boot mode 1
DESCRIPTION
6. ENABLE COMM FAIL RELAY CONTROL. 1. RUN MODE 1. 7. RELAY OFF / ON COMM FAIL. 2. RUN MODE 2. 1. RUN MODE 1. 1. BOOT MODE 1. 2. RUN MODE 2. 2. BOOT MODE 2. 3. BIOS COMMUNICATION. 4. DEFAULT CONTROLLER. 1. RUN MODE 1. 2. RUN MODE 2. ENABLE COMM FAIL RELAY CONTROL. - PowerPoint PPT PresentationTRANSCRIPT
1
2
3
4
5 6
7
8
BOOT MODE 1
BOOT MODE 2
BIOS COMMUNICATION
DEFAULT CONTROLLER
INVERT RELAY OPERATION
ENABLE COMM FAIL RELAY CONTROL
RELAY OFF / ON COMM FAIL
DRM MODULE ENABLED
1
2
3
4
RUN MODE 1
RUN MODE 2
ADDRESS 1
5 INVERT RELAY OPERATION
RELAYS NOT INVERTED
5 INVERT RELAY OPERATION
RELAYS INVERTED
8 DRM MODULE ENABLED
8 DRM MODULE ENABLED
DRM MODULE DISABLED
DRM MODULE ENABLED
6
7
ENABLE COMM FAIL RELAY CONTROL
RELAY OFF / ON COMM FAIL
1
2
RUN MODE 1
RUN MODE 2
1
2
RUN MODE 1
RUN MODE 2
1
2
RUN MODE 1
RUN MODE 2
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 1FLOOR 1 TO 16
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 2FLOOR 17 TO 32
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 3FLOOR 33 TO 48
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 4FLOOR 49 TO 64
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 5FLOOR 1 TO 16
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 6FLOOR 17 TO 32
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 7FLOOR 33 TO 48
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 8FLOOR 49 TO 64
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 9
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 10
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 11
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 12
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 13
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 14
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 15
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 16
AC
AC
B+
B- S
T T
P T
P
1K5 OHM
LED
16VAC 40VA MAX
TRANSFORMER50/60Hz 40VA MAX
MAINSINPUT
+12V AUX
AC
AC
B+
B- S
T T
P T
P
4Ah (MIN)GEL CELLBACKUP BATTERY
N+
N-
N
A
NB
TP
TP
F+
F-
FIRE CONTROLSYSTEM
12 - 32VDC6 - 21mA
TO NEXTELEVATORCONTROLLER
AC
AC
B+
B- S
T T
P T
P
N+
N-
N
A
NB
N+
N-
N
A
NB
N+
N-
N
A
NB
CONTROLLER
EOL ON
0V
B-
A+
12
V
S+
S-
S
A
SB
TO FIRST SLAVE FLOORCONTROL MODULE.PRT-PX16 IN FLOORCONTROL MODE.
