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Release 1.2 555-233-116 Issue 4 October 2002...
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How to Get Help • Your Avaya-provided software applications, as well as their • underlying hardware/software platforms and interfaces For additional support telephone numbers, go to the Avaya Web site: • Any other equipment networked to your Avaya products. http://www.avaya.com/support/...
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Use of controls or adjustments or performance of procedures other for help. than those specified herein may result in hazardous radiation expo- sures. Contact your Avaya representative for more laser product infor- Part 68: Answer-Supervision Signaling. Allowing this equipment to mation.
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FCC before the SDoC process company may request that you disconnect the equipment until the was available. A list of all Avaya registered products may be found at: problem is resolved. http://www.part68.org/...
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European Union Declarations of Conformity Avaya Inc. declares that the equipment specified in this document bearing the “CE” (Conformité Europeénne) mark conforms to the European Union Radio and Telecommunications Terminal Equipment Directive (1999/5/EC), including the Electromagnetic Compatibility Directive (89/336/EEC) and Low Voltage Directive (73/23/EEC). This...
Contents About this book Overview Conventions used in this book Systems and circuit packs Admonishments Physical dimensions Antistatic protection Remove/install circuit packs Security Standards compliance LASER product Trademarks How to get this book on the Web How to get help Tell us what you think 909A/B universal coupler Auxiliary power supplies...
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Contents Wire the 1146 power distribution unit Replacing the batteries Storing the batteries in inactive units Repairing short circuits and resetting red LEDs 1151A and 1151A2 power supplies Desk mounting Wall mounting Standards compliance Extenders for 2-wire DCP endpoints 2-wire DCP endpoints DCP extender, stand alone DCP extender, rack mount Data modules and asynchronous data units...
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Contents External modems Hardware required when configuring modems Paradyne COMSPHERE 3715 Configuring the 3715 for CMS Configuring the 3715 for modem pooling Paradyne COMSPHERE 3810 Plus and 3811 Plus Configuring the 3810 Plus and 3811 Plus modems Paradyne COMSPHERE 3910 Configuring the 3910 for CMS U.S.
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Contents Terminal server installation Overview Installing and administering the terminal server Administering the IOLAN+ Potential failure scenarios and repair actions Administering IP node names Administering IP services DS1/T1 CPE loopback jack Installing a loopback jack With a smart jack Without a smart jack Administering the loopback jack Loopback testing with a smart jack Testing the DS1 span from the ICSU to the loopback jack...
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Contents Stratum 3 clock Set clock options Cabling the Stratum 3 clock Stratum 3 clock wiring installation procedure Busy tone disconnect equipment for non-U.S. installations Call detail recording (CDR) option settings Connecting CDR equipment Using other equipment as the CDR output devices Sources of administration information Connecting a CDR device Task list...
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Contents Malicious call trace Music-on-hold For MCC1, SCC1, CMC1, and G600 Media Gateways Registered music source Nonregistered music source For G700 Media Gateways Paging and announcement equipment Background information IP configurations Configuration using the S8700 Media Server in a multi-connect configuration controlling a G700 Media Gateway S8700 Media Server in a multi-connect configuration networked with a S8300 Media Server in a G700 Media Gateway and a...
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Contents Multimedia communications products: MMCX, MMCH, ESM MASI for MMCX Direction connection Main distribution frame connection Wideband endpoints Nonsignaling configuration Signaling configuration Multimedia call handling (MMCH) Connect the endpoints Setup and test the MMCH installation Place conversion test call Expansion services module Administration Place test call Troubleshooting...
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Contents Connector and cable pinout charts Index Issue 4 October 2002 555-233-116...
Sales associates Business partners Overview Avaya media servers and gateways can work with a wide range of external equipment, applications, and peripherals. For the purposes of this book, we define the terms as follows: Adjuncts are software products that work with the various Avaya servers or gateways.
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About this book Table 1 provides a list of current adjuncts and peripherals, and where installation information exists. Table 1. Adjuncts and peripherals resource list Adjunct/Peripheral Resource 909A/B Universal Coupler Chapter 1 AUDIX AUDIX Installation AUDIX Voice Power Installation and Maintenance Guide Auxiliary Power Supplies Chapter 2 Basic Call Management...
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Overview Table 1. Adjuncts and peripherals resource list Adjunct/Peripheral Resource External Alerting Chapter 16 Equipment Internet Call Center CentreVu Internet Solutions Documentation CD-ROM Internet Call Center Solution Guide Internet Telephony Internet Telephony Server-Enterprise Hardware Installation Gateway Quick Reference Intuity AUDIX Internet Messaging for the Intuity AUDIX Multimedia Messaging System, Installation Intuity Interchange...
Conventions used in this book Become familiar with the following terms and conventions. They help you use this book with your Avaya MultiVantage™ Software. Commands are printed in bold face as follows: command. We show complete commands in this book, but you can usually type an abbreviated version of the command.
Systems and circuit packs The word “system” is a general term encompassing all references to an Avaya media server or gateway running MultiVantage Software. The term “ASAI” is synonymous with the newer CallVisor ASAI. Circuit pack codes (for example, TN780 or TN2182B) are shown with the minimum acceptable alphabetic suffix (like the “B”...
About this book WARNING: Denotes possible harm to hardware or equipment. DANGER: Denotes possible harm or injury to your body. SECURITY ALERT: Indicates when system administration may leave your system open to toll fraud. Physical dimensions All physical dimensions in this book are in English units (feet [ft]) followed by metric (centimeter [cm]) in parenthesis.
Security Security To ensure the greatest security possible, Avaya offers services that can reduce toll fraud liabilities. Contact your Avaya representative for more security information. Login security is an attribute of the MultiVantage Software. Advise customers that their existing passwords expire 24 hours after the upgrade. Also explain that the new passwords must conform to strict requirements.
ILMI 3.1 LASER product The Avaya Media Gateway may contain a Class 1 LASER device (IEC 825 1993) if single-mode fiber optic cable is connected to a remote expansion port network (EPN). The LASER device operates within the following parameters:...
If you need additional help, the following resources are available. You may need to purchase an extended service agreement to use some of these resources. See your Avaya representative for more information. If you are within the United States, go to the Avaya Web site at http://www.avaya.com/support/ for support telephone numbers. Click Escalation Lists, which includes escalation phone numbers within specific regions of the United States.
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About this book Issue 4 October 2002 555-233-116...
909A/B universal coupler The 909A/B universal coupler is used with paging and music-on-hold equipment that is not approved for use with the public network. NOTE: The information in this chapter does not apply to the G700 Media Gateway configurations. Figure 1 shows a typical 909A/B universal coupler.
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909A/B universal coupler 909_brkt KLC 042296 1. 909A/B universal coupler 4. J3 7-pin modular jack 2. J1 8-pin modular jack 5. DIP switch location 3. J2 8-pin modular jack Figure 1. Typical 909A/B universal coupler The 909A is the direct current (DC) version of the coupler, and cabinet power supplies -48 VDC power.
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909A/B universal coupler Table 2. J1 Pin Assignments (System Connections) Color Designation Description White-Orange Not Used — Orange PG2/BZ2 Seizure control lead, connected to -48 VDC from the system or from the 909A/B when the protection paging switch is set to C2, or to -48 VDC on the 909A/B when protection/paging switch is set to C1 White-Green PG1/BZ1...
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909A/B universal coupler Table 4. J3 Pin Assignments (Power Connections) Color Designation Description 1, 3, 4, & 7 — — Not used Black -48 RET or ground lead from system or from positive lead of power supply Yellow -48 VDC -48 VDC from system or from negative lead of power supply Figure 2...
One console can connect to an Avaya DEFINITY Server CSI, and ® three consoles can connect to each cabinet stack on an Avaya DEFINITY Server R. Each cabinet can derive auxiliary power from the system and through the auxiliary cable located in the trunk/auxiliary field.
Auxiliary power supplies Local auxiliary power supply Consoles can use either local or phantom power, depending on the distance between the console and the cabinet. Over short distances, phantom power is attractive because no additional hardware is necessary—power is supplied using the telephone circuit itself.
Sources of auxiliary local power Sources of auxiliary local power An attendant console can derive auxiliary power from: A bulk power supply, such as the 1145B A console’s maximum distance from its 1145B auxiliary power source is 800 ft. (244 m) for a 302A1 or 350 ft. (107 m) for a 301B1 and 302C1. 1151A1 or 1151A2 power supply Required safety precautions DANGER:...
