1317 100 1310 nm multimode 1550 nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 3 0 dBm max 2 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 24 0 dBm max 3 0 dBm Link budget 11 dB 21 dB CFBRM1329 100 1310 nm TX 1490 nm RX CFBRM1329 101 1490 nm TX 1310 nm RX SFBRM1329 100 1310 nm TX 1490 nm RX SFBRM1329 101 1310 nm multimode 1490 nm TX 1310 nm RX Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 8 0 dBm max 3 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0dBm min 22 0 dBm max 3 0 dBm Link budget 11 dB 14 dB CFBRM 1329 102 1310 nm TX 1490 nm RX CFBRM 1329 103 1490 nm TX 1310 nm RX SFBRM1329 102 1310 nm TX 1490 nm RX SFBRM1329 103 1310 nm multimode 1490 nm TX 1310 nm RX Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 3 0 dBm max 2 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0dBm min 23 0 dBm max 3 0 dBm Link budget Note 11 dB 20 dB The fiber optic transmitters on these Devices meet Class I Laser safety requirements per IEC 825 CDRH standards and comply with 21 CFR1040 10 and 21CFR1040 11 24 Hour Technical Support 1 800 260 1
60. defaults Resets the Device to factory default settings all current configurations will be erased help or Help or Displays the available commands help lt cmd gt Displays the command usage in detail ifconfig port lt portno gt Used to configure port parameters The port number for the configured port must be specified Valid port numbers start at 1 Usage ifconfig port lt portno gt adminstate lt enable disable autoneg lt enable disable gt duplex lt full half gt speed lt 10 100 1000 gt portstring lt value gt max 64 iptraffic lt enable disable gt The configurable parameters are as follows adminstate The port can be disabled or enabled autoneg Enable disable Auto Negotiation on this port duplex When Auto Negotiation is disabled Duplex Mode of the port can be set to full half duplex speed The port speed can be set to 10 100 Mbps when Auto Negotiation is disabled portstring A unique name can be assigned to each port iptraffic The IP traffic can be enabled disabled on each port individually Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 122 Appendix C Device Commands amp Definitions Transition Networks ifoam port lt portno gt OAM configuration for the specified port Usage ifoam port lt portno gt oam enable disable oammode active passive oamrmtloop enable disable OAM OAM can
61. device cccceee 41 Terminal Emulator SC BUD EEE ENE A A AE NEN 30 USB E E A T A E A A ATES 72 CIT ACCESS iromo EE ES 33 CLI device commands srei 33 CISTI SY Stemi CONE eieiei iaie 37 GRIN CE installati nir ananin 25 IP conii urati oN aE aa 35 144 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600
62. ds 3 5 oane i Mice and other pointing devices pee ole Disk Management mi aria bese K Disk Defragmenter a Logical Drives Eh Removable Storage EEE Services and Applications H Network adapters of Ports COM amp LPT jeee m Communications Port COM mn zZ Communications Port COM bese Printer Port LPT 1 5 USB Serial Port COM3 ghji Sound video and game controllers System devices H Universal Seral Bus controllers E Figure 24 Computer Management Window Expand the Ports COM amp LPT in the right column and write down the USB COM port number for configuring the terminal emulator software used for the USB Device Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 29 Section III FBRM BFFG USB Driver Installation amp COM Port Setup Transition Networks Configuring COM port continued Terminal To set up the terminal emulator software e g HyperTerminal to use the USB COM emulator setup port do the following Activate the HyperTerminal software to bring up the connection description dialog box shown in Figure 25 Connection Description uy New Connection Enter a name and choose an icon for the connection Mame HPT Icon LK Cancel Figure 25 Connexion Description Diallo Box 2 Type in a name and select an icon Click the OK button to launch the connect to dialog box shown
63. e lt MOT SET Disabled 4 6 6 8 Enabled Enabled 4 6 6 6 Sige SET gt Figure 35 System Configuration Screen International 00 1 952 941 7600 Continued on next page 39 Section IV FBRM BFFG Initial Device Setup Transition Networks Initial Device setup via telnet directly to Device continued ee At the console prompt type help Press the ENTER key to show the commands shown in Figure 36 Console gt help Commands are arp netstat ps exit help 7 cls ping reboot Save Factorydefaults tft pupgrade xmodemupgrade clearcounter dhcp gateway ip netmask trapmgr community qroupstring radius radiusip radiussecret tftpserver tftpfile Username password Set a set f ifcon ifoam show show show show show show show show show show utoupyg oOrceupy Fig version ifconfig ifcabletest ifstats ifpmonstats ifoam oamstatistics oampeer oamloophback yg usb show niecho Sys name l3capability snmpget sus location Snmpaccess snmpset Sus contact monty lan Ssnmpyetn set niecho snmpuwalk Console gt Figure 36 Device Command Screen Note The CLI and Telnet interface commands are structured in the same manner Terminating To disconnect the Telnet client from the management module server press the telnet CTRL D keys or at the console prompt type exit or logoff 40 Transition Networks Section IV FBRM BFFG Initial Device Setup Initial Device setup via cha
64. e interface does not forward frames Duplex and 10Mbps capability on this port and 10Mbps capability on this port Advt 10 Half v v iSi Duplex ili l Advt 100 Full v v Enable disable advertising full duplex Duplex and 100Mbps capability on this port a Duplex capability and 100Mbps capability on this port capability on the interface Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 131 Transition Networks Appendix D IP Based and Chassis Management Parameters Table 28 Port Configuration Parameters continued IP based Autocross v v When enabled detects and configures the twisted pair port on the Device to the correct MDI or MDI X configuration automatically Auto Negotiation Allows Devices to configure themselves automatically to achieve the best possible mode of operation over a link Connector Type ae a Connector type of the port DA Priority When enabled the DA destination Override address of the frame is used to get a hit on the address database with an entry matching the DA when priority override is enabled The priority specified in the entry is the new priority of the frame The DA override has a higher priority than the default priority of the frame IP TOS IEEE Priority tags VTU override and SA override Normal frame priority processing occurs when disabled Default Forward When enabled multicast frames with unknown destination addresses a
65. e of controls adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure Continued on next page International 00 1 952 941 7600 91 Transition Networks Section IX FBRM BFFG Cable amp Fiber Optic Specifications Fiber optic cable and connector specifications continued Copper to Copper to fiber connectors with DMI Fiber Optics Specifications CFBRM1011 110 DMI SFBRM1011 110 DMI 1300 nm multimode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm Link budget 11 dB CFBRM1013 110 DMI SFBRM1013 110 DMI 1300 nm multimode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm Link budget 11 dB CFBRM1014 110 DMI SFBRM1014 110 DMI 1310 nm single mode Fiber optic transmitter power min 15 0 dBm max 8 0 dBm Fiber optic receiver sensitivity min 31 0 dBm max 8 0 dBm Link budget 16 dB CFBRM1015 110 DMI long haul SFBRM1015 110 DMI long haul 1310 nm single mode Fiber optic transmitter power min 8 0 dBm max 2 0 dBm Fiber optic receiver sensitivity min 34 0 dBm max 7 0 dBm Link budget 26 dB CFBRM1016 110 DMI SFBRM1016 110 DMI 1310 nm single mode extra long haul min 5 0dBm max 0 0 dBm Fiber optic transmitter power min 34 0 dBm max 7 0 dBm Fiber optic receiver sensitivity 29 dB Link budget C
66. enabled port is user selected Port 2 fiber is the default port To view the OAM configuration screen for non transition networks IEEE 802 3ah compliant Devices do the following l Click any port VIEW button on the CFBRM CBFFG main menu to bring up configure screen of that port 2 Click the OAM Config button and the screen will appear as shown in Figure 58 You can set up OAM parameters on this screen PortConfig PortCounters MlBCounters OAMConfig OAMCounters OAMEventLog MainMenu LocalREBOOT OAM Configuration and status Parameter Value Followed by integer value from MIB if applicable Local Config for Port 2 AdminStatus ENABLED 2 OperStatus a LinkF ault 2 E Mode Activen E Max PDU size 1500 Config Revision 0 Function Supported Loopback Event Notification save execute OAM Peer Information Figure 58 OAM Configuration and Status Screen OAM Config Button 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section VI Software Features Introduction This section explains the operational status LEDs and what they indicate along with product features and the three 3 methods used to upgrade the software In this section These are the topics Software feature descriptions 60 Software security feature descriptions f 69 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 59
67. endix E Request for Comment RFC Compliance RFC compliance continued TFTP Sollins K The TFTP Protocol Revision 2 RFC 1350 MIT July 1992 SMTP Klensin J ed Simple Mail Transfer Protocol RFC 2821 AT amp T Laboratories April 2001 SNMP Case J et al A Simple Network Management Protocol SNMP RFC 1157 1213 Management Information Base for Network Management of TCP IP based internets MIB II 1493 Definitions of Managed Objects for Bridges RFC 1493 2674 Definitions of Managed Objects for Bridges with Traffic Classes Multicast Filtering and Virtual LAN Extensions RFC 2674 2819 Remote Network Monitoring Management Information Base RFC 2819 2863 The Interfaces Group MIB K McCloghrie F Kastenholz June 2000 RFC 2863 3635 Definitions of Managed Objects for the Ethernet like Interface Types RFC 3635 142 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Transition Networks Index 3 Port Switch See Redundant SFBRM SFP 3 Port Switch Auto Link Restore cccsssssssccsccccccssssssssssscssecees 70 AutoCross desciPU Oispa a a 62 Auto Negotiation CES CIID U ON eessen e E E E 63 Bandwith Allocation dE CTP OR Gaara a aaa amas 63 Bootloader CELICE a ape eer daca sp ciensent odsaoaamedecteesade 82 HIP WEE UP STAG sssrin 81 Help sere CMs acc sircatane clan tus N 82 Chassis management module unit MMU ee 4 COM Port COMP oura Oe nssp
68. ength of cable permitted by calculating the round trip delay in bit times BT of a particular collision domain If the result is less than or equal to 512 BT the path is good For more information on the 512 Bit Rule see the white paper titled Collision Domains on Transition Networks website at www transition com Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 63 Section VI FBRM BFFG Software Features Transition Networks Software feature descriptions continued 64 Table 3 Device Software Configurable Features continued Operation Administration and Maintenance OAM IEEE 802 3ah 2004 standard Critical Event OAM IEEE 802 3ah 2004 standard Discovery OAM IEEE 802 3ah 2004 standard Event Notification with Log In OAM IEEE 802 3ah 2004 standard Note On the SFBRM1040 1xx redundant models there can be only one 1 OAM session at a time the OAM enabled port is user selected Port 2 fiber is the default port The Device implements the IEEE OAM 802 3ah standard for troubleshooting and remote management This product implements OAM on both the fiber and twisted pair interfaces It implements the following OAM features e Discovery e Remote Loop Back e Exchange of configuration information and remote firmware upgrades with organization specific PDUs e Link status failure indication The Device implements the draft ietf hubmib
69. enteanlannneants 33 ital Devices wtp vid USB CE aa E yeaa usta smeineateeaaaen 35 Initial Device setup via telnet directly to Device sssesssssssesssssessssrssssessesssrtsesstsresesrestestsstssesesresesseses 38 Initial Device setup via chassis agent MMU web based sssssessssesssssssssrsssrssesesessrsesrsseserseseseseseserseses 41 Initial Device setup IP web based directly to Device cccccccescessceseescceseesccessesceeeeseeseceseeseceseeneeseeeneeses 44 SE CUOMS Va inure suey Aa culo ere E ANTO EEA ONE EEO 49 PENCE Mana BCO a hv a a aa A E N E E A eatades 49 SNMP IPED ASC Management a daciepts Casein eres ica cates east i a a devas ds bata ueuateeea ane att 50 Device management via chassis agent MMU Web based cssseseeseeseeseeeeeeseceececeeeeseeseeaeeaeeaeens 53 Device management via IP web base directly tO Device sesesceeeeseeseeseeseeseeseeseeaeeseceeeseeseeseeaeeseeatens 56 DS CLIO I N ves seria sierra veers E ies cians ocean A T E tires E ce E ysoac as we aac OOO 59 SOY A Ee IS aaa gage are Sse ela cece aes ats aad eee ee dnd eg aan sean eae en en aia 59 SOMW ake TALUS desc IONS ficiieiais sada ca socdreatsanncnont acacasynaincoseis igual gnndannes auetesnea devo pnueustunasereseauaeotpeadenseian 60 Software security Teatre GESCHIDUONS cis ssacsseosedacs hain na E RA E T A daadeaubesbaedneemedatendtas 69 aa E E A E AE E E E E A 71 Opera ON kiaia a R E E E guuieonsusbectaidaeeenteaptooaes 71 statie LED Sorci ento
