Conventional Fire Alarm Systems
Contents
Introduction Premier SX Conventional Fire Alarm Panel Premier Elite Conventional Fire Alarm Panel
8
9
Zeta UV/IR Optical Flame Detectors
26-27
Zeta Conventional Manual Call Points
28
Zeta Conventional Weatherproof Call Point
29
30
Premier Conventional Repeater Panel
10
Zeta Conventional Explosion Proof Manual Call Point
Premier M Plus 8-24 Zone Conventional Fire Alarm Panel
11
Miditone Conventional Electronic Sounder
31
Premier M Plus Repeater Panel
12
Miditone Conventional Combined Electronic Sounder & Flasher
32
Premier 48 M Plus 24-48 Zone Conventional Fire Alarm Panel
13
Securetone Conventional Electronic Sounder
33
Premier 48 M Plus Repeater Panel
14
Secure Light Xenon Flasher
34
Premier MX Conventional Fire Alarm Panel
15
Maxitone Conventional Sounder and Combined Sounder & Flasher
35
Fyreye Extra Conventional Optical Smoke Detector
16
Zeta Conventional Fire Alarm Bells
36
Zeta Flame Proof Siren
37
Zeta Flame Proof Gong Bell
38
Zeta Magnetic Door Holders
39
Zeta Duct Unit
40
Fyreye Extra Conventional Rate of Rise and Fixed Heat Detectors
2
3-7
17
Fyreye Extra Conventional Opto-Heat Detector
18
Fyreye Conventional Ultra-Violet Flame Detector
19
Fyreye Conventional Detector Bases
20
Premier Power Pack EN 54-4 Power Supply with LCD Screen
41
Zeta Remote LED Indicator
21
Batteries
42
Fyreye 50 & 100m Reflective Beam Smoke Detector
22-23
Fyreye 50 & 100m Auto-aligning Beam Smoke Detector Systems 50 & 100m
24-25
Introduction Zeta Alarm Systems, a trading name of GLT Exports Ltd, was founded in 1985 and is a privately held UK manufacturer of Fire Alarm, Gas Detection and Emergency Systems. Our brand name is well known throughout the industry and is acclaimed in over forty countries worldwide. We are currently represented in the UK, Europe, Africa, the Middle East, Southern Asia & South America and this list continues to grow.
Complete System Supplier
Research & Development
To meet the requirements of our ever-changing market, we pride ourselves on being a complete system supplier. This means our customers can rely on us for their entire system requirements.
As with all electronic equipment there is an ever present drive to manufacture products that are increasingly effective whilst becoming more cost sensitive. To meet this objective we spend a significant percentage of our profits on the continued development of products, whether it be introducing new items, or improving existing ones. We have a team of engineers & designers all of whom have vast industry knowledge & experience.
One of the main advantages of using a complete system supplier, compared with a component supplier, is that system wide compatibility is assured and there is one point of contact. Marketing our products as systems has played a vital role in our worldwide success.
The Future Our continued inward investment and constant endeavour to offer the very best products is recognised by our increased turnover and profit margin year-onyear. Our mission is to support our existing & future customers by providing them with the highest quality products, at the most competitive prices.
Customer Support & Product Warranty
As a manufacturer we always follow the market needs closely to evaluate how we should adapt our product range. This, combined with welcomed customer feedback, has proved to be a successful formula for meeting the current and future industry needs.
Statement Of Quality Policy We maintain a Quality System, which conforms to BS EN ISO9001:2008. We are committed, where applicable, to manufacture in compliance with all appropriate legislation & regulatory requirements.
We value our customers greatly and to ensure they have the best experience we have a dedicated support team who are able to assist with sales, technical or logistical queries. Our products carry a full 24 month manufacturers’ guarantee from the date of purchase. Our network of authorised agents is fully trained on the use of our products and will provide a helpful & friendly service.
3
Introduction to Fire Alarm Systems
Fire Detection & Alarm Systems BS5839
Fire alarm systems are used to detect a fire, and to signal a warning alarm to the appropriate source.
Risk Assessment
In general, there are 3 types of system; 1. Manual Fire Alarm Systems – which rely on manual call points to signal an alarm 2. Life Protection Fire Alarm Systems – these are designed to protect the occupants of a building 3. Property Protection Fire Alarm Systems – these are designed to protect buildings
The warning may be simply ringing fire alarm sirens, however if a building is likely to be unoccupied, it may be more appropriate to signal to a monitoring station, or at least send a message to the building owner via telephone.
