Simplex 2100 User manual
2100 Multiplex
Jumper Placement
and Switch Settings
aSimplex
0 1~7S~W*XlhOR0WrdwC0., Gardner, Mass.01441-0001 U.S.A.
MUX1 -21-002
Ed587
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TABLE OF CONTENTS
INTRODUCTION ......................................................... .l
JUMPER PLACEMENT .................................................... 1
Transponder Jumper Placement ....................................... .l
Transponder Monitor Point Operation. ................................. .2
Transponder Control Point Status ...................................... 3
Transponder Monitor Point Status ...................................... 3
Encoder Board Address ............................................... .5
Transponder Baud Rate ................................................ 5
Central Control Console Channel & Annunciator Baud Rate. ............. 6
Central Console’s Printer & CRT Baud Rate ............................. 6
SWITCH SETTINGS ...................................................... .9
General ............................................................. ..g
CRT .................................................................. 9
ConsolePrinter.......................................................l 0
h I
)I
CAUTION
ELECTRICAL HAZARD
Disconnect electrical power when making any
internal adjustments or repairs. Installation
and servicing should be performed by quali-
fied Simplex Representatives.
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INTRUDUCTION
This publication contains information on jumper wire connections and switch settings used in the 2100
Multiplex system. The information can be used either to verify that newly installed equipment meets its
specifications or to modify new or existing equipment.
JUMPER PLACEMENT
TRANSPONDER JUMPER PLACEMENT
The proper placement of ,jumpers within a transponder can be determined from the Transponder Speci-
fication Sheets which are shipped with each transponder. These sheets include the following information
as shown in Figure 1:
0
1 Channel number for that transponder
0
2 Transponder number
0
3 Encoder numbers within transponder
0
4 Encoder addresses
0
7 Programming information for all jumpers in
transponder
Monitor point sense
Q
0
7b Monitor point operation
0 0
7c Control point contacts
5 Monitor point numbers and labels
0 0
8 Control by Event
6 Control point numbers and labels
I !%lpkX 2100 TRANSPONDER SPECIFICATION SHEET F’LENo
J- SHADEDAREAS(;ARDNERUSEONLY
PAGE ORDERNO
l0F-L 0000--oocm
BATTERYSTANDBYLISTINGSREO”IRED,*,
-~
4M13C ENCODER NO 18 (I-128)
FIGURE 1
1
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TRANSPONDER MONITOR PO#W.OP~F@f%lQN
Each monitor point can be prepared for one of three types of operation: NORMAL, LATCH, or KEY. A
description of the use of each type of operation is as follows:
NORMAL - This type of monitor point operation is used with sensing devices that latch into alarm; e.g.,
pull stations and smoke detectors. In this mode of operation, the transponder circuitry will
follow the action of the sensing device, resetting as soon as the sensing device is reset.
LATCH - This type of monitor point operation is used with sensing devices that may give only a mo-
mentary alarm indication and do not latch into alarm; e.g., security devices such as,door
switches. In this mode of operation the transponder circuitry will latch in the alarm state,
resetting only after the alarm has been recognized by the Central Control Console. .
KEY - This type of operation can be used with both momentary and latching sensing devices. In
this mode of operation, when a sensing device goes into alarm, the transponder circuitry
will latch in the alarm state and remain latched until a keyswitch for that monitor point is
momentarily activated. This insures that an alarm can only be reset by authorized personnel.
Monitor oint operation is predetermined and is listed on the Transponder Specification Sheet (Figure 1,
Item 6 b ). NORMAL and LATCH modes of operation are determined by jumper placement at the fac-
tory. For KEY operation, a keyswitch must be wired in at the time of installation.
On the left side (when viewed from the top) of each zone interface board, there are 12 holes for jumper
wires. (See Figure 2.)
The center four holes are labeled 1 through 4 for the monitor points. The right-hand row of holes are labeled
“LATCH” and the left-hand row of holes are labeled “NORMAL.”
For NORMAL monitor point operation, a jumper must be placed from the desired monitor point hole in
the center row (1, 2, 3 or 4) to one of the holes labeled “NORMAL.” For LATCH operation, a jumper must
be placed from the desired monitor point hole in the center row to one of the holes labeled “LATCH.”
