Chatsworth Products R.F. Mote Electronic Locking Swing Handle User manual
3525 Installation Instructions (Continued)
2
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
1. Assemble handle according to the proper handing
required.
2. Rotation Limiter and Bottom Mounting bracket
determine handing.
3. If existing cam or rod mechanism are installed on
original handle remove and install on new handle.
4. Ensure the proper cutout in the door. (See Fig. 1)
5. Install handle though cutout and install top & bottom
mounting brackets.
6. Install wiring harness and route to hinge side of door
securing in place to ensure that nothing will bind or
catch.
7. Proceed to wiring. (See Fig. 2)
Handle Mounting
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
Rotation Limiter
Viewed from back.
Handle rotation is counter
clockwise from front.
Bottom Mounting Bracket
Viewed from back.
Key rotation is counter
clockwise from front.
Rotation Limiter
Viewed from back.
Handle rotation is
clockwise from front.
Bottom Mounting Bracket
Viewed from back.
Key rotation is clockwise
from front.
NOTE:
* 1) Cut-out dimensions.
2) Handing is determined by rotation
limiter and bottom mounting bracket.
Fig. 1
Rotation Limiter
CAM
Top Mounting
Bracket
CAM Bolt
M3x14mm Screw
(1 place)
M3x25mm Screw
(4 places)
5.9” *
150mm
1” *
25mm
Bottom
Mounting Bracket
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
3525 Installation Instructions (Continued)
2
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
1. Assemble handle according to the proper handing
required.
2. Rotation Limiter and Bottom Mounting bracket
determine handing.
3. If existing cam or rod mechanism are installed on
original handle remove and install on new handle.
4. Ensure the proper cutout in the door. (See Fig. 1)
5. Install handle though cutout and install top & bottom
mounting brackets.
6. Install wiring harness and route to hinge side of door
securing in place to ensure that nothing will bind or
catch.
7. Proceed to wiring. (See Fig. 2)
Handle Mounting
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
Rotation Limiter
Viewed from back.
Handle rotation is counter
clockwise from front.
Bottom Mounting Bracket
Viewed from back.
Key rotation is counter
clockwise from front.
Rotation Limiter
Viewed from back.
Handle rotation is
clockwise from front.
Bottom Mounting Bracket
Viewed from back.
Key rotation is clockwise
from front.
NOTE:
* 1) Cut-out dimensions.
2) Handing is determined by rotation
limiter and bottom mounting bracket.
Fig. 1
Rotation Limiter
CAM
Top Mounting
Bracket
CAM Bolt
M3x14mm Screw
(1 place)
M3x25mm Screw
(4 places)
5.9” *
150mm
1” *
25mm
Bottom
Mounting Bracket
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
3525 Installation Instructions (Continued)
2
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
1. Assemble handle according to the proper handing
required.
2. Rotation Limiter and Bottom Mounting bracket
determine handing.
3. If existing cam or rod mechanism are installed on
original handle remove and install on new handle.
4. Ensure the proper cutout in the door. (See Fig. 1)
5. Install handle though cutout and install top & bottom
mounting brackets.
6. Install wiring harness and route to hinge side of door
securing in place to ensure that nothing will bind or
catch.
7. Proceed to wiring. (See Fig. 2)
Handle Mounting
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
Rotation Limiter
Viewed from back.
Handle rotation is counter
clockwise from front.
Bottom Mounting Bracket
Viewed from back.
Key rotation is counter
clockwise from front.
Rotation Limiter
Viewed from back.
Handle rotation is
clockwise from front.
Bottom Mounting Bracket
Viewed from back.
Key rotation is clockwise
from front.
NOTE:
* 1) Cut-out dimensions.
2) Handing is determined by rotation
limiter and bottom mounting bracket.
