Nidac Presco 1 Series User manual
1
N761
PRO2410
“Series 1”
Indoor/Outdoor 12 to 24V DC
Proximity Reader
Installation Manual
1
st
Edition
™
2
WARRANTY
Nidac Security Pty. Ltd. will repair or replace this product if
proven to be faulty (excluding accidental or malicious damage)
under the 36 month warranty offered from the date of purchase.
As Nidac Security Pty. Ltd. or its agents do not perform the final
installation, inspection or training in the use of this product, they
cannot be held liable for injury, loss or damage directly or
consequentially arising from the use or misuse of this product.
Presco™ is a registered Trade Mark belonging to Nidac Security
Pty. Ltd. The Presco™ system is protected by provisional and
pending patents in various countries including Australia.
The software design is protected internationally and remains the
intellectual property of Nidac Security Pty. Ltd.
Design improvement and specifications are subject to change
without notice. All designs are copyright 1992 - 2011.
Designed and Manufactured by:
NIDAC SECURITY PTY. LTD.
2 Cromwell Street
Burwood, Victoria Phone: 61 3 9808 6244
Australia 3125 Fax: 61 3 9808 9335
100%
“When you’re serious about security”
Revision 1.0 PRO2410 Series 1 Instructions.docx 3/11/11
3
OVERVIEW
The Presco™ PRO2410 Proximity Reader is an advanced, self
contained RFID (Radio Frequency IDentification) contactless
reader. It is capable of interfacing to either a Wiegand input
control panel or to Nidac’s range of Presco™ PAC decoders.
The encapsulation makes it suitable for outdoor environments
and the narrow styling makes the PRO2410 suitable for door
frame mounting as well as other mounting positions.
OPERATION
Connected to a Presco™ PAC decoder
The LED on the reader is red when ready to read a Presco™
prox card. When a card is presented to the front of the reader
the LED momentarily turns orange to indicate that the PRO2410
has read it. The code is then transmitted to the PAC decoder.
If the card is valid the PRO2410 will respond with 1 or 2 short
beeps and the LED will change to green (provided the blue wire
is connected as shown in the wiring diagram) for the time the
ELC relay is active (door is released).
If the card is invalid the PRO2410 will respond with a “blarp”
(long beep) and the LED will remain red.
Connected to a Wiegand controller
The LED on the reader is red when ready to read a Presco™
prox card. When a card is presented to the front of the reader
the LED momentarily turns orange and the internal buzzer gives
a short beep to indicate that the PRO2410 has read it. The code
is then transmitted to the Wiegand controller.
The LED can be made to change colour to green by the
controller applying negative signal (0 to 2V) to the violet wire or
a positive signal (2.5 to 28V) to the blue wire.
The buzzer can be made to sound by applying a negative signal
(0 to 2V) to the brown wire.
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SPECIFICATIONS
Voltage:- 8 to 28 Volts D.C.
Current:- 50mA max @ 8 Volts D.C.
35mA @ 12 Volts D.C.
20mA @ 24 Volts D.C.
Size:- 82.5mm x 43.7mm x 16.3mm.
Weight:- 80 grams.
Outputs:- 26 bit Wiegand,Pulse Width = 50s,
Pulse Separation = 2ms.
and Presco™ PAC decoder format.
Read Range:- Up to 11cm (4 ⅓”).
Wiring Distance:- PRO2410 to Presco™ PAC Decoder = 1Km.
Unshielded cable, 100max. return resistance
on DTA line. To achieve distances greater than
100m the PRO2410 may require a separate local
power supply depending upon the thickness of
the cable used.
PRO2410 to Wiegand controller, shielded
cable must be used.
Wire Gauge Wiegand Wiring Distance
22 AWG 150m (490 ft)
24 AWG 100m (330 ft)
26 AWG 60m (195 ft)
28 AWG 40m (130 ft)
Excitation Frequency:- 125 ± 5 KHz.
Operating Temperature:- 0C to 70C.
