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Summary of Contents for Wise TSW200E1
- Page 1 Operation Manual TSW200E1 Version: 1 Revision: 7 November/2010...
- Page 3 Copyright This manual was created by the Wise Telecommunications Industry team. No part or contents of this manual can be reprinted without written authorization of Wise Telecommunications Industry. Wise Telecommunications Industry reserves itself the right to alter its products, and the manual contents, at any time, without any prior warning, according to its own needs.
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Page 5: Table Of Contents
1 - Introduction ............................ 1 1.1 - General Characteristics ......................1 1.2 - Package contents ........................1 1.3 - TSW200E1 Specifications ...................... 2 1.3.1 - BERT/BLERT Module ....................3 1.3.2 - E1/G.704 Module ......................4 1.3.3 - Frame Relay Module (optional) ..................6 1.3.4 - X.25/xDLC Module (optional) .................. - Page 6 C.3 – X.21/V.11 Cable ........................82 C.4 – RS530 Cable ......................... 83 C.5 – E1 120 Ohm Interface (RJ45) ....................84 Appendix D – TSW200E1 Character Set ................... 85 D.1 – Hex-ASCII Conversion Table ....................85 D.2 – Hex-EBCDIC Conversion Table ..................86 Appendix E –...
- Page 7 Appendix F – DCE Simulation Adaptors and Cables Pinout ............88 F.1 – DB25-to-DCE (RS232) Adaptor Cable ................88 F.2 – M34-to-DCE (V.35) Adaptor Cable ..................88 F.3 – DB37-to-DCE (V.36) Adaptor Cable ..................89 F.4 – DCE X.21 Cable ........................90 F.5 –...
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Page 9: Introduction
The TSW200E1 is used to carry out both framed and unframed tests on a wide range of equipments like modems, multiplexers and general telecommunications circuits, operating from 50 bps to 2048 kbps. -
Page 10: Tsw200E1 Specifications
• 01 (one) switching power supply • 1.3 - TSW200E1 Specifications The TSW200E1 has many working modules, which are split in many modes. The equipment specifications are: 192x128 pixels graphic display • 23 key alphanumeric keypad with function keys •... -
Page 11: Bert/Blert Module
DEGRADED MIN (Degraded Minutes), SEV. ERR. SEC (Severely errored seconds), ERRORED SEC (Errored seconds), ERR. FREE SEC (error-free seconds), AVAILAB.TIME (available time) and UNAVAIL.TIME (unavailable time) following Rec. G.821. Real-time clock SLIPS counting is done according to ITU-T Wise Telecommunications Industry... -
Page 12: E1/G.704 Module
: The TSW200E1 can replace a network terminal equipment or • even simulate a network. The TSW200E1 generates a signal internally structured at 2048 kbps following ITU-T Rec. G.704, where the transmitter is independent of the receiver, allowing signal analysis with PCM frame structures. Some of the characteristics are: Signal generation with PCM30, PCM30C, PCM31 or PCM31C data structures;... - Page 13 Test duration: continuous or timer-limited. MUX M : In this mode, the TSW200E1 is used to test multiplexers via the interfaces • V.24/RS232, V.35/V11, V.36/V.11, X.21/V.11 or RS530. DEMUX M : Allows performing demultiplexer tests. These tests can be monitored •...
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Page 14: Frame Relay Module (Optional)
1.3.7 - CAS MFC-R2 (optional) In the MFC-R2 module, the TSW200E1 operates as simulator or analyser in a communication using MFC-R2 signalling. As an analyser, the equipment observes the communication without interfering on it, gets Forward and Backward signals, identifies the line signalling (digital R2) and the signalling between registers (MFC) for each channel. -
Page 15: Dtmf Module (Optional)
1.3.10 - VT100 Module (optional) To avoid the need of the TSW200E1 user to have around a computer running a VT100 software emulator, Wise Indústria de Telecomunicações has created a VT100 emulation module inside the equipment itself. The VT100 module operating manual is provided separately. - Page 16 NFAS (Non-Frame Alignment Signal) word Sa bit programming and timeslot #16 signalling • word (ABCD bits); Allows timeslot audio output through loudspeaker; • Insertion of errors (BIT, FAS and CRC) and alarms (AIS, RAI, RMF Alarm, TS16 AIS); • Test duration: continuous or timer-limited. • Wise Telecommunications Industry...