Fig. 1
Rotation Limiter
CAM
Top Mounting
Bracket
CAM Bolt
M3x14mm Screw
(1 place)
M3x25mm Screw
(4 places)
5.9” *
150mm
1” *
25mm
Bottom
Mounting Bracket
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
INSTALLATION
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
3525PRX
3525 Electromechanical Data Rack Handle
Lock with Proximity Reader
IS3525PRX PCN15063
R11/15GR
Specifications
Package Contents
•3525PRX Electromechanical Data Rack Handle Lock with
Proximity Reader
•M3x25 Mounting Screws (qty 4)
•M3x14 Mounting Screw (qty 1)
•Rotation Limiter (qty 1)
•Cam Bolt (qty 1)
•Top Mounting Bracket (qty 1)
•Bottom Mounting Bracket (qty 1)
•Installation Instructions (qty 1)
Actuator Module
Supply
Voltage
12VDC to 24VDC (NOTE: Status LED will blink red if the
supply voltage is out of range.)
Standby
Current 50mA maximum at 12VDC
Operating
Current
200mA maximum at 12VDC (with no external mechanical
load applied to handle)
Stall Current 1A maximum at 12VDC (limited to 2 seconds)
Operating
Transit Time
1 second maximum (NOTE: Power must be present
during transit times. If power is removed while the lock
slide is in transit, it will complete it’s cycle when power
is restored.)
Electronic
Unlock Time 3 seconds minimum
Open
Collector
Outputs
Rated for supply voltage, maximum load
Alarm Outputs 100mA/ output maximum
Fig. 1
Data Rack Handle
Proximity Reader
Tri-Color Status LED
Lock Plug
Proximity Reader Module
Voltage 12VDC to 24VDC
Operating
Current 20mA maximum
Transmit
Frequency 125kHz
DATA Signal
Voltage 5VDC
DATA Pulse
Interval Time 40µs
DATA Signal
Delay 2ms
3525PRX
Overall
Dimensions
8-1/4” H x 1-15/32” W x 2-1/8” D
(210 x 37 x 54.3mm)
INSTALLATION
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
3525PRX
3525 Electromechanical Data Rack Handle
Lock with Proximity Reader
IS3525PRX PCN15063
R11/15GR
Specifications
Package Contents
•3525PRX Electromechanical Data Rack Handle Lock with
Proximity Reader
•M3x25 Mounting Screws (qty 4)
•M3x14 Mounting Screw (qty 1)
•Rotation Limiter (qty 1)
•Cam Bolt (qty 1)
•Top Mounting Bracket (qty 1)
•Bottom Mounting Bracket (qty 1)
•Installation Instructions (qty 1)
Actuator Module
Supply
Voltage
12VDC to 24VDC (NOTE: Status LED will blink red if the
supply voltage is out of range.)
Standby
Current 50mA maximum at 12VDC
Operating
Current
200mA maximum at 12VDC (with no external mechanical
load applied to handle)
Stall Current 1A maximum at 12VDC (limited to 2 seconds)
Operating
Transit Time
1 second maximum (NOTE: Power must be present
during transit times. If power is removed while the lock
slide is in transit, it will complete it’s cycle when power
is restored.)
Electronic
Unlock Time 3 seconds minimum
Open
Collector
Outputs
Rated for supply voltage, maximum load
Alarm Outputs 100mA/ output maximum
Fig. 1
Data Rack Handle
Proximity Reader
Tri-Color Status LED
Lock Plug
Proximity Reader Module
Voltage 12VDC to 24VDC
Operating
Current 20mA maximum
Transmit
Frequency 125kHz
DATA Signal
Voltage 5VDC
DATA Pulse
Interval Time 40µs
DATA Signal
Delay 2ms
3525PRX
Overall
Dimensions
8-1/4” H x 1-15/32” W x 2-1/8” D
(210 x 37 x 54.3mm)
INSTALLATION
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
3525PRX
3525 Electromechanical Data Rack Handle
Lock with Proximity Reader
IS3525PRX PCN15063
R11/15GR
Specifications
Package Contents
•3525PRX Electromechanical Data Rack Handle Lock with
Proximity Reader
•M3x25 Mounting Screws (qty 4)
•M3x14 Mounting Screw (qty 1)
•Rotation Limiter (qty 1)
•Cam Bolt (qty 1)
•Top Mounting Bracket (qty 1)
•Bottom Mounting Bracket (qty 1)
•Installation Instructions (qty 1)
Actuator Module
Supply
Voltage
12VDC to 24VDC (NOTE: Status LED will blink red if the
supply voltage is out of range.)
