Xmark Corporation VACR Manual De Usuario
Installation Guide: Access Control Reader
Installation Guide: Access Control Reader
Mounting the Antenna Inside a Wall
When the Antenna must be located inside a wall, consider the following:
The detection zone will be smaller due to the wall thickness. You may not have a
large enough detection zone on both sides of the wall. For example, Figure 9 shows
an Antenna mounted inside a 4 in. (10.16 cm) wall. In the figure, only about 1 in.
(2.54 cm) of the LF field extends into the corridor on the right side of the wall.
an Antenna mounted inside a 4 in. (10.16 cm) wall. In the figure, only about 1 in.
(2.54 cm) of the LF field extends into the corridor on the right side of the wall.
The wall material must not contain metal that would block the LF Field.
The Antenna must be mounted vertically to ensure an even detection zone.
You will need to construct a mounting surface inside the wall. Do not suspend the
The Antenna must be mounted vertically to ensure an even detection zone.
You will need to construct a mounting surface inside the wall. Do not suspend the
Antenna by the cable.
Figure 9: ACR Mounted Inside a Wall
To mount the Antenna inside the wall:
1 Choose locations for the Antenna and the Controller Module. Allow room on
either side of the Antenna for both the Antenna bulge and the cable.
2 Using the supplied mounting template, construct a secure mounting surface
inside the wall for the Antenna.
3 Mount the Antenna using #8 screws (4.17 mm).
4 Follow the instructions in the previous section for cable routing.
Wall
Interior
Corridor
4
Extent of
Effective RF Field
Effective RF Field
Antenna
Wall
All dimensions in inches.
4 in. = 10.16 cm
3 in. = 7.62 cm
4 in. = 10.16 cm
3 in. = 7.62 cm
4
3
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PN: 981-000293-000 R1.3
5 Use Table 2 to wire the Controller Module.
End of Procedure
6 Before closing up the wall, test and confirm correct operation of the ACR.
Wiring the Access Control Reader
Wire the ACR using the 12 pin wiring connector as described in Table 2. (This table
from page 3 has been repeated for your convenience.) See Figure 1 for the location of
the wiring connector.
from page 3 has been repeated for your convenience.) See Figure 1 for the location of
the wiring connector.
Table 2: ACR 12 Pin Wiring Connector
Pin #
Label
Type
Description
1
V in
DC Power In
500 mA @ 24 VDC ± 10%
2
GND
Power
ground
3
RS485+
RS485 Network
• RS485 Sub-Network headed by Area
Controller Hub.
• 16 nodes, 230 kBytes/s
4
Gnd
RS485 Ground
5
RS485-
RS485 Network
6
Relay N.O.
Relay Normally
Open
Open
• 10 A 250 VAC resistive
• Protective diodes are required for an
• Protective diodes are required for an
inductive load.
7
Relay COM
Relay Common
8
Relay N.C.
Relay Normally
Closed
Closed
9
Wiegand 0
Wiegand Data 0
Standard 26-bit format (24 data bits and
2 parity bits) Wiegand output.
2 parity bits) Wiegand output.
10
Wiegand 1
Wiegand Data 1
11
Input
Dry Contacts
Pins 11 and 12 form an input for a door
contact or other device.
contact or other device.
12
GND
Dry Contacts
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PN: 981-000293-000 R1.3