Atrie WireSpan 600/610
Contents
1. 1 l N A 12 N A 133 N TxC B AA 12 23 14 IN TxC A Y 15 5 15 OUT RL BB 21 14 16 N A 17 IN DSR E 4 18 IN CTS D 19 TM K 25 18 20 IN DCD F 21 l N A 22 IN RxC B X 9 26 13 23 N RxC A V 17 8 6 24 IN ID 3 5 25 N ID 2 19 8 26 OUT DTR B 23 30 27 OUT DTR 20 12 28 OUT RTS B 19 25 29 OUT RTS A 4 7 30 N A 31 l N A 32 IN ID 1 s 33 ID 0 B 19 34 SG B 19 35 N A 36 N A 37 l N A 38 OUT DTR H 39 OUT RTS s 4 40 OUT LLB J 4l IN DSR B 22 29 42 DSR A 6 1 4 N A 44 l N A 45 N CTS B 13 27 46 CTS I 5 9 ag Ws N A A 5 48 IN RxD B T 16 24 1 49 IN RxD A R 3 6 4 50 SG B 7 19 A 6 WireSpan 600 MENU TREE Ver1 0 lt lt LOOPBACK gt gt DLB lt DIAGNOSTIC gt LOOPBACK lt lt LOOPBACK gt gt DISABLE Control Signals CTS RTS DCD lt lt LOOPBACK gt gt LLB Control Signals DSR DTR lt CONFIGURATION gt DTE DCE SETUP lt lt DTEIDCE gt gt CTS RTS OPTION lt lt DTE DCE gt gt DSR DTR OPTION lt lt lt CTS RTS gt gt gt FOLLOW SYNC lt lt lt DSR DTR gt gt gt ALWAYS ON lt lt lt DSR DTR gt gt gt FOLLOW SYNC lt lt DTE DCE gt gt DCD OPTION lt lt lt DCD gt gt gt2. 2 37V Jitter performance complies with the requirements of ITU T Rec G 823 1 4 The El link interface supports PCM 31 frames time slot 16 available for user s data and PCM 30 frames time slot 16 not available for user s data WireSpan 600 also supports the CRC 4 option specified in ITU T Rec G 704 The framing mode and the use of the CRC 4 option are independently selectable by the user In addition WireSpan 600 can also operate in the unframed mode In this mode WireSpan 600 610 operates as an interface converter enabling the transfer of unstructured 2 048 Mbps data streams or data streams with proprietary framing generated by equipment with ITU T Rec V 35 EIA RS 530 EIA 5 449 and X 21 interfaces via the E1 network Note WireSpan 610 always operates in unframed mode The user can select the number of main link time slots used to carry the payload data The timing of the receive path of the Wirespan 600 610 E1 link interface is always locked to the clock signal recovered from the received line signal The timing of transmit path can be locked to one of the following three sources e Internal clock oscillator having an accuracy of 30 ppm e The recovered receive clock signal The maximum track range is 130 ppm e Lock data port clock signal The maximum track range is 100 ppm Control of WireSpan 600 Operation WireSpan 600 is designed for fully automatic unattended operation Its configuration is d
3. 230 10 47 to 63 Hz Power consumption 5Watt 0 to 509 Up to 90 non condensing CHAPTER 2 Installation and Setup 2 1 General This chapter provides instructions for mechanical and electrical installation of the WireSpan 600 610 model After installing the unit refer to Chapter 3 Operation for operating instructions In case a problem is encountered refer to Chapter 4 Troubleshooting amp Diagnostics for test and diagnostics instructions Warning No internal setting adjustment maintenance and repairs may be performed by either the operator or the user such activities may be performed only by a skilled technician who is aware of the hazards involved Always observe standard safety precautions during installation operation and maintenance of this product 2 2 Site Requirements amp Prerequisites AC powered WireSpan 600 610 units should be installed within an easily accessible grounded AC outlet capable of furnishing the nominal supply voltage 100 115 or 230 VAC in accordance with your order The ambient operating temperature of WireSpan 600 610 is 0 to 50 at a relative humidity of up to 9096 non condensing 2 3 Package Contents A preliminary inspection of the equipment container should be made before unpacking Evidence of damage should be noted and reported immediately The WireSpan 600 610 package includes the following items e WireSpan 600 unit or Wirespan 610 unit 2 e CD d
