Scorpio 1400 (LCD) User Manual
Contents
1. DS1 G SHDSL DS1 STU C STU R E1 STU C G SHDSL STU R E1 DS1 G SHDSL V 35 STU C STU R E1 G SHDSL V 35 STU C STU R V 35 G SHDSL V 35 STU C STU R Ethernet STU C G SHDSL STU R Ethernet Figure 1 3 Possible Interface Configuration of S1000 S1400 System 12 Chapter 1 Overview Note that Scorpio 1400 81400 can be configured as a desktop standalone STU C or STU R via craft port whereas 51400 should be an STU R when connected with 51000 When 51400 equipped with Ethernet port it could not carry any other DTE interface T1 E1 or DATA interface The System will fill the unused timeslot with a fixed eight bit byte 11111111 DS1 E1 signal Chapter 2 Specification Chapter 2 Specification To let the user understand the TAINET Scorpio 1400 this chapter begins with its main features Then the chapter continues to present the SHDSL interface the network side interface timing and synchronization OAM Operation Administration and Maintenance and technical specifications The last part of this chapter is devoted to the applications of TAINET Scorpio 1400 family in different networks which include cellular network campus network and E1 network 2 1 Main Features Listed below are the main features of the Scorpio 1400 Support loop interface G SHDSL and fiber fiber version S1400DL su2. 24 Table 3 1 Indicators on Front E be P tr ER ba Rt d FER EY D ERR 30 Table 3 2 Indication of front panel on 51400 7 33 Table 5 1 SHDSL Alarms 52 Table 5 2T1 E1 Alarms Description au anne 53 Table 1 Order Information 67 Table B 1 LED Menu Tr 71 Table B 2 Scorpio 1400 VT 100 Menu Tree 000 75 Table 1 V 35 Cable Ile Te EE 88 Table C 2 RS 530 Connector Pin 89 Table C 3 V 36 RS 449 Cable Pin Definition nenn ennenen 91 Table C 4 X 21 Cable Pin 92 Table C 5 DB 9 Connector Pin nennen 93 Table 6 DSL RJ 45 Connector Pin 94 Table C 7 LAN RJ 45 Connector Pin 94 Table 8 G703 Balance port RJ 45 48C Connector Pin definition 94 Viii Chapter 1 Overview Chapter 1 Overview This chapter begins with a general description of Scorpio 1000 81000 and Scorpio 1400 81400 81000 is a high density universal rack mounted system S1400 has two different models S1400DL and S1400RL equipped with Ethernet port Both of them have the same specifications but only different in
3. UAS PM Clear Near End Current Quarter Clear No Current Day Clear No History Quarter Clear No 82 Tier 1 Tier 2 Tier 3 Tier 4 Tier 5 Tier 6 Appendix B Menu Tree Tier 7 History Day Default Value Clear No Far End Current Quarter Clear No Current Day Clear No History Quarter Clear No History Day Clear No E1 Performance Current 15 Min Near End TimeElapsed ES SES UAS Far End ES SES TimeElapsed UAS Current Day Near End Time Elapsed ES SES UAS Far End Time Elapsed Last 96 Quarters Near End Far End Last 7 Day Near End Far End PM Clear Near End Current Quarter Clear No Current Day Clear No History Quarter Clear No History Day Clear No Far End Current Quarter Clear No Current Day Clear No History Quarter Clear No 83 Appendix B Menu Tree Tier 1 Default Tier 3 Tier 4 Tier 5 Tier 6 Tier 7 Tier 2 Value History Day Clear No Maintenance Version Info Sw Version 3 13 ISHDSL fpga Version modem Actual Near Status End modem Type Actual Far En
4. Jitter performance Meet ITU T G 823 requirements m Normal Peak Voltage of a Mark pulse 3 V for 120 ohms Peak Voltage of a Space no pulse 0 0 3 V for 120 ohms Normal Pulse Width 244 ns B Ratio of the Amplitudes of Positive and Negative Pulse at the Center of Pulse Interval 0 95 to 1 05 W Ratio of the Widths of Positive and Negative Pulse at the Normal Half Amplitude 0 95 to 1 05 W Line Interface 120 ohm RJ 45 RJ48C balanced 75 ohm BNC W Physical Connection Type Standard RJ 48C RJ 45 jack Balance or BNC Unbalance W Signal of input port was defined as above and can be modified by the characteristics of the interconnecting pair The insertion loss of this pair at a frequency of 1024 kHz is in the range of 0 to 6 dB B Minimum Return Loss at the Input Port 12 dB for 51 to 102 kHz 18 dB for 102 to 2 048 kHz 14 dB for 2 048 to 3 072 kHz 2 2 3 2 2 4 Chapter 2 Specification V 35 Interface Electrical Characteristics Comply with ITU T V 35 interface W Software configurable for V 35 X 21 RS530 V 36 RS 449 Data Rate 64 Kbit s where n 1 36 2 wires or n 2 72 4 wires The data rate does not include 8 Kbit s framing overheads m Data inversion selectable W Clock inversion selectable internal DTE line DTE hybrid m Physical Connection Type pin assignment of ITU T V 35 interface comply with 34 pin ISO 2593 connector Ethernet Interface S1400RL W Provide a 10
5. 5 2 3 2 5 2 4 WB Required Modem Data Rate Configure the GSHDSL loop data rate n 64Kbps Select n 1 36 for 2 wires n 1 72 for 4 wires Configuration Shdsl Timing SCORPIO 1400 DL 4w Version 3 13 Parameters Timing Set Timing Source Timing Source of Near End internal Timing Source of Far End dte There are four timing modes that can be selected from internal line dte and dte hybrid Configuration Security Configuration TRINET SCORPIO 1400 DLl 4w Version 3 13 Interface Shdsl Security Security Configuration Console Port Password tainet Telnet Username tainet Telnet Password tainet For security users can define the password for console or telnet login 50 Chapter 5 Operation of CID 5 3 Maintenance After the pressed the Maintenance item on the top of main menu there are four items on this maintenance page Alarm Interface SHDSL and Test Maintenance Version 3 13 Interface SHDSL Test fllarm fllarm Log Clear fllarm Log 5 3 1 Maintenance Alarm Version 3 13 fllarm Log Clear fllarm Log View Real Time fllarm TYPE Class DSX1_UAS_QTR_TRHD WARNING DSX1_UAS_DAY_TRHD DSX1_LOS SHDSL 1 FE SNM TRHD SHDSL 1 SNM TRHD SHDSL 1 FE TRHD SHDSL 1 URS DRV TRHD SHDSL 1 URS QTR TRHD SHDSL 1 105945 DRV TRHD SHDSL 1 10595 QTR TRHD SHDSL 1 _LOSW 1 3 4 9 6 7 8 9 1 1 0 1 W Alarm severity class Major
6. 2 and S1400D 100 330 100 000 DB25M DB37F EIA530 RS449 DB25 Male DB37 Female 35cm 4 26AWG 330 100 002 3 DB25M 15F 24 21 DB25 M DB15 F 20cm 26AWG amp Specify DTE1 or DTE2 interface module 000 075 008 N35 1G V 35 w FIFO w DB25 male to M34 female adaptor 9 cable for DTE2 075 001 ep Gg RS530 1F RS 530 w FIFO female for DTE2 000 075 001 1XO1 1F X 21 w FIFO w DB25 male to DB15 female adaptor 1 cable for DTE2 000 101 005 2 E1T1 E1 T1 interface card for DTE1 I Specify DTE1 interface 000 101 005 2 E1T1 E1 T1 interface card for DTE1 Specify power cord 330 010 000 e 4 IA North American power cord 3 pin 10A 125V 6 feet 330 010 000 JE European power cord 3 pin round pin 10A 250V 2 1 83M 330 010 000 3 B British power cord 3 pin 10A 250V 13A fuse 330 010 000 6 India power cord 3 pin 6A 250V 1 83M 330 010 000 7 China power cord 3 pin 10A 250V 1 83 Appendix B Menu Tree Appendix B Menu Tree The menu tree of LCD screen is shown in Table 1 The default value of each parameter is also listed for users reference Table B 1 LCD Menu Tree Tier 1 Default 4 5 Tier 2 Value Configuration Syste 192 168 1 1 m NetMask 255 255 255 0 Default 192 168 1 254 Gateway Trap IP 210 65 231 120 LCD Backlight Enable lt Disable Reboot Enable Disab
7. 77 Appendix B Menu Tree Default dos Tier 3 Tier 4 Tier 5 Tier 6 Tier 7 Tier 2 Value SES Mode 15min 60 Mode day 300 UAS Mode 15min 60 Mode day 300 Far End ES lt slot gt Mode 15min 60 Mode day 300 SES Mode 15min 60 Mode day 300 UAS Mode 15min 60 Mode day 300 DATA Parameters Near End DTE Type V35 V35 slot port V36 RS449 RS530 X21 exc pin Enable Enable detect Disable Tx data Normal Normal inversion Inverter Rx data Normal Normal inversion Inverter Rx sample Rising Falling Rising edge CTS Always ON ON Follow RTS Far End DTE Type V35 X 21 lt slot port gt V36 RS449 RS530 X21 exc pin Enable Enable detect Disable Tx data Normal Normal inversion Inverter Rx data Normal Normal inversion Inverter Rx sample Rising Falling Rising edge CTS Always On Always ON Follow RTS Appendix B Menu Tree Tier 1 Default S Tier 3 Tier 4 Tier 5 Tier 6 Tier 7 Tier 2 Value Configuration Parameter Required CO SHDSL DATA CPE SHDSL E1 Shdsl Modem Type of Near End CO SHDSL E1 CO SHDSL T1 CPE SHDSL DATA CPE SHDSL E1 CPE SHDSL T1 Required CO SHDSL DATA CPE SHDSL Data Modem Type ofFarEnd CO SHDSL E1 CO SHDSL T1 CO SHDSL LAN CO MERCURY CPE MERCURY CPE SHDSL LAN CPE SHDSL DATA CPE SHDSL E1 CPE SHDSL T1 Required 31 Modem Data Rate Input
8. W Cable Length Possible values are Short Haul and Long Haul The T1 circuit provides the function of cable length from 0 to 200 meters compensation TRINET SCORPIO 1400 DL 4w Version 3 13 Near End Far End Near End of T1 15 minutes mode ES ne day mode ES SES URS The PM count of T1 can be cleared whenever desired Please refer to section 5 3 for more detail operation 46 Chapter 5 Operation of CID 5 2 2 9 Configuration Interface E 1 SCORPIO 1400 DL 4w Version 3 13 Version 3 13 Near End Far End Near End of Configure E1 Parameters LineType Eramed CRC Impedance Balance Idle Pattern Oxf Ff Possible values are Framed_CRC Framed no CRC and Unframed Impedance Normal 120 ohms resistive symmetrical Balance pair Pattern Bit sending pattern in the unused time slots The possible values are 0x7f and Oxff TRINET SCORPIO 1400 DL amp w Parameters hreshold l Near End Far End hreshold Near End Near End of 15 minutes mode ES UAS One day mode ES SES UAS The PM count of E1 can be cleared whenever desired Please refer to section 5 3 for more detail operation 47 Chapter 5 Operation of CID 5 2 2 4 Configuration Interface DATA SCORPIO 1400 DL 4w Version 3 13 Parameters Near End Far End Far End Near End of DATA Configure DATA Parameters DTEType
9. Address 0x03 FAIL Test Equipment address 3 address 5 address 7 address 9 or S1400A 35 1 1 140 RL 141 LL 103 Rx 104 Tx V 35 T1 E1 gt S1400A S1400A unge Test Method A V 54 PN127 control pattern 2 2 V 54 PN127 control pattern Test Method B Configure V 54 Parameters Enable address mode Near End fiddress Far End fiddress TRINET SCORPIO 1400 DL 4w V 54 Parameters V 54 Generator V 54 Start Stop Test V 54 Mode 94 Direction V 54 Address 62 y54 PATTERN Enable 1 Disablel 0x03 0x01 Version 3 13 STOP V54 LOOPBACK 1 SHDSL 0x03 Chapter 5 Operation of CID V 54 Mode START V54 LOOPBACK or STOP V54 LOOPBACK V 54 Direction SHDSL or Interface V 54 Address Possible addresses as defined by standard 0x0 1 0x03 0x05 0x07 0x09 OxOB OxOD OxOF Ox11 Ox13 0x15 0x17 Ox 19 Ox 1B Ox 1D Ox1F 0x25 0x27 Ox2B Ox2D 0x2F 0x33 0x35 0x37 Ox3B Ox3D Ox3F 0x55 0x57 Ox5B Ox5F OxGF Ox77 Ox7F 63 Chapter 5 Operation of CID 5 4 Software Download TRINET SCORPIO 1400 DL 4w Version 3 13 Maintenance Software Download Diagnosis Download Software From TFTP Server Server IP Address 172 16 0 113 1 File Name 1400dl 1mg Start Downloading Ves TFTP software upgrade is supported Use