Standby
Current 50mA maximum at 12VDC
Operating
Current
200mA maximum at 12VDC (with no external mechanical
load applied to handle)
Stall Current 1A maximum at 12VDC (limited to 2 seconds)
Operating
Transit Time
1 second maximum (NOTE: Power must be present
during transit times. If power is removed while the lock
slide is in transit, it will complete it’s cycle when power
is restored.)
Electronic
Unlock Time 3 seconds minimum
Open
Collector
Outputs
Rated for supply voltage, maximum load
Alarm Outputs 100mA/ output maximum
Fig. 1
Data Rack Handle
Proximity Reader
Tri-Color Status LED
Lock Plug
Proximity Reader Module
Voltage 12VDC to 24VDC
Operating
Current 20mA maximum
Transmit
Frequency 125kHz
DATA Signal
Voltage 5VDC
DATA Pulse
Interval Time 40µs
DATA Signal
Delay 2ms
3525PRX
Overall
Dimensions
8-1/4” H x 1-15/32” W x 2-1/8” D
(210 x 37 x 54.3mm)
Package Contents:
• Electromechanical Swing Handle with Proximity Reader
• M3 x 25mm Long Mounting Screws (qty 4)
• M3 x 14mm Long Mounting Screw (qty 1)
• Rotation Limiter
• Cam Bolt
• Top Mounting Bracket
• Bottom Mounting Bracket
• Installation Instructions
• Keys
Handle Mounting:
1. Assemble handle according to the proper handing required.
2. Rotation Limiter and Bottom Mounting bracket determine handing.
3. If existing cam or rod mechanism are installed on original handle
remove and install on new handle.
4. Ensure the proper cutout in the door (See Fig.1).
5. Install handle though cutout and install top & bottom mounting
brackets.
6. Install wiring harness and route to hinge side of door securing in
place to ensure that nothing will bind or catch.
7. Proceed to wiring (See Fig.2).
Rotation Limiter
Viewed from back.
Handle rotation is anti-
clockwise from front.
Rotation Limiter
Viewed from back.
Handle rotation is
clockwise from front.
Bottom Mounting Bracket
Viewed from back.
Key rotation is anti-clockwise
from front
Bottom Mounting Bracket
Viewed from back.
Key rotation is clockwise from
front
Note:
Handle rotation is determined by rotating
limiter and bottom mounting bracket
Handle
Key Cylinder
Tri-Colour
LED Indicator
Proximity
Reader
Electronic Locking Swing Handle - Installation
v.160511v.160511
1-905-884-5250
www.rfmote.com
3
3525PRX Installation Instructions (Continued)
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
Wiring
The 3525PRX contains two separate
functional modules:
The proximity module reads the
contents of a compatible proximity
cards and converts it to Wiegand
format.
The actuator module controls and
monitors the locking function of the
swinghandle.
These two modules operate
independently of each other and
require connection to an access
control unit (not provided), to be fully
functional.
The proximity reader module of the swinghandle is accessed with a
four pin connector attached to a harness connected to the module’s circuit
board. The module’s connector pinout is:
Wire Color Description Note
Black GND ground
Red Positive 12 to 24VDC power supply input
Green DATA0 DATA0 output
White DATA1 DATA1 output
The actuator module of the swinghandle is accessed with a six pin
connector on the rear of the unit, shown below.
Wire Color Description Note
Black GND ground
Red Positive 12 to 24 VDC power supply input
Pin 3 N/C no connect
Orange Input Trigger command input (9VDC up to
supply voltage, 100 milliseconds
minimum)
Brown Electronic
Lock Status
open collector output (sink to
ground, 100mA max. load)
Blue Mechanical
Lock Status
open collector output (sink to
ground, 100mA max. load)
Input Trigger
This signal is used to control the electronic lock slide position.
For UNLOCKED position: Supply 9VDC minimum (do not exceed supply
voltage) for at least 100 milliseconds. The lock will remain unlocked for as
long as the signal is present, or a minimum of 3 seconds.
