Scorpio 1000 User`s Manual
Contents
1. 50 Appendix A LineCurrent lt slot port gt OutputPowe r ReceiverGa in Far End LineCurrent lt slot port gt du LineCurrent SnrMgn LineCurrent lt slot port gt OutpuiPowe crea KA o e Current End Curr15MinT a port 15Min imeElapsed Curr15Min ESs Curr1 5Min F Curr15Min es Curr15MinL Sate Far End Curr1 5MinT sees ae E Curr1 5Min ee Curri5MinL Saws Current Day Near End Curr1DayTi lt lot port gt meElapsed o DayE E DayS E Res Curri DayL cae Far End Curr1 DayTi onal E DayS Curr1 DayU ae Curr1 DayL hae Appendix A Last 96 Near End Hist15MinE Quarters Ss Hist15MinS Do E Hist1 5MinU oe Hist1 5MinL OSWs Far End Hist1 SMinE Me Hist1 5MinS am Hist1 5MinU ASs Hist1 5MinL OSWs Last 7 Days Near End Hist DayE Ss ES pp kuya gt Histoyawarter po HistoryDay K curentoay History Quarter po HistoryDay ad dl A lt slot port gt lt slot port gt Forwarding Forwarding NS Table Table 1 128 lt slot port gt Mill AA Table lt slot port gt Fiber lt slot port gt OEstatus 52 Appendix A Curr15Min ES aia E Near End m lt slot port gt 15Min o Curr15Min SESs Curr15Min UASs FE 5MinS Es Hist15MinU ASs Histi5MinL OSWs a 5MinS pen E Histi5MinE ES Hist1 5MinU ASs Appendix A lt sl2. To Ea ES E MIO CI men Bakaa Dos EE pf O O RO eee A Unframed parameter NearEnd LineType lt slot Framed CRC port gt framed no CRC Unbalance Impedance Balance m E DLE parren 0xtox7f Ra LineType lt slot Framed_CRC port gt framed no CRC Unbalance Impedance Balance lt slot port gt a IDLEPATTEN MO 7 Trestle pei rimeshodes emede gt Inode say 300 KAA O rs r neem ferro ESO E asana E a O A A e Se TrveshoisUas Medea Parameters NearEnd Full Duplex disable enable lt slot E lt slot nae Rec Number lt slot port gt MAC eee LAN Filter wan Filter at Number lt slot port gt Rec Number lt slot port gt Appendix A MAG a a Number lt slot port gt pos pe pin detect disable enable ot a e Rxsampleedge Risingfalin Rx data inversion Normal Inverse Inverse c ramea fer a i ce LI DO o o of tao frotas Security Console lt tainet gt ee lt tainet tainet Telnet User gt Name Password GET Public Community Set Private Trap Public DR Download alt i i Ra eae a cii me z No StartingDo wnload Swap SwdlSwap E Smam Loo fo O eo a AA Led Status Interface oy 15MinTime A port gt Status 1 4 plese amines i Do 15MinUAS 53 15MinTime e pone D eaa 15DminES
3. G SHDSL DS1 or E1 V 35 q q STU C STU R a b c d G SHDSL gt V 35 V 35 Do a STU C STU R a b c d G SHDSL gt Ethernet Ethernet DO qa Figure 5 1 STU C Side Activated Loopback 37 Chapter 5 Operation of CID Craft Interface Device 5 2 6 STU C STU R d c b a g G SHDSL E DS1 or E1 DS1 or E1 zt _ a STU C STU R d c b a G SHDSL FE DS1 or E1 V 35 q a STU C STU R f e gt G SHDSL gt DS1 or El V 35 1 q STU C STU R d c b a s G SHDSL ENE af V 35 V 35 4 a STU C STU R d c b a z G SHDSL ee Ethernet Ethernet a am Figure 5 2 STU R Side Activated Loopback There are many different Loopback types can be selected 0 Normal default a Local Loopback In CO site closed to SHDSL link b Remote Loopback In CPE site closed to SHDSL link c Local Payload Loopback In CO site closed to interface T1 E1 V 35 LAN d Remote Payload Loopback In CPE site closed to interface T1 E1 V 35 LAN e RT Remote Loopback CPE side command f RT Remote Payload Loopback CPE side command When N A is displayed it means the loopback only can be used in the CPE site Maintenance Test Pattern test Test Pattern Generate a test pattern Possible values are 2E11 1 2E15 1 QRSS 2E20 1 2E23 1 Test Dir
4. 22 20 18 16 14 25 23 21 19 17 15 RS 530 Interface Refer to Table B 2 for the pin definition of RS 530 Connector Table B 2 RS 530 Connector Pin Definition DB 25 Male Signal ource 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 Ready A DCE 7 Signal Ground Common 8 Receive 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 58 B 3 Appendix B 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 23 DTE Ready B DTE 24 EXT Transmit Signal Element Timing A DTE V 36 RS 449 Interface The DB 37F interface is shown in Figure B 5 19 1 37 20 Figure B 5 DB 37F Interface Refer to Table B 3 for the pin definition of V 36 RS 449 cable Table B 3 V 36 RS 449 Cable Pin Definition DB 25 Male Signal YORO Source Female 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
5. provided for loopback performance test on per channel basis Test results are displayed The supported PRBS patterns include 211 1 215 1 220 1 QRSS 220 1 223 1 m ITU T V 54 in band activated and deactivated loopback codeword are provided for 7 Chapter 2 Specifications 2 6 2 7 end to end loopback function details are depicted in Figure 5 3 The Test Methods for V 54 Loopback Control Power Supply DC Power Input E 36 72VDC m Power Consumption 180 watt ETSI shelf is 200Watt AV Power Input m The redundant PSU AC power supply module can be replaced during operation without affecting the system performance hot swapping m Power Input AC input 85 264VAC Frequency 47 63 Hz m Output 48V Voltage 48 VDC 10 Current 6 25A full load Operating Environment Ambient Temperature Indoor Type 0 45 C Outdoor Type 0 60 C m Relative Humility Indoor Type Up to 90 without condensation Outdoor Type Up to 95 without condensation Chapter 3 Interfacing Chapter 3 Interfacing 3 1 Front View of S1000 ETI OA ED vo A Nai 00 oo Figure 3 1 Front View of S1000 Rear View of S1000 IS Oo o o a OM Figure 3 2 Rear View of S1000 Line Units There are several line unit types available for S1000 system 1 PSU AC AC Power
6. 20 mA on the pair to mitigate the effect of corrosion of contacts Support for power back off functions Rate adaptive from 192 Kbps to 2 304 Mbps in 64 Kbps increment Modulation method 16 TCPAM 16 levels Trellis Coded Pulse Amplitude 5 Chapter 2 Specifications 2 3 2 3 1 2 3 2 2 3 3 2 3 4 Modulation Physical Connection Type Standard RJ 45 jack 135 ohm balanced via 2 wire 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 frame format is field selectable Line Code AMI or B8ZS field selectable Impedance Nominal 100 ohms 5 resistive symmetrical pair Jitter performance meet ITU T G 824 requirements Physical Connection Type Standard RJ 48C RJ 45 jack El Interface Complies with G 703 Standard Frame Format Unstructured or Structured framing field selectable Line Code High Density Bipolar of Order 3 HDB3 Impedance Nominal 120 ohms 5 resistive symmetrical pair or 75 ohm asymmetrical pair Jitter performance meet ITU T G 823 requirements Line Interface 120 ohm RJ 45 balanced or 75 ohm BNC unbalanced selectable Physical Connection Type Standard RJ 48C RJ45 jack Balance or BNC Unbalance V 35 Interface Electrical Characteristics comply with ITU T V 35 interface Software configurable for V 35 X 21 RS530 V 36 RS 449 Data Rate n x
7. CID Craft Interface Device 5 1 2 1 Configuration Line Unit Parameters TAINET SCORPIO 1000A Timing Card Type Port TAINET SCORPIO 10004 Version3 07 Card Type Configure Slot Card Parameters Line Unit Slot2 Slot3 Slot4 Slot6 Slot Slot8 Sloti Slot11 Slot12 Slot14 Parameters TAINET SCORPIO 1000A Version3 0 Card Typel Port Configure Slot Card Parameters Set Required Card Type SlotNO Sloti Actual Card Type Empty Required Card Type Empty The S1000 provides pre provisioning dry configuration feature The advantage of this feature is that user can select the card type for a specific slot the user can then start provisioning the card even if the slot is physically empty The configured data will be stored in nonvolatile memory Once the card is plugged in the card will automatically implement the provisioned data and traffic will also start flowing accordingly Required Card Type The possible values are the available card types 1 P is one port per card 2 P is two port per card Empty SHDSL E1 1P SHDSL T1 1P SHDSL LAN 1P SHDSL DATA 1P FIBER E1 1P FIBER T1 1P FIBER LAN 1P FIBER DATA 1P SHDSL E1 2P SHDSL T1 2P SHDSL LAN 2P SHDSL DATA 2P 22 Chapter 5 Operation of CID Craft Interface Device FIBER E1 2P FIBER T1 2P FIBER LAN 2P FIBER DATA 2P Parameters TAINET SCORPIO 1000A Version3 07 Card Type Port Configure Port Parameters Set Port Parameters SlotNO S