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Page 17: Physical Characteristics
REMOTE / PRINTER TX/RX1/RX2 X ETH V.35 / V36 / V.11 RS232 / G.703 64K 2.2 - LEDs The TSW200E1 has an array of LEDs to ease test monitoring and equipment state monitoring. See the figure below: Wise Telecommunications Industry... - Page 18 On the right side of the front panel, there are the signal LEDs. When the equipment is under test, some of these LEDs must be turned on, indicating that there are active signals from the RS232, V.35, V.36, G703 - 64k interfaces. Wise Telecommunications Industry...
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Page 19: Keyboard
2.3 - Keyboard The TSW200E1 keyboard description follows: • ON/OFF: turns the equipment on and off • <F1>, <F2>, <F3>, <F4>: The function of these keys depends on the displayed screen. -
Page 20: Battery
2.4 - Battery The TSW200E1 is fed by NiMH batteries that last for an average of 6 hours, depending on the intended use. The complete battery recharge takes 5 hours and a half. The NiMH batteries perform better if they are totally discharged before a new charging period. This procedure allows maximum battery life. -
Page 21: Audio
2.6 - Audio The TSW200E1 has a microphone in its front panel. In section 2.2 there is a picture of the front panel where it is possible to see the identification MIC, showing the microphone location. The microphone can be used for the MFC-R2 module and Frequency/level mode tests. It remains off for the remaining modules. -
Page 22: Tsw200E1 Operation
Resulting data can be stored in memory. The last test is automatically stored and can be later displayed. The TSW200E1 can be used for the execution of loopback tests and end-to-end tests in modems, when they are in full-duplex mode. It is also possible to carry out tests for multiplexers and for general digital circuits. -
Page 23: General Configurations And Equipment Utilities
SOFTWARE VERSION: EE1V017 LOGO In many TSW200E1 screens, there is an arrow-shaped cursor appearing on the right side of the screen. This cursor will be used for configuring the equipment. Its position defines the parameter to be changed or selected. To move it to another line, use the ↑ and ↓ k eys. -
Page 24: Operating Module Selection
Next, the display is completely written on so the user may check if there is any display failure. The following step is the keyboard test. After any key is pressed, the TSW200E1 will start the keyboard test. The user must press each key to check if the corresponding character is written on the equipment screen, or if there is any failure. - Page 25 MENU and from the MODULE screen the MODULE function key will be found. To alternate between these module screens press <F1> (BACK) or <F4> (MORE). On the Module screen, move the cursor to the line corresponding to the desired module. Wise Telecommunications Industry...
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Page 26: Dte And Dce Simulation
3.3.1 - DTE Simulation For the TSW200E1 to simulate a data terminal equipment, it is necessary to connect it to a DCE (for example a modem). If the DCE under test does not have the CTS and DCD signals in an active state, it is possible to force their corresponding levels using a cable that connects the CTS, DCD and RTS signals. -
Page 27: Hierarchy Of Errors And Alarms
3.4 - Hierarchy of Errors and Alarms Among the TSW200E1 test results, there are errors and alarms counters. To master the equipment operation and to know what each counter really means, it is necessary to understand each counter function and its hierarchy. - Page 28 X.50 - the counter is incremented whenever bit A of the FAS sequence indicates an alarm. • RMF ALARM: In the 2Mbps G.704 analysis, the counter is incremented whenever bit 6 of timeslot 16 is set for two consecutive times. Wise Telecommunications Industry...
