D200-300-00
I56-3890-003
Pittway Tecnologica S.r.l. Via Caboto 19/3, 34147 TRIESTE, Italy
LED INDICATORS AND FAULT DESCRIPTION
The radio sensor has two LED indicators that show the status of the device.
4c
NOTE POLARITY
4a
Figure 4: Battery Installation and
Rotary Address Switches
TESTING
Magnet Test
Position the magnet (M02-04-00) as shown in Figure 5, after identifying the
straight line ridge on the sensor base. To aid positioning, the sensor LEDs
will turn on green for 1s when the alarm switch activates. The device will
turn off all delays and filters for 10 minutes. After this period, the device
returns to its normal mode.
Smoke Testing
Using smoke, or a synthetic smoke aerosol, subject the sensor to controlled
amounts of smoke in accordance with local codes of practice. The sensor
should signal an alarm to the CIE via the Gateway within 30 seconds.
Direct Heat Testing (Hair dryer of 1000-1500 watts).
Aim the heat toward the sensor from the side. Keep the heat source about
15 cm away to prevent damage to the cover during testing. The sensor
should signal an alarm to the CIE via the Gateway when the temperature
at the sensor reaches 58°C.
Following testing, reset the alarm indication at the CIE (fire panel).
CLEANING
Use a fine brush, vacuum cleaner and/or clean, compressed air to remove
dust and debris from the sensing chamber, sensing chamber cover, screen
and thermistor as required (take care to avoid damaging the thermistor).
Figure 6 shows how to remove the covers.
Arrows on the plastic indicate the positioning when replacing the chamber
cover and air guide.
Note
When replacing batteries, all 4 will need to be replaced
LIMITATIONS OF SMOKE SENSORS
These smoke sensors will only work when connected to a compatible
control panel. Smoke detectors have operating limitations. They will not
sense fires where smoke does not reach the sensor, and may respond
differently to varying types of smoke. Consideration must be given to the
environment when selecting and siting fire sensors.
Smoke sensors cannot last forever, and we recommend replacement after
10 years.
Figure 5: Test Magnet Position
MARK ON BASE
TEST MAGNET
Figure 6: Cleaning the Sensor
SENSOR COVER
COVER REMOVAL
TABS
THERMISTOR
AIR GUIDE
SENSING CHAMBER
COVER AND SCREEN
INFRA-RED SENSOR
THERMISTOR
OPTICAL SENSING
CHAMBER
+
+
+
+
1
2
3
4
4b
4d
ROTARY ADDRESS SWITCHES
+
Sensor Status LEDs
Sensor 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, periodic blink Red 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.
Magnet test
1s green pulse when test magnet
activates the internal switch.
Device signals Alarm, all delays are
removed for 10 minutes.
Patents Pending
EN54-25: 2008 / AC: 2010 /
AC: 2012 -
Components using radio links
EN54-5: 2000 - Class A1R / A1: 2002 - Heat detectors
EN54-7: 2000 / A1: 2002 / A2: 2006 - Smoke detectors
0333 14
DOP-IRF002
System Sensor Europe, Life Safety Distribution GmbH
Javastrasse 2, 8604 Hegnau, Switzerland
EU Declaration of Conformity
Hereby,
Life Safety Distribution GmbH declares
that the radio equipment type
22051TLE-RF
is in
compliance
with directive 2014/53/EU
The full text of the EU DoC can be requested from:
