FMUX04E User Manual - Datainterfaces.com
Contents
1. FMUX04ETrap Local Remote Trap Meaning system 10 10 system pwrOn 1000 10 1 2000 10 1 Power On trap system pwrl TurnON 1000 10 2 2000 10 2 Power 1 On trap system pwrl TurnOFF 1000 10 3 2000 10 3 Power 1 Off trap system pwr2TurnON 1000 10 4 2000 104 2 On trap system pwr2TurnOFF 1000 10 5 2000 10 5 Power 2 Off trap system remoPwrFail 1000 10 6 2000 10 6 Remote Power fail trap fiberPort 20 20 fiberPort fx lasworkingChannel 1000 20 1 2000 20 1 Fiber Working Channel change to FX1 fiberPort fx2asworkingChannel 1000 20 2 2000 20 2 Fiber Working Channel change to 2 fiberPort signalLink 1000 20 3 2000 20 23 link trap fiberPort signalLoss 1000 20 4 2000 20 4 Fiber link loss trap fiberPort berLv1 1000 20 5 2000 20 5 0 lt lt 1 6 fiberPort berLv2 1000 20 6 2000 20 le 6 lt BER lt le 3 fiberPort berLv3 1000 20 7 2000 20 7 BER gt le 3 eltiPort 30 30 elt1Port serviceOn 1000 30 1 2000 30 1 service on trap elt Port serviceOff 1000 30 2 2000 30 22 service off trap elt1Port linkUp 1000 30 3 2000 30 3 link up trap eltiPort linkDown 1000 30 4 2000 30 4 link down trap eltiPort bpvOk 1000 30 5 2000 30 5 Ok trap eltlPort bpvErr 1000 30 6 2000 30 66 Error trap lanPort 40 40 lanPort serviceOn 1000 40 1 2000 40 1 LAN service on trap lanPort serviceOff 1000 40 2 2000 40 2 LAN ser2. uari 26 34 7 PassWoEd saca 26 Bo eure eres renee eer reete eos 27 3 5 CONFIGURING VIA THELCD MENU ee eee diet 27 2 52 Menu StF 6turex ul L la ao A ni Gaile 27 35 2 Operation detail Su 25 TE 3 ret aa ca n cn ves EP E e ali E m sa as 28 3 6 SNMPizi 2 oaie E e cat d dat E Ad tat less 30 3 7 UPGRADE FIRMWARE USING THE UPGRADE TOQOL 31 Table of Contents CHAPTER 4 SN MP cnica AAA AAA AA dins 35 4 7 GENERAL idad 35 4 2 5 5 gt 52 0 ect a Ra A ERE pa candice s es ic i 35 4 3 THE MANAGEMENT INFORMATION BASE 1 1 1 111 35 4 4A MIB STRUCTURE SSS LS canta iS araea 36 AS SNMP COMMUNITIES saadan ke anbe sad 36 4 6 CONFIGURING THE SNMP AGENT E 37 4 6 3 TFTP dnd Upgrade Firmware e eR re ANA tae i e b aun S 38 457 MIB EIDE a SEES 39 4 8 WEB BASED INTEREAGE AERE TEUER Te sea 40 48 1 Security Login an ta nea
3. a a nr 49 AS SNMP OBJECT DETAILS RNA Ra e Q aaa le ad nd dn aaa enden 50 11 Chapter 1 Introduction Chapter 1 Introduction Thank you for choosing the FMUXO4E If you would like to skip right to the installation and configuration of the Multiplexer proceed to Chapters 2 and 3 This manual is used to explain the installation and operating procedures for the FMUXO4E 4 Port Fiber Optical E1 T1 100M Ethernet Multiplexer and present its capabilities and specifications This manual is divided into 5 Chapters the Introduction Installation Operation Loop Back Testing and SNMP chapters The Appendix includes the pin assignments of special cables and gives further information on options for placing the device in service The divisions of the manual are intended for use by personnel to answer questions in general areas Planners and potential purchasers may read the Introduction to determine the suitability of the product to its intended use Installers should read the Installation Chapter and the Cabling Specification Appendix Operating Personnel would use the Operations Chapter to become familiar with the settings Operating Personnel and Network Administrators should read the chapters on loop back testing and on SNMP to become familiar with the diagnostic capabilities network
4. Ver 1 00 CK OK ECKE GO OK EE OG AG OEC GG X GE X GG IG KG X G GG XI IG XI XI G X X x x No SNMP ati ati ati lt ESC gt Go to previous menu Please select an item lt 1 gt Operation Mode the No VLAN mode the three LAN ports and the SNMP agent if installed are all connected by switch to the aggregate trunk In Port 1 VLAN mode the LAN SNMP port connects only to the SNMP agent for out band management and does not connect to the aggregate trunk or to LAN2 or LAN3 ports 24 Chapter 3 Operation lt 2 4 gt LAN Channel x Status and Configuration These three menu items 2 4 are for each on the LAN ports Under these menus services can be disable and the Ethernet can be configured for auto negotiation default or to one of four forced modes 100 Full 100 Half 10 Full or 10 Half KRKKKKKKK KKK KKK KKK KK KK KK EK KG XXX CTC UNI ON TECHNOLOGIES e i LTD nager Ver 1 00 KKKKKKKKKKKAEKKKKKKKKKK EL gees Local 000 0 500 No SNMP lt ESC gt Go to previous menu Please select an item lt 1 gt LAN Service Disable or enable this port and view the link state lt 2 gt Negotiation The default switch setting is with auto negotiation enabled Auto negotiation is defined the 802 3 standard for Fast Ethernet If a connected device also supports auto negotiation
5. EE 15 2 4 MECHANICAL ASSEMBLY ied AN 16 2 5 ELECTRICAL INSTALLATION 235722552212 k re Feet did a ER UD 17 2 5 T poWeF connection AC sue iii aon dt ER Ee vua al Re Pedes eg REUS 17 2 5 2 Power connection DE i ha oiii idee eae e diit 17 2 5 3 Power connection ci ii cita evene E pera ee Nea yu egeo vex veuve a ai 17 2 6 REAR PANEECONNECTORS 3 22 gere the e EC e I ta 17 2 7 FRONT PANEL SWITCHES CONNECTORS AND lNDICATORS 18 2 8 SNMP REMOVAL REPLACEMENT PROCEDURES ie 18 ecards mordwilo 19 STINTRODUETION RATER ERA NAR cas SERERE 19 3 2 TERMINALMODE OPERATION PEE 19 3 3 CONNECTING TO THE FMU XOA E e T too mos D ba e C TETUER See i catia 19 3 4 CONFIGURING IN CONSOLE MODE A E eet 20 FAO Focal Toginz 9 dette 20 3 4 1 21 2 FIDer et 21 SS ET ED dun D ode 23 DA ulpayta EE E iet ITER LIT 24 34 5 RS 232 sunan a E iena 25 3 4 6 Phone Order
6. 7 Her aae idem EET R d aia tabla Da aa Daia a alta aa dit 7 1 2 FUNCTIONAL AND FEATURE DESCRIPTI N tatea a 7 FEATURES LIST vcs e da aa a TE 8 TA PACGKING LIST HA 9 1 5 TECHNICAL SPECIFICATIONS sus od eee d aaa ex eet eroe ana re eren e eve eet e aaa cd ao ci ale ere 10 1 5 1 E1 Link 1 5 2 T1 Link 17 5 3 Ethernet Trunk LIAK daa 10 1 5 4 RS 232 Clear Channel 10 1 5 5 R9 232 Console Alarim BOrt oett a hh ete vae 10 1 5 6 Order WI ERSTE 11 T5 7 ICAO Sd e dna da Vida pata ere RIP P T 11 1 5 8 0pti al Specifica IN tata Ge 11 15 9 PAYSICO MARRA IR a 1 5 10 Power supply 1 5 11 Environment Operating teet Lana in 12 15 12 Miscellaneous eei ee ete ed ve oaa eade eue 12 1 67 ET SIGNAL STRUCTURE cur bd cad aaa la bot d cita utila A d ii d n 12 1 6 1 EL link line rate ahd CODING er ee eee tan ude cei aea lo Do reala dale cea cite a 12 1 7 1 052 SIGNAL STRUCTURE aa 13 173 T1linklinerate and coditig iu e erento arie 13 1 8 APPLICATIONS CAPABILITIES vad e Pe t edet eed bee 14 CHAPTER 2 INSTALLATION E 15 21 GENERAL DECR 15 22 SITE PREPARATION ra AS da 15 2 3 UNPACKING
7. 5 5 D D C2 c c cv co co 4 6 1 SNMP Agent Configuration From the main menu select item number 7 SNMP Agent Configuration KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK UNION TECHNOLOGIES CO LTD RIS FMUXO4E Manager Ver 1 00 KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK Local Version 1 200 1 000 0 000 0 5001 lt 1 gt IP Address GO le 4 107 lt 2 gt SUB Mask I Oy 07 lt 3 gt Gateway IP ol 220 2 de 215254 lt 5 gt Go to previous menu Please select item Use this screen to configure the TCP IP settings for the SNMP agent the address subnet mask and default gateway settings ESC back to the main menu Item number 1 IP address is the IP address that the SNMP card will answer to when pinged Telnetd TFTP d or when accessed by SNMP Item number 2 is the subnet mask for the network that the card is attached to Item number 3 is the default gateway for the network that the card is attached to and is required if the FMUX04E is to be managed from a different subnet 37 Chapter 4 SNMP 4 6 2 Management Configuration From the main menu select item number 8 Management Configuration Manager configuration is required to tell the agent the SNMP card who has authority to access the SNMP via Get commands read or Set commands write and where to send trap messages unsolicited messages that are us
8. c c c A x V a a a a a a 5353553535N lt gt lt gt 333333 v v CcoO CO OOO totoooooo OO SoS t t t t t t t t a r lt Qn ct t co 705 c Ao 5 occ tera aH 5 5 5 5 5 5 n n P 0 t Mm cnn zz CO DIAM C gt m SCO 0 c D DN Menu Present m 3 6 1 SNMP Agent Configuration From the main menu select item number 7 SNMP Agent Configuration KKK KKK KKK KKK KK KKK KKK KKK KKK SELE UNION TECHNOLOGIES CO LTD KAR FMUX04E Manager Ver 1 00 KKK KK KKK KKK KKK KKK KKK KKK KARA RARA ck ckckckckckckok Local Version 1 200 1 000 0 000 0 5001 SNMP lt 1 gt IP Address ef 1304 des o Abo lt 2 gt SUB Mask 555 Be Be lt 3 gt Gateway oe DO Ae QL 254 J lt ESC gt Go to previous menu Please select an item Use this screen to configure the TCP IP settings for the SNMP agent the address subnet mask and default gateway settings ESC back to the main menu 3 6 2 Management Configuration From the main menu select item number 8 Management Configuration KKK KKK KKK KKK KKK KKK KKK KKK KKK RARA ck CTC UNION TECHNOLOGIES CO LTD EE FMUX04E Manager Ver
9. User Name z Password Save this password in your password list Cancel The default user name is admin The password is the terminal password if it has been set or if no terminal password is set the default is 0000 4 zeros 4 8 2 Panel C Local CIC FMUXO4E FMUXO4E 10 1 1 87 LNK 100 LNK 100 INK 100 Active Test LNK LNK LNK LNK Refresh ri 2 SYSTEM Panel SNMP FMUX04E Local Remote Remote E FMUX04E LNK Speed LNK 100 LNK 100 Active Test LNK LNK LNK LNK NE D um 0 Refresh lt gt Panel Our first page is the Panel page that shows the condition of both local and remote units Note Remote display is only available if the fiber link is working correctly Directly clicking on either graphic will enter the configuration pages for that unit 4 8 3 Local Remote Tab Display By clicking either the local or remote menu item the Tabbed page for that unit will be displayed The top header indicates if this is the Local or Remote unit the model name and the version The version fields 4 of them in order from left to right indicate hardware version i e PCB version software version CPLD version and lastly FPGA version The tabs select between the Device Fiber i e optical aggregate SFP including DOM E1 T1 i e the tributary channels LAN i e Ethernet trunk and switch and the RS232 amp Phone i e clear chann
10. wire speed 100M Ethernet trunk channel which terminates at a 3 LAN user ports Layer 2 switch a clear channel RS 232 that supports asynchronous speeds up to 250k baud bi directional audio channels Order Wire and an Embedded Operations Channel EOC for remote management and monitoring SNMP for local and remote management purposes is an option that may be factory ordered or may be ordered separately for later installation in the unit The SNMP agent is only required in the local unit since the EOC allows full control of the remote unit so that they act together as one set local and remote as far as management is concerned FMUXOZE is available in three power supply configurations Depending on the model power may be derived from single AC 100 240VAC single DC 18 75VDC or dual power AC plus DC power sources The FMUXO4E provides E1 T1 interface connections and the LAN with serial interfaces on the rear panel The rear panel has 4 channel connections for ITU T G 703 E1 T1 on 4 x RJ 45 USOC RJ 48C or 8 x BNC connectors Additionally the rear panel has 3 x RJ 45 Ethernet LAN switch plus RS 232 clear channel on an RJ 45 The DB9F console alarm port provides the serial configuration port along with dry contact alarm relays on the same connector and is located on the front panel along with the menu keys LCD display and the 1 1 SFP cages for the optical aggregate When configured for El operation the 4 channels of the FMUXO4E may
