Static Systems Logo
Contact Head Office: +44 (0) 1902 895 551
Email: reception@staticsystems.co.uk
made in britain Logo

Open, closed and digital protocols

What are protocols?

The term ‘protocols’, when used with reference to electronic products, refers to the way in which the products communicate with each other. People use ‘language’ to say things to each other; electronic products have a simplified ‘language’ which is termed a ‘protocol’.

Protocols are often referred to as ‘open’, ‘closed’, ‘digital’ and ‘analogue’. It is important to be sure what each term means when comparing different types of intelligent fire detection system.

Building Service Protocols

With the development of more and more products that need to communicate with each other; in particular products used for building services in sophisticated modern buildings, the need has arisen for protocols to be agreed across a whole range of manufacturers or even entire industries. For instance, the electrical trade has systems for switching large numbers of current-consuming devices, such as lights, by using simple loop wiring and a protocol, rather than miles and miles of cables for individual circuits. Examples of such protocols are ‘LonWorks’ and ‘EIB’.

Because such protocols are available for any manufacturer to use, they are often referred to as ‘open’. The fire detection industry does not currently use such protocols and the term ‘open’ has come to mean something different in this particular industry.

Fire Industry Protocols

In the fire detection industry intelligent systems use control panels and detectors (and, of course, devices such as interfaces) which communicate with each other by means of a protocol. Some manufacturers offer both panels and detectors. These companies have ‘closed protocols’.

Manufacturers of equipment using closed protocols claim that all elements of their equipment (detectors, panels, call points, interfaces, special detectors such as beam detectors) will work harmoniously with each other, since it is all designed and made by the same company. The implication is that a system comprising detectors and interfaces from one manufacturer and panels from another cannot work as well with each other.

Open Protocols

The manufacturers of the components of a system with an open protocol would reply that products from different manufacturers of fire products work just as well with each other as does, for example, a MacClaren racing car with a Mercedes-Benz engine. Indeed, there might even be an advantage in having different specialist manufacturers concentrating on their own skill areas.

After-sales Service

Whatever the arguments for either system may be, one point is indisputable: the owner of a fire protection system with a closed protocol is dependent on just one supplier for all spare parts, servicing, modification and upgrade of the system, since no other manufacturer’s products will be compatible.

The owner of a system using an open protocol can freely choose a different company to service the system or to supply different upgrade equipment.

Analogue and Digital Protocols

The term ‘analogue’ is used to describe a signal which goes up and down steplessly.

Signals that record phenomena such as the increase of smoke or heat are necessarily analogue at source and this is why fire detectors are described as analogue. For example, a heat detector will record stepless increase in temperature from a typical starting point of 20-21ºC (comfortable room temperature) to an alarm level of 55ºC, however fast the increase.

Each point on the analogue signal indicates a particular value. The problem with analogue signals, however, is that, if, during transmission, electrical corruption affects the signal, a ‘2’ might appear as a ‘3’ for example.

Digital Signals

The word ‘digital’ describes a signal that consists of a series of ‘0s’ and ‘1s’ or ‘offs’ and ‘ons’ which go to make up a message in binary arithmetic. The advantage of this system is that there is a much lower risk of the signal being poorly transmitted and hence giving wrong information.

Apollo fire detectors have always used a digital protocol which has remained basically unchanged since its inception in 1986. It has been extended – in two steps, once for 'XP95' and a second time for 'Discovery' – but never modified.

Most detector manufacturers have now adopted digital transmission protocols.

Summary

In summary, an open protocol allows freedom of choice by the specifier, the installer and the end user of the fire detection system.

A digital protocol is much less susceptible to corruption than the analogue protocol and is to be preferred in a system which is life-critical.

Apollo and Hochiki have a digital, open protocol.


This information is based around information provided courtesy of Apollo Fire Detectors Limited

<< Back

Contact us

Your security and privacy is important to us and we will not share your details with third parties.

* Required fields

  • Subscribe
    Subscribe to our newsletter


Give us a call

+44 (0) 1902 895 551
Head Office
Heath Mill Road,
Wombourne, Staffordshire,
WV5 8AN, England.

Get directions