Posts Tagged aico ionisation alarms

What Aico Fire Alarms works where? Aico Advice: Make Sure You Fit the Right Alarm!

Posted by sparksdirect in ask Mr Sparks, fire alarms, guest expert, technical data, website update on February 10, 2011

We have previously introduced the Aico Product Selector guide, especially the Domestic alarm selector, choosing what alarms to fit and where, based on BS 5839-6:2004. Recently, they put more information on their website regarding the Aico Fire Alarms – and today we would like to inform all our customers and visitors about What Aico Fire Alarm Works Where? Make Sure You Fit The Right Fire Alarm! Check out below the simple tips and the places where you can site the domestic fire alarms from Aico. You can read this article in its entirety on the What Works Where? page at Aico.co.uk.

There are all different types of smoke/heat alarm available. Each alarm type responds to different types of smoke or levels of heat, so each is better suited to different areas of the home. Have a look at the diagram below to see what type of alarm to fit in the different areas:

The Aico Multi-Sensor Fire Alarm

The Multi-Sensor contains two sensors – Optical and Heat. It responds to both slow smouldering fires (Sofas, TVs) and fast flaming fires (Papers, Clothing). More about the Aico Multi-Sensor alarms.

Ask for the Aico Ei2110 – Mains powered with rechargeable Lithium back-up

The Aico Optical Smoke Alarm

Proven Optical Sensor. It is more responsive to smouldering fires (Sofas, TVs). More about the Aico Optical Smoke Alarms.

Ask for the Aico Ei166RC – Mains powered with rechargeable Lithium back-up
Ask for the Aico Ei146 – Mains powered with Alkaline battery back-up

The Aico Heat Alarm

Heat Sensor (triggers at 58°C). It responds to heat build-up from large flaming fires. More about the Aico Heat Alarms.

Ask for the Aico Ei164RC – Mains powered with rechargeable Lithium back-up
Ask for the Aico Ei144 – Mains powered with Alkaline battery back-up

The Aico Ionisation Smoke Alarm

Proven long-life ionisation sensor. It is more responsive to flaming fires (Papers, Clothing). More about the Aico Ionisation Smoke Alarms.

Ask for the Aico Ei161RC – Mains powered with rechargeable Lithium back-up
Ask for the Aico Ei141 – Mains powered with Alkaline battery back-up

Read more about the Aico Fire Alarms – Tips for the Aico Domestic fire alarms, smoke alarms, and heat alarms:

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Selecting the correct fire detection system: optical alarms, ionisation alarms, heat alarms

Posted by the electrician in all-time best-seller, ask Mr Sparks, fire alarms, technical data on May 28, 2010

In the full guide on selecting the right fire alarms for your home, after the Aico Tips fitting a smoke alarm into a domestic dwelling and the demands of the Building Regulations (grades and categories, etc), please find below the most used fire detection systems – the Optical Alarms, the Ionisation Alarms, the Heat Alarms, and the Multi-Sensor Alarms.

Types of Fire Alarms – The Optical Alarms

The optical sensors are more responsive to smouldering fires producing large particle smoke typical of fires involving furniture and bedding. They are more immune to invisible smoke produced by ‘burning the toast’ and similar cooking fumes. This makes them ideal for siting in hallways close to kitchens where false alarms from ionisation alarms may be a particular problem. The BS 5839: Pt.6: 2004 Standard recommends the use of optical alarms in circulation spaces of a dwelling, such as hallways and landings. Optical alarms are prone to false alarm if exposed to steam and should not be located too close to poorly ventilated bathrooms or shower rooms. Examples of Aico Optical Alarms: the Aico Ei146 and Aico Ei166RC.

How do the optical alarms work?

A light beam is pulsed in the sensor chamber every 10 seconds to ‘look’ for smoke. Any smoke present has to be visible to the naked eye so that the receptor can ‘see’ it. If no smoke is detected, the alarm will remain in a standby state.
Using the light scattering principle when large particle smoke is detected, the light beam will be scattered onto the light receptor or using the obscuration principle when sufficient number of large particles of smoke are detected and prevent the light beam reaching the receptor.
This will then send an electrical signal to the IC (Integrated Circuit).
This causes the alarm to sound.

Types of Fire Alarms – The Ionisation Alarms

The ionisation type sensors are particularly sensitive to the almost invisible smoke produced by fast flaming fires. This makes them more liable to false alarm due to cooking fumes if sited in a hallway close to a kitchen. Ionisation alarms are less vulnerable to false alarms caused by dense tobacco smoke, excessive dust and insect ingress. The BS 5839: Pt.6: 2004 Standard recommends that ionisation alarms should not be used in hallways and landings, where there is a risk of false alarms caused by cooking fumes. Examples of Aico Ionisation Alarms – the Aico Ei141 and the Aico Ei161RC.