Above the jumper points there are terminals labeled 1 through 4 for the monitor points as well as a +12
terminal and a GND terminal. Using these terminals, a keyswitch may be installed for each monitor point,
providing KEY operation. When a keyswitch is used for a monitor point, no jumper wire is placed on the
board for that point. For proper installation, see Simplex Dwg. #801-486 (included with transponder in-
stallation documents).
Make sure there is either a jumper wire or a keyswitch installed for each monitor point. ,
TO KEYSWI ITCH
r7iTi-z
FROM L
000000
:EYSWITCH WHEN USED
NOTE:
EACH MONITOR POINT MUST HP
ONE JUMPER OR A KEYSWITCH
CONNECTED TO IT
IVE
FIGURE 2
2
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TRANSPONDER CONTROL POINT.SfAkJS
Alongside of each relay on the zone interface board is a jumper wire position to complete the control cir-
cuit. This wire must be connected to either the normally closed (NC) or the normally open (NO) position.
See Figure 3. NOTE: Whether the control contacts will be NO or NC can be determined by referring to
the Transponder Specification Sheet (Figure 1, Item @ ).
When connected to the normally open (NO) position, the control circuit (between terminals C and Kl, K2
or K3) will be opened when the relay is de-energized (reset) and closed when the relay is energized (set).
If the jumper wire is connected to the normally closed (NC) position, the control circuit will be closed when
the relay is de-energized (reset) and opened when the relay is energized (set).
A jumper wire must be installed for each of the control points in use.
000000
TBl
C Kl C K2 C K3
JUMPER WIRE INSTALLATION POINT.
FOR EACH CONTROL POINT,
EITHER NORMALLY OPEN (NO)
-cx- R5 - RI OR NORMALLY CLOSED (NC).
FIGURE 3
TRANSPONDER MONITOR POINT STATUS
On both the transponder motherboard and the expander board, alongside each encoder board slot are
several jumper holes. Twelve of these holes underneath the word “MONITOR” are used to select the siatus
of the points being monitored (normally open or normally closed). See Figure 4.
The point selection (POINT SEL) holes for the four zones are labeled as indicated in Figure 5.
Set the status of each zone by connecting a jumper: wire from the POINT SEL hole to either NC @Bove)
or NO (below). All zones must be,.connectedto one or the other. NC indicates that the.zone moriit;ors%or-
mally closed sensors. NO i~i~e~th.~~the.io:~~m~~~~ors.nornialIy open sensor&
3
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1
According to the jumpers, the address
GND
‘1
A B
GND
Jl I?
-
72
1
-
!8
J
...
@@@a
Jw
GND
@,o@@
12 VDC
JW JW JM
@@@I
2A 4A BA
iDDRESS
SELECT
MONITOR
N.C.
@@@@
NJWJWJW
POINT
ZA 3ZA
BOO@
2ZA 424
SEL
Y JWJWJW
4608
N.O.
52
-
F
-
for the encoder ;n slot j2 would be
1010 in binary or address 10.
28 40
aB
Monitor point 1 is NC
Monitor point 2 is NO
Monitor point 3 is NO
Monitor point 4 is NC
*Make sure there are no jumpers from
12V to ground.
PT. MONITOR PT. MONITOR
NOTES:
FOR ENCODERS IN USE,EACH POINT MUST HAVE A JUMPER.
ALL ADDRESS BITS MUST HAVE A JUMPER
FIGURE 4
NUMBER INDICATES
ENCODER BOARD’SZONE 1ETTER INDICATES
ENCODER BOARD WITHIN
A TRANSPONDER
FIGURE 5
4
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ENCODER BOARD ADDRESS
On the transponder motherboard, immediately above,the monitor point status select holes, are twelve
holes labeled “ADDRESS SELECT.” See Figure 4.
Four of the holes are labeled in a straight binary code fashion. Code 1 indicates the least significant bit,
2 indicates the next bit, 4 indicates the third bit, and 8 indicates the most significant bit. A jumper must
go from each of these holes to either a hole labeled 12VDC (placing the bit HIGH) or to a hole labeled GND
(placing the bit LOW). The sum of all the HIGH bits is the encoder address. (See “Encoder Conversion
Chart” in the 2100 Multiplex Installation Manual.)
A 4-bit binary code provides a maximum of 16 different addresses (00 thru 15). An encoder’s address can
be verified by checking the Transponder Specification Sheet. (See Figure 1, Item @ ).
