Table 4-2. Maximum & Default Values for Size Table

Chapter 4: Sizes



PI 9.xx



Sizes Tab - Route: SYSGEN,2 (or 0,0,0,2)

Table 4-2. Maximum & Default Values for Size Table

Coral Systems

I tem



F unctio n

SL

250



250



250



20



15



15



500



500



500



20



50



25



N/A



N/A



Y/N



Default



NETWORK

SERVICES

{V9.2x}



4GC



Maximum



ISDN_

TRANSIT_

SET UPS

{V9.2x}



SVC



N/A



N/A



N



Maximum

Default



Maximum

Default



DISPATCH_

I N_SYSTEM

{V9.5x}



NO_OF_CALL Maximum

_TRACE_

Default

RECORDS

{V9.7x}



Defines the maximum number of ISDN

call setup information to be stored

simultaneously.

ISDN call information is used for

completing the call setup.

Defines the maximum number of Network

Supplementary Feature procedures that

can be performed simultaneously.

Network Call Transfer is one example of a

NSF procedure.



Used only in 4GC systems.

Defines whether simultaneous trunk

“dispatches” (one-way transmissions to

other trunks) can be defined and used by

the external system CTI applications used

for GeoTech cellular phones.

Entering Y allows a maximum of 128

simultaneous trunk dispatches (including up

to 32 trunk members per dispatch).

Entering N cancels the feature.



32,000 32,000 32,000 Defines the maximum number of

0



100



100



4-14



incoming calls that may be recorded and

listed (“traced”) for the entire system.



PI 9.xx



Chapter 4: Sizes



Sizes Tab - Route: SYSGEN,2 (or 0,0,0,2)



!



The sizes listed in this database are established by program

default and can be changed.

Changes can affect other sizes or operational relationships within

the system.



CHECK MEMORY (Y/N)?

Instructs the system to display the database memory status. When the System Size

table is displayed without modification, CHECK MEMORY displays how much memory

remains in the system database. When changes are made to the System Size table,

CHECK MEMORY displays the system memory status as if changes made to the current

sizes were updated.

Range: Yes/No;



!



Default: No



Updating the size table initializes the system causing:

1) The system to reset.

2) The interruption of all calls.



UPDATE *warning* system init (Y/N)?

Loads the modified Size information and resets the system. When No is entered, all

previous entries are ignored and the system SIZES remain as previously programmed.

Range: Yes/No;



Default: N/A (Yes or No must be entered)



4-15



Chapter 4: Sizes



PI 9.xx



System General Speed-Calls - Route: SYSGEN,3 (or 0,0,0,3)



Used for CORAL® with DX Common Control only

PRIV_LIB_ON_DISK (Private Speed Dial on Disk)

Displays the available private libraries (speed calls) on either the disk or the system

memory. This item also displays the memory location where the Private Speed Call

Numbers are stored.

to

 When set4-6.Yes, the Private Library size should be defined as ten,

see page

Range: Yes (Disk)/No (System Memory); Default: No



PRIV_LIB_PER_USER (Speed Calls per User)

This parameter is displayed only when PRV_LIB_ON_DISK (above) is set to Yes and

displays the maximum capacity for station related speed call numbers. The number

of speed dial numbers is defined for each station in the SLT definition and the

Keyset definition in Chapter 9.

The sum total of all private libraries is 110,000. The technician should verify that

the number of stations multiplied by the amount of Speed Call Dial numbers per

user is less than 110,000.

Range: 0-60;



!



Default: N/A



Updating PRIV_LIB_ON_DISK resets the system.

All speed dial numbers stored on the disk will be lost.



ARE_YOU_SURE ?

Displays the following message on-screen:

**WARNING** all speed-dial on disk will be lost & the system is

restarted !!