8. DATA PORT LOCATION PORTA TAINET SCORPIO 10004 Near End Near End of FIBER 15 minutes mode ES One day mode ES SES 300 UAS 3932220 During performance monitoring the user can set the thresholds for different combinations of near end far end 15 min duration and one day duration A TCA will be issued whenever the monitored value has crossed the threshold setting TAINET SCORPIO 1000A Version3 07 Near End Far End Threshold Clear Clear Near End of FIBER Clear Far End of FIBER Clear Near End of FIBER TAINET SCORPIO 1000A Current Quarter Current Daily History Quarter History Daily Clear Current Quarter Data EH Clear Option this is will provide use to clear different performance monitoring data EH The PM counter can be cleared whenever desired 25 Chapter 5 Operation of CID Craft Interface Device Current Quarter The measured value in seconds of the monitored performance parameters within the current 15 min period Current Day The measured value in seconds of the monitored performance parameters within the current 1 day period History Quarter Accumulates the values in seconds of the monitored performance parameters for up to 96 of the past 15 min periods History Day Accumulates the values in seconds of the monitored performance parameters for up to 7 of the past 1 day periods 5 1 3 3 Configuration Interface Type T1 Interface Type TAINET SCORPIO 1000A Version3 07 SHDSL FI
9. E1 141 LL S1000 S1000 gt e E 103 Rx S1400A gt or or lt lt gt gt S1400 Lg oss gt gt S1400A S1400A 104 Tx e V 54 PN127 control pattern gt Test Method A gt V 54 PN127 control pattern gt Test Method B gt p as gu DIS V 54 PN127 control pattern gt Test Method C Figure 5 3 The Test Methods for V 54 Loopback Control 39 Chapter 5 Operation of CID Craft Interface Device TAINET SCORPIO 10004 54 Parameters V 54 Generator Set 54 Parameter Line Unit Slot Slot3 Slot Slot6 Slot Slot8 Sloti Slot11 Slot12 Slot14 Version3 0 4 54 Parameters 54 Generator Set 54 Parameter SlotNO PortNO PORTA 54 Enable disable 54 address mode disable 54 Far End Address 0x03 54 Near End Address 0x03 TAINET SCORPIO 1000A Version3 07 V 54 Parameters Y 54 Generator Set 54 Generator SlotNO Slot PortNO PORTA 1 54 Mode STOP 54 LOOPBACK 1 54 Direction SHDSL 54 Address 0x031 V 54 Mode START V54 LOOPBACK or STOP V54 LOOPBACK V 54 Direction SHDSL or Interface V 54 Address Possible addresses are defined 0x01 0x03 0x05 0x07 0x09 0x0B 0x0D 0x0F 0x11 0x13 0x15 0x17 0x19 0x1B 0x1D 0x1F 0x25 0x27 0x2B 0x2D 0x2F 0x33 0x35 0x37 0x3B 0x3D 0x3F 0x55 0x57 0x5B 0x5F 0x6F 0x77 0x7F 5 2 8 Mai
10. Ethernet RJ 45 Pin Assignment sinio iri E a EEE O E A i 14 3 5 5 Balanced E1 T1 RJ 45 48C Pin Assignment s wmsmmenmenenmanimnmaninazenizimamann azania 14 3 5 6 G SHDSL RJ 45 Pin Assignment err A Ea EA i 15 3 5 7 DB 25 Female Pin Assignment V 35 V 36 RS 449 X 21 RS 530 cece ceeceesteceeneeeteees 15 CHAPTER 4 INSTALLATION AND SETUP u cccssscsssccsssscssccesccescccsscccsscensccessccesceesccescees 17 4 1 DIMENSIONS cid AA WA AA ETA AAA ASA AA 17 4 2 CARTON GONTENTS Soo ina E E E TT E E 17 4 3 PREPARING FOR INSTALLATION cccccceeceseeecececceceueeeceueeeueueueueueesueueusueeusueeeesuneeeeaes 18 CHAPTER 5 OPERATION OF CID CRAFT INTERFACE DEVICE ssccssscessecsecees 19 5 1 CONFIGURATION datar 20 5 1 1 Configuration Syste veee a n E Vaa EOE E SET KERE a n E SENER 20 5 1 2 Configuration Line Unit tion pista e ee e eaa E a edt he bends 21 5 1 3 Configuration Interface Type ee e e ae iiie iieri ie 23 5 1 4 Configuration UA ere e ES aa A E O a E E ee iea 28 5 1 5 Configuration SW Download nireti nono nono na cora cnn cnn rena nenaneranaea 29 5 2 MAINTENANCE ei SS unakuna 29 Scorpio 1000 User s Manual Rev 1 4 5 2 1 Maintenance Alarm o dado tiie 29 5 2 2 Maintenance Led Status e a e E ra a a i ai aert eiie 31 5 2 3 Maintenance Interface Status r a aee aaiae a a a e kaka aa e aie a aa 31 5 2 4 Maintenance Slot 2 ccscieiscie
11. Module 2 MPU Main Processing Unit Chapter 3 Interfacing 3 SLU SHDSL Line Unit SLU E1T1 1P SLU E1T1 2P SLU DATA 1P SLU DATA 2P SLU LAN 1P SLU LAN 2P 4 CU Connector Unit m MPU CU m SLU CU ElT1 m SLU CU DATA Table 2 shows the various interface combinations Both SEU and FLU can be equipped with E1 T1 or Ethernet or Data sub modules Table 2 Interface Combinations 3 4 DCE Side Line Side GSHDSL Fiber El T1 q q Ethernet q q Data y q AY The Front View of Line Unit SLU DATA SLU E1 T1 SLU LAN SLU paTA 2P SLU 1 11 2P SLU Lan 2P pwR PWR O pwr O pwR pwR pur O pwr O ns O INS INS ns no O we se O LOOP BACK LOOP BACK LOOP BACK LOOP BACK 1 LOOP BACK 1 LOOP BACK 1 ALARM MAJ MIN LOOP BACK 2 LOOP BACK 2 LOOP BACK 2 ETHERNET 2 1 2 1 2 1 ACT COL SHDSL SHDSL SHDSL SHDSL LINK LINK LINK LINK LINK LINK ACT ACT ACT ACT ACT TD LOS LOS LOS ACT ACT RD AIS e AIS AIS pete ACO O ACO RTS RAI RAI RAI O TST O O TST TST LED TEST DCD TST TST TST DATA E1 T1 ETHERNET E1 T1 ETHERNET RST Figure 3 3 Front View of Line Units 10 Chapter 3 Interfacing 3 4 1 Status Indicators and Buttons Table 3 Front Panel of MPU LED Indicator Descriptio
12. NC pin In normal state the NC and COM are short circuited If an alarm occurs NC and COM are open circuited m NO pin If a normally open signal is required connect the alarm wires to the COM pin and NO pin In normal state the NO and COM are open circuited If an alarm occurs NO and COM are short circuited 3 5 3 Power Supply Connectors There are two connectors for DC 48V power source input in the rear panel m 48VGND PIN Connect to ground of 48V power supply source m 48V PIN Connect to 48V power supply source m FG PIN Connect to frame ground 3 5 4 Ethernet RJ 45 Pin Assignment a 5 Description TX TX RX NC NC RX NC NC ZA D A HR WwW nN 3 5 5 Balanced E1 T1 RJ 45 48C Pin Assignment BNC for G 703 unbalanced interface and RJ 45 for balanced interface Chapter 3 Interfacing 5 Description RxD RxD NC TxD TxD NC NC NC OlLAILT NDI NATL wl AA 3 5 6 G SHDSL RJ 45 Pin Assignment 1 8 5 Description Tip 2 Tip 1 Ring 1 Ring 2 A AI D MA BA D0D n 3 5 7 DB 25 Female Pin Assignment V 35 V 36 RS 449 X 21 RS 530 The SCORPIO S1000 SLU DATA supports various DTE Data Terminal Equipment interfaces depending on user requirements A Conversion Cable is enclosed for converting DB 25 to V 35 V 36 or X 21 interface Three types
13. REMOTE port to a modem for remote dial in via PPP connection session future EH AnRJ 45 LAN connection cable This cable connects the S1000 to LAN E Dummy face panel s Optional dummy face panel is available to cover an empty slot Chapter 5 Operation of CID Craft Interface Device Chapter 5 Operation of CID Craft Interface Device This chapter will introduce the operational procedures for a CID VT 100 used to control and monitor a Scorpio 1000 Upon starting up the S1000 the following message will show on the CID screen before switching to the application software code RAM test OK Remap Boot Version V1 00 Select a in 1 second gt into Diagnostic mode or to AP caculateCheckSum 0x1114 szLogo TAINET CORP szProduct Scorpio 1000 szRevision V1 76 szFileName mpuv101 bin szFileDate 2003 01 09 21 06 38 dwCodeSize 746460 dwCodeCheckSum 0x44512f4 dwCardType 1 dwHeaderCheckSum 0x1114 caculateCheckSum 0x44512f4 code checksum OK In AP s startup screen a message like the one shown below will prompt the user to enter a password before gaining access to the system The default password is tainet The version 3 01 and earlier the default password is admin Welcome to Access TAINET SCORPIO 1000 Please Enter Password gt The CID offers pretty user friendly menu driven user interface The following figure depicts the structure of the inter
14. Slot11 Sloti2 Slot13 Slot14 Maintenance Maintenance Alarm TAINET SCORPIO 1000A Version3 07 System Alarm Alarm Log View System Alarm SlotNO PortNO Class Type TAINET SCORPIO 1000A Version3 07 System Alarm Alarm Log View Alarm Log Slot Port Event Type Class State Date EH Alarm severity class Major Minor Warning or Clear EH All TCA Threshold Crossing Alert are classified as WARNING E Upto 200 alarm records can be logged Many more can be logged in Database if UNMS is used Table 5 System Alarms Description Alarm Type Severity Class Description 29 Chapter 5 Operation of CID Craft Interface Device LOSS OF POWER MAJOR Failure of AC power LOSS OF DC POWER MAJOR Loss of DC power Table 6 SHDSL Alarms Description Alarm Type Severity Class Description DSL LOSW MINOR Failure of LOSW DSL LOSWS EXCD QTR TRHD WARNING 15 minute LOSW TCA DSL LOSWS EXCD DAY TRHD WARNING 1 day LOSW TCA DSL ES EXCD QTR TRHD WARNING 15 minute ES TCA DSL ES EXCD DAY TRHD WARNING 1 day ES TCA DSL SES EXCD QTR TRHD WARNING 15 minute SES TCA DSL SES EXCD DAY TRHD WARNING 1 day SES TCA DSL_UAS_EXCD_QTR_TRHD WARNING 15 minute UAS TCA DSL_UAS_EXCD_DAY_TRHD WARNING 1 day UAS TCA DSL_LOSWS_FE_EXCD_QTR_TRHD WARNING 15
