Transition Networks SSDTF1011-105 User's Manual
Contents
1. Contact Us Technical support Technical support is available 24 hours a day U S A and Canada 1 800 260 1312 International 00 1 952 941 7600 Transition now Chat live via the Web with Transition Networks Technical Support Log onto www transition com and click the Transition Now link Web based seminars Transition Networks provides seminars via live web based training Log onto www transition com and click the Learning Center link E Mail Ask a question anytime by sending an e mail to our technical support staff techsupport transition com 5 gt gt gt gt gt gt o 53 o Local 5 Remote i 5 g 2 opper Device ne Device opper g 2 OF a lt Xe lt lt lt X Verify the local fiber connection by starting a remote fiber loop back hardware mode set the loop back switch on the remote device to FL software mode enter the remote fiber loop back command and then use a bit error test unit to run a bit error test 5 gt gt gt gt ai ai o ES Local r Remote IBS Copper Device Fiber Device Copper i 9 8 Or a Ri lt lt Xe lt H e Verify the remote copper connection by starting a remote copper loop back hardware mode set the loop back switch on the remote device to CL software mode enter the remote copper loop back command and then use a bit e2. Use a small flat blade screwdriver or a similar device to set the recessed switches Transmit all ones switches amp 2 left set SW 2 The Transmit All Ones function allows the insertion of an all ones pattern on the copper and or fiber interface when the signal detect is lost creating an alarm condition at the device connected to the interface UP Disables the transmit all ones function on the copper interface it All Ones Disabled DOWN Transmits an all ones pattern on the copper interface when the signal detect on the fiber interface is lost 2 Fiber Transmit Al Fiber Transmit All Ones Enabled Switch 2 Fiber transmit all ones UP Disables the transmit all ones function on the fiber interface DOWN Transmits an all ones pattern on the fiber interface when the signal detect on the copper interface is lost Select TI configuration switches 3 amp 4 left set SW2 Use switches 3 and 4 to configure the device for T1 configuration Switch 3 long haul short haul 77 only UP Short haul DOWN Long haul Switch 4 T1 E1 UP T1 configuration Set switches 1 2 3 and 4 on the right set for the required network cable settings see pages 6 and 7 Select El configuration switch 4 left set SW 2 Use switch 4 to configure the device f
3. SSDTF 1022 105 RJ 45 1 5 km 5 000 feet ST 1310 nm single mode 15 km 9 3 miles SSDTF1025 105 RJ 45 1 5 km 5 000 feet MT RJ 1310 nm single mode 20 km 12 4 miles SSDTF1027 105 RJ 45 1 5 km 5 000 feet Typical maximum cable distance Actual distance is dependent upon the physical characteristics of the network Note The SSDTF10xx 10x requires a CSU between the device and the Public Telephone Network ST 1300 nm multimode 5 km 3 1 miles Installation 0 0000 3 Operation sssr enrii sae peed 9 Cable Specifications 10 Technical Specifications 12 Troubleshooting 13 Compliance Information 16 SSDTF Oxx 10x Part Number Port One Copper Port Two Single Fiber Optic SSDTF1029 105 RJ 45 SC 1310 mn TX 1550 nm RX 1 5 km 5 000 feet single mode 20 km 12 4 miles SSDTF1029 106 RJ 45 SC 1550 mn TX 1310 nm RX 1 5 km 5 000 feet single mode 20 km 12 4 miles SSDTF1029 107 RJ 45 SC 1310 mn TX 1550 nm RX 1 5 km 5 000 feet single mode 40 km 24 8 miles SSDTF1029 108 RJ 45 SC 1550 mn TX 1310 nm RX 1 5 km 5 000 feet single mode 40 km 24 8 miles TX transmit RX receive Typical maximum cable distance Actual distance is dependent upon the physical characteristics of the network SSDTF1029 105 and 106 are intended to be installed in the