11. op 1 ddRemote 50 14 Remote device card fiber Digital Diagnostic function 1 No 2 Yes op2SFPRemote 50 15 Remote device card fiber port 2 status 1 No 2 Yes op2ddRemote 50 16 Remote device card fiber Digital Diagnostic function 1 No 2 Yes fiberWorkingChannelRemote 50 17 Remote device card fiber port status 1 FX1 2 FX2 56 Appendix A Miscellaneous fiberLoopBackRemote 50 18 Remote device card loop back test mode 1 Disable 2 LLB 3 RLB op 1ddVendorRemote 50 19 Remote device card fiber D D information Vendor name oplddPartNoRemote 50 20 Remote device card fiber port 1 D D information Vendor part number oplddTypeRemote 50 21 Remote device card fiber port 1 D D information Fiber Type 1 Unknown 2 Multi 3 Single oplddTxWaveLenRemote 50 22 Remote device card fiber port 1 D D information Tx Wave Length oplddRxWaveLenRemote 50 23 Remote device card fiber port 1 D D information Rx Wave Length oplddLinkLenRemote 50 24 Remote device card fiber port 1 D D information Link Length oplddLenUnitRemote 50 25 Remote device card fiber port 1 D D information Length Unit 1 kilometer 2 meter oplddTxPWRRemote 50 26 Remote device card fiber port 1 D D information Tx Power oplddRxPWRRemote 50 27 Remote device card fiber port 1 D D information Rx Power oplddRxSensRemote 50 28 Remote device card fiber port 1 D D information Rx Sensit
12. Device Service provides a software method to disable all traffic from this device IMPORTANT Although the remote unit has this menu item it is not functional You cannot disable the remote unit because doing so would result in loss of remote management The second item Default Configuration is a quick way to return the unit to factory defaults The default is all ports enabled and 1 mode with 75 Ohm impedance setting for BNC 3 4 2 Fiber Reach the Fiber menu by pressing 2 at the main menu for either local or remote KKK KKK KKK KKK KKK KKK KK KK KKK KK KKK KKK KK KK KKK i CTC UNION TECHNOLOGIES CO LTD Manager Ver 1 00 IG x X x x 1 200 1 000 0 000 0 500 No SNMP PRIZA I 33 O cca eet gt IIS UD lt 2 gt lt 3 gt lt 4 gt lt 5 gt ct 0 0 0 F L A G G lt 5 gt Go to previous menu Just below the header and Version fields we find the Fiber Status and Configuration info Fiber Link There is at least one active link between this unit and the remote when indication is Up Remote PWR In a normal condition the status will be OK If the remote unit suffers a power loss the dying gasp mechanism will let the local unit know and the status will be displayed as Abnormal OP1 Rx Link The Optical 1 port shows
13. 2 Remove the four 4 cover screws on the sides of the and lift off the cover 3 If initially installing remove the SNMP module PCBA from its protective ESD wrapping Refer to the graphic on page 9 for the location of the SNMP option 3 Align the connector pins as in the following photos seat the module insert the three securing screws and tighten lightly 4 Return the cover and cover screws The unit is now ready to configure and use Align the Connector Figure 2 6 SNMP daughter card Install Removal Replacement Note Follow the instructions in Chapter 4 SNMP to configure the SNMP option 18 Chapter 3 Operation Chapter 3 Operation 3 1 Introduction This chapter will go into the details of the specific configuration and operation of the FMUXO4E by using a VT 100 terminal connected to the RS 232 Console port and via the front panel LCD Menu keys 3 2 Terminal Mode Operation A notebook computer has become an invaluable tool of the Systems Engineer Connection between the computer and the FMUXOZE is very straight forward The only hardware required is a DB9M to DB9F adapter cable see pinout below The FMUXO4Es RS 232 Console port acts as a DCE to the PC s DTE communications port A convenient application provided with the Microsoft Windows 98 NT 2K XP operating systems is HyperTerminal The settings for console port communication with the FMUXO4E are 38 4K baud 8 bits no parity
14. 50ppm AMI B8ZS Balanced 100 ohms RJ 45 12dB short haul Nominal 3 00V 20 for 100 ohms 0 15V 50 ppm According to ITU T G 824 recommendation ITU T G 703 and G 824 recommendations RJ 45 100 ohm USOC RJ 48C LLB Local Loop Back RLB Remote Loop Back 3 fixed ports RJ 45 Auto MDI MDIX IEEE 802 3 802 3u 802 1Q 802 3x 10Base T 100Base TX Full or Half Duplex 1552 bytes maximum packet size RS 232 Async up to 250K baud RJ 45 pin 1 SG pin 2 data out pin 3 data in 1 5 5 RS 232 Console Alarm Port local VT 100 terminal connection V 24 RS 232 asynchronous DCE DB9 female 38400 bps One start bit 8 data bits No parity One stop bit DB9F DCE 5 GND 2 RX 3 TX Pin 6 common 4 NO 9 NC closed on alarm or closed if power fails or power is off 10 1 5 6 Order Wire Channel Count Sampling Frequency Bit Depth SNR Maximum Output Level Maximum Output Power 1 5 7 LED Indicators PWR1 PWR2 Green E1 Green E1 T1 Mode RDI Yellow Remote Defect Indication 1 OP2 Link Green E1 T1 Channel 1 4 Stateful LAN 1 3 Green LAN 1 3 Speed Green RS 232 Active Green RS 232 Test Green Phone Green SNMP Green 1 5 8 Optical Specifications Connector Type Optical mode Wavelength Line coding Optical Data rate Test Loops Protection Switching Time SFP DOM per MSA Chapter 1 Introduction 1 Channel mono 48kHz 24bits 94dB 1 0V rms OdBV 40mW 16 Oh
15. User Manual FMUX04E Fiber Optical Multiplexer 4 Channel Fixed G 703 E1 DS1 T1 Plus Wire Speed 100M P dag SNMP Manageable Option union UNION TECHNOLOGIES CO LTD The information contained in this document is subject to change without prior notice TRADEMARKS Microsoft is a registered trademark of Microsoft Corp HyperTerminal is a registered trademark of Hilgraeve Inc WARNING 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 in which case the user will be required to correct the interference at his own expense NOTICE 1 The changes or modifications not expressively approved by the party responsible for compliance could void the user s authority to operate the equipment 2 Shielded interface cables and AC power cord if any must be used in order to comply with the emission limits CISPR PUB 22 Class A COMPLIANCE This device complies with EMC directive of the European Community and meets or exceeds the following technical standard EN 55022 Limits and Methods of Measurement of Radio Interfere
16. Serial Number MAC Address ___MI_ 10 1 1 87 SYSTEM 194 187 255 0 0 0 10 1 1 254 Y SNMP p D ctcu 9 FMUX04E F 10 1 1 189 Local linux zip romfs zip FMUX04E bin Remote fpga bin Apply Parameters System This completes the review of the Web based management features of the FMUXO4E 45 Chapter 4 SNMP This page was left blank intentionally 46 Appendix A Miscellaneous Appendix A Miscellaneous A 1 Console port pin assignment The console port on the FMUXO4E serves two purposes it provides the RS 232 communication interface for terminal configuration and also contains one set of relay contacts for alarm Pin Signal Description Direction Remark 1 2 TD Transmit Data IN Towards FMUX04E 3 RD Receive Data OUT From FMUX04E 4 NO Relay Normally open Closed if power fail 5 SG Signal Ground 6 COM Relay Common 7 CTS Clear To Send OUT From FMUX04E 8 RTS Request To Send IN Towards FMUX04E 9 NC Relay Normally closed Closed if no alarm A 2 Alarm Relay Connection Detail The following are examples of wiring audio or visual alarms to the console alarm relay DB9F connector 67 Audio Alarm 5e o oo Contact Ratings Visual Alarm 1A 30VDC 0 5A 125VAC le 0000 0 25A 250VAC se oo 500VAC Max EEE A 3 RS 232 Clear Channel Detail The FMUXO4E comes with and RJ
17. they will connect automatically at 100Base TX Full Duplex If the device connected to the FMUXOAE LAN port does not support auto negotiation either because it is in a forced mode or if it is legacy equipment that does not support auto negotiation this port on the FMUXOAE will fail negotiation and assume Half Duplex mode Please be very careful when connecting auto to forced devices or when setting this device to forced and connecting to an auto device Duplex Mismatch may result and cause poor performance and eventual traffic block Soeed between 10Base and 100Base is auto detected but duplex must be negotiated Remote Duplex setting cannot be auto detected lt 3 gt Speed Set the port speed and view the current status Speed can be manually set forced only when auto negotiation is disabled see item 2 lt 4 gt Duplex Set the port Duplex and view the current status The Duplex can be manually set forced only when auto negotiation is disabled see item 2 3 4 5 RS 232 Reach the RS 232 menu by pressing 5 at the main menu for either local or remote KKK KEKEKE KKK KKK KK KK KKK KK KKK KKK KKK KKK CTC UNION TECHNOLOGIES nager Ver 1 00 XC KK OK KC X X GI GE KC X EG X X EX X CI 524025 Version 1 200 1 000 0 000 0 500 No SNMP and in gt gt Rx Active Off ck Test Mode Di Sabie US ice Ba lt ESC gt Go to previous menu Please select an item lt 1
18. walk and trap receiving The MIB file is just a key that fits our device you still need the management software running on a workstation in order to drive The FMUXOAE with SNMP is provided with a MIB Management Information Base file The MIB supported by the FMUXO4E SNMP Agent follows RFC 1213 MIB 2 standard The formal description of the managed objects and the MIB structure is provided in a special standardized format called Abstract Syntax Notation 1 or ASN 1 pronounced A S N dot one The following graphic shows the MG SOFT MIB Browser software after importing and compiling the MIB file accessing the FMUXO4E and doing an SNMP Walk on the local El configuration OID The query results are shown on the right screen File Edit View SNMP Action Tools Window Help 290 x i m d Q ks iar mm Query Ping Remote SNMP agent Split 10 1 1 87 v A v Vertical MIB tree Query results MIB Tree SNMP QUERY STARTED 3 iso 1 cardHwWerLocal 0 DisplayString 1 200 31 2E 32 30 30 gh 2 cardFwWerLocal 0 DisplayString 1 001 31 2E 30 30 31 hex 2 4 org 3 cardCPLDVerLocal O DisplayString 0 000 30 2 30 30 30 hex C dod 4 cardFPGAVerLocal 0 DisplayString 0 300 30 2E 33 30 30 hex IC internet 5 devPowerl stsLocal 0 INTEGER 1 i B devPower2stsLocal 0 INTEGER 1 E diectoy 7 devServiceLocal 0 INTEGER on 2 E mgmt 8 fiberlinkLocal D INT
19. 1 00 KE KKK KK KKK KKK KKK KKK KKK KKK KKK KKK KKK KARA RARA Local Version 1 200 1 000 0 000 0 5001 lt 1 gt Access IP 1 lt 2 gt Access IP 2 lt 3 gt Access IP 3 lt 4 gt Access IP 4 lt 5 gt Community String 1 lt 6 gt Community String 2 lt ESC gt Go to previous menu Please select an item Please refer to Chapter 4 SNMP for detailed operation of the SNMP option 30 Chapter 3 Operation 3 7 Upgrade firmware using the Upgrade Tool LOCAL lt lt Upgrade Tool gt gt 1 Upgrade the Main Board Firmware 2 Upgrade the FPGA Firmware Press lt ESC gt to previous menu The Main board Firmware is the operational program that controls the user interface the console mode and LCD and controls the operation of the FMUXO4E The FPGA Firmware is the code that loads into the field programmable gate array at startup The FPGA is the physical heart of the FMUXO4E it provides the logic for the multiplexing of the E1 T1 signals the 100M Ethernet trunk the clear channel RS 232 order wire and EOC Embedded Operations Channel It also controls the loop back functions and provides the optical scrambling among many other things The FMUXOHE has the ability to upgrade the hardware FPGA and working firmware CPU via the serial console connection utilizing the Upgrade Tool a Windows based utility which requires no special installation If we ever find bugs or wish to add ope