TAMPER SWITCH
N+
N- N
A N
B T
P T
P
N+
N
-
NA
N
B
NETWORK COMMUNICATIONSINPUT FROM SYSTEMCONTROLLER OR PREVIOUSPROTÉGÉ SYSTEM MODULE
NO
CO
M N
CR
EL
AY
1
FLOOR SELECT BUTTONIN ELEVATOR CAR
FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM
NORMAL CONNECTIONREMOVED
LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROLSYSTEM
NO
CO
M N
CR
EL
AY
1
FLOOR SELECT BUTTONIN ELEVATOR CAR
FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM
NORMAL CONNECTIONREMOVED
LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROLSYSTEM
NO
CO
M N
CR
EL
AY
1FLOOR SELECT BUTTON
IN ELEVATOR CAR FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM
NORMAL CONNECTIONREMOVED
LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROLSYSTEM
+ IN
1 - +
IN2
-
INPUTS ON THE DRMDAUGHTER BOARD
RELAY CONTACTSON THE MAIN ELEVATOR CONTROLBOARDSEE TEXT
BUTTON VOLTAGECOMMON IN ELEVATORCONTROL SYSTEM
NO
CO
M N
CR
EL
AY
1
FLOOR SELECT BUTTONIN ELEVATOR CAR FLOOR INPUT
TERMINALSIN ELEVATOR CONTROL SYSTEM
NORMAL CONNECTIONREMOVED
LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROLSYSTEM
+ IN
1 - +
IN2
-
INPUTS ON THE DRMDAUGHTER BOARD
RELAY CONTACTSON THE MAIN ELEVATOR CONTROLBOARD
SEE TEXT
BUTTON VOLTAGECOMMON IN ELEVATORCONTROL SYSTEM
+ IN
1 - +
IN2
-
INPUTS ON THE DRMDAUGHTER BOARD
AC
AC
B+
B- +
- ST
POWER CONNECTOR ONMAIN ELEVATOR CONTROLBOARD
EOL
EOL ON EOL OFF
350mA
700mA
350mA
700mA
FIRE
OVERRIDE FIRE
OVERRIDE
EOL
1
2
3
4
5
6
7
8
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 16
ADDRESS 32
ADDRESS 64
SPECIAL FUNCTION
1
2
3
4
5
6
7
8
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 16
ADDRESS 32
ADDRESS 64
SPECIAL FUNCTION
1
2
3
4
5
6
7
8
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 16
ADDRESS 32
ADDRESS 64
SPECIAL FUNCTION
1
2
3
4
5
6
7
8
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
ADDRESS 16
ADDRESS 32
ADDRESS 64
SPECIAL FUNCTION
N+
N-
N
A
NB
N+
N-
N
A
NB
N+
N-
N
A
NB
PC OR HOST CONTROLSYSTEM CONNECTED TO
A ACC-485 SERIAL INTERFACE
EOL OFF EOL OFF EOL ON
+1
2
0V
A+
B
-
AC
AC
B+
B- +
- ST
7.5AhGEL CELLBACKUP BATTERY
N+
N-
N
A
NB
TP
TP
F+
F-
FIRE CONTROLSYSTEM
12 - 32VDC6 - 21mA
TO NEXTIRC RELAYCONTROLLER
N+
N-
N
A
NB
FROM PREVIOUS CONTROLLER
TO NEXT IRC CONTROLLER
TP
TP
F+
F-
TAMPER SWITCH
AC
AC
B+
B- S
T T
P T
P
COLD WATER PIPE GROUNDINGEARTH PEG GROUNDING ROD
TO OTHER EARTHCONNECTIONS
ALREADY ATTACHEDTO THE EARTH PEG OR
WATER PIPE
MIN AWG#14SINGLE SOLIDCONDUCTOR
COPPER WIRE
N+
N-
N
A
NB
N+
N-
N
A
NB
MODULE OR CONTROLLERSUPPLYING POWER TONETWORKED DEVICES
AU
X+
AU
X-
N+
N-
N
A
NB
NEXT MODULESON NETWORK
N+
N-
N
A
NB
N+
N-
N
A
NB
READER EXPANDER SUPPLYING NETWORK
POWER
AU
X+
AU
X-
S+
S-
S
A
SB
NEXT FLOORCONTROL MODULE
SLAVE DEVICES CONNECTED TO THE READER EXPANDER SLAVE
COMMUNICATION INTERFACE USETHE N+, N-, NA AND NB TERMIANLS.
+ - D
0 D1 L
1 L2
BZ
PRX-SAMREADER CONNECTION
RED
BLACK
GREEN
WHITE
ORANGE
BROWN
BLUE
SHIELD
CONNECT THE READERSHIELD TO A SUITABLE
EARTH POINT.DO NOT CONNECT THE
SHIELD TO A GROUND ORNEGATIVE CONNECTION.