4. TRANSITION User s Guide SSDTFI10xx 10x Stand Alone Devices e TI EI with Remote Management e Copper to Fiber Transition Networks SSDTF10xx 10x series Devices encode and decode T1 or E1 twisted pair copper signals over fiber optic cable to extend the distance and transmission reliability of high speed T1 or El data traffic The device is framing independent as ESF vs D4 and supports all common line codes e g AMI BSZS HDB3 The SSDTF 10xx 10x is designed to be installed in pairs For example install one SSDTF1011 105 as the local Device and another SSDTF1011 105 as the remote Device Part Number SSDTFIOI1 105 Port One Copper RJ 45 1 5 km 5 000 feet Port Two Duplex Fiber Optic ST 850 nm multimode 2 km 1 2 miles SSDTF1012 105 RJ 45 1 5 km 5 000 feet ST 1310 nm single mode 8 km 4 8 miles SSDTF1013 105 RJ 45 1 5 km 5 000 feet SC 850 nm multimode 2 km 1 2 miles SSDTF1014 105 RJ 45 1 5 km 5 000 feet SC 1310 nm single mode 20 km 12 4 miles SSDTF1015 105 RJ 45 1 5 km 5 000 feet SC 1310 nm single mode 40 km 24 8 miles SSDTF1016 105 RJ 45 1 5 km 5 000 feet SC 1310 nm single mode 60 km 37 3 miles SSDTF1017 105 RJ 45 1 5 km 5 000 feet SC 1550 nm single mode 80 km 49 7 miles SSDTF1018 105 RJ 45 1 5 km 5 000 feet MT RJ 1300 nm multimode 2 km 1 2 miles
5. e Connect the male RX cable connector to the female TX port Fana o AREE RX E TX Connect fiber cable Connect fiber cable to media converter to other device as shown media converter hub etc as shown Installation Continued Power the device Note The external power supply provided with this product is UL listed by the power supply s manufacturer 1 Install the power adapter cord to the back of the device 2 Connect the power adapter plug to AC power 3 Verify that the device is powered by observing the illuminated LED power indicator light For DC power consult the user s guide for the Transition Networks SPS1872 xx DC external power supply for powering the device Operation After installation the device should function without operator intervention Use the status LEDs to monitor the device operation in the network SDC Signal Detect Copper ON the twisted pair copper link is up SDF Signal Detect Fiber ON the fiber link is up PWR Power ON the device is connected to external power a Fiber UTP STP Dry contact relay The RJ 45 copper port has a dry contact relay 3 RJ 45 Connector that opens if the power signal detect copper or i signal detect fiber are lost The operational Rey F rating on pins 3 and 6 are 0 30 VDC 100 mA 6 maximum Remote management function A remote stand alone device revision SSDTF10xx 105 or higher can be man
6. 133 ANSI T1 403 100 ohm cable DSX 1 O 40 5 m O 133 100 ohm cable i g i ia Switch 4 on the right switch set is not used for configuring TI short DSX 1 6 0V haul signals 100 ohm cable SSDTF Oxx 10x Installation Continued Install the copper cable 1 Locate or build twisted pair copper cables that are compliant with the specifications on page 11 with RJ 45 connectors at both ends 2 Ensure that the MDI MDI X switch is set according to the network conditions see page 3 3 Connect the RJ 45 connector at one end of cable to the RJ 45 port on the device 4 Connect the RJ 45 connector at the other end of the cable to the RJ 45 port on the other device switch workstation etc al N PF j Be RJ 45 port RJ 45 port on the media on the other device converter switch work station etc Install the fiber cable 1 Locate or build fiber cables with male two stranded TX to RX connectors installed at both ends 2 Connect the fiber cables to the local SSDTF10xx 10xDevice as described e Connect the male TX cable connector to the female TX port e Connect the male RX cable connector to the female RX port 3 Connect the fiber cables to the remote SSDTF10xx 10xDevice as described e Connect the male TX cable connector to the female RX port