4. FOLLOW SYNC lt lt lt CTS RTS gt gt gt ALWAYS ON lt lt lt CLOCK SRC gt gt gt DTE DCE lt lt DTE DCE gt gt CLOCK POLARITY lt lt lt CLOCK INV gt gt gt NORM INV lt lt lt DCD gt gt gt ALWAYS ON lt lt lt CLOCK SRC gt gt gt INTERNAL lt lt DTE DCE gt gt DATA POLARITY lt lt lt DATA INV gt gt gt NORM INV lt lt E1 SETUP gt gt CLOCK SOURCE lt lt lt CLOCK SRC gt gt gt E1 G703 lt lt lt FRAMING gt gt gt PCM31 CCS CRC B 1 WireSpan 600 MU 1 0 ROM 1 0 E1 E1 PCM31 RJ48C V35T lt CONFIGURATION gt E1 T1 SETUP lt lt E1 SETUP gt gt FRAMING lt lt lt FRAMING gt gt gt PCM31 CCS E1 STATUS LOF YEL CRC lt CONFIGURATION gt TS MAPPING TS00 07 00 ALL F lt lt 1 SETUP gt gt LINE CODING lt lt lt LINE CODE gt gt gt AMI HDB3 lt lt lt FRAMING gt gt gt UNFRAMDED lt DEFAULT SETUP gt Load Default lt lt LOAD DEFAULT gt gt YES NO TS08 19 00 OK 19 lt lt 1 SETUP gt gt IDLE CODE lt lt lt IDLE CODE gt gt gt 7 FF PASS lt lt lt FRAMING gt gt gt PCM30 CAS CRC 520 31 00 OK 31 lt lt E1 SETUP gt gt INTERFACE TYPE lt lt lt INTERFACE gt gt gt BNC RJ48C lt lt lt FRAMING gt gt gt PCM30 CAS
5. If not troubleshoot the remote Wirespan 600 610 and thee E1 link Perform the activities listed in No 4 above Perform the activities listed in No 4 above Re insert data port interface cable APPENDIX Interface Specifications A 1 E1 Balanced Port connector The 1 balanced port interface is terminated in an eight pin RJ 48C connector designated E1 LINK and wired in accordance with Table 1 2 Data Port Connector Table A 1 E1 LINK Connector Pin Allocation Pin Function 1 Transmit Data Out tip 2 Transmit Data Out ring 3 Not Connected 4 Receive Data In tip 5 Receive Data In ring 6 Not Connected 7 8 Not Connected The data port interface is terminated in a 50 pin SCSI type female connector wired in accordance with Table 4 2 Table A 2 Data Port connector Wiring Pin Designation Direction Function 1 FGND Frame ground 2 RxD B OUT RX data B wire 3 RxD A OUT RX data A wire 4 N A Not Connected 3 N A Not Connected 6 RxC B OUT RX CLK B wire 7 RxC A OUT RX CLK A wire 8 DCE DCD B IN Carrier detect from DCE B wire 9 DCD IN Carrier detect from DCE A wire 10 TxC B OUT TX CLK B wire 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 TxC A N A TxC B DCE TxC A TM N A DTR RTS RLB LLB N A ETC B ETC A ID 3 I
6. 00 610 applications El Transmission Facilities Router WireSpan 600 WireSpan 600 Router WireSpan 600 WireSpan 600 Cascades mode PBX Figure 1 1 Typical Wirespan 600 Application Features e El or fractional El access unit e Support one digital data port e Selectable sync data rates of n x 64 kbps up to 2048 kbps e V 35 RS 530 RS 449 or X 21 data interfaces e Framing format PCM31 PCM30 with or without CRC 4 e Zero suppression AMI HDB3 e El interface complies with ITU G 703 G 704 G 732 G 823 G 706 e Unframed over El Options WireSpan 600 is available with the following option e 90 120 or 230V 10 47 63 Hz Adapter e DTE or DCE data port changeable cable e WireSpan 610 is simple version with unframed mode 1 2 Physical Description WireSpan 600 610 are designed for desktop installation Installation procedures for the WireSpan 600 610 models and respective versions are provided in Chapter 2 Installation and Setup 1 2 Top Panel LED s The LED indicators on the top panel see Figure 1 2 indicate the operating status of WireSpan 600 Various indicators display status of E1 or data port alert conditions work mode Figure 1 2 General View Connectors The power and interface connectors are located on the lateral panel of WireSpan 600 610 A description of the lateral panel can be found in interfaces and connectors 13 Functional Description W