70. essing any key within 2 seconds before it starts the CRC validation or by pressing the CTRL C keys when it shows the following message Transfer Failed Moving to OAM XMODEM or TFTP upgrade Hit ESC to skip CL CLS Oe AG lids Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 79 Section VII FBRM BFFG Operation Transition Networks Firmware upgrades continued Accessing the bootloader CLI 80 To access the bootloader CLI to upgrade the firmware do the following When Transfer Failed appears on the screen within 2 seconds press the CTRL C keys to bring up the bootloader CLI as shown in Figure 65 10 100BaseT to 100BaseFX IP Based 802 3ah Bridge Version A Mar 2 2006 09 56 02 Copyright c 2006 Transition Networks Reading config from flash done BOOT LOADER CLI Type h for help BOOT Figure 65 Bootloader CLI 2 At the B00T gt prompt type the letter h to bring up the help screen shown in Figure 66 Display this help Ping a host Clear entire Application flash Set boot method as xmodem Set boot method as tftp Set boot method as OAM Show system information configure network information reset system Exit Boot CLI LS OO BS 0 oO KN OD w O Figure 66 Bootloader Help Screen Note When you press the LETTER key of any command it might not appear at the BOOT gt prompt but the result will appear on the screen
71. et tlpt snmpwalk Console gt _ Figure 30 Commands for Redundant SFP Models 34 Transition Networks Section IV FBRM BFFG Initial Device Setup Initial Device setup via USB CLI IP Use the set commands to set the IP configuration through the USB port Configure configuration the Device with a network IP address subnet mask and default gateway Set the IP address via USB CLI Command Line Interface or via DHCP Dynamic Host Configuration Protocol which is disabled by default Factory default The factory default IP configuration shipped with the Device is as follows IP config e IP address 192 168 1 1 e Subnet Mask 255 255 255 0 e Gateway 192 168 1 2 Note Type help set lt command gt to display the format used to set the commands Set IP config To set the IP via the USB CLI do the following via USB CLI 6 At the cnol gt promptiypeme S S Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 35 Section IV FBRM BFFG Initial Device Setup Transition Networks Initial Device setup via USB CLI continued DHCP method To set the IP configuration via the DHCP in console mode do the following Note A DHCP server must be on the network and accessible before using this method At the console gt prompt type set dhcp enable Press the ENTER key and the screen will appear as shown in Figure 31 Console gt set dhcp enable DHCP Enabled after reboot
72. etup via telnet directly to Device To set up the Device initially via telnet directly to the Device do the following Initial setup via Telnet to Device At the command line type Telnet nnn nnn nnn nnn ZP address of the Device to bring up the password prompt shown in Figure 33 os C WINNT system32 telnet_exe Login Type the case sensitive username and password default is root for both Press the ENTER key to launch the console prompt shown in Figure 34 Figure 34 Console Prompt Continued on next page 38 24 Hour Technical Support 1 800 260 1312 Transition Networks Section IV FBRM BFFG Initial Device Setup Initial Device setup via telnet directly to Device continued At the console gt prompt type show J Press the ENTER key to display the system configuration as shown in Figure 35 Console 7 gt show System configuration System name System location System contact Board Version Boot loader Version Firmware Version DHCP IP address Subnet mask Default gateway MAG address System UpTime tdihimis gt SNMP Trap Manager SHME Community Hame Group string RADIUS authentication RADIUS server Layer 3 Capability SNMP Access TFTIP Server TFTP Filename Management ULAN ID Console gt xFERM1i OH Hot Initialized techsupportltransition com 1 D Clil Disabled 192 251 144 150 255 255 255 0 192 251 144_2 HH CH F2 61 6A 96 27216 6 18 4 6 6 8 privat
73. etworks behalf 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Section X FBRM BFFG Contact Us Warranty amp Conformity Information Transition Networks Compliance information Standards FCC Regulations Canadian Regulations European Regulations CISPR22 EN55022 Class A CE Mark This 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 to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at the user s Own expense This digital apparatus does not exceed the Class A limits for radio noise from digital apparatus set out on the radio interference regulations of the Canadian Department of Communications Le pr sent appareil num rique n met pas de bruits radio lectriques d passant les limites applicables aux appareils num riques de la Class A prescrites dans le R glement sur le brouillage radio lectrique dict par le minist re des Communications du Canada WARNING
74. feature for the stand alone 3 port FBRM SFP Device via IP Devices web based do the following Open a web browser At the URL type in the SFBRM default IP address Click the GO button to launch the password screen shown in Figure 45 Transition Networks xF BRM Remotely Managed Bridging Media Converter System Name xFBRM100 Phssrotd log in Figure 45 Login Screen Type the password default is private 5 Press the ENTER key to launch the SFBRM main menu as shown in Figure 46 Transition Networks 192 168 144 133 SFRBRMI1040 1404 FEE S802 30h Remotely Managed Bridge SS Local System Configuration re Advanced System Configunatioan Poot 1 Link Up vow Port 2 Link Down Lvs Port 3 Low Deva EE MAC Address Comhguratpon ia VLAN Table Couhenrateon Many LocalFAbBOOT Figure 46 Redundant Device Main Menu Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 47 Section IV FBRM BFFG Initial Device Setup Transition Networks Initial Device setup IP web based directly to Device continued Click the advance system configuration VIEW button to show the redundancy configuration parameters shown in Figure 47 Transition Networks 192 168 144 133 SFER M1 040 1401 Maiden Locaih ERGOT Advanced Local System Configuration Faranietgi Valie Fobowed by steger value Fom MIB f appirakie Agng Tone m tel TUGMA DB i Hiisi Bidi E
75. ho port lt portno gt count lt 1 100 gt set autoupg Enable disable auto upgrade When enabled Auto firmware upgrade be done Usage set autoupg lt enable disable gt set forceupg Enable disable Forcing Auto firmware upgrade on Peer on specified port Usage set forceupg port lt portno gt Continued on next page 124 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Appendix C Device Commands amp Definitions Transition Networks Command set slpt Enable disable Selective Link pass through Usage set slpt lt enable disable gt Enable disable Transparent Link pass through Usage set tlpt lt enable disable gt set tlpt set 12cp Sets the L2CP protocol diposition per port if port is given else sets all ports forwarding rule for that protocol Usage set 2cp lt stp slow dotlx elmi Ildp bmgmt garp other gt port lt portno gt act lt forward discard gt set fiberredund Sets Enable disable Fiber Redundancy Usage set fiberredund lt enable disable gt Set fiberrevert Enable disable Fiber Redundancy revert Usage set fiberrevert lt enable disable gt set netmask Sets subnet mask Usage set netmask nn nn nn nn Enable disable forcing auto firmware upgrade on the peer of a specified port Usage set forceupg port lt portno gt Sets password for CLI access through serial port telnet This is used when RADIUS 1s disabled Usage set password lt va
76. ic receiver sensitivity Link budget Note Port 1 Specification 1300 nm multimode min 19 0 dBm max 14 0 dBm min 30 0 dBm max 14 0 dBm 11 dB Transition Networks Port 2 Specification 1310 nm TX 1490 nm RX 1490 nm TX 1310 nm RX 1310 nm TX 1490 nm RX 1490 nm TX 1310 nm RX min 9 0 dBm max 3 0 dBm min 20 0 dBm max 3 0 dBm 11 dB The fiber optic transmitters on these Devices meet Class I Laser safety requirements per IEC 825 CDRH standards and comply with 21 CFR1040 10 and 21CFR1040 11 WARNING Visible and invisible laser radiation when open Do not stare into the beam or view the beam directly with optical instruments Failure to observe this warning could result in an eye injury or blindness WARNING Use of controls adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 99 Transition Networks Section IX FBRM BFFG Cable amp Fiber Optic Specifications Intentionally Blank 100 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Transition Networks Section X Contact Us Warranty amp Conformity Information Introduction This section explains how to contact Transition Networks via Phone fax email and direct mail It also explains e What the warranty covers e Who to contact to return product e How and
77. ice Setup Transition Networks Initial Device setup IP web based directly to Device continued IP config via To set up the IP configuration via DHCP do the following DHCP A DHCP server must be on the network and accessible On the local switch configuration screen enable DHCP as shown in Figure 44 Transition Networks 192 251 144 150 x FF BRM1012 22222 MainMenu LocalREBOOT Local System Configuration Parameter Value Followed by integer value from MIB if applicable Description Transition Networks CFBRM100 802 3ah Remotely Me Name kFBRMI000 8 Location Notinitialized s SS UpTime 02 15 38 54 save execute Parameter Value Followed by integer value from MIB if applicable Marketing Revision 22222 Config Match NOT APPLICABLE 3 Bootloader Version D Firmware Version L Serial Number 1234567890 MAC Address DHCP Figure 44 IP based Local System Configuration Screen Click the Local REBOOT button at the top of the screen to start the DHCP process Note To verify that the DHCP IP configuration was successful check the IP configuration for the Device on the local system configuration screen and note the changes to the IP configuration Continued on next page 46 Transition Networks Section IV FBRM BFFG Initial Device Setup Initial Device setup IP web based directly to Device continued Redundant To set up the redundant
78. id C An Ethernet Address Resolution Protocol RFC 826 Symbolics Inc November 1982 UDP Postel J Use Datagram Protocol RFC 768 USC Information Sciences Institute August 28 1980 TCP Postel J Transmission Control Protocol DARPA Internet Program Protocol Specification RFC 793 USC Information Sciences Institute September 1981 950 Mogul J and Postel J Internet Standard Subnetting Procedure RFC 950 Network Working Group August 1985 1122 Braden R Requirements for Internet Hosts Communications Layers RFC 1122 Internet Engineering Task Force October 1989 1123 Braden R Requirements for Internet Hosts Application and Support RFC 1123 Internet Engineering Task Force October 1989 DHCP Droms R Dynamic Host Configuration Protocol RFC 2131 Bucknell University March 1997 HTTP Fielding R et al Hypertext Transfer Protocol HTTP 1 1 RFC 2616 Network Working Group June 1999 2617 Franks J et al HTTP Authentication Basic and Digest Access Authentication RFC 2617 Network Working Group June 1999 2396 Berners Lee T et al Uniform Resource Identifiers URI Generic Syntax RFC 2396 MIT August 1998 Telnet Postel J and Reynolds J Telnet Protocol Specification RFC 854 USC Information Sciences Institute May 1983 Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 141 Transition Networks App
79. igure 22 Found Hew Hardware Wizard Completing the Found New Hardware Wizard The wizard has finished installing the software for g USB Serial Converter Click Finish to close the wizard Figure 22 Finish Installing Driver Dialog Box 10 Click the FINISH button and a found new hardware message will appear on the lower right side of the screen as shown in Figure 23 i Found New Hardware Your new hardware is installed and ready to use Figure 23 New Hardware Installed and Ready to Use 28 Transition Networks Section Ill FBRM BFFG1 Driver Installation amp COM Port Setup Configuring COM port Getting COM You need the COM port number to configure the terminal emulator To get the COM port number port number do the following l On the desktop right click on the my computer icon and select Device manager to open the computer management window 2 Click on Device manager to open the Device manager s panel screen right panel shown in Figure 24 C Computer Management O x Action view 3 HJ Computer H E Disk drives m Display adapters 3 DYDVCD ROM drives 5 Floppy disk controllers 4 Floppy disk drives 4 IDE ATAA4ST API controllers Imaging devices Computer Management Local i System Tools E E vent Viewer E H System Information i Performance Logs and Alerts n E Shared Folders E Device Manager a lt j Local Users and Groups 2 Keyboar