15. including nx64 Kbit s n 1 to 36 With 2 pairs both DS1 and El 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 2 to 31 for El 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 Supporting SHDSL payload rates of n x 64 Kbps where n is 3 to 36 The 1000 shelf can be mounted in 19 or 23 standard rack Two Shelf versions ANSI 4U high connectors on the back S1000A ETSI 6U high connectors on the front S1000B Optional dual AC power supply units with full redundancy Hot swapping of cards and power supply module Supporting Timing and Synchronization Local internal timing Line timing loop received clock DTE timing For test and diagnostic purpose the 1000 S1400 systems provide various loopback paths including ITU T V 54 in band activated deactivated loopback codeword for end to end loopback function Management via NMS or CID SNMP management message interface Remote control monitoring S1000 via Telnet and Ethernet Remote in band control monitoring CPE via GSHDSL EOC Remote software upgrade via TFTP SHDSL Interface Meeting ITU T G 991 2 relative requirements Supporting Wetting Current function for feeding of a low current between 1 0 mA and
16. minute FE LOSW TCA DSL_LOSWS_FE_EXCD_DAY_TRHD WARNING 1 day FE LOSW TCA DSL_ES_FE_EXCD_QTR_TRHD WARNING 15 minute FE ES TCA DSL_ES_FE_EXCD DAY TRHD WARNING 1 day FE ES TCA DSL_SES_FE_EXCD_QTR_TRHD WARNING 15 minute FE SES TCA DSL SES FE EXCD DAY TRHD WARNING 1 day FE SES TCA DSL_UAS_FE_EXCD_QTR_TRHD WARNING 15 minute FE UAS TCA DSL_UAS_FE_EXCD_DAY_TRHD WARNING 1 day FE UAS TCA DSL_ATN_EXCD_TRHD WARNING Attenuation TCA DSL_FE_ATN_EXCD_TRHD WARNING FE Attenuation TCA DSL_SNM_EXCD_TRHD WARNING SNR Margin TCA DSL_FE_SNM_EXCD_TRHD WARNING FE SNR Margin TCA Table 7 T1 E1 Alarms Description Alarm Type Severity Class Description DSX1_LOS MAJOR Failure of LOS DSX1 LOF MAJOR Failure of LOF DSX1 AIS MAJOR Failure of AIS DSX1I 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 EXCD QTR TRHD WARNING 15 minute ES TCA DSX1 ES EXCD DAY TRHD WARNING 1 day ES TCA DSX1 SES EXCD QTR TRHD WARNING 15 minute SES TCA DSX1 SES EXCD DAY TRHD WARNING 1 day SES TCA DSX1_UAS_EXCD_QTR_TRHD WARNING 15 minute UAS TCA DSX1_UAS_EXCD_DAY_TRHD WARNING 1 day UAS TCA DSX1 ES FE EXCD QTR TRHD WARNING 15 minute FE ES TCA DSX1 ES FE EXCD DAY TRHD WARNING 1 day FE ES TCA DSX1 SES FE EXCD QTR TRHD WARNING 15 minute FE SES TCA DSX1 SES FE EXCD DAY TRHD WARNING 1 day FE SES TCA DSX1_UAS_FE_EXCD_QTR_TRHD WARNING 15 minute FE UAS TCA DSX1_UAS_FE_EXCD_DAY_TRHD W
17. of Conversion Cables are available for the customer to choose from The selected cables are enclosed in the shipped package Please see Appendix B for details gu ne 876543 21 00000000000090 6006006000000 2 4 3 2 A D 190 8 17 16 GB 14 Pin Description Pin Description 1 Shielding 14 RXD Received Data 2 RXD Received Data 15 RXDCLK Received Data Clock 3 TXD Transmitted Data 16 TXD Transmitted Data Chapter 3 Interfacing Indicator 4 RTS Request To Send 17 TXDCLK Transmitted Data Clock 5 CTS Clear To Send 18 LL Local Loopback 6 DSR DCE Ready 19 RTS Request To Send 7 Gnd Signal Ground 20 DTR DTE Ready 8 DCD Received Line Signal Detected 21 RL Remote Loopback 9 TXDCLK Transmitted Data Clock 22 DSR DCE Ready 10 DCD Received Line Signal Detected 23 DTR DTE Ready 11 CLKIN Data Clock Input 24 CLKIN Data Clock Input 12 RXDCLK Received Data Clock 25 TM Test Mode 13 CTS Clear To Send RI Ring 16 Chapter 4 Installation and Setup Chapter 4 Installation and Setup Installation or servicing of any part of the S1000 should be performed by trained and qualified personnel Always wear an ESD Electronic Static Discharge wrist or ankle strap to avoid ESD damage to the equipment or its associated circuitry 4 1 Dimensions E S1000A Height 4U 1U fan tra
18. po asmmuasi O sede o MN apsed loves DaySES Appendix A DaySES DayUAS dsx1Hist15 lt SIot port gt MESS dsx1Hist15 To dsx1Hist15 URS Far End dsx1Hist15 lt SIot port gt TS dsx1Hist15 T dsx1Hist15 ETS dsx1 Ts D FS dsx1Hist1D ayUASs Far End dsx1Hist1 D St Port o dsx1Hist1 D SSES PMClear Reset Near Current Quarter lt slot port gt KAWE of T1 Current Day Ko tis Quarter A History Daily Reset Far Current Quarter port gt ANA AEREAS of T1 Current Daily PK RR AS E E History Quarter A history Daily seer Current Near End 15MinTime ope parts E Eara 15DminES mma mma 15MinUAS End 15MinTime a porz D ii 15DminES E O ma maa kaa 15MinUAS Day Near End DayTimeEl a port gt PO a Days DaySES Appendix A DaySES ET TETE YA Hist1 5MinU Po E Far End Hist 5MinE Ss Hist 5MinS Lo ESs Hist 5MinU aa ASs Bh Hist1 DayS am HistiDayU ASs Eso k PMClear Reset Near Current Quarter of El Current Current Daily SS ES jami History Quarter E histoy Daily Far Current Quarter DN ey of El E O OO A OA Ea ll LA aso e 1 poo fsms common tinestatws Pe ff gt Pere e ee DR Ear T J Camelo od RM pave RR EEE Near End LineCurrent lt slot port gt E ae Atn SnrMgn
19. 0 User s Manual Rev 1 4 ABOUT THIS MANUAL This section guides users on how to use the manual effectively The manual contains information needed to install configure and operate TAINET s Scorpio 1000 Universal Sub Rack System The summary of this manual is as follows Chapter 1 Chapter 2 Chapter 3 Chapter 4 Chapter 5 Appendix A Appendix B Introduction Presents overview application and other general information on the Scorpio 1000 Specification The specifications are summarized in a condensed format in this chapter Interfacing Describes the different interfaces their connectors and pin assignments Installation amp Setup Describes preparation required to get the installation underway Operation of CID Craft Interface Device Describes the commands and operational procedures used to control and monitor a Scorpio 1000 VT 100 Menu Tree Describes the commands at different tiers when operating the VT 100 Pin Assignment Describes all cables and connectors with pin definition ii Scorpio 1000 User s Manual Rev 1 4 SYMBOLS USED IN THIS MANUAL 3 types of symbols may be 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
20. 12 B 4 IS 16 17 18 19 2 21 2 23 24 25 Pin Description Pin Description 1 Frame Ground 14 Reserved 2 Transmit Data TXD 15 Reserved 3 Receive Data RXD 16 Reserved 4 Request To Send RTS 17 Reserved 5 Clear To Send CTS 18 Reserved 6 Data Set Ready DSR 19 Reserved 7 Signal Ground 20 Data Terminal Ready DTR 8 Carrier Detect CD 21 Reserved 9 Reserved 22 Ring Indicator RI 10 Reserved 23 Reserved 11 Reserved 24 Reserved 12 Reserved 25 Reserved 13 Reserved 3 5 2 Office Alarm Connectors DB 15 Male Pin Assignment HD15 Pin Assignment Pin Function Pin Function AMA NC 9 VMANC 12 AMIA_CC 13 AMIA_NO 14 de 0 NC COM NO VMIA NC 15 VMIA NO VMIA CC AMA Audible Major Alarm VMA Visual Major Alarm AMIA Audible Minor Alarm VMIA Visual Minor Alarm Chapter 3 Interfacing NC Normal Close NO Normal Open There are four office alarm connectors on the back plane AMA VMA AMIA and VMIA each of which has three pins The audio alarm connection can be connected to an external audio device to generate an audible alarm when an error occurs in the system The visual alarm connection is connected to an external device that will give a visual indication when an error occurs in the system m COM pin Common pin for NC and NO m NC pin If a normally close signal is required connect the alarm wires to the COM pin and