How does the Ionisation Alarm work?

Inside the sensor chamber is a minute (safe) radioactive element that ionises the air within. This causes a small current to flow in the chamber and this will remain constant for the life of the alarm unless smoke particles enter.
When smoke enters the sensor chamber, the balance of the current is disturbed.
This is detected by the electronics in the alarm circuitry and a signal is sent to the Integrated Circuit (IC).
This causes the alarm to sound.

The Insect Screen – The Smoke Alarms are sophisticated electronic devices. Protection from external contamination is vital to maintain the fire detecting sensitivity of the product and to minimise false alarms. A fine mesh insect screen reduces false alarms caused by insect contamination and fibres, whilst allowing free access of smoke to the sensor chamber.

Types of Fire Alarms – The Heat alarms

The heat sensors are less likely to cause false alarm problems as they are not responsive to any type of smoke or fumes, only heat. Because of the potential for a slower response than smoke alarms, they should only be used in a fire alarm system that also includes smoke alarms, and all of the alarms must be interconnected. The BS 5839: Pt.6: 2004 recommends that heat alarms should be used in kitchens. It goes on to suggest that they may also have a role to play in the main living room but they should not be installed in circulation spaces or areas where fast response to fire is required. Examples of Aico Heat Alarms – the Aico Ei144 and the Aico Ei164RC.

How does the Heat Alarm work?

A thermistor (a heat sensitive resistor) is sited in the sensor chamber of the alarm.
When the temperature raises the resistance of the thermistor reduces.
The IC continuously monitors the resistance of the thermistor. When this indicates the temperature is 58ºC or over, the IC sends a signal to the sounder circuit.
The alarm then sounds.

Types of Fire Alarms – The Multi-Sensor Alarm

The Multi-Sensor combines the best features of an optical alarm – quick response to slow smouldering fires and immunity to kitchen fumes, with the best features of a heat alarm – quick response to a fast flaming fire and immunity from contamination. This makes it the ideal choice for all rooms in a dwelling except a kitchen. The Multi-Sensor alarm is less prone to contamination and effectively eliminates the problems of nuisance alarm associated with the ionisation and the optical type alarms. Example of Aico Multi-Sensor Alarm – the Aico Ei2110.

How does the Multi-Sensor Alarm work?

A custom algorithm written into the integrated circuit monitors and interprets the signal from:
- An ultra fast temperature sensor and
- A high performance optical sensor.
This combination allows detection of both fast flaming and slow smouldering fires.
This means the alarm will respond quickly to a wider range of fire types than any of the other individual sensor types.

You can read more about the Alarm sensor types and their positioning, wiring, and interconnection; the Aico Optical Smoke / Fire / Heat alarms; and about the Aico Ei2110 multi-sensor alarm for the ultimate home protection. You can purchase the Aico Fire Alarms (domestic heat alarms, ionisation alarms, optical alarms, and smoke alarms) via the Fire and Security section on our website.

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The Aico Ei160RC series interconnection – mains powered alarms, hard-wired or RadioLINK

Posted by sparksdirect in ask Mr Sparks, fire alarms, technical data, website update on March 22, 2010

The Aico Ei160RC series, fully introduced online via the fire-detect website and also via “Heat Alarms, the Specifier Range Aico Ei160RC” and the RadioLINK wireless communication with Aico Ei160RC series, is a mains powered alarms series with rechargeable Lithium Back-up. Actually, the back-up battery lasts up to 10years, and it is one of the best ever invented yet. Incorporating the Easi-fit technology(very easy to fit and install), this range of fire alarms can be either hard-wired or connected via RadioLINK(with the Aico Ei168RC base). Also, all the devices in this range have an incorporated test and hush button, and they come with a 5 year guarantee. This range of Fire Alarms, the Aico Ei160RC series, is ideal for social and rented properties.