7. 600 610 and the local user s equipment and the local data port interface WireSpan 600 610 User Port El Link nterface Interface Figure 4 2 Local Loopback 4 3 Troubleshooting Instructions Preliminary Checks In case a problem occurs perform the following preliminary checks 4 2 e Check the configuration of the local and remote WireSpan 600 610 units against the prescribed configuration e Check cable connections and the equipment used on the E1 link connecting the local WireSpan 600 610 to the remote equipment e Observe the top panel indicators and analyze the indications Refer to Status Indications for descriptions of indicator functions Troubleshooting If the trouble cannot be corrected by performing the preliminary checks listed above use the information in Table 4 1 to identify the trouble symptoms and perform the actions listed under Corrective Measures in the order given until the problem is corrected If the problem cannot be corrected by carrying out the listed actions have the Wirespan 600 610 check by the technical support personnel Table 4 1 Troubleshooting Chart Trouble Symptoms Probable Cause Corrective Measures 1 WireSpan 600 610 1 No power Check that both ends of the are 0680 all the WireSpan 600 610 power cable indicators including are properly connected and that PWR are off power is available at the outlet 2 Defective Replace the WireSpan
8. 600 610 WireSpan 600 610 2 Local WireSpan 600 1 External Activate the local loopback Check 610 reports sync loss problem that local WireSpan 600 610 SYN indicator is ON If the indicator is ON the problem is external 4 3 3 4 BPV indicator on the local Wirespan 600 610 blinks Data port control signals are off Local equipment does not receive the data sent by the remote equipment No transmission of data 1 Defective Wirespan 600 610 2 Problems on the E1 link 1 Local user s equipment is off or is idle 2 Defective cable External problem 2 Problem at local end 3 Problem at remote end Data port interface not inserted correctly 4 4 Activate the local loopback Check that the local WireSpan 600 610 SYN indicator is On If indicator off turn the local Wirespan 600 610 on with the local loopback activated Check that the BPV and AIS alarm indicator turns off If not replace the WireSpan 600 610 Troubleshoot the E1 link between the local and the remote WireSpan 600 610 Check that the user s equipment is powered and its control signal lines are asserted Perform self test on the equipment Activate the local loopback and check that the local user s equipment receives its own transmission If not replace the cable connecting it to the Wirespan 600 610 Activate the digital loopback and check remote 1 equipment receives its own transmission
9. Atrie WireSpan 600 610 MODEM User s Manual Atrie WireSpan 600 610 Fractional E1 Access Unit Installation and Operation manual CHAPTER 1 CHAPTER 2 CHAPTER 3 CHAPTER 4 APPENDIX A MENU TREE CONTENTS Intet ducti A suu RSS 1 1 Installation and Setup 2 1 Operat Olanani a 3 1 Troubleshooting amp Diagnostics 4 1 Interface Specification 1 manana 1 CHAPTER 1 Introduction 1 1 Overview WireSpan 600 is a cost effective single port fractional El access unit The fractional E1 service makes unused time slots on long range E1 trunks available for other users WireSpan 600 provides a synchronous data channel that supports user selectable transmission rates The available data rates are integer multiples of 64 kbps the multiples range is 1 through 32 corresponding to a maximum of 2048 kbps The user s payload data is packed in the corresponding number of time slot of an E1 CEPT 2 048 Mbps data stream for transmission over public or private E1 networks Versions WireSpan 600 is available on two models WireSpan 600 fractional access unit for applications that integer multiples of 64kbps range from 1 through 32 corresponding to a maximum of 2048 kbps WireSpan 610 Unframed only for applications that fix 2048M bps data rate Applications Figure 1 1 shows a typical WireSpan 6