The ‘Fire precautions (Workplace) Regulations’ require any business employing five or more persons to hold a written ‘Fire Risk Assessment’ and ‘Emergency Plan’. This must be periodically reviewed. The local fire brigade can enforce compliance, and close any building that does not meet this act. In the event of a fire in a building without a written ‘Fire Risk Assessment’, those responsible may face fines and imprisonment, and/or private litigation. What the law requires you to do: Complete a fire risk assessment for your work place (considering all employees, the public, disabled people and people with special needs). Identify and record any significant findings or persons at risk. Provide and maintain fire precautions. Provide information, instruction and training. Nominate persons responsible to implement your emergency plan. Consult employees about the above nominations and your proposals to improve fire precautions. Inform other employees who may have work places in the building about any significant risks which may affect their safety and co-operate with them to reduce/control these risks. If you are not an employer, but control premises which contain more than one workplace, you are responsible for complying with fire regulations. You must establish a suitable means of contacting the emergency services. Your employees must co-operate to ensure the workplace is safe from fire and its effects.
4
System Zoning Information In order to aid identification of the source of a possible fire, the protected building should be divided into ‘zones’. When deciding on a suitable zoning scheme for a building, consideration should be given to the size, any existing fire routines, escape routes, zone accessibility, and structural fire compartmentation.
The following guide lines should be observed: If the total floor area of the building is less than 300m2 then the building needs only one zone, regardless of the number of storeys.
Manual Call Points A ‘Manual Call Point’ is a device which enables personnel to raise an alarm in the event of a fire incident by pressing a frangible element to activate the alarm system. Manual Call Points should be installed at a height of 1.2m above floor level at easily accessible, conspicuous positions, on exit routes, at the entry floor landings of staircases and at all exits to the open air.
If the total floor area is greater than 300m2: The maximum area for a zone is 2000m2 If a stairwell (or similar) extends beyond one floor it should be a separate zone. If a zone covers more than one fire compartment then the zone boundaries should follow the compartment boundaries. The search distance within the zone in order to ascertain the position of the fire should not exceed 60m. Remember that the use of Remote Indicator lamps may help to reduce the distance travelled.
1.2m - 1.4m
Manual Call Points should be spaced so that one may always be found within a maximum distance of 45m apart or 25m for disabled person.
45m Max. or 25m Max. for disabled person
60m Max.
If a building is divided between occupiers, zones must not be shared between them.
5
Detector Information Automatic Detectors When deciding on the type of detector to be used in any area it is important to remember that the detector has to discriminate between a genuine fire and the normal conditions existing therein.
Smoke Detectors
Heat Detectors General
In open spaces under flat horizontal ceilings, every point should lie within 7.5m of a smoke detector.
In open spaces under flat horizontal ceilings, every point should lie within 5.3m of a heat detector.
10.6m
7.5m
112m² (10.6m x 10.6m)
56.3m² (7.5m x 7.5m)
Room boundary
7.5m
5.3m
5.3m
Smoke detection should be generally avoided in the following areas to avoid unwanted alarms. They should be protected by means of other detectors such as heat detectors. Contamination in dusty areas may cause unwanted alarms and reduce the life of the detector. Damp or humid conditions such as showers, bathrooms and external areas should be avoided as the water vapour may cause unwanted alarms and reduce the life of the detector. Detectors should not be mounted where gases, vapours or fumes are present. Detectors should never be used at low temperature where ice or condensation can affect detector sensitivity. Kitchens, garages, welding shops and boiler houses should generally be avoided.
6
Room boundary
3.8m
Heat detectors are designed to either detect a rapid rise in temperature or to operate at a fixed temperature. Although they provide a slower response time than smoke detectors they do provide a method of protection for areas where smoke detectors cannot be used. Heat detectors should not be used for the protection of life or where extensive property loss may be expected.
‘Rate of Rise’ Heat Detectors ‘Rate of Rise’ heat detectors respond to both rapid increases of temperature and to fixed top temperature.
‘Fixed Temperature’ Heat Detectors Fixed temperature heat detectors are available with different temperature settings, and are normally installed in kitchens, boiler rooms, etc.
Detection In Apex Roofs
Fire Alarm Sounders
If the ceiling is pitched or sloping, smoke will tend to rise towards the highest point (apex) of the roof, therefore detection should be placed in the apex. As the slope tends to reduce the delay before smoke or heat reaches the detectors, it is permissible to use a greater spacing between the detectors mounted there.