+12V
0V
DATA 0
DATA 1
GREEN LED
RED LED
BEEPER
PRX-NANO NANO PROXPROXIMITY READER
YELLOW
YELLOW OUTPUT CARD PRESENT SIGNAL
FACTORY OPTION
-
+
POWER SUPPLY 12VDC
+ - D
0 D
1 L1 L
2 B
Z R
2 R2
R2
R2
R2 R
2 R
2
+ - D
0 D
1 L1 L
2 B
Z R
1 R1
R1
R1
R1 R
1 R
1
RED
BLACK
GREEN
WHITE
BROWN
ORANGE
BLUE
SHIELD
+12V
0V
DATA 0
DATA 1
GREEN LED
RED LED
BEEPER
RED
BLACK
GREEN
WHITE
BROWN
ORANGE
BLUE
SHIELD
DATA 1
ENTRY UNIT
EXIT READER
READER #1INPUT CONNECTION
READER #2INPUT CONNECTION
+ - D
0 D
1 L1 L
2 B
Z R
1 R1
R1
R1
R1 R
1 R
1
RED
BLACK
GREEN
WHITE
BROWN
ORANGE
BLUE
SHIELD
+12V
0V
DATA 0
DATA 1
GREEN LED
RED LED
BEEPER +
- D0
D1 L
1 L2
BZ
R1 R
1 R
1 R
1 R
1 R1
R1
RED
BLACK
GREEN
WHITE
BROWN
ORANGE
BLUE
SHIELD
+12V
0V
DATA 0
DATA 1
GREEN LED
RED LED
BEEPER
NC
CO
M N
O P
1 I3
I2 I1
DOOR CONTACTNORMALLY CLOSED
REQUEST TO EXITNORMALLY OPEN
+
-
ELECTRICLOCKING DEVICE
1N4007 DIODE(SUPPLIED)
-
+
BUZZERINPUT
ALARMOUTPUT
POWER SUPPLY12VDC
PRX-SAMINTERFACE
CONNECTIONS
NC
CO
M N
O P
1 I3
I2 I1
DOOR CONTACTNORMALLY CLOSED
REQUEST TO EXITNORMALLY OPEN
+
-
ELECTRICLOCKING DEVICE
1N4007 DIODE(SUPPLIED)
-
+
DB9RS232
POWER SUPPLY12VDC
PRX-SAMINTERFACE
CONNECTIONS
PIN 2RXD
PIN 3TXD
PIN 5GND
NC
CO
M N
O P
1 I3
I2 I1
DOOR CONTACTNORMALLY CLOSED
REQUEST TO EXITNORMALLY OPEN
+
-
ELECTRICLOCKING DEVICE
1N4007 DIODE(SUPPLIED)
-
+
RS485
POWER SUPPLY12VDC
PRX-SAMINTERFACE
CONNECTIONS
NA
NB
COM
NC
CO
M N
O P
1 I3
I2 I1
DOOR CONTACTNORMALLY CLOSED
REQUEST TO EXITNORMALLY OPEN
+
-
ELECTRICLOCKING DEVICE
1N4007 DIODE(SUPPLIED)
-
+
BUZZERINPUT
ALARMOUTPUT
POWER SUPPLY12VDC
PRX-SAMINTERFACE
CONNECTIONS
NC
CONNECTION SHOWNFOR LOCK RELAY 1
+
-
ELECTRICLOCKING DEVICE
1N4007 DIODE(SUPPLIED)
- +
POWER SUPPLY FOR LOCKINGDEVICES MAX 30VDC
1K 1K
N.C. ZONE CONTACT
N.C. TAMPER CONTACT
N.C.
ZONE INPUT
COMMON
AU
X A
UX
Z1 C
OM
Z2
Z3 C
OM
Z4
+ - D
OO
R1
RE
X1
SE
N1
RE
N1
RESISTORS SHOULD BELOCATED AT THE DEVICEATTACHED TO THE ZONE
ZONE INPUT SHOWNFOR ZONE 1
N.C. ZONE CONTACT
N.C.
