N200-309-00
I56-4294-002
Notifier by Honeywell, 140 Waterside Road, Hamilton Industrial Estate, Leicester, LE5 1TN, UK
NOTE POLARITY
Figure 5: Front of Module with Address Switches
+
ROTARY ADDRESS SWITCHES
Figure 4: Rear of Module with
Battery Compartment and Cover
Table 2: Module Status LEDs
Module Status
LED State
Meaning
Power-on
initialisation
(no fault)
Long Green pulse
Device is un-commissioned
(factory default)
3 Green blinks
Device is commissioned
Fault
Blink Amber every 1s.
Device has an internal trouble
Un-commissioned
Red/Green double-blink every 14s
(or just Green when communicating).
Device is powered and is waiting to be
programmed.
Sync
Green/Amber double-blink every 14s
(or just Green when communicating).
Device is powered, programmed and
trying to find/join the RF network.
Normal
Controlled by panel; can be set to Red ON,
Green ON, periodic blink Green or OFF.
RF communications is established;
device is working properly.
Idle
(low power mode)
Amber/Green double-blink every 14s
Commissioned RF network is in standby;
used when the gateway is powered off.
1
2
3
4
5
6
7
8
WARNING: Switching Inductive Loads
See
Figure 3
. Inductive loads can cause switching surges, which may
damage the module relay contacts
(i)
.
To protect the relay contacts, connect a suitable Transient Voltage
Suppressor
(iii)
- for example 1N6284CA - across the load
(ii)
as
shown in Figure 3.
Alternatively, for unsupervised DC applications, fit a diode with a
reverse breakdown voltage greater than 10 times the circuit voltage.
Figure 4
details the battery installation and
Figure 5
the location of the
address switches.
Important
Batteries should only be installed at the time of commissioning
Warning
Observe the battery manufacturer’s precautions for use
and requirements for disposal.
Possible explosion risk if incorrect type is used
Do not mix batteries from different manufacturers.
When changing the batteries, all 4 will need to be replaced
Using these battery products for long periods at temperatures
below -20°C can reduce the battery life considerably
(by up to 30% or more)
Fixing the module:
Remove the 2 screws from the front cover to
reveal the RF module. Remove the RF module from the back box (see
below). Screw the back box to the desired position on the wall using
the fixings provided. Refit the module in the box (see below). Wire
the plug-in terminals as required by the system design. Refit the front
cover to protect the module.
Removing the module from the back box:
Slacken off the 2 fixing
screws, twist the module clockwise slightly and lift out. Reverse this
process to refit the module.
Device Removal Warning:
In a working system, an alert message will
be sent to the CIE via the Gateway when the front cover is removed
from the back box.
SETTING THE ADDRESS
Set the loop address by turning the two rotary decade switches on
the front of the module using a screwdriver to rotate the wheels to the
desired address.
Except when Advanced Protocol (AP) is being used (see below) the
dual I/O module will take two module addresses on the loop; the input
module address will be the number shown on the switches (N), the
output module address will be incremented by one (N+1). So for a
panel with 99 addresses, select a number between 01 and 98.
In Advanced Protocol (AP) addresses in the range 01-159 are available,
depending on panel capability (check the panel documentation for
information on this).
Important
Set the loop address on the module
Before
inserting the batteries
LED INDICATORS
The radio module has a tri-colour LED indicator that shows the status
of the device (see
Table 2
):
Figure 3: Switching Inductive Loads
+
(i)
(ii)
(iii)
!