Fire Alarm Sounders should be installed throughout the building with an even distribution, to generally provide a minimum sound level of 65dB(A) or 5dB(A) above any background noise which is likely to persist for more than 30 seconds.
Limits of Ceiling Height
65dB(A) @ 500Hz - 1000Hz
+5dB(A) @ 500Hz - 1000Hz Background noise
Heat Detector
Smoke Detector
Heat Detector
Smoke Detector
Apex 600mm
Small Apex = Standard Spacing
Large Apex = Extended Spacing
Cabling
Where the alarm may have to arouse sleeping persons e.g. Hotel bedrooms, nursing homes, etc, a minimum sound level of 75dB(A) is required, at the bed head with all the doors shut.
The operation of a Fire Alarm and Detection System’ depends on the cabling and connections between the components. It is essential that connection between Manual Call Points and Detectors function correctly when they are operated. Cables within the system are required to function correctly for significant periods after being attacked by fire. These include the power supply cables to the control panel, the detection circuits and the fire alarm sounder circuits. Thus the cables chosen must be correctly rated to withstand these conditions.
75dB(A)
All fire alarm sounders in a building should produce the same sound, distinct from any other audible warning devices in the building. Where fire alarm sounders are required in extremely noisy areas e.g. Machine shops, it may be necessary to install additional ‘Visual Indication Beacons’.
7
Conventional Fire Alarm Systems /
Premier SX Conventional Fire Alarm Panel (NPSX1, NPSX2, NPSX4, NPSX6, NPSX8)
The Premier SX control panel range is available in 1, 2, 4, 6 and 8 zones, housed in a light grey flame retardant ULV0 enclosure, designed to meet modern architectural surroundings, with a removable hinged door. The Premier SX has been designed with ease of installation in mind, in addition to the robust electronic design expected from Zeta Alarm Systems.
73mm
Features
100mm
LPCB Approved to EN54 parts 2 & 4 One man test facility Disablement facility for zones & sounders Space for up to 7Ahr batteries Sounder delay option (0 – 9 min) Panel can be flush mounted
Flush Mount
8
Wall Mount
Model
NPSX1
NPSX2
NPSX4
NPSX6
NPSX8
Part No.
37-050
37-051
37-052
37-053
37-054
Mains Voltage
230V AC +10% / -15% @ 50/60Hz
System Voltage
24V DC (nominal)
Zone Voltage
21V DC (nominal)
Sounder Alarm Output
2 x 400mA @ 24V DC (nominal)
Fault Relay Output
1 x relay SELV @ 1A maximum
Fire Relay Output
1 x relay SELV @ 1A maximum
Zone Capacity
32 devices per zone
Remote Sounder Activation
Via N/O contact (class change)
Sounder Activation Delay
0-9 minutes in 1 minute increments
Zone End Of Line
IN4002 Diode (cathode stripe to +)
Sounder End Of Line
10K resistor
Charger Voltage
28.4V @ 20°C (with battery disconnected)
Zone Short Circuit Protection
100mA
Charger Short Circuit Protection
Battery voltage less than 20V
Enclosure Size
355 (l) x 275 (h) x 100 (d) mm
Weight
3.25kg (excluding batteries)
Conventional Fire Alarm Systems /
Premier Elite Conventional Fire Alarm Panel (PE1, PE2, PE4, PE6, PE8)
The Premier Elite 1-8 zone fire alarm panels are ideal for small to medium sized installations. They meet all the requirements of EN54 parts 2 & 4, and come in an attractively styled enclosure. The zonal output card gives a drive voltage to operate zonal alarm relays, or a hardwired repeater panel.
Features 73mm
Fault relay (4, 6 & 8 zone only)
100mm
Alarm relay Current limited charger to prevent flat batteries drawing too much current (4, 6 & 8 zone only) Built in diode base compatibility (4, 6 & 8 zone only) Sounder delay facility (4, 6 & 8 zone only) Connection to optional add on zonal output card (4, 6 & 8 zone only) Zone disablement facility (4, 6 & 8 zone only)
Flush Mount
One man test facility (4, 6 & 8 zone only)
Wall Mount
Model
PE1
PE2
PE4
PE6
PE8
Part No.