10. D Q DSR B DSR A CTS B CTS A DCD B DCD A ID 1 ID 0 SG N A N A N A DSR CTS DCD DTR B DTR A N A N A RTS B RTS A N A TxD B OUT IN IN OUT OUT OU OU OU OU IN IN OUT OUT OUT IN IN IN IN IN A 2 TX CLK A wire Not Connected TX CLK from DCE B wire TX CLK from DCE A wire Test mode Not Connected Data transfer request Request to send Remote loopbak Local loopbak Not Connected External CLK B wire External CLK A wire Cable ID code bit 3 Cable ID code bit 2 Data set ready B wire Data set ready A wire Clear to send B wire Clear to send A wire Carrier detect B wire Carrier detect A wire Cable ID code bit 1 Cable ID code bit 0 Signal ground Not Connected Not Connected Not Connected Data set ready Clear to send Carrier detect Data transfer request wire B Data transfer request wire A Not Connected Not Connected Request to send wire B Request to send wire A Not Connected TX data wire B 49 TxD IN TX data wire A 50 SG Signal ground Adapter Cables for WireSpan 600 610 Data Port ATRIE offers adapter cables data equipment to the 50 pin SCSI type connector of WireSpan 600 610 wiring and the pin allocations in the user side connectors are given in Table A 3 and Table A 4 Tabel A 3 Wirespan 600 610 Channel Interface Adapter Cable DCE Clock Mode Pin Di
11. The index number in Table 3 1 correspond to the item numbers in Figure 3 1 and Figure 3 2 Table 3 1 N Control or Indicator Function 1 PWR indicator Lights when WireSpan 600 610 is powered 2 SYN indicator Lights when the E1 link port synchronization 3 BPV indicator Lights when one or more bipolar violations detected on link receiver 4 AIS indicator Lights when two consecutive double frames each contain two or fewer zeros out of 512 bits and when framing alignment is lost 5 Left Right Enter Exit When depressed activates the LCD screen to buttons move to next by your choose BNC RJ48C indicator Lights to indicate E1 link port selected INT El DTE DCE Lights to indicate clock sources selected DL LL Lights to indicate loopback selected if clean to operate in normal case 9 Impedance button When depressed changes setting between BNC and RJA8C 10 Clock Source button When depressed changes the Clock reference source Keep to depress will to change into next mode 32 11 Loopback button When depressed activates LL DL Normal cycle 3 3 Operating Instructions WireSpan 600 610 are designed for unattended operation After settings are completed WireSpan 600 610 operates automatically Connect the AC power adapter to the mains outlet the WireSpan 600 610 powered on automatically Initially WireSpan 600 610 performs a self test Observe the following top panel indicator e During the sel
12. U T Rec G 823 Connectors Transmit timing User s Data port TimeSlot allocation Diagnostics Connector Interface Bit rates Control signals Signals polarity Framed modes Unframed mode Test loops Balanced interface RJ 48 eight pin connector Unbalanced interface Two BNC coaxial connectors Internal 30 ppm oscillator 1 Locked to the recovered El receive clock tracking range 130 ppm DTE DCE Locked to the recovered DTE or DCE receive clock tracking range 100 ppm 50 pin SCSI type female V 35 RS 530 Rs 449 and X 21 supported by adapter cables Framed modes n X 64 kbps where n equals 1 2 3 31 Unframed mode 2048 kbps CTS follows sync or constantly ON user selectable DSR follows 1 sync or constantly ON user selectable DCD follows 1 sync or constantly ON user selectable Transmit data and receive clock operates normal or invert User data inserted in user assert time slots Others can be bypassed User selectable idle code in empty time slots 7F or FF Bit by bit transfer from data port to El link Local loopback LL towards local DTE or DCE Digital loopback DL towards local E1 link Indicators Mechanical Characteristics Power Requirements Environmental Temperature Characteristics Humidity power Indicator SYNC El sync loss indicator alarm indicator AIS alarm indicator Use external power adapter Support voltage 90 120 VACx 109 47 to 63 Hz