If we were to see some more specific list of features / suggestions for the fire alarms in the Aico Ei160RC range, we will find out the following:

Aico Ei166RC – Optical alarm

The Aico Ei166RC is more responsive to the smouldering fires(sofas, TVs, etc);
Incorporates a proven optical sensor with insect screen to reduce false alarms;
Third party accredited by BSI(BS EN 14606:2005, KM 522831);
To be sited: in the hallway, in the landing areas, or in the living room;
If it is interconnected with the RadioLINK Ei168RC, it can be wirelessly connected to the other devices;

Aico Ei164RC – Heat Alarm

The Aico Ei164RC responds to heat build-up from large flaming fires;
The heat sensor triggers at 50 degrees Celsius;
Third party accredited by BSI (BS 5446-2:2003, KM 83678);
To be sited: in the kitchen or in the garage;
If it is interconnected with the RadioLINK Ei168RC, it can be wirelessly connected to the other devices;

Aico Ei161RC – Ionisation Alarm

The Aico Ei161RC is more responsive to flaming fires(papers, clothing);
It has a proven long life ionisation sensor;
Third party accredited by BSI (BS EN 14604:2005, KM 522831);
To be sited: in the bedroom;
If it is interconnected with the RadioLINK Ei168RC, it can be wirelessly connected to the other devices;

Aico Ei160RC series – hard wire interconnection

For the Aico Ei160RC series to be hard-wire interconnected you will need:

Relay Base - the Aico Ei128R(fits under the alarms, has volt-free relay contacts; also available as the Aico Ei128RBU with battery back-up);
Remote control switch – the Aico Ei1529RC(test and hush alarm, identity triggered alarm, it can be wired anywhere in the system);
Switched input module – the Aico Ei129(connects to the switched contacts, and triggers the alarms when contacts are close);
Optional Alarm for Hard of Hearing – the Aico Ei169/160(mains alarm with battery back-up, flashing strobe, vibrating pad for pillows);
Optional CO alarm – the Aico Ei261ENRC(Mains alarm with rechargeable back-up, can interconnect with the smoke alarms, and must use an Aico Ei1529RC switch);
Call point – the Aico MCP401RC(no replacing glass, reset with key, can be wired anywhere in the system);

Aico Ei160RC series – RadioLINK wireless interconnection

For the Aico Ei160RC series to be connected via the RadioLINK base – wireless interconnection – you will need:

Relay Module – the Aico Ei428(mains with rechargeable back-up, volt-free relay contacts, the Aico Ei428SK is pre-wired for Warden Call);
Remote control Switch – the Aico Ei411H(test and hush alarms, identify triggered alarm, completely wireless, battery powered – up to 10years life);
Switched input module – the Aico Ei408(connect to switched contacts, triggers alarms when contacts are close);
Repeater module – the Aico Ei420(mains powered, repeats the RF signals, extends range);
Optional Alarm for Hard of Hearing – the Aico Ei170RF/Aico Ei171RF(mains with battery back-up, strobe and vibrating pad for pillows, Aico Ei171RF strobe only);
Optional CO alarm – the Aico Ei262(mains alarm with rechargeable back-up, wireless interconnect with smoke alarms; must use an Aico Ei411H switch);
Call point – the Aico Ei407(no replacing glass, completely wireless, battery powered – up to 10year life);

To purchase the Aico Ei160RC series, visit the Aico Domestic Fire Alarms, and choose the right one for your need.

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Aico Mains Powered Smoke, Heat and RF Alarms, FAQ, part 2

Posted by admin in ask Mr Sparks, customer service, fire alarms, standards and regulations, technical data, website update on May 7, 2009

Continuing to answer some of the most frequently asked questions concerning the Aico Mains Powered Smoke alarms, Heat alarms, Fire alarms, etc, below are the last 18 questions(the whole set of questions are also on fire-detect.co.uk). The first set, the first 17 questions, can be found here.

17. What cable do I need for the Aico Mains connections and where should the supply be taken from?
18. What cable do I need for the interconnect line?
19. How do I mount the Aico Alarms on the ceiling?
20. Can I fit the Aico Smoke or Heat Alarm on the wall?
21. How many Aico Smoke and Heat Alarms can I link together?
22. Can I use a relay to signal other devices?
23. Can I use the relay to connect to a 24 Volt Fire Alarm System?
24. How often should they be tested?
25. Should they be tested with smoke/heat?
26. What maintenance schedule is recommended?
27. How long will the battery last?
28. How will I know if the battery has failed?
29. How long do Aico Smoke Alarms last?
30. How do I stop nuisance alarms?
31. What is the radiation risk from Aico Ionisation Smoke Alarms?
32. How do I dispose of redundant Aico Ei alarms that contain a NiCad battery?
33. Are the Aico Ei alarms with rechargeable Lithium Cells compatible with previous models?
34. Why choose Aico Ei Professional Smoke Alarms?