37-040
37-041
37-042
37-043
37-044
Detection Zones
1
2
4
6
8
Mains Voltage
230V AC +10%/-15% @ 50/60Hz
System Voltage
24V DC (nominal)
Zone Voltage
22V DC (nominal)
Sounder Alarm Output
2 x 400mA @ 24V DC (nominal)
Fault Relay Output
N/A
Fire Relay Output
1 x relay SELV @ 1A maximum
Zone Capacity
20 Devices
32 Devices
Remote Sounder Activation
N/A
Via N/O Contacts
Sounder Activation Delay
N/A
0-9 minutes in 1 minute increments
Zone End Of Line
10K resistor
IN4002 Diode (cathode stripe to +)
Sounder End Of Line
10K resistor
10K resistor
Charger Voltage
27.6V DC (No Batt Connected)
28.4V @ 25°C (No Battery Connected)
Zone Short Circuit Protection
N/A
100mA
Charger Short Circuit Protection
N/A
Batteries less than 21V
Operating Temperature
0°C to 50°C
Enclosure Size
355 x 275 x 100mm
Weight
2.5kg (excluding batteries)
29V DC (nominal)
1 x relay SELV @ 1A maximum
3.25kg (excluding batteries)
9
Conventional Fire Alarm Systems /
Premier Conventional Repeater Panel (PRE-REP)
The Premier Repeater panel is a hard-wired repeater panel for use with the Premier SX (all sizes), and the Premier Elite (4-8 zone) panels. It is display only (no controls) and indicates power, general fault, general fire & the zone in alarm. It also has an internal buzzer to indicate that it requires attention. It comes supplied with an interface card to connect to the Premier SX and Premier Elite (4-8 zone) panels.
73mm
100mm
Features Zonal indication for fire Common fault indication Surface or semi flush fixing
Flush Mount
Model
PRE-REP
Part No.
37-045
Supply Voltage
20–35V DC
Supply Voltage
29V DC (nominal)
Connections
10
Wall Mount
A+
Supply +VE
0V
Supply –VE
GA
General Alarm
CF-
Common Fault
TN-
Tone (Buzzer Active)
Z1- to Z8-
Zonal Alarm
Operating Temperature
-0°C to 50°C
Enclosure Size
355 x 275 x 100mm
Weight
1kg
Conventional Fire Alarm Systems /
Premier M Plus 8-24 Zone Conventional Fire Alarm Panel (PMP8, PMP16, PMP24) The Premier M Plus control panels are designed to fulfil the requirements of EN54 parts 2 & 4 as well as being easy to install, operate and maintain. Being of modular construction, the basic M Plus panel has 8 zone capacity, expandable to 16, 20 and 24 zones. The Premier M Plus is suitable for surface mounting or semi-flush fitting (with just the door protruding).
Features 4 Common sounder circuits (150mA each) Optional add-on zonal sounder circuits (50mA Max.) Serial repeater output Auxiliary supply (29 Volts, 250mA) Zone & sounder disablement facility Sounder delay facility Zonal to common timer (when fitted with zonal sounder boards) One man test mode
Model
PMP8
PMP16
PMP24
Part No.
37-020
37-022
37-024
Detection Zones
8
16
24
Mains Voltage
230V AC +10% / -15% @ 50/60 Hz
System Voltage
24V DC (nominal)
Zone Voltage
21V DC
Sounder Alarm Output
4 x 150mA @ 24V DC
Fault Relay Output
1 x relay SELV @ 1A maximum
Fire Relay Output
1 x relay SELV @ 1A maximum
Zone Capacity
32 Devices
Remote Sounder Activation
N/A
Sounder Activation Delay
0 – 9 minutes in 1 minute increments
Zone End Of Line
IN4002 Diode
Sounder End Of Line
10KΩ Resistor
Charger Voltage
28.4V DC (batteries disconnected)
Zone Short Circuit Protection
100mA
Charger Short Circuit Protection
Batteries less than 20V
Charger Size
3.0 Amp
Operating Temperature
0°C - 50°C
Enclosure Size
485 x 477.5 x 125mm
11
Conventional Fire Alarm Systems /
Premier M Plus Repeater Panel (PMP-REP, PMP-REP/M)
The Premier M Plus repeater is available in 2 versions – standard & multiple. The standard repeater offers display & control functions, however it is limited to one per system. The second version allows multiple repeaters on the same system however they do not have any control functions (i.e. they cannot be used to silence or reset the system). A single repeater can be powered from the panels’ auxiliary 24V supply. If more than one repeater is to be used, a separate 24V is required.
