- Description
- Specification
The KX12DQ-WE combines the excellent performance of the KX digital quad technology with the benefits of a wireless product. With increased accuracy and sensitivity the KX DQ sensor is the ideal choice for many homes and businesses alike.
Signal Strength Indicator (SSI)
One of the key advantages of implementing of the SSI technology is to allow the installer to view the wireless transmission signal strength on both the control panel and wireless devices in real time.
Sealed optics
Protects from possible infestation from insects, shields air movement in front of the pyro-electric sensor and protects against adverse reflections from inside the detector housing.
ABS plastics
3mm polished finish, reduces electrostatic interference on the PIR sensor.
Aspherical Lens
In the KX Series, the distance between the pyro-electric sensor and the lens is identical for each detection zone. This eliminates distortion and provides excellent focused zones.
In traditional detectors the lens is made in a flat form and bent into a cylinder. Therefore the distance between the pyro-electric sensor and the lens varies for each detection zone. This causes distortion and unfocused zones, reducing reliability.
Digital Temperature Compensation
When the product is used in a hot environment this technology digitally adjusts the detector’s sensitivity allowing it to maintain its range even when the background room temperature is almost equal to the external body temperature of 32ºC (internal body temperature = 37ºC).
Compatibility
All Enforcer 868MHz High Security Peripherals are compatible with the Enforcer control panel, and Pyronix hybrid panels fitted with the wireless zone expander.
12m Wireless Volumetric detector
12m Volumetric detection coverage. Ideal for protection of rooms, offices etc.
Blue wave technology
This technology further enhances the detector’s immunity to infra-red noise in the environment. BWT comprises of 2 key components: 1). The new 3D optics system enables perfect focussing of the infra-red signal onto the pyro-electric sensor. This allows BWT to clearly identify the positive and negative signal edges. 2). Powerful software embedded into a microprocessor is used to process the received information from the pyro-electric sensor. The result of this combination is lower infra-red signal noise amplification and therefore better immunity.