20. 36dBm 35dBm 35dBm 28dBm 28dBm 32dBm 32dBm 34dBm 34dBm 34dBm 34dBm ens Tx 20dBm 15dBm 5dBm 0dBm 5dBm 0dBm 14dBm 14dBm 14dBm 14dBm 8dBm 8dBm 5dBm 5dBm Powerr Power TS 12dB 19dB 30dB 36dB 30dB 35dB 1498 1498 18dB 18dB 26dB 26dB 29dB 29dB argin M M multi mode S M single mode All optical transceivers are rated Class 1 and comply with IEC 60825 WDM types must match U Upstream with D Downstream in pairs Bit Error Rate It is highly recommended that the fiber transceiver used in the local unit match the remote side s fiber transceiver 11 Chapter 1 Introduction 1 5 9 Physical Height 43 mm 1 75 Width 215 mm 8 5 Depth 248 mm 9 75 Weight 1590 g 3 lb 8 oz Net 1625 g 3 Ib 9 oz including SNMP 1 5 10 Power supply Voltage AC source 100 240 VAC 10 Frequency 47 to 63 Hz for AC power Voltage DC source 18 75 VDC Power consumption 15 VA maximum 1 5 11 Environment Operating Temperature 0 60 C 32 140 F Humidity 5 to 95 non condensing 1 5 12 Miscellaneous MTBF 75 000 hours Emission amp Safety compliance meets FCC part 15 Sub B class A EN55022 2006 Class A IEC61000 3 2 2005 61000 3 3 2005 EN55024 1998 A 1 2001 2 2003 and EN60950 1 2001 1 6 E1 Signal Structure 1 6 1 El link line rate and coding The E1 line operates at a nominal rate of 2 048Mb s The basic E1 line signal is coded using either the Alternate Mark Inversion AMI or HDB3 r
21. Auto MDIX which allows connection to other switches without an Ethernet crossover cable but with a straight through cable Auto MDIX is designed to detect if the connection is backwards and automatically chooses MDI or MDIX to properly match the connection Pin Signal Description 1 Rx Receive 2 Rx Receive 3 Tx Transmit 4 NC No connection 5 NC No connection 6 Tx Transmit 7 NC No connection 8 NC No connection A 6 E1 T1 RJ 45 pin assignment pin assignment of the 1 1 on RJ 45 follows USOC RJ 48C standard for network termination When connecting to other network terminating device be sure to use a cross over cable Pin Signal Description 1 RRing Receive 2 RTip Receive 3 NC No connection 4 TRing Transmit 5 TTip Transmit 6 NC No connection 7 Shield Chassis connection 8 Shield Chassis connection 48 A 7 LAN SNMP 45 pin assignment Pin Signal Description 1 Rx Transmit 2 Rx Transmit 3 Tx Receive 4 NC No connection 5 NC No connection 6 Tx Receive 7 NC No connection 8 NC No connection Appendix A Miscellaneous standard Ethernet connection Ethernet interface actually supports auto MDIX and auto polarity A 8 SNMP Trap Messages and Alarms
22. Up status when receiving optical signal OP2 Rx Link The Optical 2 port shows Up status when receiving optical signal Small Form Pluggable When an SFP is installed in the cage the status will be Yes If SFP is installed it will be No DD Function f the SFP includes DOM function the status will be indicated here with a Yes 1 Fiber Working Channel The working channel status is displayed here and the menu item allows selecting the working channel manually 21 Chapter 3 Operation lt 2 gt Loop Back Test Mode There are three loop back tests available for the fiber aggregate channel Local Loop Back LLB and Remote Loop Back RLB The below graphics depict where each loop back type is applied in the FMUXO4E Loopback Descriptions LLB Optical local loop back near end NE far end FE RLB Optical Remote loop back near end NE far end FE lt 3 gt Auto Laser Shutdown ALS is a safety feature which will turn of the laser transmitter of the SFP in the case where no receive signal is arriving at the SFP When disabled the laser light source of the SFP will still transmit regardless of the presence of any received optical signal lt 4 gt Go to the OP1 D D Function Menu All SFP modules that are MSA compliant have to ability to display some minimal information such as vendor name wave length and reach Additional information such as transmit power receive power and temperature are optional parameter
23. be up and the status of both optical ports If the SFPs used support optional Digital Diagnostics Digital Optical Monitor or DOM then the D D will have Yes status Receive optical signal status is also shown The FMUXO4E also has the ability to show remote power failure dying gasp in addition to fiber link down This can aid in troubleshooting remote problems in which the remote unit was powered off rather than only observing optical link fault union FMUX04E 10 1 1 87 Refresh SYSTEM Panel SNMP FMUX04E Local Remote OP1 SFP Yes OP1 DID Yes No Fiber Working Channel Auto Laser Shutdown OP1 Enable The configurable parameters include 1 Fiber Working Channel If two fiber channels are available the working path can be manually selected Fiber Port Loop Back Disable Fiber 2 Auto Laser Shutdown This safety feature will disable the laser output if there is no received signal 3 Fiber Port Loop Back this diagnostic utility provides for Local and Remote optical loop back 4 8 6 SFP union FMUX04E 10 1 1 87 Refresh SYSTEM Panel SNMP FMUXO4E Local Remote Fiber 1 Fiber2 Small Form Pluggable Vendor Name Vendor Part Number Fiber Type Tx Wave Length Rx Wave Length Link Length FIBERXON INC FTM 6128C L5051 Single 1510 nm 1510 nm 0050 km Small Form Pluggable Vendor Name Vendor Part Number Fiber Type Tx Wave Leng
24. gt RS 232 Service Disable or enable this port and view the link state lt 2 gt RS 232 Loop Back Test Mode There are two loop back tests available for the RS 232 tributary clear channel Local Loop Back LLB and Remote Loop Back RLB 29 Chapter 3 Operation 3 4 6 Phone Order Wire Reach the Phone menu by pressing 6 at the main menu for either local or remote KRKKKKKKKKKKKKK KK KK KK KK KKK KK KKK KKK KAR X X CTC UNION TECHNOLOGIES cdi LTD SE FMUXO4E Manager Ver 1 00 XC KK OK KC X GI KE K X EG X X EX x CURA ER PL NP Local 1 1 200 1 000 0 000 0 500 No SNMP lt lt Phone Stat lt 1 gt Phone a d Configuration gt gt On lt 2 gt Phone u 5 t 5 vi u lt ESC gt Go to previous menu Please select an item lt 1 gt Phone Service Disable or enable this port and view the link state lt 2 gt Phone Call Out This will initiate a manual call function ringing the buzzer at the remote side 3 4 7 Password Physical security is the best and front line protection for any networking device In data centers only authorized personal should have access to facilities Equipment closets and cabinets not within a secure data center should have locking mechanisms The FMUXO4E includes another level of tamper protection with the ability to set a four digit password code Once set this code is required to access the front panel LCD or to
25. is Present it is available for remote configuration If the status is Absent there is no remotely connected device and no remote management available The following is an example of the remote configuration screen K KKK KK KK KKK KKK KK KK KKK KKK KKK KK XXX EG GG KKK X x CTC UNI ON TECHNOLOGIES CO LTD FMUXO4E Manager Ver 1 00 SNMP KRAKK KKK KKK KKK KKK EE EE EE KKK KKK KK KKK X X x x X Remote ersion 1 200 1 000 0 000 0 500 No lt 1 gt Boulos atus and Configuration lt 2 gt Fiber Confi Confi Confi and Confi and and and Status Status Status gurati gurati gurati gurati gurati on on on on on lt 3 gt El T1 lt 4 gt LAN lt 5 gt RS232 Status lt 6 gt Phone Status and Confi lt T gt Switch To Local Menu Please select an item The Main menu is the gateway to doing all configuration of the FMUXOZE From the main menu the Device Fiber Optical E1 T1 LAN RS 232 order wire SNMP and management setting menus can be selected In addition the remote unit can be accessed to perform all the same settings as with the local unit 3 5 Configuring via the LCD Menu The FMUXO4E features a backlit 12 character by 2 row LCD Liquid Crystal Display for local remote control and management without the need for any other equipment There are 4 pushbuttons for maneuvering the menu system browsing parameters and making settings The Enter k
26. login to the menu system by console management port Password code can be any digit from 0000 to 9999 To clear the password leave it null blank when doing a password modify If the password is ever forgotten contact CTC Union support for the password recovery procedure This is the main LOCAL root menu that will be displayed after login XCECKCK E KKK KK KKK KK KK KKK KKK KK XXX XXX XIX EX X X CTC UNION TECHNOLOGIES CO LTD FMUXO4E Manager Ver 1 00 CKOK OK KE OK E OE E OE E OK CK OK OK OK RR RR XG I XG I XXX x X Local Version 1 200 1 000 0 000 0 500 No SNMP 1 Device Status and Configuration 2 Fiber Status and Configuration 3 Status and Configuration 4 LAN Status and Configuration 5 RS232 Status and Configuration 6 Phone Status and Configurati 7 SNMP Agent Configuration 8 Management Configuration P Setting Password T Switch To Remote Menu Please select an item Old Password New Password Re Password From the main menu press p key in the old password and then the new password twice Simply pressing Enter for the new password will enter a null With a null password set the login can be skipped just by pressing Enter at the console or LCD keyboard 26 Chapter 3 Operation 3 4 8 Remote From the main menu use the T key to view the menu for the remote fiber connected unit When the status of the remote
27. on the remote FMUXO4E Side Type Version 1200 1001 0000 0300 union FMUX04E 10 1 1 87 SYSTEM Panel SNMP 2 FMUXO4E Local Remote RS232 amp Phone 4 8 10 SNMP Manager and Trap Clicking the left menu SNMP item will bring up the SNMP and Trap configuration page In order for a manager to manage this device and or to receive traps both the manager s IP address and the desired community string must be input on this page The FMUXO4E has the ability to set four entries for managers and trap destinations CIC FMUX04E 10 1 1 87 amp SYSTEM v FMUX04E Local Remote 44 Chapter 4 SNMP 4 8 11 System Configuration Configures the SNMP agent s TCP IP settings and for TFTP upgrade Keyin all parameters and then click Apply Parameters button Note that changing the IP address requires the SNMP agent to be rebooted If you change the IP address to a different broadcast domain your browser will not be able to reconnect with this unit So be careful especially if doing remote management If TCP IP connection is lost only local serial console can be used to reset the IP address The other parameters set here are for doing upgrading For example the TFTP server s address and image filenames set here as well as the System or Hostname Rememebr to click Apply Parameters to save any changed settings Side Type Version em L a
28. or read only which are provided by the community string plus if the agent is to send traps unsolicited messages to the management workstation server is required if doing any software upgrade of the SNMP agent The two configuration parameters are the IP address of the TFTP server and the path to the upload file 4 6 3 TFTP and Upgrade Firmware To upgrade the SNMP firmware configure a TFTP server on your network Configuring a TFTP server is beyond the scope of this document In any upgrade package offered by CTC Union a detailed upgrade procedure is supplied Please refer to the document in the upgrade package DO NOT INTERRUPT POWER DURING SAVE OPERATION OR THE FLASH MEMORY MAY BECOME CORRUPT After the upgrade is complete and the multiplexer has rebooted go to the Display Information menu and confirm the new firmware version is correct 38 Chapter 4 SNMP 4 7 MIB File A MIB is a management information base file that allows network management software to understand how to manage the FMUXO4E Management software could be expensive packages of software such as HP OpenView and Computer Associates Unicenter enterprise level management software such as SNMPc What s Up Orion or inexpensive MIB browsers such as those from MG Soft Additionally Linux and UNIX type operating systems also have SNMP utilities that allow utilizing the MIB file to access the device agent with SNMP protocol that include SNMP