Range: Yes/No;



Default: No



4-16



PI 9.xx



Chapter 4: Sizes



Music Sources - Route: SYSGEN,4 (or 0,0,0,4)

The system supports up to four different music sources (only two music sources are

supported in the Coral SL base unit). Each music source may be fed from one of the

following sources:

External Sources (connected through the RMI, 8RCM, 8DRCM or MSBsl card):

•

•

•



Radio

Tape Recorder

Message Announcer



Internal Tones:

•

•

•



Ringback

Busy

Silence



The music sources are numbered 0,1,2 and 3. The total number of music sources is

fixed by defining # OF MUSIC SOURCES defined below.

Any music sources may be used for keyset Background Music, Hunt Groups,

Transferred, Hold/Park, Announcers and Page-Q features.

The keyset user can choose the type of background music required via the telephone.

The user can also choose the music source for the Hunt and Page-Q feature when

he/she wants the caller to hear a different tone than currently chosen.

The Wakeup Announcer feature does not include a music source choice. Therefore, it

will always be fed from MUSIC SOURCE #0.

An RMI, ASU, 4/8RCM or 4/8DRCM card must be installed to enable the connection

of the Music Sources. Each card can connect up to 2 external music sources. Source

#1 should be connected to MP-1 and source #2 should be connected to MP-2.

In the Coral SL, Source #0 is connected to MP-1 and Source #1 is connected to MP-2.

using

 Using a second music source on the same ASU/RMI card prevents music

the Public Address feature of the same card. Never connect the sole

source to MP-2 in RMI/ASU cards.



# OF MUSIC SOURCES

Determines the total number of music sources, external and internal, that can be

used for the multiple music source feature.



 Entering a number bigger than defined in SIZ may cause system failure.

Range: 1-4;



Default: 1 (2: Coral SL)



4-17



Chapter 4: Sizes



PI 9.xx



Music Sources - Route: SYSGEN,4 (or 0,0,0,4)

FROM/TO MUSIC-SOURCE

Enter the required range of music sources index numbers. FROM indicates the

lowest source index number; TO indicates the highest source index number.

The range is limited by the # of MUSIC SOURCES parameter.

Range:

Range SL:

Default:



0-3;

0(MP-1), 1(MP-2)

0



LOCATION

When external music is required, enter the physical location of the RMI/ASU,

8DRCM or 8RCM card, and MP-1 or MP-2 port to which the music is connected.

Information must be entered between parentheses, in ascending order and separated

by a space or comma. Shelf and slot locations describe the hardware position of the

RMI/ASU, 8DRCM or 8RCM card in the system cabinet. MUSIC 1/2 represents the

order of the music sources, enter 1 when connected to MP-1, enter 2 when connected

to MP-2 (see the relevant Installation Manual). Entering R removes the (Shelf, Slot,

Music 1/2) reference. When Remove is entered or (--,--,--) is displayed, the system

always selects the TONE TYPE automatically.

cards,

MP-2 used as a

 In RMI/ASU source,MP-2 is located in CKT #7. Whenblockedisand cannot

second music

the page (public address) port is

be used.

Range: (Shelf #, Slot #, MP-1/2), Remove; Default: (--,--,--)



TONE TYPE

Determines the internal tone type that is sounded when (--,--,-- ) is displayed or

when the RMI/ASU, 8RCM or 8DRCM card is removed or is malfunctioning.

Range: Ringback, Busy, Silence;



Default: Silence



MUSIC SELECTION



 For Maintenance Purposes Only.

Interrupts the External Music Source periodically when the Music Source Supply is

malfunctioning or the maintenance card (RMI/ASU, 8RCM, 8DRCM) is

malfunctioning. Enter Music to hear the External Music Source. Enter Tone only if

the External Music Source is not functioning properly. The Tone is selected in the

TONE TYPE parameter above.

Range: Music, Tone;



Default: Music



4-18



PI 9.xx



Chapter 4: Sizes



Music Sources - Route: SYSGEN,4 (or 0,0,0,4)



!



CAUTION

Updating # of MUSIC SOURCES and/or LOCATION initializes the system, causing:

1) The system to reset.

2) The interruption of all calls.



UPDATE *warning* system init (Y/N) ?

Loads the modified Music information, initializes the database, and resets the

system. When No is entered, any previous updates are ignored and the system

remains at its pre-programmed sources.

