Panasonic Small Digital Business System 308/616 Installation Instructions

							SECnON 400 (Version 3.0) 
issue 1 January 1990 DBS 
FF-8 LCR mode 
FF&4#-( 1 - 4)#- (1 - 15)#-(000 - 999)#-(0 or l)# 
Special 
office code table storing 
In order to find the cheapest outside line group to 
be used from among the numbers starting with 6 
digits when making an LCR call, the call is made in 
accordance with the special office code for each 
special area code specified by the time priority 
table. 
Rather than the area code or ofice code being 
determined individually, a telephone number of 
6 
digits combining the special area code and special 
office code is stored. 
In this table are stored 4 special office code (000 - 
999) tables corresponding to the 4 special area 
codes. 
The dial decided on forthe special office code is 
derived from XXX as shown below. 
(N=2-9,P=O-1,X=0-9) 
1 + Area code : 1 - NPX-XXX-XXXX 
NON 1 + Areacode: NPX-XXX-XXXX 
Special office codes not stored in thistable cannot 
be used for LCR calls. The structure for the data 
storing in the table is as follows. I (Time prioritytable number l-15) 
Time priority table number 15# 
I (Special Office code number l-4) 
Special Office code Table Number 4# 
Time prioritytable number l# 
Special office code DATA: 
(000-999)#-(Store:l or Delete:O)# 
I (Time prioritytable number l-15) 
Time prioritytable number 15# 
Special office code DATA: 
(OOO-999)#-(Store: 1 or Delete:O)# 
NOTE 7: For the system installation area it is 
necessary to set either 1 + Area or 
Non 1 + Area. 
NOTE 2: LCR calls cannot be made from outside 
lines connected to a 
PBX. 
Special Office code Table Number 1# 
Time prioritytable number 1# 
Special office code DATA: 
(OOO-999)#-(Store:1 or Delete:O)# 
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							FF&S#-(l “ls)#-(l-48)#-(i : 8)# 
Time 
Priority Table setting 
The time priority table is combined with the trunk 
group table and is devised for making calls from 
the cheapesttrunk group within the designated 
time band. 
There are 15 time priority tables and for each of 
them 8trunk groups can be set for the 6 time 
bands. In addition, as the order or priority can be 
fixed within the programmed trunk groups, it is 
possible to divide them up even more precisely. 
The data are set according to the programming of 
.  the LCR trunk group numbers, and for 
cancellations the CONF key is input as data. SECTION 400 (Version 3.0) 
Issue 1 January 1990 
Time Priority Table number 1# 
. l -8%: (7:0OAM-8:00AM) 
1 #_z2#~3#-~-S#-6+7#-8#__ 
9 - 16#: (8:00AM-S:OOPM) 
9#% IO+ t ll# 129. 13#-14#-lSC_lW_ 
17 - 2z (S:;PMGOPM) 
1 ?#Ll8#% 9#-20#-21#-22#-23#-24#- 
25 - 32#: (8:00PM-12:OOPM) 
25#-26#-2?#-28#-29#-308-3 1#-32#- 
33 - 4oR: (0:00AM-7:OOAM) 
33#_34#-35#_36#3?#_38#39#40#- 
41- 48#: Weekend) 
41#-42#-43#-~#-45#-46#_4?#_48i 
High t PRIORITY + LOW 
(Time Priority Table number l-15) 
Time Priority Table number 158 
1 - 8f: (7:OOAM-8:oOAM) 
1#-2#-3#__#-S#-6#-?#-8#- 
9 - 16#: (8:OOAIWS:OOPM) 
9#- 10#~11#~12#~13#~14#~15#~~6f~ 
17 - 24#: (5:00PM-8:00PM) 
1?#~18#~19#~20#~21~~22#~23#~24#~ 
25 - 32%: 
(8:00PM-12:OOPM) 
2S#1t_26#_2?#-28#-29#-30#_31 
#-mm 
33 - 408: 
(O:OOAM-7:OOAM) 
33#34#3S#-36#-37#_38#-39#40#- 
41- 08#: (Weekend) 
41 #42#-43#-44#B4S#46+-4?f-48#- 
High c PRIORITY + LOW 
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							SECTION 400 (Version  3.0) 
Issue  1 January  1990 
---de? 