10. Tier 4 Tier 5 Tier 6 Appendix B Menu Tree Tier 7 Default Value Current Day Near End Far End Last 96 Quarters Port1 Near End Port2 Near End Far End Last 7 Day Port1 Near End Far End Port2 Near End Far End LOSW PM Clear Near End Current Quarter Clear Port 1 No Clear Port 2 No 81 Appendix B Menu Tree Tier 1 Tier 2 Tier 3 Tier 4 Tier 5 Tier 6 Tier 7 Current Day Default Value Clear Port 1 No Clear Port 2 No History Quarter Clear Port 1 No Clear Port 2 No History Day Clear Port 1 No Clear Port 2 No Far End Current Quarter Clear Port 1 No Clear Port 2 No Current Day Clear Port 1 No Clear Port 2 No History Quarter Clear Port 1 No Clear Port 2 No History Day Clear Port 1 No Clear Port 2 No T1 Performance Current 15Min NearEnd TimeElapsed ES SES UAS FarEnd TimeElapsed ES SES UAS Current Day Near End Time Elapsed ES SES UAS Far End Time Elapsed Last 96 Quarters Near End Far End Last 7 day Near End Far End
11. 1 32 or 36 64Kbps Timing Time source lt line internal dte Internal of Near End dte hybrid Timer source lt internal dte DTE of Far End dte hybrid Configuration Console tainet Security Password tainet tainet Telnet User Name Password Maintenance Alarm Alarm AlarmLog Clean Alarm Yes lt Log 79 Appendix B Menu Tree Tier 1 Tier 2 Tier 3 Tier 4 No Tier 5 Tier 6 Tier 7 Default Value Maintenance Interface SHDSL Common LineStatus Port1 LineStatus Port2 PowerBackoff PowerScale 4 WIRE PSD ANNEX A B Unaligned mode Far End Port1 Current Atn Port1 CurrentSnrMgn Port CurrentOutputPower Port1 ReceiverGain Port2 Current Atn Port2 CurrentSnrMgn Port2 CurrentOutputPower Port2 ReceiverGain Near End Port1 CurrentAtn Port1 CurrentSnrMgn Port CurrentOutputPower Port1 ReceiverGain Port2 CurrentAtn Port2 CurrentSnrMgn Port2 CurrentOutputPower Port2 ReceiverGain Performance Current 15Min Near End PortNo Time Elapsed ES SES UAS Far End LOSW PortNO Time Elapsed ES SES 80 Tier 1 Tier 2 ans
12. 100 Base T half full duplex auto sensing of Ethernet Interface Comply with the IEEE 802 3 IEEE 802 3u W Physical Connection Type Standard RJ 45 connector Operate as a self learning bridge specified in the IEEE 802 1d full protocol transparent bridging function Supporting up to 128 MAC learning addresses Supporting Bridge filter function based on source MAC addresses 19 Chapter 2 Specification 2 3 Timing and Synchronization Table 2 1 shows three modes to be field selectable Table 2 1 Timing and Synchronization STU C STU R Symbol Mode Symbol Mode Number Clock Application Reference Reference Local Received Classic HDSL Plesiochronous oscillator symbol clock internal timing Transmit data Received Main application is Synchronous clock symbol clock synchronous transport in both DTE timing directions Hybrid Received Synchronous Hybrid Transmit data symbol clock downstream clock Hybrid transport and downstream is DTE timing bit stuffed synchronous upstream is and possible upstream is plesiochronous Provide a 10 100 Base T half full duplex auto sensing Ethernet Interface At all rates the transmit symbol clock during data mode from any SHDSL device is accurate to within 32 ppm of the normal frequency When the STU C receiver loses Transmit data clock it will fall back and use a free running local oscillator in the STU C the STU C
13. 5 1 STU C Side Activated Loopback Chapter 5 Operation of CID STU C STU R d c b a G SHDSL gt DS4 or E1 IT DS1 or E1 gt gt STU C STU R d c b a G SHDSL DS1 or E1 V 35 4 STU C STU R d c b a G SHDSL V 35 V 35 6 2 5 8 amp STU C STU R j d c b G SHDSL Ethernet HERES Ethernet amp 4 Figure 5 2 STU R Side Activated Loopback TRINET SCORPIO 1400 DL 4w Version 3 13 Pattern test V 54 Test Pattern test Porti Loopback Test Normal Test Pattern None 1 Test Direction SHDSL Test Period 100 Test Start STOP B Loopback Test Possible values on CO device are Possible values on CPE device are Normal Normal 1 CO Local Loopback 1 N A CO Local Loopback 2 CO Local PayLoad Loopback 2 N A CO Local PayLoad Loopback 3 N A RT Remote Loopback 3 RT Remote Loopback 4 N A RT Remote PayLoad 4 RT Remote PayLoad Loopback 60 5 3 4 2 5 3 4 3 Chapter 5 Operation of CID Loopback 5 RT Local Loopback 5 N A RT Local Loopback 6 RT Local PayLoad Loopback 6 N A RT Local PayLoad Loopback 7 N A CO Remote Loopback 7 CO Remote Loopback 8 N A CO Remote PayLoad Loopback 8 CO Remote PayLoad Loopback Where the items are not selecta
14. Caution This symbol and associated text are used when damages to the equipment or impact to the operation may result if operating instructions are not followed properly Note This symbol and associated text are used to provide the users with extra information that may be helpful when following the main instructions in this manual Scorpio 1400 LCD User s Manual Warranty and Service Contact If there are any questions contact your local sales representative service representative or distributor directly for any help needed You might use one of the following methods Via the Internet visit our World Wide Web site at http www tainet net Via the Sales Representatives HQ No 25 Alley 15 Lane 120 Sec 1 N e is H u Rd Taipei Taiwan R O C Phone 886 2 2658 3000 Fax 886 2 2658 3232 Moscow Branch Phone 7 095 518 5777 Beijing Branch 3F A Building 113 Zhi Chun Lu HaiDian District Beijing China Zip Code 100086 TEL 86 10 62522081 87 FAX 86 10 62522077 E mail sales tainet net URL http www tainet net URL http www tainet ru E mail marketing tainet com cn URL httpz www tainet com cn iv Scorpio 1400 User s Manual CONTENT CHAPTER 1 OVERVIEW E 9 1 1 OVERVIEW ihe per REN MPO 9 1 2 APPLICATIONS 1 CHAPTER 2 SPECIFICATION 2 6 onse p oec ea Ue Van aa ra eEee
15. E1 T1 Green N A Traffic OK DTE2 or Failure The Buttons The buttons of Scorpio 1400 are depicted There are six keys including HOME REM LOC A V 4 and gt By pressing these buttons users may perform configuration testing for setting up and diagnostic purpose 30 Chapter 3 Interfacing 3 2 Rear Panel Figure 3 3 illustrates the rear panel of the Scorpio 1400 Users may connect the Scorpio 1400 to other devices or equipments via these interfaces Figure 3 3 Rear Panel of the Scorpio 1400 The following connectors devices appear on the rear panel of the Scorpio 1400 m 1 Power On The Scorpio 1400 s power switch m 2 Power Receptacle Power plug for a AC power cable B 3 DC power connector Power connector for 48V DC power A Ground Terminal Ground output terminal connect to earth 5051 Jack RJ 45 jack for SHDSL link 6 Management port SNMP management LAN port m 7 Craft Interface 9 pin female serial D sub connector m 8 DTE1 Interface E1 T1 G 703 G 704 balanced interface 2 Interface Data terminal equipment port 31 Chapter 3 Interfacing Pin Description 1 2 1 8 2 3 Tip 2 4 Tip 1 5 Ring 1 6 Ring 2 T Figure 3 4 G SHDSL RJ 45 Pin Assignment 8 The pin assignment of G SHDSL line is shown in Figure 3 4 The Scorpio 1400 supports various DTE Data Terminal Equipment interfaces dependi
16. ES Mode 15min 60 Mode day 300 SES Mode 15min 60 Mode day 300 UAS Mode 15min 60 Mode day 300 Far End LOSW Mode 15min 60 Mode day 300 ES Mode 15min 60 Mode day 300 SES Mode 15min 60 Mode day 300 UAS Mode 15min 60 Mode day 300 T1 Parameter Near End Line Type Unframed Unframed Framed ESF CRC Framed noCRC Framed SF D4 Line AMI B8ZS B8ZS Coding Idle Patten Ox7f Oxff Oxff Cable Short haul Short haul Length long haul Far End Line Type Unframed Unframed Framed ESF CRC Framed noCRC Framed SF D4 Appendix B Menu Tree Tier 1 Default S Tier 3 Tier 4 Tier 5 Tier 6 Tier 7 Tier 2 Value Line AMI B8ZS B8ZS Coding Idle Patten Ox7f Oxff Oxff Cable Short haul Short haul Length long haul Threshold Near End ES Mode 15min 60 Mode day 300 SES Mode 15min 60 Mode day 300 UAS Mode 15min 60 Mode day 300 Far End ES Mode 15min 60 Mode day 300 SES Mode 15min 60 Mode day 300 UAS Mode 15min 60 Mode day 300 E1 Parameter Near End Line Type Unframed Unframed Framed_CRC Framed no CRC Impedance Unbalance Balance Balance IDLE Oxff Ox7f Oxff PATTEN Far End Line Type Unframed Unframed Framed_CRC Framed no CRC Impedance Unbalance Balance Balance IDLE Oxff Ox7f Oxff PATTEN Threshold Near End ES lt slot gt Mode 15min 60 Mode day 300
17. Figure 3 2 Ethernet RJ 45 Pin 30 Figure 3 3 Rear Panel of the Scorpio 1400 31 Figure 3 4 G SHDSL RJ 45 Pin 32 Figure 3 5 G 703 RJ 45 for Unbalanced enne 32 Figure 3 6 Balanced E1 T1 RJ 45 48C Pin Assignment 32 Figure 3 7 DB 25 for V 35 and 5 530 32 Figure 5 1 STU C Side Activated Loopback ener en errem 59 Figure 5 2 STU R Side Activated Loopback enne nennen enne ener nennen 60 Figure 5 3 Testing Methods of V 54 Loopback 62 Figure C 1 The Conversion Cable of DB 25 M to 87 Figure C 2 DB 25M Interface isa nee een an 87 Figure C 3 V 35 88 Figure C 4 RS 530 Interface anna e HERR avian 89 Figure C 5 DB 37F Interface nn 91 Figure C 6 21 Interf ace2 4 92 Figure C 7 9 Interface aus a een 93 Figure C 8 RJ 45 Interface et e a Pic irme pP ipe PAD E i AME 94 Vii Scorpio 1400 User s Manual Table 2 1 Timing and Synchronization 20 Table 2 2 Technical Specifications of the Scorpio 1400
18. Gain DSL2 Atn DSL2 Snr Marg DSL2 Power DSL2 Rec Gain Status Alarm All the alarm descriptions Please refer to Table 5 1 and 1DSX1 UAS QTW 2DSX1 UAS DTW 3 DSX1 LOS MA Table 5 2 4 DSL1 SNM FTW 5 DSL1 SNM TW 6 DSL1 ATN FTW 7 DSL1 UAS DTW 8 DSL1 UAS QTW 9 DSL1 LSW DT W 10DSL1 LOS QTW 11DSL1 LOSW MA Status DSL 15 MIN 0 ES Performance DSL 15 MIN 0 SES DSL 15 MIN 0 UAS DSL 1 Day ES 0 DSL 1 Day 0 SES DSL 1 Day 0 UAS E1 15 MIN ES 0 E1 15 MIN 0 SES E1 15 MIN 0 UAS E1 1 Day ES 0 E11 Day SES 0 E1 1 Day UAS 0 Appendix B Menu Tree Default 3 4 5 Tier 2 Value T1 15 MIN ES 0 T1 15 MIN 0 SES T1 15 MIN 0 UAS T1 1 Day ES 0 T1 1 Day SES 0 T1 1 Day UAS 0 Test Loopback Normal lt 1 COLL It will display N A If it is set as CPE 2 COLPL It will display N A If it is set as CPE 3 RT RL It will display N A If it is set as CO 4 RT RPL It will display N A If it is set as CO 5 RT LL It will display N A If it is set as CO 6 RT LPL It will display N A If it is set as CO 7T CORL It will display N A If it is set as CPE 8 CO RPL It will display N A If it is set as CPE Test None Pattern test Test Patten 2E11 1 2E15 1 QRSS 2E20 1 2E23 1 Test Direction SHDSL lt Interf