Range:



Yes/No;



Default:No



4-19



Chapter 4: Sizes



PI 9.xx



TIME-SLOTS (4GC only)- Route: SYSGEN,5 (or 0,0,0,5)



Coral III/4GC Systems Only

{V9.5x}

# OF TIME-SLOTS PER UNIT (2 SHELVES)

Enter the number of time slots to be used per PB24 card: 128, 256 or 512. The

number of time slots is defined in the PBD24M card hardware. One of the three

LEDs on the PB24 card front panel, marked with 128, 256 and 512, indicates (when

plugged in) how many time slots should be defined.

This is a system-wide parameter. All the PBD24M cards that are installed in the

Coral system must be of the same type (i.e. use the same number of time slots).

The number of Time Slots is factory set and can be deciphered by viewing the

jumper configuration on the Card. Refer to Section 8.16 of the Coral Installation

Manual Cat.# CN7244-7182603.

III/4GC Systems

24-Port Backplane with PBD24M Card in

 Coral to define a 256 or require a slot option.

order

512 time



!

Range:

Default:



Caution:

This parameter is defined only during installation.

Changing the Number of Time Slots causes a partial initialization.

128, 256, 512 (Check the LED indication on the Card front Panel)

128



UPDATE *warning* system init (Y/N) ?



!



Caution:

Updating this parameter causes the interruption of all calls.



Loads the modified time slot information. When No is entered, updates are ignored

and the system remains at its pre-programmed sources.

Range:



Yes/No;



Default:



4-20



No



5



NPL

Numbering Plan



The Numbering PLan is used to determine the system-wide numbering scheme.

Two major options are available in NPL:

General Numbering Plan . . . . . . . . . . . . . . . . . . . . .

General Numbering Plan: Alphabetical Order . . . .

General Numbering Plan: Field/Index Order . . . . .

Special Feature Codes. . . . . . . . . . . . . . . . . . . . . . . .



p 5-3

p 5-7

p 5-13

p 5-36



The General Numbering Plan establishes the system pattern dialing plan. It is the

System Dialing Plan that determines all hardware and many software identifiers

used for programming purposes.



 On the following pages, sample General Numbering Plans are given.

•

•



All references to SVC apply only to CORAL I, CORAL II, CORAL III/SVC

and CORAL III/30 systems.

All references to 4GC apply to all CORAL III/4GC and CORAL with DX

Common Control systems regardless of the number of slots.



Dialing digits via the keypad or programmed buttons on the keyset, is the user’s

method of instructing the Coral system to call another user, access a Trunk and dial

out, access internal facilities or activate features.

The specific structure of the digit patterns used in the Coral for various system

instructions is defined in the Numbering Plan.

The Numbering Plan includes two parts, the main plan: GENERAL and the secondary

numbering plan: SPECIAL.

The main Numbering Plan defines the access codes of each of the physical ports in

the system. Additionally, the Numbering Plan defines the access codes for Groups,

Speed Calling Libraries and features.

A dial number is assigned to each Coral feature. The access codes are changed by the

UPDATE function. There are also feature access codes that need to be REMOVED or

ADDED. In such cases, the system programmer must have a reference tool to relate a

dial number to a specific feature. That reference tool is an internal software number

which is also known as the index number in the PI which relates feature to dial

numbers, e.g. index number ‘51’ relates Call Forward All to a dial number (141 is the Call

Forward All dial number default).



5-1



Chapter 5: Numbering Plan



PI9.xx



For example, assume Call Forward All is not defined in the system and it is requested. Such

a change is accomplished in the PATTERN NUMBERING PLAN of the PI. The system

programmer selects ADD, and then DIAL NUMBER 141,chooses FEATURE and then

enters the requested INDEX NUMBER, 51 which actually relates 141 to Call Forward All.

The Secondary Numbering Plan is used after pressing the xfer/recall button on the

Keyset or hookswitch on the SLT.

The Special Feature Codes establish the dial codes used for certain system features

typically dialed following a hookswitch flash (for example, camp-on, snooze, or break-in).