FFS-6&l  %&-(I - 8)#-  (l -32)# 
Trunk Grotip  Table Setting 
When  making  an LCR  call the  line within  the 
cheapest  trunk group  table at the  time  of catling  is 
used. 
There  are a total  of 8 trunk  group  tables  in each  of 
which  8 lines  can be set 
The  order  of priority  for a trunk  group  is 
determined  bythe time prioritytable. 
There  is also  an order  of priority  for the  lines 
within  each table  so that  they  can be divided  up 
even  more  precisely. 
Normally  they are put together  in trunk  groups  of 
the  same  type as with  MCI and SPRINT. 
Trunk  Group  table 
LCR  trunk  group 
Data:  Trunk  port number  (1 - 32) 
l#(Croup  1): _ .  FF8-7#-(l- 
8)#-(Max. 10 ‘digit  numbers)# 
Dial delete  table storing 
The  numbers  it is desired  to delete  from the heads 
of  the  numbers  input into each  LCRtrunk  group 
are  stored.  Up to a maximum  of 16 digits  can be 
deleted.  
These  digits are deleted  from the heads  of 
numbers  only when  the dialed  number  and the 
number  stored correspond  and are not  dialed  out 
to  the  trunk  line. 
Numbers  already stored are canceled  by inputting 
CONF.  
LCRtrunk  group number:  1# 
(Dial  delete  number/Max  16 dioits)# 
I  (Special  area code  table  number  l-1 5) 
LCR  trunk  group  number:  8# 
,#~22#~#~4#‘js#gC6#i7t8~~ 
2#  (Group  2):  (Dial 
deiete  number/Max  16 &its)++ 
,,6  2#3  3#  4#  S# 6#  7#  88  NOTE: 
--------  May 
not storing  “* ” and  “#“data,  that 
3#  (Group  3):  even 
use rhq FFl  1  and  FF72 keys. 
l#-2#-3#4#-5#-6#7#-6#- 
4#  (Group  4): 
1#2#3#4#-5#6f7~8#- 
5#  (Group  5): 
1%2#3#4ff#-6#7#-8#- 
6#  (Group  6): 
1#-2#-3#4#-5#6#7#-6#- 
7#  (Group  7): 
1#2#3%48-5%6#7#-8#- 
8#  (Group  8): 
I  ~-2i~t3#4#-5#-6#7#-8#- 
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							DBS 
FF-8 LCR mode 
FF&8#-(l- 8)#-(Max. 16 digit numbers)# 
Dial 
add table storing 
The numbers it is desired to add to the heads 
of the dial numbers input into each LCR 
trunk group are stored. 
Up to a maximum of 16 digits can be added 
for dialing. When dialing using a stored LCR 
trunk group, the stored numbers are sent out 
first Numbers already stored are canceled by 
inputting CONF. 
In addition, *** and ’ W” are stored by using 
the FFl 1 and FFl2 keys. 
And pause data are stored by using the 
[REDIAL] Key. 
LCR trunk group number: 1# 
(Dial add number/Max 16 diaits)# 
I (Special area code table number l-15) 
LCR 
trunk group number: 8# 
(Dial add number/Max 16 dioits)# SECTION 400 (Version 3.0) 
Issue 1 January l!B0 
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							SECTION 400 (Version 3.0) 
Issue 1 January 1990 
3 - 9 Copy mode (Trunk and extension 
specification COPY model 
When programming it is necessary to set the same 
items fora large number of telephones. 
This is likewise the case when setting for outside 
lines 
Therefore the trunk setting mode and extension 
mode are provided with a copying function so 
_ that the contents 
set for one telephone can be 
copied into other extensions. 
The same is also the case when copying 
programmed specifications for outside lines. 
