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Vodavi Infinite Dvx I, Dvx Ii Hybrid Key Telephone Systems Installation Manual
Vodavi Infinite Dvx I, Dvx Ii Hybrid Key Telephone Systems Installation Manual
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I 33-Button Wafl Mount Bracket lf3 cl - L c 0 - - 1 !i3 - -L c 8-Button Wall Mount Bracket
INSTALWLTXON iqf?nite DVX’ and DVX I1 Di@tal Key Telephone Systems when the SLT station is taken off-hook. Connections: AU connections to the SLsi (0PX) adapter are made on the back of the unit. %o modular jacks and a two-wire cable are located on the back of the unit for connec- tion to the KSU and power supply. The two wire cable connects to a 48V dc power suppIy / ring generator. The modular jack marked KSU is connected to a KSU Digital terminal station port. This connection re- quires all four wires and wires the same as a kqr station. The modular jack marked OPX is wired to the SLTstation (2500 type]. OPX circuit or SLT device. Additionally, a CO line may be wired to the second pair of the SLT modular connector for Power fail operation. Cable Imp Limiti: The maximum loop limit from the KSU to the SLA (OPX) adapter is 1000 feet. The mz&num loop limit from the SLA [OPX) adapter to the connected SLT or device is 1400 ohms not mciudtng the tele- phone or device. 500.8 POWER FAILURE TRANSFER A Relay / Sensor Interface Module The Relay Sensor interface Module con- nects to the system using one digital sta- tion port and provides three relay activated contacts and three sensing circuits. The relays provide for applfcations such as Loud BeJJ Control contacts, CO Line con- trol contacts, RAN Start contacts, Page Re- lays, Power FaiI contact and additional applications as software wIJJ permit. The sensing circuits wiJl provide for such appli- cations as Alarm signaHnginput, RAN Stop * [end of message) and other applications as developed and allowed by s&ware. COllUCCti0nS: All connections to the Relay Sensor Module are made on the back of the unit. 7bo terminal strips with screw termfnals each provide connection to the ancillary devices for relay control or sensing monitoring. The Modular jack marked KSU is connected to a KSU Digital terminal station port. This connection requires all four wires and *es the same as a key station. Refer to Figure 500-23 Relay / Sensor Interface Module for wiring information. An CX@IXLJ power source may be required to &iv= equipment connected to the relay contacts. The contacts are rated at 24Vdc max at 1 amp. Cable Loop Lixnitzx The maxImum loop limit from the KSU to the relay Sensor Module is 1000 feet. B. Power Fhihre lkaaefer Unit IpFTU) This unit provides the relay transfer cir- cuits for up to 12 CO lines in the event of a power or processor failure. The unit is housed in fts own enclosure and mounts external to the KSU. Activation of the PFIY relays is contrc&d by a multi-use relay on any one of the CO/Station Interface boards that is programmed for PFT. A customer provided 12 volt DC power supply is re- quired to operate the un&t. There is a man- ual switch that activates the PFl%I for testing purposes. With loss of power to the system or a failure of system processing. the PFTU will auto- matically connect up to twehre CO Jines to prewired 500/2500 type telephones. When power is restored. the PFKJ will automat- i&iy restore the CO &LI.&S and stations to nonndl operation. ‘These SLTstations do not have to be used for intercom, but can be if so desired. wtrxlg / Pinouts / conxlectiolls: The PFlW has two 50-pin male amphenol connectors labeled CONNl and CONNS Jo- cated on the front of the unit. Each connec- tor wires six CO lines for power fail transfer. Refer to Table 500-10 PFI’U Corm A Connecting Block and Table 500-11 PFTU Corm B Connecting Block for pin- outs of each of the cqnnectms. The PFIL7 is connec&d to the KSU via the modular connector on the side of the unit. This is connected in series to a customer provided 12V dc supply. and ta a multi use relayprognxnmed as a power failure mlay.