7. same network where one is the local device and the other is the remote device SSDTF1029 107 and 108 are intended to be installed in the same network where one is the local device and the other is the remote device Note The chassis version of the device is CSDTF10xx 10x For more information see the CSDTF10xx 10x user s guide on line at www transition com Optional Accessories sold separately Part Number Description SPS 1872 SA Optional External Power Supply 18 72VDC Stand Alone Output 12 6VDC 1 0 A SPS 1872 PS Optional External Power Supply 18 72 VDC Piggy back Output 12 6VDC 1 0A E MCR 04 Slot Device Rack includes universal internal power supply 17 x 15 x 5 in 432 x 381 x 127 mm WMBL Optional Wall Mount Brackets Length 4 0 in 102 mm Fits Device length 4 7 in 119 mm WMBV Optional Vertical Mount Bracket 5 0 in 127 mm WMBD Optional DIN Rail Mount Bracket 5 0 in 127 mm WMBD F Optional DIN Rail Mount Bracket flat 3 3in 84 mm Installation CAUTION Wear a grounding device and observe electrostatic discharge precautions when setting the jumper and switches Failure to observe this caution could result in damage to and subsequent failure of the device Set the hardware software jumper The hardware software jumper is located on the circuit board inside the device housing Hardware The ae mode is determined by the a Jo oO ol s switch settings Hardw
8. 40 50 125 um 850 nm multimode min 19 0 dBm max min 32 5 dBm max 13 5 dB 1310 nm single mode min 27 0 dBm max min 34 0 dBm max 7 0 dB 850 nm multimode min 19 0 dBm max min 32 5 dBm max 13 5 dB 1310 nm single mode min 19 0 dBm max min 34 0 dBm max 15 0 dB 1310 nm single mode min 8 0 dBm max min 38 0 dBm max 30 0 dB 1310 nm single mode min 5 0 dBm max min 38 0 dBm max 33 0 dB 1550 nm single mode min 5 0 dBm max min 34 0 dBm max 29 0 dB 1300 nm multimode min 19 0 dBm max min 33 5 dBm max 14 5 dB 1310 nm single mode min 15 0 dBm max min 25 0 dBm max 10 0 dB 1310 nm single mode min 11 0 dBm max min 20 0 dBm max 9 0 dB 14 0 dBm 14 0 dBm 10 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm 14 0 dBm 3 0 dBm 2 0 dBm 8 0 dBm 0 0 dBm 8 0 dBm 0 0 dBm 7 0 dBm 14 0 dBm 14 0 dBm 5 0 dBm 14 0 dBm 3 0 dBm 3 0 dBm Fiber cable SSDTF1027 105 Fiber Optic Transmitter Power Fiber Optic Receiver Sensitivity Link Budget SSDTF1029 105 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget SSDTF1029 106 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget SSDTF1029 107 SSDTF1029 108 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget Cable Specifications Continued 1300 nm mu
9. aged when connected to a local CSDTF10xx 105 Device Please note that in a managed network both the local and remote Devices must be set to software mode see page 3 For more information see the SNMP section in the CSDTF10xx 10x manual online at www transition com SSDTF Oxx 10x Cable Specifications Fiber cable Single mode fiber recommended Multimode fiber recommended Multimode fiber optional SSDTF1011 105 Fiber Optic Transmitter Power Fiber Optic Receiver Sensitivity Link Budget SSDTF1012 105 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget SSDTF1013 105 Fiber Optic Transmitter Power Fiber Optic Receiver Sensitivity Link Budget SSDTF1014 105 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget SSDTF1015 105 Fiber Optic Transmitter Power Fiber Optic Receiver Sensitivity Link Budget SSDTF1016 105 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget SSDTF1017 105 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget SSDTF1018 105 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget SSDTF1022 105 Fiber Optic Transmitter Power Fiber Optic Receiver Sensitivity Link Budget SSDTF1025 105 Fiber optic Transmitter Power Fiber optic Receiver Sensitivity Link Budget 9 um 62 5 125 um 100 140 85 1