17. What cable do I need for the Aico Mains connections and where should the supply be taken from?

Fitting

We recommend the use of 6243Y 3 core and earth PVC insulated cable to BS6004 standard. Building Regulations and BS 5839: Pt 6 state that mains only alarms with back-up, can be wired from a dedicated circuit at the distribution board, or they can be wired from a regularly used lighting circuit. In both cases, all hard wired alarms should be on a single final circuit.

18. What cable do I need for the interconnect line?

Use the third core of 6243Y cable as stated above. Do NOT use the earth wire of twin and earth cable as this could cause problems of mistaken identity at a later date.

19. How do I mount the Aico Alarms on the ceiling?

The Aico Ei140 and Aico Ei160 series Smoke and Heat Alarms have an Easi-fit mounting plate,which incorporates an enclosure for the electrical connections, so no back box or mounting kit would normally be required.

20. Can I fit the Aico Smoke or the Aico Heat Alarm on the wall?

All of the Aico Ei alarms are designed for ceiling mounting and will under most circumstances perform better if sited in this position. If it really is not practical to mount them on the ceiling, a Smoke Alarm can be wall mounted with the top edge 15-30cm from the ceiling. Ensure that it is 30cm away from any corner or obstruction which may impede the movement of smoke to the alarm. Do not wall mount heat alarms.

21. How many Smoke and Heat Alarms can I link together?

We recommend that under normal circumstances Smoke and Heat Alarms should only be interconnected within the confines of a single family dwelling. If they are connected between different units, there may be excessive nuisance alarms and it can be difficult to locate and silence the unit causing the alarm. However, there is no technical reason why up to 20 alarms cannot be interconnected in a single system that encompasses a number of individual dwellings – such as may be required in an HMO, for instance. In circumstances such as these, a very high level of system design, management and maintenance is necessary to reduce the level of nuisance alarm.

The minimum requirement should be to install a System Remote Control Switch Ei1529RC on each floor of the property. By pressing the locate switch, all alarms in the system are silenced, for a period of approx. 8 – 10 minutes, except for the unit initiating the alarm state. This allows time to rectify the problem before the system is automatically reinstated to full working order.

22. Can I use a relay to signal other devices?

There are a number of options available for using a relay with Aico Ei Smoke and Heat Alarms. All the relays have volt-free output contacts rated at up to 240V and have both Normally Open and Normally Closed connections. There are relay options available for use with mains operated devices such as bells, sounders and door closers. In addition, there are relays available with a battery back-up for use with devices that will operate even in the event of a mains failure, such as Warden Call Systems. The relay can be mounted under an alarm, or can be remotely sited using the optional cover for electrical safety.

23. Can I use the relay to connect to a 24 Volt Fire Alarm System?

Technically it can be used but if the system has to comply to BS 5839: Pt 1 it may not meet all the requirements. For example, it is not possible to silence the sounder in the smoke alarm from the control panel. Many regulatory bodies now recognise that a dual system (smoke/heat alarms in the individual occupancies and a Pt.1 system in the communal areas) in HMOs can be an extremely effective means of reducing the incidence of false alarms. In this instance, subject to approval, it could be an advantage to have this link.

24. How often should they be tested?

Maintenance
We recommend weekly testing by pressing the test button on the alarm/s for between 5 – 10 seconds, or until all interconnected alarms sound. The use of a low level System Control Switch sited at low level can be used to make this easier for the occupier.

25. Should they be tested with smoke/heat?

BS 5839: Pt.6: 2004 recommends that a smoke/heat test is preformed when the system is commissioned. Pressing the test button checks the electronics, interconnect and the horn are operational, so it is our view that it is not necessary to test with smoke or heat and a ‘variation’ can be invoked in order to comply with the standard. However, if it is considered that testing of smoke alarms is a necessity, we would only recommend the use of special purpose built equipment such as the SAT332 Smoke Alarm Tester with the SAA300 Synthetic Smoke Aerosol. This device ensures that sufficient synthetic ”smoke” enters the sensor chamber and remains long enough for the Smoke Alarm to respond. Other methods of smoke testing, e.g. a lighted taper or smoke pellets, can give misleading results. Testers for Heat Alarms are also available. Do Not test with a flame – this can be a hazard in itself.