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Page 29: The Bert/Blert Module
Before the test is started, the user must be sure that every parameter has been adequately selected according to the modem strapping. 4.1 - Synchronous Mode Configuration Before running the test, it is necessary to set many configuration parameters. The figures below present the two screens used to configure this mode. Wise Telecommunications Industry... - Page 30 Other than these standards, there is the AUTO option. If the test is started with this option the TSW200E1 tries to synchronize automatically to the pseudo-aleatory patterns that it gets. When the TSW200E1 gets the correct pattern, it starts to transmit this pattern. There is a limitation concerning the detection of QRSS and 2E20-1 O151 patterns.
- Page 31 For G.703- 2M, the external clock must be provided by the V.35 interface (the user must connect the TSW200E1 ground to the clock-providing equipment ground). FROM RX: when the transmit data are in sync with the modem-provided clock, ...
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Page 32: Asynchronous Mode Configuration
<F4> (ENTER). To cancel the editing, press <F1> (EXIT). • Polarity: Determines signal polarity. It can be NORMAL or INVERTED. For inverted polarity every pattern bit value is inverted for transmission and the analysis is adjusted Wise Telecommunications Industry... -
Page 33: Executing The Bert/Blert Test
For the asynchronous mode, “WAIT...” can appear on the screen. It is displayed while the TSW200E1 tries to locate the start bit. The duration of this message depends on the selected transmission rate: greater rates, less time. After some time, if the start bit is not found, the NO SIGNAL message is displayed. -
Page 34: Results Display
Pressing <F2> (MENU) in any of these screens takes the user back to the menu. When the CLEAR key is pressed, the test time, all counters and histograms are cleared and the test is restarted. If the TSW200E1 was in sync, it remains in sync. 4.4 -... -
Page 35: Basic Errors
• INJEC. ERR.: Displays the number of transmission errors inserted by means of the ERROR key. • TIME: Shows the total elapsed test time. Format: hours:minutes:seconds. From this first basic error screen it is possible to go three ways: a. Press <F4> (NEXT) to access the second screen Wise Telecommunications Industry... - Page 36 B A S I C E R R O R S SLIP 00000 SLIP/H O U R 00000 SLIP/DAY 00000 BACK MENU NEXT • SLIP: indicates a clock slippage, or a misalignment between receive and transmit clocks. Wise Telecommunications Industry...
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Page 37: The Recommendation G.821 Error Analysis
Press <F1> (BACK) to go back to the first error screen b. Press <F2> (MENU) to go to the menu screen 4.4.2 - The Recommendation G.821 Error Analysis The Recommendation G.821 counters screen is displayed in the figure below: Wise Telecommunications Industry... -
Page 38: Rates & Alarms
• ERR. FREE SEC: indicates the rate between the number of one-second time intervals that have no error and the available measuring time. 4.4.3 - Rates & Alarms When the Rates & Alarms option is chosen on the menu screen, the following screen is displayed. Wise Telecommunications Industry... - Page 39 N O SYN C = 00000 SYNC LO SS = 00000 PAT LOSS = 00000 ALL O NES = 00000 ALL ZEROS = 00000 MENU • FAULTS: indicates the total number of sync losses between transmitter and receiver Wise Telecommunications Industry...
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Page 40: Histograms
There is also the number of errors or alarms (according to the plotted graph) that occurred on that particular minute. To move the cursor through the graph, a column at a time, use the → and Wise Telecommunications Industry... -
Page 41: The Event Log
Over the <F4> key the total log lines is displayed. With the ← and → keys it is possible to go to the start or to the end, respectively, of the log. The ↑ and ↓ keys display the previous or the next line. To update the screen again, press <F1> UPDATE. Wise Telecommunications Industry... -
Page 42: The E1/G.704 Module
30 or 31 channels. The E1/G.704 module performs the error analysis for one or more timeslots, counting: • errored bits (BIT ERROR) • errored blocks (BLK ERROR) • FAS ERROR • CRC ERROR • E-BIT and Wise Telecommunications Industry... -
Page 43: E1/G.704 Module Test Procedure
Monitor, Frequency/Level and Round-Trip Delay modes. This screen shows that the test is running, the time elapsed and the status of each slot. If the test does not display any error or alarm, the equipment will remain in this screen, waiting for user intervention Wise Telecommunications Industry... - Page 44 If any error or alarm occurs, the equipment automatically changes from the OK screen to the corresponding error or alarm screen. The OK screen becomes unavailable. From the menu screen, the other result screens can be reached by using the cursor and the Wise Telecommunications Industry...