Model
PMP-REP
PMP-REP/M
Part No.
37-026
37-027
Functions
Display & control
Control only
Supply Voltage
20-30V DC
Max. Quantity Per System
1 Serial Repeater A
Connections
Serial Repeater B +24V DC 0V
12
Operating Temperature
0°C to 50°C
Enclosure Size
375 x 335 x 125mm
Weight
TBC
5
Conventional Fire Alarm Systems /
Premier 48 M Plus 24-48 Zone Conventional Fire Alarm Panel (PMP48/24, PMP48/32, PMP48/40, PMP48/48) The Premier 48 M Plus control panels are designed to fulfil the requirements of EN54 parts 2 & 4 as well as being easy to install, operate & maintain. Being of modular design, the basic panel has 24 zones built in and it can be expanded to 32, 40 & 48 zones. The construction of the panel is epoxy painted steel enclosure, with top & rear cable entries.
Features 4 common sounder circuits (400mA each) Optional add-on zonal sounder circuits (50mA Max) Serial repeater output Auxiliary supply (29 Volts, 250mA) Zone & sounder disablement facility Sounder delay facility Zonal to common timer (when fitted with zonal sounder boards) One man test mode Model
PMP48/24
PMP48/32
PMP48/40
PMP48/48
Part No.
37-030
37-032
37-034
37-036
32
40
48
Detection Zones
24
Supply Voltage
230V AC +10%/-15% @ 50/60 Hz
System Voltage
29V DC (nominal)
Zone Voltage
21V DC
Sounder Alarm Output
4 X 400mA @ 24V DC
Fault Relay Output
1 relay SELV @ 1A (normally energised)
Fire Relay Output
1 relay SELV @ 1A maximum
Other Connections
Class Change Input (N/O Contact) / F.A.R.E. Output / Serial Repeater Output (4 Wire)
Zone Capacity
Up to 32 devices
Remote Sounder Activation
N/A
Sounder Activation Delay
0 to 9 minutes
Zone End Of Line
100μF capacitor
Sounder End Of Line
10K resistor
Charger Voltage
28.4V DC (Batteries disconnected)
Zone Short Circuit Protection
100mA
Charger Short Circuit Protection
Batteries less than 20V
Charger Size
3 Amp
IP Rating
IP43
Operating Temperature
0°C to 50°C
Enclosure Size
675 x 480 x 135mm
Weight
13kg
13
Conventional Fire Alarm Systems /
Premier 48 M Plus Repeater Panel (PMP48-REP, PMP48-REP/M)
The Premier 48 M Plus repeater is available in 2 versions – standard & multiple. The standard repeater offers display & control functions, however is limited to one per system. The second version allows multiple repeaters on the same system however they do not have any control functions (i.e. they cannot be used to silence or reset the system). A single repeater can be powered from the panels’ auxiliary 24V supply. If more than one repeater is to be used, a separate 24V is required.
Model
PMP48-REP
PMP48-REP/M
Part No.
37-037
37-038
Functions
Display & control
Control only
Supply Voltage
20–30V DC
Maximum Quantity Per System
1 Serial Repeater A
Connections
Serial Repeater A +24V DC 0V
14
Operating Temperature
0°C to 50°C
Enclosure Size
480 x 330 x 60mm
Weight
4.8kg
5
Conventional Fire Alarm Systems /
Premier MX Conventional Fire Alarm Panel (MX-16 & MX-32)
The Premier MX ranges of panels are available in either 16 or 32 zone versions and have been approved by LPCB to EN54 parts 2 & 4. The panels offer an extensive range of configuration options whilst remaining easy to install and configure.
Model
MX-16
MX-32
Part No.