10. are Mode Software The device mode is determined by the most recently saved on board microprocessor settings os Software Mode To set the two position jumper 1 Using a small screwdriver remove the four 4 screws that secure the cover and carefully remove the cover from the device 2 The jumper is located on the circuit board and is labeled H and S Using small needle nosed pliers or similar device move the jumper to the desired position Refer to the above drawing 4 Carefully replace the cover on the device and replace the four 4 screws that secure the cover to the device Set the MDI MDI X switch hardware mode only The MDI MDI X switch is located on the side of the device This switch allows the network administrator to use straight through cable in installations where crossover configuration cable is required Use a small flat blade screwdriver or a similar device to set the recessed switch Straight Through Cable Crossover Cable P i RTIP TTIP i RTIP TTIP Twisted Pair 1 RRING TRING Twisted Pair 1 RRING X TRING i i TTIP RTIP i TTIP RTIP Twisted Pair 2 TNG BRING Twisted Pair 2 FRING RRING TN Device Z TN Device a Connector for unlike devices Set the switch to MDI if using straight through copper cable to connect two unlike devices Connector for unlike devices Set the switch to MDI X if using cro
11. cordia TR NWT 001089 designed to meet NOT tested FCC Part 68 T1 E1 Physical layer ITU T ANSI AT amp T and ETSI European Technical Standard TBR 12 British Technical Publication PD 7024 1994 NTR 4 3 25 x 4 7 x 1 83 mm x 119 mm x 25 mm 10 oz 283 g approximately 3 7 Watts Power supply 12VDC 0 8A North America Europe UK 12VDC 1 25A NZ Australia S Africa JP Latin Am The external power supply provided with this product is UL listed by the power supply s manufacturer MTBF 47 000 hours MIL217F 2 V5 0 MIL HDBK 217F 116 000 hours Bellcore7 V5 0 Environment 0 C to 50 C 32 F to 122 F Storage Temp 15 C to 65 C 5 F to 149 F Humidity 10 to 90 non condensing Altitude 0 to 10 000 feet Warranty Lifetime The information in this user s guide is subject to change For the most up to date information on the SSDTF10xx 10x Device view the user s guide on line at www transition com Product is certified by the manufacturer to comply with DHHS Rule 21 CFR Subchapter J applicable at the date of manufacture CAUTION Visible and invisible laser radiation when open Do not stare into the beam or view directly with optical instruments CAUTION Use of controls adjustments or the performance of procedures other than those specified herein may result in hazardous radiation exposure Troubleshooting If the device fails isolate and correct the failure by determining the answ
12. ers to the following questions and then taking the indicated action Is the PWR Power LED illuminated NO e Is the power adapter the proper type of voltage and cycle frequency for the AC outlet See Technical Specifications on page 12 e Is the power adapter properly installed in the device and in the outlet e Does the grounded AC outlet provide power e Contact Tech Support 1 800 260 1312 Int l 00 1 952 941 7600 YES e Proceed to step 2 Is the SDC Signal Detect Copper LED illuminated NO e Check the twisted pair copper cable for the proper connection e Check the MDI MDI X switch for the correct twisted pair copper cable configuration see page 3 e Contact Tech Support 1 800 260 1312 Int l 00 1 952 941 7600 YES e Proceed to step 3 Is the SDF Signal Detect Fiber LED illuminated NO e Check the fiber cables for proper connection e Verify that the TX and RX cables on the local device are connected to the RX and TX ports respectively on the remote device e Contact Tech Support 1 800 260 1312 Int l 00 1 952 941 7600 YES e Proceed to step 4 SSDTF Oxx 10x 4 Is data transfer failing YE S Verify the local copper connection by starting a local copper loop back hardware mode set the loop back switch on the local device to CL software mode enter the local copper loop back command and then use a bit error test unit to run a bit error test
13. iques d passant les limites applicables aux appareils num riques de la Class A prescrites dans le R glement sur le brouillage radio lectrique dict par le minist re des Communications du Canada European regulations 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 Achtung Dieses ist ein Ger t der Funkst rgrenzwertklasse A In Wohnbereichen k nnen bei Betrieb dieses Ger tes Rundfunkst rungen auftreten In diesem Fall ist der Benutzer fiir Gegenma nahmen verantwortlich Attention Ceci est un produit de Classe A Dans un environment domestique ce produit risque de cr er des interf rences radio lectriques il appartiendra alors l utilsateur de prende les measures sp cifiques appropri es In accordance with European Union Directive 2002 96 EC of the European Parliament and of the Council of 27 January 2003 Transition Networks will accept post usage returns of this product for proper disposal The contact information for this activity can be found in the Contact Us portion of this document aa CAUTION RJ connectors are NOT INTENDED FOR CONNECTION TO THE PUBLIC TELEPHONE NETWORK Failure to observe this caution could result in damage to the public telephone network Der Anschluss dieses Ger tes an ein 6ffentlickes Telekommunikationsnetz in den EG Mitgliedstaaten verst sst gegen die jewelige
14. ity with the following standards CISPR 22 1993 EN 55022 1994 A1 1995 A2 1997 Class A EN 55024 1998 FCC Part 15 Subpart B EN 61000 3 2 1995 A 14 2000 61000 3 3 1995 CFR 21 subpart J l the undersigned hereby declare that the equipment specified above conforms to the above Directive s and Standard s Regulation Laph ee September 2008 Stephen Anderson Vice President of Engineering Date SSDTF Oxx 10x Compliance Information CISPR22 EN55022 Class A EN55024 CE Mark FCC regulations This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at the user s own expense Canadian regulations This digital apparatus does not exceed the Class A limits for radio noise for digital apparatus set out on the radio interference regulations of the Canadian Department of Communications Le pr sent appareil num rique n met pas de bruits radio lectr
15. ltimode min 19 0 dBm max 10 0 dBm min 32 5 dBm max 14 0 dBm 13 5 dB 1310 nm TX 1550 nm RX simplex min 13 0 dBm max 6 0 dBm min 32 0 dBm max 3 0 dBm 19 0 dB 1550 nm TX 1310 nm RX simplex min 13 0 dBm max 6 0 dBm min 32 0 dBm max 3 0 dBm 19 0 dB 1310 nm TX 1550 nm RX simplex 1550 nm TX 1310 nm RX simplex min 8 0 dBm max 3 0 dBm min 33 0 dBm max 3 0 dBm 25 0 dB The fiber optic transmitters on this device meet Class I Laser safety requirements per IEC 825 CDRH standards and comply with 21 CFR1040 10 and 21CFR1040 11 Copper cable Connector Elec network connection Mechanical arrangement Usage Interface codes Cable type Long Haul T1 E1 120 ohm J1 110 ohm DSX 1 100 ohm RJ 45 RJ 48C Single 4 wire Tip Ring Tip1 Ring1 8 position miniature modular jack 1 544 Mb s or 2 0478 Mb s access lines 04DU9 any applicable Odb 7 5dp 15db 22db E1 3 0V 120 0 655 110 0 133 133 266 266 399 399 533 533 655 i ring R l l Transmit tip T 2 gt 2 T a e 3 Dry Contact A ing RI lt 4 RI ring a 4 Receive tip TI 5 5 TI 6 6 Dry Contact B 7 not used SSDTF Oxx 10x Technical Specifications For use with Transition Networks Model SSDTF10xx 10x or equivalent Standards Dimensions Weight Power consumption Emissions CISPR A Tele
16. n einzelstaatlichen Gesetze zur Anwendung der Richtlinie 91 263 EWG zur Angleichung der Rechtsvorschriften der Mitgliedstaaten ber Telekommunikationsendeinrichtungen einschliesslich der gegenseitigen Anerkennung ihrer Konformitat Trademark notice All trademarks and registered trademarks are the property of their respective owners Copyright restrictions 2002 2005 Transition Networks All rights reserved No part of this work may be reproduced or used in any form or by any means graphic electronic or mechanical without written permission from Transition Networks l6 Printed in the U S A 33246 H