TRANSPONDER BAUD RATE
On the transponder motherboard, to the right of the connector for the controller board, is the baud rate
selector area. A jumper wire is connected from the hole labeled “CLOCK” to a hole with the desired baud
rate of 37.5,75,150, or 300 (baud rate 600 is not used). See Figure 6.
All transponders on a channel must be set at the same baud rate. The baud rate for each channel is de-
termined by jumper placement on the motherboard in the Central Control Console.
J6
-
I
-
16.1
--
8’
BATTER’
+
BATTER’
SENSE -I
BATTER’
EARTH
DND
AC
AC
NOTE: A SINGLE JUMPER FROM “CLOCK”T0 SELECTED BAUD RATE
FIGURE 6
5
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CENTRAL CONTRdL CONSOLE C~~A~~NEL-&‘I’A;NN‘UNCIATOR EiAUD’RAf’E
The channel baud rate selector holes are located on the motherboard in the Central Control Console.
There are two baud rates (not necessarily different) for each communication board, one for the channel
(transponders) and one for the channel’s annunciator. The baud rate selector holes are located on the
motherboard between two connectors. See Figure 7 for location of baud rate selector holes for each chan-
nel. The selector holes for each channel are associated with the letter which is printed below them.
The baud rate selector holes in the 256 Console are different from those in the 512 Console. Figure 8 con-
tains jumper placement information for the 256 Console and Figure 9 contains jumper placement infor-
mation for the 512 Console. TABLE A, in both Figure 8 and Figure 9, gives jumper locations for channel
and annunciator baud rates. For example, if you look at TABLE A in Figure 8 and cross reference the hori-
zontal row labeled “Channel” with the 300 Baud column, you find a box with “2-4” inside. This means
that if you wish to set the channel baud rate at 300 baud, you must place a jumper from hole number 2 to
hole number 4.
CENTRAL CONSOLE’S PRINTER &CRT BAUD RATE
The printer’s baud rate in the CPU of the Central Control Console is selected by a jumper on the mother-
board. See Figure 7 for selector locations. It is important to understand that the CRT uses the same baud
rate as the printer. Transmission to both is via the Printer l/O board.
512 CONSOLE
I I
BETWEEN
CHANNEL CONNECTORS I LETTER I
t I I
I I
I
1 I J5&J6 I A I
2 J7&J8 B
3 J9&JlO C
I 4 t Jll &J12 1 D 1
I 5 1 J13&J14 I E 1
I
7
I
J17&J18 I H I
8 J18& J19 K
PRINTER &CRT J19 8. J20 L
256 CONSOLE
FIGURE 7
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The baud rate selector holes in the 256 Console are different from those in the 512 Console. Jumper place-
ment information for the 256 can be found in Figure 8. Figure 9 contains jumper information for the 512
Console. TABLE B, in both Figure 8 and Figure 9, gives jumper locations for Printer & CRT baud rates.
For example, in Figure 8, the box underneath 4800 contain< “2-3.” This means that you must place a jumper
from hole number 2 to hole number 3 to have a Printer & CRT baud rate of 4800 baud.
PRINTER &CRT
BAUD RATE
SELECTOR ANNUNCIATOR
BAUD RATE
CHANNEL & PRINTER BAUD RATE SELECTORS
I
TABLE A
I
ANN. 1 l-8 1 1-9 1 1-7 1 l-4 1
I
CHANNEL 1 2-8 1 2-9 1 2-7 1 2-4 1
I
*ANN &CHANNEL
Jumpers for Letters U-X
I I
BAUD RATE I
TABLE B 110 150 300 1200 4800
PRINTER &CRT 2-6 2-7 2-4 2-5 2-3
Jumpers for Letters T &Y
*The baud rate selector for the Ann & Channel has two holes above the number 2 label.
These holes are tied together and are used when the Annunciator baud rate is the
same as the Channel baud rate.
FIGURE 8
7
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.!
i
I
J 19
CHANNEL
AND ANN
BAUD RATE
SELECTOR
(1 PER CHANNEL) i
512 MOTHER ED
ASSY 556-771
512 CONSOLE
JUMPERS FOR LETTERS
A-K
J 20
PRINTER 81CR?
