Vodavi Infinite Dvx Iii Hybrid Key Telephone System Installation Manual

							in@nite” DVX ’ and DVX I1
Co LINE ATTRIBUTES PROGRAMMING
Digital Key Telephone Systems
PAGE 
“B” CO LINE ATTRIBUTES (Cont’d)
G.Music-On-Hold per CO Line (FPS)
Progmmming StepsIf the Music-On-Hold source needs to be
changed:
1,Press the MUSIC-ON-HOLD flexible button(Page B, Button 
#lo). The foIIowing mes-
sage is shown on the display phone:
2. Enter a one-digit value on the dial pad to
change this feature.
-(01 = CO Line(s) have No Music-On-Hold.
- 111 = CO Line(s) use Channel 1 for Mu-
sic-On-Hold
3. Press the HOLD button to save the entry.
Confirmation tone is 
heardand the display
will now update.DescriptionThis feature provides a method on 
aI1 digita
systems to select what Music-On-Hold channel
each Co 
line can have associated with it. The
CO line can also be assigned not to play any
music for callers on hold.
Related Programming: The Music-On-Hold
system flag must be enabled for this feature to
work.
Defatit: By default, Channel 1 is used for Mu-
sic-On-Hold.
l
720-16
Issue 2, April 1995 
						

							iqfiiite” DVX’ aud DVX”
Digital Key Telephone Systems
CO LlNE ATTRIBUTEs PROGRAMMtNG
CO 
LINE ATTRIBUTES (Cont’d)
720.3DIALPULSE P-RS
Programming Steps
If this feature is to be assigned:
a. Press FLASH and dial (4 1). The following
message is shown on the display phone:
b.The Dial Pulse features will toggle on and
off with each depression, and the display
will update with each depression.
l LED on = 60/40 (RATIO), 1Opps (SPEED).
LED off = 66/33 (RATIO), 2Opps (SPEED)
c. Press the HOLD button to save the entry.
Confirmation tone is heard and the display
will now update.Description
By default all lines are DTMF (tone) signaling.
If outpulsing is required, the individual outside
Zinc must be programmed for pulse. The
break/make ratio and the dial speed can be
programmed at this time.
The buttons on the digital terminal are defined
as shown below when 
entetig the Dial Pulse
Parameter programming area:
‘m,m R&q
Defaktz By default, th~breakjmake ratio (RA-TIO) is set at 
60/40 but can be changed to
66/33. By default, the diabng speed (SPEED) is
1Opps but can be changed to 2Opps.
Related Programming: Refer to Sec. 720.1, COLine Programming for 
DTMF/Dial Pulse
Issue 2, April 1995720- 17 
						

							ir@titew DVX ’ and DVX I1CO LINE ATTRIBUTE% 
Pl!KJGRAadlwNGDigit& Key Telephone Systems
CO LINE ATTRIBUTE% 
fCont*d)720.4
FLEXIBLE PORT ASSIGNMENT
FEATURE
Progp.rnming Steps
If 
the CO Line numbers need to be relocated to
different ports:
a. Press FLASH and dial 
[42].. The following
message is shown on the display phone:
b.The buttons I through 7 indicate cards 1
through 7. When the relocation program is
initially entered, Button 
# 1 will be lit indi-
cating that the user is programming the CO
Line numbers on the first card (CO Ports 1through 4). The LCD will display the CO
line numbers presently assigned to the
first four ports.
To change the CO Line number assigned to any
port:
a. Dial the position number on the display (0 
I
through 041, followed by the CO Line num-
ber desired.
Example:
-If 0103 were dtied, the CO line number
of the first entry on the display would be
changed to 03. In addition, since 03 was
shown as the third entry on the display,
that entry would be blank 
(##).
- In the DVX ’ system, if a 2x4 Expander
Module were installed, the entry would
be 01 for C05, followed by the CO Line
number desired.
To select another card in the system:
a. Press the button associated with that card,
For example, if Button 
#3 were pressed (CO
ports 9 through 
12). the CO Line numbers
assigned to the third card would be dis-
played. CO Line numbers on the third card
are changed in the same manner by enter-
ing the position number (0 1 through 
04),
followed by the CO Line number desired.Description
The Flexible Port Assignment feature will pro-
vide a means to assign CO line numbers to any
CO line port in the system. This 
provides com-
plete flexibility in determining CO line numbers
within the system as long as they stay within
the system numbering plan. A CO line can be
assigned any number between 0 1 and 14 on the
infinite DVX I system and any number between
01 and 28 on the 
infinite DVX I’ system. This
restriction is required to minimize memory re-
quirements on the smaller systems.
The buttons on the digital terminal are defined
as shown below when entering the Flexible Port
Assignment feature programming area:
.;
						