Signal timing can typically be adjusted through the access control device.
The input trigger current draw is less than 10mA.
Electronic Lock Status Output Signal
This output will provide a 100mA MAX sink to GND when the lock slide is
electromechanically moved to the unlocked position.
Mechanical Lock Status Output Signal
This output will provide a 100mA MAX sink to GND when the handle is in
the open position or when the keylock in the actuator is manually unlocked.
NOTE: These outputs are open collector outputs rated for input voltage
with a maximum load of 100mA. To avoid damage to the 3525PRX, do not
exceed voltage and current ratings.
Positive Red
GND Black
DATA1 White
DATA0 Green
Positive Red
GND Black
Input Trigger
Electronic Lock Status
Mechanical Lock Status
Fig. 4
3
3525PRX Installation Instructions (Continued)
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
Wiring
The 3525PRX contains two separate
functional modules:
The proximity module reads the
contents of a compatible proximity
cards and converts it to Wiegand
format.
The actuator module controls and
monitors the locking function of the
swinghandle.
These two modules operate
independently of each other and
require connection to an access
control unit (not provided), to be fully
functional.
The proximity reader module of the swinghandle is accessed with a
four pin connector attached to a harness connected to the module’s circuit
board. The module’s connector pinout is:
Wire Color Description Note
Black GND ground
Red Positive 12 to 24VDC power supply input
Green DATA0 DATA0 output
White DATA1 DATA1 output
The actuator module of the swinghandle is accessed with a six pin
connector on the rear of the unit, shown below.
Wire Color Description Note
Black GND ground
Red Positive 12 to 24 VDC power supply input
Pin 3 N/C no connect
Orange Input Trigger command input (9VDC up to
supply voltage, 100 milliseconds
minimum)
Brown Electronic
Lock Status
open collector output (sink to
ground, 100mA max. load)
Blue Mechanical
Lock Status
open collector output (sink to
ground, 100mA max. load)
Input Trigger
This signal is used to control the electronic lock slide position.
For UNLOCKED position: Supply 9VDC minimum (do not exceed supply
voltage) for at least 100 milliseconds. The lock will remain unlocked for as
long as the signal is present, or a minimum of 3 seconds.
Signal timing can typically be adjusted through the access control device.
The input trigger current draw is less than 10mA.
Electronic Lock Status Output Signal
This output will provide a 100mA MAX sink to GND when the lock slide is
electromechanically moved to the unlocked position.
Mechanical Lock Status Output Signal
This output will provide a 100mA MAX sink to GND when the handle is in
the open position or when the keylock in the actuator is manually unlocked.
NOTE: These outputs are open collector outputs rated for input voltage
with a maximum load of 100mA. To avoid damage to the 3525PRX, do not
exceed voltage and current ratings.
Positive Red
GND Black
DATA1 White
DATA0 Green
Positive Red
GND Black
Input Trigger
Electronic Lock Status
Mechanical Lock Status
Fig. 4
3
3525PRX Installation Instructions (Continued)
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
Wiring
The 3525PRX contains two separate
functional modules:
The proximity module reads the
contents of a compatible proximity
cards and converts it to Wiegand
format.
The actuator module controls and
monitors the locking function of the
swinghandle.
These two modules operate
independently of each other and
require connection to an access
control unit (not provided), to be fully
functional.
The proximity reader module of the swinghandle is accessed with a
four pin connector attached to a harness connected to the module’s circuit
board. The module’s connector pinout is:
Wire Color Description Note
Black GND ground
Red Positive 12 to 24VDC power supply input
Green DATA0 DATA0 output
White DATA1 DATA1 output
The actuator module of the swinghandle is accessed with a six pin
connector on the rear of the unit, shown below.
Wire Color Description Note
Black GND ground
Red Positive 12 to 24 VDC power supply input
Pin 3 N/C no connect
Orange Input Trigger command input (9VDC up to
supply voltage, 100 milliseconds
minimum)
Brown Electronic
Lock Status
open collector output (sink to
ground, 100mA max. load)
Blue Mechanical
Lock Status
open collector output (sink to
ground, 100mA max. load)
Input Trigger
This signal is used to control the electronic lock slide position.