13. al timing mode e El timing mode With timing the WireSpan 600 610 link transmit signal is locked to the recovered E1 receive clock This is usually the timing mode selected for network operation as shown in Figure 1 6 In the application illustrated in Figure 1 6 the master clock of the network determines the timing of the two WireSpan 600 610 units In case the E1 receive signal is lost WireSpan 600 610 automatically switches to the internal oscillator E1 Timing E1 Timing DTE DCE WireSpan 600 WireSpan 600 DTE DCE Figure 1 6 E1 timing mode DTE DCE timing mode The transmit signal is locked to the recovered DTE or DCE receive clock as shown in Figure 1 7 And the other equipments must operate on the recovered E1 clock signal This is usually the timing mode selected for E1 Mux application El Timing DTE DCE Timing E1 EIA 530 V 35 29 gt El MUX ERE DTE DCE WireSpan 600 WireSpan 600 Figure 1 7 DTE DCE timing mode 1 4 Technical Specifications E1 Link Interface Framing Unframed mode PCM31 without CRC 4 PCM31 with CRC 4 PCM30 without CRC 4 PCM30 with CRC 4 Bit rate 2 048 Mbps Line code HDB3 AMI Line impedance Balanced interface 120 ohms Unbalanced interface 75 ohms Signal levels Transmit level Balanced interface 3 V 10 Unbalanced interface 2 37V 10 Receive level 0 to 36dB Jitter performance As per IT
14. board the procedure is the same Warning ELECTRICAL SHOCK HAZARD Access to the inside of the unit is permitted only to qualified and authorized service personnel Any adjustment maintenance and repair of the opened instrument under voltage should be avoided as much as possible and when inevitable should be carried out only by a skilled technician who is aware of the hazard involved Capacitors inside the instrument may still be charged even after the instrument has been disconnected from its source of supply Caution WireSpan 600 610 contains components sensitive to electrostatic discharge ESD To prevent ESD damage avoid touching internal components and before moving jumpers touch the WireSpan 600 610 frame E1 Link Connections WireSpan 600 610 link has an RJ 48C eight pin connector for the balanced interface and two BNC connectors for the unbalanced interface Appendix A Balanced Port Connector provides the pin allocation for the RJ 48C connector Connector the E1 link cables to the connector s corresponding to the interface in use Warning Do not connect to both the balanced and unbalanced connectors e When using the balanced interface connect to the RJ 48C connector e When using the unbalanced interface connect to the two BNC connectors designated TX and RX Pay attention to the correct connection of the receive and transmit cables to the TX and RX connectors The maximum allowable line attenuatio
15. chapter presents information related to the Wirespan 600 610 diagnostics functions The information presented in this chapter include e User controlled test functions e Troubleshooting 4 2 User Controlled Test Functions Loopback Function The user controlled test functions are activated by means of the buttons and LCD screen Digital Loopback Pressing Loopback button on top panel of WireSpan 610 or find the function in Menu tree of WireSpan 600 The digital loopback returns the data sent by the remote E1 equipment towards the remote E1 equipment In case clock reference source will change to E1 automatically Signal path shown in Figure 4 1 Main menu screen you can find DL to confirm setting surely This test checks the connections between two E1 equipments and the local link port interface 4 WireSpan 600 610 El Link User Port nterface erface Figure 4 1 Digital Loopback Local Loopback Pressing Loopback button on top panel of WireSpan 610 or find the function in Menu tree of WireSpan 600 The local lopback returns the data sent by the local user s equipment towards the local user s equipment The loopback is performed by connecting the data port transmit signal to the input of the data port receive path within the data port interface of the local Wirespan 600 610 Signal paths are shown in Figure 4 2 This test checks the connections between the local WuireSpan