							TECHNICAL FACT NOTICEDirect Inward Dialing (DID) Feature.h. . -+I-)
for the infiniteTM DVX “I Digital System
F b
This hardware enhancement is supported with Master software Version 1 .OD or higher, and Slave software, Version
l.lA is required. The Database Upload/Download procedures must be used to properly upgrade this software.
Description:
The Direct Inward Dialing (DID) Interface Board provides for One-Way Direct access to specific stations on specific
DID lines from the public telephone network, without 
going through an attendant answerir!g position. DID capabilities
refer to incoming calls only.
The DID Interface Board provides 12 one-way DTMF DID circuits, and requires externally supplied 
48v dc power.
The system can accept from 2 to 
7 digits from the Central Office. It should be noted that there are no “On-Board”
relay contacts available on the DID Interface Board.
12 red 
LEDs located along the front edge of the DID Interface Board (DID), one for each DID circuit to indicate
when it is in use and one green LED (DS15) that monitors the 
-48~ power supply source. Two green LEDs (DS13
& DS14) also located along the front edge are for monitoring the +5v and -5v supply voltages.
Operation:
DID calls are treated as an incoming call and follow the same rules established for CO lines. DID information
transferred from the network is captured and translated to direct a specific DID number to a specific station, 
ACD
or Hunt group of stations, or Voicemail group. The DID call appears at the destination station under an assigned
LOOP or CO button.
When receiving a DID call, the destination station will hear CO 
tine ringing and the assigned CO or LOOP button
will flash at the incoming CO line flash rate. The destination 
stz+ion then presses the flashing CO or LOOP button,
is connected to the incoming DID call, and CO line ringing stops and the LED for the CO or LOOP button lights
steady.
- If the outside caller disconnects from a two-party conversation, the Central Office opens the loop and returns the
line to idle state. The 
infinite DVX ‘” Digital system will detect the disconnect signal, release the line, and provide
busy tone to the 
keyset/SLT (unless the SLT is a VM port), and disconnect from the DID line. If the extension called
hangs up the phone, the central office detects disconnect, and returns the line to the idle state.
External Equipment Required:
1.Externally supplied -48~ dc power source. Total current draw per DID Interface Board is 5 amp or 500ma
Vodavi Communications Sysbm98300ElltWWDrivs
Page 1 of 27
-km
TF NO. 53
(scn) - 
						