5-2



Chapter 5: Numbering Plan

General Numbering Plan



PI 9.xx



General Numbering Plan - Route NPL,0 (or 0,0,5,0)

The General Numbering Plan is used to assign system dial numbers to the system hardware

(shelf, slot, circuit) and software (index numbers) in the flexible numbering scheme. The

general numbering plan also assigns Network numbers to the Network nodes.



SHELF, SLOT, CIRCUIT (CKT):

A shelf, slot, circuit hardware identification (HID) number represents a hardware

position in the system cabinet, and must be accompanied by the correctly installed

equipment at the start position of the range.



INDEX NUMBER:

An index number is a software identification number (SID) which identifies a

feature, speed dial library, node number or group.

Each system feature and key function is identified by a specific index number

regardless of the dial number assigned to it by the Numbering Plan. The first

feature is identified by index 0.

Similarly, each group of any group type, whether Hunt, Pick-up, or Trunk, etc., and each

number of the public speed dial library is identified with a specific index number

regardless of the dial number assigned to it. Thus, the first trunk group is index 0, the

first hunt group is index 0, the first public library number is index 0, and so on.

In general, the number of groups or libraries established in the System Sizes

determines the quantity of index numbers allocated. The first 100 public speed dial

library numbers for instance, require index numbers 0 through 99 (inclusive), the

second 100 would require index numbers 100 through 199 (inclusive).



NODE NUMBER:

Each private exchange in a network represents a network node and is designated by

a corresponding network node number. The network node number is limited to 8

digits and is not part of the general numbering plan.

The network has its own network numbering plan used for network communications.



SYSTEM DIAL NUMBER:

The system dial number is used to access the related equipment or feature. The dial

number range (START to END numbers) may be greater or smaller, depending on

the information entered in the SIZES Branch (see Chapter 4). START and END

numbers must have the same number of digits (for example, 0-9, 00-99, 000-999,

0000-9999,..., 00000000 - 99999999).

The following arrow symbol   appears when the range END number depends on

the maximum number listed in the database as defined in SIZES, Chapter 4. Hence,

a number listed after   is not necessarily the exact END number for the range and

only a suggestion. No number listed after   indicates that the END number is

defined in the SIZES database.



5-3



Chapter 5: Numbering Plan

General Numbering Plan



PI 9.xx



General Numbering Plan - Route NPL,0 (or 0,0,5,0)

of the 3

digit defaults,

 1 to 83digits may be used in place flexibilityorof4 the Numberinghowever, using less

than digits severely restricts the

Plan.

Up to 4 digits may be used for DATA_PORT [16], DATA_USER [22] and

DATA_GRP [23].



Once this route is selected the following option menu becomes available:

OPTIO N



Descri ptio n



0 - UPDATE



Allows updating the numbering plan.



1 - DISPLAY



Displays the entire numbering plan.



2 - ADD



Adds a number to the numbering plan.



3 - REMOVE



Removes selected numbers from the

numbering plan.



5 - SHOW



Shows a specific part of the numbering

plan according to type.



7 - ERASE



Erases all numbers in the numbering

plan.



Table 5-1. Numbering Plan Options - Full Explanation

Fun cti on



Promp ts & Captio ns



In stru cti ons

Enter the first existing dial number of the range that

requires updating.

Enter the last existing dial number that requires

updating. If only a single number is required, enter

the same number as FROM OLD DIAL #.



FROM NEW DIAL#:



1 - DISPLAY



FROM OLD DIAL#:

TO OLD DIAL#:



0 - UPDATE



Enter the first new dial number, in the range that

was defined under the old dial number. (Once the

first number is entered the rest of the defined range

is automatically calculated).



FROM DIAL#:



Displays the first dial number defined in the display

range.



TO DIAL NUMBER#:



Displays the last dial number defined in the display

range.



TYPE:



Displays the port, feature or type of group for which

dial numbers are assigned.



INDEX#/SHELF,SLOT,CKT/

NODE#:



Displays the index number of first library, feature or

group, or physical shelf, slot and circuit position of the

first port in the range, or the Network node number.



5-4