REMOTE PRINTER
BAUD RATE
SELECTOR
TABLE A BAUD RATE
k 37.5 75 150 300
ANN. l-7 1-6 l-5 l-4
CHANNEL 3-7 3-6 3-5 3-4
ANN. &CHANNEL l-2 l-2 l-2 l-2
3-7 3,.8 3-5
.3-o
JUMPERS FOR LETTER
L
TABLE B BAUD RATE
110 150 300 1200 4800
PRINTER &CRT 3-7 3-8 3-5 3-6 3-4 d
FIGURE 9
8
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SWITCH SETTINGS
GENERAL
The switches that determine the function of the Printer and CRT are the only ones that may need to be
verified or changed. These switches are set at the factory. In-depth explanations of switch settings for
the Printer and CRT can be found in the service manuals for each. The following information deals with
settings used in both the 256 pt. and 512 pt. Multiplex systems.
CRT
The important switches for the CRT are on the Logic Printed Circuit Board. This board can be found under-
neath the CRT in the Central Control Console. See Figure 10 for location of the switches and their set-
tings.
Si . POSITION 3
s2 -
SWITCH 5 1200 BAUD 4800 BAUD
1 OFF ON
2 OFF ON
3 OFF OFF
4 ON OFF
s3.
S4. FULL DUPLEX (TOGGLE SWITCH IN “UP” POSITION)
s4 * NOTE:
EARLIER 256 VERSIONS OF THE 2100 USED 1200 BAUD. MORE RECENT 512
VERSIONS ARE USING 4800 BAUD.
FIGURE 10
9
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CONSOLE PRINTER
Two different printers are used in the console of the 2100 Multiplex: the Okidata CPIIO printer and the
Centronics 730-3 printer. L
The following information will deal separately with the switch settings of both printers.
Okidata Printer
Refer to Figure 11 for location of switch packages. Switch settings used with the 2100 Multiplex are as
follows:
OKIDATA 110
PRINTER SWITCH POSITIONS
I 1
2
1 OFF 1
ON
1 ON 1 3 1 OFF 1 OFF
1 RS232 1 4 1 OFF 1 OFF
I
1 7 1 OFF 1 OFF
I
1 8 1 OFF 1 OFF
FN OEM (LOGIC) BOARD7 SWITC :H
12 1 OFF OFF
2 OFF OFF
1 ON 1 3 1 OFF I OFF1
7 ON ON
8 ON OFF
PACKAGE #9 - ALL SWITCHES OFF FOR
NORMAL OPERATION
* EARLIER 258 VERSIONS OF THE 2100 MULTIPLEX USED A PRINTER BAUD
RATE OF 1200.512VERSlONS NOW USE A PRINTER BAUD RATE OF 4800.
SWITCH PACKAGE #9 - SELF-TEST SWITCHES
[ON OEM (LOGIC) BOARD]
NORMAL OPERATION SELF-TEST OPERATION
ALL SW*8- GIVES PRINT COMMAND WHEN “ON”
SWITCHES
“0 FF” SW#7- ENTIRE CHARACTER SET IS PRINTED WHEN
“OFF”
- WHEN “ON,” SELECT DESIRED CHARACTER
WITH SWITCHES 1-8 (ASCII CODE)
10
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SWITCH PACKAGE 12
FIGURE 11
11
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Centronics 730-3 Printer
Refer to Figure 12 for the location of switch packages in the printer. Figure 12 also contains settings of
dipswitch package no. 3 (SW3) and dipswitch package no. 4 (SW4).
SW4
(258 Sys.) (512 Sys.)
1200B 4800B
SW4
1. OFF OFF
4 OFF ON b
2. ON ON
3. ON ON
4. OFF OFF
5. ON OFF
6. OFF OFF
7. OFF ON
8. OFF ON
ITR and REV. Channel/REV. Channel only
EVEN Parity/ODD Parity
ZEV. Channel/INVERTED REV. Channel
I
II
* I NO Parity Check/Parity Check
1
BAUD RATE
SW3 Printer
AUTO LINE FEED
Normal Self-Test
Operation Settings
1. OFF OFF
SELF-TEST
2. ON ON
4 OFF
ON
b
3. ON OFF
SW3
4. ON OFF
FIGURE 12
12
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Ed 5 87 Simplex Time Recorder Co.,
l
Simplex Plaza
l
Gardner, Massachusetts 0144i-0001 U.S.A. MUX~ -21-002 1
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