29. power 100 240VAC is supplied to the FMUXO4E through a IEC C6 3 prong receptacle located on the rear of the unit The FMUXO4E should always be grounded through the protective earth lead of the power cable in AC installations 2 5 2 Power connection DC For a model with DC power supply DC 18 75VDC is connected to the terminal block The DC power connector uses a fixed terminal block Please take extra caution to observe the proper polarity of the DC when wiring the connector The FMUXO4E should always be grounded through the protective earth lead via the frame ground connection for DC installations 2 5 3 Power connection AC DC The AD model provides both AC and DC inputs and can be used separate or together ON OFF CHI Rx Tx CH2 Rx Tx CH3 Rx Tx CH4 Rx __POWER 1 POWER 2 V FG V CH1 CH4 E1 Link ACIN CHI CH2 CH3 CH4 LAN1 SNMP LAN2 LAN3 RS232 E1 T1 Link 100 240 VAC Figure 2 3 Supply connections AC DC model shown 2 6 Rear Panel Connectors The rear panel of the FMUXO4E supports the 1 and interface connections the AC DC power connectors and the power switch es The FMUXO4E routes the signals from the 4 E1 T1 channels to the multiplexing circuitry and sends the multiplexed signals to the aggregate Fiber Interfaces on the front panel Unbalanced El ON OFF ON OFF Tx CH1 Rx Tx CH2 Rx Tx CH3 Rx Tx CH4 Rx ___POWER 1 POWER 2 V FG V AC IN DCIN CH2 100 240 VAC 18 75 VDC ANS AND
30. the FMUXO4E If a laptop is used and the RS 232 is provided via a USB to RS 232 adapter enter the Device Manager find the Ports item Right click and select Properties In the USB Serial Port Properties window select the Port Setting tab then click Advanced In the Advanced Settings window change the COM Port Number to COMI and then click OK You will probably need to unplug and re plug the USB device before the new COM port settings take effect USB Serial Port COM4 Properties Batteries enel iver Details Bluetooth Devices 4 Computer Bits per second v Sa Disk drives d Display adapters Data bits 8 J 3 Human Interface Devices Parity None v Gy IDE ATA ATAPI controllers mi jal Infrared devices Stop bits 1 Keyboards e Flow control i 2 Mice and other pointing devices EL Advanced Settings for COM4 Modems pre 3 COM Port Number 9 monitors ET Network adapters EA USB Transfer Ses PCMCIA adapters Select lower settings to correct performance problems at low baud rates n Select higher settings for faster performance Defaults Receive Bytes 4096 1 2 5 80 7 USB Serial Port COM4 M Erorcessors amp SCSI and RAID controllers El Transmit Bytes 4096 z BM Options Select lower settings to correct response problems Latency Timer msec
31. 0n el T1Ch3lineCodeLocal 40 44 4 Set the line code 1 HDB3 8ZS 2AMI e1T1Ch3loopBackLocal 40 44 5 Local device local loop back function amp select setting 1 Disable 2 LLB 3 RLB el T1Ch4L 40 45 Local E1 T1 Ch4 el T1Ch4linkLocal 40 45 1 Local device status 1 Link down 2 Link up el T1Ch4serviceLocal 40 45 2 Local device E1T1 status 1 Off 2 0n el T1Ch4bvpErrorLocal 40 45 3 Display BPV 1 Off 2 0n el T1Ch4lineCodeLocal 40 45 4 Set the line code 1 HDB3 8ZS 2AMI 53 Appendix A Miscellaneous e1T1Ch4loopBackLocal 40 45 5 Local device local loop back function amp select setting 1 Disable 2 LLB 3 RLB portVLANLocal 40 46 Local device port based VLAN mode 1 Disable 2 Enable utp1L 40 47 Local LAN 1 utplserviceLocal 40 47 1 Local device UTP port 1 status 1 Off 2 On utp LlinkLocal 40 47 2 Local device UTP port 1 link status 1 Link down 2 Link up utplrxActiveLocal 40 47 3 Local device UTP port 1 Rx active status 1 Off 2 On utp InegoLocal 40 47 4 Local device UTP port 1 negotiation status 1 Manual 2 Auto utp I speedLocal 40 47 5 Local device UTP port I speed status 1 10Mb 2 100Mb utp1duplexLocal 40 47 6 Local device UTP port 1 duplex status 1 Half duplex mode 2 Full duplex mode utpl1flowCtrlLocal 40 47 7 Local dev
32. 1 stop bit and no flow control In the HyperTerminal program terminal window click the properties icon and set the communication parameters as in the following graphics Click the Configure button in the properties window and set the port settings When set properly click OK COM1 Properties Port Settings Connect To gt 38400 Enter details for the phone number that you want to dial Bits per second 38400 Data bits 8 Parity None Country region Stop bits 1 Area code Flow control v Phone number Connect using 1 v Hestore Vetaults EE Figure 3 1 HyperTerminal port settings for FMUX04E 3 3 Connecting to the FMUX04E The console port on the FMUXO4E is RS 232 interface DCE that utilizes a DB9 connector Use the configuration cable that is supplied with the FMUXO4E or prepare a three wire DB9 F to DB9 M cable with the following pin out DB9 M signal DB9 5 GND 5 2 TD 2 3 RD 3 19 Chapter 3 Operation 3 4 Configuring in Console Mode The FMUXO4E Control Port labeled Console Alarm on the front panel is a console terminal port designed to facilitate setup of all parameters through the use of a standard text based terminal or any terminal emulation program running on a Personal Computer Make the appropriate connections start the terminal application apply power to the FMUXO4E The password prompt will be displayed on the scre
33. 45 to DB9F adapter cable to adapt the RS 232 clear channel s RJ 45 to standard RS 232 on DB9 Female The adapter cable is 20cm in length and provides a DCE presentation of RS 232 three wire with transmit receive and signal ground only Pin Signal Description Pin on DB9F 1 SG Signal Ground 5 Signal Gnd 2 RD RD output 2 RD out 3 TD TD input 3 TD in 4 NC No connection NC 5 NC No connection NC 6 NC No connection NC 7 NC No connection NC 8 NC No connection NC 47 Appendix A Miscellaneous A 4 Console cable pin assignment CAB DB9DB9F 232 3 DB9F DB9M DB9M 1 NO Common BR II tS 9 NC Terminal FMUX04E Alarm 20cm 0e gt A 5 LAN pin assignment The LAN 1 3 connectors are standard MDIX RJ 45 Ethernet connectors located on the rear panel of the FMUX04E A medium dependent interface MDI port or an uplink port is an Ethernet port connection typically used on a Network Interface Card NIC or Integrated NIC port on a PC Since inputs on a NIC must go to outputs on the switch these switch devices have their inputs and outputs transmit and receive signals reversed in a configuration known as MDIX or MDI X The switch used the FMUXO4E supports
34. D information Length Unit 1 kilometer 2 meter oplddTxPWRLocal 40 26 Local device card fiber port 1 D D information Tx Power oplddRxPWRLocal 40 27 Local device card fiber port 1 D D information Rx Power oplddRxSensLocal 40 28 Local device card fiber port 1 D D information Rx Sensitivity oplddTempLocal 40 29 Local device card fiber port 1 D D information Temperature in degree C Appendix A Miscellaneous op2ddTypeLocal op2ddVendorLocal 40 30 Local device card fiber D D information Vendor name op2ddPartNoLocal 40 31 Local device card fiber port part number 40 32 2 D D information Vendor Local device card fiber port 2 D D information Fiber Type 1 Unknown 2 Multi 3 Single op2ddTxWaveLenLocal 40 33 Local device card fiber port 2 D D information Tx Wave Length op2ddRx WaveLenLocal 40 34 Local device card fiber port 2 D D information Rx Wave Length op2ddLinkLenLocal 40 35 Local device card fiber port 2 D D information Link Length op2ddLenUnitLocal 40 36 Local device card fiber port 2 D D information Length Unit 1 kilometer 2 meter op2ddTxPWRLocal 40 37 Local device card fiber port 2 D D information Tx Power op2ddRxPWRLocal 40 38 Local device card fiber port 2 D D information Rx Power op2ddRxSensLocal 40 39 Local device card fiber port 2 D D information Rx
35. Display SNMP Module Optical SFP cages Mainboard Figure 1 1 FMUX04E Major Components 9 Chapter 1 Introduction 1 5 Technical Specifications 1 5 1 El Link Ports 4 fixed ports Framing Unframed transparent Bit Rate 2 048 Mb s 50ppm Line Code AMI HDB3 Line Impedance Receiver sensitivity Pulse Amplitude Zero Amplitude Transmit Frequency Tracking Recovery Timing Jitter Performance Complies With Interface Connectors Test Loops 1 5 2 Link Ports Framing Bit Rate Line Code Line Impedance Receiver sensitivity Pulse Amplitude Zero Amplitude Transmit Frequency Tracking Recovery Timing Jitter Performance Complies With Interface Connectors Test Loops 1 5 3 Ethernet Trunk Link Ports Connector Standards Supports MTU 1 5 4 RS 232 Clear Channel Interface Connector Console Port Port interface Port connector Data rate default Data format DB9F Pin Usage Cable pin definition Alarm Relay contact Contact ratings 1A at 30 VDC resistive or 0 5A at 125 VAC resistive Unbalanced 75 ohms BNC Balanced 120 ohms RJ 45 12dB short haul Nominal 2 37V 10 for 75 ohms Nominal 3 00V 10 for 120 ohms 0 1V 50 ppm According to ITU T G 823 recommendation ITU T G 703 and G 823 recommendations RJ 45 120 ohm USOC RJ 48C BNC 75 ohm LLB Local Loop Back RLB Remote Loop Back 4 fixed ports Unframed transparent 1 544 Mb s
36. E1 T1 Link Balanced 1 1 RS 232 Clear Channel 10 100M Ethernet Figure 2 4 Rear Panel Connections 17 Chapter 2 Installation 2 7 Front Panel Switches Connectors and Indicators Located on the front panel of the are the SFP optical interface cages the LCD display and menu keys the LED display and the RS 232 Console port Alarm Relay connector DB9F The optical interfaces utilize industry standard SFP modules The FMUXO4E supports single mode or multimode SFP transceivers with 155M data rate or Multi rate SFPs in powers that support 2 30 50 80 or 120KM reach The front panel also provides the Order Wire jacks that can directly connect to any standard microphone headset using 3 5mm phone jacks Channel union Esc 2 E 4 PLANT LAN2 LAN3 RS232 ACT SNMP TST RDI PWR2 Phor Terminal NMS and Alarm Relay Optical SFP Figure 2 5 Front Panel Controls and Indicators 2 8 SNMP Removal Replacement Procedures CAUTION This procedure should only be performed by qualified service personnel In addition all power connections must be removed before attempting to open the case All work should be done on a properly grounded anti static map and personnel should be wearing an approved ESD grounding wrist strap 1 If the unit is installed in a rack remove all connections and power cord Remove the unit from the rack
37. EGER linkup 2 experimental 9 fiberRemoPW RLocal 0 INTEGER ok 2 C private 10 fiber LSLocal 0 INTEGER enable 2 11 opiLinkLocal O INTEGER linkup 2 e ieee 12 op2LinkLocal 0 INTEGER linkdown 1 CC 13 op1SFPLocal 0 INTEGER yes 2 y ctcFRM 14 op1ddLocal 0 INTEGER yes 2 frm220 1000eas 15 op2SFPLocal 0 INTEGER 1 frm220Projectl ODas2 16 cort in Dfa M fiberw orkingChannelLocal op 18 fiberLoopBackLocal O INTEGER disable 1 localModel 19 op1ddvendorLocal 0 DisplayString FIBERXON INC 46 49 42 45 52 58 4F 4E 20 49 4E 43 2E 20 20 20 hex OG remoteModel 20 opt ddPartNoLocal O DisplayString FTM 6128C L5051 46 54 4D 2D 36 31 32 38 43 2D 4C 35 30 35 31 20 hex gt localCards 21 oplddTypeLocal 0 INTEGER single 3 remoteCards 22 op1ddTxw aveLenLocal 0 DisplayString 1510 31 35 31 30 hex fmux 4eTrapL 23 oplddRxWaveLenLocal 0 DisplayString 1510 31 35 31 30 hex E ID fmusD4eTrapl 24 opiddLinkLenLocal 0 DisplayString 0050 30 30 35 30 hex de y fmuxD4eTrapR 25 op ddLenUnitLocal 0 INTEGER kilometer 1 15 security 26 op1ddTxPwRLocal 0 DisplayString 2 amp 25 snmpV2 27 oplddR P W RLocal 0 DisplayString 2 28 oplddRisSensLocal O DisplayString 28 op1ddTempLocal 0 DisplayString 43 30 op2ddVendorLocal D DisplayString zero length 31 op2ddPartNoLocal O DisplayString zero length 32 op2ddT ypeLocal 0 INT