26. What maintenance schedule is recommended?

The Aico Ei range of Smoke Alarms and Heat Alarms are suitable for use in Grades D, E and F systems as defined in the British Standard which covers alarm systems in domestic dwellings, BS 5839: Pt6: 2004. It states that these alarms “should be cleaned periodically in accordance with the manufacturers instructions”.
Our recommendations are as follows:

Regularly check to see that the green mains power light is on.
Press the test button weekly to check all alarms in the system.
Regularly check that the red light under the test button or on the cover flashes approx. every 40 seconds.
Clean the cover of the alarm regularly using a barely damp, lint free cloth.
On a monthly basis (at least) check the alarm for signs of contamination from dust, cobwebs or insects. Use a vacuum cleaner around the cover of the alarm to remove contamination.
Check (at least annually) that the alarm will operate on back-up battery power only by switching off the mains supply and pressing the test button.

27. How long will the battery last?

This will depend on a number of factors that will differ slightly according to the type of alarm in use. The Aico Ei140 series alarms are supplied with an Alkaline battery which, dependent on conditions, can provide up to 4 years standby supply, up to 2 years without mains power. The Aico Ei160 series alarms are fitted with rechargeable Lithium power cells which are continuously charged by the alarm circuitry. They have a life expectancy greater than that of the Smoke Alarm, i.e 10 years or more,which eliminates the need for replacement.

28. How will I know if the battery has failed?

If either, the voltage of the battery falls to a sufficiently low level, or the internal resistance of the battery reaches a predetermined state, the alarm unit will emit a warning beep every 40 seconds. In the case of the Aico Ei140 series alarms, it is probable that the alkaline battery in the unit requires replacement. Access to the battery is gained by removing the alarm from the Easi-fit mounting plate. The power cells on the Aico Ei160 series alarms are not replaceable. If these units emit a low battery warning beep it is probable that the mains supply has failed. The cables, fuses etc should be investigated and the fault rectified. If the beeping continues the alarm may have a fault and it should be returned for inspection.

29. How long do Smoke Alarms last?

Miscellaneous
There is no technical reason why a Smoke or Heat Alarm should not last up to 10 years, but the actual lifespan will depend to a large extent on where and how the alarm has been sited, installed and maintained. The most common cause of alarm failure is due to contamination of the sensor chamber and/or electronics. In certain circumstances, even with regular cleaning, contamination can build up in the smoke sensing chamber causing the alarm to sound. If this happens the alarm must be returned for servicing or repair. All manufacturers of smoke alarms recommend that their products are replaced after 10 years use.

30. How do I stop nuisance alarms?

False alarms are usually a result of incorrect siting of the Smoke Alarm, by contamination as a result of building/redecoration operation, or poor levels of maintenance. For instance, if Ionisation alarms are sited too close to a Kitchen, false alarm will often result due to invisible cooking fumes reaching the alarm. Optical alarms are liable to contamination from dust and fibres, often associated with building work being undertaken without the alarms being properly covered. The Aico Ei140 and Aico Ei160 series smoke alarms are supplied with a ‘hush button’ that can be pressed to desensitise them to allow time for the source of the problem to be investigated. Use of the ‘hush button’ will only silence the alarm for 8 – 10 minutes after which the alarm will automatically reset. If the cause of the false alarm is contamination, the only method of permanently silencing the alarm is to remove the contamination source. This may not be possible without removal and cleaning of the alarm itself. It can be difficult to reach the hush button in some instances, particularly for the elderly and infirm, so the installation of a wall mounted System Remote Control Switch Ei1529RC should be considered to overcome this problem.

31. What is the radiation risk from Ionisation Smoke Alarms?

The National Radiological Protection Board (NRPB), UK have carried out extensive tests on Aico Ei professional Ionisation Smoke Alarms and have concluded that they are radiologically safe. They estimate that we receive 10,000 times as much radiation from our surroundings as we would from an ionisation alarm in normal use.

32. How do I dispose of redundant Aico Ei alarms that contain a NiCad battery?

The early 150 series alarms contained a NiCad battery and some may now be reaching their end of life. The Cadmium contained within the battery is a restricted substance under The Batteries and Accumulators Regulations 1994 and cannot be disposed of in normal waste. Aico / Ei Electronics take their responsibilities to the environment seriously, and will accept redundant Ei product back for recycling/disposal. The Aico Ei140 and Aico Ei160 series do not contain NiCAd batteries, so are not subject to disposal restrictions.

33. Are the Aico Ei alarms with rechargeable Lithium Cells compatible with previous models?

These have been designed to be fully compatible with previous Smoke and Heat Alarm models. Therefore if an old model 150 series mains powered alarm should require replacement, the equivalent model in the new 150 series can be easily and safely installed in it’s place. All Aico Ei140, 150 and 160 series alarms are also fully compatible with each other.