Auxiliary power supplies DANGER: Do not block or cover the ventilation openings in the case. Do not let anything rest on the unit. Do not attempt to recharge batteries. The power unit recharges the batteries itself. Any other recharging method may cause leaks of corrosive electrolyte or explosion.
1145B power supply Mountings The back-up battery mounts on a top plate. The power supply and distribution units mount on a bottom plate. The plates are normally wall-mounted. Installing the wall mounting Figure 1. Locate one plate directly below the other with the raised letters right side up.
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Auxiliary power supplies 1149 Battery On Battery Reserve 1145 Power Unit Charging Battery Output Power On 1-32 pcdf1145 KLC 030100 1. Wall mounting plate 5. Power cable 2. Optional battery (1149B shown) 6. Unswitched outlet (120 VAC, 20 A or 230 3.
1145B power supply Installing the 1146 power distribution unit 1. Insert and securely tighten the two supplied #8-32 x 1/2-in. shoulder screws (they have an unthreaded section at the top) into the top holes designated for 1146 Power Distribution Unit on the bottom plate. Mount the unit on these two shoulder screws, using the key holes on the back of the unit.
Auxiliary power supplies Installing the expanded power distribution unit You can install a second power-distribution unit for additional 8400- and 8500- series terminals. CAUTION: Total power cannot exceed 200 W. Consult the chart below for permissible terminal installations. Table 7. Permissible terminal installations (total power < 200 W) Terminal mix Maximum numbers Notes...
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1145B power supply 6. Remove the output power cable between the 1145B and the 1147B units. The cable will not be reused. 7. Connect the P1 connector end of the T-cable to the bottom power distribution unit. 8. Connect the P2 connector to the top distribution unit. 9.
Auxiliary power supplies Powering up and testing AC and DC power When you power up the unit or interrupt power to a unit, the unit runs an AC or DC self test. LEDs on the front panel indicate the status of the power supply. The following table lists the LEDs.
1145B power supply Wire the 1146 power distribution unit Wire endpoints to the 1146 while power from the 1145B is on. 1. Install cross-connect jumpers (the label shows polarity) to Pins 7 and 8 of the appropriate information outlet. Route the wires through the clip provided on the unit.
Auxiliary power supplies Replacing the batteries To maintain back-up protection and battery reliability, replace batteries every four years. Storing the batteries in inactive units To prevent leakage when the power unit is not in use for several months or more, remove the batteries and store them separately.
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1151A and 1151A2 power supplies The PHONE and LINE jacks are 8-pin female nonkeyed 757-type jacks that can accept D4, D7, and D8 modular plug cables. Figure 6 shows a 1151A power supply. The 1151A2 looks similar. DANGER: When operating power-supply equipment, you must follow basic safety precautions to reduce the risk of fire, electric shock and personal injury.
Auxiliary power supplies Desk mounting 1. Place the power supply on a flat surface such as a desk. Wall mounting 1. For wall-mounting, use the keyhole slots on the bottom of the chassis. Standards compliance The 1151A and 1151A2 power supplies comply with the UL Standard UL 1459, second edition.
Extenders for 2-wire DCP endpoints This chapter provides information on 2-wire voice and data terminals and digital communications protocol (DCP) extenders. Extenders provide off-site employees with the full feature set of the PBX. 2-wire DCP endpoints Wire the tip and ring connections of 2-wire DCP endpoints to a TN2224B digital line 2-wire circuit pack (or equivalent), similar to the 2-wire analog endpoints for a TN747B analog line circuit pack.
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Extenders for 2-wire DCP endpoints Table 10. Pin-out for 2-wire DCP endpoints Pin Number Function not used by 2-wire DCP endpoints not used by 2-wire DCP endpoints not used by 2-wire DCP endpoints DCP signal transmission DCP signal transmission not used by 2-wire DCP endpoints auxiliary power -48 VDC (if needed) auxiliary power ground (if needed) Figure 7...
2-wire DCP circuit pack through two DCP extender devices. The DEFINITY Extender Switch Module System Administrator’s Guide contains additional information. 1. Avaya™ Media Server/Gateway 7. 103A or modular wall jack 2. TN2181 or TN2224B circuit pack 8.
Extenders for 2-wire DCP endpoints DCP extender, rack mount Figure 9 shows a typical rack mount (multi-mount) DCP extender. Connections from either a digital line 17-port 2-wire DCP circuit pack or a digital line 24-port 2-wire DCP circuit pack, are made through two DCP extender devices. NOTE: 2-wire DCP extenders are not currently supported on G700 Media Gateway configurations.
Data modules connect peripheral equipment to the Avaya Media Server or Gateway or the Avaya S8100 Media Server with a CMC1 Media Gateway (DEFINITY ONE). Data modules convert between the RS-232 communications protocol used by peripherals and the digital communications protocol (DCP).
Data modules and asynchronous data units Understanding RS-232 communications To install a data module, you have to set up the device to work with RS-232 devices. NOTE: Data modules, PGATE boards, printers connected through data modules, SATs connected through data modules, and anything related to the X.25 connectivity protocol are not supported on the S8300 or S8700 Media Server platforms.
Installation procedure Port 2 Phone Line Power Port 1 cydfnst RPY 070397 1. 103A connector or modular wall jack 9. Auxiliary power supply for telephone 2. 400B2 adapter 10. D7AP cord 3. Rear of data module (7400B Shown) 11. D8W cord 4.
Data modules and asynchronous data units Obtain required equipment To physically connect a data module to the system, you need the following parts. 105C/D Isolating Data Interface (if connecting to a DC cabinet). EIA-232-D (RS-232-C) cable with a male connector (for the data module) and the correct connector for the peripheral equipment.
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Set hardware options To change the operating mode of the 7400A from DCE to DTE (or vice versa), you change the position of a small circuit board (the Electronic Industries Association connector board) inside the case. See Figure 11 and proceed as follows. WARNING: Electrostatic discharge can severely damage sensitive electronic circuits.
Data modules and asynchronous data units 5. Use the DCE position to connect to DTE equipment. Use the DTE position to connect to DCE equipment. To change the mode, remove the board by grasping it and pulling it gently upward. Flip the board around, left to right, and reinsert it in the socket so that the correct operating mode, DCE or DTE, appears in the upper lefthand corner.
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Set hardware options 2. Otherwise, remove the access panel on the top of the case by grasping the rear lip of the panel and pulling sharply upward. 3. Locate the DIP switch block, a bank of tiny switches on the circuit board, in the center of the opening.
Data modules and asynchronous data units No telephone attached, data metering ON, busyout on local loop ON DOWN DOWN DOWN DOWN DOWN DOWN DOWN Telephone attached, data metering ON, busyout on local loop OFF DOWN DOWN DOWN DOWN DOWN DOWN DOWN Telephone attached, data metering OFF, busyout on local loop ON DOWN...
Connect data modules Connecting a single data module CAUTION: You must install a 105D or 105C isolating data interface adapter when connecting data modules to equipment in DC-powered cabinets. Connect the data module to your house wiring or DEFINITY as follows. 1.
Data modules and asynchronous data units Connecting multiple data modules to the system CAUTION: You must install a 105D or 105C isolating data interface adapter when connecting data modules to equipment in DC-powered cabinets. You install multiple data modules in a data mounting on the DEFINITY. A Z77A data mounting can take up to 8 data modules.
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Connect data modules 4. Connect the a 25-pin RS-232 cable to the 25-pin connector on the rear of the data module. 5. Route the cable through the data mounting and through the twist-lock cable retainer on the top of the data mounting. 6.
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Data modules and asynchronous data units Figure 14. 7400A asynchronous data module Using the 7400A menu system On the 7400A, you select communications settings using the controls on the front panel of the device. An LCD displays the configuration menus. You use the NEXT/NO and BACK buttons to navigate through the menus and the ENTER/ YES button to select values.
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Connect data modules HOME POWER — — — TEST DATA NEXT/NO BACK ENTER/YES 7400A Data Module Adjusting the control-panel display on the 7400A 1. Adjust the contrast of the display so that you can see it comfortably. Press the ENTER/YES button. This steps you through the available contrast settings.
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Data modules and asynchronous data units Name Function — Reserved for Testing +12 volts — — Reserved for Testing -12 volts — — Not used — — Data Signal Rate Select (DCE Source) Output Input Data Signal Rate Select 2 (DCE Source) —...
