DE6260
1
TAG
TAG
TAG
TAG----IN
IN
IN
IN----A
A
A
A----BAG
BAG
BAG
BAG
Single door RF/ID Proximity Access Control Unit
Installation and Programming
1
11
1. INTRODUCTION
. INTRODUCTION
. INTRODUCTION
. INTRODUCTION
The TIAB (Tag-in-a-Bag
) is a versatile weather-resistant proximity
access control unit (fig. 1), designed to limit access to restricted
areas, while permitting authorized people to enter. This product is
the best in its class - using state-of-the-art proximity (non-contact)
RF/ID technology. It was designed to serve your customers’
needs, while making installation and use simple and easy.
The TIAB control unit includes a keypad with an internal proximity
reader and a display, that provide full access control operation.
The TIAB control unit can be programmed to offer one of two
security levels for opening the door:
•
Level 1 (default): Valid tag only.
•
Level 2: Valid tag and PIN (Personal Identification Number)
code.
The TIAB control unit transmits 125 kHz RF signal. A valid
proximity tag (fig. 3), presented to the control unit or to the
optional external reader (fig. 2), transmits a coded RF signal back
to the TIAB control unit, causing it to energize an output relay.
The optional external reader is designed for installations in which
an additional reader is required. It is connected to the TIAB
control unit via 4 wires.
The TIAB control unit is installed adjacent to the secured door’s
frame. It is connected to the door’s EMS (Electro-Magnetic Strike)
or magnetic lock and operates by either a 12V DC or AC power
supply. The TIAB control unit includes internal non-volatile
memory, unaffected by power failure. The internal memory stores
data of up to 250 tags and PIN codes (used for security level 2
only). Each PIN is composed of 4 digits.
Figure 1.
TIAB Keypad
Figure 2.
RDR-1B External Reader
The proximity tags (fig. 3) are
totally sealed and do not require
any maintenance.
The tags are powered from the RF
signal transmitted from the TIAB
control unit.
Figure 3.
TAG-1 Key
In a case of loss or theft of a tag, the tag data can be easily
deleted from the TIAB control unit memory list.
The standard TIAB package includes 10 user tags. Additional
tags are available.
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22
2. SPECIFICATIONS
. SPECIFICATIONS
. SPECIFICATIONS
. SPECIFICATIONS
Power input:
12-16V DC or 9-12V AC
Max. Current Consumption:
200 mA (excluding EMS current).
Operating temperature:
-20°C to 50°C (-4°F to 122°F).
TIAB CONTROL UNIT
Display:
2 x 7 segments and 3 LEDs.
Buttons:
12 (numeric keypad).
Memory capacity:
250 tag codes.
Tag reading range:
50 - 100 mm (2 -4 in.)
Internal tag reader frequency:
125 kHz.
Tag codes possibilities:
10
12
possible combinations.
Inputs:
•
Request-to-exit (N.O.), dry contact
•
Door position (N.C.), dry contact
Outputs:
•
Lock relay N.O. / N.C. dry contact, 10A / 28V AC or DC
•
Door ajar / door held open (open collector output),
100 mA max.
•
Panic (open collector output), 100 mA max.
•
Auxiliary (open collector output), 100 mA max.
•
Forced Entry (open collector output), 100 mA max.
•
Tamper (N.C. dry contact). Tamper switch is designed to
detects attempts to open the unit, or remove it from the wall.
NOTE: The total currents of all active open collector
outputs should not exceed 200 mA.
Size (H x W x D):
122 x 82 x 31 mm (4-13/16 x 3-1/2 x 1-1/4 in.)
Weight:
170 g (6 oz) without the rubber gasket
Color:
Metallic brown
TAG-1 PROXIMITY TAG
Size (L x W x D):
53 x 35 x 7 mm (2-1/8 x 1 3/8 x 9/32 in.)
Weight:
5.5 g (0.2 oz).
Color:
Black
TAG-10:
Package of ten TAG-1 proximity tags
RDR-1B EXTERNAL READER (optional)
Indicators:
Tri-color LED (green, red, amber).
Tag reading range, tag reader frequency and tag codes
possibilities:
identical to Control Unit specification.
Size: (L x W x D):
116 x 70 x 16.8 mm (2 3/4 x 4 1/2 x 5/8 in.)
Weight:
121.5 g (4.3 oz)
Cable (to TIAB control unit) maximum length:
10 m (32 ft.)
TIAB-to-TIAB,
RDR-1B-to-TIAB
and
RDR-1B-to-RDR-1B
Minimum Distance
: 60 cm (2 ft.).
Color:
Dark gray
Compliance with standards:
Complies with Part 15 of the FCC
Rules and RSS-210 of Industry and Science Canada. 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.