80. ingle slot chassis Device but the Port 2 comes up in OAM Passive Mode with OAM Mode control 1s set to auto e Chassis Device needs a Point System management module in a chassis to switch to Active Mode or to set OAM Mode manually e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 86 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Section VIII FBRM BFFG Troubleshooting Transition Networks Intentionally Blank 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 87 Transition Networks Section IX Copper Cable amp Fiber Optic Specifications Introduction This section provides copper and fiber cable specifications In this section These are the topics Copper cables Fiber optic cables and connectors 90 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 88 Section IX FBRM BFFG Cable amp Fiber Optic Specifications Transition Networks Copper cables Characteristics Cooper cable physical characteristics must meet or exceed EEE 802 3 specifications Copper cable Category 5 minimum specification Gauge 24 to 22 AWG Attenuation 22 0 dB 100m 100 MHz Maximum cable distance 100 meter 328 ft e Straight through or crossover twisted pair cable may be used See Figure 69 e Shielded twisted pair STP or unshielded twisted pair UTP may be used e Pins 1 amp 2 and
81. ings This is useful when you want to program more than one unit to the same configuration One unit can be programmed and that configuration can be used to populate the other units Care should be taken on some settings such as IP address and VLAN settings Bandwidth Allocation by This feature can be used with ingress egress frames priority ingress egress It allows setting the bandwidth in varied increments starting at 64kps to full bandwidth Rate Limiting based on frame priorities can also be configured Each higher priority frame can be configured to get twice the bandwidth of lower priority frames e g priority 3 frame configurations can get twice the bandwidth of priority 2 frames Egress bandwidth allocation in 64Kbits sec increments e Rate limit all frames Ingress bandwidth allocation in 64Kbits sec increments with four filter selections e Rate limit all frames e Rate limit multicast flooded unicast and broadcast e Rate limit multicast and broadcast e Rate limit broadcast Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 61 Section VI FBRM BFFG Software Features Transition Networks Software feature descriptions continued Table 3 Device Software Configurable Features continued Congestion Reduction The FBRM and BFFG Devices do not forward collision signals or error packets between collision domains which improves baseline network
82. irinin iE aa 78 IEEE 802 3ah OAM alternate loop Dack riaa aie eroeaetwaes 67 last gasp OAM operation administration and man enan EN sariri aa NAAN 66 last gasp OAM dying Gasp seessseeeeeeeeeeeees 66 organization specific PDUS ccc eeeeeeeeeeeeeeeees 68 remote JOOP bac Kareena eta leel sh avennsivonentes 67 In Band Managemennl ccccccccssssssssscccccsccsssseees 2 Installing NSS ANC tose bated ceadens seaceamadadieeaabactndeteodias 18 Copper CAVIES coenen e 20 standalone devices sessseesssseeessssreersssererssseees 19 USB AVE anene E ee eS 25 IP Configuration CS EAU I EAE aces E E ne 32 35 PHCP einna NA 36 USB CU grana NR 35 WE E a E E A E E E 46 LED SA Saaana Na 74 15 LEDs B PO eene ai cnaisiasti eel unt nee 75 FERM zerie A 74 FBRM BFFG gbit status ccceccsssssseesseeeeeeeeees 76 Link Pass Thru auto 0k FE SIOLC stances wtsedanctbousbarnnntvasbentarenstowsneass 70 BELO CU Ve Seiisanne lon coanauntinetalansorsiiersoteeamncentossaatenar 70 CLANS pae A auaa ep abasauatatinedetenonae 70 Link Status Failure Indication deset DON strides titan custan i ccemets eenaitindteeuensudnatansiued 68 Login 1 TE Ree ne eRe OO N A ve OE T 40 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 143 Transition Networks USB Clee ssesossseesonmaceasianiamtemnaaaccassanromeeassaniaas 33 web based via MMU ssooosesssssssssssssssseerrssssssssssssss 43 MA
83. ith optical instruments Failure to observe this warning could result in an eye injury or blindness Fiber cable To install the fiber cable do the following Action Locate a 100 1000Base FX SX LX compliant fiber cable with male two stranded connectors installed at both ends See Figure 14 2 Connect the fiber cables to the FBRM or BFFG Devices as shown in Figure 14 Fiber Cable Connection to Converters RA TX Device Device Figure 14 Fiber Cable Installation Continued on next page 20 Transition Networks Section Il FBRM BFFG Hardware Installation Installing fiber and copper cables continued Caution Copper cable Copper based media ports e g Twisted Pair TP Ethernet USB RS232 RS422 RS485 DS1 DS3 Video Coax etc are intended to be connected to intra building inside building link segments that are not subject to lightening transients or power faults Failure to observe this caution could result in damage to equipment To install the copper cable do the following Action l Locate a 10 100 or 10 100 1000Base T compliant copper cable with ale I 43 connectors mstaledat potn emde a or a nas 45 ports 3 Connect the RJ 45 connector at the other end of the cable to the 10 100 or 10 100 1000Base T RJ 45 port on the other Device switch workstation etc See Figure 15 RJ 45 port RJ 45 port Figure 15 Copper Cable Installation 24 Hour Technical Support 1 800 260 1
84. iun PaF raaa x Factory Defeat dohehagr Rese Camini dakictheug ys Vee Errored Taga Double Tagged CESARLEIT WOTE Fhosheng the Database erases Flash eutmes mel disables 302 10 fo VLAN DEJ Plush ATUS MAC OB dohictheg 3 Flush VLAN DE dohicehingt amp Redondaney Configuraten Fiber Redincdancy DES ARLE Fiber Redundant Revert DESABLERM Acie Fiber Port l Pavintaroine Egress Queue QoS mapping Figure 47 Redundancy Configuration Screen Note The redundancy features are specific to the 3 port SFBRM SFP Device only 48 Transition Networks Sections V Device Management In this section These are the topics SNMP IP based management 50 Device management via chassis MMU web based Device management via IP directly to Device 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 49 Section V FBRM BFFG Device Management Transition Networks SNMP IP based management SNMP 50 O Query MIB Ping ean Remote SNMP agent Split 192 251 144 150 A E vertical MIB tree Query results The FBRM BFFG Device provides complete management through the SNMP interface It supports the following standard MIBs for management using SNMPv1 e RFC 1213 MIB II e RFC 2819 RMON statistics group e RFC 2863 IF MIB counters e RFC 3635 Ether like MIB counters e RFC 1493 Bridge MIB objects counters e RFC 2674 Bridge extension counters I D draft ietf hub
85. izes resets all OAM counters and event logs All the dynamic MAC entries in the ATU are flushed and the active port has to relearn the entries Note If the configuration option revert is set when the primary port link is restored the session will revert back to the primary port If the revert option is NOT SET and the primary link is restored the secondary port remains in operation until the user intervenes Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 15 Section I FBRM BFFG Product Description Transition Networks Redundant SFBRM1040 140 models continued 3 port switch In this mode the Device acts as a 3 port switch with the fiber port connected to 2 mode remote Devices See Figure 11 Local Remote Figure 11 3 Port Switch Mode Note In 3 port switch mode e Only one OAM session can be active at anytime e Transparent Link pass through is not applicable in this scenario The port link status from the Devices is received only as SNMP traps 16 Transition Networks Section II Hardware Installation Introduction This section describes how to install the CFBRM and CBFFG Devices into a Point System chassis with a remotely managed SFBRM or CFBRM standalone Device Also shows how to install two SFBRM Devices or two SBFFG standalone Devices on a network one as a local Device and the other as a remotely managed Device Caution When handling chassis
86. l SOCCIICAL ON an a E r EENS 120 Specifications Notices and Warning Seien erecsi n eea e ea EE Eea a EEAO EEEE Et EEEREN 120 POET OU CG oara E E A E E 122 DEVICE Commands CD CSCrIPUOMS crsescenscelnccnatentondanensdeeanconsent A a eai 122 APPENA X panera restr rte eae eter i ee rere ee ee ey rr N ee reo 129 IP Based and Chassis Management Parameters ccsc asc2sse sacaschocnassqnarecadannesg sagnaheansdbcaanspensnesatdan nnd sanennaaeaatenbeasenss 129 APPENA Er udun E TOA ENT NOE OEN E NE onan ETEEN EEO 141 Request for Comment REC COM Pll aMC C 2eesetsacstnnasadeds vhs uestinwsaatanleadeanstbedse date obatestindudt cose ianetine sided ronnqedinewieltne 141 MENG Segara eh acct estes sige Nan cece stg E A Aa cater css ot cached datacentre od ete E E 143 Transition Networks Trademark copyright information and about this manual Trademark All trademarks and registered trademarks are the property of their respective owners Copyright 2008 Transition Networks All rights reserved No part of this work may be restrictions reproduced or used in any form or by any means graphic electronic or mechanical without written permission from Transition Networks Printed in the U S A About this This manual is designed to help you find the information you need quickly It is manual structured as follows e Table of Contents TOC e Section TOC Shows all the major topics in the section e Side Headings Shows all the sub topics on each page e Inde
87. lity of the cable connectors and terminations Problems such as opens shorts and cable impendence mismatch can be diagnosed with this test 802 1q VLAN can be disabled or enabled along with setting the following options Secure The VLAN ID must be contained in the VLAN database Db and the ingress port must be a member of the VLAN or else it will be discarded Check The VLAN ID must be contained in the VLAN Db or the frame will be discarded Fallback The frames are not discarded if their VLAN ID is not in the VLAN Db In all the above cases the frames are allowed to exit ports that are members of the frame s VLAN including the source port s VLAN table sfhbrm100PortBasedVLANTODIl Also frames that do not have a VLAN ID in the Db can exit only ports in the VLAN table Disabled 802 1q is disabled This is a bitmap that restricts the output ports that this input port can send frames to To send frames through port 2 bit 2 of this value must be set to 1 When enabled frames that have a source address in the forwarding database are allowed to bypass Port based VLAN IEEE 802 1q VLAN and trunk masking Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 139 Transition Networks Appendix D IP Based and Chassis Management Parameters Table 28 Port Configuration Parameters continued IP based VTU Priority v When enabled the port che
88. lue gt max 64 set orceupg set password set radius Enables disables RADIUS authentication RADIUS is disabled by default Usage set radius lt enableldisable gt set radiusip Sets RADIUS server IP Usage set radiusip nn nn nn nn set radiussecret Sets RADIUS secret shared with the RADIUS server Usage set radiussecret lt value gt max 64 set snmpaccess Enables disables all SNMP access Usage set snmpaccess lt enableldisable gt Sets tftp filename to be downloaded using upgrade with TFTP Usage set tftpfile lt value gt max 64 Sets TFTP server IP address to be used for upgrading via TFTP Usage set tftpserver nn nn nn nn set tftpfile set tftpserver set trapmer Sets trap manager address Usage set trapmgr nn nn nn nn set uploadctg Uploads the system configuration to a TFTP Server Usage set uploadcfg lt filename gt Disables the USB port This disables access through the USB port It can be enabled using IP based or Point set usb System management Usage set usb disable Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 125 Transition Networks Appendix C Device Commands amp Definitions set username Sets username for CLI access through serial port telnet This username is used when RADIUS 1s disabled Usage set username lt value gt max 64 show Displays all the current configurations at the system level including in