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Connect data modules Setting interface options on 7400A DCE 1. To access the menus, press the NEXT/NO button. — — — DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 2. When the SET OPTIONS? prompt appears on the LCD. Press the NEXT/ NO button.
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Data modules and asynchronous data units 5. For each prompt, if you want to select the interface, press the ENTER/YES button or, if you want a different interface, press the NEXT/NO button. a. Enable the answer-only interface if the data module must operate without any kind of external control: INT=ANS ONLY? DATA...
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Connect data modules Setting speed options on 7400A DCE 1. Press the NEXT/NO button to continue with the setup procedure. — — — DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 2. The SET OPTIONS? prompt appears on the LCD. Press the ENTER/YES button.
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Data modules and asynchronous data units 6. The SET 19200 SPEED? prompt appears. Press the NEXT/NO button. SET 19200 SPEED? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 7. If you selected the AT-command interface in the section ‘‘Setting interface options on 7400A DCE’’, you are finished configuring the 7400A data...
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Connect data modules 4. The CONTINUE? prompt appears. Press the ENTER/YES button. CONTINUE? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) Setting the break-disconnect option on 7400A DCE This setting specifies the length of the BREAK signal, a string of 10 or more spaces that tells the host that the user needs to interrupt operations.
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Data modules and asynchronous data units 2. If you pressed the ENTER/YES button at the SET LeadName LEAD? prompt, the LeadName -> ON? prompt appears. Press the ENTER/YES button. LeadName -> ON? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 3.
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Connect data modules Configuring the ring indicator on 7400A DCE The ring-indicator (pin 22) setting can have either of two values: CYCLE or ON (the default). 1. Accept the default values, unless otherwise instructed. When the SET RI LEAD? prompt appears, press the NEXT/NO button to keep the default, SET RI LEAD? DATA NEXT/NO...
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Data modules and asynchronous data units Enabling test mode on 7400A DCE The test-mode (pin 25) setting can have either of two values: ON or OFF (the default). 1. Accept the default values, unless otherwise instructed. When the SET TM LEAD? prompt appears, press the NEXT/NO button to keep the default, SET TM LEAD? DATA...
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Connect data modules You return HOME. HOME POWER — — — — — — — TEST DATA NEXT/NO BACK ENTER/YES 7400A Data Module Checking DEFINITY administration on 7400A DCE Check that the DEFINITY is administered to support the 7400A data module in the DCE application as follows: 1.
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Data modules and asynchronous data units Setting speed options on 7400A DTE 1. To access the menus, press the NEXT/NO button. 2. When the SET OPTIONS? prompt appears on the LCD, press the ENTER/ YES button. HOME POWER SET OPTIONS? TEST DATA NEXT/NO...
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Connect data modules 6. The CONTINUE? prompt appears. Press the ENTER/YES button. CONTINUE? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 7. The SET 19200 SPEED? prompt appears. Press the NEXT/NO button to keep the default. SET 19200 SPEED? DATA NEXT/NO...
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Data modules and asynchronous data units 10. If you enabled AT commands, the AT —> ON? prompt appears. Press the ENTER/YES button. AT —> ON? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 11. If you enabled AT commands, the CONTINUE? prompt appears. Press the ENTER/YES button.
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Connect data modules Table 11. DTE-mode RS-232 signal-rate lead settings for the 7400A If you selected AT control in an earlier step, set You want only 1 data speed. You want 2 data speeds. You want only 3 or 4 data speeds. 3.
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Data modules and asynchronous data units 6. If you pressed ENTER/YES in the preceding step and the CI2 LEAD = ON? prompt appears press the ENTER/YES button again to confirm your selection. CI2 LEAD=ON? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 7.
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Connect data modules 10. The maintenance-option EIA leads configure loopback testing for the data module. You do not need to set any specific options. So, when the SET LL LEAD? prompt appears, press the NEXT/NO and BACK buttons together to return HOME.
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Data modules and asynchronous data units 3. When the VIEW OPTIONS? prompt appears on the LCD, press the NEXT/ NO button. VIEW OPTIONS? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 4. When the TEST - RESET? prompt appears on the LCD, press the ENTER/ YES button.
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Connect data modules 8. When the LOCAL LOOP/ST? prompt appears on the LCD, press the NEXT/NO button. LOCAL LOOP/ST? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 9. When the REMOTE LOOPBACK? prompt appears on the LCD, press the NEXT/NO button.
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Data modules and asynchronous data units Configuring the 7400B Data Module The factory default settings for the7400B data module are generally satisfactory. But if you need to change them, you use a terminal device and the AT command language commonly used by Hayes-compatible modems (7400B data modules have no control buttons).
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Connect data modules The 7400B data module can be used at a remote site as a dedicated service device to answer incoming data calls, send data to a remote end device, and then hang up. For example, you might wish to provide access to a printer from a remote site.
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Data modules and asynchronous data units Exiting command mode on the 7400B After configuring the 7400B, exit command mode, and put the data module back online. 1. Enter O (capital O). Configuring the 7400C HSL (high- speed link) data module Figure 15 shows the front and rear of a 7400C synchronous data module.
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Connect data modules 2. When SET SPEED? appears, press the ENTER/YES button. SET SPEED? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) The current transmission speed appears: SPEED = 56KBPS? (the default) or SPEED = 64KBPS? 3.
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Data modules and asynchronous data units 7. Otherwise, if you want to quit now, press NEXT/NO until DONE? appears. Then press the ENTER/YES button. DONE? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 8. When SAVE CHANGES? appears, press the ENTER/YES button again. SAVE CHANGES? DATA NEXT/NO...
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Connect data modules 4. Set the DSR lead to ON. 5. Set PERMANENT CONNECTION to YES. 6. Exit and save changes, as described above, in ‘‘Setting the data speed for 7400C’’. Configuring the 7400D data module The 7400D data module is a converted 7400A used for synchronous data transmission (see Figure 16).
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Data modules and asynchronous data units Options CMS settings DCS settings RI LEAD SIGLS DISC TM LEAD Continued on next page Figure 16. 7400D data module Accessing the menus of the 7400D You configure the 7400D from a set of menus. 1.
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Connect data modules 2. When the SET OPTIONS? prompt appears on the LCD. Press the NEXT/ NO button. SET OPTIONS? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 3. The VIEW OPTIONS? prompt appears. Press the NEXT/NO button. VIEW OPTIONS? DATA NEXT/NO...
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Data modules and asynchronous data units 3. Press the NEXT/NO button until you see the SET yourSpeed SPEED? prompt. Then press the ENTER/YES button. SET yourSpeed SPEED? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 4.
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Connect data modules 2. When the ANS = AUTO? prompt appears, press the ENTER/YES button for most applications. ANS = AUTO? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) Configuring the RS-232 interface of the 7400D From the front panel, you can set each pin of the RS-232 cable to meet the needs of specific applications, though in most cases, the settings below should work.
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Data modules and asynchronous data units 5. Press the NEXT/NO button until you see the CH = correctSetting? or CH - > correctSetting? prompt. Then press the ENTER/YES button. CH = correctSetting? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 6.
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Connect data modules 11. Press the NEXT/NO button until you see the DCD = correctValue? or DCD -> correctValue? prompt. Then press the ENTER/YES button. DCD = correctValue? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 12.
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Data modules and asynchronous data units 17. Press the NEXT/NO button until you see the DTR = correctValue MSEC? or DTR -> correctValue MSEC? prompt. Then press the ENTER/YES button. DTR = correctValue MSEC? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 18.
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Connect data modules 23. When the SET LL DETECT? prompt appears, press the NEXT/NO button to skip this setting. SET LL DETECT? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 24. When the SET RI LEAD? prompt appears, press the ENTER/YES button. SET RI LEAD? DATA NEXT/NO...
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Data modules and asynchronous data units 29. Press the NEXT/NO button until the SIGLS DISC = correctValue? or SIGLS DISC -> correctValue? prompt appears. Then press the ENTER/ YES button. SIGLS DISC = ON? DATA NEXT/NO BACK ENTER/YES Push the button indicated by the arrow ( ) 30.
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Connect data modules Configuring the 8400B Plus data module Figure 17 shows the rear of a 8400B Plus asynchronous data module. The unit provides integrated voice and data communications over standard, 2-wire, twisted-pair circuits within 2000 ft. of an DEFINITY. The unit can emulate a Hayes-compatible interface for standard personal computer (PC) communication.
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Data modules and asynchronous data units Table 12. Codes for disabling default settings of the 8400B data module Default setting Disabling code Disable Data Metering Feature Immediate Speakerphone Activation Automatic Speakerphone Activation Disable Busyout During Local Loopback Test Continued on next page Proceed as follows.