For UNLOCKED position: Supply 9VDC minimum (do not exceed supply
voltage) for at least 100 milliseconds. The lock will remain unlocked for as
long as the signal is present, or a minimum of 3 seconds.
Signal timing can typically be adjusted through the access control device.
The input trigger current draw is less than 10mA.
Electronic Lock Status Output Signal
This output will provide a 100mA MAX sink to GND when the lock slide is
electromechanically moved to the unlocked position.
Mechanical Lock Status Output Signal
This output will provide a 100mA MAX sink to GND when the handle is in
the open position or when the keylock in the actuator is manually unlocked.
NOTE: These outputs are open collector outputs rated for input voltage
with a maximum load of 100mA. To avoid damage to the 3525PRX, do not
exceed voltage and current ratings.
Positive Red
GND Black
DATA1 White
DATA0 Green
Positive Red
GND Black
Input Trigger
Electronic Lock Status
Mechanical Lock Status
Fig. 4
Wiring:
1. Red & Black are 12 to 24 VDC input voltage.
2. Orange is a positive input with a Normally Open Switch.
The lock will unlock for a minimum of 3 seconds on a momentary
activation (50 millisecond min.) or remain unlocked as long as the
circuit is closed
3. Blue is an alarm that will activate when the key is used to unlock
the cabinet or anytime the handle is not seated and locked.
4. Brown is an alarm that will activate when the lock is electrically
activated and will remain on until the lock electrically relocks.
3525 Installation Instructions (Continued)
3
Wiring
1. Red & Black are 12 to 24 VDC input voltage.
2. Orange is a positive input with a Normally Open
Switch. The lock will unlock for a minimum of 3
seconds on a momentary activation (50 millisecond
min.) or remain unlocked as long as the circuit is
closed.
3. Yellow is an alarm that will activate when the key is
used to unlock the cabinet or anytime the handle is
not seated and locked.
4. Brown is an alarm that will activate when the lock is
electrically activated and will remain on until the lock
electrically relocks.
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
Fig. 2
RED: Postive
BLACK: Negative
ORANGE: Activation Trigger
YELLOW: 100mA Output for Alarm
BROWN: 100mA Output for Alarm
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
12~24 VDC
POWER SUPPLY
BLACK
RED
ORANGE
YELLOW
100mA MAX
BROWN
100mA MAX
Fig. 2a
Lock Status Latch LED Alarm Wires
Secure Steady Blue Inactive
Electrically
Released
Blue/ Magenta
Flashing Brown Active
Mechanically
Released Blue Flashing Yellow Active
Handle Not Fully
Closed
Blue/Red
Flashing
Yellow/Brown
Active
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
NOTE: The lock sensor is an optical device that senses the
presence of the locking cam.
Reflectivity of the locking cam material can affect sensing.
Keyed cylinder can affect sensing.
Removal of the factory installed keyed cylinder will
void warranty.
RED: Positive
BLK: Negative
ORG : Activation Trigger
BLU: 100mA Output for Alarm
BRN: 100mA Output for Alarm
Note:
The lock sensor is an optical device that senses the
presence of the locking cam.
Reflectivity of the locking cam material can affect sensing.
Keyed cylinder can affect sensing.
Removal of the factory installed keyed cylinder will void warranty.
3525PRX Installation Instructions (Continued)
4
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
Wiring (Continued)
1. Red & Black are 12 to 24 VDC input voltage.
2. Orange is a positive input with a Normally Open Switch. The lock
will unlock for a minimum of 3 seconds on a momentary activation
(50 millisecond minimum) or remain unlocked as long as the
circuit is closed.
3. Blue is an alarm that will activate when the key is used to unlock
the cabinet or anytime the handle is not seated and locked.
4. Brown is an alarm that will activate when the lock is electrically
activated and will remain on until the lock electrically relocks.