							infinite ” Digital SystemsTF NO: 53
Direct Inward Dialing (Cont’d)
Installation of SRAY (Static RAM) Chips on 
lnfinife DVX ’ Digital System:
The Central Processor Unit (CPU) of the infinite DVX 111 Digital system has two 1 -Megabit SRAM chips on it which
determine the amount of RAM used by the infinite Digital Key Telephone System. To upgrade the 
SRAM chips,
the SRAMs must be removed and the new 
SFtAMs installed in their place. Refer to Figure 1 for switch and chip
locations.
IMPORTANT. . . . . . . . . . . . . . . . ..:::.:.:. i:::i:i:i:i:l:i:~.~~:l:~:~~:~~.:~:::::::::.:~.:.:.:.:.:.:.:~.:~.:~~~~:~:.:.~:.:.:.:.:.:.:.:.:.:.:.: ......... ....... ... ... ........~~~~~~~~~~~~~~~~
~~~~~~~~~~~~~~~~:::::,~.... .::?ii
JO RFMOW= FXMING !WhlUUB
Before starting this procedure, you must have an Integrated Circuit (IC) Extractor tool @remove the current SRAMS
from the Printed Circuit Board.
1.Locate and remove SRAMs U46, and U47 on the CPU board. These SRAMs must be removed and
replaced with the new SRAMs in the Memory Expansion kit. Using the IC tool, gently pull upwards until the
SRAM lifts free of the socket. Be careful not to bend or break the pins of the SRAMs.
2.Place the SRAMs on a non-static, non-conductive surface until the new software is installed. Then place
the SRAMs into the packaging tube and put this into the packing box.JO 
INSTAl’ NFW SMM CHIPS;
1.Locate the SRAM Chip Selector jumper J4 on the Central Processor Unit which is located toward the top
of the PCB. By default, this jumper (J4) is 
jumpered between pins 2 &3 for l-Megabit chips. The jumper
on 
thii jumper (J4) needs to be changed from pins 2 & 3 to pins 1 & 2 for the two 4-Megabit SRAM chips.
2.Remove the SRAMs from the packing tube.
3.Install SRAMs U46, and U47 onto the Central Processor Unit as shown in Figure 1. Be sure the notched
end (end with cutout) is aligned with the notched end of the socket(s).
4When the SFtAMs are installed, check for bent pins on the SRAMs and correct any found.
Page 2 of 27TF NO. 53
83ODEkillbWDfiWSco~Azm’(scrz) 44Mooo 
						

							infinite n Digital SystemsTF NO: 53
Direct Inward Dialing (Cont’d)
Figure 1 Central Processing Unit (CPU)
a:-’
vodavi cunmunicaiiof)E .syskmsPage3 of 27lFN0.538WOEMlltreeDfiW-kmWI- 
						

							infinite n Digital SystemsTF NO: 53
Direct Inward Dialing (Cont’d)
Installation of DID card:
1.By default, the DID Interface Board must be installed in any CO card slot 5, 6, 7, or 6 on the infinite DVX
“’ Digital system.
2.Connect the provided -46~ assembly cable to the J2 connector on the DID Interface Board.
NOTE: At least one 
OTMF receiver MUST be installed in the system for this feature to operate propeflyf
Figure 2 - DID Interface Board (DID)
vodavi cunmunications sy!3km3
Page 4 of 27TF NOi 53
83WEkiJlllWDIb3-AZ==@=I- 
						

							infinite m Digital SystemsTF NO: 53
Direct Inward Dialing (Cont’d)
CO Line Connections:
The CO Ports of the DID Interface Board are wired to the main distribution frame via a 
25pair, @O-pin) female
amphenol type connector located on the front edge of the board, conector Jl . A 25pair cable with a %)-pin male
amphenol-type connector is required to extend the CO ports to the main distribution frame. The 
pinouts are shown
below:
,
7
8
9
10
11
12
32Red/OrangeTipPort07
7Orange/RedRing
33Red/GreenTipPort08
8Green/RedRing
34Red/BrownTipPort09
9Brown/RedRing
35Red/SlateTipPort
10
10
Slate/RedRing
38Black/BlueTipPort
11
11
Blue/BlackRing
37Black/OrangeTipPort
12
12
Orange/BlackRing
Page 5 of 27TFN0.53
vodavicomlluJnicationssyssms83OOEFbinbwDriwsumdde,Az8980~(eco) - 
						

							infinite ” Digital SystemsTF NO: 53
Direct Inward Dialing (Cont’d)
Conditions:
.
.
.
.
.
.
.
.
.
.
.
w
The infinite DVX “’ Digital system supports up to 1000 DID numbers, with a maximum of 200 ring lists to which
DID numbers can point.
The maximum number of DID trunk circuits supported is limited to the overall system CO line maximum.
DID calls can be programmed to ring to a group (ACD, UCD, VM, hunt, etc.). The current limitations with trunks
ringing to groups apply.
A DID call may be presented to multiple stations (i.e., 
Exec/Sec’y) that have a LOOP or CO line button assigned
for that DID line. A maximum of 16 ringing appearances of this DID line are supported in the system. Ringing
preference is the same as an incoming CO call.
The system provides, on a DID number or system basis, the option to generate 
bysy tone to the calling party
lf the DID number is busy and there is no place to ring (no forward destination).
Incoming calls to a non-assigned DID number will be presented to the intercept Route 000. Route 000 in the
ICLID Ringing Assignment Table is used as the intercept route. Calls to numbers not contained in the DID table
will follow Route 000. If Route 000 is defaulted to “none”, the call will follow Route 001. Route 001 in the ICLID
Ringing Assignment Table is used for Busy calls. If Route 001 is defaulted to “none”, the caller is given busy
tone. Calls to busy stations (i.e., without an available Loop or CO button) will follow Route 001.
The system modem may be called via a DID line.
Direct routing to an individual voice mailbox for message 
leave/retreive is supported via the last three digiis from
the incoming DID number.
DID overrides 
DISA programming.
ICLID information will override DID.
DID circuits are DTMF only.Page 6of 27
TF NO. 53
63lOERainlreeDriwsco~Azkw - 
						

							lnfhife ” Digital SystemsTF NO: 53
Direct Inward Dialing (Cont’d)
FLEXIBLE CARD ASSIGNMENTS
Description:
The Flexible Card Assignments feature will provide a means to assign the peripheral cards to alternative peripheral
card slots. This provides complete flexibility in determining station numbers and CO line numbers as long as they
stay within the system numbering plan. A station can be assigned any number between 
190 and 219, while a CO
line can be assigned any number between 1 and 96. Station numbering is determined by this programming, not
physical cards installed in the system.
The buttons on the key telephone are defined as shown below when entering the Flexible Card Assignments feature
programming area:
All Flexible Card Assignment(s) entered are stored in a temporary database area which is uploaded to the 
main
database when the system is reset.
Vahi Communications Sysbma
Page 7 of 27TF NO. 53
83OOE!4aintreeDtiwsadtsMe,k652elWI 443.@m