38. EGER multi 2 33 op2ddTxw aveLenLocal 0 DisplayString zero length 34 op2ddRxWaveLenLocal 0 DisplayString zero length 35 op2ddLinkLenLocal 0 DisplayString zero length 36 op2ddLenUnitLocal 0 INTEGER kilometer 1 37 op2ddT PWALocal 0 DisplayString 38 op2ddRxPWRLocal 0 DisplayString 39 op2ddAxSensLocal 0 DisplayString 40 op2ddT empLocal 0 DisplayString 41 e1T1TermTypeLocal 0 INTEGER e1 75 bnc 1 42 e1T1ChilinkLocal 0 INTEGER linkup 2 43 e1T1ChiserviceLocal 0 INTEGER on 2 44 e1T1Ch1bvpErrorLocal 0 INTEGER off 1 45 el T1ChllineCodeLocal 0 INTEGER hdb3 b8zs 1 46 el T1ChlloooBackLocal 0 INTEGER disable 11 Query agent 10 1 1 87 finished 85 SNMPv1 009 4 SNMP Walk displayed on MG Soft s MIB Browser 39 Chapter 4 SNMP 4 8 Web Based Interface When the FMUXOZE is installed with the SNMP option the unit has the added management features of Telnet SNMP and HTTP server The HTTP server allows connection and configuration in a graphical point and click environment using any standard web browser 4 8 1 Security Login To connect to the FMUXO4E use the device s IP address as the URL location For example with our setup unit enter http 192 168 0 253 and Enter A login security prompt will display Enter Network Password 99 This secure Web Site at 192 168 0 253 requires you to log on Please type the User Name and Password that you use for FMUXD4
39. Miscellaneous Options Serial Enumerator Minimum Read Timeout msec Serial Printer Cancel If Power Off Minimum Write Timeout msec Event On Surprise Removal Set RTS On Close 111714 32 Chapter 3 Operation Write the procedure with screen captures here 2 Browse and find the screen captures 3 Select CPU or FPGA 5 Monitor the transfer KKKKKKKKKKKKKKKKKKKKKKKKKKKK KKK KK KKK KKK KKK KKK KKK KKK KKK KKK KKK AA Warning DO NOT power off or terminate the file transfer during the upgrade process or the Flash will crash leaving the system unstable KKK KKK k k k k k k k k K KKK KKK k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k Upgrading now 33 Chapter 3 Operation This completes the overview of the Console mode configuration and status monitoring of the FMUXO4E The rest of this page was left blank intentionally 34 Chapter 4 SNMP Chapter 4 SNMP 4 1 General The Simple Network Management Protocol SNMP is one of many protocols in the Internet Protocol IP suite SNMP is the protocol recommended specifically for the exchange of management information between hosts residing on networks Network management allows you to monitor and control network devices remotely using conventional computer network technology The SNMP management functions of the FMUXO4E are provided by an internal SNMP agent which u
40. O EEF E UNI ON TECHNOLOGIES CO LTD Manager Ver 1 00 XC KK OK KC X KG I GE KE X EG X X EX X KKK KK KK GGG KG XG KK Local Version 1 200 1 000 0 000 0 500 No SNMP lt lt El T1 Channel 1 Status Termination Type U 1 El T1 Service Error normal lt 2 gt Line Code lt 3 gt Loop Back Test Mode lt ESC gt Go to previous menu Please select an item 1 1 1 Service Use this menu selection to disable E1 or T1 service on the affected channel lt 2 gt Line Code El settings support AMI or HDB3 default line coding while T1 settings support AMI or B8ZS default line coding 23 Chapter 3 Operation lt 3 gt Loop Back Test Mode There are three loop back tests available for the E1 T1 tributary channels Local Loop Back LLB and Remote Loop Back RLB The below graphics depict where each loop back type is applied in the FMUXO4E Loopback Descriptions LLB E1 T1 local loop back near end NE far end FE This local loop back will make the near end unit loop towards the copper side s channel RLB EI TI Remote loop back near end NE far end FE This remote loop back will loop the logical channel from the near end unit back to the far end unit via the fiber 3 4 4 LAN Reach the LAN menu by pressing 4 at the main menu for either local or remote KKK KK KKK KKK KK KKK KKK KK KK KKK XXX XXX IN X XG EN E X X CTC UNION TECHNOLOGIES CO LTD
41. Optical Multiplexer the electrical connections interface connections and cabling requirements A brief overview of the functional components such as main unit and management options will also be outlined in this chapter Required Tools You will need these tools to install the FMUXO4E Number 2 Phillips screwdriver for the 3mm and the 12 24 rack installation screws Wrist strap or other personal grounding device to prevent ESD occurrences Antistatic mat or antistatic foam to set the equipment on 2 2 Site Preparation Install the FMUXO4E within reach of an easily accessible grounded AC outlet or site DC power The outlet should be capable of furnishing 100 to 240 VAC 18 to 36VDC or 36 to 72 VDC for DC supply Allow at least 10cm 4 inch clearance at the rear and front of the FMUXO4E for power lines and interface cables 2 3 Unpacking Outer cover Figure 2 1 Unpacking the FMUX04E 15 Chapter 2 Installation 2 4 Mechanical Assembly The FMUXOAE is designed for standalone use but it may be rack mounted as required with an optional mounting kit The rack installation only requires 1U space 1 75 in a standard EIA 19 inch rack The FMUXOZE is delivered completely assembled No provision is made for bolting the FMUXOAE to a tabletop Figure 2 2 Single and tandem rack mounting of FMUX04E 16 Chapter 2 Installation 2 5 Electrical Installation 2 5 1 Power connection AC For a model with AC power supply AC
42. Sensitivity op2ddTempLocal 40 40 Local device card fiber port 2 D D information Temperature in degree C e1T1TermTypeLocal 40 41 Local device E1T1 termination type 1 E1 75 BNC 2 E1 120 RJ45 3 T1 100 RJ45 el TIChIL 40 42 Local E1 T1 Chl el T1ChllinkLocal 40 42 1 Local device E1T1 status 1 Link down 2 Link up el T1ChlserviceLocal 40 42 2 Local device E1T1 status 1 Off 2 On el T1Ch1bvpErrorLocal 40 42 3 Display BPV 1 Off 2 On el T1ChllineCodeLocal 40 42 4 Set the line code 1 HDB3 B8ZS 2AMI 52 Appendix A Miscellaneous el T1ChlloopBackLocal 40 42 5 Local device local loop back function amp select setting 1 Disable 2 LLB 3 RLB elT1Ch2L 40 43 Local E1 T1 Ch2 el T1Ch2linkLocal 40 43 1 Local device E1T1 status 1 Link down 2 Link up el T1Ch2serviceLocal 40 43 2 Local device E1T1 status 1 Off 2 On el T1Ch2bvpErrorLocal 40 43 3 Display BPV 2 0n el T1Ch2lineCodeLocal 40 43 4 Set the line code 1 HDB3 8ZS 2AMI e1T1Ch2loopBackLocal 40 43 5 Local device local loop back function amp select setting 1 Disable 2 LLB 3 RLB el TICh3L 40 44 LocalE1 T1 Ch3 el T1Ch3linkLocal 40 44 1 Local device status 1 Link down 2 Link up el T1Ch3serviceLocal 40 44 2 Local device E1T1 status 1 Off 2 On el T1Ch3bvpErrorLocal 40 44 3 Display BPV 1 Off 2
43. able 2 LLB 3 RLB phoneServiceRemote 50 53 Remote device phone status 2 On 62 Appendix A Miscellaneous union E info ctcu com 4886 2 2659 0237 T 4886 2 2659 1021 D
44. anaged nodes and management stations is assigned by its user a community name parallel the user defines for each SNMP entity a list of the communities which are authorized to communicate with it and the access rights associated with each community this is the SNMP community name table of the entity In general SNMP agents support two types of access rights Read only the SNMP agent accepts and processes only SNMP getRequest and getNextRequest commands from management stations which have a read only community name Read write the SNMP agent accepts and processes all the SNMP commands received from a management station with a read write community name SNMP agents are usually configured to send traps to management stations having read write communities 36 Chapter 4 SNMP 4 6 Configuring the SNMP Agent The agent for the FMUXOZE resides in the SNMP option card installed in the FMUXO4E Initial configuration of the agent is accomplished via the RS 232 Control Port of the FMUXO4E Follow the connection terminal and operations described in Section 3 1 3 2 3 3 and 3 4 SNMP configuration is reached from the main menu using items 7 and 8 KKK KKK KKK KKK KKK KK KK KK KK KKK KKK KKK RAR KKK CTC UNION TECHNOLOGIES Eo LTD AE d Manager Ver 1 00 Tx XCKOK KE KK OK KC X GE EK X GI X XX K CERE dou eres 51 1 200 1 000 0 000 0 500 No SNMP and Confi v cO OOO recto 0 0
45. ce status 1 Link down 2 Link up el T1Ch1serviceRemote 50 42 2 Remote device E1T1 status 1 Off 2 0n el T1Ch1bvpErrorRemote 50 42 3 Display BPV 1 Off 2 On elTIChllineCodeRemote 50 42 4 Set the line code 1 HDB3 8ZS 2AMI el T1ChlloopBackRemote 50 42 5 Remote device E1T1 local loop back function amp select setting 1 Disable 2 LLB 3 RLB elT1Ch2 50 43 Remote E1 T1 Ch2 el T1Ch2linkRemote 50 43 1 Remote device E1T1 status 1 Link down 2 Link up el T1Ch2serviceRemote 50 43 2 Remote device E1T1 status 1 Off 2 On el T1Ch2bvpErrorRemote 50 43 3 Display BPV 1 Off 2 On 58 Appendix A Miscellaneous el T1Ch2lineCodeRemote 50 43 4 Set the line code 1 HDB3 8ZS 2AMI e1T1Ch2loopBackRemote 50 43 5 Remote device E1T1 local loop back function amp select setting 1 Disable 2 LLB 3 RLB elT1Ch3R 50 44 Remote E1 T1 Ch3 el T1Ch3linkRemote 50 44 1 Remote device E1T1 status 1 Link down 2 Link up el T1Ch3serviceRemote 50 44 2 Remote device E1T1 status 1 Off 2 On el TI Ch3bvpErrorRemote 50 44 3 Display BPV 2 0n el T1Ch3lineCodeRemote 50 44 4 Set the line code 1 HDB3 8ZS 2AMI e1T1Ch loopBackRemote 50 44 5 Remote device local loop back function amp select setting 1 Disable 2 LLB 3 RLB elT1Ch4R 50 45 Remote E1 T1 Ch4 elT1Ch4linkRemote 50 45 1 Re
46. ce UTP port 2 flow control status 1 Off 2 0n rs232ServiceLocal 40 50 Local device RS232 status 1 Off 2 0n rs232RxActiveLocal 40 51 Local device RS232 Rx active status 1 0ff 2 0n rs232LoopbackLocal 40 52 Local device RS232 local loop back function amp select setting 1 Disable 2 LLB 3 RLB phoneServiceLocal 40 53 Local device phone status 2 On 55 Appendix A Miscellaneous remoteCards 50 Remote Unit Parameters cardHW VerRemote 50 1 Remote hardware version X XXX cardFW VerRemote 50 2 Remote firmware version X XXX cardCPLDVerRemote 50 3 Remote device card CPLD version cardFPGA VerRemote 50 4 Remote device card FPGA version devPowerlstsRemote 50 5 Powerl status 1 None 2 Fail 3 Normal devPower2stsRemote 50 6 Power status 1 None 2 Fail 3 Normal devBerRemote 50 7 Get the bit err rate devServiceRemote 50 8 Remote device status 1 Off 2 On fiberlinkRemote 50 9 Remote device card fiber link status 1 Link down 2 Link up fiberRemoPWRRemote 50 10 Remote device card fiber port remote power status 1 Abnormal 2 0K op1LinkRemote 50 11 Remote device card fiber port 1 status 1 Link down 2 Link up op2LinkRemote 50 12 Remote device card fiber port 2 status 1 Link down 2 Link up op1SFPRemote 50 13 Remote device card fiber port 1 status 1 No 2 Yes
47. ck The channel can select between HDB3 B8ZS or AMI line coding Each of three LAN ports can set service on off and configure the Ethernet port for auto negotiation or for manual forced mode In forced mode both speed 10 or 100 and Duplex Full or Half can be forced set with no auto negotiation RS 232 The clear channel RS 232 port on RJ 45 can configure the service on off and can also provide local and remote loop back Phone The phone can enable or disable service Calls can be made manually by pressing the Call button on the front panel A typical microphone headset for laptop voice instant messaging can be used for order wire service Plug the 3 5mm phone plugs into the appropriately labeled jacks on the front face of the FMUXO4E Pressing ESC key repeatedly will back out from any menu and eventually back to the first initial display screen Using the LCD will let you quickly master the settings of the FMUXO4E 29 Chapter 3 Operation 3 6 SNMP Follow the connection terminal and operations described in Section 3 1 3 2 3 3 and 3 4 SNMP configuration is reached from the main menu using items 7 and 8 XCECKCK ECKE KKK KK KK KK KK KK KKK KKK KKK KKK XG EN FG X X X CTC UNION TECHNOLOGIES CO LTD 1 00 0 0 000 0 500 No SNMP on on on on on on ox D coccccr 5 gt gt 2 gt 2 gt 5 gt 5