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
Fig. 5
RED: Postive
BLACK: Negative
ORANGE: Activation Trigger
BLUE: 100mA Output for Alarm
BROWN: 100mA Output for Alarm
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
12~24 VDC
POWER SUPPLY
BLACK
RED
ORANGE
BLUE
100mA MAX
BROWN
100mA MAX
Fig. 6
Lock Status Latch LED Alarm Wires
Secure Steady Blue Inactive
Electrically
Released
Blue/ Magenta
Flashing Brown Active
Mechanically
Released Blue Flashing Blue Active
Handle Not Fully
Closed
Blue/Red
Flashing Blue/Brown Active
Supply Voltage
out of spec Flashing Red N/A
NOTE: The lock sensor is an optical device that senses the presence
of the locking cam.
Reflectivity of the locking cam material can affect sensing.
Keyed cylinder can affect sensing.
Removal of the factory installed keyed cylinder will void
warranty.
FCC Compliance Statement
This equipment has been tested and found to comply with the limits
for a Class B digital device, pursuant to part 15 of the FCC rules.
These limits are designed to provide reasonable protection against
harmful interference in a residential installation. This equipment
generates, uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instructions, may cause
harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or television
reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or
more of the following measures:
•Reorient or relocate the receiving antenna.
•Increase the separation between the equipment & receiver.
•Connect the equipment into an outlet on a circuit different from
that to which the receiver is connected.
•Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: This device complies with Part 15 of the FCC Rules.
Operation is subject to the following two conditions:
1. This device may not cause harmful interference and
2. This device must accept any interference received, including
interference that may cause undesired operation.
RF Exposure Warning: The equipment complies with RF exposure
limits set forth for an uncontrolled environment. The antenna(s) used
for this transmitter must not be co-located or operating in conjunction
with any other antenna or transmitter.
You are cautioned that changes or modifications not expressly
approved by the party responsible for compliance could void your
authority to operate the equipment.
Industry Canada Compliance Statement
This digital apparatus does not exceed the Class B limits for radio
noise emissions from digital apparatus as set out in the interference-
causing equipment standard entitled “Digital Apparatus,” ICES-003 of
Industry Canada.
Cet appareil numérique respecte les limites de bruits radioélectriques
applicables aux appareils numériques de Classe B prescrites dans la
norme sur le material brouilleur: “Appareils Numériques,” NMB-003
édictée par l’Industrie.
3525PRX Installation Instructions (Continued)
4
© 2015 RUTHERFORD CONTROLS INT’L | A DORMA GROUP COMPANY
WWW.RUTHERFORDCONTROLS.COM • PHONE: 1.800.265.6630 • FAX: 1.800.482.9795 • E-MAIL: [email protected]
Wiring (Continued)
1. Red & Black are 12 to 24 VDC input voltage.
2. Orange is a positive input with a Normally Open Switch. The lock
will unlock for a minimum of 3 seconds on a momentary activation
(50 millisecond minimum) or remain unlocked as long as the
circuit is closed.
3. Blue is an alarm that will activate when the key is used to unlock
the cabinet or anytime the handle is not seated and locked.
4. Brown is an alarm that will activate when the lock is electrically
activated and will remain on until the lock electrically relocks.
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
Fig. 5
RED: Postive
BLACK: Negative
ORANGE: Activation Trigger
BLUE: 100mA Output for Alarm
BROWN: 100mA Output for Alarm
RED - 12/24 VDC POSITIVE
BLACK - 12/24 VDC NEGATIVE
YELLOW - 200 mA OUTPUT FOR ALARM
WHITE - ACTIVATION TRIGGER
BROWN - 200 mA OUTPUT FOR ALARM
+
-
VIEWED FROM BACK
KEY ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
KEY ROTATION IS CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS COUNTER CLOCKWISE
FROM FRONT
VIEWED FROM BACK
HANDLE ROTATION IS CLOCKWISE
FROM FRONT
12~24 VDC
POWER SUPPLY
BLACK
RED
ORANGE
BLUE
100mA MAX
BROWN
100mA MAX
Fig. 6
Lock Status Latch LED Alarm Wires
Secure Steady Blue Inactive
Electrically
Released
Blue/ Magenta
Flashing Brown Active
Mechanically
Released Blue Flashing Blue Active
Handle Not Fully
Closed
Blue/Red
Flashing Blue/Brown Active
Supply Voltage
out of spec Flashing Red N/A
NOTE: The lock sensor is an optical device that senses the presence
of the locking cam.