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Page 45: Results Display
ENTER AUDIO When the CLEAR key is pressed, the test time, all counters and histograms are cleared and the test is restarted. If the TSW200E1 was in sync, it remains in sync. 5.2 - Results display During the TX/RX FRAMED, THROUGH FRAMED, MUX and DEMUX test modes, the results are displayed in the following way: •... - Page 46 From the third basic errors screen displayed below, it is possible to press: • <F1> (BACK) to go back to the previous screen • <F2> (MENU) to go back to MENU screen • <F4> (NEXT) to go the fourth basic errors screen Wise Telecommunications Industry...
- Page 47 • FAS ERROR: indicates the total number of FAS errors that occurred during the test. • FAS E. R.: indicates the rate between the total number of FAS errors and the total FASs transmitted. From the fifth basic errors screen, it is possible to press the key: Wise Telecommunications Industry...
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Page 48: Itu-T Standards
• CRC E. R.: indicates the rate between the number of CRC errors and the total CRCs transmitted. • E-BIT: indicates the total number of CRC errors detected by the remote device during the test. 5.2.2 - ITU-T Standards The TSW200E1 furthermore evaluates the ITU-T Rec. G.821, G.826, and M.2100. ITU-T STANDARDS G.821 G.826 M.2100 MENU... - Page 49 • DEGRADED MIN: indicates the rate between the number of one-minute time intervals whose error rate is over 1.10 and the available measuring time. • AVAILAB. SEC: indicates the rate between the available seconds actually used for Wise Telecommunications Industry...
- Page 50 • ERR. FREE SEC: indicates the rate between the number of one-second time intervals that have no error and the available measuring time. The TSW200E1 calculates parameters according to ITU-T Rec. G.826. These parameters are shown in the two screens displayed below.
- Page 51 <F1> (BACK). These counters are updated each second. However, these data are recalculated if unavailable seconds occur (going back 10 seconds). The TSW200E1 calculates parameters according to ITU-T Rec. M.2100. These parameters are shown in the following two screens.
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Page 52: Alarms
<F4> (SCROLL). 5.2.3 - Alarms The TSW200E1 displays screens with an array of alarm counters. To navigate through them press <F1> (BACK) and <F4> (NEXT). To go back to the Menu screen press <F2> (MENU). A L A R M S... -
Page 53: Histograms
The histogram screens are accessible during the test, or by visualising the memory. To see the histogram from the OK screen, press <F4> (HISTO). From the Menu screen, place adequately the cursor and press <F4> (ENTER). The first histogram displayed is always the errored bits histogram, as in the figure below. Wise Telecommunications Industry... -
Page 54: Event Log
The event log screen displays the time of occurrence and of clearance of alarms and errors. It is depicted on the next figure. EVENT LOG 20/09/2004 09:46:14 SIG LOSS 20/09/2004 09:46:20 END SIG LOSS FREEZE MENU To go back to the menu screen, press the <F2> (MENU) key. By pressing the <F1> Wise Telecommunications Industry... -
Page 55: Tx/Rx Framed Mode
5.3 - TX/RX FRAMED mode In this mode, the TSW200E1 can substitute a network terminal equipment or it can even simulate a network. The TSW200E1 generates an internally framed signal at 2048 Kbps according to ITU-T Rec. G.704, where the transmitter is independent of the receiver. This signal can have a frame structure, which varies for PCM30, PCM30C, PCM31 and PCM31C. - Page 56 Other than these standards, there is the AUTO option. If the test is started with this option, the TSW200E1 tries to synchronize automatically to the pseudo-aleatory patterns that it gets. When the TSW200E1 gets the correct pattern, it starts to transmit this pattern. There is a limitation concerning the detection of QRSS and 2E20-1 O151 patterns.