48. dna certe ht cte ca odata Bu tust ede da da dia da cdi Tene a 40 ABD Panels 2 iae de be eee a ada Made et eese 40 4 8 3 Local Remote Tab Display iii 40 4 8 Devices a Don d a ua EU DIM NA ie 41 4 8 5 A 42 4 8 0 SFP dA do i 42 48 1E1 TI Configurations a 43 48 8 use tue eb NN 43 4 8 9 52328 Phoflle atita ted 44 48 10 SNMP Mana ger and s a ii dida a OX uda 44 4 8 11 System CONFIG ULATION x tette en dd serer e eleni cald nt 45 APPENDIX A MISCELLANEOUS icvicecccnscccnsccencssncsscossscnsseessscsesocsssensesseusssossecnssesesensescduesccsesnseesaessaens oessceosvesessessdoasyse 47 1 CONSOLE PORT PIN ASSIGNMENT 47 A 2 ALARM DETAIL uu a e catea aaa iii 47 A 3 RS 232 CLEAR CHANNEL 47 CONSOLE CABLE PIN ASSIGNMENT 9 232 5 48 A S LAN PIN ASSIGNMENT rane arenaen co erre dep S u dau ada obama ONU 48 6 1 1 RJ 45 PIN ASSIGNMENT uqaqa h iG ah qa ana la 48 A 7 LAN SNMP RJ 45 PIN ASSIGNMENT ii 49 A 8 SNMP TRAP MESSAGES AND 5 2 2
49. el RS 232 and the Ear Mouth order wire 40 Chapter 4 SNMP 4 8 4 Device On this tab page the status of the power supplies are shown note this is AC DC model the FMUXO4E service enable disable pulldown and the SNMP agent in band out band select Additional buttons are shown at the bottom of the screen and have the following functions 1 Apply Parameters When ever any changes are made click this button to apply and save them 2 Upgrade Mainboard This brings up a window to do the TFTP upgrading of the main software code 3 Upgrade Broadcast This provides the ability to upgrade both local and remote units at the same time 4 Upgrade FPGA This brings up a window to do the TFTP upgrading of the FPGA firmware code 5 H W Reset Clicking this button will force the mainboard s CPU to reboot 6 All Set to Default Clicking this will reset all settings back to the factory default 7 Refresh Status The display status does not automatically refresh To view the current status at any time click this button Version 1 22 1200 1001 0000 0300 FMUXO4E 10 1 1 87 SYSTEM ALL LAN1 3 v Panel 52 SNMP Device display 41 Chapter 4 SNMP 4 8 5 Fiber The Fiber tab contains the status and settings for the 1 1 fiber aggregate ports The two optical fiber ports are labeled OP1 and OP2 The aggregate link status is shown requires at least one physical link to
50. en The factory default password is blank just press Enter XCKkCKCE ECKE E KK KKK KKK KKK KKK KK KKK KKK KKK KK KK KKK CTC UNION TECHNOLOGIES CO LTD FEF FMUX04E Manager Ver 1 00 KXKXXXKXKXXXXXXXXXKXXXXX XX Password Enter password if set 3 2 Terminal Connection 3 4 0 Local Login Enter the password and press ENTER on the PC keyboard If you are using HyperTerminal the display should look like the following XCKkCKCE ECKE E KKK KK KKK KKK KK KKK KKK KKK KKK KK KK KKK yee ES LTD MUX04 ager Ver 00 Mana er Yer lo MN RA rsion n Ji 1 000 0 000 0 500 No SNMP onfi v wou us us us us us us on on wo mo DIO c cv cv c c co Just below the main header we find the Local shown in brackets This is the main menu for the local unit The Version explanation for the example shown here is PCB h w version 1 200 s w version 1 000 CPLD version 0 000 or none and FPGA version 0 500 Device Shows the power status can enable or disable device and can execute a factory default Fiber Shows optical working status enable disable loop back ALS and DD function display E1 T1 Provides the mode line code and loopback settings plus service enable disable for E1 T1 LAN Shows LAN port connection status port enable disable plus auto fo
51. ey selects a deeper menu or confirms a selected parameter The Left and Right arrow keys move between the vertical menu items or between the available parameters The ESC key backs out of the menu one step at a time 3 5 1 Menu Structure Local Cfg Remote Cfg Optical Working On Off Loop Back LLB RLB ALS Enable Disable E1 T1 E1 75 E1 120 T1 100 1 4 Service On Off Line Code HDB3 B8ZS AMI Loop Back LLB RLB LAN 1 3 Service On Off Negotiation Auto Manual Speed 10Base 100Base Duplex Full Half RS 232 Service On Off Loop Back LLB RLB Phone Service On Off Call On 27 Chapter 3 Operation 3 5 2 Operation detail CTC Channel A P union FMUX04E i LANI LAN2 Lana RS232 iaia opt 2 vi vo AR 7 I i j The 12 character by 2 line LCD is located plainly on the front panel To its right are the 4 menu keys 1 The Left and Right arrow keys move between the vertical menu items or between the selections of available parameters When entering a password these keys increment and decrement the number at the cursor position 2 ESC key backs out of the menu one step at a time 3 The ENT key selects a deeper menu or confirms a se
52. ggable SFP with LC WDM Wave Division Multiplexing also available Digital Diagnostics Monitoring Interface DDMI RJ 45 and BNC connectors for El and connection ITU T G 703 G 704 G 732 G 733 G 823 and G 824 compliant Fully transparent framing and timing In band remote configuration supported Optical and 1 loop backs Local and remote upgrade supported Full time integrated Optical BER tester constantly monitors optical transmission quality Ethernet trunk supported at full 100M wire speed Embedded 3 port L2 switch with 802 1Q support Order Wire RS 232 clear channel up to 250Kbps Asynchronous SNMP option Chapter 1 Introduction 1 4 Packing List Upon opening your package please check and be sure it contains the following items 1 FMUXO4E unit AC DC or AC DC depending on modem ordered If AC power a Clover Leaf to local power connector AC cable DB9M to DB9F Y cable for console configuration and alarm relay breakout RJ 45 to DB9M for RS 232 clear channel connection User s Guide hard copy or CDROM CDROM with MIB file if SNMP option installed N ABD If any of these items are missing please contact your distributor The following photo AC model with graphics shows the major components which make up the FMUXO4E with the SNMP options installed DC Power terminal amp Switch Console amp Alarm relay Order Wire ear mic LED Indicators LCD
53. ice UTP port 1 flow control status 1 Off 2 0n utp2L 40 48 Local LAN 2 utp2serviceLocal 40 48 1 Local device UTP port 2 status 1 Off 2 On utp2linkLocal 40 48 2 Local device UTP port 2 link status 1 Link down 2 Link up utp2rxActiveLocal 40 48 3 Local device UTP port 2 Rx active status 1 Off 2 On utp2negoLocal 40 48 4 Local device UTP port 2 negotiation status 1 Manual 2 Auto 54 Appendix A Miscellaneous utp2speedLocal 40 48 5 Local device UTP port 2 speed status 1 10Mb 2 100Mb utp2duplexLocal 40 48 6 Local device UTP port 2 duplex status 1 Half duplex mode 2 Full duplex mode utp2flowCtrlLocal 40 48 7 Local device UTP port 2 flow control status 1 Off 2 0n utp3L 40 49 Local LAN 3 utp3serviceLocal 40 49 1 Local device UTP port 3 status 1 Off 2 On utp3linkLocal 40 49 2 Local device UTP port 3 link status 1 Link down 2 Link up utp3rxActiveLocal 40 49 3 Local device UTP port 3 Rx active status 1 Off 2 utp3negoLocal 40 49 4 Local device UTP port 3 negotiation status 1 Manual 2 Auto utp3speedLocal utp3duplexLocal 40 49 5 40 49 6 Local device UTP port 3 speed status 1 10Mb 2 100Mb Local device UTP port 3 duplex status 1 Half duplex mode 2 Full duplex mode utp3flowCtrlLocal 40 49 7 Local devi
54. ivity oplddTempRemote 50 29 Remote device card fiber port 1 D D information Temperature in degree C op2ddVendorRemote 50 30 Remote device card fiber D D information Vendor name op2ddPartNoRemote 50 31 Remote device card fiber port 2 D D information Vendor part number op2ddTypeRemote 50 32 Remote device card fiber port 2 D D information Fiber Type 1 Unknown 2 Multi 3 Single op2ddTxWaveLenRemote 50 33 Remote device card fiber port 2 D D information Tx Wave Length 57 Appendix A Miscellaneous op2ddLenUnitRemote op2ddRxWaveLenRemote 50 34 Remote device card fiber port 2 D D information Rx Wave Length op2ddLinkLenRemote 50 35 Remote device card fiber Link Length 50 36 port 2 D D information Remote device card fiber port 2 D D information Length Unit 1 kilometer 2 meter op2ddTxPWRRemote 50 37 Remote device card fiber port 2 D D information Tx Power op2ddRxPWRRemote 50 38 Remote device card fiber port 2 D D information Rx Power op2ddRxSensRemote 50 39 Remote device card fiber port 2 D D information Rx Sensitivity op2ddTempRemote 50 40 Remote device card fiber port 2 D D information Temperature in degree C e1T1TermTypeRemote 50 41 Remote device E1T1 termination type 1 E1 75 BNC 2 E1 120 RJ45 3 T1 100 RJ45 elTIChIR 50 42 Remote E1 T1 Chl el T1Ch1linkRemote 50 42 1 Remote devi
55. lected parameter Initial Display This is the initial display which shows the model name and software version Four space fields are used to enter the password if it has been set The unit ships from the factory without any password Pressing ENT key will enter the Local Cfg menu The top menu items for local configuration include the Optical E1 T1 LAN RS 232 and Phone Press ENT to enter the top menu starting at the Optical settings Optical From this top level menu pressing the Right arrow key will browse to the other top menu items E1 T1 LAN RS 232 and Phone Pressing ENT at this item will enter the setting menu for the Optical interfaces The first item is the working channel If two SFP are installed and both linked the working channel can be set between either 1 or OP2 optical ports If only one SFP is installed the unit will only work when that link is good and that will be the working channel 28 Chapter 3 Operation 1 1 The parameter settings under E1 T1 include first the type which is defined for all four channels and be 1 75 Ohm BNC E1 120 Ohm RJ 45 or T1 100 Ohm RJ 45 All four channels must work the same type Next each individual channel CH1 CH4 set Service Line Code and Loop Back The Type could be 1 120 ohm 1 75 ohm or T1 100 ohm Each channel can set service enabled or disabled set the line code and do loop ba
56. m On Power active Off Power inactive Green E1 mode 75 ohm Green Flash E1 mode 120 ohm Off T1 mode 100 ohm Off remote no error Flash remote has errors Flash Active On Standby linked Off No Link Green Signal Good Off Loss of Signal Yellow loop back test active On Link Flash Data active Off no Link On 100M Off 10M On RS 232 Active Off RS 232 inactive On RS 232 in loop back Off RS 232 not in loop back On Order Wire Link Flash Call ringing with audible buzzer sound Active ON SNMP active flash 1 sec Active OFF no SNMP option Link ON LAN link OK OFF No Link SFP Cage x 2 1 1 redundant Multi mode Single mode or SM BiDi 1310nm or 1550nm Scrambled NRZ proprietary 155 52 Mbps STM 1 0C3 LLB Local Loop Back RLB Remote Loop Back lt 50mS Digital Diagnostics Monitoring Interface DDMI Standard Types WDM Types Type 5 5 S M S M S M S M S M S M S M S M S M S M S M KM 2 30 50 80 100 120 10 U 10 D 20 U 20 D 40 U 40 D 60 U 60 D Tx Tx Tx Tx Tx Tx Tx Tx Wave 1310 1550 1310 1550 1310 1550 1310 1550 1310 1310 1310 1310 1550 1550 length Rx Rx Rx Rx Rx Rx Rx Rx nm 1550 1310 1550 1310 1550 1310 1550 1310 107 107 107 107 107 107 107 107 107 107 107 10 107 lt 10 Rx 5 32dBm 34dBm 35dBm
57. mote device E1T1 status 1 Link down 2 Link up el T1Ch4serviceRemote 50 45 2 Remote device status 1 Off 2 On el T1Ch4bvpErrorRemote 50 45 3 Display BPV 1 Off 2 On el T1Ch4lineCodeRemote 50 45 4 Set the line code 1 HDB3 8ZS 2AMI el T1Ch4loopBackRemote 50 45 5 Remote device local loop back function amp select setting 1 Disable 2 LLB 3 RLB portVLANRemote 50 46 Remote device port based VLAN mode 1 Disable 2 Enable utplR 50 47 Remote LAN 1 utp I serviceRemote 50 47 1 Remote device UTP port 1 status 2 0n 59 Appendix A Miscellaneous utp LlinkRemote 50 47 2 Remote device UTP port 1 link status 1 0ff 2 On utp IrxActiveRemote 50 47 3 Remote device UTP port 1 Rx active status 1 Off 2 0n utp InegoRemote 50 47 4 Remote device UTP port 1 negotiation status 1 Manual 2 Auto utp IspeedRemote 50 47 5 Remote device UTP port 1 speed status 1 10Mb 2 100Mb utp 1 duplexRemote 50 47 6 Remote device UTP port 1 duplex status 1 Half duplex mode 2 Full duplex mode utp 1 flowCtrlRemote 50 47 7 Remote device UTP port 1 flow control status 1 Off 2 0n utp2R 50 48 Remote LAN 2 utp2serviceRemote 50 48 1 Remote device UTP port 2 status 1 Off 2 On utp2linkRemote 50 48 2 Remote device UTP port 2 link status 1 Off 2 On utp2rxActiveRemo