FF9-l#-(1 - 32)#-(1 - 32)#-# 
Trunk specification copy mode 
The contents which have already been 
programmed for one trunk port are copied into 
another trunk port 
After this reprogramming is easily done by simply 
changing the points which are different from the 
contents in the original. 
All the items programmed are copied with the 
exception of the private port number. 
NN#: Trunk port number originating copy (1 - 32) 
NN#: Trunk port number receiving copy (1 - 32) 
#: Copy implementation DES 
,&t ?‘t 
b0 & FF-9 Copy mode 
FF%Z+-(; -L372)#-(1 - 72)#-8 
Extension specification copy mode 
The contents which have already been 
programmed for one extension are copied into 
another extension. 
Afterthis reprogramming is easily done by simply 
changing the points which are different from the 
contents in the original. 
All the items programmed are copied with the 
exception of the extension number, terminal 
classification, ELF port number and lock out code. 
NN#: Ext. port No. originating copy (1 - 72) - # 
NN##: ExL port No. receiving copy (1 - 72) - # 
#: Copy implementation 
FF9-3#-(l- 72)#-(1- 72)#-# 
FF Key function copy mode 
The programmed data entered in FFS mode for an 
extension can be copied to other extensions. Only 
the data for LED type keyswill be copied. After 
you have entered the source extension port 
number (FROM) the DES requests the destination 
port number (TO). 
At’this point DBS verifiesthatthe port numbers 
entered are correct and you are given the choice 
to abort the copy mode if you so choose. 
If the port numbers you have entered are incorrect 
you can step backwards by pressing the volume up 
key repeatedly until you are at the entry point 
which needs correction. 
NNB: Ext port No. originating copy (1 - 72) - # 
NN##: Ext port No. receiving copy (1 - 72) - f 
#: Copy implementation 
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							DBS 
FF-10 SPD number mode 
3 - 10 Spd’number mode (Speed dial 
number settinq model 
Forstoring the system speed number or personal 
speed number, the DSS 172 (DSS console)(VB- 
43320) connected to the attendant’s telephone 
are used. 
Pause - 
Dial l - 
Dial # - 
Display --- - SECTION 400 (Version 3.0) 
Issue 1 January 1990 
Remote Maintenance 
7 
Input character for 
Input Remote Maintenance 
o-9 
l , # Pause 
“. 
- 
Start Account 
Auto 
Auto ACR- Conf. 
I 1 I 
+ I o-9 l , # P 
B 
A 
-E F G 1 
0000 
Dial [l] 
Dial 121 
Dial [3] 
Dial [4] 
Dial [S] 
Dial [6] 
Dial [7] 
Dial [B] 
Dial [9] 
Dial [O] 
. 
Fig 1 O-l DW72 console(VB-43320) 
-74-  
						

							SECTION 400 (Version 3.0) 
Issue 1 January 1990 
FFlO-l#-(00-89)# 
System SPD mode 
System Speed Dial numbers 00 - 89 can be 
programmed from the attendant telephone. 
It is also possible toenter names of up to 16 
characters in each SPD numbers using FF6 key (See 
Page, 52 ) 
i FFlO-l#-NN(OO- 89)#-(Telephone Number)# 
NN# : System SPD Dial number 
[CONFIB : For clear previous data 
FFlO-2#-(01- 72)# 
Personal SPD mode 
Personal Speed dial number 90 - 99 can be 
programmed from the attendant telephone. 
\FFl II-2#-NN(Ol- 72)#-SS#(90-99)#-(Telephone 
Number)# 
NN# : Port number 
SS# : Personal SPD dial number 
[CONFlP : For clear previous data DBS 
FF-10 SPD number mode 
-75-  
						

							DES 
Remote Maintenance SECTION 400 (Version 3.0) 
Issue 1 January 1990 
Chapter 4 Remote Maintenance 
4 - 7 Remote Maintenance’ Outline 
Programming can be done from outside the 
system through telephone lines other that for the 
attendant’s telephone. In such a case the 
programming is done from data terminals 
available on the market and the like. 
