Integrated Control Technology 4060 Proximity Card Reader User Manual 4060 PRX NPROX

Integrated Control Technology Proximity Card Reader 4060 PRX NPROX

4060 PRX NPROX User Manual

Nano PROX
Proximity Card Reader
Installation Manual
1.0 Introduction
Thank you for choosing the Nano Prox Proximity Reader
from Integrated Control Technology. The Nano Prox
Proximity Reader is an advanced technology radio
frequency identification device (RFID) specifically designed
to enhance the functionality of security, building
automation and access control by providing multiple
format compatibility, high speed data transmission and
sabotage protection.
The Nano Prox Proximity Reader can be programmed to
perform and operate using different card and data output
formats. Therefore, before installing the Nano Prox
Proximity Reader, we highly recommend you read this
manual carefully and ensure that the data formats you
program will operate with the configured access control or
security product.
2.0 Configuration
By default the Nano Prox Proximity Reader is factory
configured to send data in 26 Bit Wiegand Format, read all
card formats and operate dual LED lines. This
configuration can be changed to suit system operating
requirements.
Programming is completed by presenting a programming
card to the unit within the first 2 minutes of power being
applied.
The programming card can only be presented
within the first 2 minutes from when the card
reader powers up.
Entering Program Mode
To program the Card Reader badge the programming card
once, the Card Reader will beep to indicate the card has
been read and then beep twice and illuminate the RED
LED to indicate programming mode has been entered.
Address Programming
To select an address to program the programming card is
presented to the card reader the number of times
matching the address number. For example to program
address three (Data Output) the programming card will be
presented to the card reader three times. The card reader
will then respond by beeping twice and flashing the RED
LED to indicate data entry mode has been entered.
Entering an address value that does not exist
or not entering any data when an address is
selected will result in the reader timing out.
Data Programming
To program a data value in the selected address location
the same method as the address programming is used.
Present the programming card to the reader the number
of times matching the data value or option for the selected
address. The card reader will then respond by beeping
twice indicating the data was programmed correctly and
return to the address selection mode. An invalid entry will
result in a long tone being generated. The data can be
entered again or allow to timeout to select another
address.
3.0 Programming Address
The default configuration setting of each address is shown
in bold text.
Address 1 - Card/Tag Format
The card transponder format defines how the Nano Prox
will decode cards and tags.
Setting Function
1 Reader all card tag types.
2 ICT Prox Format
3 Postech Format
4 HID Format
5 ICT and HID Format
6 ICT and Postech Format
7 Postech and HID Format
Address 2 - Data Interface Format
The data interface format defines how the data is sent
using the DO and D1 data interface.
Setting Function
1 26 Bit Wiegand Format
2 34 Bit Wiegand Format
3 37 Bit Wiegand Format
4 37 Bit Wiegand Alternate Format
5 Card Defined Wiegand Format
Address 3 - LED Control Configuration
The LED Control Configuration settings allow the LED lines
to operate in either multiple LED or single LED control.
Setting Function
1 Dual LED Input
Red LED control line controls Red
LED. Green LED control line controls
Green LED.
2 Red LED Always On
Red LED control line will turn Red LED off
and Green LED on.
3 Green LED Always On
Red LED control line will turn Green LED
off and Red LED on.
Address 4 - Intelligent Reader Tamper Mode
Enabling the intelligent reader tamper mode will force the
Nano Prox reader to check in to the device it is connected
to every 30 seconds.
Setting Function
1 Disabled
2 Enabled
Only enable Intelligent Reader Tamper Mode if
the access control system or reader interface
supports intelligent tamper operation.
Address 5 - External Button Input
Enabling the external button input mode requires the Nano
Prox to be configured in Single LED Mode Operation. This
allows the second LED input to be used as a multiple
function input for Area Arming, Request to Exit and
Request to Enter buttons.
Setting Function
1 Disabled
2 Enabled
Only enable the External Button Input Mode if
the Nano Prox is connected using the single
LED control lines.
4.0 Mounting
When mounting the Nano Prox Proximity Reader please
respect the following guidelines.
Avoid wiring the Nano Prox cables in the same conduit
with AC power cables, lock power, or signal wiring.
Maintain all reader wiring a minimum of 12" (30cm)
away from other wiring such as AC power, computer
data wiring, telephone wiring and wiring to electric lock
devices.
Avoid installing within 3.5 feet (1.1m) of computer
monitors or CRTs. The minimum distance will vary
depending on the type of monitor or CRT.
Avoid installing in proximity to sources of broad
spectrum EMI noise such as motors, pumps,
generators, DC to AC converters, uninterruptible power
supplies, AC switching relays, light dimmers, computer
monitors and CRTs.
Avoid installing in proximity to potential sources of high
power RF signal transmitters such as cellular
telephones and two way radios.
5.0 Wiring Connection
Two wiring methods can be used. Dual LED operation
allows the signalling of both LED's independently using the
LED control lines. Single LED allows a single LED line to
control both LED colours.
Figure 1 - Dual LED Connection
Figure 2 - Single LED Connection
Using the recommended cables listed in the technical
specifications in section 7, splice these cables together
with the pigtail of the reader and seal the splice. Route the
cable from the reader to the host controller. Connect the
cables as shown in Figure 1 for Dual LED Operation or
Figure 2 for Single LED Operation.
Do not connect the shield wires together at the
reader cable splice. With the shield wire
already terminated at the reader terminate the
shield at the controller. For more information
refer to Figure 1 and Figure 2.
6.0 Button Input Wiring Connection
Button input wiring configuration is shown in Figure 2. For
programming options refer to the Protégé System Manual.
Figure 3 - Button Input Wiring
Connect a normally open button or switch as shown in
figure 2 and complete the programming within the Protégé
Integrated System for the functionality required.
External Button Input Mode and single LED
operation must be enabled when using this
wiring configuration.
7.0 Specifications
Power Supply
Voltage 12VDC (9.5 - 14.0VDC)
Current 120mA (Peak, Reading)
Read Range
Card Up to 10cm (4")
Tag Up to 6cm (2.5")
Interface
Wiegand Multiple Format 26, 34, 37 Bit
Data 0 and Data 1
Distance 150 Meters (500 feet)
Frequency
Field 125KHz Pulse Width Modulated
Cable Type
Multi Conductor 22Awg Alpha 5196, 5198
18Awg Alpha 5386, 5388
18Awg Beldon 9553
Temperature
Operating -35˚- +65˚ Celsius
-31˚ - 149˚ Fahrenheit
*Specifications are subject to change without notice,
please visit www.integratedcontroltechnology.com for the
updated information. Read range is specified using an ICT
card format and the card is presented parallel to the
reader using installation procedures detailed in this
manual without any electrical interference present.

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