89. m single mode min 0 0dBm max 5 0 dBm min 27 0 dBm max 3 0 dBm 27 dB Port 2 Specification 1310 nm single mode min 9 5dBm max 4 0 dBm min 18 0 dBm max 3 0 dBm 8 5 dB 1310 nm single mode min 9dBm max 3 0 dBm min 21 0 dBm max 3 0 dBm 12 dB 1310 nm single mode min 5 dBm max 0 dBm min 24 0 dBm max 3 0 dBm 19 dB 1310 nm TX 1490 nm RX 1490 nm TX 1310 nm RX 1310 nm TX 1490 nm RX 1490 nm TX 1310 nm RX min 9 0 dBm max 3 0 dBm min 20 0 dBm max 3 0 dBm 11 dB The fiber optic transmitters on these Devices meet Class I Laser safety requirements per IEC 825 CDRH standards and comply with 21 CFR1040 10 and 21CFR1040 11 WARNING Visible and invisible laser radiation when open Do not stare into the beam or view the beam directly with optical instruments Failure to observe this warning could result in an eye injury or blindness WARNING Use of controls adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure 24 Hour Technical Support 1 800 260 1312 Continued on next page International 00 1 952 941 7600 Section IX FBRM BFFG Cable amp Fiber Optic Specifications Fiber optic cable and connector specifications continued BFFG fiber to fiber Gbit with DMI connector continued Fiber Optics CBFFG1329 112 DMI CBFFG1329 113 DMI SBFFG1329 112 DMI SBFFG1329 113 DMI Fiber optic transmitter power Fiber opt
90. mib efm mib EFM OAM mib the EFM hub mib is added to the TN private tree since it has not been added to the ISO tree Use the provide version shipped on the CD with your Device See Figure 48 MG SOFT MIB Browser Professional Edition Seles File Edit View SNMP Action Tools Window Help eS ON IiNEF ams aReepe E gq etherMIB E ga entityMIB E g ipMIB E g tcpMIB E ga udpMIB E g efmOamMIE J experimental J private 5 enterprises C milan C transition 9 productld 3 products J repeater J ting 5 bridge 9 sfbrm10 100 i amma 9 dot30amMIB 9 dot30 amT able gj dot30 amPeerT able f dot30amLoopbackTat EFM Hub MIBs E E dot30amStatsTable E E dot3QamEventConfigT 9 dot30amEventLogT at J security J snmp 2 Figure 48 EFM Hub MIBs Added to Private Tree Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section V FBRM BFFG Device Management SNMP IP based management continued TN private The TN private MIBs for SNMP IP based management feature extensive MIBs management options Some of the features are the following e Copper and fiber link status e Copper and fiber port duplex e Administratively enable disable port e Copper port speed e Enable disable Auto Negotiation copper e Enable disable Pause e Enable disable capability advertisement for speed and duplex
91. miles SFBRM1017 110 DMI long wave CFBRM1035 100 RJ 45 SC 100Base FX 1550nm CFBRM1035 110 DMI 100m 32Sft SM SFBRM1035 100 120km 74 6 miles SFBRM1035 110 DMI long wave length Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 109 Transition Networks Appendix A FBRM BFFG Part Numbers FBRM copper to fiber part numbers continued Single fiber The models shown in Table 15 are single fiber and must be installed in pairs model pairs Table 15 FBRM10xx 1xx Single Fiber Model Pairs Port 1 Copper Port 2 Fiber EEE NTRS nee et 100Base FX CFBRM1029 100 RJ 45 SC 100Base FX BX U 1310 nm CFBRM1029 110 DMI 100m 328 TX 1550nm RX SFBRM1029 100 SM SFBRM1029 110 DMI 20 km 12 4 miles CFBRM1029 101 RJ 45 SC 100Base FX BX D 1550 nm CFBRM1029 111 DMI 100m 328 TX 1310 nm RX SFBRM1029 101 SM SFBRM1029 111 DMI 20 km 12 4 miles CFBRM1029 1027 RJ 45 SC 100Base FX BX U 1310 nm CFBRM1029 112 DMI 100m 328 TX 1550nm RX SFBRM1029 102 SM SFBRM1029 112 DIM AG aO mes CFBRM1029 103 RJ 45 SC 100Base FX BX D 1550 nm CFBRM1029 113 DMI 100m 328 TX 1310nm RX SFBRM1029 103 SM SFBRM1029 113 DMI AQ ki OP Omiles BX D down stream BX U up stream Note The distances for Port 1 listed in Table 15 are typical maximum distances the physical characteristics of the network dictate actual distances FBRM 100 and 101 110 and 111 Device pairs re
92. min 5 0 dBm max 0 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 20 0 dBm max 3 0 dBm Link budget 11 dB 15 dB CBFFG1317 100 SBFFG1317 100 1300 nm multimode 1310 nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 3 0 dBm max 2 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 24 0 dBm max 3 0 dBm Link budget 11 dB 21 dB CBFFG1329 100 1310 nm TX 1490 nm RX CBFFG1329 101 1490 nm TX 1310 nm RX SBFFG1329 100 1310 nm TX 1490 nm RX SBFFG1329 101 1300 nm multimode 1490 nm TX 1310 nm RX Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 8 0 dBm max 3 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 22 0 dBm max 3 0 dBm Link budget 11 dB 14 dB CBFFG1329 102 1310 nm TX 1490 nm RX CBFFG1329 103 1490 nm TX 1310 nm RX SBFFG1329 102 1310 nm TX 1490 nm RX SBFFG1329 103 1300 nm multimode 1490 nm TX 1310 nm RX Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 3 0 dBm max 2 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 23 0 dBm max 3 0 dBm Link budget Note 11 dB 20 dB The fiber optic transmitters on these Devices meet Class I Laser safety requirements per IEC 825 CDRH standards and comply with 21 CFR1040 10 and 21CFR1040 11 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Continued on next page
93. mote ll hl ll Counters SA Priority When enabled the source address of the Override frame is checked against the address database entry with the matching source address with priority override enabled When there is a match the fame priority is the one found in the entry The source address priority override has a higher priority than the default frame priority IP TC IEEE priorities and the VLAN priority override values Normal frame priority processing occurs when disabled The speed in Mbps for this interface It is the resolved speed when Auto Negotiation is enabled or the manually set the value when Auto Negotiation is disabled Use Both Traffic When a frame has an IEEE 802 ac tag class and an IP TOS then this depends on which priority is chosen IP TOS or IEEE tag when both sfbrm100PortUseIPTC and sfbrm100PortUseTagTC are enabled Use IP Traffic This enables the IP Traffic class priority class if present If disabled the TOS bits are ignored Use Tag Traffic This enables the IEEE 802 1p priority if class the frame is IEEE 802 3ac tagged or else it is ignored even if the tag is present Continued on next page 138 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Appendix D IP Based and Chassis Management Parameters Transition Networks Table 28 Port Configuration Parameters continued IP based Virtual Cable Test D D The virtual cable test determines the qua
94. n a EEA E TE T E AETAT E A ot OTE EON 72 OAM Device management configuration Options zuceasentt sstescescantiusesu sence Uatedod estat anedentaaned Sete hs 75 Panwa e upgrades aa ca eh aed nso Sao eae leas ecg Sante as eat oe ace E E 76 Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 1 Transition Networks Table of contents continued il Secon WM ionii e AE E T A E E sacs 82 MOUNE NOONG eese a e E er ere eer ree ener en ETS 82 Troubleshooting problem and corrective action table eeceeseesceececeeseeseeeeseeececeeceeeeseeseeaeeaeeaeenes 83 DE GON IX carra A EEE 88 Copper Cable Rx Fiber Ope SPECIGIS ia A ane aamnun 88 COPD DIEE Tai r rA E O E ANE EAA 89 Fiber optic cable and connector specifications cccsscceccersesccessseccesceccessesceescesssecceseseacesceesensseeeseresees 90 SSCUOMON sasshinr vas seiioasiganhvtnstoseann EE aE E E E EE ENE 101 ContactUs Waran 6c Conomyrma Orens 101 COMIC TUS a a A N 102 OPFOR VASO lal aL O RA a E A A a eaten 103 Aa a AE A E T O E A T A S E T AT T E E A E E E T 105 COMPLICI ON a a a EE 107 APPENA A aa a a N N S 109 FERME EFG Part NUD CFS eirges ETE EA E a 109 FBRM Copperto Tiber pa tnuMbE S onia A aseuesealeostes 109 FBRM fiber tofiber part numbers osis si E E EE E R EAEE EER 112 BFF FG coppertotiber par number Seonso en E R O 115 Birr Co iberto tiber part NaM DETS sishi pnn E EES E EN 116 POO TNC D a a E E E T E S 120 EBRW BEF Gi CCH Ga
95. nable disable system level IP management or on a per port basis e EEE 802 1q VLAN virtual local area network e Management VLAN for all management frames e EEE 802 1x port based network access control e Radius authentication for management e Remote and local firmware upgrades via TFTP Trivial File Transfer Protocol or Xmodem 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 3 Section I FBRM BFFG Product Description Transition Networks Management methods Management USB Telnet MMU IP based web based The FBRM and BFFG Devices support the following management methods e USB CLI Command Line Interface e Telnet e MMU Management Module Unit chassis web based e P based web based directly to the Device USB management requires a direct connection to the Device via a computer This method is used to set up initially or to troubleshoot Devices in the field Telnet management requires that the Device be connected to a network Then from the CPU command line type Telnet and the Device IP address as shown as follows Telnet nnn nnn nnn nnn represents Device IP address The MMU Management Module Unit is the heart of the Point System chassis management capability It has the ability to monitor and manage all its installed Devices The MMU communicates through the CLI presented at the serial port or through SNMP Telnet CLI and Web interface available via the Ethernet port The
96. naged via IP Web based or Telnet These Devices implement the IEEE 802 3ah standard or OAM in the Ethernet first mile OAM is a group of network management functions that provide network fault indications performance information data and diagnosis These Devices implement remote management via OAM as per the IEEE 802 3ah standard These Devices implement complete Real Time Multi Threaded Operating System RTOS with a TCP IP stack for in band management The USB Universal Serial Bus type B serial port is used mainly to configure Device basic setup before installation and operation on a network Implements the current Point System management I C interface This allows managing the Device via SNMP using the existing Point System method Transition Networks Section FBRM BFFG Product Description Product features Supported The following is a list of the major FBRM and BFFG Device supported features features e Remote Management via OAM IEEE 802 3ah and IP based management e AutoCross e Transparent Link pass through with automatic link restoration e Far end fault detection on fiber ports e OAM IEEE 802 3ah e Auto Negotiation enable disable e Force 10 Mbs or 100 Mbs speed non gigabit models only e Force half or full duplex e Pause capability e Automatic firmware upgrade via OAM e Forwards all IEEE multicast frames including STP LACP LAMP e Enable disable USB port access e Enable disable SNMP queries e E
97. nd Fault FEF is a troubleshooting Indication feature on the 100Base TX port Force Def VLAN v When enabled forces all ingress frames ID with IEEE 802 3ac tags to have replacement VLAN IDs in the frame with the port s default VID This is valid only if IEEE 802 1q is enabled Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Appendix D IP Based and Chassis Management Parameters Transition Networks Table 28 Port Configuration Parameters continued IP based Forward Unknown When enabled unicast frames with unknown destination addresses are allowed to egress this port if VLAN is enabled The VLAN setting also allows this port to egress IEEE Priority class The priority remapping for frames that n 0 7 ingress this port The IEEE tagged frames with priority n get this new remapped priority inside the switch also if it egresses this port as tagged the priority is set in the tag IGMP Snoop This enables IGMP frame forwarding to the CPU IGMP is not supported in the present release Ignore Loopback This corresponds to the EFM OAM MIB It decides whether the OAM loopback on this port should be ignored Ignore Wrong Data This is related to the Port Lock Enabling this parameter will stop source address violations caused by Port Lock Ingress Limit mode This determines what kinds of frames are limited and counted against ingress limi
98. next page FZ 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Section VII FBRM BFFG Operation Status LEDs continued Status monitoring LEDS LED status tables The BFFG copper to fiber Gbit series Devices are designed to operate without user intervention Use the status LEDs to monitor Device operation once it has been installed in the network See Figure 60 Power Duplex Link Speed LACT PWR 1000Base X 10 100 1000 USB Link Active USB LED Figure 60 BFFG Device LEDs Tables 8 9 and 10 explain the status of the power USB twisted pair TP and fiber LEDs Table 8 Power and USB LEDs BFFG Devices ON has power OFF no power Blinking activity OFF no activity Table 9 Twisted Pair Bi Color LEDs BFFG Devices TP LEDs Duplex Yellow Half duplex TPLink activity Green Full duplex TPLink activity ON link BLINK activity Speed 10Mbs ON 100Mbs ON 1000 Mbs Table 10 Fiber LEDs BFFG Devices Fiber LEDs ON link blinking activity ON full OFF half Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 73 Section VII FBRM BFFG Operation Transition Networks Status LEDs continued Status The FBRM Gbit and BFFG Gbit fiber series Devices are designed to operate without monitoring user intervention Use the status LEDs to monitor medi