You have to administer each data module that you attach to the system. NOTE: Only the basic procedure is covered here. For the full range of options, see the Administrator’s Guide for Avaya MultiVantage Software. NOTE: Data modules, PGATE boards, printers connected through data modules, SATs connected through data modules, and anything related to the X.25...
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Data modules and asynchronous data units Screen 1. Typical system-configuration listing 2. Locate an unassigned port on a suitable circuit pack, and make a note of the corresponding port number. The port number is the Board Number, UUCSS (where UU is the 2-digit cabinet number, C is the single-character carrier identifier, and SS is the 2- digit slot number) followed by the next 2-digit number, PP, in the sequence in the Assigned Ports fields at the right side of the form: UUCSSPP.
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Administer the data modules Screen 2. Typical data-module form 4. In the Port field, enter the seven-digit port address that you wrote down in step 2, above. 5. If you installed a telephone on the data module, enter the extension number and station name for this telephone in the ASSIGNED MEMBER part of the form.
Data modules and asynchronous data units Asynchronous data units (ADU) ADUs are used with Data Line circuit packs to connect peripherals, such as printers, data terminals, fax equipment, and call-detail recording equipment to the DEFINITY. Figure 19 shows a typical Z3A2 ADU assembly (without a cable). NOTE: Data modules, PGATE boards, printers connected through data modules, SATs connected through data modules, and anything related to the X.25...
External modems The following section assumes that you are using one of the recommended external modems. However, any locally obtained, type-approved external modem should work. Contact your Avaya representative for more information. Recommended modems include: ‘‘Paradyne COMSPHERE 3715’’ ‘‘Paradyne COMSPHERE 3810 Plus and 3811 Plus’’...
External modems Paradyne COMSPHERE 3715 You configure COMSPHERE 3715 modems using the Hayes-compatible AT commands common to many modems. For instructions on how to physically connect the modem and enter the commands listed in the instructions below, see the documentation that came with the modem. Configuring the 3715 for CMS The instructions below set up the modem for use in a Call Management System (other configurations may work as well).
Paradyne COMSPHERE 3810 Plus and 3811 Plus Paradyne COMSPHERE 3810 Plus and 3811 Plus Configuring the 3810 Plus and 3811 Plus modems 1. Install the modem as described in the vendor’s documentation. 2. Attach a PC with terminal emulation software, as described in the vendor’s documentation.
External modems Configuring the 3910 for CMS The COMSPHERE 3910 modem may be used as the Call Management System (CMS) Remote Console Modem or as a device that provides serial connectivity to CMS through the Network Terminal Server (NTS). The instructions below set up the modem for use in CMS (other configurations may work as well).
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Paradyne COMSPHERE 3910 Creating an editable configuration set It is generally easiest to configure the modem by starting from the default, factory configuration. You then change only those settings that are different for a DEFINITY installation. Copying factory default settings Make a copy of the default, factory configuration using the following procedure.
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External modems Configuring the DTE interface Set the data speed and enable standard, RS-232 communications settings. Proceed as follows. Configuring basic, RS-232 handshaking Start by selecting values for the basic parameters of serial data communications, mode, speed/rate, framing, and error correction (parity). The modem uses these parameters when it negotiates a connection with another RS-232 device, a process called handshaking.
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Paradyne COMSPHERE 3910 5. Press F2 to select Stndrd_RS232. 6. Press F1 to select Nxt. The RTS Action menu heading appears. Configuring RS-232 RTS and CTS send signals Next you set the parameters that the modem uses to offer and accept data, Request To Send (RTS) and Clear To Send (CTS).
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External modems Configuring the DTE dialer Now define the command interface that the modem should use when dialing. The RS-232 interface uses control characters to pass communications commands and control the transmission. These are user-configurable. We need to disable the result-code options while retaining the default values for the other control characters.
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Paradyne COMSPHERE 3910 Disabling result codes We have reached the options that we need to change. Proceed as follows. 1. From the ResultCodes (Enable) menu heading, press the right-arrow button once. The Disable menu item appears. 2. Press F2 to select Disable. 3.
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External modems Exiting the dial line menu Skip over the remaining menu headings. Proceed as follows. 1. Press F1 to select Nxt. The V32bis Automode (Enable) menu heading appears. 2. Press F1 to select Nxt. The V32bis Autorate (Enable) menu heading appears. 3.
1. From the topmost menu, select the Status menu item. U.S. Robotics modems Avaya recommends using the U.S. Robotics external modem. For instructions on how to physically connect it and for general configuration instructions, see the documentation that came with the modem. This document describes configuring the modem for particular adjuncts.
External modems Multi-Tech MT5634ZBA-USB Avaya recommends using a Multi-Tech modem, model MT5634ZBA-USB, for use with an S8300/G700 configuration. To connect a Multi-Tech modem for a G700 Media Gateway/S8300 Media Server configuration: Plug the USB connector of the Multi-Tech modem into one of the two USB ports on the front of an S8300 Media Server.
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Administration Setting data-transmission parameters 1. On the modem-administration form, set the Data Bits: field to 8 (the default). 2. Set the Parity: field to none (the default). 3. Set the RTS/CTS Enabled: field to &H1 (unless you have an Intel modem, in which case set it to \Q3).
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External modems Setting additional, modem-specific parameters 1. Put any remaining AT configuration commands required by your modem in the Misc. Init. Param: field. Exiting the form and saving the changes 1. When you are finished, press ENTER Issue 4 October 2002 555-233-116...
Printers This chapter provides information on connecting and configuring printers that work with your system and MultiVantage Software. Connecting printers using TCP/IP Printers can be connected to the switch using asynchronous TCP/IP links and a terminal server. This section provides information on connecting adjuncts to the C-LAN (for MCC1, SCC1, CMC1, and G600 Media Gateways) and providing the initial administration.
Printers Administering adjunct parameters You must administer adjunct parameters to let the system know that the adjunct is connected through TCP/IP. PMS journal and PMS log printers 1. Type change system-parameters hospitality and press RETURN The Hospitality screen appears. 2. On this screen, you can administer the PMS Log Endpoint (PMS_LOG) or PMS Journal Endpoint (PMS_JOURNAL) for whichever of these is connected through TCP/IP.
Connecting printers using TCP/IP Using the downloadable reliable session-layer protocol (RSP) tool The intent of the Reliable Session-Layer Protocol (RSP) is to guarantee delivery of data records from the switch to an output device that connects to the switch over an asynchronous TCP/IP link. The Downloadable RSP tool allows you to implement this protocol on a PC that collects data records in a file.
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Printers Downloading RSP The RSP is available from the Avaya support web site as a self-extracting executable. To download the RSP: 1. Browse to the Avaya Customer Support web site: http://support.avaya.com/sd.jhtml 2. Select the RSP tool from the web site.
In simplest terms, the DEFINITY LAN gateway (DLG) is an application that enables communications between TCP/IP clients and Avaya MultiVantage™ Software call processing. In more technical terms, the DLG application is software that both routes internetwork messages from one protocol to another (ISDN to TCP/IP) and bridges all ASAI message traffic (by way of a TCP/IP tunnel protocol).
Each TCP connection to the DLG has a one-to-one correspondence with a CTI link. For more information about the TCP tunnel protocol, see Chapter 7, “TCP Tunnel Protocol,” in the Avaya MultiVantage CallVisor ASAI Protocol Reference, 555-230-221. How is the DLG application is packaged...
For more information on co-resident DLG and the G700 Media Gateway, see Chapter 13, “DEFINITY LAN Gateway and ASAI-Ethernet,” and Chapter 14, “Installation and Test for CallVisor ASAI,” in the Avaya MultiVantage CallVisor ASAI Technical Reference, 555-230-220. For more information, also refer to the DEFINITY Enterprise Communications Server CallVisor ASAI Applications Over MAPD, 555-230-136.
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G700 Media Gateway with an S8300 Media Server, using a terminal server (Figure 21). Avaya supports the IOLAN+ 104 terminal server. Any device that does not support a direct TCP/IP connection, but that does support an RS232 interface, can connect through a terminal server. Property management systems (PMS), system printers, and some CDR devices use RS232 connections and can connect through a terminal server.
Table Table 14. Required equipment Comcode Description Supplier 700015084 IOLAN+ 104 communications server Avaya RJ45-to-DB25 connector for IOLAN+ Avaya (supplied with 700015084) DB25-to-DB9 connector for PC COM port Avaya RS232 Null modem (if needed for PC or 1 or more...