In addition 
to the normal programming when operating from 
oupide, it is also possible to check all the set DATA 
by memory dumping. 
4 - 2 Starting Remote Maintenance 
There are two methods for stating remote 
maintenance. The first method is to do the 
operation completely from outside by using the 
DISA function for achieving the remote 
maintenance status after having telephoned the 
system from outside. The second method is to 
put the system in hold with the attendant’s 
telephone to achieve the remote maintenance 
status. 
A. Remote maintenance mode with 
DISA 
After the system has answered the call made to 
the trunk line specified in the systems DISA, the 
DISA function can be used by inputting the 
DISA code (not necessary with some system 
settings). Then the remote maintenance 
processing is made possible having inputthe 
special remote maintenance number (#6) and 
the 4 digit code for remote controlled 
maintenance(code 9999 when not set). 
B. Remote maintenance mode by 
attendant’s telephone 
Having put on hold after calling the patty which 
is to carry out the remote maintenance with 
the attendant’s telephone, the remote 
maintenance processing is enabled by having 
the special remote maintenance number input 
The remote maintenance processing is then 
made possible by inputting the special remote 
maintenance number (86) and the 4 digit code. 
In either of the above cases the following message 
is output on the remote side to indicate that it is 
now in the remote maintenance mode. 
4 - 3 Remote Maintenance Processing 
There are 3 modes forthe remote maintenance 
processing. 
When the remote maintenance mode starts, it 
enters each of the following processing modes. 
INPUT -[PI’ Programming 
INPUT ‘[Dl’ Memory dumping 
INPUT ‘Ctrl [Z]” Remote maintenance complete 
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							SECTION 400 (Version 3.0) 
Issue 1 January 1990 DBS 
Remote Maintenance 
4 - 4 Effective Number of Digits for input 
Data 
When the number input is less than 3 digits, 0 is 
entered to make a number of 3 digits. 
When it is more than 3 digits, the last 3 digits only 
are taken while the rest are disregarded. 
:-ol.i lO#lO 
1000~00, 12345-345 
This restriction is common to all 
l Lhe remote 
maintenance modes. 
4 - 5 Outline of Memory Dump Function 
During maintenance and the like the systems 
software data can be confirmed from outside. 
This is extremely useful when a breakdown occurs 
for example. 
By means of memory dump data can be outputto 
the data terminal CRT or printerwhen the table 
name for the memory area you want displayed 
and the number of display bytes are specified. 
4 - 6 Starting Memory Dump Function 
When the D command is input on the initial screen 
for remote maintenance, the following message is 
output to the remote side. 
I 
MEMORY DUMP MODE 
- 
I 
I 
After the message has been displayed, the 
following prompt is displayed while waiting for 
data input. DUMP> 
i - 
The memory dump area is specified in accordance 
with the table number and the number of display 
bytes. If the number of bytes is not specified, 
100(H) bytes are automatically displayed. 
DUMP > table name + offset address - number of 
bytes output  4 letters : 0 - 10, A - F(H) 4 
letters: 0- lO,A- F(H) 
If the specified table name is intended for 
something other than memory dump, the error 
message is displayed. 
4 - 7 Completion of Memory Dump 
The memory dump operation is completed by 
inputting “[Ctrl] + [C]” to return to the remote 
maintenance mode. 
4 - 8 Completion of Remote Maintenance 
The remote maintenance operation is completed 
by inputting -[Ctri] + [Z]“. If “[Ctri] + [Z]” is input 
while programs are being selected or data are 
being entered, it becomes the remote 
maintenance start mode. So when ‘[Ctri] + [Z]” is 
input again in this status, the outside line being 
used forthe remote maintenance is released and 
the remote maintenance is completed. In the 
following cases also the outside line is 
A When data have not been input for more than 
16 minutes 
8. When the outside line is cut off automatically 
released to complete the remote maintenance 
operation. 
-77-