99. niaES 29 PROPCEICS ernieren Ea 31 SCICCHING nean ea E 30 Commands and Descriptions ssssesesssssssssssosoosee 124 Congestion Reduction GESCHID ON ren a A a 64 Connecting COPPEE CADDIES sacarina a 21 power adapter standalone model 00 22 Copper Cables Characters tiCS pccstesiais Hislecead aE NS 91 Default factory IP COMMS oprni 3239 IP based web password ccsssssssseseeeeeeeeeees 43 telnet password directly to device 40 USB password CLI access cccccseeeeeeeeeeeees 33 Device Configurations Options chassis standalone deVICES cccsssseseeeseeeeeeeeees 77 DHCP MEP COMI S na adn sastoeoadalts 36 IP config set up web based cssseeeeeeeeees 45 setup web Dased rerni nk 48 Duplex BULGE SCRIP U ines 65 Half ESC UPON a sett ana E 65 Far End Fault CESCIID GON sana ances 64 FBRM BFFG connection scenario gbit models ce 14 supported FEAtUIeS ccceeeeseeececeeeceeeeeeeaeeeeeeeees 3 Features POUE be Sree ti Giese tenn aie 62 Fiber Optics CIVATACTEIISUCS ccenn aen 92 RBE BGI Obi ega 99 XF FBRM G 5C DM Pronin a 97 XFBRMI OX x sanai 92 SEBRM I Xans R 96 Firmware Upgrade adimin intervent orara ieina EN 81l bootloader CESCHIDE Oo a tener en eeees 65 DOOtOaGe tC Birnin poten reeseseeuren maar 8 CESCHIDHON eo a 62 Taure a N 81l VOAM aaea a eeu noeaetaueeeuceeaan 81 Walia EPs oieri a EA 80 Via IOUS N s
100. o upgrade the firmware 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Appendix D IP Based and Chassis Management Parameters IP and chassis The chassis Device version of the Devices plugs into a Point System chassis to based provide management through the I C interface SNMP and web based management management through the MMU SNMP management is based on the Transition Networks enterprise MIBs The chassis based management via the MMU provides a subset of the IP based management via ports Tables 26 27 and 28 present IP and chassis based configuration management parameters Note The Y mark means available a blank cell means not available Table 24 System Configuration Parameters IP based BootLoader v v The currently installed version of the Version Bootloader Config Match Configuration management match Default Gateway The gateway in a network that will be used to access another network if a gateway is not specified for use DHCP v v DHCP Dynamic Host Configuration Protocol Enable disable DHCP to obtain IP subnet mask and gateway data upon reboot Firmware Version The currently installed version of the firmware IP Address IP address of the Device IP Traffic Access Enable disable IP Traffic to the Device MAC Address v v The MAC address is a unique identifier attached to most network adapter NICs It is a number that acts like the name for a
101. od is based on MIL 104 F at 40 C ambient temperature typical enclosure heat rise of 10 C and nominal operating conditions and parameters Installation and configuration specific MTBF estimates are available upon request Contact Technical Support Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 120 Appendix B FBRM BFFG Technical Specifications Transition Networks Specifications notices and warnings continued Notices Warnings IMPORTANT e The information in this user s guide is subject to change For the most up to date information on the FBRM BFFG Devices see the user s guide on line at www transition com e Product is certified by the manufacturer to comply with DHHS Rule 21 CFR Subchapter J applicable at the date of manufacture e IMPORTANT Copper based media ports e g Twisted Pair TP Ethernet USB RS232 RS422 RS485 DS1 DS3 Video Coax etc are intended to be connected to intra building inside plant link segments that are not subject to lightening transients or power faults CAUTION Copper based media ports e g Twisted Pair TP Ethernet USB RS232 RS422 RS485 DS1 DS3 Video Coax etc are NOT to be connected to inter building outside plant link segments that are subject to lightening transients or power faults Failure to observe this caution could result in damage to equipment WARNING Visible and invisible laser radiation when open
102. of power to enable sending an SNMP trap to alert the management console of a power failure Feature benefits are the following e Notification of an impending power loss before it happens e Allows for quicker resolution of the power loss The default action for last gasp OAM dying gasp is to send an SNMP Trap If the desire is to send a dying gasp through OAM it must be configured through the SNMP Web interface It requires choosing the port on which to send the Dying Gasp command since both ports are OAM capable This feature helps communicate with OAM peers that are not TN Devices OAM remote loop back can be used to test link health by sending a loop back request from the active peer Device to the remote passive peer Device Once the remote passive peer enters loop back mode all frames coming into that port are looped back yet not forwarded to other ports The OAM frames are still exchanged between the local and remote peer Devices only OAM frames get through The active peer Device discards the frames coming out of its remote peer Device to prevent flooding the network See the illustration below Passive This feature can be used to verify end to end connectivity Passive No Dropped Frames Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 65 Section VI FBRM BFFG Software Features Transition Networks Software feature descriptions continued Table 3 Device
103. of procedures other than those specified herein may result in hazardous radiation exposure Visible and invisible laser radiation when open DO NOT stare into the beam or view the beam directly with optical instruments Failure to observe this warning could result in an eye injury or blindness Transition Networks Section I Product Description In this section These are the topics General description a Product features 8 Management methods o o 4 Eee C E 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 1 Section I FBRM BFFG Product Description Transition Networks General description Design and configuration What is OAM In band management USB interface Point System mgmt interface The FBRM and BFFG Devices are designed as standalone models and also as slide in Devices for the Point System chassis These Devices can be managed through SNMP via the Focal Point software free Web based management Local SNMP and USB interfaces The CFBRM and CBFFG chassis Devices and SFBRM and SBFFG standalone Devices are designed to manage Devices remotely through the copper and fiber ports The FBRM or BFFG Devices installed on a network should be configured one as the local peer and the other as a remote peer for management Remote management is accomplished using OAM Operation Administration and Maintenance per the IEEE 802 3ah 2004 standard Standalone Devices can also be ma
104. ompt gt type xmodemupgrade 2 Press the ENTER key and a decision prompt will appear as shown in Figure 62 Console gt xmodemupgrade Do you wish to proceed to upgrading y n _ Figure 62 Decision Prompt for Firmware Upgrades Note If you select Y the firmware image on the targeted Device will be erased Continued on next page 76 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Transition Networks Section VII FBRM BFFG Operation Firmware upgrades continued XModem method continued Type Y at the prompt 4 Press the ENTER key to launch the firmware upgrade screen shown in Figure 63 10 100BaseT to 100BaseFX IPBased 802 3ah Bridge Version A Copyright c 2006 Transition Networks Reacting Conta Erom Plas itn ewes done Erasing Application Memory Start sending file through XModem Transfer completed Checking CRC Figure 63 Firmware Upgrade via Xmodem Choose the send file option from Hyperterminal with XModem as the protocol After the download the bootloader verifies the CRC of the file and resets itself to start the user application Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 WA Section VII FBRM BFFG Operation Transition Networks Firmware upgrades continued TETP method 78 The Device can be upgraded remotely using TFTP A valid IP address subnet gateway TFTP server IP a
105. on to launch the installation options dialog box 3 Select RADIO button Install from a list or specific location Advanced as shown in Figure 18 Found Mew Hardware Wizard This wizard helps vou install software for USB lt gt Serial t Ji If your hardware came with an installation CD lt a or floppy disk insert it now What do you want the wizard to do Install the software automatically Recommended Install from a list or specific location Advanced Click Next to continue Back Next gt Cancel Figure 18 Installation Options Dialog Box Click the NEXT button to bring up the driver search installation options dialog boxes shown in Figure 19 Found Mew Hardware Wizard Please choose your search and installation options D Search for the best driver in these locations Use the check boxes below to limit or expand the default search which includes local paths and removable media The best diver found will be installed Search removable media floppy CO ROM Include this location in the search m J O Don t search will choose the driver to install Choose this option to select the device driver from a list Windows does not guarantee that the driver you choose will be the best match for your hardware Figure 19 Driver Search Installation Options Dialog Box Continued on next page 26 Transition Networks Section Ill FBRM BFF
106. onfigurable Features continued Transparent Link Pass With OAM enabled TLPT with automatic link Through TLPT and restoration is available for the copper ports on the local Auto Link Restoration and remote peer Devices When a copper port goes down the information is passed to the other Device and the copper port on that Device will go down When the link is restored the link on the other port is also restored the fiber ports remain UP When TLPT is disabled if the copper port link drops it does not affect its peer s copper port links Note In the redundant models SFBRM1040 Ixx this feature only works when the Device is in redundant mode l l l l Auto Link Restoration will restore the broken link automatically upon correcting the fault condition For TLPT disabled and enabled scenarios see the illustrations below Disabled Copper 1 If Copper 2 Drops FBRM Both Fx U gt FBRM Converter 1 P Converter 2 Stays Up Pees Enabled Copper 1 If Copper 2 Drops FBRM maku FERM k j Converter 1 E Converter 2 Goes Down L Down Selective Link Pass The feature monitors the fiber Rx port for signal loss If Through the fiber Rx goes down the copper port stops transmitting See illustration below lf Fx 1 Drops 3 Converter 2 Fe end lt J evice 68 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Transition Networks Section Vl
107. ort 2 Fiber 1000Base SX LX SC 1000Base LX BX U CBFFG1329 110 DMI MM 1310 nm TX 1490 nm RX SBFFG1329 100 220 550 m 722 1 804 ft SM SBFFG1329 110 DMI 20km 12 4 miles CBFFG1329 101 SC 1000Base SX 850 nm SC 1000Base LX BX D CBFFG1329 111 DMI MM 1490 nm TX 1310 nm RX SBFFG1329 101 220 550 m 722 1 804 ft SM SBFFG1329 111 DMI 20 km 12 4 miles CBFFG1329 102 SC 1000Base SX 850 nm SC 100Base LX BX U CBFFG1329 112 DMI MM 1310 nmTX 1490 nm RX SBFFG1329 102 220 550 m 722 1 804 ft SM SBFFG1329 112 DIM 40 km 24 9 miles CBFFG1329 103 SC 1000Base SX 850 nm SC 100Base LX BX D CBFFG1329 113 DMI MM 1490 nm TX 1310 nm RX SBFFG1329 103 220 550 m 722 1 804 ft SM SBFFG1329 113 DMI 40 km 24 9 miles BX D down stream BX U up stream 220 722 ft 550 m 1 804 ft 62 5 125u fiber 50 125 fiber BFFG 100 and 101 110 and 111 Device pairs require installation in the same network where one is the local Device and the other its remote peer BFFG 102 and 103 112 and 113 Device pairs require installation in the same network where one is the local Device and the other its remote peer Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 117 Transition Networks Appendix A FBRM BFFG Part Numbers BFFG fiber to fiber part numbers continued SFP models 118 The models shown in Table 23 use SFP small form factor pluggable De