19. Go to Test Loop back menu by pressing the button on front panel Press the button on front panel to configure the loop back test if users aim to do it For running the loop back test please refer to Maintenance Test loopback in chapter 5 Fig 5 1 and Fig 5 2 Wait for several seconds the Scorpio 1400 will complete the test and the TST LED will turn on Return the setting value of loop back to normal by pressing the key button on the front panel 37 Chapter 5 Operation of CID Chapter 5 Operation of CID In this chapter you will be introduced to the CID Craft Interface Device VT 100 operation of Scorpio 1400 The chapter starts with an overview of Scorpio 1400 s CID In addition each main menu item of the Scorpio 1400 s CID such as Configuration Maintenance and Software Download will be discussed 5 1 Overview The craft port for configuration is set to Speed 115200 Data bit 8 Parity n Stop bit 1 Flow control n When startup the 51400 the following messages will appear before the screen displays the Application software code RAM test OK SelfTest1 OK SelfTest2 OK SelfTest3 OK Select a in 1 second gt into Diagnostic mode or to AP dwHeaderCheckSum 0xe9369793 11 59 31 code checksum OK 0x5766979 At startup of the AP press Enter the CID will prompt user to enter the password for access into the system The default password is tainet Earlier version before V2 77 is
20. M to V 35 F C 1 V 35 Interface Figure C 2 and Figure C 3 respectively illustrate the DB 25M and V 35 interfaces Refer to Table C 1 to see the pin definition of V 35 cable 1 13 14 25 Figure C 2 DB 25M Interface Appendix C Pins Assignment zar ZARN annA Figure C 3 V 35 Interface Table C 1 V 35 Cable Pin Definition DB 25 Male Signal V 35 Female Source 1 Frame Ground A Common 7 Signal Ground B Common 4 Request to Send C DTE 5 Clear to Send D DCE 6 Data Set Ready E DCE 8 Data Carrier Detect F DCE 20 Data Terminal H DTE Ready 2 Transmit Data A P DTE 3 Receive Data A R DCE 14 Transmit Data B S DTE 16 Receive Data B T DCE 24 Terminal Timing A U DTE 17 Receive Timing A V DCE 11 Terminal Timing B W DTE 9 Receive Timing B X DCE 15 Terminal Timing A M DCE 12 Terminal Timing B AA DCE 2 RS 530 Interface Figure C 4 illustrates the RS 530 Interface Appendix C Pins Assignment 24 22 20 18 16 14 25 23 21 19 17 15 Figure C 4 RS 530 Interface Refer to Table C 2 to see the pin definition of RS 530 Connector Table C 2 RS 530 Connector Pin Definition DB 25 Male Signal Source 1 Frame Ground Common 2 Transmit Data A DTE 3 Receive Data A DCE 4 Request to Send A DTE 5 Clear to Send A DCE 6 DCE Reagy A DCE 7 Signal Ground Common 8 Rece
21. Ready B 31 DCE 11 Terminal Timing B 35 DTE 91 Appendix C Pins Assignment C 4 X 21 Interface Figure C 6 illustrates the X 21 Interface For the DB 25 interface refer to Figure C 2 14112110 15 13 11 Figure C 6 X 21 Interface Refer to Table C 4 to see the pin definition of V 36 RS 449 cable Table C 4 X 21 Cable Pin Definition DB25 Male Signal X 21 Female 1 Shield Ground 1 2 Signal Ground 2 4 TXD a 3 3 CTRL a 4 8 RXD a 5 17 Indication 6 24 RXC a 7 7 Signal Ground 8 14 TXD b 9 19 CTRL b 10 16 RXD b 11 10 Indication 12 9 RXC b 13 11 EXC b 14 G G 92 Appendix C Pins Assignment C 5 DB 9 Interface The DB 9 connector interface is shown as Figure C 7 Figure C 7 DB 9 Interface For the pin definition of DB 9 interface see Table C 5 Table C 5 DB 9 Connector Pin Definition DB9 Female Signal Source 2 TXD DCE 3 RXD DTE 5 Signal Ground 7 CTS DTE 8 RTS DCE Appendix C Pins Assignment C 6 RJ 45 Interface Figure C 8 illustrates the RJ 45 interface Figure C 8 RJ 45 Interface Refer to Table C 6 Table C 7 and Table C 8 to see the pin definition of DSL RJ 45 connector LAN RJ 45 connector and E1 T1 port RJ 45 connector respectively Table C 6 DSL RJ 45 Connector Pin Definition RJ 45 Signal 3 Tip 2 4 Tip 1 5 Ring 1 6 Ring 2 Table C 7 LAN RJ 45 Connector Pin Definition RJ 45 10 100 Base T Sig
22. admin ttt Welcome to Access TAINET SCORPIO 1466 Please Enter Password xxx The CID offers user friendly menu driven user interface The following figure 39 Chapter 5 Operation of CID depicts the structure of the interface The top tier command options include Configuration Maintenance Software Download and Diagnosis SCORPIO 1400 DL 4w Version 3 13 Configuration Maintenance Software Download Diagnosis System Interface Shdsl Security Note There are some differences between LCD and CID menu tree ex the Software Download item but most of them are almost the same TAINET SCORPIO 1400 DL 4w Product Version 3 13 DateTime Default Reboot Software P Contiguration Version IP Configuration IP fiddress 192 168 1 NetMask Eech 255 255 0 Default Gateway 192 168 1 Tier 4 Operation Hint Press 70 9 SPRCE BS DEL TAB ENTER field lt gt right ESC abort B Product Name TAINET Scorpio 1400 Series W Software Version the software version number Tier 2 The second tier of the current screen W Tier 3 The next tier of the current screen Tier4 or description The fourth tier of the current screen and or its description W Input the values to be set by the user Operational hint a hint for the user during operation 40 5 2 5 2 1 Chapter 5 Operation of CID Configuration After the pressed the con
23. local oscillator will have the accuracy of 32 ppm The SHDSL transceivers will operate in a master slave mode with STU R Slave synchronized to the received signal from the STU C Master i e Received symbol clock Chapter 2 Specification If the STU R receiver loses timing it will fall back and use a free running local oscillator in the STU R gt the STU R local oscillator will have the accuracy of 32 ppm The SHDSL system is an equipment of frequency transparency The average traced frequency deviation at the DS1 E1 output port is less than 1 x 10 11 to the frequency at the DS1 E1 input port under Mode 2 clocking architecture 21 Chapter 2 Specification 2 4 OAM The 1400 maintain a management information database The database is accessible separately from craft interface of standalone type STU C and STU R The database includes provisioning parameters alarm status and Performance information OAM Operation Administration and Maintenance of the Scorpio 1400 is listed below UNMS manages 51400 system via SNMP agent interface and provides user friendly GUI based operational interface under PC Windows or HP Open View systems Support standard MIB RFC 2495 for DS1 E1 and RFC3276 for SHDSL interface MIB follow the standard RFC1157 RFC1212 CID Console The 51400 has an EIA 232 connector for user friendly menu driven CLI operation SNMP management message interface V1 0 The provisioning paramet
24. network systems which include cellular network campus network and E1 network Cellular network The cellular network user will need to lease larger numbers of E1 circuits in order to connect remote cell sites to mobile telephone switching offices MTSOs TAINET Scorpio 1400 provides an alternative to standard repeater E1 service Figure 2 1 shows a cellular network application Figure 2 1 Point to point Interconnection is instead of E1 Campus network The SCORPIO 1400 is well suited to the campus applications Figure 2 2 and Figure 2 3 show two general campus applications where remote PBX or routers are interconnected across a campus using two SCORPIO 1400 One unit is configured as a central office site CO unit and the other is the customer premise equipment CPE unit 2 6 3 Chapter 2 Specification Figure 2 2 Network Application of the Scorpio 1400 with G 703 I F Figure 2 3 Network Application of the Scorpio 1400RL Each Scorpio 1400 is configured at the factory to operate on the CO side of an E1 connection However you can easily modify settings intended for the CO into settings for CPE E1 Network The Scorpio 1400 can be deployed to replace traditional E1 network without the repeater in the E1 network and effectively the utilization of the existing twisted copper pair 27 Chapter 3 Interfacing Chapter 3 Interfacing In this chapter we will focus our attention on the interfaces of the Scorpio 1
25. signal and the procedure and codewords will comply with ITU T V 54 For V 35 interface STU R the ITU T V 54 in band activated and deactivated loopback codewords provided by 51400 for end to end loopback function For each STU C and STU R the built in PRBS 11 stage or higher generation and detection will be provided for loopback performance test on a per channel basis Test results will be displayed The S1400 has push buttons that provide interface for control loopback defined as above and display the historical log of alarm performance information provisioning parameters and loopback test status on front panel LCD Chapter 5 Operation of CID Note Since S1400can be set as CO or CPE in different type playing there are different loopback type could be configured When it is set as CO all remote loopback types will display the N A It means the item can t be applied vice versa When it is set as CPE all CO loopback types will display the N A It means the item can t be applied RT is represented as remote STU C STU R a b c G SHDSL DS1 or E1 DS1 or E1 5 amp STU C STU R a b c d G SHDSL DS1 or E1 V 35 5 STU C STU R a b G SHDSL V 35 35 STU C STU R a b c d G SHDSL Ethernet Ethernet Figure