34. Why choose Ei Professional/Aico Ei Smoke Alarms?

Ei Professional Alarms are designed and manufactured by Europe’s largest producer of Smoke and Heat Alarms, with over 30 years experience in producing quality life safety devices. The latest techniques are used in the manufacturing process, with the highest quality and reliability standards (including BS EN ISO 9001:2000) being practised to ensure trouble-free performance. The Smoke Alarms and Heat Alarms are fully 3rd Party tested and Kitemarked to the relevant British Standard (BS 5446: Pt.1: 2000 for Smoke Alarms, BS 5446: Pt.2: 2003 for Heat Alarms). All the alarms are easily installed and come with comprehensive instruction leaflets and a 5 year guarantee.

PLEASE NOTE: The information contained in set of articles is only a summary of some of the key points about our Smoke and Heat Alarms. It is not intended to replace the instruction leaflet supplied with the product. Smoke and Heat Alarms must be installed by a qualified person according to the recommendations contained in whichever of the following documents are relevant to the specific installation; BS 5839: Pt.6, Building Regulations and I.E.E. Wiring Regulations. The information supplied in these articles is believed to be in conformity with these codes. However, Ei Electronics / Aico Ltd or Sparks Electrical Wholesalers Ltd cannot be held responsible for ensuring the Smoke and Heat Alarms, as installed, are in compliance with these codes. This is the responsibility of the installer and we recommend that the original source documents are consulted to achieve this end.

Read the first set of the frequent asked questions(the first 16 questions) concerning the Aico alarms:

Check out the available domestic fire alarm systems by visiting the Fire and Security section, Fire Alarms, Domestic Fire / Heat Alarms, where you can find an up-to-date selection of Aico smoke alarms, Aico Heat alarms, Aico CO alarms, etc. – buy online Aico fire alarms via SparksDirect.co.uk. This FAQ can also be found online here, here and on the sparksdirect blog.

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Aico Mains Powered Smoke, Heat and RF Alarms, FAQ, part 1

Posted by admin in customer service, fire alarms, standards and regulations, technical data, website update on May 7, 2009

Below are the first 16 of the Most Frequently Asked Questions (which are also on fire-detect.co.uk) concerning the Aico Mains Powered Smoke, Heat and RF Alarms:

What are the fire alarm requirements for New – Build properties?
What is a Grade D system?
What do LD2 and LD3 mean?
What are the requirements for existing properties?
What is a Fire Risk Assessment?
If I install an LD2 level of cover can this remove my responsibilities to conduct a Fire Risk Assessment?
What do I need to do to address the requirements of ‘special needs’ people or groups?
What types of sensor are available?
How do Aico Ei Ionisation and Optical Smoke Alarms work?
What are the advantages and disadvantages of both sensor types ?
How do Aico Ei Heat Alarms work?
Which Alarm should I use where?
Where should alarms be sited?
How many do I need?
Where shouldn’t the Aico Smoke Alarms be sited?
Will they always work?

1. What are the fire alarm requirements for New – Build properties?

Standards & Regulations for the Domestic Fire Alarm Systems

The BS 5839: Pt.6: 2004 recommends that a new-build property consisting of no more than 3 storeys (less than 200sqm per storey) should be fitted with a Grade D, LD2 system
The Building Regulations in England,Wales & Scotland recommend that BS 5839: Pt.6 should be followed, but as a minimum a Grade D, LD3 system should be installed.
The Building Regulations in Northern Ireland require a Grade D, LD2 system to be installed, with smoke alarms fitted in the escape routes and the main living room and a heat alarm in the kitchen

2. What is a Grade D system?

The BS 5839: Pt.6 standard places different alarm types into Grades, simply described as follows:

Grade A – a system of detectors and sounders with control and indicating equipment (a panel & perhaps call points)
Grade B – a similar system to Grade A with some minor amendments.
Grade C – detectors and sounders, or smoke alarms, with some control features.
Grade D – mains smoke & heat alarms with a battery back-up supply.
Grade E – mains only smoke & heat alarms
Grade F – battery only smoke & heat alarms

3. What do LD2 and LD3 mean?

This refers to the level of coverage supplied by the system to be installed. Simply put, the number of alarms to fit in the property. The BS 5839: Pt.6 standard lists three ‘Categories’ of system and these are summarised as follows:

LD1 – alarms fitted in all rooms or areas where a fire may start.
LD2 – alarms fitted in escape routes and high fire risk areas e.g hall, landing/s plus kitchen and main living room.
LD3 – alarms fitted in escape routes only e.g hallway and landing/s.