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Installing and administering the terminal server Cabling diagram Figure 22 shows the connection between the terminal server port and a call accounting system. Standalone Call Accounting 259A Adapter, 356A Adapter (Jack #1), or Switch 258B Adapter (Jack #1) Terminal Server M25A or M25B Call RS232 Cable...
Terminal server installation Follow these typical steps: NOTE: Depending on the adjunct’s connections, you may not need all of these pieces. 1. Connect the null modem adapter to COM1 port on the adjunct. NOTE: The null modem is an important element in this setup. Without it, data may not transfer correctly.
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Installing and administering the terminal server Setting up HyperTerminal on the computer Use the HyperTerminal software program that comes with Windows 95/98/NT/ 2000 to administer the IOLAN+. 1. Open HyperTerminal. 2. Click on File > Properties > Connect tab. In the Connect using: field, select COM n, where n is the communication port your computer is using.
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Terminal server installation 3. Under Connection select Port 1 (the port to which the adjunct is connected) and press to access the Commands menu. ENTER 4. Select Admin mode > Password and press ENTER Name: port 2 ADMINISTRATION MENU Terminal: 2 gateway Examine/modify gateway table.
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Installing and administering the terminal server 7. Fill in the following fields with information appropriate to your network. Leave the default settings for the other fields. Name: IP address: (for IOLAN+) Subnet mask: 8. Press and select Save & Exit to effect the changes. ENTER Rebooting the IOLAN+ You must reboot the server any time you change an IP address or Local Port...
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Terminal server installation Administering the gateway NOTE: If the C-LAN circuit pack and IOLAN+ are in the same subnet, skip this step. 1. Select Admin mode > Password and press ENTER 2. Type iolan and press ENTER 3. Select gateway to access the Gateway menu 4.
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Installing and administering the terminal server ** Administrator ** PORT SETUP MENU Terminal: 2 Hardware Flow ctrl Keys Speed [19200 ] Flow ctrl [Hardware] [^]] Intr [^C] Parity [None] Input Flow [Enabled ] Quit [^@] Kill [^U] Output Flow [Enabled ] [^@] Sess [^@]...
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Terminal server installation Host: C-LAN IP Address Remote Port: C-LAN Ethernet port where IP adjunct service is offered Local Port: must match the value of Remote Port on the DEFINTY IP Services screen 6. Press and select Save & Exit to effect the changes. ENTER 7.
Administering IP node names ** Administrator ** SERVER STATISTICS Terminal: 2 1. port1 Talking to host 172.22.22.67.5111<DSR+CTS+DCD >DTR+RTS 2. port 2 SERVER STATISTICS <DSR+DCD >DTR+RTS 3. port 3 waiting for DSR or DCD >DTR+RTS 4. port 4 modem waiting for DSR or DCD >DTR+RTS REM <unknown>...
Terminal server installation change node-names ip Page 1 of 1 NODE NAMES Name IP Address Name IP Address 1. switch________ 123.456.7 17. ______________ ___.___.___.___ 2. callacctg_____ 123.456.9 18. ______________ ___.___.___.___ 3. termserver____ 123.456.11 .00 19. ______________ ___.___.___.___ 4. pmslogpc______ 123.456.78 .00 20.
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Administering IP services 4. The Local Port field defaults to 0 for all client applications. You cannot make an entry in this field. 5. In the Remote Node field, enter the node name for the adjunct, as administered on the Node Names screen. For the call accounting application, type callacctg.
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This chapter provides information on how to install and use a DS1 loopback jack to test the DS1 span between the Avaya Media Server or Gateway and the network interface point. The loopback jack is required when DC power is at the interface to the integrated channel service unit (ICSU).
DS1/T1 CPE loopback jack If the smart jack is not accessible, install the loopback jack at the extended demarcation point. If there is no extended demarcation point, install the loopback jack directly at the network interface point as shown in Figure 24 Figure If there is an extended demarcation point and the smart jack is not accessible,...
Administering the loopback jack Administering the loopback jack 1. At the management terminal, enter change ds1 location, where location is the DS1 interface circuit pack corresponding to the loopback jack. 2. Be sure the near-end CSU type is set to integrated. 3.
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DS1/T1 CPE loopback jack Checking the integrity of local equipment Before you go any further, make sure that the problem is actually on the DS1 span by testing the equipment that connects to the span at the near end. Test the DS1 circuit pack, and perform any needed maintenance or repairs.
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Loopback testing with a smart jack 1. At the management terminal, enter test ds1-loop UUCSS cpe-loopback- jack, where UU is the cabinet number, C is the carrier letter, and SS is the slot number of the DS1 board. The loopback jack powers up. Active, DS1 facility alarms (if any) clear. After about 20 seconds, the first set of results appears on the terminal.
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DS1/T1 CPE loopback jack Running the data test NOTE: If you have a G700 Media Gateway, substitute XXXVS for UUCSS in the following command, where XXX is the administered number of the G700 (for example, 002), and VS is the slot number on the G700 of the Media Module (for example, V3).
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Loopback testing with a smart jack NOTE: If you have a G700 Media Gateway, substitute XXXVS for UUCSS in the following commands, where XXX is the administered number of the G700 (for example, 002), and VS is the slot number on the G700 of the Media Module (for example, V3).
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DS1/T1 CPE loopback jack Condition Solution The service provider The wiring between the loopback jack and the smart successfully loop tested the jack is suspect. Test, and make repairs, as needed. span, up to the smart jack. You cannot locate and repair The test will not terminate normally in the absence of a the problem in the time good framing signal.
Loopback testing with a smart jack Releasing the DS1 circuit pack NOTE: If you have a G700 Media Gateway, substitute XXXVS for UUCSS in the following command, where XXX is the administered number of the G700 (for example, 002), and VS is the slot number on the G700 of the Media Module (for example, V3).
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DS1/T1 CPE loopback jack NOTE: If you have a G700 Media Gateway, substitute XXXVS for UUCSS in the following command, where XXX is the administered number of the G700 (for example, 002), and VS is the slot number on the G700 of the Media Module (for example, V3).
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Loopback testing with a smart jack 1. Span section 1 6. Loopback jack 2. Span section 2 7. Network interface smart jack 3. Span section 3 8. Interface termination or fiber multiplexer (MUX) 4. 120A2 (or later) ICSU 9. Central office 5.
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DS1/T1 CPE loopback jack E1/T1 EIA 530A DCE SHUT DOWN OK TO REMOVE SERVICES USB 1 USB 2 prdfcs7a KLC 080602 1. Span section 1 6. RJ-48 to network interface (up to 1000 ft. [305 m]) 2. Span section 2 7.
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Loopback testing with a smart jack 1. Span section 1 6. Loopback jack 2. Span section 2 7. Dumb block (extended demarcation) 3. Span section 3 8. Network interface smart jack 4. 120A2 (or later) ICSU 9. Interface termination or fiber multiplexer (MUX) 5.
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DS1/T1 CPE loopback jack E1/T1 EIA 530A DCE SHUT DOWN OK TO REMOVE SERVICES USB 1 USB 2 prdfcs4a KLC 080602 1. Span section 1 6. RJ-48 to network interface (up to 1000 ft. [305 m]) 2. Span section 2 7.
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Loopback testing with a smart jack 1. Span section 1 6. Dumb block (extended demarcation) 2. Span section 2 7. Loopback jack 3. Span section 3 8. Network interface smart jack 4. 120A2 (or later) ICSU 9. Interface termination or fiber multiplexer (MUX) 5.
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DS1/T1 CPE loopback jack E1/T1 EIA 530A DCE SHUT DOWN OK TO REMOVE SERVICES USB 1 USB 2 prdfcs5a KLC 080602 1. Span section 1 6. RJ-48 to network interface (up to 1000 ft. [305 m]) 2. Span section 2 7.
Testing a loopback jack without a smart jack Testing a loopback jack without a smart jack When the loopback jack is added to a span that does not contain a smart jack, the span is divided into 2 sections: from the ICSU, or from the MM710, to the loopback jack and from the loopback jack to the central office (CO).
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DS1/T1 CPE loopback jack E1/T1 EIA 530A DCE SHUT DOWN OK TO REMOVE SERVICES USB 1 USB 2 prdfcs8a KLC 080602 1. Span section 1 5. RJ-48 to network interface (up to 1000 ft. [305 m]) 2. Span section 2 6.