- Page 57 ASTX NEXT • Slots Config: When choosing the AUTO option the TSW200E1 tries to synchronize to the pseudo-aleatory patterns that it gets from the slots, selecting those ones automatically. When choosing the USER option, the user can select the TX and Rx slots as desired using the parameters described bellow.
- Page 58 which must be set up to internal or regenerated clock. The external clock must be provided by the V.35 interface (Note: connect the TSW200E1 ground to the ground of the equipment which is providing the clock). Internal clock: the Test Set itself provides the transmission clock. In this case, ...
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Page 59: Tx/Rx Framed Mode Test Example
TX/RX FRAMED Mode test example The figures below demonstrate two ways of performing the test using this mode. 5.4 - The THROUGH FRAMED Mode In this mode, the TSW200E1 is inserted in the circuit under test and the received framed Wise Telecommunications Industry... -
Page 60: Through Framed Mode Configuration
TSW200E1 signal got by the TSW200E1 is sent to its transmitter. The clock employed is the receive clock, as the equipment is inserted in the middle of the circuit under test. If it is desired to listen to the audio output of one receive timeslot during the test, it is necessary to turn the loudspeaker on. -
Page 61: A Mux Test Example
5.6 - The DEMUX mode The DEMUX mode allows the user to perform demultiplexer tests. The TSW200E1 transmits 2 Mbps data in one or more timeslots from the multiplexer side. Frame structure is supported. From the other side of the multiplexer, data in one or more channels can be monitored using one of the following interfaces: V.24/RS232, V.35/V.11, V.36/V.11, X.21/V.11 or RS530. -
Page 62: Demux Mode Configuration
During the test, the choice of the timeslot and the frame to be analysed can be altered. It is also possible to analyse the FAS, NFAS, MFAS and NMFAS words. For the PCM30 Wise Telecommunications Industry... -
Page 63: Monitor Mode Configuration
PCM30C frames, it is possible to simultaneously monitor and visualise the CAS state of the 30 telephone channels. The TSW200E1 does not transmit in the Monitor mode. The connection used employs the 2 Mbps G.703 interface receive port (RX) only. -
Page 64: Frequency/Level Mode
PCM A-law. The level ranges from -55 to +5 dBm0 and the frequency ranges from 1 to 4000 Hz. The TSW200E1 also monitors, in dBm0, a tone in any timeslot, decoding the structured 2048 kbps signal. Thus it allows the audio output of one timeslot to be user monitored in the internal loudspeaker. -
Page 65: Frequency/Level Mode Configuration
The signal received by the subscriber interface is then measured, while the TSW200E1 is used to inject the coded sinusoidal signal in the 2048 kbps interface. The TSW200E1 then measures the inserted analogue signal, for that interface. -
Page 66: Performing The Frequency/Level Test
The delay measurements are derived from the time elapsed between transmission and reception of a selected pattern where a marker has been inserted. So, the test can be performed only for looped-back circuits. The test can be performed either for framed or unframed circuits. Wise Telecommunications Industry... -
Page 67: Round-Trip Delay Mode Configuration
External: when the transmit data are in sync with the external circuit clock. This external circuit must be set up for internal or regenerated clock. For the G.703- 2M case, the external clock must be provided by the V.35 interface. Note: Wise Telecommunications Industry... -
Page 68: Performing The Round-Trip Delay Test
TSW200E1 connect together the grounds of the TSW200E1 and of the clock-providing equipment. From RX: when the clock is regenerated from reception. This option is available only for the G.703 interface. • Tx Rate: see section 4.1 • Pattern: see section 5.3.1 •... -
Page 69: Memory And Printout
To see the results, the procedures are the same as when the test is being run. 6.2 - Saving and Loading a Configuration The TSW200E1 has five memories designed to save the setup parameters. So, if more than Wise Telecommunications Industry... -
Page 70: Printing Results
For parallel printing, the user must provide a printer with adequate buffering capability to hold the data while it is being printed, for there is no flow control. First connect the TSW200E1 to the printer using the appropriate cable (serial or parallel) on the back panel connector. - Page 71 From this moment on, the computer will receive data by the selected serial port. At the TSW200E1, press the PRINT or <F4> key and the data will be sent to the computer. The ASCII- only text appears in the screen.