21. 64 Kbit s where n 3 36 Data inversion selectable Clock inversion selectable Physical Connection Type pin assignment of ITU T V 35 interface complies with DB 25 female connector Ethernet Interface Provides 10 100 Base T auto sensing and half full duplex configurable Ethernet Interface Electrical Characteristics 10 100 Base T Ethernet Interface complies with the IEEE 802 3 IEEE 802 3u Physical Connection Type Standard RJ 45 connector Bridging Capability Operates 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 2 4 2 5 Chapter 2 Specifications Timing and Synchronization For S1000 and S1400 four timing modes can be selected from Internal Line DTE DTE hybrid Three synchronization modes can also be selected from for configuration of the S1000 S1400 system This is shown in Table 1 Table 1 Timing and Synchronization Modes Mode STU C STU R Example Mode Number Symbol Clock Symbol Clock Application Reference Reference Local oscillator Received Classic HDSL Plesiochronous 1 ee Internal timing symbol clock Transmit data Received Main application is Synchronous 2 clock symbol clock synchronous DTE timing transport in both directions Transmit data Received Synchronous Hybrid clock symbol clock downstream downstream 3 DTE timing transport and Synchrono
22. 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 Ready B 31 DCE 11 Terminal Timing B 35 DTE 59 Appendix B B 4 X 21 Interface Figure B 6 illustrates the X 21 Interface For the DB 25 interface refer to Figure B 2 DB 25M Interface ERP ee SR 8167472 1544924 po 9 Figure B 6 X 21 Interface Refer to Table B 4 for the pin definition of X 21 cable Table B 4 X 21 Cable Pin Definition DB25 Male Signal X 21 Female 1 Shield Ground 1 2 around 2 4 TXD a 3 3 4 8 RXD a 5 17 on 6 24 RXC a 7 7 sround 8 14 TXD b 9 19 10 16 RXD b 11 10 on 12 9 RXC b 13 11 14 G G 60
23. ARNING 1 day FE UAS TCA 30 5 2 2 5 2 3 5 2 3 1 Chapter 5 Operation of CID Craft Interface Device Maintenance Led Status Maintenance TAINET SCORPIO 1000A Led Status Interface Status Slot Test Card Reboot MPU Led Status LED Status INS Active LED Status Major Inactive LED Status Minor Inactive LED Status ACO LED Inactive Maintenance Interface Status Maintenance Interface Status T1 E1 Interface Status TAINET SCORPIO 1000A I1 El SHDSL LAN FIBER Performance TAINET SCORPIO 1000A Performance Current 15Min Current Day Last 96 Quarters Last 7 Days PM Clear Last 7 Days TAINET SCORPIO 1000A Version3 07 Near End Far End View History of 24Hour Records SlotNO PortNO ES Slots PORTI Slots PORTI Slots PORTI Slots PORTI Slots PORTI Slots PORTI PORT1 SS66669 eoooooo eoooooo TAINET SCORPIO 1000A Version3 07 Clear Near End of Ti Clear Far End of T1 Current Quarter Current Daily History Quarter History Daily 31 Chapter 5 Operation of CID Craft Interface Device Current Quarter Current Daily History Quarter History Daily Clear Current Quarter Data Clear Performance Data of Quarter SlotNO Slot5 PortNO PORTA Clear no 1 Administrator can monitor the PM of different interface through Maintenance Interface menu All the PM records can be deleted 1f it is necessary 5 2 3 2 Maintenance Interface Status SHDSL
24. BER I1 El Parameters Threshold Parameters Version3 07 Near End Far End Configure T1 Near End Parameters Configure T1 Parameters SlotNO Slot5 Por tNO PORT1 LineType Framed ESF CRC LineCoding B878 IdlePattern 0x7f CableLength Short Haul Line Type Possible values are Framed ESF CRC Framed ESF Framed SF D4 or Unframed Line Coding Possible values are AMP or B8ZS Idle Pattern Sending pattern on the unused time slots The possible values are Ox7f or Oxff Cable Length Possible values are Short Haul or Long Haul The T1 circuit provides the function of cable length compensation from O to 200 meters Version3 07 Far End Near End of T1 15 minutes mode ES UAS One day mode ES SES UAS 26 Chapter 5 Operation of CID Craft Interface Device During performance monitoring the user can set the thresholds for different combinations of near end far end 15 min duration and 1 day duration A TCA will be issued whenever the monitored value has crossed the threshold setting 5 1 3 4 Configuration Interface Type El Parameters TAINET SCORPIO 1000A Version3 07 Near End Far End Near End of El Configure El Parameters SlotNO Slot5 PortNO PORTA LineType Framed_CRC Impedance Balance Idle Pattern Oxff 1 E Line Type Possible values are Framed CRC Framed no CRC or
25. ER FORWARDING 5 Slotll PORTI 00 50 BA 24 E2 42 251 FILTER FORWARDING 6 Slotll PORTI 00 60 08 16 6F 1C 251 FILTER FORWARDING 7 Slotll PORTI 00 80 C8 7F 54 40 251 FILTER FORWARDING 8 Slot11 PORTI 00 90 BB 19 18 15 251 FILTER FORWARDING 9 Slotll PORTI 00 80 C8 7B D3 A5 251 FILTER FORWARDING 10 Slotll PORTI 00 05 5D E5 17 D5 251 FILTER FORWARDING 11 Slotll PORTI 00 40 01 43 22 C1 251 FILTER FORWARDING 12 Slotll PORTI 00 50 BA 04 D0 1B 251 FILTER FORWARDING SPACE refresh page lt page up gt page down ESC abort Up to 128 MAC learning addresses can be stored in the forwarding table Filtering table TAINET SCORPIO 10004 Version 3 02 Near End View Filter Table of Near End SlotNO PortNO Address LAN WAN 1 Slotll PORTI 00 12 14 51 14 25 FILTER FORWARDING 2 Slotll PORTI ffiffi ffi ff RS O BA 222 222 3 Slot11 PORTI E EE DE tr tt ES 222 220 4 Slotll PORTI ff ES HS RE E tt 222 222 5 Slot11 PORTI Ef O O O E ff 222 Dine 6 Slotll PORTI fff fei tf E ft 222 aaa 7 Slotll PORTI E DR BA E E Wa NEM tel ES 222 Dipo 8 Slotll PORTI TELE ELE 222 222 9 Slot11 PORTI TENE 2292 THATA 10 Slotll PORTI ffiffi ffi ff O BH 222 222 11 Slot11 PORTI Pri fh fe er tre ES RA 222 22 12 Slotll PORTI DE ES TR TN E Hp 222 222 SPACE refresh page lt page up gt page down ESC abort Up to 20 MAC addresses can be configured to be filtered from the LAN or WAN interface 33 Chapter 5 Operation of CID Craft Interface Devic
26. Interface Status TAINET SCORPIO 10004 Version3 07 E1 SHDSL LAN FIBER Common Near End Far End Performance TAINET SCORPIO 1000A Power Backoff Power Scale PSD 4 Wire ANNEX View Line Status SlotNO PortNO Line Status SlotS PORT1 Line Status The possible SHDSL operational states are DSP Code Download Fail DSP Code CheckSum Error Port Disable Port Go Into Digital Loopback Fail Port BERT In Digital Loopback Fail Port Go Into Analog Loopback Fail Port BERT In Analog Loopback Fail Idle State Start UP State Data Mode Unknown State Port Has Been Reset DSP Local Bus Test Fail Port In Digital Loopback State Port In Analog Loopback State TAINET SCORPIO 1000A Version3 07 Common Near End Far End Performance Current 15Min Current Day Last 96 Quarters Last 7 Days PM Clear 5 2 3 3 Maintenance Interface Status LAN 32 Chapter 5 Operation of CID Craft Interface Device Interface Status TAINET SCORPIO 1000A Version3 07 El SHDSL LAN FIBER Filter Table Forwarding Table Forwarding Table TAINET SCORPIO 10004 Version 3 02 Near End View Forwarding Table of Near End SlotNO PortNO Address Time LAN WA 1 Slotll PORTI 00 20 5B 00 F6 FA 251 FILTER FORWARDING 2 Slotll PORTI 00 05 5D A1 11 62 251 FILTER FORWARDING 3 Slot11 PORTI 00 80 C8 7E E2 24 251 FILTER FORWARDING 4 Slot11 PORTI 00 50 BA 24 E5 6F 251 FILT
27. InterfaceCo only for special nfig version LoopBackSt atus Se et i ea Oooo o To O Save eee 56 Appendix B Appendix B Pin Assignment A Conversion Cable is enclosed for converting DB 25 to V 35 V 36 or X 21 interface There are three types of Conversion Cables depends on the customer s order The cable is enclosed in the shipped package DB 25 M V 35 F 20cm Figure B 1 The Conversion Cable of DB 25 M to V 35 F B 1 V 35 Interface Figure B 2 and Figure B 3 illustrate the DB 25M and V 35F interfaces respectively Refer to Table B 1 for pin assignments on these two interfaces 1 13 Figure B 2 DB 25M Interface A E K P U Y ce HH LETU Figure B 3 V 35 Interface Table B 1 DB 25 V 35 Cable Pin Definition DB 25 Male Signal V 35 Female Source 1 Frame Ground A Common 57 Appendix B 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 Ready H DTE 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 Y DCE 12 Terminal Timing B AA DCE B 2 RS 530 Interface Figure B 4 illustrates the RS 530 Interface Figure B 4 24
28. TAINET Scorpio 1000 Universal Sub Rack System USER S MANUAL The Professional Partner TAINET COMMUNICATION SYSTEM CORP Headquarters Beijing Branch No 25 Alley 15 Lane 120 Sec 1 3F A Building 113 Zhi Chun Lu HaiDian Nei Hu Rd Taipei 114 Taiwan District Beijing China TEL 886 2 26583000 Zip Code 100086 FAX 886 2 26583232 TEL 86 10 62522081 87 http www tainet net FAX 86 10 62522077 V1 4 07008 00071 2005 11 21 Scorpio 1000 User s Manual Rev 1 4 Copyright O 2005 TAINET COMMUNICATION SYSTEM CORP All rights reserved Notice This document is protected by the international copyright law No part of this publication may be reproduced by any means without the expressed permission of Tainet Communication System Corporation TAINET is a registered trademark and Scorpio 1000 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 YA Scorpio 100