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Testing a loopback jack without a smart jack 1. Span section 1 6. Dumb block (demarcation point) 2. Span section 2 7. Repeater 3. 120A2 (or later) ICSU 8. Fiber multiplexer (MUX) 4. RJ-48 to network interface 9. Central office (up to 1000 ft.
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DS1/T1 CPE loopback jack E1/T1 EIA 530A DCE SHUT DOWN OK TO REMOVE SERVICES USB 1 USB 2 prdfcs6a KLC 080602 1. Span section 1 5. RJ-48 to network interface (up to 1000 ft. [305 m]) 2. Span section 2 6.
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Testing a loopback jack without a smart jack Proceed as follows. 1. Test customer premises wiring from the ICSU, or from the MM710, to the loopback jack, as described in the “DS1 Span Test” section. 2. Test the loopback jack-to-dumb block and dumb block-to-CO wiring (section 2 in Figure 30 through...
DS1/T1 CPE loopback jack Configurations using fiber multiplexers Use the loopback jack when customer premises DS1 wiring connects to an on-site fiber multiplexer (MUX) and allows wiring to the network interface point on the MUX to be remotely tested. For a G700 Media Gateway, this requires that the MM710 CSU be set so it can be used on DS1 wiring to the MUX.
ISDN converters and adapters This chapter provides information on ISDN converters and adapters that are sometimes necessary when connecting to coaxial facilities in either a multicarrier cabinet or a single carrier cabinet. NOTE: The information in this chapter does not apply to the G700 Media Gateway configurations.
ISDN converters and adapters Converters for single-carrier cabinets PRI-to-DASS and PRI-to-DPNSS converters Figure 34 shows typical connections from the CCSC-1 PRI-to-DASS converter or the CCSC-2 PRI-to-DPNSS converters to the coaxial facility. 0001 0 RBP 051396 1. To TN464F DS1 circuit pack and 4.
Converters for single-carrier cabinets PRI-to-BRI converter Figure 35 shows typical connections from the PRI-to-BRI converter to the coaxial facility. (2B+D) (2B+D) (2B+D) 0007_0 RBP 051396 1. To TN464F DS1 circuit pack and 6. Coaxial cable from PRI converter PRI-to-BRI converter circuit pack circuit pack to coaxial converter 2.
ISDN converters and adapters Converters for multi-carrier cabinets PRI-to-DASS and PRI-to-DPNSS converters 1. Connect the DEFINITY administration PC to the RS-232 connector on the front of the PRI converter circuit pack. Figure 36 shows typical connections from the CCSC-1 PRI-to-DASS converter or the CCSC-2 PRI-to-DPNSS converters to the coaxial facility.
Converters for multi-carrier cabinets PRI-to-BRI converter Figure 37 shows typical connections from the PRI-to-BRI converter to the coaxial facility. The DEFINITY administration PC is connected to the RS-232 connector on the front of the PRI converter circuit pack. (2B+D) (2B+D) (2B+D) ALARMS EMER TR...
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Stratum 3 clock The Stratum 3 clock is an optional feature for digital frame timing that couples the clock output to local clocks. This chapter provide information on setting the option switches on the clock. For installation information refer to the appropriate installation or upgrade book for your system.
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Stratum 3 clock 2. Set the options on the Stratum 3 (ST3) clock board (see Table 17). Table 17. ST3 clock board option switch settings Switch Status/Results OFF = minor alarm never output Minor alarm ON = minor alarm is output if holdover occurs control OFF = major alarm is output and fail lamp lights if 5 VDC Major Alarm...
Set clock options Cabling the Stratum 3 clock Figure 38 shows typical connections to a Stratum 3 clock cabinet. Connections are made through the yellow field cross-connect. A custom Y-cable (H600-274) connects the CSU to the DS1 circuit pack and taps off the input for the Stratum 3 clock.
Set clock options Stratum 3 clock wiring installation procedure 1. Connect the B25A cables from the TN780 connector panel slot on the system cabinet and the Stratum 3 Clock to the cross-connect module in the yellow field. 2. Connect the CSU plug end of the H-600-274 Y-cable to the primary CSU. Route an H600-307 cable from the DS1 connector panel slot on the system cabinet to the connector on the “SYSTEM”...
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Stratum 3 clock Table 21. TN780-carrier cross-connects for standard reliability From Stratum 3 Clock To TN780 carrier A To TN780 carrier B Lead Lead Color/ Lead Lead Color/ Lead Lead Color/ Name Terminal Name Terminal Name Terminal BCLKRTN R-O/13 ALRM5B V-G/45 BCLKLST O-R/14...
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Set clock options Table 22. Y-cable clock-end cross-connects for high or critical reliability To Y-cable clock end To Y-cable clock end From Stratum 3 Clock (primary) (secondary) Lead Lead Color/ Lead Lead Color/ Lead Lead Color/ Name Terminal Name Terminal Name Terminal RREF1...
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Stratum 3 clock Table 23. Circuit-pack cross-connects for high or critical reliability — Continued From Stratum 3 Clock To TN780 carrier A To TN780 carrier B Lead Lead Color/ Lead Lead Color/ Lead Lead Color/ Name Terminal Name Terminal Name Terminal CCB01R BK-BL/21...
Busy tone disconnect equipment for non-U.S. installations The customer-provided busy tone disconnect adjunct detects disconnects of incoming calls on loop-start, 2-wire, analog trunks. In some countries outside the United States, the PSTN sends tones in the voice band instead of line disconnect signals.
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DEFINITY Server (such as an MCC1 Media Gateway), and to a G700 Media Gateway. Connecting CDR equipment The interface between an Avaya media server and CDR equipment may be a: Data module (see Chapter 4, ‘‘Data modules and asynchronous data units’’, for recommended settings).
Sources of administration information Administration procedures for CDR equipment are provided in Administrator’s Guide for Avaya MultiVantage Software. Connecting a CDR device This section provides information on connecting adjuncts to the media server, and providing the initial administration.
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Connecting a CDR device The CDR System Parameters screen appears. change system-parameters cdr Page 1 of CDR SYSTEM PARAMETERS Node Number (Local PBX ID): CDR Date Format: month/day Primary Output Format: printer Primary Output Endpoint: CDR1 Secondary Output Format: Use ISDN Layouts? n EIA Device Bit Rate: 9600 Use Enhanced Formats? n Condition Code ‘T’...
TCP/IP link. You can download the RSP tool from the Avaya Web site. The RSP tool allows you to implement this protocol on a PC that collects data records in a file.
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Using the downloadable reliable session-layer protocol (RSP) tool Downloading RSP The RSP is available from the Avaya support Web site as a self-extracting executable. To download the RSP: 1. Go to the Avaya Customer Support Web site at http://avaya.com/support. 2. In the Search For text box, type reliable and click 3.
NOTE: These instructions are for Avaya Media Server or Gateway systems using the TN1648/B system access/maintenance (SYSAM) circuit pack. ISDN is required. These instructions do not apply to the S8300 or the S8700 Media Servers in a G700 Media Gateway configuration.
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DEFINITY INADS cydfmdf RPY 040698 1. Avaya Media Server or Gateway PPN 4. B25A 25-pair cable to AUX 2. AUX connector on processor carrier 5. Main distribution frame (MDF) (use wire pair 50 and 25, tip and ring) 6. B25A 25-pair cable to circuit pack 3.
DEFINITY INADS Administration NOTE: Add 2 pauses in front of the dial string when using cut-through trunks. Pauses are not required if using ARS. 1. Type change system-parameters maintenance and press Enter 2. For high reliability systems, in the see interchange: field, type daily and press .
5. Standard RJ-45 telephone cord 11. AUX connector (use wire pair 50 and 25, 6. 103A or modular wall jack tip and ring) 12. Avaya Media Server or Gateway PPN Figure 41. INADS connection (US/Atlas platform) Issue 4 October 2002 555-233-116...
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5. Pins 2,3 on cable 5 bridge to pins 1,4 ring) of cable 7 inside MDF 11. Avaya Media Server or Gateway PPN 6. Dial tone from the CO or extension on 12. Standard RJ-45 connector (pins 2,3, tip and pins 2,3;...
4. 103A or modular wall jack 9. AUX connector (use wire pair 50,25, tip 5. Dial tone from the CO or a switch and ring) extension 10. Avaya Media Server or Gateway PPN Figure 43. INADS connection (all platforms) Issue 4 October 2002 555-233-116...
