In the event of a fire, saving lives is always the highest priority. Occupants of a building need to be alerted as early as possible, using alarm devices, so they can leave or be evacuated from the premises. It is a mandatory requirement for sounders to be used as an integral part of the fire detection and alarm system, as they are considered the most important element of all alarm devices.
Visual Alarm Devices are used to supplement sounders, providing an effective means of alerting and evacuating occupants of the building, as part of its fire safety strategy.
EN54-23 Standard for Visual Alarm Devices
The recent release of EN54-23, by the European Committee for Standardization (CEN), clarifies the use of Visual Alarm Devices in fire detection and alarm systems for non-domestic premises.
EN54-23 provides clarity by standardizing requirements, test methods, and performance criteria of Visual Alarm Devices and ensures all device parameters are measured uniformly throughout Europe. Before this release, misinterpretation and confusion over a particular product’s performance was a common concern in the industry as there was no EN standard in existence for VADs.
“Since January 2014, the installation of Visual Alarm Devices has been mandatory, and with the introduction of the EN54-23 standard their use has grown considerably,” says Peter Hauser, Senior Global Product Manager, Fire Detection from Johnson Controls.
Where Visual Alarm Devices are needed
Visual Alarm Devices should be installed in places where audible devices alone would be ineffective
Regulations and codes of practices recommend that Visual Alarm Devices should be installed in places where audible devices alone would be ineffective, or, where they are simply undesirable.
Peter explains, “Typical applications where Visual Alarm Devices should be installed are areas with deaf or hard of hearing people, including, hospitals, hotels, public assembly buildings, and broadcasting studios. They should also be installed at manufacturing sites and where people wear hearing protection due to high ambient level noise.”
Important requirements for Visual Alarm Devices
There are four main requirements that each Visual Alarm Device needs to achieve to be compliant with EN54-23:
- There needs to be a minimum illumination level of 0.4 lux in the area covered by the VAD.
- Secondly, the flash rate should be set at 0.5Hz to 2Hz.
- The flash color is another important criterion depending on how the evacuation process has been defined. Red or white light could be used for a single stage evacuation process, while amber may be used for the first stage in a multistage evacuation process.
- the red filter absorbs green and blue light to only let the red light pass. This means higher power consumption is needed for red lights to achieve the same light levels of white light. This definitely needs to be taken into consideration when the fire alarm system is designed.
- The fourth criterion is the installation category which refers to the area illuminated by the Visual Alarm Devices. These are mainly classified by the wall, ceiling, and open class categories. There is also a distinction between devices for indoor and outdoor use.
Due to the latest technologies, the range of coverage with VADs has increased. Depending on the category, the diameter of coverage ranges between 7.5m and 15m, meaningless devices are required to reach the same exposure.
Faster evacuation with a shorter pulse length
Shorter pulse durations of LED Visual Alarm Devices will result in improved reactions as attention is drawn sooner
Another challenge, next to alerting people as early as possible, is to really stimulate their reaction so they understand they have to leave the building. Independent laboratory tests show that the way people react to a Visual Alarm Device is influenced by the duration of the pulse.
“Interestingly, the shorter the pulse duration, the faster the reaction,” Peter clarifies. Consequently, shorter pulse durations of LED Visual Alarm Devices will result in improved reactions as attention to the light is drawn sooner. In practice, this means that the LED devices of a Visual Alarm should not exceed 20ms of the pulse duration to enable the fastest reaction possible
Disruption only in the case of emergency
Regular testing of fire detection systems is necessary but often disruptive, especially in buildings such as hospitals or hotels.
The latest Visual Alarm Devices available offer automatic self-test features which minimize disruption during testing. Automatic self-tests can be scheduled at any time and the test duration is less than 1 second per device, so there is less or even no disruption for occupants.
Additionally, accuracy is high as they monitor real physical outputs and not just electrical simulations.
Full potential with Fire Risk Assessment
Visual Alarm Devices offer an effective and fast way to alert and evacuate people in the case of an emergency.
Environmental conditions, ambient light levels, and other factors will determine the type and specification of the devices required. Therefore, it is advisable to carry out a fire risk assessment of the area to be covered before applying any system design. This will maximize the effectiveness of the system, greatly increasing the potential to save lives.