Cinch Systems Inc RF-ROR-345 Manuel D’Utilisation

2  

466-5244 • REV A • 25MAY16 

1.  Locate the base mounting holes and mount the base to 

the wall or ceiling with the appropriate hardware (Figure 
3) 

2.  Attach the sensor to the mounting base 

 

 

 

1.  Before permanently securing the sensor to the wall or 

ceiling, test the sensor from the installation location 
using one of the following methods.  

2.  Place the panel in sensor test mode.  
3.  Plug in a portable hair dryer.  
4.  Hold the hair dryer about 12 to 18 in. away from the 

sensor, aiming it at the side of the sensor.  

5.  Listen for the appropriate number of beeps from interior 

sirens and speakers (refer to the specific panel 
documentation).  

6.  To test the freeze sensor, use either freeze spray or 

place an ice cube in a plastic bag and hold against the 
sensor until the device trips. 

7.  Listen for the appropriate number of beeps from interior 

sirens and speakers 

 

Note: Notify central station before any live testing to avoid fire 
response. The magnet test allows the sensor to send an actual 
alarm signal to the control panel, if a magnet is held against the 
housing for 15 seconds. 

 

 

 

1.  With the sensor permanently mounted, place a magnet 

against the mark located on the sensor body. (Figure 4) 

2.  Hold the magnet in place for about 15 seconds 
3.  The control panel should respond by sounding the fire 

alarm (Heat and Freeze Alarm) 

4.  Disarm control panel to silence alarm  

Battery life depends on how often the sensor transmits 
signals, but is more dependent on the temperature of the 
installation environment. When the battery voltage gets low, 
the sensor transmits a low battery signal to the panel. The 
panel then activates trouble beeps to notify the customer 
that the sensor battery must be replaced. Pressing the 
Status button identifies the sensor with the low battery.  

Replace the battery immediately when this condition occurs, 
using the following battery:  Panasonic CR123A 3V 
 

The batteries used in this sensor are lithium batteries and 
are not reusable. Be sure to properly dispose of used lithium 
batteries according to your local hazardous waste disposal 
laws. 

Minimum Rate of Rise rating 

12° to 15ºF (6.7° to 8.3C)  

Operating temperature 

135°F (57°C): 32 - 100°F (0 - 37°C) 

200°F (94°C): 32 - 150°F (0 - 66°C) 

UL max. Ambient ceiling 

100°F/150°F (37.8ºC / 65.6ºC) 

Storage Temperature 

-30 to 167°F (-34 to 75°C) 

Relative Humidity 

0 to 95% noncondensing 

Detection range 

up to 2500 sq. ft. 

Frequency 

319.5 MHz (crystal-controlled) 

Expected Battery Life 

10 years 

Standby Current 

Less than 0.9 µA 

Supervision Interval 

62-68 minutes 

Enclosure Dimensions 

Diameter: 2.29" (58.25mm) 
Height: 1.28" (32.4mm) 

Regulatory 

UL 521 Heat Detectors for Fire 
Protective Signaling Systems 
UL 985 Household Fire Warning 
System Units 
CAN/ULC-S530 Heat Actuated Fire 
Detectors for Fire Alarm Systems 
CSFM Category 7270 
FCC: 15.109 Class B, 15.231 
Industry Canada: ICES-003, RSS-
210 

Visit us online at www.interlogix.com. 
For technical support, see www.interlogix.com/support 

Model 
HDX-135   Wireless 135°F (57°C) Rate-of-Rise Heat 

Sensor 

HDX-200  Wireless 200°F (93°C) Rate-of-Rise Heat 

Sensor 

HDX-135Z  Wireless 135°F (57°C) Rate-of-Rise Heat & 

Freeze Sensor