26. use the manual effectively The manual contains information needed to install configure and operate TAINET s Scorpio 1400 termination units The summary of this manual is as follows Chapter 1 Overview Describes Scorpio 1000 and how to use Scorpio 1400 in several applications Chapter 2 Specifications Describes the features specifications and applications of Scorpio 1400 Chapter 3 Interfacing Introduces all the interfaces including front panel and rear panel Chapter 4 Installation Step by step guides users to install and verify the Scorpio 1400 Chapter 5 Operation Of Cid Gives a description of the CID Craft Interface Device Appendix A Order Information Describes all the Scorpio 1400series products Appendix B Menu Tree Describes the LCD and VT 100 menu tree Appendix C Pin Assignment Describes all cables and connectors with pin definition Appendix D Trouble Shooting Provides brief trouble shooting list Appendix E Trouble Report Trouble Report Form Scorpio 1400 LCD User s Manual Symbols Used in This Manual 3 types of symbols are used throughout this manual These symbols are used to advise the users when a special condition arises such as a safety or operational hazard or to present extra information to the users These symbols are explained below Warning This symbol and associated text are used when death or injury to the user may result if operating instructions are not followed properly
27. 0 101 005 Scorpio 1400 4W operation panel with built in DC power module support 4 DC amp various DTE interface module DTE1 or DTE2 to be specified separately 4 wire SHDSL standalone unit with LCD and keypad 000 101 005 Scorpio 1400 4W operation panel with built in AC and DC power module 5 AC DC amp support various DTE interface module DTE1 or DTE2 to be specified separately 2 wire SHDSL standalone unit with LCD and keypad 000 101 005 Scorpio 1400 operation panel with built in AC and DC power module 6 AC DC amp support various DTE interface module DTE1 or DTE2 to be specified separately 000 101 005 Scorpio 1400 2 wire SHDSL standalone unit with LCD and keypad 67 Appendix A Ordering Information 7 AC amp operation panel with built in AC power module support various DTE interface module DTE1 or DTE2 to be specified separately 2 wire SHDSL standalone unit with LCD and keypad 000 101 005 Scorpio 1400 operation panel with built in DC power module support 8 DC amp various DTE interface module DTE1 or DTE2 to be specified separately 000 101 005 Scorpio 4 wire SHDSL standalone unit with LCD and keypad 9 1400RL AW operation panel with Ethernet interface with built in AC IAC power module 000 101 006 Scorpio 4 wire SHDSL standalone unit with LCD and keypad 0 1400RL 4W operation panel with Ethernet interface with built in DC DC power module 000 101 006 S
28. 000000000000000000000000 0000 67 APPENDIX MENU TREE u 71 APPENDIX C PINS 85 1 87 C 1 INTERFACE ve cases EE 87 C 2 RS S30 OR e 89 V 36 RS 449 INTERFACE 91 CA X21 INTEREAGE 92 5 DB 9 INTERFACE 93 C 6 Id SAINT Nec 94 APPENDIX D TROUBLESHOOTING e eese eee eene oet teens stets eee 97 APPENDIX E TROUBLE REPORT 1 99 vi Scorpio 1400 User s Manual FIGURE Figure 1 1 Application of Back to bhack 11 Figure 1 2 Application of S1000 S1400 5 12 Figure 1 3 Possible Interface Configuration of S1000 S1400 12 Figure 2 1 Point to point Interconnection is instead eene 26 Figure 2 2 Network Application of the Scorpio 1400 with G 703 27 Figure 2 3 Network Application of the Scorpio 1400RL nn 27 Figure 3 1 Front Panel of the Scorpio 1400 29
29. 1 and Figure 1 2 show two typical applications Figure 1 3 depicts the possible interface configurations The S1400 automatically activate start up when the power of the STU C and STU R are enabled or after temporarily disconnecting the STU C or STU R CID Telnet E1 T1 V35 Ethernet E1 T1 V35 Ethernet Scorpio 1400 Scorpio 1400 STU C STU R Figure 1 1 Application of Back to back 11 Chapter 1 Overview Telco Central Office Remote Customer Premises Scorpio 1000 Scorpio 1400 1 1 35 St P G SHDSL D Ethernet 1 O e OO E1 T1 V35 Fiber 1 Ethernet eee 4 1 4 1 Fiber E3 T3 HSSI Fiber 3 V 2 CID 2 is future release fil Router le s s 0000000 CID UNMS DataBase Telnet TFTP server server Figure 1 2 Application of S1000 S1400 System
30. 400 First the front panel of the Scorpio 1400 will be discussed After that we will examine in more detail the rear panel of the Scorpio 1400 3 1 Front Panel The front panel of Scorpio 1400 as illustrated in Figure 3 1 contains three main sections i e the LCD display status indicators and buttons Via the front panel of Scorpio 1400 users can perform the functions as listed below W Configuring system W Displaying system status Setting loopback test From the status indicators of front panel users can obtain useful information to monitor the status of the Scorpio 1400 In addition users can set some loopback tests by pressing the buttons on front panel Figure 3 1 Front Panel of the Scorpio 1400 Chapter 3 Interfacing 3 1 1 3 1 2 Status Indicators The status indicators of the Scorpio 1400 are depicted in Figure 3 2 There are seven LEDs which are DSL DTE1 DTE2 and TST These seven LEDs display the system status The default unlocking password for the front panel is 14001400 if it was locking Pin Description TX TX RX NC NC RX NC NC gt Figure 3 2 Ethernet RJ 45 Pin Assignment Table 3 1 Indicators on Front Panel LED Irene Color Hashing ssee AbaysOn Connecting DSL Loop Green Failure Handshaking Training Idle DTE1 Unequipped Data
31. Connection ccccccccccccccsscccscsccstccscsscesecstcutecscavecsescccusccseaccssencsssvsesoascsietecusecdescdecsibeseddscesesese 36 4 2 2 Local Loop back Test en tti elep i ein di 37 CHAPTER 5 OPERATION OF 39 5 1 OVERVIEW 39 5 2 CONFIGURATION in UNI UNI UNI NIE I EE 41 5 2 1 Contiguration System netter ela 41 5 2 2 Comfipuration Intertace et ates reete ER FI EU ERA Erbe raa 42 3 2 3 9 aa ua eu 49 Scorpio 1400 User s Manual 5 2 4 Contiguration Security i Le era Lebe e Dae e Ede dea e 50 5 3 REET m 51 5 3 1 Maintenance Alarm 5 5 3 22 Maintenance Interface ccccccccccssssesescccccccccsssesesccccecccccsescaccceesecssesesceccscecscesescsceccsccssscvsses 54 5 3 3 57 5 3 4 Ma intenance test u2 e 2 ehren 58 5 4 SOFTWARE DOWNLOAD 64 5 5 DIAGNOSIS eere Rete EAMUS 65 APPENDIX A ORDERING INFORMATION 0000000000000000
32. Headquarters No 25 Alley 15 Lane 120 Sec 1 Nei Hu Rd Taipei 114 Taiwan TEL 886 2 26583000 FAX 886 2 26583232 Beijing Branch 3F A Building 113 Zhi Chun Lu HaiDian District Beijing China Zip Code 100086 TEL 86 10 62522081 87 FAX 86 10 62522077 USER S MANUAL G SHDSL Termination Unit Scorpio 1400 LCD Version 1 3 Date 2006 6 19 P N 07008 00082 Scorpio 1400 LCD User s Manual Copyright 2006 TAINET COMMUNICATION SYSTEM CORP All right reserved Notice This document is protected by the international copyright law No part of this publication may be reproduced by any means without the permission of Tainet Communication System Corporation TAINET is a registered trademark and Scorpio 1400 is a trademark of Tainet Communication System Corporation Other product names mentioned in this manual are used for identification purposes only and may be trademarks or trademarks of their respective companies The information provided from Tainet Communication System Corporation is believed to be accurate Any changes and enhancements to the product and to the information thereof will be documented and issued as a new release to this manual Trademark All products and services mentioned herein are the trademarks service marks registered trademarks or registered service marks of their respective owners Scorpio 1400 LCD User s Manual About This Manual This section guides you on how to
33. L Interface TAINET SCORPIO 1400 DL 4w Version 3 13 SHDSL T1 E1 Common Far End Near End Performance SHDSL TAINET SCORPIO 1400 DL 4w Version 3 13 Common Far End Near End Performance View Commom Status Line Status Port 1 Handshaking Line Status Port 2 Disconnect Doer Scale RUTO Power Backoff ON ym 4 Wire Off ANNEX A Unaligned mode Enable The Common item of SHDSL in maintenance menu shows the current line status and configuration of SHDSL interface includes Please refer to previous Section Configuration Interface SHDSL for the other parameters Line Status The possible SHDSL operational states are Idle State Handshaking Training Sync Hunting Connected Disconnect Analog _Loopback Remote Digital Loopback Digital Loopback Analog_ Loopback fail Remote Digital Loopback fail Digital Loopback fail Port disable Port Has Been Reset Unknown State 54 Chapter 5 Operation of CID Version 3 13 Common Far End Near End Performance View Near End Line Status DSL1 Current Atn Current Snr Margin Current Output Power Receiver Gain DSL2 Current Atn Current Snr Margin Current Output Power Receiver Gain OOOO 539 SCORPIO 1400 DL 4w Version 3 13 Current 15Min Current Day Last 96 Quarters Last Days PM Clear Near End Far End Last 96 Quarters TRINET SCORPIO 1400 DL Aw Far End View History of 15min Records Users can view any hi
34. Minor Warning or Clear All TCA Threshold Crossing Alert are classified as WARNING Table 5 1 and Table 5 2 show all SHDSL alarms and T1 E1 alarms respectively The Ds1 E1 alarm surveillance When Loss of Signal Failure is detected by either the STU C or the STU R a loss of signal alarm will be generated immediately and the DS1 E1 signal will be replaced by the AIS signal towards the downstream locations and the RAI signal towards the upstream locations When the loss of signal of DS1 E1 status is occurred an alarm will be generated When Loss of Sync Defect LOSW Defect or Loss of Sync Word Failure LOSW failure which defined in ITU T G 991 2 section 9 2 is detected by either the STU C or the STU R LOSW alarm will be generated immediately 51 Chapter 5 Operation of CID When LOSW alarm occurs at the STU C STU R locations the STU C STU R will replace the outgoing DS1 E1 signal towards the network the customer by the AIS signal respectively An SHDSL Loop Attenuation Defect or SNR Margin Defect alarm will be generated when the observed SHDSL Loop Attenuation Defect SNR Margin Defect is a level worse than the configured threshold Table 5 1 SHDSL Alarms Description Alarm Type Severity Class Description SHDSL LOSW MAJOR Failure of LOSW SHDSL LOSWS QTR TRHD WARNING 15 minute LOSW TCA SHDSL LOSWS DAY TRHD WARNING 1 day LO
35. SW TCA SHDSL ES QTR TRHD WARNING 15 minute ES TCA SHDSL ES DAY TRHD WARNING 1 day ES TCA SHDSL SES QTR TRHD WARNING 15 minute SES TCA SHDSL SES DAY TRHD WARNING 1 day SES TCA SHDSL UAS QTR TRHD WARNING 15 minute UAS TCA SHDSL UAS DAY TRHD WARNING 1 day UAS TCA SHDSL LOSWS FE QTR TRHD WARNING 15 minute FE LOSW TCA SHDSL LOSWS FE DAY TRHD WARNING 1 day FE LOSW TCA SHDSL ES FE QTR TRHD WARNING 15 minute FE ES TCA SHDSL ES FE DAY TRHD WARNING 1 day FE ES TCA SHDSL SES FE QTR TRHD WARNING 15 minute FE SES TCA SHDSL SES FE DAY TRHD WARNING 1 day FE SES TCA SHDSL UAS FE QTR TRHD WARNING 15 minute FE UAS TCA SHDSL UAS FE DAY TRHD WARNING 1 day FE UAS TCA SHDSL ATN TRHD WARNING Attenuation TCA SHDSL FE ATN TRHD WARNING FE Attenuation TCA SHDSL SNM TRHD WARNING SNR Margin TCA SHDSL FE SNM TRHD WARNING FE SNR Margin TCA 52 Chapter 5 Operation of CID Table 5 2 T1 E1 Alarms Description Severity Class Alarm Type Description DSX1 LOS MAJOR Failure of LOS DSX1 LOF MAJOR Failure of LOF DSX1 AIS MAJOR Failure of AIS DSX1 RAI MINOR Failure of RAI DSX1 LOS FE MAJOR Failure of FE LOS DSX1 LOF FE MAJOR Failure of FE LOF DSX1 AIS FE MAJOR Failure of FE AIS DSX1 RAI FE MINOR Failure of FE RAI DSX1 ES QTR TRHD WARNING 15 minute ES TCA DSX1 ES DAY TRHD WARNING 1 day ES TCA DSX1 SES QTR TRHD WARNING 15 minute SES TCA DSX1 SES DAY TRHD WARNING 1 day SES TCA DSX1 UAS QTR TRHD WARNING 15 minut
36. Set Power Parameter Port 1 Foner Scale gUTO Power Backoff ON 1 4 Mire ANNEX_A_B A Unaligned mode Enable m Power Back off When enabled the transmit power from the other end of STU will be reduced in 1 dB step from 0 to 6dBs according to the received power The configurable values are Enable or Disable Power Scale The value of this argument adjusts power in small increments fractions of a dB to compensate for minor differences in power between testing units m PSD Possible values Sym and Asym Used to let SHDSL transceiver to use a symmetrical or asymmetrical power spectral density mask as specified in G 991 2 standard m 4 Wire Used to enable or disable 4 wire framing Used to select the local STU supporting G 991 2 Annex A or B W Unaligned Mode Disable or Enable the Unaligned mode special version to compatible with Alcatel Mainstream 3600 this mode should be turned to disable Chapter 5 Operation of CID Version 3 13 Far End Near End Threshold Configure Near End Thresholds SnrMgn Threshold 3 Atn Threshold 38 A TCA Threshold Crossing Alert will be reported if the SNR margin is lower or if the Attenuation is higher than the set value The TCA will be time stamped and logged into local memory and in UNMS database Users can configure the values of Far End and or Near End Threshold Crossing Notification Threshold values of registers for current 15 minut
37. Y35 exc pin detect Enable Tx data inversion normal 1 Rx data inversion normal Rx sample edge Rising 1 CTS Always On 1 Type V35 V36 RS449 X21 or RS530 detect enable or disable the external clock pin detection of V 35 interface B Tx Rx data inversion normal or inverse The V 35 interface of STU R provides data inversion capability used to protect against the occurrence of low pulse density B Rx sample edge Rising or Falling m CTS Always ON default or Follow RTS of V 35 interface Chapter 5 Operation of CID 5 2 3 Configuration Shdsl 5 2 3 1 Configuration Shdsl Parameters SCORPIO 1400 DL 4w Version 3 13 Parameters Timing Configure Modem Parameters Set Required Modem Type Required Modem SE Er CPE SHDSL E1 Required Modem Type of CO SHDSL E1 Data Rate E1 1 d S 36 2u 1 72 4 131 1 B Required Modem Type of Near End To select the DTE interface type for near end The possible values are listed below CO SHDSL DATA CO SHDSL E1 CO SHDSL T1 CPE SHDSL DATA CPE SHDSL E1 CPE SHDSL T1 m Required Modem Type of Far End To select the DTE interface type for near end The possible values are listed below CO SHDSL DATA CO SHDSL E1 CO SHDSL T1 CO SHDSL LAN CO MERCURY CPE SHDSL DATA CPE SHDSL E1 CPE SHDSL T1 CPE SHDSL LAN Chapter 5 Operation of CID
38. ablish Connection 4 1 Unpacking The Scorpio 1400 s shipping package includes the following items B Scorpio 1400 standalone unit User s manual CD pack B Power cable 24 AWG RJ 45 cable W RJ 45 cable box B Optional items G 703 E1 Balanced interface e 24 AWG RJ 45 cable e RJ 45 cable box ITU T V 35 RS530 X 21 n x 64Kbps interface e V 35 cable e X 21 cable Chapter 4 Installation 4 2 4 2 1 Configuration Procedures This section guides the user through some basic operations on the front panel and makes sure the Scorpio 1400 unit is correctly configured These operations include Local Loop back Test Establish Connection System setup and others There are six buttons on the front panel REM LOC HOME A up arrow V down arrow 4 left arrow and gt right arrow The LCD will display the current S W version of 51400 in the beginning Users can enter the LCD configuration menu by pressing button Users go to previous or next page by pressing lt or gt button respectively When the value is selected users can press W it represents enter button If users aim to escape current screen and return to previous screen just press the A button The HOME button is used to return to main menu screen Users may configure the S1400 in remote side or local side by toggling the REM LOC button Once it is set for remote side an R character will be displayed on the LCD screen It will return to loca
39. ace Except Ethernet Test Start Start Stop lt Test Status Error Count 0 Elapsed Time 0 Bit Count 0 Error Time 0 Security 14001400 14001400 Password Edit Security Enable lt Front Lock Disable Appendix B Menu Tree In addition to LCD menu tree there is a VT 100 menu tree for CID port used Both of them are almost the same but a little bit different As the detail descriptions for each menu please refer to the chapter 5 The tree structure is as follow for reference Table B 2 Scorpio 1400 VT 100 Menu Tree Tier 1 Default Tier 3 Tier 4 Tier 5 Tier 6 Tier 7 Tier 2 Value Configuration IP Address 192 168 1 1 System Netmask 255 255 255 0 Default 192 168 1 254 Gateway Trap Ip Trap IP 210 65 231 120 address Trap IP Status Inactive Date Time Year 2003 Month 1 Day 1 Hour 0 Minute 14 Second 6 Default Yes lt No Reboot Yes lt No Configuration SHDSL Param Power Scale AUTO lt Interface 0 5db Odb 0 5db 15db PSD Sym Asym 4 WIRE Off On ANNEX A B A B Unaligned mode Disable lt Enable Far End SnrMgn Threshold 0 Atn Threshold 35db Near End SnrMgn Threshold 3 Atn Threshold 38db 75 Appendix B Menu Tree Tier 1 Default S Tier 3 Tier 4 Tier 5 Tier 6 Tier 7 Tier 2 Value Threshold Near End LOSW lt mode gt Mode 15min 60 Mode day 300
40. ble when device stands for or CPE Maintenance Test pattern test TRINET SCORPIO 1400 DL 4 Pattern test V 54 Test Pattern test Porti Loopback Test Normal Test Pattern None 1 Test Direction SHDSL Test Period 100 Test Start STOP B Test Pattern Generate test pattern Possible values are 2E11 1 2E15 1 QRSS 2E20 1 and 2E23 1 B Direction The direction the pattern is sent to Possible values are SHDSL and Interface B Test Period The period unit is second User can set to 99999999 sec W Test Start To start or stop sending the test pattern Possible values are START and STOP Maintenance Test V 54 Test In addition to loopback test function described in Figure 5 1 and Figure 5 2 the 61 Chapter 5 Operation of CID 51000 51400 supports V 54 in band signal to activate and deactivate PLB The sophisticated addressing capability enables network operator to isolate trouble node by node and from end to end The procedure and code words comply with ITU T V 54 There are various testing methods supported by the 51000 1400 as depicted in Figure 5 3 Each node in the T1 E1 traffic path has a unique address which is configured by the system operator so the node to be looped back can be identified Testing pattern can be generated after the loopback is activated The test result can be notified on the CID or UNMS as V54 Loopback Test Address 0x03 or V54 Loopback Test
41. bps Modulation Method 16 TCPAM 16 levels Trellis Coded Pulse Amplitude Modulation The symmetric PSD for data rate of 256 512 768 1536 2048 and 2304 Kbit s comply with the PSD masks defined in Annex A of ITU T G 991 2 Symbol Rate Data rate 8000 3 symbol sec Load Impedance 135 ohms 5 Physical Connection Type Standard RJ 45 jack 135 ohm balanced via 2 wires or 4 wires twisted pair Port enabled disabled configurable Network Side Interface DS1 Interface Bit Rate 1 544 Kbit s 32 ppm Frame Format SF D4 ESF ESF CRC or Unframed field selectable Line Code AMI or B8ZS field selectable Impedance Normal 100 ohms 5 resistive symmetrical pair 17 Chapter 2 Specification 2 2 2 W Power Level For an all one transmitted signal the power in a 3 kHz band centered at 772 kHz is between 12 6 and 17 9 dBm The power in a 3 KHz band centered at 1544 kHz is at least 29 dB below that at 772 kHz Jitter performance Meet ITU T G 824 requirements B The DS1 network side interface of STU C provide the function for the cable length from 0 to 200 meters compensation W Physical Connection Type Standard RJ 48C RJ45 jack E1 Interface B Comply with G 703 Standard m Bit Rate 2 048 Kbit s 50 ppm Frame Format Unstructured or Structured framing field selectable Line Code High Density Bipolar of Order HDB3 Impedance Normal 120 ohms 5 resistive symmetrical pair
42. built in the 1000 51400 system provides various loopback paths which are depicted in Figure 5 1 and Figure 5 2 For each STU C and STU R the built in PRBS generation and detection are provided for loopback performance test on per channel basis Test results are displayed The supported PRBS patterns include 211 1 215 1 QRSS 220 1 223 1 ITU T V 54 in band activated and deactivated loopback code words are provided for end to end loopback function the details are depicted in Figure 5 3 BER measurement is performed for both directions of transmission and the tests in each direction will be performed in full duplex mode with both STU C and STU R simultaneously transmitting data The test loops defined in ITU U G 991 2 are individually inserted between the STU C and the STU R The noise level test procedure complies with section A 3 1 of ITU U G 991 2 Chapter 2 Specification 2 5 Technical Specifications Table 2 2 gives the technical specifications of the Scorpio 1400 Table 2 2 Technical Specifications of the Scorpio 1400 DSL Modulation 16 levels TCPAM Mode Full duplex with echo cancellation Number of loops Single Loop rate N 64 8K N 3 32 and 2320Kbps 2 wire 4624kbps 4 wire Data rate 64K to 4096Kbit s 4608kbit s 4 wires Loop impedance 135 ohms Clock source Internal clock DTE clock Receive clock Hybrid DTE clock Clock accuracy t 32 ppm Inte
43. corpio 2 wire SHDSL standalone unit with LCD and keypad 4 1400RL 4W operation panel with Ethernet interface with built in AC IAC power module 000 101 006 Scorpio 2 wire SHDSL standalone unit with LCD and keypad 2 1400RL 4W operation panel with Ethernet interface with built in DC DC power module 2 wire SHDSL standalone unit with LCD and keypad operation panel with build in 36 72VDC power 000 101 008 Scorpio 1400 module support various DTE interface module DTE1 4 AC F amp or DTE2 to be specified separately for Alcatel F FPGA gate count XC2S10 that help S1400 compatible with Alcatel Mainstream 3600 2 wire SHDSL standalone unit with LCD and keypad operation panel with build in 36 72VDC power 000 101 008 Scorpio 1400 module support various DTE interface module DTE1 5 DC F amp or DTE2 to be specified separately for Alcatel F FPGA gate count XC2S100 that help 51400 compatible with Alcatel Mainstream 3600 2 wire SHDSL standalone unit with LCD and keypad 000 101 008 Scorpio 1400 operation panel Mid built in AC and DC power module 6 IAC DCIE amp support variable interfaces DTE1 or DTE2 for ALCATEL FPGA gate count XC2S100 that help 1400 compatible with Alcatel Mainstream 3600 gt Specify adapt cable 330 100 000 DB25M M34F DB 25 to M34 adapt cable it is included in the S1400A 68 Appendix A Ordering Information
44. d Modem Type Near End Timing Source Far End timing Source Data Rate Led Status DSL DTE1 DTE2 ALARM TEST Maintenance Patten Test Loopback Normal Nornal Test CO Local CO Local Payload RT Remote RT Remote Payload RT Local RT Local Payload CO Remote CO Remote payload Test Patten 2e11 1 2e11 1 2e15 1 QRSS 2e20 1 2e23 1 Test Direction Shdsl Shdsl Interface 84 Appendix B Menu Tree Default Ter Tier 3 Tier 4 Tier 5 Tier 6 Tier 7 Tier 2 Value Test Period 100 Test Start Start Stop Stop V54 Test 54 V54 Enable Disable Disable Parameters Enable V 54 address mode Disable Disable Enable V 54 Near End 0x03 Address V 54 Far End Address 0x01 V54 V 54 Mode Start Stop Generator Stop V 54 Direction SHDSL Interface V 54 Address 0x03 Software Sever IP 0 0 0 0 Download address File name Start Yes No downloadin g No Diagnosis Trouble Shooting Menu 85 Appendix C Pins Assignment Appendix C Pins Assignment The pin assignment for different interface of Scorpio 1400 is depicted in the following sections A Conversion Cable is enclosed for converting DB 25 to V 35 V 36 or X 21 interface as shown in Figure C 1 There are three types of Conversion Cables depending on the customer s order the cable is enclosed in the shipping package DB 25 M V 35 F 20cm Figure C 1 The Conversion Cable of DB 25
45. dependent operation among the ports and cards on the 51000 Three types of technologies will be provided in 51000 2 wire G SHDSL modems 4 wire G SHDSL modems and fiber optic modems 51000 is a high density universal rack mounted system The chassis has 14 9 Chapter 1 Overview slots that accommodate up to 14 modems or 28 modems if dual port cards are used Using modular interface cards 51000 can support SHDSL or fiber in the same chassis under a single management system Its hot swappable feature allows any card or cable to replaced or removed during equipment operation without causing interference to data transmission to from other cards in the chassis Modular data interfaces allow modem connectivity via a wide range of DTE interfaces These interfaces include T1 DATA V 35 V 36 RS449 X 21 RS 530 or Ethernet 81400 RL 10 Chapter 1 Overview 1 2 Applications The 51400 System can be configured as a central unit STU C SHDSL Transceiver Unit Central at central office and a remote unit STU R SHDSL Transceiver Unit Remote at customer premises SHDSL System employs full duplex transmission with one pair or two pairs Loop between STU C and STU R The services are extended through the ubiquitous copper wires or leased lines with the technologies of G SHDSL or fiber Various interface extensions are supported E1 T1 DATA V 35 V 36 RS449 X 21 RS 530 and Ethernet S1400RL Figure 1
46. e UAS TCA DSX1 UAS DAY TRHD WARNING 1 day UAS TCA DSX1 ES FE QTR TRHD WARNING 15 minute FE ES TCA DSX1 ES FE DAY TRHD WARNING 1 day FE ES TCA DSX1 SES FE QTR TRHD WARNING 15 minute FE SES TCA DSX1 SES FE DAY TRHD WARNING 1 day FE SES TCA DSX1 UAS FE QTR TRHD WARNING 15 minute FE UAS TCA DSX1 UAS FE DAY TRHD WARNING 1 day FE UAS TCA Alarm Log View Alarm Log TYPE 0581 URS TRHD SHDSL 1 URS QTR TRHD SHDSL 1 LOSUS QTR TRHD 0581 URS QTR SHDSL 1 Ups QTR TRHD SHDSL 1 LOSWS QTR TRHD 0581 URS QTR TRHD SHDSL 1 URS QTR TRHD SHDSL 1 LOSWS QTR TRHD DSM1 URS DIR TRHD SHDSL 1 URS QTR TRHD SHDSL 1 10505 _QTR_TRHD Up to 200 alarm historical records can be stored without the use UNMS PortNO PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 Class HARNING HARNING HARNING HARNING HARNING HARNING HARNING HARNING HARNING HARNING HARNING HARNING Status RAISED 01 12 2003 01 12 2003 01 12 2003 01 12 2003 01 12 2003 01 12 2003 01 12 2003 01 12 2003 01 12 2003 01 12 2003 01 12 2003 01 12 2003 Many more can be logged in Database if UNMS is used Wherever the Clear Alarm 53 Chapter 5 Operation of CID Log item can clear all alarm logs that exists TRINET SCORPIO 1400 DL 4w Version 3 13 Alarm Log Clear System Alarm Log Clear ES NO I 1 5 3 2 Maintenance Interface 5 3 2 1 Maintenance Interface SHDS
47. e and current 24 hour performance parameters of ES SES and UAS that described in as below are settable When the 51400 recognizes a threshold crossing for a given parameter a threshold crossing notification will be generated and reported to CID and UNMS All stored performance data will be accessible and cleared from the CID and UNMS TRINET SCORPIO 1400 DL Version 3 09c Far End Near End Threshold Near End Far End Version 3 13 Near End Far End Near End of SHDSL 15 minutes mode LOSWS ES UAS One day mode LOSWS ES SES UAS There are four types of PM parameter thresholds for each combination of near end far end 15 minutes and one day performance monitoring A TCA will be issued whenever the monitored value has crosses the threshold setting The PM count of SHDSL can be cleared whenever desired Please refer to section 5 3 for more detail operation 45 Chapter 5 Operation of CID 5 2 2 2 Configuration Interface T 1 TAINET SCORPIO 1400 DL 4w Version 3 13 Parameters Threshold Near End Far End Far End Configure T1 Near End Parameters Configure T1 Parameters LineType Framed ESF 1 LineCoding 8751 Idle Pattern 0xff Cable Length Short Haull LineType Possible values are Framed ESF CRC Framed ESF Framed SF D4 and Unframed LineCoding AMI or B8ZS Pattern Sending pattern on the unused time slots The possible values are Ox7f and Oxff
48. econd ES DS1 2 Severely Error Second SES DS1 3 Unavailable Second UAS DS1 The S1400 provide a certain number of registers for separately storing the following accumulated performance data for each DS1 line to the STU C and to the STU R 1 Current 15 minute period and at least 96 previous 15 minute periods of parameters ES SES and UAS 2 Current 24 hour period and at least 7 previous 24 hour periods of parameters as described in ES SES and UAS Performance Monitoring The 51400 will also monitor the signal from the network side and the customer side separately The STU C will maintain separate counts of the following performance parameters for the E1 line to STU C and the E1 line to STU R 1 Error Second ES E1 2 Severely Error Second SES E1 3 Unavailable Second UAS E1 The S1400 provide a certain number of registers for separately storing the following accumulated performance data for each E1 line to the STU C and to the STU R Chapter 5 Operation of CID 5 2 2 1 1 Current 15 minute period and at least 96 previous 15 minute periods of parameters as above ES SES and UAS 2 Current 24 hour period and at least 7 previous 24 hour periods of parameters as above ES SES and UAS Configuration Interface SHDSL TAINET SCORPIO 1400 DL 4w Version 3 13 SHDSL T1 El DATA Param Far End Near End Threshold SCORPIO 1400 DL 4w Version 3 13 Far End Near End Threshold
49. ers for each SHDSL System were provided through the CID The provisioning parameters for each SHDSL System includes loop attenuation threshold SHDSL SNR Margin threshold performance parameter threshold SHDSL power back off data rate or line rate clocking architecture DS1 E1 interface and DS1 E1 frame format line code etc The 51400 was provided with a nonvolatile memory stores all provisioning parameters A default configuration setup option was provided The SHDSL System can be set to this status The SHDSL was provided with an EOC for OAM data and signals transmission including configuration fault message and performance monitoring data and loopback control signal etc The EOC complies with section 9 5 of ITU T G 991 2 Remote control monitoring 51000 via Telnet and Ethernet Remote in band control monitoring CPE via G SHDSL EOC 22 Chapter 2 Specification Remote Software Upgrade Remotely via Ethernet port with TFTP protocol Locally CID console terminal with XMODEM protocol Automatically and manually configuration backup and restoration to from local nonvolatile memory Support Alarm Surveillance function any event detected will be reported to Craft Interface Device CID and UNMS automatically The alarm reports include managed object alarm event type alarm severity day time occurred Support Performance Monitoring function For test and diagnostic purpose a simulated noise sources and test loop are
50. figuration item on the top of main menu there are four items on this configuration page System Interface SHDSL and Security Configuration System onfiguration TAINET SCORPIO 1400 01 Am Version 3 13 System Interface Shdsl Security IP Trap IP DateTime Default Reboot SCORPIO 1400 DL 4w Version 3 13 IP Trap IP DateTime Default Reboot IP Configuration IP Configuration IP fiddress 192 168 1 1 NetMask 255 255 255 0 1 Default Gateway 192 168 1 254 1 Above step sets the IP address Setting IP address is required for managing the system via the Ethernet port This is a must for SNMP Telnet and TFTP management SCORPIO 1400 DL 4w DateTime Default Reboot Trap IP Configuration TrapIP Configuration Trap IP Address 210 65 231 120 Trap Status Inactive Trap Address 0 0 0 Trap Status i Trap Address Trap Status Trap Address Trap Status Trap Address Trap Status Version 3 13 Trap IP DateTime Default Reboot Date and Time Setup amp Time Setup Second 41 Chapter 5 Operation of CID 5 2 2 m Date Time The system provides RTC Real Time Clock and supports BCD coded century year month date day hours minutes and seconds with automatic leap year compensation valid up to the year 2100 Set the Date Time to correctly time stamping the alarm or PM data report The date time will be stored in non volatile memory so data wil
51. gEE n rana ao eaa Se sane arena esses 15 2 1 MAIN D NEIE 15 22 SIIDSLAINTERFEA Yer 17 22 1 DSC allge ame 17 22 2 HE Erde 18 223 NBD 19 2 2 4 Ethernet Interface S1400RL 19 2 3 TIMING AND BYNCHRBONIZATION 20 2 4 OAN ans 22 2 5 TECHNICAL SPECIFICATIONS 0 000000000000 24 2 6 APPLICATIONS aaa ein E 26 2 61 Gellularnetwork a a a 26 2 6 2 Campus Met WOrI iones bei isti tn be ET 26 2 63 I 27 CHAPTER 3 1 29 3 1 FRONT PANEL tere et ee te ete E UD 29 era 30 3 1 2 The Ee 30 3 2 REAR PANEL eroi pH IRI UU 31 CHAPTER 4 INSTALLATION ccsccssscccisaceccccccccccssascacosccasccccesedacnscsesssocevosecssecccece 35 4 1 DINPACKEING 24 157 5 35 4 2 CONFIGURATION 5 44 0 36 4 2 1 Establish
52. ipment 4 Trouble Description TAINET COMMUNICATION SYSTEM CORP FAX 886 2 2658 3232 E MAIL sales tainet net 99
53. ive line Signal Detector A DCE 9 Receive Signal Element Timing B DCE 10 Receive line Signal Detector B DCE 11 EXT Transmit Signal Element Timing B DTE 12 Transmit Signal Element Timing B DCE 13 Clear to Send B DCE 14 Transmit Data B DTE 15 Transmit Signal Element Timing A DCE 16 Receive Data B DCE 17 Receive Signal Element Timing A DCE 18 19 Request to Send B DTE 20 DTE Ready A DTE 21 22 DCE Ready B DCE 89 Appendix C Pins Assignment 23 DTE Ready B DTE 24 EXT Transmit Signal Element Timing A DTE 90 Appendix C Pins Assignment C 3 V 36 RS 449 Interface The DB 37F interface is shown in Figure C 5 Figure C 5 DB 37F Interface Refer to Table C 3 to see the pin definition of V 36 RS 449 cable Table C 3 V 36 RS 449 Cable Pin Definition DB 25 Male Signal V 36 RS 449 Female Source 1 Shield 1 Common 2 Send Data A 4 DTE 15 Send Timing A 5 DCE 3 Receive Data A 6 DCE 4 Request to Send A 7 DTE 17 Receive Timing A 8 DCE 5 Clear to Send A 9 DCE 6 Data Mode A 11 DCE 20 Terminal ready A 12 DTE 8 Receive Ready A 13 DCE 24 Terminal Timing A 17 DTE 7 Signal Ground 19 20 37 Common 14 Send Data B 22 DTE 12 Send Timing B 23 DCE 16 Receive Data B 24 DCE 19 Request to Send B 25 DTE 9 Receive Timing B 26 DCE 13 Clear to Send B 27 DCE 22 Data Mode B 29 DCE 23 Terminal Ready B 30 DTE 10 Receive
54. l configuration by pressing the REM LOC button again Establish Connection Connect all the necessary wires and turn on the Scorpio 1400 Wait for few seconds press W to enter the menu tree Keep pressing 4 gt until LCD displayed Configuration then press W to enter the configuration menu Repeat the same steps to enter the Configuration gt Modem gt Modem Configuration gt Modem gt RM Modem Configuration gt Modem gt Data Rate Configuration gt Modem gt Timing Configuration gt Interface menu to set up the desire value respectively Configure the Scorpio 1400 CO site by pressing button on the front panel in according to the LCD menu tree Table B 1 Specify the Modem type RM 36 4 2 2 Chapter 4 Installation modem type Data Rate Line Type and Timing for example CO SHDSL E1 CPE SHDSL E1 32 E1 framer Internal clock Configure the Scorpio 1400 CPE side Specify same data rate and Line Type as CO side but different Modem type RM modem type and Timing for example CPE SHDSL E1 CO SHDSL E1 32 E1 CRC Line clock Any user specified configurations are different from descriptions as above please configure them by pressing button on the front panel Wait for several seconds DSL LED will be ON and LCD displays Connected and the data rate of connection it shows SHDSL link has been established Local Loop back Test
55. l not be lost even when powering off the system MPU W Default Reset the configuration data of the device to default values Reboot Reboot restart the device SCORPIO 1400 01 Ae Version 3 13 Irap IP DateTime Default Reboot Reboot Scorpio 1400 Reboot Scorpio 14007 I YES NO Configuration Interface There are four DTE interface types which are SHDSL E1 T1 and DATA available for the S1400DL In addition the DATA interface also includes V 35 21 V36 RS499 and RS530 SHDSL Performance Monitoring The 51400 separately monitor the following performance parameters for the SHDSL loop for each direction of transmission 1 Errored Second ES crc 2 Severely Errored Second SES crc 3 Loss of Synchronization Second LOSWS 4 Unavailable Second UAS The 51400 separately store the following accumulated performance data for each direction of transmission 1 Current 15 minute and at least 32 previous 15 minute periods of parameters as described as above 42 Chapter 5 Operation of CID 2 Current 24 hour period and at least 7 previous 24 hour periods of parameters as above m 1 051 Performance Monitoring The STU C monitors the T1 as same as DS1 signal from the network side and the customer side separately The STU C will maintain separate counts of the following performance parameters for the DS1 line to STU C and the DS1 line to STU R such as 1 Error S
56. le lt Configuration Mode Modem Type CPE SHDSL E1 lt m CPE SHDSL T1 CO SHDSL DATA CO SHDSL E1 CO SHDSL T1 CPE SHDSL DAT A RM Modem CPE SHDSL DAT Type A CPE SHDSL E1 CPE SHDSL T1 CO SHDSL LAN CPE SHDSL LAN CO MERCURY CPE MERCURY CO SHDSL DATA CO SHDSL E1 CO SHDSL T1 Data Rate 1 2 3 4 72 31 Timing Internal lt 71 Appendix B Menu Tree Tier 1 Default Tier 3 Tier 4 Tier 5 Tier 2 Value dte Dte hybrid Line Configuration Interfa SHDSL Power Enable lt ce Disable Power Scale 0 1 2 3 10 0 PSD Sym Asym 4 WIRE On Off ANNEX A B A B T1 Line Type Unframed Framed ESF lt CRC Framed ESF Framed SF D 4 Line Coding B8zs lt AMI Idle pattern Oxff lt Ox7f Cable Length Short Haul lt Long Haul E1 Line Type Unframed Framed CRC lt Framed no CRC Impedance Balance lt Unbalance Idle pattern Oxff lt Ox7f DATA DTE Type V35 lt V36 RS449 Rs530 X21 Exc pin detect Enable lt Disable Tx data inver normal lt inverse Rx data inver normal lt inverse Rx sample edge_ Rising Falling Status SW Version 3 13 Status FPGA Status Modem Status DSL 1 Ain DSL1 Snr Marg 72 Tier 1 Tier 2 Tier 3 DSL1 Power Tier 4 Tier 5 Appendix B Menu Tree Default Value DSL1 Rec
57. m provides various Loopback paths which are depicted in Figure 5 1 and Figure 5 2 They are Near End Loopback Local Loopback Remote Loopback and Remote Payload Loopback The NLB Near End Loopback capability will be set up inside STU C STU R as close as possible to the network side customer side interfaces The NLB is capable of control activation and deactivation by UNMS and CID An all one signal or AIS or the received signal will be sent to the loop during the NLB is activated The local loopback capability will be set up inside STU C STU R as close as possible to the loop interfaces The local loopback is capable of control activation and deactivation by UNMS and CID A framed all ones pattern other codes or the received signal will be sent to the loop during local loopback The RLB Remote Loopback is able to be activated and deactivated through EOC via CID and UNMS interfaces This loopback is used for checking the loop and transceiver units of STU C STU R A suitable signal will be sent towards the customer side network side interface during the RLB loopback The PLB Remote Payload Loopback is able to be activated and deactivated through EOC via CID and UNMS and be set up inside STU C STU R as close as possible to the network side customer side interfaces A suitable signal will be sent towards the customer side network side during the PLB loopback The PLB of V 35 interface can also be activated and deactivated by in band
58. n of the start up procedure was limited within 120 seconds Support Timing and Synchronization Local internal timing Line timing loop received clock DTE timing B For test and diagnostic purpose the 51000 51400 system provides various loopback paths including ITU T V 54 in band activated and deactivated loopback code words for end to end loopback function 1400 support the functions of stuffing scrambling keep alive signal and out of service test to make the output signal of both directions meeting the application requirements and facilitate efficient section of problem B Management by SNMP based UNMS or CID Remote control monitoring via Telnet and Ethernet Remote in band control monitoring CPE via G SHDSL EOC B Remote software upgrade via TFTP 16 2 2 2 2 1 Chapter 2 Specification SHDSL Interface Meet ITU T G 991 2 Annex A relative requirements Frame structure comply with section 7 1 1 of ITU T G 991 2 Supports fixed mode operation for symmetric multiple data rates according to different network side customer side interfaces The data rate does not include 8 Kbit s framing overheads Support Wetting Current function for feeding of a low current between 1 0 mA and 20 mA on the pair to mitigate the effect of corrosion of contacts Support power back off comply with table 6 2 of ITU T G 991 2 Data rate of 64K to 2 304M bps 2 wires or 64k to 4 624M bps 4 wires incrementing step 64K
59. nal 1 TxD Twist Pair 2 TxD Twist Pair 3 RxD Twist Pair 6 RxD Twist Pair Table C 8 G703 Balance port RJ 45 48C Connector Pin definition 94 Appendix C Pins Assignment RJ 45 port description 1 RxD Twist Pair RxD Twist Pair NC TxD Twist Pair TxD Twist Pair NC NC CON oO O NC Appendix D Troubleshooting Appendix D Troubleshooting Troubleshooting Table 1 Configured parameter values are lost after equipment restart When user modifies or changes the parameters the user should save the configurations in the flash memory by entering the Confirm YES menu and then reboot the system by entering the Configuration System Reset menu 2 Console Telnet Web User Name and Password When accessing the device through Telnet or the Web the user will be prompted to enter the password User can try the default user name tainet and password tainet to log in 3 Access denied There are several conditions that will disable user s access to the device via Console Telnet or the Web Message Solution Incorrect user 2 The password entered is incorrect Check the user name and password again 97 Appendix E Appendix E Trouble Report Company Local Representation Purchase Order No Equipment Serial No Software Version 1 Testing Network Structure 2 Configuration 3 Testing Network Equ
60. ng on user requirements Connector types include ITU T G 703 E1 balanced interface and DB 25 female connector for V 35 X 21 RS 530 and V 36 RS449 as shown in Figure 3 5 and Figure 3 6 e Figure 3 5 G 703 RJ 45 for Unbalanced Interface Pin Description RX ring RX tip NC Tx ring Tx tip NC NC INIo AJOIN gt Figure 3 6 Balanced E1 T1 RJ 45 48C Pin Assignment NC 0000000000040 Figure 3 7 DB 25 for V 35 and RS 530 Interface 32 Chapter 3 Interfacing The indication of front panel is as follow Table 3 2 Indication of front panel on S1400 m pue Was 007 Green on input is supplied to this unit Power is not connected off Normal status An alarm occurs Software downloading or self testing on indicates it is in Test mode ACT Green on off jon when data transmit or receive over the LAN LAN LINK on collision detected on off jon when the physical link through RJ 11 Green connection cable is established blink SHDSL line is training 33 Chapter 4 Installation Chapter 4 Installation In this chapter we will present the installation guide for the Scorpio 1400 It begins with a checklist for unpacking the shipping package The chapter continues with the configuration procedures which includes Loop Back Test Circuit Diagnose and Est
61. pports DTE interface T1 E1 DATA V 35 X 21 RS 530 V 36 RS449 and Ethernet Carrying symmetrical 2048 Kbps payload for up to 2 4 miles 3 9 Km over 26 AWG single pair copper wire The Activation Sequence and Preactivation Sequence comply with section 6 2 and 6 3 of ITU T G 991 2 Both DS1 and E1 network side for STU C and both DS1 and E1 customer side for STU R The DS1 or E1 interface is selectable by configuration With 1 pair both DS1 and E1 network side for STU C and V 35 customer side for STU R The data rate shall be nx64 Kbit s n 1 to 24 for DS1 n 1 to 31 for E1 V 35 network side for STU C and V 35 customer side for STU R The data rate is nx64 Kbit s n 1 to 36 Ethernet network side for STU C and Ethernet customer side for STU R The data rate is multiple including nx64 Kbit s n 1 to 36 With 2 pairs both DS1 and E1 network side for STU C and V 35 customer side for STU R The data rate shall be nx64 Kbit s n 2 to 24 for DS1 n 15 Chapter 2 Specification 2 to 31 for E1 V 35 network side for STU C and V 35 customer side for STU R The data rate is nx64 Kbit s n 2 to 72 Ethernet network side for STU C and Ethernet customer side for STU R The data rate is multiple including nx64 Kbit s n 2 to 72 B System start up procedure test there are completed within 60 seconds From start of initial Preactivation to entering data mode and send Data defined in ITU T G 991 2 and the maximum duratio
62. rface Data V 35 Nx64 Kbps interface RS 530 Nx64 Kbps interface V 36 Nx64 Kbps interface Module X 21 Nx64 Kbps interface E1 T1 E1 G703 G704 interface T1 interface Diagnostics LL Local loop back RL Remote Loop Back Loop test Status Indicators LPL Local Payload Loop Back RPL Remote payload Loop back PWR Power indicator CPE CPE or CO site indicator DSL DSL status indicator DTE1 T1 E1 interface DTE2 Data interface Craft port Ethernet port Chapter 2 Specification ALM Alarm indicator TST Test status indicator 115200 amp 9600 BPS default speed is 9600 8 bit data length None parity 1 stop bit 9 pin D sub female connector 10 100M BPS RJ 45 jack Power Requirement AC Power adapter 110 220 VAC 10 60 3 Hz DC Power adapter 36 72 VDC without adapter note for 1400 AC DC version DC range between 43V 53V not 72V Power Consumption mss Environments Operating 0 C 50 indoor 0 60 C Temperature outdoor Storage 40C 70 C Operating 0 90 indoor non condensing 0 Humidity 95 outdoor non condensing Storage 0 95 non condensing EMC Comply with class A of 22 of the CISPR and class A of Subpart B of Part 15 of the FCC Vibration FCC part 68 302 MTBF gt 30 000 hrs Chapter 2 Specification 2 6 2 6 1 2 6 2 Applications This section describes how to apply TAINET Scorpio 1400 family in different
63. rs can specify the IP address of TFTP server and file name for downloading 64 Chapter 5 Operation of CID 5 5 Diagnosis Diagnosis Version 3 13 Trouble Shooting Menul View System Debug Messages The Diagnosis is used by expert engineer for the purpose of troubleshooting To press the Q key can help user to quit the debug mode Users may ignore it if users are not so familiar with it 65 Appendix A Ordering Information Appendix A Ordering Information Table A 1 is the order information for your reference Product Code Scorpio 1400 Ordering No Table A 1 Order Information Description SHDSL Modem NTU Router with LCD Panel 4 wire SHDSL standalone unit with LCD and keypad 000 101 004 Scorpio operation panel with built in AC and DC power module 3 1400DL 4W with software configurable on board data circuit supporting AC DC V 35 V 36 RS 530 X 21 interfaces DTE2 additional optional DTEI interface can be ordered separately 000 101 004 Scorpio 4 wire SHDSL standalone unit with LCD and keypad 9 1400RL 4W operation panel with built in AC and DC power module AC DC with Ethernet interface 4 wire SHDSL standalone unit with LCD and keypad 000 101 005 Scorpio 1400 4W operation panel with built in AC power module support 3 AC amp various DTE interface module DTE1 or DTE2 to be specified separately 4 wire SHDSL standalone unit with LCD and keypad 00
64. sion 3 13 Current 15Min Current Day Last 96 Quarters Last Days PM Clear The Maintenance interface T1 and Maintenance interface E1 have similar description as Maintenance interface SHDSL Please refer to previous topic Maintenance interface SHDSL for detail 56 Chapter 5 Operation of CID 5 3 2 3 Maintenance Interface E1 TRINET SCORPIO 1400 DL 4w Current 15Min Current Day Last 96 Quarters Last Days PM Clear 5 3 3 Maintenance SHDSL The Maintenance SHDSL items help user to check the device version information Modem status and the front panel LED status TAINET SCORPIO 1400 DL 4w SHDSL Test Led Status Maintenance Version 3 13 Interface Version Info Modem Status Version 3 13 Version Infol Modem Status Led Status Version Information Software Version 3 13 FPGA Version 1 02 TRINET SCORPIO 1400 DL 4w Modem Status Version 3 13 Version Info Led Status Modem Status fictual Near End Modem Type Actual Far End Modem Type Near End Timing Source Far End Timing Source Line Rate CPE SHDSL EI CO SHDSL E1 internal dte 2056 TRINET SCORPIO 1400 DL 4w Version Info Modem Status Status Led Status LED Status LED Status LED Status LED Status LED Status Green Flash Green Flash Inactive Red Flash Inactive 57 Chapter 5 Operation of CID 5 3 4 5 3 4 1 Maintenance test Maintenance Test Loopback For test and diagnostic purpose the S1400 syste
65. storical performance by selecting either port1 or port2 no matter near end or far end Last 96 Quarters SCORPIO 1400 DL 4w Near End Far End View History of 15min Records ES SES PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 PORT1 Coco coco 5 Coco coco coco E E E The PM count can be cleared whenever desired By PM Clear item selects ether near or far end and select time interval by current quarter current day history quarter or history day Then select ports with confirmation YES to clear PM counts 55 Chapter 5 Operation of CID Performance Version 3 13 Current 15Min Current Day Last 96 Quarters Last 7 Days Clear Near End Far End Version 3 13 Far End Current Quarter Current Day History Quarter History Day Version 3 13 Current Quarter Current Day History Quarter History Day Clear Performance Data of Current Quarter Clear Performance Data of Quarter NERR END Clear Port 1 Clear Port 2 Current Quarter The PM parameter count in seconds of the current 15 minute period Current Day The PM parameter count in seconds of current 1 day period W History Quarter Stores up to the 96 of the latest 15 minute PM parameter count records W History Day Store up to the 7 of the latest one day PM parameter count records 5 3 2 2 Maintenance Interface T 1 TRINET SCORPIO 1400 DL 4 Ver
66. terfaces of customer S1400DL has DS1 E1 Data V 35 V 36 RS 530 and X 21 interfaces and S1400RL has Ethernet interface only Then the chapter describes how to use TAINET Scorpio 1400 51400 in several applications and show the possible interface configurations of S1000 S1400 System 1 1 Overview DSL Digital Subscriber Loop technologies increase the bandwidth capacity of existing ubiquitous telephone line the local copper loops G SHDSL is designed for business applications where high speed is required in both transmission directions It provides symmetrical data rates of 192Kbps to 2 304Mbps in 2 wire with a transmission distance up to 20Kft using SHDSL technology The data rates will be increased to 4 624Mbps in 4 wire link The speeds obtainable using DSL technologies are tied to the distance between the customer premise and the Telco central office Performance varies with loop characteristics such as line conditions loop distance wire gauge noise and the number and locations of bridged taps and gauge changes The G SHDSL bit rate can be configured or rate adapted to adapt to the line conditions The Scorpio 1000 81000 provides full coverage of the Last Mile with a variety of technologies rates interfaces and media The system supports standard technologies such as G SHDSL Each card the 51000 is in a point to point configuration opposite to a remote unit with no connection to the adjacent cards This allows totally in
Download Pdf Manuals
Related Search