16. edance Clock Loopback Source BNC Atri ATTIC WireSpan 610 noe Figure 2 1 WireSpan 600 610 Top Panel View Identification of Setting Table 2 2 Settings Function Settings Factory Setting Main 51 SETUP Select El Frame PCM31 CCS PCM3 1 Framing operating mode without CRC4 PCM31 CRC CCS with CRC4 PCM30 CAS without CRC4 PCM30 CRC CAS with CRC4 2 5 Main 51 SETUP Idle Code Main El SETUP Line Coding Main E1 SETUP Impedance Main SETUP Clock source Main TS Mapping Main DTE DCE SETUP DSR Option Main DTE DCE SETUP CTS Option Selects the idle code transmission Select E1 port coding frame structure Selection of E1 link interface Selects System reference clock Select use timeslot and operating data rate Select data port control signal operate mode 7 Symbol in HEX Pass FF Symbol in HEX Pass Pass through E1 Rx timeslot data to Tx AMI HDB3 HDB3 BNC unbalanced 75 RJA8C ohms interface RJ48C balanced 120 ohms interface INTERNAL follow internal oscillator E1 6703 locked to El recovered receive clock In case the El receive signal is lost E1 G703 switches to the internal oscillator automatically DTE DCE follow user data port receive clock ALL Setting all timeslot to carry data Enable timeslot 1 for data port or non used enable timeslot to carry data F inhab
17. etermined by keypads and LCD menu Top panel LED indicators and LCD display show the operating status of WireSpan 600 Various indicators display the E1 link status and user s data port status and alert when an alarm condition major or minor or test loops are present in the system WireSpan 600 610 has comprehensive diagnostic capabilities that include LL and DL loopbacks controlled by top panel keypads and LCD menu Maintenance 15 further enhanced by 8 power up self test Selection of System Timing Mode This section explains the interaction between the user s port timing mode and the E1 link transmit timing mode e Internal timing mode The WireSpan 600 610 El link transmit signal is derived from the internal clock oscillator This timing mode used is necessary in point to point application over leased lines e g short range applications where one WireSpan 600 610 must provide the timing reference for the link In this case one WireSpan 600 610 must use the internal oscillator and other must operate on the recovered clock signal Note that when the internal oscillator is used the DCE or DTE timing mode should be selected to synchronize the user data rate to the E1 link timing Figure 1 5 shows a typical system application using the internal timing mode on conjunction with DCE timing Internal Timing E1 Timing 2 E1 aaa u DTE DCE WireSpan 600 WireSpan 600 DTE DCE Figure 1 5 Intern
18. f test all the WireSpan 600 610 indicators should illuminate confirm that all are operating e During the test second step all the indicators except PWR must blinks 9 Following the test all the indicators except PWR WireSpan 600 610 are now ready for operation Normal Indications During normal operation the PWR and SYN indicators must light All the other indicators must be off Fault Indications If a fault occurs the BPV and or AIS alarm indicators light and data transfer may be interrupted To obtain additional information observe the state of the LCD screens and then refer to Troubleshooting Instructions for troubleshooting information 3 4 LCD displays The following sections describe the major options of the menu tree Please refer to Appendix B for detail structure of the menu tree Not The section provide with WireSpan 600 unit only 3 3 Main Menu EI E1 PCM31 RJ48C V35T 1984K E1 First El indicates the operate mode Other includes LL or DL When operates loopback function El Second 1 indicates reference clock sources such as INT or DTE PCMS31 To indicate the link framing type RJ48C To indicate the E1 link interface type such as BNC V35T To indicate the user data port cable type such as below list e V35T SCSI V35 Female cable to connect V 35 DTE equipment and default setting e V35C SCSI V35 Male cable to connect V 35 DCE equipment e 530T SCSI EIA 530 Female cable to connec