DEFINITY INADS Standard reliability Normal connection: 1. Connect a system telephone to station 10 on the PARTNER system. 2. Connect a standard RJ-11 telephone line cord from the PARTNER CO line to the CO line protector. 3. Connect the INADS tip and ring port from the AUX connector to the tip/ring pair of CO line port 1 on the PARTNER through the MDF.
DEFINITY INADS 7. Enter 2 to set the station port to analog rotary. Enter 1 if an analog DTMF telephone or PARTNER system telephone is connected. 8. Enter # to return to the start of the programming mode. Set PARTNER CO line port (all platforms) 1.
RAS IP address: 10.1.1.27. Enter the IP address through the Web user interface. For more information, see Installation and Upgrades for the Avaya G700 Media Gateway controlled by an Avaya S8300 Media Server or an Avaya S8700 Media Server, 555-234-100. 555-233-116...
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Malicious call trace The malicious call trace (MCT) voice recorder connects directly to the tip and ring connections of a TN763/D auxiliary trunk circuit pack. See Figure 44. The 909A/B universal coupler provides seizure control to the recorder. NOTE: There is no auxiliary trunk circuit pack for the G700 Media Gateway, so information in this chapter does not apply to the G700 Media Gateway.
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Malicious call trace NOTE: A wiring block must be locally engineered. NOTE: 909A couplers ships with one DW4B-DE cable and two DW8B-SE cables. The 909B ships with one KS-22911L2 power supply, one DW4B-DE cable, and two DW8B-SE cables. 1. Determine the port assignment of the recorder from the malicious call tracing form.
Music-on-hold The music-on-hold (MOH) feature allows a caller to hear music when that caller is placed on hold. Depending on the media gateway, music-on-hold can be provided: through a two-wire TN2183 analog line circuit pack (or equivalent) or auxiliary trunk circuit pack to a customer-supplied music source on an MCC1, SCC1, CMC1, or G600 Media Gateway.
Music-on-hold cydfmusc RPY 090397 1. Music source 5. Tip (green) and ring (red) 2. 4-pair modular cord 6. Part of main distribution frame 3. 103A or modular wall jack 7. A25D 25 pair cable (male-to-male) to 4. 122A music adapter (if required—primarily auxiliary trunk circuit pack required in France) Figure 45.
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For MCC1, SCC1, CMC1, and G600 Media Gateways 3. Connect a cable from the assigned port carrier slot to J1 on the 909A/B universal coupler (see Chapter 1, ‘‘909A/B universal coupler’’). A wiring block must be locally engineered. a. Connect the T-lead at pin 5 and the R-lead at pin 4 of J1 on the 909A/B universal coupler to the corresponding leads from the TN2183.
Music-on-hold 0051_0 PDH 062696 1. Customer-supplied music source 5. Power supply for universal coupler 2. 25-pair cable to analog line circuit pack 6. 103A or modular wall jack 3. 909A/B universal coupler 7. 4-pair modular cord 4. Part of main distribution frame 8.
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For G700 Media Gateways Figure 48 shows the connections for the music-on-hold feature on a G700 Media Gateway. NOTE: If you want multiple music sources, you must use multiple ports on the MM711 Analog Media Module. E1/T1 EIA 530A DCE SHUT DOWN OK TO REMOVE...
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Paging and announcement equipment This chapter explains the most common system configurations for the paging feature of the MultiVantage Software. This chapter provides information on the following features: ‘‘Loudspeaker paging for MCC1, SCC1, CMC1, or G600 Media Gateways’’ ‘‘ESPA radio paging’’ ‘‘External ringing’’...
Configuration using the S8700 Media Server in a multi-connect configuration controlling a G700 Media Gateway NOTE: The Avaya™ S8700 Media Server with an MCC1 or SCC1 Media Gateway is called a “multi-connect” configuration. The S8300 Media Server in a Local Survivable Processor (LSP) configuration (shown in Figure 49) is located in the G700 Media Gateway.
Background information IPSI CLAN IP Media Processor Voice Mail cydcrbro KLC 080202 1. S8700 Media Servers in a multi- 6. IP phones connected to or running connect configuration off of the customer’s LAN 2. Ethernet switch 7. INTUITY Audix connected through 3.
Paging and announcement equipment PSTN PSTN Figure 50. Multi-site environment Figure 50, an S8700 Media Server in a multi-connect configuration (top middle) is networked with an S8300 Media Server in a G700 Media Gateway (bottom left) and a DEFINITY CSI (bottom right). In this multi-site environment, there are a number of standalone solutions networked together using protocols such as QSIG or DCS.
Loudspeaker paging for MCC1, SCC1, CMC1, or G600 Media Gateways This configuration (Figure 51) has all IP trunks. At this time, IP trunks support audio-only functionalities. Therefore, this configuration supports audio-only functionalities over these IP trunks. INTUITY Voice Mail PSTN T1/E1 cydcg600 LJK 032402 1.
Paging and announcement equipment Loudspeaker paging without paging adapter Figure 52 shows the connections for the loudspeaker paging feature. These connections are used when the loudspeaker interface equipment is not located in the equipment room. If the equipment is located in the equipment room, the information outlet is not required.
Loudspeaker paging for MCC1, SCC1, CMC1, or G600 Media Gateways Loudspeaker paging access without universal coupler 1. Determine port assignment of paging zone(s) from loudspeaker paging form. 2. At the main distribution frame, locate the connecting block and terminals assigned to the selected port. 3.
Paging and announcement equipment 7. Connect a 2-pair line cord (modular plug at one end) from the information outlet to the loudspeaker system. 8. Install loudspeaker equipment according to the manufacturer’s instructions. 9. Connect an approved -48 VDC power source to the -48 and GRD terminals (pins 5 and 2, respectively, of J3).
External ringing External ringing Connections for external ringing are at an information outlet. The system side of the main distribution frame (MDF) is connected to a TN2183 (or equivalent) analog line circuit pack in an MCC1, SCC1, CMC1, or G600 Media Gateway. NOTE: Up to three devices can be connected to one analog line circuit pack port.
Paging and announcement equipment Loudspeaker paging for G700 Media Gateways On a G700 Media Gateway, the loudspeaker paging feature is connected through a port on an MM711 Analog Media Module. The G700 Media Gateway does not support an auxiliary trunk circuit pack. Therefore, the loudspeaker feature through an auxiliary trunk is not supported on a G700 Media Gateway.
MASI for MMCX The multimedia application server interface (MASI) enables the DEFINITY ECS to provide calling features to the MultiMedia Communications eXchange (MMCX). The MMCX server connects to the Avaya Media Server through a D8W cable. Table 24 for pin assignments and Figure 55 for pin locations.
Multimedia communications products: MMCX, MMCH, plmxmod PDH 051397 Figure 55. Modular jack pin assignment You can connect the MMCX server to the Avaya Media Server by either of two methods: directly or through the main distribution frame. Direction connection Figure 56...
7. D8W 4-pair modular cord 4. Main distribution frame (MDF) 8. MMCX server Figure 57. MMCX connected to an Avaya Media Server through the MDF Wideband endpoints Wideband endpoints include video equipment or bridges/routers for LANs. Use the running list that accompanies the system to make cable connections.
Multimedia communications products: MMCX, MMCH, POWER AUX PORT COM PORT MODEM NETWORK cydf049 RPY 123097 1. Wideband endpoint (wire per manufacturer) 6. DS1/E1 circuit pack 2. Modular cord 7. Main distribution frame (MDF) 3. 103A or modular wall jack 8. Distance limit depends on cable and 4.
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Wideband endpoints POWER AUX POR T COM PORT MODEM NETWORK cydf047 PDH 091396 1. Wideband endpoint (wire per 6. Bandwidth controller manufacturer) 7. H600-307 cable to DTE connector on CSU 2. To DS1/E1 circuit pack 8. Distance limit depends on cable type and 3.
Multimedia communications products: MMCX, MMCH, cydf048 PDH 091396 1. To TN464F DS1/E1 circuit pack 4. Bandwidth controller 2. Part of main distribution frame (MDF) 5. Remote port module 3. H600-307 cable 6. Wideband endpoint (wire per manufacturer) Figure 60. Typical signaling wideband configuration with remote port module 1.
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3. Connect the PC BRI adapter to any BRI port on the Avaya Media Server. Refer to the tables at the end of this chapter for the pinout of an ISDN BRI circuit pack.