4. What are the requirements for existing properties?

The Building Regulations do not cover existing properties (unless material alterations are taking place e.g an extension). In this type of property BS 5839: Pt.6 should be followed. The minimum requirement for a 2 storey rented property would be Grade D, LD3, but the standard does recommend that a Fire Risk Assessment should be conducted to correctly determine what system should be installed.

5. What is a Fire Risk Assessment?

This is where each individual property is assessed for the fire risk present. The property itself must of course be assessed, as there may be an unusual layout, or other features that could contribute to the consequences of a fire. However, the occupier is often the greatest factor in firstly whether a fire is likely to occur, and secondly what the consequences of the fire are likely to be. The Fire Risk Assessment should be an on-going process that may require amendment at any time. Clearly, this would be very time consuming and create many problems for landlords. To overcome this many landlords are finding that it is easier and possibly cheaper in the long run to install an LD2 category of cover in all properties to minimise the need to undertake a Fire Risk Assessment on every property.

6. If I install an LD2 level of cover can this remove my responsibilities to conduct a Fire Risk Assessment?

The short answer is no! The installation of a Grade D, LD2 system will almost certainly be acceptable for general needs properties, but there may be special needs people or groups that require additional protection e.g alarms for the deaf, and these should be identified. It is likely that specific support groups have this information and may be able to assist.

7. What do I need to do to address the requirements of ‘special needs’ people or groups?

This will depend entirely upon what their special needs are! Some examples are: the elderly or infirm and the deaf or hearing impaired. The elderly and/or infirm may require additional protection from fire due to the fact that they may be less mobile. Consequently, additional alarms should be considered perhaps in bedrooms. In addition, these groups cannot be expected to climb steps or chairs to test the alarm system. In these instances a Remote System Control switch could be fitted to alleviate this problem. There may also be a need to have a connection to a Warden Call system to alert them to a problem in the dwelling. This can be achieved in most systems by the addition of a relay. The deaf cannot hear a standard smoke alarm, so it may be necessary to add a strobe and vibrating pad to the smoke alarm system.

8. What types of sensor are available?

Choice of Alarm Sensor Type

The Smoke alarms incorporating either an Ionisation or an Optical sensor are available in mains with Alkaline battery back-up, or mains with rechargeable Lithium back-up formats.
The Heat Alarms are also available in these ranges, but these only sense heat; not smoke. A comprehensive Fire Alarm system will contain all 3 elements of detection.

9. How do Aico Ei Ionisation and Optical Smoke Alarms work?

Ionisation Smoke Alarms contain a small sealed ionising source which causes a small electrical current to flow through the air in the smoke chamber. Smoke particles entering the chamber reduce the current, this is sensed by the electronics and when a pre-set threshold level is reached the alarm will sound.
Optical Smoke Alarms send a pulsed beam of infra red light through the smoke chamber periodically. If visible smoke is present, it scatters the light on to the photodiode light receiver and this is detected by the electronics causing the alarm to sound. Aico Ei Optical Alarms are individually calibrated to ensure correct operation and to reduce the risk of nuisance alarm.

10. What are the advantages and disadvantages of both sensor types ?

Both have a sufficiently wide range of response to different types of fire to be of general use. However: Ionisation Alarms tend to respond quicker to fast flaming fires producing small smoke particles (e.g flaming wood, petrol). This makes them particularly sensitive to the “invisible” particles produced by toasting, grilling or frying. They are also susceptible to nuisance alarm when redecoration takes place. In view of this, they should be located well away from the sources of such fumes or particles. Optical alarms tend to respond faster to slow smouldering fires producing large smoke particles (e.g smouldering wood, overheating PVC wiring). They are somewhat more susceptible to contamination from dust and fibres so they should not be installed in particularly dusty areas. Both should be removed, or fully covered when renovation work is being carried out.

11. How do Aico Ei Heat Alarms work?

These are fixed temperature alarms which incorporate a thermistor sensor. The thermistor is a heat sensitive resistor,when the ambient temperature reaches a pre-set point of 58°C, the resistance is lowered and the alarm will sound. They are designed for use in areas where due to high levels of dust or fumes, a conventional Smoke Alarm is not suitable. They are particularly suited for use in a kitchen (source of 40% of domestic fires), garages or boiler rooms. Although they are stand alone units they should be interconnected with our Smoke Alarms to provide an adequate warning system in the event of a fire. BS 5839: Pt:6 recommends the use of fixed temperature heat detectors in preference to ‘rate of rise’ types due to the reduced risk of nuisance alarm which can be caused by opening hot oven doors etc.