Reflectivity of the locking cam material can affect sensing.
Keyed cylinder can affect sensing.
Removal of the factory installed keyed cylinder will void
warranty.
FCC Compliance Statement
This equipment has been tested and found to comply with the limits
for a Class B digital device, pursuant to part 15 of the FCC rules.
These limits are designed to provide reasonable protection against
harmful interference in a residential installation. This equipment
generates, uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instructions, may cause
harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or television
reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or
more of the following measures:
•Reorient or relocate the receiving antenna.
•Increase the separation between the equipment & receiver.
•Connect the equipment into an outlet on a circuit different from
that to which the receiver is connected.
•Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: This device complies with Part 15 of the FCC Rules.
Operation is subject to the following two conditions:
1. This device may not cause harmful interference and
2. This device must accept any interference received, including
interference that may cause undesired operation.
RF Exposure Warning: The equipment complies with RF exposure
limits set forth for an uncontrolled environment. The antenna(s) used
for this transmitter must not be co-located or operating in conjunction
with any other antenna or transmitter.
You are cautioned that changes or modifications not expressly
approved by the party responsible for compliance could void your
authority to operate the equipment.
Industry Canada Compliance Statement
This digital apparatus does not exceed the Class B limits for radio
noise emissions from digital apparatus as set out in the interference-
causing equipment standard entitled “Digital Apparatus,” ICES-003 of
Industry Canada.
Cet appareil numérique respecte les limites de bruits radioélectriques
applicables aux appareils numériques de Classe B prescrites dans la
norme sur le material brouilleur: “Appareils Numériques,” NMB-003
édictée par l’Industrie.
RF Exposure Warning: The equipment complies with RF exposure limits set forth for an
uncontrolled environment. The antenna(s) used for this transmitter must not be co-located
or operating in conjunction with any other antenna or transmitter.
You are cautioned that changes or modifications not expressly approved by the party
responsible for compliance could void your authority to operate the equipment.
Industry Canada Compliance Statement
This digital apparatus does not exceed the Class B limits for radio noise emissions from digital
apparatus as set out in the interference-causing equipment standard entitled “Digital Apparatus,”
ICES-003 of Industry Canada.
Cet appareil numerique respecte les limites de bruits radioelectriques applicables aux appareils
numeriques de Classe B prescrites dans la norme sur le material brouilleur: “Apparels Numeriques,”
NMB-003 edictée par l‘industrie.
FCC Compliance Statement
This equipment has been tested and found to comply with the limits for a Class
B digital device, pursuant to part 15 of the FCC rules. These limits are designed
to provide reasonable protection against harmful interference in a residential
installation. This equipment generates, uses and can radiate radio frequency
energy and, if not installed and used in accordance with the instructions, may
cause harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If this
equipment does cause harmful interference to radio or television reception, which
can be determined by turning the equipment off and on, the user is encouraged to
try to correct the interference by one or more of the following measures:
• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment & receiver.
• Connect the equipment into an outlet on a circuit different from that to which
the receiver is connected.
• Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: This device complies with Part 15 of the FCC Bules.
Operation is subject to the following two conditions:
1. This device may not cause harmful interference and
2. This device must accept any interference received, including
interference that may cause undesired operation.
Each unit contains two separate functional modules:
1. The proximity module reads the contents of a compatible
proximity cards and converts it to Wiegand format.
2. The actuator module controls and monitors the locking
function of the swinghandle.
These two modules operateindependently of each other and
require connection to an access control unit (not provided),
to be fully functional.
The proximity reader module of the swinghandle is accessed with a
four pin connector attached to a harness connected to the module‘s
circuit board. The module’s connector pinout is:
Electronic Locking Swing Handle - Installation
v.160511v.160511
1-905-884-5250
www.rfmote.com
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