Multimedia communications products: MMCX, MMCH, Administer the system 1. Call INADS and notify the representative that the Multimedia Call Handling (MMCH)? field on page 2 of the customer-options form must be changed to y. 2. Logoff the terminal and then log back on the terminal to see your changes. Administer the endpoints 1.
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Multimedia call handling (MMCH) Configuring the PictureTel PCS50 (Live 50) and PCS100 Table 25. Minimum system requirements Version: Live 50 version 1.7 or higher Minimum Processor Speed: 487/33 MHz, DX2/77 Disk Space: 20 MB Memory: 8 MB RAM, 17 MB recommended ISA Expansion Slots (17-bit): 2 slots Monitor:...
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Multimedia communications products: MMCX, MMCH, 16. At the Modify config.sys screen, click the SAVE button. 17. The remainder of the software loads automatically. 18. When the load is finished, reboot the PC. ™ 19. Open the PictureTel Live program group from the Windows Program Manager screen.
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The ProShare system must be set up so that it does not look for a Service Profile Identifier (SPID) when connecting to the Avaya Media Server. This is important because you administer the ProShare as a single 7500 data set and the telephone extension associated with that data set applies to both BRI channels.
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Multimedia communications products: MMCX, MMCH, How to place a ProShare video call 1. Boot the ProShare computer. 2. Open the camera lens. Be sure the green LED is on. 3. Open ProShare Personal Conferencing program group from the ™ Windows Program Manager screen.
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Solution: ProShare mutes the audio path when it does a “capabilities exchange” in H.320. This problem is being addressed in later versions of the ProShare software. Contact your Avaya representative for more information. Vistium configuration Table 27. Minimum system requirements Version: 1.03.10 or higher...
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3.1x or Windows These endpoints do not need any special configuration settings. The standard configuration for a Avaya Media Server is as follows. Use the documentation that accompanies the Zydacron equipment for more details. 1. Open Windows and load the software application.
The Expansion Services Module (ESM) provides T.120 data sharing capability on a MMCH multipoint H.320 video conference. Each person in the conference must have endpoints and a personal computer with the H.320 video application installed. The Avaya Media Server must have the expansion service module installed. 555-233-116...
Multimedia communications products: MMCX, MMCH, 1. Port B Y-cable connector to a TN787 5. D8W cord connected to 357A adapter multimedia interface (MMI) circuit pack S/B port 8 2. Port A Y-cable connector to a TN2207 PRI 6. Expansion service module (ESM) circuit pack 7.
Multimedia call handling (MMCH) 9. Set the Interface: field to network 10. Set the Country Protocol:field to 1 11. Set the Protocol Version:field to a 12. Set the CRC?:field to y 13. The Idle Code default is 11111111. 14. The DCP/Analog Bearer Capability default is 3.1 kHz. 15.
Property management system (PMS) This chapter provides information on connecting the property management system (PMS) and a terminal, journal printer, or both. NOTE: The information in this chapter does not apply to the G700 Media Gateway configurations. Connecting the property management system (PMS) A data module and an asynchronous data unit form the interface between the DEFINITY and the property management system (PMS).
Property management system (PMS) V .35 LINE RS-366/RS-232 POWER Æ 0002_1 RBP 062596 1. Z3A1 or Z3A2 ADU 10. TXR 2. 4-pair line cord 11. PXT 3. 103A or modular wall jack 12. PXR 4. Analog telephone 13. Tip 5. Satellite site or adapter location 14.
Connecting PMS and printers using TCP/IP 4. Establish a physical connection from the data port on the circuit pack, through the MDF, to the wall jack where the data unit is installed. 5. Connect the data modules to the equipment. Using an asynchronous data unit (ADU) and a data line circuit pack You connect an asynchronous data terminal through an ADU to a data line circuit...
Property management system (PMS) Administering adjunct parameters You must administer adjunct parameters to let the system know that the adjunct is connected through TCP/IP. PMS, PMS journal, and PMS log printers 1. Type change system-parameters hospitality and press RETURN The Hospitality screen appears. 2.
Connecting PMS and printers using TCP/IP Using the downloadable reliable session-layer protocol tool The intent of the Reliable Session-Layer Protocol (RSP) is to guarantee delivery of data records from the switch to an output device that connects to the switch over an asynchronous TCP/IP link.
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Property management system (PMS) Downloading RSP The RSP is available from the Avaya support web site as a self-extracting executable. To download the RSP: 1. Browse to the Avaya Customer Support web site: http://support.avaya.com/sd.jhtml 2. Select the RSP tool from the web site.
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Connector and cable pinout charts Table 29. Lead and color designations Amphenol Cross-Connect Pin Color Backplane Pin W-BL BL-W W-BR BR-W W-SL SL-W R-BL BL-R Continued on next page 555-233-116 Issue 4 October 2002...
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Connector and cable pinout charts Table 29. Lead and color designations — Continued Amphenol Cross-Connect Pin Color Backplane Pin R-BR BR-R R-SL SL-R BK-BL BL-BK BK-O O-BK BK-G G-BK BK-BR BR-BK BK-SL SL-BK Y-BL BL-Y Y-BR BR-Y Y-SL SL-Y V-BL BL-V Continued on next page Issue 4 October 2002...
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Connector and cable pinout charts Table 29. Lead and color designations — Continued Amphenol Cross-Connect Pin Color Backplane Pin V-BR BR-V V-SL SL-V Continued on next page Table 30. DS1 interface cable H600-348 50-Pin 15-Pin Color Designation Color Designation Plug 04 W-BL LI (High) W-BL...
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Connector and cable pinout charts Table 30. DS1 interface cable H600-348 — Continued 50-Pin 15-Pin Color Designation Color Designation Plug 01 LI (High) LI (High) LO (High) LO (High) Continued on next page Table 31. DS1 interface Cable H600-307 50-Pin 15-Pin Color Designation...
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Connector and cable pinout charts Table 32. TN2185B ISDN-BRI — 4-wire S interface pinout Ampheno Port Signal Cross-Connect Pin Color l Pin Backplane Pin TXT.1 W-BL TXR.1 BL-W PXT.1 PXR.1 TXT.2 TXR.2 PXT.2 W-BR PXR.2 BR-W TXT.3 W-SL TXR.3 SL-W PXT.3 R-BL PXR.3...
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Connector and cable pinout charts Table 32. TN2185B ISDN-BRI — 4-wire S interface pinout — Continued Ampheno Port Signal Cross-Connect Pin Color l Pin Backplane Pin PXR.7 BR-BK TXT.8 BK-SL TXR.8 SL-BK PXT.8 Y-BL PXR.8 BL-Y Continued on next page Table 33.
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Connector and cable pinout charts Table 33. DCP extender 25-pair cable pinout — Continued Cross-Connect Pin Wire Color Amphenol Pin Backplane Pin BR-V V-SL SL-V Continued on next page Issue 4 October 2002 555-233-116...
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Connector and Cable Pinout Charts 555-233-116 Issue 4 October 2002...
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Connector and Cable Pinout Charts Issue 4 October 2002 555-233-116...
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Connector and Cable Pinout Charts 555-233-116 Issue 4 October 2002...
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Connector and Cable Pinout Charts Issue 4 October 2002 555-233-116...
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Index admonishments caution danger note security alert Numerics warning asynchronous data unit (ADU) asynchronous links 105C isolator adapter auxiliary power 1145B power supply 1151A and 1151A2 power supplies installing and wiring the backup battery applications that require installing the 1146 power distribution unit sources of installing the expanded power distribution unit testing AC and DC power...
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Index data modules internal communications controller (ICC) 105C isolator adapter IOLAN+ 104 terminal server 7400A installation and administration 7400B IP services 7400C IP-connect 7400D definition of 8400B Plus ISDN adapters administering ISDN converters ExpressRoute 1000 for multi-carrier cabinets data terminals, 2-wire for single-carrier cabinets DEFINITY®...
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Index music-on-hold (MOH) connecting FCC-registered equipment connecting non-FCC-registered equipment for G700 Media Gateways for MCC1, SCC1, CMC1, and G600 Media Gateways rack mount DCP extender reliable session-layer protocol (RSP) network interface security alert, admonishment meaning of node names security issues note, admonishment meaning of Stratum 3 clock switch settings, CDR...
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Index Vistium endpoint voice terminals, 2-wire warning, admonishment meaning of wideband endpoints non-signaling remote port module signaling XXXVSpp designation Z3A2 asynchronous data unit (ADU) Zydacron endpoint testcall troubleshooting Issue 4 October 2002 555-233-116...