Hyfire HFI-TAE-05 Altair Lite Series Analogue Category P Thermal Detector User Manual
- October 30, 2023
- Hyfire
Table of Contents
- HFI-TAE-05
- ANALOGUE CATEGORY P THERMAL DETECTOR
- GENERAL DESCRIPTION
- INSTALLATION
- WIRING
- REMOTE OUTPUT CAPABILITY
- DEVICE PROGRAMMING – ADDRESS SETTING
- DEVICE PROGRAMMING – THERMAL SENSITIVITY SETTING
- DETECTOR PLACEMENT
- IMPORTANT NOTES ON DETECTORS PLACEMENT
- ANTI -TAMPER DETECTOR LOCK
- LED INDICATORS
- IDENTIFICATION TAB
- TESTING THE DETECTORS – PRELIMINARY NOTE
- HEAT TEST
- MAINTENANCE
- TECHNICAL SPECIFICATIONS **
- WARNINGS AND LIMITATIONS
- WARRANTY
- References
- ANALOGUE CATEGORY P THERMAL DETECTOR
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
HFI-TAE-05
928d/03
ANALOGUE CATEGORY P THERMAL DETECTOR
ALTAIR LITE SERIES
GENERAL DESCRIPTION
This type of detector (figure 1) continuously samples the temperature variation in the protected area to provide the earliest warning of fire, offering, at the same time, a high level of false alarm rejection.
These detectors are designed for an open area protection and must only be connected to control panels that use the Altair analogue-intelligent addressable communication protocol for monitoring and control, providing high rates of information exchange and fast and secure responses.
Note: Before installing this device please thoroughly read this leaflet and refer to the applicable European Standards and National Codes of Practice (e.g. BS5839-1:2002 for UK) for guidance on location, spacing and acceptable use. Also seek guidance from the compatible control panel instructions to ensure appropriate design criteria and configuration specifications are followed.
INSTALLATION
For the installation to the ceiling, the detector must be mounted only on the compatible adaptor bases listed in the “TECHNICAL SPECIFICATIONS” table. Refer to the specific base’s literature for further details.
WIRING
After having installed the base to the ceiling, wiring has to be carried out in order to connect the base to the analogue loop and, so, to the installation.
Analogue loop wires must be correctly connected to the base’s terminals: check the performed wiring by referring to the figure 2 diagram.
- LOOP IN (+)
- LOOP OUT (+)
- LOOP IN (-)
- LOOP OUT (-)
REMOTE OUTPUT CAPABILITY
Remote output capability is available as a standard feature, so a remote indication lamp or a compatible slave platform sounder (check power requirements and loop drive limits) may be wired to the base terminals (Figure 3).
- REMOTE ALARM (+)
- REMOTE ALARM (-)
If other equipment is connected to the remote output, its supply current must be eventually limited by using an adequate resistor. Consult the TECHNICAL SPECIFICATIONS table and assess the external device current absorption’s value.
DEVICE PROGRAMMING – ADDRESS SETTING
Detectors can be addressed using a special hand-held programming unit.
Addresses may be selected from a range from 1 to 240, although, of course,
each device on the loop must have a unique address.
Automatic addressing by the control panel cannot be performed with this type
of device.
DEVICE PROGRAMMING – THERMAL SENSITIVITY SETTING
A choice of two thermal sensitivity levels is available; these two levels
correspond to a Rate Of Rise (ROR) A1R category (most sensitive) and to a
category BS (least sensitive), according to the EN 54 part 5 European
normative.
Sensitivity level can be selected through a hand-held programming unit or, if
such feature is provided, directly through the control panel.
DETECTOR PLACEMENT
- Position the detector centrally on its adaptor base ensuring it is level.
- Rotate clockwise applying gentle pressure. The detector will drop into its keyed location.
- Continue to rotate clockwise a few degrees until the detector has fully engaged in the adaptor base (figure 4).
- When the detector is firmly engaged, check the alignment of the raised reference marks on the detector and on the base (figure 5).
IMPORTANT NOTES ON DETECTORS PLACEMENT
Disconnect loop power before installing the detector.
Dust covers help to protect the devices during shipping and when first installed. They are not intended to provide complete protection against contamination, therefore, detectors should be removed before construction, major re-decoration or other dust producing work is started. Dust covers must be removed before the system can be made operational.
ANTI -TAMPER DETECTOR LOCK
The detector can be locked to its base as a deterrent to intentional removal
performed by non authorized personnel.
Using a cutter, remove the anti-tamper plastic detail, as illustrated in
figure 6.