- Page 72 Three different cables can be used to print. The correct interface type must be set up at the equipment. The cable options are serial, parallel or the serial-parallel converter, which can be ordered along with the equipment. For this cable, the TSW200E1 must be set up for serial printing. Wise Telecommunications Industry...
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Page 73: Remote Control
The equipment remote control is based on its serial communication with a computer by means of a terminal. So, the user must connect the computer to the TSW200E1 by means of a serial cable and the Remote Printer connector. The equipment must be turned on and must be displaying either the BERT Synchronous screen or the TX/RX Framed screen. - Page 74 Selects the type of frame sent, accepting as arguments: p[x] 0=PCM30, 0c=PCM30C, 1=PCM31, 1c=PCM31C, a=AUTO Clears or Clears or restarts the restarts the test test Prints the Prints the test results test results Wise Telecommunications Industry...
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Page 75: Software Update
TSW200E1 8 - Software Update To update the equipment's software, insert or remove modules, look for UPW Operation Manual. Wise Telecommunications Industry... -
Page 76: Glossary Of Technical Terms
N-1 sub-multiframe. In this process, the C1 bit is defined as the most significant bit of the remainder and C4 is the least significant bit. DCE (Data Communications Equipment) A device that communicates with a Data Terminal Equipment (DTE) device in RS-232C communications. Usually a modem. DTE (Data Terminal Equipment) Wise Telecommunications Industry... - Page 77 In computer technology, there are several types of interfaces. ITU-T (International Telecommunication Union) International organization within the United Nations System where governments and the private sector coordinate global telecom networks and services. It defines the rules and standards for telecommunications transmission. CCITT successor. Wise Telecommunications Industry...
- Page 78 MFAS word (bits 5 to 8 of timeslot 16, frame 0). This word is only used for the PCM30 and PCM30C standards. PCM (Pulse Code Modulation) Short for pulse code modulation, a sampling technique for digitising analogue signals, Wise Telecommunications Industry...
- Page 79 It is usual to call one of them local and the other, remote, so as to set the modems to operate correctly. Test-Set Equipment to test communication links. Usually this device is able to simulate many conditions and/or devices. Wise Telecommunications Industry...
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Page 80: Appendix A - Rs232, V.35/V.11, V.36/V.11, X.21/V.11, Rs530 And G.703 Interface Signals
TSW200E1 Appendix A - RS232, V.35/V.11, V.36/V.11, X.21/V.11, RS530 and G.703 Interface Signals A.1 – V.24/RS 232 Interface The table below describes the TSW200E1 RS232 interface connector pinout. Circuit Name Description Category/Source (V.24) Data Transmit Ready Data / DTE Data Receive Ready... -