58. nce Characteristics of Information Technology Equipment This device complies with CISPR Class A WARNING This is a Class A product In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures CE NOTICE Marking by the symbol CE indicates compliance of this equipment to the EMC and LVD directives of the European Community Such marking is indicative that this equipment meets or exceeds the following technical standards EN 55022 2006 Class A IEC61000 3 2 2005 and IEC61000 3 3 2005 EN50024 1998 A 1 2001 A2 2003 and EN60950 1 2001 CTC Union Technologies Co Lid Far Eastern Vienna Technology Center Neihu Technology Park 8F No 60 Zhouzi St Neihu Taipei 114 Taiwan Phone 886 2 2659 1021 FAX 886 2 2799 1355 FMUXO04E User Manual Fiber Multiplexer with 4 channels El or plus 100M Ethernet Version 1 0 Dec 2010 First Release This manual supports the following models FMUX04E This document is the first official release manual Please check CTC Union s website for any updated manual or contact us by E mail at info ctcu com Please address any comments for improving this manual or to point out omissions or errors to marketing ctcu com Thank you The information and specifications in this document are subject to change without notice Table of Contents Table of Contents CHAPTER INTRODUCTION a u w
59. nkLocal 40 11 Local device card fiber port 1 status l Link down 2 Link up op2LinkLocal 40 12 Local device card fiber port 2 status 1 Link down 2 Link up op1SFPLocal 40 13 Local device card fiber port 1 status 1 No 2 Yes oplddLocal 40 14 Local device card fiber Digital Diagnostic function 1 No 2 Yes 50 Appendix A Miscellaneous op2SFPLocal 40 15 Local device card fiber port 2 status 1 No 2 Yes op2ddLocal 40 16 Local device card fiber Digital Diagnostic function 1 No 2 Yes fiberWorkingChannelLocal 40 17 Local device card fiber port status 2 0P2 fiberLoopBackLocal 40 18 Local device card loop back test mode 1 Disable 2 LLB 3 RLB oplddVendorLocal 40 19 Local device card fiber D D information Vendor name oplddPartNoLocal 40 20 Local device card fiber port 1 D D information Vendor art number oplddTypeLocal 40 21 Local device card fiber port 1 D D information Fiber Type 1 Unknown 2 Multi 3 Single oplddTxWaveLenLocal 40 22 Local device card fiber port 1 D D information Tx Wave Length oplddRxWaveLenLocal 40 23 Local device card fiber port 1 D D information Rx Wave Length oplddLinkLenLocal 40 24 Local device card fiber port 1 D D information Link Length oplddLenUnitLocal 40 25 Local device card fiber port 1 D
60. ntentional bipolar violation The B8ZS code substitutions provide high pulse density so that the receiving equipment is able to maintain synchronization with the received signal When configured for T1 the 4 CHANNEL T1 Ports support one of two T1 line codes AMI coding B8ZS coding The 4 CHANNEL T1 Ports are completely transparent and support any frame format i e The T1 will pass through with its original framing structure completely intact 13 Chapter 1 Introduction 1 8 Applications Capabilities In the following example the FMUXO4E utilizes an optical fiber connection between a pair of units to provide 4channels of 1 100M Ethernet RS 232 clear channel and bi directional audio Order Wire between the units The timing scheme for typical 1 or equipment is to transparently pass timing from a timing source unit on one side to a timing slaved unit on the other Each of the up to 4 available channels of the FMUXOZE is independent of any other channel for transparent framing or timing ADM 4 SDH LAN IO Order Wire 4 1 RS232 P dear Channel gt FMUX04E NMS 1 1 Fiber Gidor i FMUX04E NMS me RS232 clear LAN 4E1 channel PBX Figure 1 2 Typical Point to Point Application of FMUX04E 14 Chapter 2 Installation Chapter 2 Installation 2 1 General The Installation chapter will cover the physical installation of the FMUXO4E Standalone Rack Mount Fiber
61. owever the FMUXO4E provides no system clock or clock source for the El or T1 connection Therefore the connected device on one side must provide the required E1 or T1 clock timing either internal clock or recovery timing When the FMUXOZE is ordered with optional SNMP an additional hardware card is installed inside the unit Configuration is accomplished via the asynchronous RS 232 console port with a standard VT 100 terminal via Ethernet and Telnet or Web or via any standard SNMP network management software over Ethernet If the SNMP option is not installed local management is still possible via the unit s internal menu system accessible from the asynchronous RS 232 port with a standard VT 100 terminal However there is no Telnet Web or SNMP without the SNMP option The FMUXOAE also includes the ability to do in band remote configuration Once the fiber optic link has been established the remote unit may be configured or status checked from the local unit using any of the available management options including SNMP The has the ability to upgrade its hardware and operational code by using the Xmodem protocol on the serial interface Local upgrades are supported with this feature TFTP upgrading of local or remote is supported when an optional SNMP module is installed 1 3 Features List Simple menu settings via serial console AC DC or AC DC models Redundant fiber 1 1 for multi mode and single mode 2 to 120KM Plu
62. ponds with a getResponse message trap Management message carrying unsolicited information on extraordinary events that is events which occurred not in response to a management operation reported by the managed node 4 3 The Management Information Base The management information base MIB includes a collection of managed objects Managed objects are defined as parameters that can be managed such as specific information on device configuring or on performance statistics values The MIB includes the definitions of relevant managed objects MIB variables for the specific node Various MIB s can be defined for various management purposes types of equipment etc The management data itself is a collection of integer string and MIB address variables that contain all the information necessary to manage the node A leaf object s definition includes the range of instances values and the access rights Read only Instances of an object can be read but cannot be set Read write Instances of an object can be read or set Write only Instances of an object can be set but cannot be read Not accessible Instances of an object cannot be read nor set 35 Chapter 4 SNMP 4 4 MIB Structure The MIB has an inverted tree like structure root over leaves with each definition of a managed instance forming one leaf located at the end of a branch of that tree Each leaf in the MIB is reached by a unique path therefore by numbering the b
63. ranching points starting with the top each leaf can be uniquely defined by a sequence of numbers The formal description of the managed objects and the MIB structure is provided in a special standardized format called Abstract Syntax Notation 1 or ASN 1 pronounced A S N dot one Since the general collection of MIB s can also be organized in a similar structure under the supervision of the Internet Activities Board IAB any parameter included in a MIB that is recognized by the IAB is uniquely defined To provide the flexibility necessary in a global structure MIB s are classified in various classes branches one of them being the experimental branch another being the management mgmt branch and yet another the group of private enterprise specific branch Under the private enterprise specific branch of MIB s each enterprise manufacturer can be assigned a number which is its enterprise number The assigned number designates the top of an enterprise specific sub tree of non standard MIB s Enterprise specific MIB s are published and distributed by their creators who are responsible for their contents The MIB supported by the FMUXO4E SNMP Agent follows RFC 1213 MIB 2 standard 4 5 SNMP Communities To enable the delimitation of management domains SNMP uses communities Each community is identified by a name which is an alphanumeric string of up to 255 characters defined by the user Any SNMP entity this term includes both m
64. rational improvements to the FMUXO4E then we have the ability to upgrade the units without opening or changing any firmware chips Upgrading the FPGA in an online unit will result in temporary loss of transmissions as the multiplexer reboots with the new logic code however any CPU firmware upgrades may be done without effecting the normal transmissions on an on line unit The procedure to upgrade the unit is to first obtain the binary code file s and place them on the Windows PC browse to the upgrade folder on the PC and execute the Upgrade Tool Choose the item to upgrade CPU or FPGA enter the binary image filename and proceed with the upgrade After the binary image file has successfully transferred the FMUXO4E will write the new firmware and reboot The upgrade takes approximately 3 minutes during which time no interruption to the PC or FMUXO4E unit should be allowed A failed upgrade requires a return to factory for the bricked unit The following page has the steps again in detail 31 Chapter 3 Operation Upgrade Procedure Extract the Upgrade package Zip file in a convenient folder on the Windows PC The Upgrade Tool has been tested on Window XP Vista Win7 The contents of the extracted folder will look something like this Graphic of folder with Upgrade Tool and binary files Make sure the PC is connected to the FMUX04E using 1 connection The Upgrade Tool will only work when connected via COMI to
65. rced mode settings RS 232 Shows status of RS 232 clear channel provides enable disable plus loopback function Phone Provides enable disable service and call activation via menu software SNMP This menu provides the TCP IP settings for the SNMP agent IP gateway and subnet mask Management Setup the allowed managers and trap destinations by IP and community string Password Allows setting up a console login password If the password is forgotten contact CTC Union support for the password recovery procedure Switch to Remote Menu The Have indicated there is a fiber connected remote Use T to toggle between the remote and local menus 20 Chapter 3 Operation 3 4 1 Device Reach the Device menu by pressing 1 at the main menu for either local or remote KKKKKKKK KK KKK KKK KKK KKK KKK KK KKK KKK KK KK KKK CTC UNION TECHNOLOGIES CO LTD FM Manager Ver 1 00 X X IG KKK Version 1 200 1 000 0 000 0 500 No SNMP Statu nd Conti gt gt A pe OK lt ESC gt Go to previous menu Please select item The above example unit has dual power supplies PWR1 is AC PWR2 is DC If no input voltage is connected to a power supply it will show the message Fail For single power supply model one power will be OK and the other will be NI Not Installed The first menu item