36 month (3 year) manufacturer’s warranty.
Designed and manufactured in Australia.
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WIRE COLOURS
Red - +8 to 28 Volts D.C.
Black - Ground (0 Volts).
Green - Wiegand Data 0.
Yellow - Wiegand Data 1.
Blue - Positive Green LED Control (2.5 to 28V to activate).
Violet - Negative Green LED Control (0 to 2V to activate).
Brown - Buzzer Control (0 to 2V to activate).
White - Presco™ PAC DTA line (connect to Ground when
using Wiegand).
Drain - Shield/Ground (connect to Ground at controller).
MOUNTING
Use the supplied mounting template to mark the cable entry and
two mounting holes. Note that the cable entry to the PRO2410
is in the centre.
DIMENSION DIAGRAMS
With Cover Without Cover
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WIRING DIAGRAMS
Connecting the PRO2410 to a Presco™ PAC decoder
Note that the Green, Yellow, Violet, Brown and Drain wires are
not connected when the PRO2410 is used with a PAC decoder.
* Use a 100mA inline fuse to protect the power supply from short
circuiting if the PRO2410 wires are tampered with. This is
particularly important when using fail safe (power to lock) locking
mechanisms.
Programming Prox cards & tags into a PAC decoder
To program a proximity card or tag into a PAC decoder follow
the same steps as shown in the decoder manual for
programming a new user code. When it comes to the stage to
enter the user code simply present the card or tag to the
PRO2410 that is connected to the same input as the
programming keypad, or alternatively enter the 9 digit code for
the proximity card, note that this code may contain star (*) and
hash (#) symbols and leading zeroes (0) do need to be entered.
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PAC1 Programming Example
This example uses a PAC1 decoder, programming a momentary
operation proximity card or tag into memory location 001.
1. Put the PAC1 into program mode using the management
code or button on the PAC1.
2. Using the PRE keypad connected to the PAC1, open the
memory location to store the Prox card in * 001 1 E
3. Present the proximity card or tag to the PRO2410.
4. Take the PAC1 decoder out of program mode.
Connecting the PRO2410 to a CS Technologies controller
Using Presco format CS controller
PRO2410 4 Door Controller 2 Door Controller
Door 1 Door 2 Door 3 Door 4 Door 1 Door 2
Red +12V +12V +12V +12V +12V +12V
Black Gnd Gnd Gnd Gnd Gnd Gnd
White IN1 IN3 IN5 IN7 IN1 IN3
Green - - - - - -
Yellow - - - - - -
Blue OU1 OU2 OU3 OU4 OU1 OU2
Violet - - - - - -
Brown - - - - - -
Drain - - - - - -
Using Wiegand format CS controller
PRO2410 4 Door Controller 2 Door Controller
Door 1 Door 2 Door 3 Door 4 Door 1 Door 2
Red +12V +12V +12V +12V +12V +12V
Black Gnd Gnd Gnd Gnd Gnd Gnd
White Gnd Gnd Gnd Gnd Gnd Gnd
Green IN1 IN3 IN5 IN7 IN1 IN3
Yellow IN2 IN4 IN6 IN8 IN2 IN4
Blue - - - - - -
Violet OU1 OU2 OU3 OU4 OU1 OU2
Brown - - - - - -
Drain Gnd Gnd Gnd Gnd Gnd Gnd
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Connecting the PRO2410 to a Wiegand controller
Note that the White wire is connected to GND (Black wire) at the
PRO2410, but the Drain is connected to GND at the Wiegand
controller.
Use a positive signal (2.5 to 28V) from the controller on the Blue
wire to change the LED colour to green.
Use a negative signal (0 to 2V) from the controller on the Violet
wire to change the LED colour to green.
Use a negative signal (0 to 2V) from the controller on the Brown
wire to sound the buzzer.
* If the controller does not provide a fused output for readers,
use a 100mA inline fuse to protect the power supply from short
circuiting if PRO2410 wires are tampered with.
This manual suits for next models
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