37-140
37-142
Detection Zones
16
32
Supply Voltage
230V AC +/- 10%
Zonal one-man test facility
System Voltage
24V DC (Nominal)
Zone Voltage
24V DC (Nominal) Relay, SELV @ 1A
Latching or non-latching zones
Zone End of Line
22uF, 35V Axial Capacitor
Sounder Output
4 X 1.0A @ 24V DC
Sounder EOL
3K9 Resistor
Aux DC Output
24V DC (Nominal) 1A
Repeater option
Yes Remote Evacuation Remote Silence Alarms
Panel Inputs
Remote Reset Class Change Panel Outputs Fault Routing Relay, SELV @ 1A Fire Routing Relay, SELV @ 1A
Features LPCB Approved to EN54 parts 2 & 4
Delayed or non delayed zone operation Standard or intrinsically safe zone mode Short circuit to fire mode for compatibility with old detectors
Fire Protection Relay, SELV @ 1A Disablement Active (Open Collector Output) Evacuation Active (Open Collector Output) Buzzer Active (Open Collector Output)
Zonal or common alarm operation (requires output expansion PCBs) Latching or non-latching fault modes Fault routing, fire routing & fire protection relays can be programmed as 24V output (monitored) or volt free Fault routing, fire routing & fire protection relays can have delayed operation in any configuration The panel is available as flush mount on request Repeater panel option (up to 5 maximum per panel)
RS 485 Repeater Connection
Operating Temperature
-5°C to 40°C
Size
325 x 370 x 126mm 400 x 441 x 131mm
Weight
7.05kg
9.35kg
15
Conventional Fire Alarm Systems /
Fyreye Extra Conventional Optical Smoke Detector (FEOE2000) The Fyreye Extra optical smoke detector uses a pulsing IR LED & photodiode to detect IR scatter caused by smoke entering the chamber. The detector is particularly suitable for detecting optically dense smoke, involving materials such as soft furnishings, PVC, plastic, foam and all similar materials which produce small visible particles (0.5 to 10μm). The detector will work with most modern fire alarm control panels and comes supplied with a locking grub screw to prevent unauthorised head removal. The Fyreye Extra range of detectors has an extra LED to improve detector identification in an alarm condition.
100mm
37mm
Features Designed to meet EN54 requirements Attractive design Dual LEDs for 360° visibility Lockable base to stop unauthorised removal Compatible with all Fyreye bases
16
Model
FEOE2000
Part No.
80-022
Detector Class
Optical Smoke
Design Standard
EN54 part 7
Approval
DIFT
Operating Voltage
9-33V DC
Quiescent Current
65μA
Alarm Current @ 24V DC
53mA MAX
Operating Temperature
-10°C to +50°C
Minimum Continuous Temperature
0°C
Maximum Humidity
95% RH non-condensing
Alarm Condition
2.4% obscuration per metre
Coverage
100m2
IP Rating
IP43
Start-up Time
10 Seconds
Size (with Base)
100 x 37mm (101 x 53mm)
Weight (with Base)
95g (153g)
Conventional Fire Alarm Systems /
Fyreye Extra Conventional Rate of Rise and Fixed Heat Detectors (FEHE2000 & FEFHE2000) The Fyreye Rate of Rise heat detector (FEHE2000) uses a thermistor arrangement to sense a quick rise in temperature and also a final threshold temperature of 57°C. The Fyreye fixed heat detector (FEFHE2000) has a single thermistor arrangement that gives an alarm at a temperature of 90°C. The detectors will work with most modern fire alarm control panels and comes supplied with a locking grub screw to prevent unauthorised head removal. The Fyreye Extra range of detectors has an extra LED to improve detector identification in an alarm condition.
100mm
48mm
Features Designed to meet EN54 requirement Lockable to base to stop unauthorised removal Remote LED output Dual LEDs for 360° visibility Compatible with all Fyreye bases
Model
FEHE2000
FEFHE2000
Part No.
80-038
80-039
Detector Class
Rate of Rise & Fixed Heat Detector
Fixed Heat Only
Design Standard
EN54 part 5
Approval
DIFT
Operating Voltage
9-33V DC
Quiescent Current
40μA
Alarm Current @ 24V DC
34mA
Operating Temperature
-10°C to +50°C
Minimum Continuous Temperature
0°C
Maximum Humidity
95% RH non-condensing
Alarm Condition
Rate of rise or fixed heat trigger @ 57°C
Coverage
50m²
IP Rating
IP43
Start-up Time
10 Seconds
Size (with Base)
100 x 48 mm (101 x 64 mm)
Weight (with Base)
75g (133g)
Fixed heat trigger @90°C
17
Conventional Fire Alarm Systems /
Fyreye Extra Conventional Opto-Heat Detector (FEOH2000) The Fyreye Extra opto-heat detector incorporates both an optical chamber and heat sensing element with advanced detection technology & discrimination algorithms. This multisensor is the perfect replacement for ionisation detectors. The detector will work with most modern fire alarm control panels and comes supplied with a locking grub screw to prevent unauthorised head removal. The Fyreye Extra range of detectors has an extra LED to improve detector identification in an alarm condition.