19. ireSpan 600 610 has a synchronous user s data port interface The electrical interface is user selectable The user s data port is terminated in a 50 pin SCSI type female connector ITU T Rec V 35 EIA RS 530 RS 449 and X 21 interfaces are supported by means of adapter cables 1 3 The user s data port has two timing modes DCE WireSpan 600 provides transmit and receive clocks for the user s equipment connected to the data port And accepts XTC clock from the equipment Figure 1 3 shows the flow of timing signals through the user s data port in the DCE mode WireSpan 600 610 Figure 1 3 DCE Description DTE WireSpan 600 sends the receive data accompanied by the receive clock to the user s equipment connected to the data port and accepts data from the equipment according to the equipment transmit clock Figure 1 4 shows the flow of timing signals through the user s data port in the DTE mode lt s WireSpan 600 610 DCE Figure 1 4 DTE Description E1 Interface Characteristics The WireSpan 600 link interface meets the requirements of ITU T Rec G 703 G 704 G 706 G 823 The E1 link has two line interfaces a 120 ohm balanced line interface terminated in a RJ 48 eight pin female connector and a 75 ohm unbalanced interface terminated in two BNC female coaxial connectors Line coding is HDB 3 or AMI The nominal balanced interface transmit level is 3 V and the unbalanced interface transmit level is
20. isk or Installation and Operation Manual e External power adapter e Data port connection cable depending on user order 2 4 Equipment Needed The cables you need depend on the application Cable terminated in appropriate connectors provides support for the following data port interfaces e V 35 interface the interface adapter cable ends in a 34 pin connector e RS 530 interface the interface adapter cable ends in a 25 pin D type connector e RS 449 interface the interface adapter cable ends in a 37 pin D type connector e X21 interface the interface adapter cable ends in a 15 pin D type connector The required cables are available from ATRIE or can be prepared in accordance with the port connector wiring information given in Appendix A Interface Specifications The available cable and their respective uses are listed in Table 2 1 Table 2 1 Data Port Interface Cables Purpose Cable Port Cable Connector User Length Interface End Type Equipment V35T V35 DCE M34 Female V 35 DTE meter V35C 35 DTE M34 Male V 35 DCE meter 530T EIA 530DTE DB 25 Female EIA 530 DTE 1 meter 530C 530 38 25 Male EIA 530 DCE 1 meter 449T RS 449 DTE DB 37 Female RS 449 DTE 1 meter 449 RS 449DCE DB 37 Male RS 449 DCE 1 meter X21T X 21 DTE DB 15 Female X 21 DTE 1 meter X21C X 21 DCE DB 15 Male X 21 DCE 1 meter 2 5 Interfaces and Connections Both the WireSpan 600 and WireSpan 610 versions use the same 2 2 printed circuit
21. ited by Framing Follow SYNC Follow SYNC When El link synchronization signals will be active ALWAYS ON Enable always 2 6 Main DTE DCE SETUP DCD Option Main DTE DCE Select data port NORM normal NORM SETUP Clock timing mode operate mode Polarity INV Invert data port Main DTE DCE receive clock or SETUP Data transmit data Polarity After setting any configuration with WireSpan 600 610 the internal will save setting immediately When occur power down to up process the Wirespan 600 610 will recover setting automatically CHAPTER 3 Operation 3 1 General In this chapter you will find detailed operating instructions for the WireSpan 600 610 versions The information presented in this chapter includes e Description of indicators and LCD screens e Operating procedures Refer to Chapter 4 Troubleshooting amp Diagnostic and troubleshooting instructions 3 2 Indicators Figure 3 1 and Figure 3 2 illustrates the top panel of WireSpan 600 610 E Atrie 600 BNC Right Enter Left Figure 3 1 WireSpan 600 panel BNC 60966060 0000 PWR SYN BPV AIS Clock Source Loopback Atrie WireSpan 6 0 ac Figure 3 2 WireSpan 610 panel Table 3 1 lists the functions of the controls and indicators located on the top panel of the WireSpan 600 610