108. ort department for a return authorization number RAN Transition s technical support department can be reached through any of the following means Technical Support is available 24 hours a day e Tel 800 260 1312 x200 or 952 941 7600 x200 e Fax 952 941 2322 e Email techsupport transition com e Live web chat Transition Now e Voicemail 800 260 1312 x579 or 952 941 7600 x579 e All messages will be answered within one hour Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 105 Transition Networks Section X FBRM BFFG Contact Us Warranty amp Conformity Information Warranty continued How and where to send the returns Customer pays non compliant return costs Non warranty repair costs Repaired non warranty products This warranty is your only remedy 106 Send the defective product postage and insurance prepaid to the following address CSI Material Management Center c o Transition Networks 6103 Blue Circle Drive Minnetonka MN 55343 U S A Attn RETURNS DEPT Credit Return Authorization CRA or Return Material Authorization RMA Failure to protect the product during shipping may void this warranty The return authorization number must be written on the outside of the carton to ensure its acceptance We cannot accept delivery of any equipment sent to us without a CRA or RMA number The customer must pay the non compliant product s return
109. page 42 Transition Networks Section IV FBRM BFFG Initial Device Setup Initial Device setup via chassis agent MMU web based continued IP config via To configure the IP via DHCP do the following A DHCP server must be on the network and accessible DHCP On the local switch configuration screen enable DHCP On the local switch configuration screen set item Reset Switch to Yes Click the SAVE EXECUTE button to start the DHCP process Note To verify that the DHCP IP configuration was successful check the IP configuration for the Device on the local switch screen and note the changes to the IP configuration 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 43 Section IV FBRM BFFG Initial Device Setup Transition Networks Initial Device setup IP web based directly to Device Initial setup via IP to Device 44 To set up the Device initially via a IP web based do the following Open a web browser At the URL type in the FBRM BFFG default IP address Click the GO button to launch the password screen shown in Figure 41 Transition Networks xF BRM Remotely Managed Bridging Media Converter System Name xFER M100 Phsstrotd log in Figure 41 Login Screen Type the password default is private 5 Press the ENTER key to launch the FBRM BFFG main menu as shown in Figure 42 Transition Networks 192 251 144 150 x FBRM1012 22222 10 100 Remote Managment with 802
110. particular network adapter Management Thru CLI v When 802 1q is enabled the administrator VLAN ID only can configure VLAN IDs used for all management traffic to and from the Device via the CLI or through the chassis management agent Revision RADIUS v Enable disable RADIUS authentication Authentication When enabled the user is authenticated during login at the CLI or web interface Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 129 Transition Networks Appendix D IP Based and Chassis Management Parameters 130 Table 26 System Configuration Parameters continued IP TP based RADIUS RADIUS Retry Retries Retries after a network failure ss a network failure e and the RADIUS server RADIUS Server The IP address of the RADIUS server is Address used to get user information during authentication ee server Serial Access VY vV Enable disable USB port access Device is installed Subnet Mask v v Determines where the network number in wy an IP address ends and the node number in an IP address begins TFTP local Device only Address firmware upgrades local Device only Device only Transparent Link v v Enable disable TLPT TLPT causes the Pass Through loss of link on one side of a Device to be passed through to the other side so that the upstream Device can see fault conditions that would otherwise be hidden by Devices Note TLPT requires Auto
111. pstring show ifcabletest save set radius show ifstats factorydefaults set radiusip show ifrmonstats tf tpupgrade set radiussecret show ifoam xmodemupgrade set tftpserver show oamstatistics SYS set tftpfile show oampeer sys name set username show oamloopback sys location set password Console gt _ Figure 29 Commands for FBRM BFFGs Models Note See Appendix C for a complete list of the configuration commands and definitions All CLI commands are case sensitive Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 33 Section IV FBRM BFFG Initial Device Setup Transition Networks USB CLI access continued Redundant The following is the screen of commands for the redundant SFP Devices arp set netmask set l cp netstat set trapmgr set fiberredund ps set community set fiberrevert exit set groupstring ifconfig help set uploadcfg 1foam set downloadcfg show cls set radius show version ping set radiusip show redundancy reboot set radiussecret show ifconfig save set tftpserver show ifcabletest factorydefaults set tftpfile show ifstats tf tpupgrade set username show ifrmonstats xmodemupgrade set password show ifoam clearcounter set us show oamstatistics Sys set l3capability show oampeer sys name set snmpaccess show oamloopback sys location set mgmtvlan show niecho sys contact set niecho show l2cp set set autoupg snmpget set dhcp set forceupg snmpset set gateway set slpt snmpgetn set ip s
112. quire installation in the same network where one is the local Device and the other its remote peer FBRM 102 and 103 112 and 113 Device pairs require installation in the same network where one is the local Device and the other its remote peer Continued on next page 110 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Appendix A FBRM BFFG Part Numbers Transition Networks FBRM copper to fiber part numbers continued SFP models The models shown in Table 16 use SFP small form factor pluggable Devices sold separately from Transition networks Table 16 FBRM1040 1xx SFP Models Part Number Port 1 Copper 10 100Base T Port 2 Empty CFBRM1040 100 RJ 45 100m 328ft Empty SFP slot CFBRM1040 110 DMI SFBRM1040 100 SFBRM1040 110 DMI Note The distances for Port 1 listed in Table 21 are typical maximum distances the physical characteristics of the network dictate actual distances Compatible SFP transceiver Devices for the FBRM1040 1xx Devices are available from Transition Networks sold separately See the TN SFP xxx series SFP manual 33308 at www transiton com for available options 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 111 Transition Networks Appendix A FBRM BFFG Part Numbers FBRM fiber to fiber part numbers FBRM Gbit models 1a The models shown in Table 17 are dual fiber port models The 11x in the model designation means DMI functionali
113. r When the firmware upgrade on the remote peer Device is completed it will perform a reset to activate the new firmware no user intervention is required Active and passive peer relationships are established during configuration The FBRM BFFG Devices can have a corrupted image for a variety of reasons If the image is corrupt the following will occur The bootloader checks the CRC to make sure the image is good if the check fails it will re initiate each method XMODEM TFTP OAM in an attempt to accomplish the upgrade The sequences is a follows XMODEM will re initiate if there is no input from the console it will try the OAM method A OAM initiates to locate an active peer on the network to get the upgrade image if an active peer is not available it will try the TFTP method E TFTP initiates a request to the TFTP server to get the upgrade image for the Device This process continuously loops through these upgrade methods until one of the methods successfully upgrades the firmware image To do a firmware upgrade from the console before the bootloader moves to the next method it waits for 2 seconds for user input displaying the following message Moving to XMODEM upgrade Hit ESC to skip or ctrl c LOD Chil The bootloader has a CLI to configure network setting such as the TFTP server address filename and the boot method to use for upgrading the firmware The CLI can be started by pr
114. ransmitters on these Devices meet Class I Laser safety requirements per IEC 825 CDRH standards and comply with 21 CFR1040 10 and 21CFR1040 11 WARNING Visible and invisible laser radiation when open Do not stare into the beam or view the beam directly with optical instruments Failure to observe this warning could result in an eye injury or blindness WARNING Use of controls adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 93 Transition Networks Section IX FBRM BFFG Cable amp Fiber Optic Specifications Fiber optic cable and connector specifications continued FBRM fiber to fiber Gbit connector Fiber Optics CFBRM1313 100 SFBRM1313 100 Port 1 Specification 1310 nm multimode Port 2 Specification 850 nm multimode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 10 0 dBm max 14 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 17 0 dBm max 0 0 dBm Link budget 11 dB 7 dB CFBRM1314 100 SFBRM1314 100 1310 nm multimode 1310 nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 13 0 dBm max 3 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 20 0 dBm max 3 0 dBm Link budget 11 dB 7 dB CFBRM1315 100 SFBRM1315 100 1310 nm multimode 1310 nm single mo
115. re allowed to egress this port if VLAN is enabled The VLAN setting also allows this port to egress Default Priority The default priority of the frames entering the port when no other priorities are assigned and enabled Default VLAN ID When IEEE 802 1q is enabled the default VID is used as the IEEE tagged VLAN ID to un tag or priority tag frames when they egress of this port Description String v Group string for this port with the maximum length of 64 characters Continued on next page 132 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Appendix D IP Based and Chassis Management Parameters Transition Networks Table 28 Port Configuration Parameters continued a Discard Tagged When enabled all non management frames processed as tagged are discarded If double tagging is enabled then this check is performed after Ingress double tag removal Frames with priority and VLAN of 0 are considered tagged Discard Untagged When enabled all non management frames processed as untagged are discarded If double tagging is enabled then this check is performed after Ingress double tag removal Frames with priority and VLAN of 0 are considered tagged Discard Untagged When enabled all non management frames processed as untagged are discarded If double tagging is enabled then this check is performed after ingress double tag removal Frames with priority and VLAN of
116. resh agent summary Figure 39 Point System Chassis Main Menu Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 41 Section IV FBRM BFFG Initial Device Setup Transition Networks Initial Device setup via chassis agent MMU web based continued 7 Click the VIEW button of the CFBRM CBFFG Device in slot 9 to show the local configuration screen for the Device See Figure 40 Note You can configure the IP along with other Device parameters on this screen CFBRM1051410 100 10 100 AH IP Converter Cabinet 30465 Slot 9 Local Switch Parameter alue Followed by integer value from MIB if applicable Group membership Config Match NAC serial Number 1927859 Firmware Revision DI Link Passthrough Transparent End TP te End TF DISABLED 2 Local Fiber to TP DISABLED 2 Factory Reset Noe USB interface ENABLED 1 ptime dhs 00 00 2943 Reset L Reset Counters all ports NO Reset owitch NO Switch Fail NO Switch Embedded Agent Networking ENABLED 1 IF address 192 165 1 1 subnet Mask 255 255 255 0 Gateway 192 166 1 2 Trap Manager 0 0 0 0 _ DHCP DISABLED 2 SNMP ENABLED Ethernet Address 00 CO F201 11 1E Management VLAN ID Last Gasp SNMP Figure 40 Local Switch FBRM BFFG Configuration Screen Note DO NOT use the browser BACK button to navigate the screens This will cause the connection to drop Continued on next
117. ress database This disables learning new source addresses Continued on next page 136 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Appendix D IP Based and Chassis Management Parameters Transition Networks Table 28 Port Configuration Parameters continued ae Pri0 Ingress Rate Rate limit for Priority 0 frames The rate limit is provided as a list of pre defined values noLimit 1 rate64K 2 rate96K 3 ratel28K 4 ratel60K 5 ratel92K 6 rate224K 7 rate256K 8 rate320K 9 rate384K 10 rate512K 11 rate768K 12 ratelM 13 ratel_2M 14 ratel_SM 15 rate2M 16 rate3M 17 rate4M 18 rateSM 19 rateSM 20 ratelOM 21 rate20M 22 rate30M 23 rate40M 24 rate60M 25 rateS80M 26 Pril Ingress Rate Rate limit for Priority 1 frames to be Control the same or twice that of the Priority 0 frames Pri2 Ingress Rate Rate limit for Priority 2 frames to be Control the same or twice that of the Priority 1 frames Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 137 Transition Networks Appendix D IP Based and Chassis Management Parameters Table 28 Port Configuration Parameters continued IP based Pri3 Ingress Rate v v Rate limit for Priority 3 frames to be Control the same or twice that of the Priority 2 frames re