66. s found in special SFP that include DOM Digital Optical Monitor functions The last menu item can display the OP2 parameters Below is an example KK KKK KKK KKK KKK KKK KKK KK KKK KK KKK KKK KKK KKK CTC UNION TECHNOLOGIES CO LTD EEF F Manager Ver 1 00 KKAKKKKKKKKKKEKKK KKK KKK EK KKK KRAKK XXX IG x G X x x Local Version 1 200 1 000 0 000 0 500 No SNMP lt lt OPI D D Function Stat Vendor Name Vendor Part Number SI Fi ber Type ES Tx Wave Length 1 R ave Length 1 E X W k a I 5 previous menu lt 22 Chapter 3 Operation 3 4 3 EI TI Reach the E1 menu by pressing 3 at the main menu for either local or remote XCECKCK ECKE KKK KKK KKK KK KK KKK EXC X EEG IG X XIII CTC UNION TECHNOLOGI ES Xo FMUXO4E Manager Ver 1 00 KA XC KK OK KK KK KK KK KK KR X X LTL Version 1 200 1 000 0 000 0 500 No SNMP lt ESC gt Go to previous menu Please select an item 3 4 3 1 Type Choose menu item 1 to setup the Type between E1 75 Ohm E1 120 Ohm or T1 100 Ohm KKK KK KKK KKK KK KKK KKK KK KK KKK KK KKK KKK KKK KKK CTC UNI ON CO LED RES Kokk FMUXO4E ager Ver 1 00 Tx NELLE XO XX 3333 KK KK Version 1 200 1 000 0 000 0 500 No SNMP lt 3 gt T1 100 RJ 45 select an item 3 4 3 2 Configuration Choose menu items 2 5 to setup the E1 T1 Line Coding and Loop Back Functions kkk KKK KKK KKK KKK KK KKK RAR
67. settings and management strategies when the optional SNMP card is installed 1 1 General Description The FMUXOZE is 10 1 75 high standalone or half rack mountable E1 T1 multiplexer plus 100M Ethernet over fiber link designed for cost effective applications The FMUXO4E provides economic optical connection solution in low density E1 or T1 installations such as between remote offices or in mobile back haul applications where multiple high speed synchronous TDM Time Division Multiplexing communications and Ethernet packets are required over a single fiber pair or single BiDi fiber core By utilizing a fixed channel design the unit is extremely cost effective and provides quick return on investment 1 2 Functional and Feature Description The standard unit is a standalone chassis with LCD menu keys local control via Console port and ordered with either AC DC or dual AC DC input power The appropriate SFP optical transceiver s with LC connector s may be selected when ordering to support multi mode or single mode fiber cable operation with a variety of power options WDM Wave Division Multiplexing optical transceivers are also available to provide bi directional transmission on a single fiber to reduce cost when using leased dark fiber links The range of transmission for optical connection is from 2Km for multi mode up to 120Km single mode The FMUX04E fiber aggregate is a combination of up to four G 703 El or T1 DS1 streams
68. te 50 48 3 Remote device UTP port 2 Rx active status 1 Off 2 0n utp2negoRemote 50 48 4 Remote device UTP port 2 negotiation status 1 Manual 2 Auto utp2speedRemote 50 48 5 Remote device UTP port 2 speed status 1 10Mb 2 100Mb utp2duplexRemote 50 48 6 Remote device UTP port 2 duplex status 1 Half duplex mode 2 Full duplex mode utp2flowCtrlRemote 50 48 7 Remote device UTP port 2 flow control status 1 Off 2 0n utp3R 50 49 Remote LAN 3 utp3serviceRemote 50 49 1 Remote device UTP port 3 status 1 Off 2 On 60 Appendix A Miscellaneous utp3linkRemote 50 49 2 Remote device UTP port 3 link status 2 On utp3rxActiveRemote 50 49 3 Remote device UTP port 3 Rx active status 2 On utp3negoRemote 50 49 4 Remote device UTP port 3 negotiation status 1 Manual 2 Auto utp3speedRemote 50 49 5 Remote device UTP port 3 speed status 1 10Mb 2 100Mb utp3duplexRemote 50 49 6 Remote device UTP port 3 duplex status 1 Half duplex mode 2 Full duplex mode utp3flowCtrlRemote 50 49 7 Remote device UTP port 2 flow control status 2 On rs232ServiceRemote 50 50 Remote device RS232 status 2 0n rs232RxActiveRemote 50 51 Remote device RS232 Rx active status 1 Off 2 0n rs232LoopbackRemote 50 52 Remote device RS232 local loop back function amp select setting 1 Dis
69. th Rx Wave Length Link Length Digital Diagnostic Tx Power Rx Power Rx Sensitivity Temperature 2 dBm 2 dBm 0 dBm 44 degree C Digital Diagnostic Tx Power Rx Power Rx Sensitivity Temperature SFP 42 Chapter 4 SNMP 4 8 7 Configuration The E1 T1 configuration tab displays the channel status and sets the channel service line code and termination type for the E1 T1 It also sets the loop back Side Type FMUX04E 10 1 1 87 Refresh SYSTEM Panel SNMP FMUXO4E Local Remote EL T1 4 8 8 LAN The LAN tab has the status display service settings and Ethernet settings for each of the three LAN ports The default setting of the LAN ports is with auto negotiation enabled Each port is configurable for manual forced mode Ethernet Please take care when connecting forced mode to another auto device A duplex mismatch could occur that will cause a severe performance hit Version union FMUX04E 10 1 1 87 Refresh SYSTEM Panel SNMP FMUXO4E Local Remote Speed Duplex Upgrade FPGA 43 Chapter 4 SNMP 4 8 9 RS232 amp Phone The RS232 amp Phone tab has the service settings for the clear channel up to 230K baud asynchronous RS 232 and the Ear Mouth order wire The RS 232 clear channel also has diagnostic loop back functions which can be selected and enabled here The Call Out function is an option to manually call the operator
70. tilizes out of band communication over standard 10Base T or 100Base TX Ethernet The SNMP agent is compliant with the SNMPv1 and V2C standard Future support for SNMP V3 and for IPv6 can be made available through software upgrade SNMP communications use the User Datagram Protocol UDP UDP is a connectionless transport protocol part of the TCP IP suite The SNMP application uses an asynchronous command response polling protocol and operates at the OSI Layer 7 Layer 7 is the Application Layer Other IP applications that operate at this layer are FTP Telnet HTTP SMTP etc All management traffic is initiated by the SNMP based network management station Only the addressed managed entity agent answers the polling of the management station except for trap messages 4 2 SNMP Operations The SNMP protocol includes five types of operations 1 getRequest Command for retrieving specific value of an instance from the managed node The managed node responds with a getResponse message getNextRequest Command for retrieving sequentially specific management information from the managed node The managed node responds with a getResponse message getBulkRequest Command for retrieving a block of management information from the managed node The managed node responds with a getResponse message getBulkRequest was introduced in SNMPv2c setRequest Command for manipulating the value of an instance within the managed node The managed node res
71. ually generated by alarms in the FMUXO4E The manager configuration has the ability to setup access for up to four 4 different management workstations The community strings act like passwords in dealing with the device via SNMP protocol By changing the community strings numbered 1 2 for read write secret in this case and read only public access and assigning a community string to an access an administrator can control access to the KK KKK KK KKK KKK KKK KKK KKK UNION TECHNOLOGIES CO LTD FMUX04E Manager Ver 1 00 EE KKK KK KKK RRA AAA RRA RARA LELE Stok EE EI Local Version 1 200 1 000 0 000 0 500 lt 1 gt Access IP 1 1 lt 2 gt Access IP 2 1 lt 3 gt Access 3 1 1 lt 5 gt Community String 1 1 lt 4 gt Access IP 4 e lt 6 gt Community String 2 lt ESC gt Go to previous menu Please select an item Explanation The SNMP agent is the process that runs in the SNMP module and has the ability to control the FMUXO4E The agent requires network configuration ie IP address subnet mask and default gateway settings The manager configuration provides the needed information to the agent for the network manager on your network This information can be assigned for up to four different management workstations The information set includes the IP address of the management workstation the access rights read write
72. ule In the AMI format ones are alternately transmitted as positive and negative pulses whereas zeros are transmitted as a zero voltage level AMI is not used in most 2 048Mb s transmissions because synchronization loss occurs during long strings of data zeros In the HDB3 format a string of four consecutive zeros is replaced with a substitute string of pulses containing an intentional bipolar violation The HDB3 code substitutions provide high pulse density so that the receiving equipment is able to maintain synchronization with the received signal When configured for El the 4 CHANNEL El Ports support one of two El line codes AMI coding HDB3 coding The 4 CHANNEL El Ports are completely transparent and support any frame format e The El will pass through with its original framing structure completely intact 12 Chapter 1 Introduction 1 7 T1 DS1 Signal Structure 1 7 1 link line rate and coding The 1 line operates at a nominal rate of 1 544Mb s The basic T1 line signal is coded using either the Alternate Mark Inversion AMI or B8ZS rule In the AMI format ones are alternately transmitted as positive and negative pulses whereas Zeros are transmitted as a zero voltage level AMI is not used in most 1 544Mb s transmissions because synchronization loss occurs during long strings of data zeros In the B8ZS format a string of eight consecutive zeros is replaced with a substitute string of pulses containing an i
73. use either BNC 75 Ohm unbalanced or RJ 45 120 Ohm balanced connectors for E1 Line interface connections Each separate El channel supports a transmission rate of 2 048Mb s transparent unframed El each Chapter 1 Introduction When configured for T1 operation the 4 channels of the FMUXO4E will use four 45 100 Ohm balanced connectors for T1 DS1 Line interface connections Each separate 1 DS1 channel supports a transmission rate of 1 544Mb s transparent unframed T1 each Three state LEDs green yellow or off on the front panel will show both the channel statuses and any alarm indications for the channels as well as the link status of the fiber optic link The FMUXO4E El and T1 Interfaces fully meet all El and T1 specifications including ITU T G 703 G 704 G 732 G 733 G 823 and G 824 Each E1 T1 CHANNEL features diagnostic capabilities for performing local loop back remote loop back or to request remote loop back The loop back function can be controlled by LCD Menu keys terminal mode RS 232 console or when the SNMP option board is installed via Telnet Web or SNMP set commands The FMUXO4E unit s optical transmission operates from an internal free running oscillator All El or 1 equipment may connect to the FMUXO4E without regard to master or slave timing The FMUXO4E is completely transparent to clocking and data transmission This makes application and configuration of the fiber Multiplexer extremely simple H
74. vice off trap lanPort linkUp 1000 40 3 2000 40 3 LAN link up trap lanPort linkDown 1000 40 4 2000 40 4 LAN link down trap rs232ServiceOn 1000 50 2000 50 RS232 service on trap rs232ServiceOff 1000 60 2000 60 RS232 service off trap phoneServiceOn 1000 70 2000 70 Phone service on trap phoneServiceOff 1000 80 2000 80 Phone service off trap alarmRelayOn 1000 90 2000 90 Alarm relay on trap alarmRelayOff 1000 100 2000 100 Alarm relay off trap 49 Appendix A Miscellaneous A 9 SNMP Object Details Path iso org dod private enterprise ctc fmux04e localModel 1 3 6 1 4 1 4756 47 1 MIB OID Description localModel 1 Model 1 FRM220 FMUX04E remoteModel 2 Model empty 2 RM220 FOM04 3 RM220 FMUX04E localCards 40 Local Unit Parameters cardHW VerLocal 40 1 Local hardware version X XXX cardFW VerLocal 40 2 Local firmware version X XXX cardCPLDVerLocal 40 3 Local device card CPLD version cardFPGAVerLocal 40 4 Local device card FPGA version devPowerlstsLocal 40 5 Powerl status 1 None 2 Fail 3 Normal devPower2stsLocal 40 6 Power2 status 1 None 2 Fail 3 Normal devServiceLocal 40 7 Local device status 1 Off 2 0n fiberlinkLocal 40 8 Local device card fiber link status 1 Link down 2 Link up fiberRemoPWRLocal 40 9 Local device card fiber port remote power status 1 Abnormal 2 0K fiberALSLocal 40 10 Local device card fiber port Auto Laser Shutdown 1 Disable 2 Enable oplLi
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