ZONE INPUT
COMMON
AU
X A
UX
Z1 C
OM
Z2
Z3 C
OM
Z4
+ - D
OO
R1
RE
X1
SE
N1
RE
N1
ZONE INPUT SHOWNFOR ZONE 1
+ - D
0 D
1 L1 L
2 B
Z R
1 R1
R1
R1
R1 R
1 R
1
CONNECTION SHOWN FORPGM RDxxx:03
1K5 OHM
LED
+12V AUX1
2
3
4
5
6
7
8
ADDRESS 4
ADDRESS 8
ADDRESS 1
ADDRESS 2
ADDRESS 64
ADDRESS 16
ADDRESS 32
DEFAULT / RUN
1
2
3
4
ADDRESS 1
ADDRESS 2
ADDRESS 4
ADDRESS 8
READER EXPANDERADDRESS 079
5
6
7 ADDRESS 64
ADDRESS 16
ADDRESS 32
CROSSOVERDIRECT ETHERNET
CONNECTION
8 PORT ETHERNET HUBREADER EXPANDER
RJ45 ETHERNETCONNECTOR
READER EXPANDERRJ45 ETHERNET
CONNECTOR
MULTIPLE ETHERNETCONNECTIONS USING
A ETHERNET HUB
ET
HE
RN
ET
ET
HE
RN
ET
N+
N-
N
A
NB
N+
N-
N
A
NB
SYSTEM CONTROLLER SUPPLYING NETWORK
POWER
AU
X+
AU
X-
N+
N-
N
A
NB
NEXT MODULEON NETWORK
STANDARD ZONE EXPANDERS CONNECTED TO
THE SYSTEM CONTROLLERCOMMUNICATION INTERFACE USE
THE N+, N-, NA AND NB TERMIANLS.
N+
N
-
NA
N
B
MODULE NETWORKCOMMUNICATIONS
CROSSOVERDIRECT ETHERNET
CONNECTION
8 PORT ETHERNET HUB
SYSTEM CONTROLLERRJ45 ETHERNET
CONNECTOR
MULTIPLE ETHERNETCONNECTIONS USING
A ETHERNET HUB
ET
HE
RN
ET
ET
HE
RN
ET
SYSTEM CONTROLLER
RJ45 ETHERNETCONNECTOR
ET
HE
RN
ET
SYSTEM CONTROLLER
ONE
SYSTEM CONTROLLER
TWO
T2i
R2i
T
1i
R1
i T
1o R
1o
TELEPHONELINE CONNECTION
TERMINAL
COLD WATEREARTH PIPE
PRIMARY TELCOLINE OUT
PRIMARY TELCOLINE RING AND TIPINPUT (T1i and R1i)
SECONDARY TELCOLINE RING AND TIPINPUT (T2i and R2i)
N.C. ZONECONTACT
Z1
Z2
Z3 C
OM
Z5 Z
6 Z7
DR
1 R
EX
1 S
EN
1 D
R2 R
EX
2 SE
N2
N.C. TAMPER
1K1K
N.C. ZONECONTACT
Z1
Z2
Z3 C
OM
Z5 Z
6 Z7
DR
1 R
EX
1 S
EN
1 D
R2 R
EX
2 SE
N2
B1
+ B
1- B
2+
B2
- P3
P4
CONNECTION SHOWNFOR BELL/SIREN 1
CP001:01
+
-
12VDC SIRENWARNING DEVICE
B1
+ B
1- B
2+
B2
- P3
P4
CONNECTION SHOWNFOR CP001:03
1K5 OHM
LED
+12V AUX
350mA
700mA
L
H
FIRE
OVERRIDE FIRE
OVERRIDE
L
H
L
H
350mA
700mA
N+
N- N
A N
B
+1
2 0
V T
X R
X R
TS
N+
N- N
A N
B
AU
X
+ -
ACC-485 RS485CONVERTOR
SYSTEM CONTROLLERMODULE NETWORK CONNECTION
SYSTEM CONTROLLERAUXILLARY TERMINALS
USE SERIAL CABLE SUPPLIED WITHACC-485 TO CONNECT TO THE PC SERIAL PORT
+ - D
0 D
1 L1 L
2 B
Z R
1 R1
R1
R1
R1 R
1 R
1
CONNECTION SHOWN FORPROTÉGÉ SYSTEM
READER 1 PORTSINGLE LED READER CONTROL
RED
BLACK
GREEN
WHITE
BROWN
ORANGE
BLUE
SHIELD
CONNECT THE READERSHIELD TO A SUITABLE
EARTH POINT.DO NOT CONNECT THE
SHIELD TO A GROUND ORAUX- CONNECTION.