_ GREEN I I STATION i i ;FtF;CTJNG MODULAR CABLE SLT Tip SLT Ring 11 Issue 1, Januaxy IBBS 590-49 Black wire to - of external 48~ supply Red wire to + of external 48~ supply Yellow to Trunk Ring FQurc 500-22 OfWremiee Extcnaion (OPIZ) Module
INSTALLATION GREEN XMITTIP XMIT RING RCVE TIP RCVE RING - SENSOR - Device Output Relay I- Loud Bell Control 1 ‘Lip-J:2!i!:E:r, Customer Provided Power Supply (if needed) NOTE: RAN device does not require external power supply / 500-50 Issue 1, Jsumary 1993
imite DVX’andDVX” D&itaI Xey Telephone Systems IN!STALLATlON OPX PFT RING IN SLT RING IN 1 1 SLTTIP IN I 1 MDF -- I-- l Method #I Method #2 DVX II Basic KSU Cabinet Figure 5ioo-24 Power FMlure Transfer Wiring Optiona k=uc 1, January 19~3 SOUS
infinite DVX ’ rind DVX I1 D&&al Key Telephone Systems Table 500-10 PFTU Corm A Connect&g Table 500-11 PFTU Corm B Connecting Block Block 10 11 12 13 14 L5 16 17 18 19 20 21 22 23 24 25 27 2 28 3 29 4 30 5 31 6 32 7 33 8 34 9 35 10 36 11 37 12 38 13 39 14 40 15 41 16 42 17 43 18 44 19 45 20 46 21 47 22 48 23 49 24 50 25 COLOR WH/BL BL/wH W-H/OR OR/WH WH/GN GN/WH WH/BN BN/WH WH/SL SL/wH RD/BL BL/RD RD/OR OR/RD RD/GN GN/RD RD/BN BN/RD RD/SL SL/RD BK/BL BL/BK BK/OR OR/BK BK/GN GN/BK BK/BN BN/BK BK/SL SL/BK YL/BL BLrn YL/OR ORW YL/GN GNrn YL/BN BNrn YL/SL SLrn VI/BL BLM VI/OR OR/VI VI/GN GNM VI/BN BNM vI/SL =/VI DESIG 1nT 1TzR 1 STA1NTiP 1 STAINRING 1TRKouTm 1 TRKOUTRING 1SIQT 1STOR 2llT 2lm 2STAINTiP 2 STA IN RING 2TRKOuTTIP 2TRKOUTRING B+slnr 2STQR 3m 3m.R 3 STAINTIP 3 STAIN RING 3TRKOuTTIP 3TRi-COUTNNG 3moT 3STOR 3l-n 3nR BSTAINTIP 3 STA IN RING QTfcKOuTTiP 3’iRKOTJTRtNG PsroT PSl-OR 3TlT STIR 3STAINTIP 5 STA IN RlNG jTRKOUTTIP 5TRKOUTRING ISTOT ASTOR j?lT STIR 6 STAINTIP GSI’AINRING 6TRxzOuTTIP B’TIWOUTRING 6sTwr GSIOR 1 i PAIR t PIN ’ COLOR I DESIG I ! I WWBL ! 7 nT 1 I 26 2 I 2: 2 I 3 ! 28 : I : I I : 4 5 6 7 8 9 10 11 12 13 14 16 16 17 18 19 20 21 22 23 24 25 3 29 4 30 5 31 6 32 7 33 8 34 9 35 10 36 11 37 12 38 13 39 14 40 15 41 16 42 17 43 18 44 19 45 20 46 21 47 22 48 23 49 24 50 25 BL/wII WH/OR OR/wN WWGN GNW WH/BN BN/wH WI-ML swwl RD/BL BL/RD FZD/OR OR/RD RD/GN GN/RD RD/BN BN/RD RDJSL SL/RD BK/BL BL/BK BK/OK ORjBK BK/GN GN/BK BK/BN BN/BK BK/SL SL/BK YL/BL BLryL YL/OR ORfyL YL/GN GN/YL YL/BN BNrn YLjSL =m Vi/BL BLM VI/OR ORM Vl/GN (=/VI W-BN BNM W/SL SLM 7nR 7STAINTiP 7 ETA IN RING 7TRKOuTTIP 7TRKOUTFlING 7STOT 7STOR 8’llT 8nR 8STAINTIP 8 SJYA IN RING 8 TRK OUTmP 8lRKOuTRwG 8STOT BSTOR 9nT 9nR 9 STAINTIP 9 STAINRING 9TRKouTmP 9’IRKOUTRING 9Slvr 9sToR 1omT 1OTIR 10 SIAINmP 10STAINRING 1OTRKOuTmP 10TRKOUTRING 1OsToT 10 STOR 1lTiT 1lmR 11 STAINTIP 11 STAINRING 1lTRKOuTrnP 1lTRKOUTFUNG 11STOT IISTOR 12Trr 12mR 12 STAINTZP 12 STAIN RING 12TRKOuTrnP 12TRKOUTRING 12 STOT 12 STOR I 500-52 Issue 1, January 1993