17. or E1 configuration Switch 4 T1 E1 DOWN E1 configuration The default network cable setting is 3 0 V 120 ohm Switch 3 on the left set and switches 1 2 3 and 4 on the right set are disabled El 3 0V 120 ohm cable SSDTF Oxx 10x Installation Continued TI short haul signal Installation Continued Settings for TI configuration right switch set SW 1 TI ong haul signal Use switches 3 and 4 on the left switch set to select T1 long haul signal see the drawing below Use switches 1 and 2 on the right switch set to select the proper network cable settings The drawing below lists the four options 4 3 T1 Long Haul 22 5 db 100 ohm cable 7 i 7 5 db 100 ohm cable Switches 3 and 4 on the right switch set are not used for configuring J A g A A TI long haul signals 0 0 db 100 ohm cable Use switches 3 and 4 on the left switch set to select T1 short haul signal see the drawing below Use switches 1 2 and 3 on the right switch set to select the proper network cable settings The drawing below lists the seven options L234 3 4 T1 Short Haul DSX 1 162 5 200m 533 655 100 ohm cable DSX 1 121 6 162 5 m 399 533 100 ohm cable DSX 1 381 121 6 m 266 399 100 ohm cable DSX 1 40 5 81m 133 266 100 ohm cable DSX 1 O 40 5 m 0
18. rror test unit to run a bit error test 5 gt gt gt gt X gt i E gt Local Remote 13 la a F Copper Device Fiber Device Copper 83 m e Uas lt 4 lt 4 lt 4 4 lt 4 1 e Verify the remote fiber connection by starting a local copper loop back hardware mode set the loop back switch on the local device to FL software mode enter the local fiber loop back command and then use a bit error test unit to run a bit error test 2 gt X gt gt gt j oS Oo i Copper Focal Fiber Remol Copper 8 y PP Device Device PP roD opr A lt lt 4 4 lt 4 e Contact Tech Support 1 800 260 1312 Int l 00 1 952 941 7600 NO e Contact Tech Support 1 800 260 1312 Int l 00 1 952 941 7600 Address Transition Networks 10900 Red Circle Drive Minnetonka MN 55343 U S A Telephone 952 941 7600 Toll free 800 526 9267 Fax 952 941 2322 TRANSITION Declaration of Conformity Nee NETWORKS Name of Mfg Transition Networks 10900 Red Circle Drive Minnetonka MN 55343 U S A Model SSDTF 1 0Oxx 10x SeriesDevice Part Number SSDTFI01 1 105 SSDTF1012 105 SSDTFI013 105 SSDTF1014 105 SSDTF1I015 105 SSDTFI016 105 SSDTF1017 105 SSDTF1018 105 SSDTF1022 105 SSDTF1025 105 SSDTF1027 105 SSDTF1029 105 SSDTF1029 106 SSDTF1029 107 SSDTF1029 108 EMC Directive 89 336 EEC Purpose To declare that the SSDTFIOxx 10x to which this declaration refers is in conform
19. ssover copper cable to connect two like devices SSDTF Oxx 10x Installation Continued Switch 1 Copper transmit all ones Installation Continued Set the loop back switch Hardware mode The loop back switch is located on the front panel of the device and is used for installation and network debugging procedures To set the switch use a small flat blade screwdriver or a similar device see the drawing to the right CL E FL CL Copper loop back Enable loop back on the local copper interface Center Position Normal operation FL Fiber loop back Enable loop back on the local fiber interface Software mode If both Devices are under software control the network administrator can initiate the loop back test function on the copper interface local or remote or on the fiber interface local or remote These four loop back test scenarios are described in detail on page 14 Set the configuration switches The configuration switches are located on the side of the device and are used to configure the device for various network conditions The switches are labeled 1 through 8 on the device housing top There are two sets a left SW 2 and a right SW 1 each with four switches labeled 1 through 4 see the drawing below Config Switches 1 2 34 5 6 7 8 lt Cover Top UP reer By cema xv H A N neos 1 2 34 1 2 3 4 lt Switch Numbers DOWN SW 2 SW 1
Download Pdf Manuals
Related Search