+12V
0V
PRX-NPROXNANO PROX
PROXIMITY READER
YELLOW
YELLOW OUTPUT CARD PRESENT SIGNAL
FACTORY OPTIONORANGE IS NOTUSED IN SINGLE LED OPERATION
N.O. BUTTON
+ - D
0 D
1 L1 L
2 B
Z R
1 R1
R1
R1
R1 R
1 R
1
CONNECTION SHOWN FORPROTÉGÉ SYSTEM
READER 1 PORTSINGLE LED READER CONTROL
WITH BUTTON INPUT CONNECTION
RED
BLACK
GREEN
WHITE
BROWN
ORANGE
BLUE
SHIELD
CONNECT THE READERSHIELD TO A SUITABLE
EARTH POINT.DO NOT CONNECT THE
SHIELD TO A GROUND ORAUX- CONNECTION.
+12V
0V
PRX-NPROXNANO PROX
PROXIMITY READER
YELLOW
YELLOW OUTPUT CARD PRESENT SIGNAL
FACTORY OPTIONORANGE IS USED
FOR BUTTON INPUT CONNECTION
N.O. BUTTON
+ - D
0 D
1 L1 L
2 B
Z R
1 R1
R1
R1
R1 R
1 R
1
CONNECTION SHOWN FORPROTÉGÉ SYSTEM
READER 1 PORT
YELLOW
GREEN
RED
BROWN
ORANGE
+5V
0V
CLOCK
DATA
OMRON READERMAGNETIC STRIPE READER
TRACK 2
OUT COM IN
INLINE +5V REGULATOR50mA MAX OUTPUTPART CODE REG-5V
+12V
0V
CLOCK
DATA
CARD PRESENT
REG-5V WIRING
RED = INPUT (+9 TO +12V)COM = 0V
WHITE = OUTPUT (+5V)
IMPORTANT NOTE
THE STANDARD OMRON/MAGTEK CARD READERS CAN HAVE AN INTERNAL MODIFICATION TO ALLOW THEM TO OPERATE FROM +12V WITHOUT THE
INLINE REGULATOR AS SHOWN IN THIS DIAGRAM. PLEASE CONTACT ICT FOR
FURTHER INFORMAITON.
FOR THE CONNECTION OF OTHER MAGNETIC CARD
DEVICES REFER TO MANUFACTURERS
INSTALLATION MANUAL
+ - D
0 D
1 L1 L
2 B
Z R
1 R1
R1
R1
R1 R
1 R
1
CONNECTION SHOWN FORPROTÉGÉ SYSTEM
READER 1 PORT
RED
BLACK
GREEN
WHITE
ORANGE
BROWN
BLUE
SHIELD
CONNECT THE READERSHIELD TO A SUITABLE
EARTH POINT.DO NOT CONNECT THE
SHIELD TO A GROUND ORAUX- CONNECTION.
+12V
0V
DATA 0
DATA 1
GREEN LED
RED LED
BEEPER
PRX-NANO NANO PROXPROXIMITY READER
OR WIEGAND READER
YELLOW
YELLOW OUTPUT CARD PRESENT SIGNAL
FACTORY OPTIONFOR OTHER PROXIMITY READER
CONNECTIONS REFER TO THE MANUFACTURERS
INSTALLATION MANUAL
4 CORE CONDUCTORBETWEEN READERAND CONTROLLER