iqfinite DVX’ and DVX” D&ital Ecy Tcltphont Systems INSTAUA’IXON 500.9 INSTALLING RECORDED AN- NOUN~NTDEVICE (RAN] The Recorded Announcement feature (RAN) is used with either the Automatic Call Dfstrihution fACD) or Uniform CaU Distribution (UCD) features to provide un- answered incoming CO calls or calls in queue with a Recorded Announcement while wafting for an available ACD or UCD station. The system may be programmed to provide this announcement on specified RAN output ports on the system [unused SLT and CO ports). The system can be programmed to connect the wait&q caller to a different FUN port for the second, and subsequent RAN messages. When a CO line port is used for a ground start application. a 24V dc power source must be connected to the CO line port for talk battery, A Page/Relay contact as- signed to an announcement table in pro- gramming would provide contact closure to start the Recorded Announcement device. When an SLT port is used, the RAN device must be configured for ring trip operation (loop start]. The 9OV ac voltage sent to the SLT port will be recognized by the RAN device which will then answer the call. i v %Lw TYPE RAN SIQNAUNG Fi@m 500-25 CO and SLT RAN @nncctions Iasuc 1, January 1993 500-m
. . . ir#mite DVX’ and DVX’ m3TALLATION 500.10 DATA=TURE The Data Feature is a time division switched, point to point data transmission capability which pen-nits simultaneous (on the same sys- tem but not the same port) voice and data communications. The Data Feature offers the abillty to transmit data information between personal computers. printers, plotters, mo- dems, CRT terminals. and main frame com- puter ports. To establish a Data CalI. a Digftal Data Interface Unit (DDIU) is required to be connected to each data communications device. Data information can be switched through the system at speeds of 300, 1200, 2400, 4800. 9600, 19.2K and 38.4K baud asynchronous. The Digftal Data lnteriace Unit IDDIU) is wired to the infinite Digital Key Telephone Systems like a digital telephone, and requires one sta- tion port. All connections to the DDIU are made on the back panel. The back panel has a modular jack and a DB-25 type connector. The modularjack. labeled KSU. is used to connect the DDIU to the station port ofthe system. The DB-25 connector supports an RS-232C connection and is used to connect the data device to the system. A green LED Irehts to indicate the DDIU is prgperly wired ti the system. GREEN STATION CONNECTlNG BLOCK MDF KSU 8( 0000000000000 000000000000 ]s “JF HOOK To Data Device F@ut SOO-26 Di#tal Data Inttrbt Unit (DDl’W rpiring =o-s4 Itmlt 1, JannRry 1996
imite DVX * and DVX’ Digital Key Telephone Syetesrs INSTALLATION connection of the individual data communica- tion devices requires that the installer be famil- iar with data communications terms, and has access to the appropriate information for con- necting the variety of data communications de- vices that may be encountered. This information consists of, but is not limited to: 1 .Is the device configured as data terminal equipment (DTEJ. or data communications equipment (DCE. 2.What pin on the RS232C type connector performs what function? 3.What signal leads are required to make the device operate? When planning the instalkticm of the data fea- ture, use a digital display phone at any location that is to originate a data connection. A DDIU can only be called: it cannot originate a connec- tion..A digital display phone would typicaUy be connected to a CRT terminaI, or personal com- puter. A DDIU would typicaUy be connected to a prfnter,or a MODEM. The station wiring for a digital display phone and a DDIU are identical. The data connector