12. Which Alarm should I use where?

Both types of Smoke Alarms give good performances in a range of situations. The BS 5839: Pt.6: 2004 British Standards that deals with fire alarm systems in dwellings recommends that the choice of detector should take account of the type of fire that may be expected and the need to avoid false alarms. BS 5839: Pt.6 now strongly recommends the use of optical alarms in circulation spaces of a property, such as hallways and landings and areas in which a likely cause of ignition of furniture or bedding is by a cigarette. Ionisation alarms are considered to be more suited for use in rooms where a fast flaming fire may present a greater danger, dining rooms and bedrooms being possibilities. The standard recommends that in new build properties heat alarms should be installed in kitchens and the ‘Principal habitable room’ e.g. living room; in addition to any smoke alarms used in the escape routes.

13. Where should alarms be sited?

Location

They should be sited on the ceiling, close enough to a potential source of fire so they can respond quickly. The Building Regulations requires that the installation of self-contained mains powered with battery back-up Smoke Alarms in all new and refurbished dwelling houses should, at least, meet the following requirements:

Within 7.5m of any door to a room where a fire is likely to start.
On each storey of a multi-storey dwelling.
All Smoke and Heat Alarms in the dwelling should be interconnected.

BS 5839: Pt6 broadly supports these recommendations for alarm systems in existing dwellings, adding that alarms should be sited no more than 3m from bedroom doors so that they can be more easily heard if a fire should occur during the night.We would recommend the fitting of alarms in all rooms (apart from bathrooms and shower rooms) for the earliest possible response. Very large dwelling houses may require more elaborate alarm systems and the relevant sections of BS 5839: Pt6 should be consulted for specific guidance.

14. How many do I need?

One Smoke Alarm in each of the circulation spaces of a property is the minimum recommendation. This would normally mean the hallway, and the landings of any subsequent floors. However, the only way to achieve good coverage is to install an alarm in every habitable room. Building Regulations requires the installation of a heat alarm in the kitchen if there is no door separating it from the circulation spaces. Please note the circulation spaces could be a lounge or dining room in a property where there is no hallway and the stairway leads off a living area.

15. Where shouldn’t Smoke Alarms be sited?

In summary, they should not be sited in Kitchens, Bathrooms, Shower rooms Garages or other places where there are likely to be excessive nuisance alarms from steam, fumes and high levels of airborne contamination. Heat Alarms are considered more suitable for use in Kitchens and Garages, but not Bathrooms or Shower rooms or places where the normal temperature can exceed 40°C.

16. Will they always work?

The only restrictions to the correct operation of a Smoke Alarm system in a fire situation are: that there are a sufficient number of alarms in the system, sufficient smoke reaches the alarms, they are correctly installed and sited, and that they are regularly maintained and tested for correct operation. If all of these factors are right, there is a very high probability that sufficient warning will be given in life-threatening situations caused by a fire.

Go back to the Frequently Asked Questions index, or read more about the rest of the questions:

17. What cable do I need for the Aico Mains connections and where should the supply be taken from?
18. What cable do I need for the interconnect line?
19. How do I mount the Aico Alarms on the ceiling?
20. Can I fit the Aico Smoke or Heat Alarm on the wall?
21. How many Aico Smoke and Heat Alarms can I link together?
22. Can I use a relay to signal other devices?
23. Can I use the relay to connect to a 24 Volt Fire Alarm System?
24. How often should they be tested?
25. Should they be tested with smoke/heat?
26. What maintenance schedule is recommended?
27. How long will the battery last?
28. How will I know if the battery has failed?
29. How long do Aico Smoke Alarms last?
30. How do I stop nuisance alarms?
31. What is the radiation risk from Aico Ionisation Smoke Alarms?
32. How do I dispose of redundant Aico Ei alarms that contain a NiCad battery?
33. Are the Aico Ei alarms with rechargeable Lithium Cells compatible with previous models?
34. Why choose Aico Ei Professional Smoke Alarms?

To view the available domestic fire alarm systems, visit the Fire and Security section, Fire Alarms, Domestic Fire / Heat Alarms, where you can find an up-to-date selection of Aico smoke alarms, Aico Heat alarms, Aico CO alarms, etc. – buy online Aico fire alarms via SparksDirect.co.uk. This FAQ can also be found online here, here and on the sparksdirect blog..

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