118. s If the oid option is used the indices should be present for table variables and O for leaf variables e If the variable option is used the leaf variables can be named as 1s the table variables have the following format lt tableentry gt index index2 Ex snmpset variable sysContact type STR value techsupport transition com snmpset variable ifEntry 2 lt ifNumber gt type STR value Interface Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 127 Transition Networks 128 Appendix C Device Commands amp Definitions tftpupgrade xmodemupgrade SNMP walk of the entire MIB tree if no options are specified or from OID from the last query if continue is specified Usage snmpwalk lt continue gt The system group variables of MIB II can be configured using the sys command The system contact name and location can be set Usage sys contact lt value gt max 64 name lt value gt max 64 location lt value gt max 64 Upgrades the firmware running on the Device using TFTP protocol The tftp server IP and tftp filename should be configured using the set command or can be given as arguments to this command Usage tftpupgrade erver nn nn nn nn filename lt filename gt Upgrades the firmware running on the Device using XModem protocol The command invokes the bootloader and start an XModem transfer t
119. s 1310 nm TX 1490 nm RX SFBRM1329 100 SM SFBRM1329 110 DMI 20km 12 4 miles CFBRM1329 101 100Base FX 1300 nm SC 1000Base LX BX D CFBRM1329 111 DMI MM SC 2 Km 1 2 miles 1490nm TX 1310 nm RX SFBRM1329 101 SM SFBRM1329 111 DMI 20 km 12 4 miles CFBRM1329 102 R100Base FX 1300nm SC 100Base LX BX U CFBRM1329 112 DMI MM SC 2 Km 1 2 miles 1310 nm TX 1490 nm RX SFBRM1329 102 SM SFBRM1329 112 DIM 40 km 24 9 miles CFBRM1329 103 100Base FX 1300 nm SC 100Base LX BX D CFBRM1329 113 DMI MM SC 2 Km 1 2 miles 1490 nm TX 1310 nm RX SFBRM1329 103 SM SFBRM1329 113 DMI 40 km 24 9 miles BX D down stream BX U up stream FBRM 100 and 101 110 and 111 Device pairs require installation in the same network where one is the local Device and the other its remote peer FBRM 102 and 103 112 and 113 Device pairs require installation in the same network where one is the local Device and the other its remote peer Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 113 Transition Networks Appendix A FBRM BFFG Part Numbers FBRM fiber to fiber part numbers continued SFP models The models shown in Table 19 use SFP small form factor pluggable Devices sold separately from Transition Networks Table 19 FBRM1340 1xx SFP Models Part Number Port 1 Copper 10 100Base T Port 2 Empty CFBRM1340 100 RJ 45 100m 328ft Empty SFP slot SFBRM1340 100 Note The dist
120. s environment if the TN icon is displayed in the lower right corner of the monitor then the Trap Server is running e SNMP traps may be blocked by a router or firewall Consult your Network administrator to determine if this is the case e The SNMP trap manager may not be configured properly The result is that the SNMP agent does not know the proper IP address Use the set command to configure the trap manager Enter the following command on a single line CPSMM100 gt set cpsmmI 00SNMPTrapMgr lt cabinet serial number gt lt slot number of the MM gt ip lt new IP Address of NMS gt e Alternatively use the getnext command to get much of this information and then use the set command to issue the set request The following is an example Enter Super User Mode CPSMM100 gt su lt private community name gt su CPSMM gt Enter the getnext command su CPSMM100 gt getnext cpsmm 00snmptrapmegr The response is SNMP GETNEXT 192 251 144 229 id D2EE6F3F ind 0 cpsmm O0snmptrapmgr 758208 IP Address 4 0x4 192 251 144 235 Enter the set request su CPSMMIO0 gt set ip 172 16 45 105 The response is SNMP SET 192 251 144 229 id D2EE6F3F ind 0 cpsmmI OOSNMPTrapMegr 1758208 IP Address 4 0x4 172 16 45 105 Save the changes su CPSMMI00 gt save Continued on next page 84 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Section VIII FB
121. s per IEC 825 CDRH standards and comply with 21 CFR1040 10 and 21CFR1040 11 WARNING Visible and invisible laser radiation when open Do not stare into the beam or view the beam directly with optical instruments Failure to observe this warning could result in an eye injury or blindness WARNING Use of controls adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure Continued on next page 96 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Section IX FBRM BFFG Cable amp Fiber Optic Specifications Transition Networks Fiber optic cable and connector specifications continued BFFG fiber to fiber Gbit connectors Fiber Optics CBFFG1313 100 SBFFG1313 100 Port 1 Specification 1300 nm multimode Port 2 Specification 850 nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 10 0 dBm max 14 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 17 0 dBm max 0 0 dBm Link budget 11 dB 7 dB CBFFG1314 100 SBFFG1314 100 1300 nm multimode 1310 nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm min 13 0 dBm max 3 0 dBm Fiber optic receiver sensitivity min 30 0 dBm max 14 0 dBm min 20 0 dBm max 3 0 dBm Link budget 11 dB 7 dB CBFFG1315 100 SBFFG1315 100 1300 nm multimode 1310 nm single mode Fiber optic transmitter power min 19 0 dBm max 14 0 dBm
122. sive Mode Note OAM session can be formed between Devices with both set to Active Mode but this prevents remote management The remote Device should be in Passive Mode for management e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 85 Transition Networks Section VIII FBRM BFFG Troubleshooting Troubleshooting problem and corrective action table continued Corrective Action Unable to do e If the OAM session is active the active local peer Device sends configuration directly configuration information if the user attempts to go directly to the using IP based remote passive peer Device the configuration will be overwritten by the management on Remote OAM update from the local active peer It is advisable to always use the Device local active peer Device to manage its remote passive peer Device e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 Chassis FBRM BFFG e Make sure the Point System agent has the latest firmware version for the not recognized by the CFBRM CBFFG Device Use the FEATSUPP command to see if the chassis agent Devices are supported e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 Chassis FBRM BFFG is e The chassis Devices in single slot chassis function as a standalone in a s
123. ssis agent MMU web based Setup via Web To set up the Device initially via the MMU web based do the following to MMU La a Open a web browser 1 At the URL type the IP address of the chassis MMU Click the GO button to bring up the password screen shown in Figure 37 Transition Networks CPSMM100 200 Point System agent version 061205QM System Name CPSMM 100 200 Password log in Figure 37 Chassis Agent MMU Log In Screen Type the password default is private Press the ENTER key to launch the chassis agent s main menu shown in Figure 38 Transition Networks Point System Agent Summary 192 251 144 130 C PSMM100 200 Cabinets Description Model Group Control Strin g apply Figure 38 Chassis Agent MMU Main Menu Click the VIEW button to show the Devices in the chassis and the screen will appear as shown in Figure 39 GP 18 Slot chassis Slot Power for cabinet S N 30465 LM2KM 3 V4 VM 56 6M 7M S amp M om 10 4 11 4 12 4 13 4 14 4 15 4 16 4 17 4 18 4 save Cab Slot _ Device Summa vend Se ee Leena Base Management Module Link UP 1 Primary YES 1 IP 192 251 144 130 Firmware 061205QM S N 1496913 call Wags Rene 10 100 AH IP Converter 1 Link DOWN 2 2 Link DOWN 2 me a E rere 6 port Ethernet Switch Port Link 1 DOWN 2 2 DOWN 2 3 DOWN 2 4 DOWN 2 5 DOWN 2 6 DOWN 2 zoags 125 CPSMP100 200 Instant Failover Power Supply Pwrl Power OK YES 1 In Use YES 1 ref
124. stalled firmware revisions network configurations system uptime etc information Show redundancy Shows fiber redundancy settings show ifcabletest Performs cable tests and displays the cable status for all or a specified port Usage show ifcabletest port lt all port no gt show ifconfig Displays port configurations including speed duplex and IP access for a specified port or all ports Usage show ifconfig port lt all port no gt show ifoam Displays OAM configuration and status for all or a specified port Usage show ifoam port lt all port no gt show ifrmonstats Displays RMON statistics for all or a specified port a Usage show ifrmonstats port lt all port no gt show ifstats Displays port statistics for all or a specified port Usage show ifstats port lt all port no gt show oamloopback Displays OAM Loopback status for all or a specified port Usage show oamloopback port lt all port no gt show niecho Displays Non intrusive echo generation status for all or specified port Usage show niecho port lt all port no gt show 12cp is L2cp Displays L2CP disposition for all or specified port Usage show I2cp port lt all port no gt show oampeer Displays OAM peer information for all or a specified port Usage show oamloopback port lt all port no gt Displays OAM PDU statistics for all or a specified port Usage show oamstatistics port lt all port no gt Continued on next p
125. switch provides complete management through IP via an SNMP interface web browser or Telnet The Device provides an embedded web server for web based management It also offers advanced management features and enables Device management from anywhere on the network through a standard browser such as Microsoft Internet Explorer or Netscape Transition Networks Section l FBRM BFFG Product Description Hardware description Front panel CFBRM The front panel of the CFBRM10xx 1xx Devices has the following ports and LEDs Front Panel LEDs e Power one One RJ 45 auto sensing of 10Base or 10 100Base TX UTP e RJ 45 port two connections One 100Base FX LX BX fiber either SC or ST connectors e LACT one e DPX one One USB e USB one Power SC Connector RJ 45 Port LED Fiber LEDs oHa USB Fort DPX LACT PWR 100Base FX 10 100Base TX CO USB LEDs Por Figure 1 Chassis CFBRM10xx 1xx Device Front Panel Note The LEDs and ports are the same on the SFBRM10xx 1xx standalone models Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 5 Section I FBRM BFFG Product Description Hardware description continued Front panel CFBRM Transition Networks The front panel of the CFBRM 1040 140 Devices has the following ports and LEDs 100Base FX SFP port 10 100 Base T copper port One USB Duplex Link Power SFP Port USB Port Hi 100Base FX
126. taaten verst sst gegen die jeweligen einzelstaatlichen Gesetze zur Anwendung der Richtlinie 91 263 EWG zur Angleichung der Rechtsvorschriften der Mitgliedstaaten ber Telekommunikationsendeinrichtungen einschliesslich der gegenseitigen Anerkennung ihrer Konformit t 108 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Appendix A FBRM BFFG Part Numbers FBRM copper to fiber part numbers Standard models The models shown in Table 14 perform as described in this manual The 110 in the model designation means DMI functionality Table 14 FBRM10xx 1xx Model Numbers Port 1 Copper Port 2 Fiber sab Numer 10 100Base T 100Base FX CFBRM1011 100 RJ 45 ST 1OOBase FX 1300nm CFBRM1011 110 DMI 100m 32Sft MM SFBRM1011 100 2 km 1 2 miles SFBRM1011 110 DMI CFBRM1013 100 RJ 45 SC 100Base FX 1300nm CFBRM1013 110 DMI 100m 32Sft MM SFBRM1013 100 2 km 1 2 miles SFBRM1013 110 DMI CFBRM1014 100 RJ 45 SC 100Base LX10 1310nm CFBRM1014 110 DMI 100m 32Sft SM SFBRM1014 100 10 km 6 2 miles SFBRM1014 110 DMI CFBRM1015 100 RJ 45 SC 100Base FX 1310nm CFBRM1015 110 DMI 100m 32Sft SM SFBRM1015 100 40 km 24 9 miles SFBRM1015 110 DMI long haul CFBRM1016 100 RJ 45 SC 100Base FX 1310nm CFBRM1016 110 DMI 100m 32Sft SM SFBRM1016 100 60 km 37 3 miles SFBRM1016 110 DMI extra long haul CFBRM1017 100 RJ 45 SC 100Base FX 1550nm CFBRM1017 110 DMI 100m 32Sft SM SFBRM1017 100 80 km 49 7