of the Digital Data Interface Unit (DD1l-J) is a 25-pin. type D connector which is configured as Data Communications Equip- ment with the follow-jng pin configurations. PIN 1 # USE DtRECTION ’ 2 ! Receive Data into telephone (or I DDIUJ 3 Transmit DATA out of telephone (or DDIU’) 4 f Request To Send into telephone (or DDIU) 5 Clear To Send I 6 Data Set Ready 7 i SignalGround out of telephone (or DDW) out of telephone (or DDIU) 8 Data carrier detect out of telephone (or DDILJ) t 1 11 unassigned into telephone (or I DDIUJ 12 Secondary DCD out of telephone (or DDIU) 15 Transmit Clock out of telephone (or DDlU) 17 Receive Clock out of telephone (or DDIU) 1 9 Secondary KIS into telephone (or DDIU) 2. ( DataTerminal 1 into telephone (or ( Ready ! DDlU) I I : 22 ) Ring Indicator i out of telephone j j (or DDIUJ ! The following diagram will aid in the design of cables to connect the many different conf@ra- tions of data communications devices. D&itat Systems Data Switching Issue 1, Jammy 1993 soo-ss
mSTALLKI’ION irlfinite DVX * and DVX ’ DigiW Keg Telephone Systems UODEM DDI 1 GNO sG7 II 756 Modem to DDIU Cable PC WJl m2 DISPLAY PHONE r _ 1GNn * 2Fn Computer to Phone C&k To establish a connection to any idle data port: l.A user witi an associated DDIU dials the station number of the DDJU or the group access number of the group that the DDIU has been inserted into or presses a DSZj button representing the DDIU. The digital key system will then determine the baud rate set&g for the called DDIU and convert the user’s associated DDIU to the same baud rate. The system will then complete the connection. A second method to establish a connection between two DDlUs is done by the first atten- dant. l.Tbe first attendant dials the extension number of one data u~$t. Dii tone is re- ceived and the display will show the BAUD RATE. 2.Then dials the &&ion number of the sec- ond data unit, confitmation tone is heard. To break down an establfshed connection: l.The station user dials his associated DDIU number or press the DSS button for the associated DDIU folloftred by pressing the FLASH button. The first attendant can dial one of the DDIUs. folfowcd by pressing the FLASH button. Conditions: l The System is transparent to the devices being connected. ‘Ikerefore each DDIU must be configured with a specific baud rate, num- ber of data bits and number of stop bits. This configuration wiIl be done by the fkst atten- dant or in the case of an associated data unit can be confqxed by the user. l Data switc&ng is aqcomplished using the same wiring the telephone station uses for voice switching. . Data ports can be arranged in UCD Groups or Hunt Groups. l Data ports do not have to be associated with a keyset. however to connect two DDIU de- vices one of them must be associated with a keyset unless the connection is made by the first attendant. l when the data connection has been com- pleted, the baud rate used in the connection wilI be displayed on the keyset. l Non associated DDIU connections can be broken down by the first attendant. l A DDIU has a DCE interface. Therefore a straight through RS-232C cable can be used connect to a DTE device (printer. PC, etc.). l Each DDIU re@res a digital termhal port-