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DISCOVERY PRODUCT GUIDE
10
Heat Detector
10.1 Operating Principles:
Discovery heat detectors have a common profile with ionisation and optical smoke detectors but have a low air flow resistance case made of self extinguishing white polycarbonate.
The Discovery Heat Detector uses a single thermistor to sense the air temperature at the detector position. The thermistor is connected in a resistor network, which produces a voltage output dependent on temperature. The design of the resistor network, together with the processing algorithm in the microcontroller, gives an approximately linear characteristic from 10°C to 80°C. The linear signal is further processed, depending on the response mode selected, and converted to an analogue output.
For the European standard version of the detector, the five modes correspond to five “classes” as defined in
EN54–5:2001. The classes in this standard correspond with different response behaviour, each of which is designed to be suitable for a range of application temperatures. All modes incorporate “fixed temperature” response, which is defined in the standard by the “static response temperature”. The application temperatures and static response temperatures for all response modes are given in Table 6.
In addition to the basic classification, a detector may be given an “R” or “S” suffix. The “R” suffix indicates that the detector has been shown to have a rate-of- rise characteristic. Such a detector will still give a rapid response even when starting from an ambient temperature well below its typical application temperature.
This type of detector is therefore suitable for areas such as unheated warehouses in which the ambient temperature may be very low for long periods.
The “S” suffix on the other hand indicates that the detector will not respond below its minimum static response temperature even when exposed to high rates of rise of air temperature. This type is therefore suitable for areas such as kitchens and boiler rooms where large, rapid temperature changes are considered normal.
MAN3038-2
Figure 5 – Sectional View – Discovery Heat Detector
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Table of contents
- 4 Introduction
- 4 Communications
- 5 Discovery Feature-Smoke & Heat Detectors
- 5 Response Setting
- 5 User bytes and other stored data
- 5 Flashing LED
- 6 Remote test feature
- 6 Rejection of transient signals
- 6 Interchangeability
- 7 Discovery Features- Smoke Detectors
- 7 Drift compensation
- 8 Optical Smoke Detector
- 8 Operating Principles
- 9 Technical Data
- 10 Optical/Heat Multisensor Detector
- 10 Operating Principles
- 12 Technical Data
- 13 Ionisation Smoke Detector
- 13 Operating Principles
- 15 Technical Data
- 16 Carbon Monoxide / Heat Multisensor Detector
- 16 Operating Principles
- 17 Technical Data
- 18 Carbon Monoxide Detector
- 18 Operating Principles
- 21 Technical Data
- 22 Heat Detector
- 22 Operating Principles
- 23 Technical Data
- 24 Mounting Bases
- 24 Technical Description
- 25 Manual Call Point
- 25 Operating Principles
- 25 Non Standard Call Points
- 26 Technical Data
- 27 Interfaces
- 27 Isolators
- 28 Sounder Beacon Base
- 30 Open Area Sounder Beacon
- 30 Technical Data
- 31 Maintenance of Detectors