Page 81: V.35/V.11 Interface
TSW200E1 A.2 – V.35/V.11 Interface To use the V.35 interface an optional cable is needed. This table describes the TSW200E1 V.35/V.11 interface connector pinout. Pin - Circuit Electrical Category/ Name Description (V.35) spec Source Signal Ground V.28 --------------- DTX-A Data Transmit Data / Test V.35... -
Page 82: V.36 / Rs-449 And V.11 Interface
TSW200E1 A.3 –V.36 / RS-449 and V.11 Interface To use the V.36 interface an optional cable is needed. This table describes the TSW200E1 V.36/V.11 interface connector pinout. Circuit Category / Name Description Electrical spec DB37 (V.36) Source Signal Ground ---------------... -
Page 83: X.21/V.11 Interface
TSW200E1 A.4 –X.21/V.11 Interface To use the X.21 interface an optional cable is needed. This table describes the TSW200E1 X.21 interface DB15 connector pinout. Circuit Category / Electrical Name Description Spec (X.21) Source Shield --------- --------- --------- --------- DTX-A Data / Data Transmit V.11... -
Page 84: G.703 (Co-Directional 64 Kbps) Interface
Receive T erminal Data / Modem A.6 –G.703 - 2 Mbps Interface Connector Nam e Description Category / Source Female BNC T ransmit T erminal Data / T est Set Female BNC Receive T erminal Data / Modem Wise Telecommunications Industry... -
Page 85: Rs530 Interface
Control / DCD-B Detect Modem TCK-A Transmit Clock Sync / Modem TCK-B RCK-A Receive Clock Sync / Modem RCK-B DTR-A Data Terminal Control / Test DTR-B Ready TCKE-A Test Set Sync / Test Set TCKE-B Transmit Clock Wise Telecommunications Industry... -
Page 86: Appendix B - 2 Mbps Pcm Frame Structure
28 8 bits per 8 bits per slot slot channel 14 channel 29 8 bits per 8 bits per slot slot NFAS channel 15 channel 30 8 bits per 8 bits per slot slot (*) Sub-Multiframe Wise Telecommunications Industry... -
Page 87: Pcm31C
8 bits per slot NFAS 8 bits per slot Sa Sa 8 bits per slot NFAS 8 bits per slot Sa Sa 8 bits per slot NFAS 8 bits per slot Sa Sa (*) SMF - Sub-MultiFrame Wise Telecommunications Industry... -
Page 88: Appendix C - V.35/V.11, V.36/V.11, X.21/V.11, Rs530 Cable Pinouts And E1 120 Ohm Interface Pinout
TSW200E1 Appendix C - V.35/V.11, V.36/V.11, X.21/V.11, RS530 Cable Pinouts and E1 120 Ohm Interface Pinout C.1 – V.35/V.11 Cable HD26 NAME MALE MALE TCKE-B TCKE-A RCK-B RCK-A DRX-B DRX-A TCK-B TCK-A DTX-B DTX-A Wise Telecommunications Industry... -
Page 89: V.36/V.11 Cable
C.2 – V.36/V.11 Cable HD26 DB37 NOME MACHO MACHO MALHA RTS-B, 25,30 DTR-B CTS-B CTS-A VAGO VAGO DSR-A VAGO TCKE-B VAGO TCKE-A DTX-B DTX-A VAGO RCK-B RCK-A VAGO RTS-A, 7,12 DTR-A DRX-B DRX-A TCK-B TCK-A VAGO VAGO DSR-B DCD-B DCD-A Wise Telecommunications Industry... -
Page 90: X.21/V.11 Cable
TSW200E1 C.3 – X.21/V.11 Cable HD26 Name MALE MALE 01,08 RTS-B CTS-B CTS-A DTX-B DTX-A 14,20 RCK-B, TCK-B 15,21 RCK-A, TCK-A RTS-A D RX-B D RX-A Wise Telecommunications Industry... -
Page 91: Rs530 Cable
TSW200E1 C.4 – RS530 Cable HD26 DB25 NAME MALE MALE (SHIELD) RTS-B, 19,23 DTR-B CTS-B CTS-A DSR-A TCKE-B TCKE-A DTX-B DTX-A RCK-B RCK-A RTS-A, 4,20 DTR-A DRX-B DRX-A TCK-B TCK-A DSR-B DCD-B DCD-A Wise Telecommunications Industry... -
Page 92: E1 120 Ohm Interface (Rj45)
TSW200E1 C.5 – E1 120 Ohm Interface (RJ45) 1 2 3 4 5 6 7 8 Rx Ring 1 Rx Tip 1 Tx Ring Tx Tip Rx Ring 2 Rx Tip 2 Wise Telecommunications Industry... -
Page 93: Appendix D - Tsw200E1 Character Set
TSW200E1 Appendix D – TSW200E1 Character Set D.1 – Hex-ASCII Conversion Table BINARY HEXA " & < > Ñ Wise Telecommunications Industry... -
Page 94: Hex-Ebcdic Conversion Table
TSW200E1 D.2 – Hex-EBCDIC Conversion Table BINARY HEXA Ç < ½ & Ø > " Wise Telecommunications Industry... -
Page 95: Appendix E - Test Patterns: 2048 And Qbf (Quick Brown Fox)
1 x U (55) 1 x ETX (03) 1 x EOT (04) 2 x PAD (FF) E.2 – FOX pattern THE QUICK BROWN FOX JUMPS OVER THE LAZY DOG 123 456 7890 + - X : = $ % () Wise Telecommunications Industry... -
Page 96: Appendix F - Dce Simulation Adaptors And Cables Pinout
(to DTE) B(GND) B(GND) P(DTX-A) R(DRX-A) S(DTX-B) T(DRX-B) R(DRX-A) P(DTX-A) T(DRX-B) S(DTX-B) C(RTS), D(CTS), E(DSR) and F(DCD) C(RTS), D(CTS), E(DSR) and F(DCD) V(RCK-A) and Y(TCK-A) U(TCKE-A) U(TCKE-A) V(RCK-A) and Y(TCK-A) X(RCK-B) and AA(TCK-B) W(TCKE-B) W(TCKE-B) X(RCK-B) and AA(TCK-B) Wise Telecommunications Industry... -
Page 97: Db37-To-Dce (V.36) Adaptor Cable
19(GND) 7(RTS-A), 9(CTS-A), 11(DSR-A) and 13(DCD-A) 7(RTS-A), 9(CTS-A), 11(DSR-A) and 13(DCD-A) 25(RTS-B), 27(CTS-B), 29(DSR-B) and 31(DCD-B) 25(RTS-B), 27(CTS-B), 29(DSR-B) and 31(DCD-B) 8(RCK-A) and 5(TCK-A) 17(TCKE-A) 17(TCKE-A) 8(RCK-A) e 5(TCK-A) 26(RCK-B) and 23(TCK-B) 35(TCKE-B) 35(TCKE-B) 26(RCK-B) and 23(TCK-B) Wise Telecommunications Industry... -
Page 98: Dce X.21 Cable
TSW200E1 F.4 – DCE X.21 Cable DB15 Female DB15 Female NAME NAME (to Tiger) (to DTE) CTS-B CTS-B RTS-B CTS-A RTS-A TCKE-A,RCK-A 10,15 RCK-A TCKE-B,RCK-B 8,14 RCK-B DTX-B DRX-B DTX-A DRX-A RTS-A CTS-A DRX-B DTX-B DRX-A DTX-A Wise Telecommunications Industry... -
Page 99: Db25-To-Dce (Rs530) Adaptor Cable
10 (DCD-B), 13 (CTS- B), 19 (RTS-B), 22(DSR- 10 (DCD -B), 13 (CTS-B), 19 (RTS-B), 22(DSR-B) 11(TCKE-B) 12 (TCK-B),9 (RCK-B) 12 (TCK-B),9 (RCK-B) 11(TCKE-B) 14(DTX-B) 16(DRX-B) 16(DRX-B) 14(DTX-B) 15 (TCK-A), 17(RCK-A) 24 (TCKE-A) 24(TCKE-A) 15 (TCK-A), 17(RCK-A) Wise Telecommunications Industry... -
Page 100: Appendix G - Printer And Serial Cable Pinout
TSW200E1 Appendix G – Printer and Serial Cable Pinout G.1 – Serial Adaptor Cable DB15 MALE DB25 FEMALE G.2 – Parallel Adaptor Cable DB15 Centronics Male Male 16,17,19,30,33 Wise Telecommunications Industry...
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