127. tandalone OAM Capability The active Device manages the passive Device Active The Devices exchange status information through OAM but cannot be managed through OAM a Active The chassis Device needs to be in Active Mode since it is being managed by the point system agent Management through OAM and the chassis simultaneously will cause configuration errors Note A chassis Device in a single slot chassis without the Point System agent functions as a standalone Device 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 75 Section VII FBRM BFFG Operation Transition Networks Firmware upgrades Introduction The firmware image on the Device can be upgraded by these methods e TFTP protocol e XModem e OAM When enabled OAM is done automatically when the active peer detects that its remotely managed peer is running a different version of the firmware TFTP and XModem are initiated by the user All firmware upgrades are done by the bootloader Note The bootloader recognizes incompatible FRBRM BFFG BIN files when upgrading Since there are different FBRM BFFG Device types it is possible that the user could download the wrong BIN file when it receives an incorrect file through TFTP or XMODEM the following message will appear on the screen Bootloader Hardware and BIN file mismatch upgrade aborted XModem To upgrade the firmware via XModem do the following method At the console pr
128. the USB driver installed via USB port e Is the serial access disabled e Is the USB cable connected to the Device and to the host computer e Is the terminal emulator software configured properly for the USB port and launched See Driver Installation and COM Port Setup Terminal Emulator section e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 The local Device LACT e Is the input source to the local Device active LED is ON but no data transfer is detected LED flashing e Is the RJ 45 network cable fully inserted into the local Device also into the network Device e Is the fiber cable properly inserted into the local Device and the end source Device e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 Ports do not link up e Check the cable type needed for the Device and make sure the right cable is used e Check Auto Negotiation setting e Check if TPLT or remote fault detect condition was triggered e Contact Technical Support US Canada 1 800 260 1312 International OO 1 952 941 7600 Continued on next page 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 83 Transition Networks Section VIII FBRM BFFG Troubleshooting Troubleshooting problem and corrective action table continued Corrective Action The Trap Server does not e Ensure the Trap Server application is running record traps o Inthe Window
129. ting Frames not limited by this setting are not counted against the limit Ingress Monitor When enabled all ingress frames are Port sent to the ingress monitor destination port sfbrm100SwingressMonPort IP Traffic When disabled all IP traffic through this port to the CPU 1s restricted Link Partner Speed and duplex capabilities of the Link Autoneg ability Partner Link Partner Pause Pause frame capabilities of the Link ability Partner The link status of the port Continued on next page 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 135 Transition Networks Appendix D IP Based and Chassis Management Parameters Table 28 Port Configuration Parameters continued IP based OAM Mode v v This determines how the OAM Modefor Control ports 1s configured manual auto e In auto mode the port defaults to active if in a chassis passive if a standalone e In manual mode the user can choose the OAM mode using the EFM HUB MIB under the TN private MIB tree OAM State v v Enable disable IEEE 802 1ah OAM management on this port Port Index v The index of the port in sfbrm100PortTable Port Lock v IEEE 802 1x MAC authentication All non management frames received on this port are discarded if the source address is not in the learned address database this could cause continuous MAC address violation To prevent this an entry with all port vectors as 0 can be added to the add
130. tion V FBRM BFFG Device Management Device management via chassis agent MMU web based continued Click a PORT BUTTON to bring up the local port switch configuration screen shown in Figure 55 Scroll down the screen to see the remaining parameters Note You can set OAM and other parameters on this screen CFBRAM11034010 100 10 100 AH TP Converter Cabine 30465 SloH6 Port 1 of Local switch Parameter alue Followed by integer value from MIB if applicable ink DOWN Media Connector EJ 45 10 Port Mode 107100EaseT 1 Management IP Pass li Administrative state LPyoass traffici z Tgnore Loopback requests DISABLED Remote Loopback trtiate Disabled 3 OAM Active Z Autonegotiation ENABLED Advertised Modes 10Mbps HDX ENABLED 1 10Mbps FDX ENABLED 1 100Mbps HDX ENABLED 1 100Mbps FDX ENABLED 1 Pause Disabled Pairs Autol Speed Negotiating 7 Duplex Negotating Figure 55 Port 1 Local Switch Note DO NOT use the browser BACK button to navigate the screens This will cause the connection to drop 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 55 Section V FBRM BFFG Device Management Transition Networks Device management via IP web base directly to Device Introduction IP web based management
131. ty Table 17 FBRM13xx 1lxx Gbit Models Part Number CFBRM1313 100 CFBRM1313 110 DMI SFBRM1313 100 SFBRM1313 110 DMI CFBRM1314 100 CFBRM1314 110 DMI SFBRM1314 100 SFBRM1314 110 DMI CFBRM1315 100 CFBRM1315 110 DMI SFBRM1315 100 SFBRM1315 110 DMI CFBRM1317 100 CFBRM1317 110 DMI SFBRM1317 100 SFBRM1317 110 DMI CFBRM1335 100 SFBRM1335 110 DMI CFBRM1335 100 SFBRM1335 110 DMI 24 Hour Technical Support 1 800 260 1312 Port 1 Fiber 100Base FX 100Base FX 1300 nm MM SC 2Km 1 2 miles 100Base FX 1300 nm MM SC 2Km 1 2 miles 100Base FX 1300 nm MM SC 2Km 1 2 miles 100Base FX 1300 nm MM SC 2Km 1 2 miles 100Base FX 1300 nm MM SC 2 Km 1 2 miles Port 2 Fiber 1000Base SX LX SC 1000Base SX 850 nm MM 300 500 m 985 1 640 ft SC 1000Base LX 1310 nm SM 10 Km 6 2 miles SC 1000Base LX 1310 nm SM 25 km 15 5 miles SC 1000Base LX 1310 nm SM 65 km 40 3 miles SC 1000Base LX 1310 nm SM 120 km 74 6 miles Continued on next page International 00 1 952 941 7600 Appendix A FBRM BFFG Part Numbers Transition Networks FBRM fiber to fiber part numbers continued Single fiber models The models shown in Table 18 are single fiber models and must be installed in pairs Table 18 FBRM13xx 1xx Single Fiber Model Pairs Part Number CFBRM1329 100 Port 1 Fiber 100Base FX 100Base FX 1300 nm Port 2 Fiber 1000Base SX LX SC 1000Base LX BX U CFBRM1329 110 DMI MM SC 2 Km 1 2 mile
132. ty Sets SNMP community name Usage set community lt name gt set dhcp Enables disables DHCP at boot time In case DHCP failed during initialization retry using the restart option Usage set dhcp lt enable disable restart gt Download the system configuration from a TFTP Server set downloadcfg Usage Usage set downloadcfg lt filename gt I3access lt enable disable gt ipsetting lt default nochange gt Note The access and ipsetting are options to turnOFF IP access once the upgrade is done and to change the IP address subnet and gateway to factory defaults set forceupg Enable disable forcing a firmware upgrade of the peer on specified port automatically Usage set forceupg port lt portno gt set gateway Sets gateway address a epenn OOOO set groupstring Sets group string for the system Usage set groupstring lt name gt max 64 set uploadcfg Sets uploading the system configuration to a TFTP Server Usage Usage set uploadcfs lt filename gt set downloadcfg Sets Downloading the system configuration from a TFTP Server Usage Usage set set ip Sets IP address set I3capability Enables disables all layer 3 traffic Usage set 3capability lt enable disable gt set mgmtvlan Sets management VLAN ID for management traffic set niecho Sets the number of echo frames to be sent and start the non intrusive echo frame generation on the interface Usage set niec
133. vice by its front panel j Align the Device with the slot guides and carefully insert the Device into the installation slot Firmly seat the Device against the chassis back panel 5 Push IN and ROTATE clockwise the panel fastener screw to secure the Device to the chassis See Figure 12 Fastener Screw Figure 12 CFBRM CBFFG Device Chassis Installation 18 Transition Networks Section Il FBRM BFFG Hardware Installation Installing SFBRM SBFFG standalone models Standalone installation Figure 13 shows a typical installation involving two 2 SFBRM SBFFG standalone Devices on a network Network Local FBRM BFFG Remote FBRM BFFG Fiber Cable Figure 13 Installation with Two SFBRM SBFFG Standalone Devices Note With the local active standalone Device connected to a remote standalone passive Device and with Mode Control set to Auto the local active Device will manage the remote passive Device This relationship is established automatically 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 19 Section Il FBRM BFFG Hardware Installation Transition Networks Installing fiber and copper cables Warning i Use of controls any adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure Visible and invisible laser radiation when open DO NOT stare into the laser light beam or view the beam directly w
134. vices sold separately from Transition Networks Table 23 BFFG1340 1xx SFP Models Port 1 Fiber Part Number 1000Base SX Port 2 Empty CBFFG1340 100 SC 1000Base SX 850 nm MM Empty SFP slot SBFFG1340 100 220 500 m 728 1 640 ft Compatible SFP transceiver Devices for the BFFG1340 1xx Devices are available from Transition Networks sold separately See the TN SFP xxx series SFP manual 33308 at www transiton com for available options 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Appendix A FBRM BFFG Part Numbers Transition Networks Intentionally Blank 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 119 Transition Networks Appendix B FBRM BFFG Technical Specification Specifications notices and warnings For use with Transition Networks Models FBRM and BFFG or equivalent IEEE Standards IEEE 802 3 2000 IEEE 802 3ah 2004 clause 57 58 IEEE 802 1q 2003 IEEE 802 1x 2004 IEEE 802 1D IEEE 802 1P Safety Compliance Unit CE Mark Wall Mount Power Supply UL Approved UL60950 and CSA Certified 4 watts MTBF CFBRM amp CBFFG models 141 526 MIL217F2 hours 518 418 Bellcore hours SFBRM amp SBFFG models 39 895 MIL217F2 hours 106 056 Bellcore hours or Point System Backplane provided 0 to 45 C 32 to 113 F 25 to 65 C 13 to 149 F 5 to 95 non condensing MTBF criteria MTBF is estimated using the predictability method This meth
135. where to return the product In this section These are the topics Conformity declaration Compliance information 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 101 Transition Networks Section X FBRM BFFG Contact Us Warranty amp Conformity Information Contact us Technical Technical Support is available 24 hours a day support United States 1 800 260 1312 International 00 1 952 941 7600 Live Web chat Chat live via the Web with a Transition Networks Technical Support Specialist Log onto www transition com and click the Transition Now link Web based Transition Networks provides 12 16 seminars per month via live web based training training Log onto www transition com and click the Learning Center link E Mail Ask a question anytime by sending an e mail message to our technical support staff techsupport transition com Address Transition Networks 10900 Red Circle Drive Minnetonka MN 55343 U S A Telephone 952 941 7600 Toll free U S A amp Canada 800 526 9267 Fax 952 941 2322 102 24 Hour Technical Support 1 800 260 1312 International OO 1 952 941 7600 Section X FBRM BFFG Contact Us Warranty amp Conformity Information Conformity declaration TRANSITION Nee NETWORKS Name of Mfg Model Part Numbers 24 Hour Technical Support 1 800 260 1312 Declaration of Conformity Transitions Networks 6427 City West Parkway Minneapolis MN 55344 U S A XFBRM1xxx 1xx
136. x 24 Hour Technical Support 1 800 260 1312 International 00 1 952 941 7600 Transition Networks Caution and warnings Definitions Cautions Warnings Cautions indicate that there is the possibility of poor equipment performance or damage to the equipment The symbol below identifies cautions Warnings indicate that there 1s the possibility of injury to person Cautions and Warnings appear here and may appear throughout this manual where appropriate Failure to read and understand the information identified by the symbol could result in poor equipment performance damage to the equipment or injury to persons When handling chassis Devices observe electrostatic discharge precautions This requires proper grounding 1 e wear a wrist strap Copper based media ports e g Twisted Pair TP Ethernet USB RS232 RS422 RS485 DS1 DS3 Video Coax etc are intended to be connected to intra building inside plant link segments that are not subject to lightening transients or power faults Copper based media ports e g Twisted Pair TP Ethernet USB RS232 RS422 RS485 DS1 DS3 Video Coax etc are NOT to be connected to inter building outside plant link segments that are subject to lightening DO NOT install the Devices in areas where strong electromagnetic fields EMF exist Failure to observe this caution could result in poor Device performance Use of controls adjustments or the performance
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