Features 100mm
50mm
Advanced electronic technology used to minimise false alarms Designed to meet EN54 requirement Built-in 10 seconds alarm verification Lockable to base to stop unauthorised removal Remote LED output Dual LEDs for 360° visibility Compatible with all Fyreye bases
18
Model
FEOH2000
Part No.
80-025
Detector Class
Optical / Heat
Design Standard
EN54
Approval
DIFT
Operating Voltage
17-20V DC
Quiescent Current
100μA
Alarm Current @ 24V DC
70mA MAX
Operating Temperature
-20°C to +60°C
Minimum Continuous Temperature
0°C
Maximum Humidity
95% RH non-condensing
Alarm Condition
3% obscuration per metre
Coverage
100m²
IP Rating
IP43
Start-up Time
10 Seconds
Size (with Base)
100 x 50mm (100 x 66mm)
Weight (with Base)
95g (153g)
Conventional Fire Alarm Systems /
Fyreye Conventional Ultra-Violet Flame Detector
(FEUV2000)
The Fyreye ultra-violet flam detector is particularly suited to applications where flames can be expected to develop initially rather than smoke. This is typically due to the nature of the materials being protected for instance camera film, computer, audio & video tapes or disks. The detector is for indoor use only and should not be exposed to spurious sources of UV, such as sparks, uncovered halogen lights, lightening, etc. as these may trigger a false alarm. Due to the operational nature of flame detectors it is generally recommended to fit just one detector per zone.
Features
0° 30°
30°
60°
60°
90°
90° ANODE CATHODE
UV EMISSION POINT
0° 30°
Low profile shape
VERTICAL VIEWING (top fig.)
The detector is solar blind and incorporates an electronic filter to eliminate unwanted alarms from naturally occurring phenomena
HORIZONTAL VIEWING (bottom fig.)
Fast response time
30°
60°
High immunity to electrical noise & RF interference
60°
90°
90° ANODE CATHODE
Horizontal & Vertical Detector Field Of View
Model
FEUV2000
Part No.
80-045
Detector Class
Ultra Violet Flame Detector
Operating Voltage
12-28V DC
Quiescent Current
320μA
Alarm Current @ 24V DC
45-50mA
Operating Temperature
0°C to 45°C
Minimum Continuous Temperature
0°C
Maximum Humidity
95% RH non-condensing
Alarm Condition
10 seconds for 30mm flame @ 4 metres
Detection Angle
120°
UV Sensitivity
185-260nm
Size (with Base)
98 x 36mm (98 x 52mm)
Weight (with Base)
85g (143g)
19
Conventional Fire Alarm Systems /
Fyreye Conventional Detector Bases (FE-CB, FE-DB, FE-RB)
FE-CB
FE-CB/S
There are 3 types of base available for the Fyreye conventional range of detectors namely common base, diode base and relay base. The Fyreye common base and diode base are available in standard, shallow or deep versions. The common base is used on systems that do not need to keep line integrity on head removal and also on addressable systems.
Model
20
FE-CB/D
The diode base is used on systems that do need line integrity on head removal. This would include all conventional systems that mix detectors & call points on the same line (please note that the Premier M Plus panels will need an active end of line to work with diode bases). The relay base is mainly used on 12V security systems to signal detector operation to the panel. They can
FE-CB
FE-CB/S
FE-CB/D
80-050S
80-050D
FE-RB
FE-DB
also be used on 24V fire systems where the activation of a particular detector requires a signal to nearby equipment (for instance door holders). Please note that a remote led indicator cannot be used with a relay base as the detector cannot sink enough current to operate both.
FE-DB
FE-DB/S
FE-DB/D
FE-RB
80-052
80-052S
80-052D
80-054
Part No.
80-050
Type
Common base
Supply Voltage
9-33V DC
Quiescent Current @ 24V
0μA
Alarm Current @ 24V
0mA
15mA
Relay Max Switching Power
N/A
30W, 50VA
Relay Max Switching Power
N/A
30W, 50VA
Diode base
Relay base 24V DC
Relay Max Switching Current N/A
1A resistive
Relay Max Switching Voltage N/A
50V AC
Relay Minimum Capability
N/A
10μA, 10mV
Relay Dropout Voltage
N/A