29. Unframed E Impedance Nominal 120 ohms resistive symmetrical Balance pair or 75 ohm asymmetrical Unbalance pair E Idle Pattern Sending pattern on the unused time slots The possible values are 0x7f or Oxff 5 1 3 5 Configuration Interface Type LAN TAINET SCORPIO 1000A SHDSL FIBER T1 El LAN DATA Parameters Filter TAINET SCORPIO 1000A Version3 07 Near End Far End Configure Near End Parameters of LAN Parameter Configuration Full Duplex disable 1544 kbps disable LAN card option it provides the bridge option hence operator has the options to enable the full duplex and 1544 kbps speed TAINET SCORPIO 1000A Version3 07 Add Delete Add Near End Filter Address of LAN RecordNO 1 MAC Address I LAN FILTER WAN FILTER Up to 20 MAC addresses can be configured to be filtered from the LAN or WAN 27 Chapter 5 Operation of CID Craft Interface Device interface Up to 128 MAC learning addresses can be stored in the forwarding table There are three types of filtering settings FILTER DYNAMIC and FORWARDING DYNAMIC means that the handling of the MAC frame in the interface follows the learning result of the bridging function 5 1 3 6 Configuration Interface Type DATA TAINET SCORPIO 1000A SHDSL FIBER T1 E1 LAN DATA Parameters TAINET SCORPIO 1000A Version3 07 Near End Far End Near End of DATA Configure DATA Parameters Sl
30. ddress 0 0 0 0 Trap Status Inactive Trap Address 0 0 0 0 Trap Status Inactive Trap Address 0 0 0 0 Trap Status Inactive Trap Address 0 0 0 0 Trap Status Inactive Version3 0 Trap IP DateTime Alarm Default Mpu Reboot Baud Rate Date and Time Setup Date amp Time Setup Year Month Day Hour Minute Second 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 Setting the Data Time for correct time stamping of the alarm or PM data report The date time will be stored in non volatile memory so data will not be lost even when the system is powered off MPU IP Trap IP DateTime Alarm Default Mpu Reboot Baud Rate Alarm Cut Off Clear Alarm Log Alarm Switch Selecting Alarm Cut Off can clear an alarm as if pushing the ACO button A maximum of 200 records of alarm reports can be logged They can be cleared whenever desired Default reset the configuration data of the system to default values Mpu Reboot to reboot restart the MPU Baud Rate this option is for operator to change the Craft port baud rate the default baud rate is 9600 version 3 01 and earlier has default baud rate as 115200 Configuration Line Unit Configuration Version3 0 Line Unit Interface Type Security SW Download Parameters Timing ls Chapter 5 Operation of
31. de dia edad 5 2 1 MAIN FEATURES ai chelated cas dase iii 5 2 2 SHDSL INTERFACES unan aaa tadas A ad 5 2 3 NEFWORKSIDE INTERFACE ssa sea gia Eto 6 2 3 1 DSI Interfaces ts tees sev eset A A A LE 6 2 3 2 Bd Interfaces casa iii tees a 6 2 3 3 Vas Interact andador cad do 6 2 3 4 Ethernet Interface A AAA AA AA 6 2 4 TIMING AND SYNCHRONIZATION ccccccecccsceeeesceeceeeeceeeucesuueseeeueseeuueueueueueueueeeuaeeeeaness 7 2 5 OPERATION ADMINISTRATION AND MAINTENANCE ccccccceessceecseeeeeseeeeeeueeeeeueeeeeues 7 2 6 POWER SUPLE dd CER O E EE AE WAWA 8 2 7 OPERATING ENVIRONMENT ccccccccccsceeececeecesceueeeueuceeeeeseeeueseueueeeeeeeeueueusueneueuaeeesaes 8 CHAPTER 3 INTERFACING 00 ia 9 3 1 FRONT VIEN ORS TODO ssa di A nb A AAA A da 9 3 2 PEAR VIEWS anni aos alado 9 3 3 LINE B N nacida AA AAA 9 3 4 THE FRONT VIEW OF LINE UNITosciicidan acaricia idas 10 3 4 1 Status Indicators and Buttons eee errar area erre career rr er aeaaaa 11 3 4 2 The RS 232 DB 9 Female Pin Assignment w wssmsemmmmenennzaniwnmanzanisnmnimmmnnm azania 12 3 5 THE FRONT VIEW OF CONNECTION UNIT ccccccceeccceeeceseeeseeeeeseeeueeeueueeeueeeeueeeeeues 12 3 5 1 RS 232 DB 25 Male Pin Assignment w wsmmmmsnmenenmananmanmmmamenim amani a amna 13 3 5 2 Office Alarm Connectors DB 15 Male Pin Assignment ea 13 3 5 3 Power Supply Connector enirere rin ree ee ande aaa eaa Ee T a E E EE EnEn 14 3 5 4
32. e 5 2 3 4 Maintenance Interface Status Fiber Interface Status TAINET SCORPIO 1000A E1 SHDSL LAN EIBER Common Performance TAINET SCORPIO 1000A Version3 07 Performance SlotNO Slot5 PortNO PORTA FIBER OE TYPE Single OE FIBER OE 1 Status LINK FAIL FIBER OE 2 Status LINK FAIL_ TAINET SCORPIO 1000A Current Day Last 96 Quarters Last Days Near End Far End 5 2 4 Maintenance Slot Maintenance Led Status Version Info Card Status Interface Status TAINET SCORPIO 10004 Led Status TAINET SCORPIO 1000A Slot Test Card Reboot Power Status Version3 07 Card Status Version Information Slot NO Cpld Version FPGA Version Led Status Slot5 Software Version on Power Status Version Info Card Status Led Status Card Status Actual Card Type Required CPE Card Type Card Status Port Status Current Timing Source CPE Timing Source Line Rate 34 Power Status Slot5S PORT1 SHDSL E1T1 1 SHDSL E1 No Error Normal dte line 0 5 2 5 Chapter 5 Operation of CID Craft Interface Device TAINET SCORPIO 1000A Version3 07 Slot Led Status Slot NO Slot5 PortNO PORTA Status Active Status Li Inactive Status Li Active Status Inactive Status Active Status Inactive Status Inactive Status Inactive Version3 07 Power Status AC POWER 1 Empty AC POWER 2 Empty Maintenance Test Loopback TAINET SCORPIO 1000A Version3 07 Pat
33. e och ici 34 5 2 5 Maintenance Test Loop ku ii dete sei aria ueia ari odon nenas escitas 35 5 2 6 Maintenance Test Pattern test ooococononononononononononononononononononononononononononononananacanonanacanoss 38 5 2 7 Configuration Line Unit V 54 Test cece eeeessecsseceeceeceseceseeeseceseeeseesaeecaaecaaecaecaeenaeens 39 5 2 8 Maintenance Card Reboot aa aaa 40 de CONFIG BB na a AAA ASA AOS 41 SA SUI R At 41 SAT COMEN can cn asa ani 43 APPENDIX A VT 100 MENU TREE ssssseseeeeeeeeecece 45 APPENDIX B PINASSIGNMENT sesssssseseceeeeeeeeecece 57 B 1 V 35 INTERFACE sai 57 B 2 RS 530 INTERFACES aiii can 58 B 3 V 36 RS 449 INTERFACE 2 a id 59 B4 e TINTEREADE 200 AA 60 vi Figure 1 1 Figure 1 2 Figure 3 1 Figure 3 2 Figure 3 3 Figure 3 4 Figure 4 1 Figure 5 1 Figure 5 2 Figure 5 3 Figure B 1 Figure B 2 Figure B 3 Figure B 4 Figure B 5 Figure B 6 Scorpio 1000 User s Manual Rev 1 4 FIGURES Application of S1000 S 1400 System 2 The Interface Configuration of S1000 S1400 System 2 Front View Of S1000 sosirea iai aa i iea 9 Rear View OFS A EA 9 Front View of Line Units nens ensenis anr aa aa ae i Eai 10 Front View of Connection Units cccononcooononnnonocnnnnanonanonononcononanna no nononcnnon 12 Dimensi
34. ection The direction the pattern is sent in Possible values are SHDSL or Interface Test Start START or STOP sending the test pattern 38 Chapter 5 Operation of CID Craft Interface Device TAINET SCORPIO 10004 Version3 07 Loopback Pattern test 54 Test Pattern test SlotNO Slot5 PortNO PORTA 1 Test Pattern 2E11 1 Test Direction SHDSL Test Period 100 Test Start STOP 1 5 2 7 Configuration Line Unit V 54 Test In addition to loopback test function described in Figure 5 1 and Figure 5 2 the S1000 S1400 also supports V 54 in band signal to activate deactivate local loopback The sophisticated addressing capability enables network operator to isolate the defective point node by node from one end to the other The procedure and codeword comply with ITU T V 54 There are various testing methods supported by the S1000 S1400 as depicted in Figure 5 3 Each node in the T1 El traffic path has a unique address which is configured by the system operator so the node to be looped back can be identified Test pattern can be generated after the loopback is activated The test results will appear on the CID or UNMS as V54 Loopback Test Address 0x03 OK or V54 Loopback Test Address 0x03 FAIL Test Equipment or yi E S1400A V 35 T1 E1 address 2 address 5 address 7 address 9 a 140 RL E M SHDSL SHDSL V 35 T1