To unlock the detector, insert the tip of a screwdriver into the side slot of the base by exerting only a light pressure (figure 7), and release the detector by turning it anticlockwise.
LED INDICATORS
This detector is equipped with two red LEDs; their flash pattern indicate the present condition of the detector itself:
Blinking: indicates the normal operative status of the detector; the performance of this pattern depends upon the control panel’s model and its settings.
Continuous: indicates an alarmed condition of the detector.
Fault conditions are not indicated by LEDs, but only on the control panel.
Positioning of these LEDs is illustrated in figure 8.
IDENTIFICATION TAB
The adaptor base is equipped with a plastic tab where identification data can be visibly displayed.
Detach the tab from the base; write or label it with the required information, then insert it into its adaptor base’s slot.
TESTING THE DETECTORS – PRELIMINARY NOTE
Detectors should be tested after installation and during periodic maintenance visits; it is recommended each device should be tested at least once per year.
After each test reset the system and allow at least one minute for power stabilisation.
HEAT TEST
Use a hair dryer of 1000-1500 W or an heat tool from an approved manufacturer.
Direct the heat towards the detector from its side.
Hold the heat source at about 15 cm away from the detector in order to prevent
damage to its cover during testing.
The detector should trigger an alarm message to the control panel, and,
successively, the detector’s red LED should be activated by the control panel
itself.
MAINTENANCE
Before starting any maintenance work, isolate and disable the system in order
to avoid accidental and unwanted alarm or fault conditions.
Remove the detector from its mounting base to allow inspection in good light
at ground level.
Inspect the thermistor area and use a small, soft bristle brush to dislodge
any evident contaminants such as insects, spider webs, hairs, etc. Use a small
vacuum tube or clean, dry and compressed air to suck up or blow away any
remaining small particles from the thermistor area. Wipe the exterior housing
of the detector with a clean, damp, lint free cloth to remove any surface film
that can later attract airborne contaminants.
After all detectors have been inspected, repositioned on their mounting bases
and power has been re-applied, check correct operation by testing the device.
TECHNICAL SPECIFICATIONS **
| Power supply * | from 18 V (min) to 40 V (max) |
|---|---|
| Average standby current consumption | 45 uA @ 24 V |
| Remote output max current consumption (externally limited) | 20 mA |
| Compatible adaptor bases | HFI-DMBS-05 – “Low Profile Adaptor Base” |
| Thermal alarm threshold (ROR A1R category) | 58 °C |
| Thermal alarm threshold (BS category) | 78 °C |
| Operating temperature range | -30 °C / +70 °C (no icing) |
| Humidity | 95% RH (no condensation) |
* Product operates down to 15 V, but without LED indication.
** Further technical data: see document TDS-A350L held by the
manufacturer.
WARNINGS AND LIMITATIONS
Our devices use high quality electronic components and plastic materials that
are highly resistant to environmental deterioration. However, after 10 years
of continuous operation, it is advisable to replace the devices in order to
minimize the risk of reduced performance caused by external factors. Ensure
that this device is only used with compatible control panels. Detection
systems must be checked, serviced and maintained on a regular basis to confirm
correct operation.
Smoke detectors may respond differently to various kinds of smoke particles,
thus application advice should be sought for special risks. Detectors cannot
respond correctly if barriers exist between them and the fire location and may
be affected by special environmental conditions. Refer to and follow national
codes of practice and other internationally recognized fire engineering
standards. Appropriate risk assessment should be carried out initially to
determine correct design criteria and updated periodically.
WARRANTY
All devices are supplied with the benefit of a limited 5 years warranty
relating to faulty materials or manufacturing defects, effective from the
production date indicated on each product.
This warranty is invalidated by mechanical or electrical damage caused in the
field by incorrect handling or usage. Product must be returned via your
authorized supplier for repair or replacement together with full information
on any problem identified.
Full details on our warranty and product’s returns policy can be obtained upon
request.
2831
14
HF-20-008CPR
|
0832
21
HF-20-008UK
---|---
Hyfire Wireless Fire Solutions Limited – Unit B12a, Holly Farm Business Park,
Honiley, Warwickshire, CV8 1NP – United Kingdom
EN 54-5:2017+A1:2018
HFI-TAE-05
For use in compatible fire detection and alarm system.
Category A1R and BS (category P)
Hyfire Wireless Fire Solutions Limited – Unit B12a, Holly Farm Business Park, Honiley, Warwickshire, CV8 1NP – United Kingdom
info@hyfirewireless.co.uk L20-A350L-1400 (vA.7)
References
Read User Manual Online (PDF format)
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