22. n between the WireSpan 600 link port and the network interface is 2 3 1000 Ft 26AWG in general case Data Port Connections The Wirespan 600 610 user data port has a 50 pin SCSI type female connector Connect the DTE DCE link cable to the SCSI connector after setting pin out configuration corresponding to the interface in use Connecting the Power WireSpan 600 610 is available in models that differ in the rated supply voltage 120 230 or 240 VAC Before first time installation check that the power adapter nominal supply voltage marked on a label on its top panel matches the nominal voltage available at your mains outlet 2 6 Setup After Installation You must be to check below list e The Power LED indicator always lights when WireSpan 600 610 is powered e The LCD Display will warming up after 10 seconds To configure setting the WireSpan 600 use keypads and LCD on top panel as shown in Figure 2 1 The settings are listed in Table 2 2 You can follow the rules below table to setup the WireSpan 600 2 4 Arie WireSpan 600 PWR SYN BPV AlS RJ 48C DTE DCE on w X s M n sm nnn EEE NN t a BNC Left Right Enter sS sss RX FrI Clock Loopback 6 000000 O BNC BNC RJ 48C INT DTE PWR SYN BPV AIS a DCE p DTE DCE Imp
23. rection Designation V 35 530 RS 449 21 1 FGND A 1 1 1 2 OUT RxD B T 16 24 11 3 OUT RxD A R 3 6 4 4 N A N A 6 OUT RxC B X 9 26 13 7 OUT RxC A V 17 8 6 8 N A 9 N A 10 OUT TxC B AA 12 23 11 OUT TxC A Y 15 5 12 N A 13 N A 14 N A 15 OUT TM K 25 18 16 N A 17 IN DTR H 18 IN RTS C 19 IN RLB BB 21 14 20 IN LLB J 18 10 21 N A 22 IN ETC B w 11 35 23 IN ETC A U 24 17 24 IN ID 3 25 IN ID 2 19 8 26 OUT DSR B 22 29 3 27 OUT DSR A 2 6 1 28 OUT CTS B 13 27 29 OUT CTS A 5 9 30 OUT DCD B gt 10 31 12 31 OUT DCD A 8 13 32 IN ID 1 7 I 33 IN ID 0 34 SG B 7 19 8 35 N A 36 N A 37 N A 38 OUT DSR E gt I 39 OUT CTS D 40 OUT DCD F 41 IN DTR B 23 30 42 IN DTR 20 12 43 N A 44 N A 45 IN RTS B 19 25 10 46 IN RTS A 4 7 3 47 N A 48 IN TxD B 5 14 23 49 IN TxD A P 2 5 50 SG B 7 19 Tabel A 4 Wirespan 600 610 Channel Interface Adapter Cable DTE Clock Mode Pin Direction Designation V 35 EIA 530 RS 449 X21 1 FGND A 1 1 1 2 OUT TxD B S 14 23 9 3 OUT TxD A P 2 5 2 4 N A 6 OUT ETC B w 11 35 7 OUT ETC A U 24 17 8 N A 9 10 N A
24. t EIS 530 DTE equipment e 530C SCSI EIA 530 Male cable to connect EIS 530 DCE equipment e 449T SCSI RS 449 Female cable to connect RS 449 DTE equipment e 449C SCSI RS 449 Male cable to connect RS 449 DCE equipment e X21T SCSI X21 Female cable to connect X 21 DTE equipment e X21C SCSI X21 Male cable to connect X 21 DCE equipment 1984K To indicate data port data rate TimeSlots mapping menu TS00 07 31 1984K ALL F 01 TS00 07 To indicate the screen timeslot range 31 total assigned timeslots 1984K user data port data rate equal total timeslots x 64K bps ALL all timeslots by framing type are assigned or dis assigned Note When framing is PCM31 the timeslot 0 is inhibited Its 3 4 means TS 0 cannot be assigned by user When framing is 30 the timeslot 0 and 16 are inhibited When unframed mode all timeslot can assigned by user F Inhibited timeslot Framing Used user assign carry data timeslots 01 To indicate the cursor position timeslot number E1 Link port alarm status E1 STATUS LOF YEL CRC LOF Receive loss of frame alignment YEL Receive yellow alarm CRC When use frame mode with CRC Receive error CRC 4 code Error or loss occurs Data port control signals status Control Signals CTS 16 DCD Control Signals DSR DTR activates 3 5 CHAPTER4 Troubleshooting amp Diagnostics 4 1 General This
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