35. face 19 Chapter 5 Operation of CID Craft Interface Device 5 1 Version3 Trap IP DateTime Alarm Default Baud Rate version P Configuration Software IP Configuration discriptio IP Address 172 16 5 100 NetMask 259 259 0 0 Default Gateway 172 16 0 254 After the new setting is confirmed the MPU will auto reboot Operational h nt Configuration After successfully entering the password the CID will display the main menu page There are three main items in this menu TAINET SCORPIO 1000A Configuration Maintenance Config DB Summary System Line Unit Interface Type Security SW Download Configuration System Configuration TAINET SCORPIO 1000A Line Unit Interface Type Security SW Download IP Trap IP DateTime Alarm Default Mpu Reboot Baud Rate TAINET SCORPIO 1000A Trap IP DateTime Alarm Default Mpu Reboot Baud Rate IP Configuration IP Configuration IP Address 172 16 5 100 NetMask 255 255 0 8 Default Gateway 172 16 0 254 After the new setting is confirmed the MPU will auto reboot Set the IP address for managing the system via Ethernet port This is a must for UNMS Telnet and TFTP management 20 Chapter 5 Operation of CID Craft Interface Device TAINET SCORPIO 1000A Version3 07 Trap 1P DateTime Alarm Default Mpu Reboot Baud Rate Trap IP Configuration TrapIP Configuration Trap IP Address 210 65 231 120 1 Trap IP Status Inactive Trap A
36. ft Interface Device Shdsl Config Interface Config Loop Back Status SHDSL Configure Summary Actual CO Required CO Loop RT CO CLK Wires Rate NOR ROR NDA RS eoooeooo Shdsl Config Interface Config Loop Back Status Interface Configure Summary CO_I F C0 Config RT_I F Empty Empty Empty Empty Empty Empty Empty Empty Shdsl Config Interface Config Loop Back Status Loop Back status Summary LoopBackType_Port1 LoopBackType_Port2 42 5 5 Chapter 5 Operation of CID Craft Interface Device Shds1_PM_15min1 Shdsl_PM_ida SHDSL PM 15min Summary Loop C_SNM R SNM CES RES E1 T1 PM 15min E1 T1 PM Iday C SES R_SES C UAS RUAS C_LSW RIS 1 2 1 2 1 2 1 2 N e NO N jd Save The Save feature is used to save the current configuration to be the Default initiation setting of the Scorpio 1000 If the setting is not saved the configuration will be lost after reboot TAINET SCORPIO 1000A Version3 07 Configuration Haintenance Save Configuraton Save CDB no 1 43 Config DB Summary Save Appendix A Appendix A VI 100 Menu Tree Table A 1VT 100 Menu Tree for Scorpio 1400A Configuration System__ IP ipaddress J peen 1 e 0 IdetultGw 192 168 1 254 168 1 254 al E Month Day Second Do mam Alarmeut off ae Jaam switch Alarm Type Byuser choose user ch
37. if operating instructions are not followed properly 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 iii Scorpio 1000 User s Manual Rev 1 4 WARRANTY AND SERVICE Contact _ f 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 Nei Hu Rd Taipei Taiwan R O C TEL 886 2 2658 3000 E mail sales tainet net FAX 886 2 2658 3232 URL http www tainet net Moscow Branch Phone 7 095 518 5777 URL http www tainet ru Beijing Branch 3F A Building 113 Zhi Chun Lu HaiDian District Beijing China Zip Code 100086 TEL 86 10 62522081 87 E mail marketing tainet com cn FAX 86 10 62522077 URL http www tainet com cn Scorpio 1000 User s Manual Rev 1 4 CONTENTS CHAPTER 1 INTRODUCTION od 1 1 1 ONE RUE Need AA 1 es APGA Nasa abla aaa 1 1 3 MANAGEMENT da OA 3 1 4 SYSTEM ELEMENTS ti ted cd anena 3 CHAPTER 2 SPECIFICATIONS la ii ua aaa
38. ions in the same chassis under a single management system All cards and cables are hot swappable during system 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 El DATA V 35 V 36 RS449 X 21 RS 530 and Ethernet Application The SHDSL System consists of a central unit or STU C for SHDSL Transceiver Unit Central at the central office and a remote unit or STU R for SHDSL Transceiver Unit Remote at the customer premise The services are extended to the remote customers over copper wires or leased lines using GSHDSL technology or fiber Various interfaces are supported such as El T1 DATA V 35 V 36 RS449 X 21 RS 530 and Ethernet Figure 1 1 shows the typical application diagram Figure 1 2 depicts the possible interface configurations using GSHDSL between STU C and STU R Chapter 1 Introduction Telco Centra
39. k 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 is also able to be activated and deactivated by in band signal and the procedure and codeword will comply with ITU T V 54 For V 35 interface STU R the ITU T V 54 in band activated and deactivated loopback codeword provided by 1400 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 Note There are different loopback type could be configured When it acts as CO all remote loopback types will display the N A It means the item can t be applied vice versa When it act as CPE all CO loopback types will display the N A It means the item can t be applied RT is represented as remote 36 Chapter 5 Operation of CID Craft Interface Device STU C STU R a b c d G SHDSL gt DS1 or El DS1 or El STU C STU R a b c d G SHDSL gt DS1 or El V 35 _ q STU C STU R e f
40. l Office Remote Customer Premises Scorpio 1000 Scorpio 1400 E1 T1 V35 G SHDSL Ethernet E1 T1 V35 o 4xE1 4xT1 AO Fiber ET Fiber E3 T3 HSSI eeo o 3 CID v 2 7 CID v 2 El future release z Ethernet ata Me Router II CID DataBase Telnet TFTP server server Figure 1 1 Application of S1000 S1400 System DS1 STU C G SHDSL STU R DS1 E1 STU C G SHDSL STU R E1 DS1 STU C G SHDSL STU R V 35 E1 STU C G SHDSL STU R V 35 V 35 STU C G SHDSL STU R V 35 Ethernet sTU C G SHDSL STU R Ethernet Figure 1 2 The Interface Configuration of S1000 S1400 System 2 1 3 1 4 Chapter 1 Introduction Notice that S1400 can be configured as STU C or STU R S1400 should be STU R when connected with S1000 Note The Scorpio 1400 can be configured as either STU C or STU R But when connected to a Scorpio 1000 the 1400 will always be an STU R Management S1000 is managed by the UNMS via the MPU card The UNMS is a PC based or UNIX based SNMP management system The UNMS provides an user friendly GUlI based operational interface under the PC Windows or HP OpenView systems Configuration and monitoring are also provided via an ASCII terminal Craft Interface Device or Telnet Network manageme
41. lot5 PortNO PORT1 Required Card Type SHDSL E1 1 Required Card Type of CPE SHDSL E1 Required Modem Data Rate Input 1732 64kbps 31 1 Required Modem Type To select the far end DTE interface type The possible configurations are specified in Figure 1 2 The Interface Configuration of S1000 S 1400 System 5 1 2 2 Configuration Line Unit Timing TAINET SCORPIO 1000A Version3 0 Parameters Timing Set Timing Source SlotNO PortNO PORTA Timing Source dte Timing Source of CPE line 5 1 3 Configuration Interface Type TAINET SCORPIO 1000A Version3 07 System Line Unit Interface Type Security SW Download SHDSL FIBER T1 E1 LAN DATA Four types of DTE interfaces are available for the S1400 SHDSL E1 T1 DATA The DATA connector interfaces include V 35 X 21 V36 RS499 and RS530 5 1 3 1 Configuration Interface Type SHDSL Interface Type TAINET SCORPIO 1000A SHDSL FIBER T1 El LAN DATA Param Near End Far End Threshold PortEnable 23 Chapter 5 Operation of CID Craft Interface Device TAINET SCORPIO 10004 Version3 07 Near End Far End Threshold PortEnable Set Power Parameter Slot3 Slot Slot Slot8 Slotl Slotii Slot12 Slot14 Near End Far End Threshold PortEnable Set Power Parameter SlotNO Slot5 PortNO PORTA Power Backoff enable Power Scale 0 PSD Sym 4 Wire 2wire ANNEX_A_B A EH Power Back off If the Power Back off function is enabled
42. n PWR On The card is powered on INS On The card finishes the startup procedure and passes the test EXT CLK On An external clock is detected MAJ On A major alarm has occurred MIN On A minor alarm has occurred ACT On Data is transmitted received actively on the SHDSL link COL On Collision is occurring on the Ethernet management port ACO On When the ACO button had been pressed once but the alarm is not cleared yet indicating the user is aware of the alarm Connector Description Craft DB 9 female RS 232 connector for local CID VT 100 console Push Button Description ACO Alarm Cut Off button to turn off the audible alarm LED TEST Press this to light up the LEDs on all of the inserted line units RST Resets the MPU software Table 4 Front Panel of SLU LED Indicator Description Common PWR On The card is powered on INS On The card finished startup procedure and passed the test LINK On HDSL link has entered data mode Slow blinking SHDSL link is in startup stage Fast blinking SHDSL link is in handshaking stage Off the SHDSL link is not connected ACT On Data is transmitted received actively on the Ethernet management port El T1 LOS On ALOS defect has been detected AIS On An AIS defect has been detected RAI On A Remote Alarm Indication defect has been detected TST On A local loopback function has been activated DATA TD On Indicates data has being tran
43. nt provides centralized control functions of all S1000 systems and remote modems in the network including interface configuration connection setup alarm surveillance and performance monitoring Direct 10 100BaseT Ethernet connection enables real time management of central and remote sites Performance data is available in UNMS database which can be saved in a file for accounting purposes S1000 can also be managed from a CID The CID provides user friendly menu driven operation interface It is running under a standard VT 100 program like Telix or Hyper Terminal Telnet protocol is supported for remote management via IP network A new software release can be downloaded into the S1000 m Remotely via Ethernet port running TFTP protocol m Locally via CID console terminal running XMODEM protocol System Elements Two different physical versions of the S1000 are available S1000A ANSI version The chassis has 14 slots that accommodate up to 14 or 28 if dual port card modem interface units Card insertion LED viewing and switch operation are done at the front side of the shelf But cable connections are done at the rear of the shelf So the line cards can be hot swapped without removing the cables This compact 4U high shelf complies with the American ANSI standards S1000E ETSI version The chassis has 16 slots that accommodate up to 16 or 32 if dual port card modem interface units Card insertion LEDs switches and cable connections a
44. ntenance Card Reboot Reboot the card in any slot Haintenance TAINET SCORPIO 1000A Version3 07 Led Status Interface Status Slot Test Card Reboot Reboot the Card SlotNO Slot5 Reboot no 1 40 Chapter 5 Operation of CID Craft Interface Device 5 3 Config DB The S1000 support automatic and manual configuration backup and restoration to from local nonvolatile memory and UNMS database Comes with the capability to Upload Download the configuration database to from the remote TFTP server user can duplicate configuration at numerous ports TAINET SCORPIO 10004 Configuration Maintenance Config DB Summary Save Version Upload Download fiction TAINET SCORPIO 1000A Version3 07 Version Upload Download Current CDB Version CDB Version Content Version 468 Schema Version 0 20 Update Date Time 06 28 2002 17 35 44 Config DB TAINET SCORPIO 1000A Version3 07 Version Upload Download Action Upload CDB CDB Upload CDB Upload Server IP 192 168 1 1 File Name Starting Upload no TAINET SCORPIO 1000A Version3 07 Version Upload j Download Action Swap Abort 5 4 Summary In the Scorpio 1000 the summary section is able to provide operator all configuration and testing status in one page view The Summary page showed as below TAINET SCORPIO 1000A Configuration Maintenance Config DB Summary Shdsl Config Interface Config Loop Back Status PM 41 Chapter 5 Operation of CID Cra
45. ons of S wa 17 STU C Side Activated LOOP UAC dd 37 STU R Side Activated Loopback ooonoocnnncccnincccnoncccnonacononnncononanonananononanos 38 The Test Methods for V 54 Loopback Control ooooconnnccccnocccnnoncccnoncccnnnnnos 39 The Conversion Cable of DB 25 M to V 35 EF mwewe 57 DB 25M Interface a A AA do do La 57 VIS Interac 6 add pta ade 57 KISII a 58 DB 37Pntertace sms aid shee es 59 XD AA ALA 60 Vii Scorpio 1000 User s Manual Rev 1 4 Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table A 1 Table B 1 Table B 2 Table B 3 Table B 4 TABLES Timing and Synchronization Modes eres 7 Interface Combinations santas 10 Front Panel of MPU nissan iio ed leia sanidad 11 Front Pane Or SU add 11 System Alarms Descript ON Aa 29 SHDSL Alarms Description aiii ici rencia 30 TVET Alarms Description sido iaer a 30 VT 100 Menu Tree for Scorpio 1400A ooonoccnnncccnonccconccccnoncnonancccnnncnonnnanos 45 DB 25 amp Vas Cable Pinet sssias e a 57 RS 530 Connector Pin Definition ooonoocccnnnccnnonccononcnononccnnnnccnnnnocono nociones 58 V 36 RS 449 Cable Pin DefinitioN wwswwmmwemmnemnnmmmwamwama 59 2 Cable PDA AN AAA AAA AAA 60 vili Chapter 1 Introduction Chapter 1 Introduction 1 1 Overview DSL Digital Subscriber Loop technologies increase the bandwidth capacity of the local copper loops providing traditional
46. oose Alarm Em Enable po poar on Baud Rate 9600 115200 Line Unit Parameter CardType requiredCar lt slot gt o Cammand dType RequiredC lt slot port gt nm PECardTyp e ModemDat lt slot port gt DS aa YAA pm EE line internal SHDSL Param Power lt slot port gt Enable disable Type Bach Power Sym Asym Mre 4Wire P PSD WAA O O KA Daa O E NearEnd E lt slot port gt TENA LineThresh o 45 Appendix A FarEnd E lt slot port gt SE al am ee TA Mode 15min 60 ee e Mode 15min 60 mi a A eee DT E O fpiseticenatio a software DER a OE Loop o ovo E i Port 1 Auto software OE Loop OE OBS Data Port location Port location E ee E Rd A NR Mode Em 300 o ES Mode day 300 current Daily lt slotport gt Novos histoyQuarer lt slotport gt Novos History Daity lt slotport gt Noses __ Frar nd CurentQuarter lt slot por NOS Noyes History Quarter __ lt slot RE No yes History Daily lt slot port gt No yes Parameter NearEnd LineType lt slot port gt LineCoding lt slot port gt idiePattem Do Po Short Haul Unframed FarEnd LineType lt slot aa o ia LineCoding lt slot port gt Unframed framed ESF C RC framed noCRC framed SF D4 AMI B8ZS framed noCRC framed SF D4 AMI B8ZS Ox7f Oxff CRC IdlePattern 46 Appendix A
47. ot port gt HistiDayS ESs Hist1 DayU ASs Hist1 DayL OSWs Far End HistiDayE lt slot port gt Ss Hist1 DayS ESs Hist1 DayU A AA E A E A on Type RequireCP lt port gt ECardType lastaus II Doors II CurrentTimi lt port gt ngSource Cpe timing lt port gt source LineRRate lt port gt Led Status ledstatus Power Status Power Status Patentest PortNo i 2E11 1 2E15 1 TestPattern Gres SE 54P V54T Test SHDSL Direction Interface To iesrei second presta TSAR STOP 54 Appendix A Normal Local Loopback Remote Loopback Local PayLoad Loopback Remote PayLoad Loopback N A CPE Remote Loopback cpe side command N A CPE Remote PayLoad Loopback cpe side command Disable Enable ll f V 54 Test V 54 lt slot port gt Parameter V 54 Enable V 54 Far end Address V 54 Near end Disable Enable 0x03 0x01 0x7f 0x03 0x01 0x7f Address V 54 PortNO port Generator STOP V54 oor LOOPBACK START V54 LOOPBACK SHDSL E Interface Direction 0x03 A V 54 P oa EEE ff O O E AI DB Version e ersion oi ersion cdbUpdated x DateTime Upload cdbUpldSeve Blank rIP oo Blank am e Download EEE Blank E cdbDnldFileN a StartingDown load Action Save a O Sl eee yoo swap o O RS Appendix A pT ros pp Summary _ ShdsiGonfigl
48. otNO Slot PortNO PORTA DTE Type 436 RS449 exc pin detect disable Tx data inversion inverse Rx sample edge Rising Rx data inversion inverse E DTEType V35 V36 RS449 X21 or RS530 E Tx 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 EH Rx sample edge Rising or Falling E CTX Mode is Always ON or Follow RTS 5 1 4 Configuration Security TAINET SCORPIO 1000A Version3 87 Community System Password Configuration Console Port Password tainet Telnet Username tainet Telnet Password tainet Password it provide user to change the operation password for access the device 28 5 2 5 2 1 Chapter 5 Operation of CID Craft Interface Device TAINET SCORPIO 1000A Version3 07 Password Community SNMP Community Configuration SNMP Agent GET Password public SNMP Agent SET Password private SNHP TRAP Password public Community an option to change the SNMP community password setting Configuration SW Download Configuration TAINET SCORPIO 10004 Version3 07 Line Unit Interface Type Security SW Download Download Swap TFTP software upgrade is supported SW Download TAINET SCORPIO 1000A Version3 0 Download Swap The Software Line Unit i lt Slot gt Sloti Slot Slot3 Slot Slots Slot6 Slot Slot8 Slot9 Sloti
49. phone service to the subscribers GSHDSL is designed for business applications where high speed transmission is required in both upstream and downstream directions It provides symmetrical data rates from 192Kbps to 2 304Mbps 2 wires for a distance up to 20Kft using the SHDSL transmission technology The actual speed reachable however depends on the distance between the customer premise and the Telco central office Performance varies with loop characteristics also such as line quality wire gauge noise and the number and locations of bridged taps and gauge changes The GSHDSL bit rate can be configured rate adapted to match the line conditions for optimum performance The Tainet Scorpio 1000 S1000 provides full coverage in the Last Mile with a variety of technologies rates interfaces and media The system supports standard technologies such as GSHDSL as well as others Each card in the 1000 is in a point to point configuration opposite to a distant end remote unit and is without any connection to its adjacent cards This allows totally independent operation for each of the ports and cards in the S1000 Three types of technologies will be provided in 1000 2 wire GSHDSL modem 4 wire G SHDSL modem and fiber optic modems The 1000 is a high density universal rack mounted system The chassis has 14 slots that accommodate up to 14 or 28 if dual port card modems Using modular interface cards S1000 can support SHDSL or fiber optic transmiss
50. re at the front The Line Cards can still be hot swapped without removing cables This version is 30 cm high or about 6U high and complies with European ETSI standard Chapter 1 Introduction There are several types of line cards available for the S1000 system One port and two port line cards can coexist in a shelf 1 PSU AC AC Power Module 2 MPU Main Processing Unit 3 SLU SHDSL Line Unit m SLU EITI IP SLU E1T1 2P SLU DATA 1P SLU DATA 2P SLU LAN 1P SLU LAN 2P 4 FLU Fiber Line Unit FLU E1T1 1P FLU E1T1 2P FLU DATA 1P FLU DATA 2P FLU LAN 1P FLU LAN 2P BPU Backplane Unit 6 CU Connector Unit MPU CU SLU CU E1T1 SLU CU DATA SLU CU LAN YA E Chapter 2 Specifications Chapter 2 Specifications Main Features The chassis has 14 slots accommodating up to 14 or 28 1f dual port card modems Carrying symmetrical 2048 Kbps payload for up to 2 4 miles 3 9 Km over 26 AWG single pair copper wire Supporting loop interface in G SHDSL and fiber in near future Supporting DTE interface T1 El DATA V 35 X 21 RS 530 V 36 RS449 and Ethernet With 1 pair both DS1 and El 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 DSI n 1 to 31 for El 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
51. smitted RD On Indicates data is being receiving DCD On The device is sending DCD Data Carrier Detected signal toward DTE interface RTS On The device is receiving RTS Request To Send signal from DTE interface LAN ACT On Data is transmitted received actively on the SHDSL link COL On Collision is occurring on the Ethernet management port Push Button Description LOOP BACK Press to activate the local loopback function Chapter 3 Interfacing 3 4 2 The RS 232 DB 9 Female Pin Assignment 5 4 3 2 1 00000 0000 9 8 7 6 PIN Description 1 Data Carrier Detect DCD 2 Receive Data RXD 3 Transmit Data TXD 4 Data Terminal Ready DTR 5 Signal Ground 6 Data Set Ready DSR 7 Request To Send RTS 8 Clear To Send CTS 9 Ring Indicator RI 3 5 The Front View of Connection Unit The MPU PSU and each SLU card all have a corresponding CU Connection Unit connected to the rear side of the back plane for the purpose of connecting various cables S SLU CU LAN SHDSL E E Fit m _ 3 3 x Ethernet 10 100M mb II x I 2000 OHO f N AN ETHERNET 10 100M x D Figure 3 4 Front View of Connection Units 12 Chapter 3 Interfacing 3 5 1 RS 232 DB 25 Male Pin Assignment This DB 25 interface is for remote management via PPP session 1 2 3 4 5 6 7 8 9 0 1
52. tern test 54 Test Loopback test SlotNO Slot PortNO PORTA Loopback Test Normal Timeout min 6 For test and diagnostic purpose the S1000 system provides various loopback paths which are depicted in Figure 5 1 and Figure 5 2 below a b c d e 2 h Normal Local Loopback Remote Loopback Local Payload Loopback Remote Payload Loopback CPE Remote Loopback CPE Side Command N A CPE Remote Patload Loopback CPE Side Command CPE Local Payload Loopback CPE side command 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 35 Chapter 5 Operation of CID Craft Interface Device 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 networ
53. the transmit power from the other end of STU will be reduced in steps of 1 dB from 0 up to 6 dBs according to the received power The configurable values are Enable or Disable EH Power Scale The value of this argument adjusts power in small increments a fraction of a dB to compensate for minor differences in power between testing units EH PSD possible values are Sym or Asym This is used to let SHDSL transceiver to use a symmetrical or asymmetrical power spectral density mask as specified in G 991 2 standard E 4 Wire Used to enable or disable 4 wire framing E ANNEX A B Used to select the local STU supporting G 991 2 Annex A or B TAINET SCORPIO 1000A Version3 07 Param Near End Far End Threshold PortEnable Configure Near End Thresholds SlotNO Por tNO SnrHgn Threshold Atn Threshold ATCA Threshold Crossing Alert will be reported if the SNR margin is lower than the set value 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 Port Enable this enables the GSHDSL port to be active 24 Chapter 5 Operation of CID Craft Interface Device 5 1 3 2 Configuration Interface Type Fiber Version3 07 SHDSL EIBER Ti El LAN DATA Near End Far End Threshold Clear Near End Far End Threshold Configure Fiber Near End Parameter SlotNO PortNO OE OPTION Hardware Auto selection DE LOOP
54. us bit stuffed upstream upstream is possible Plesiochronous Operation Administration and Maintenance m The UNMS manages S1000 system via SNMP interface and provides a user friendly GUI based operation interface under PC Windows or HP OpenView systems Support for standard MIB RFC 2495 for DS1 E1 and RFC3276 for SHDSL interface CID Console user friendly menu driven operation SNMP management message interface Remote control monitoring of S1000 via Telnet and Ethernet Remote in band control monitoring of CPE via GSHDSL EOC Remote Software Upgrade Remotely via Ethernet port running TFTP protocol or locally via CID console terminal running XMODEM protocol Automatic and manual configuration backup and restoration to from the local nonvolatile memory and UNMS database Up downloads the configuration database to from the remote TFTP server so user can duplicate configuration at numerous ports m Support for default configuration setup m Provides a relay contact for extending alarm to the external audible and visible alarm system m Support for Alarm Surveillance function m Support for Performance Monitoring function m For test and diagnostic purpose the 1000 S1400 system provides various loopback paths which are depicted in Figure 5 1 STU C Side Activated Loopback and Figure 5 2 STU R Side Activated Loopback m For each STU C and STU R the built in PRBS generation and detection are
55. y Width 481mm 19 including bracket Depth 380mm 15 E S1000E Height 8U Width 21 inch including bracket Depth 310mm E Unit for SLU FLU MPU PSU AC Height 155 mm Width 300 mm E Unit for CUs Height 155 mm Width 60 mm Figure 4 1 Dimensions of S1000 4 2 Carton Contents As you unpack the carton verify the contents according to the packing list If you find 17 Chapter 4 Installation and Setup 4 3 anything missing or damaged contact your sales representative for assistance After installing the S1000 keep the user s manual or unused cables and accessories for future maintenance or servicing of the S1000 Preparing for Installation To begin installing the S1000 have the following accessories ready EH A console terminal with standard VT 100 emulation program This is a computer or notebook that is connected to S1000 for console operation It should be installed with standard VT 100 program like Telix or HyperTerminal running Version 5 or above The craft port speed is 9600 by default and it is a software configurable option 9600 115200 for the software version is 3 01 or earlier the craft port speed is 115200 by default and the speed is not configurable EH Two straight through RS 232 cables a A DB 9 male cable is used to connect the S1000 to the above console terminal for VT 100 session b A DB 25 male cable is used to connect the
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