by Honeywell
Dessign & Prod uct Guide De
Design & Product Guide INVENTIVE INTELLIGENCE
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How to use this Guide This Design is written for professionals who design and install fire detection systems. Design tips are included to guide new and experienced designers in the best working practices. This Guide is written around the recommendations of the British Standards current at the time of publication. BS 5839:1 2002 recommends that a fire detection system is designed by a competent person who takes responsibility for completing the ‘Design certificate’ with all the design criteria clearly recorded. This guide is designed to act as an aide-memoire and there is no substitute to reading the full standard, which can be obtained from:
by Honeywell
CONTENTS Introduction
1
Fire Detection & Alarm Design
2
Protecting your investment in Gent
3
Conventional Fire Detection
4
Nano System
5
British Standards Institute 389 Chiswick High Road, Chiswick, London w4 4AL Tel 020 8996 9001 or www.bsi-global.com Conditions of Use Gent accepts liability for death or personal injury to any person to the extent that this arises from the negligence of Gent. Except in the case of any liability so arising Gent excludes all liability in relation to this Design & Product Guide. In no event will Gent be liable for direct, indirect, special, incidental or consequential loss or damage, including loss of profits or revenue, loss of use of property property,, loss of data, claims of third parties or for any other similar cost or liability arising out of the use of or inability to use the Design & Product Guide. The Design & Product Guide is provided without condition or warranty of any kind either expressed or implied by law and whether by contract, tort or otherwise. It is for guidance only and it is the users responsibility to ensure that any use made of it is suitable for the users particular purpose: that the Design & Product Guide is properly used: and that any information used in relation to is accurate and complete. Gent reserves the right to make changes or update the Design & Product Guide from time to time. The user should check that he holds the latest latest version of the Design & Product Guide before use. The Design & Product Guide contains confidential information from Gent and all copyright, trademarks under the intellectual property rights in the Design & Product Guide are the exclusive property of Gent and shall not be copied in whole or in part without the prior written permission of Gent. © Gent 2009.
Vigilon System Overview & Control Panels 6 The Power of the Vigilon Loop
7
Voice Alarm System
8
Specification For Analogue Addressable
9
WINMAG Graphics Management System 10
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Contact us For up to date information on Gent’s products and services visit our website at:
www.gent.co.uk The Gent website is designed to be a useful tool for our customers. The site contains Design and Product Guide data which can be downloaded News articles from Gent Case studies from Gent A Consultants area which gives registered users access to useful tools such as specification clauses A Technical Support area with a freequently asked questions section for registered users
Main Contact Details Honeywell Middle East FZE Post Office Box 18530 LOB Building 08 Office 199 Jebel Ali, Dubai United Arab Emirates Tel.: + 971 4 8073200 Fax.: + 971 4 8816202
by Honeywell
Gent by Honeywell
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Gent by Honeywell
Innovation Power Heritage Quality Expertise
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by Honeywell
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Gent by Honeywell
Gent by Honeywell is synonymous with quality and innovation in the fire detection and alarm industry.
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by Honeywell
Since the 1930’s, Gent has been manufacturing fire detection equipment and is proud of it’s heritage and the reputation it has built around the world. In 2005 Honeywell’s acquisition of Gent assured the necessary resource and support required to maintain the strong market position that Gent has created over the years Quality Gent fire detection systems have been developed in to the highest possible standards to deliver the most advanced fire detection and alarm system available in the marketplace today.
Partnership As a conscientious manufacturer of life safety equipment, our responsibility cannot end with the production and sale of our equipment. In order for building and site owners to be confident that their Gent system will protect life and proper ty to the best of its ability, we insist that the system must be designed, installed, commissioned and maintained by competent fire engineering specialists. Gent exclusively supplies its equipment to partners who are selected for their ability to deliver the highest quality of service.
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The Power to Detect
Sensitive to the environment, Gent by Honeywell has extensively researched the characteristics of many types of fire. Only by understanding its components, can we develop the technology to identify real fires. The unique technology in Gent by Honeywell’s S-Quad is an outstanding enhancement to every system, reducing false alarms and quickly detecting real fires. Offering the most advanced solution for early detection and signaling of fires, SQuad is a ground breaker in fire sensing expertise, recognising a real distrinction between nuisance steam caused by hot showers and smoke caused by a real fire.
It is vital that the detection technology is matched to the environment where it operates. Gent’s S-Quad technology goes one stage further allowing you to adapt the detection to follow the environment.
Technology that puts you in control.
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The Power to Control
by Honeywell
Gent by Honeywell’s Vigilon system is the most comprehensive life safety system available in the market today. The combination of the powerful software in the control panel and the intelligent loop powered devices delivers a flexible, easy to use system for all types of buildings Our portfolio has been developed to allow the matching of the system to the application. We don’t mix and match products. Every part of the sophisticated Vigilon system is manufactured by Gent - this ensures consistent, experienced workmanship throughout your entire life safety system.
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The Power to Voice
“It has often been observed that occupants - in the initial moments of a fire, upon smelling smoke or hearing the fire alarm - do not react; they deny there is danger or they ignore the situation. Such avoidance behavior is a dangerous situation often results in a delayed start to evacuating a building or taking protective action.” The safe management of an emergency relies on people in a building receiving clearly understood information. In a modern building, bells and electronic tones are often ignored or confused with non emergencies. Voice alarm messages deliver clear instruction which result in a faster response.
Our solutions employ digital technology and techniques to maximise the intelligibility of the spoken word. Use of recorded messages or live broadcasting provide clear instructions and therefore the safe passage of people out of the building, Gent by Honeywell’s comprehensive voice evacuation portfolio ensures that Gent has the expertise and technology to delive fire detection and voice alarm systems whatever the size or complexity of the site. Gent by honeywell is proud to have the most complete rnage of voice solutions in the industry.
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The Power to Grow
by Honeywell
As businesses and facilities expand, so must the life safety system that protects them. The flexibility of the Gent Vigilon system allows sites to grow, change use and add new buildings. Multi-panel networks can be programmed seamlessly as one system allowing for flexible design and system management. The ability to adapt to your rapidly changing environment whilst ensuring that you maintain complete control over the entire system makes Vigilon the ideal solution for your multi-site network.
All of Vigilon’s control panels can be networked to each other giving you maximum flexibility regardless of the size or use of the site. Vigilon’s capability allows you to add fire only or integrated fire and voice alarm systems to the network.
Delivering peace of mind to all our customers, large and small.
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The Power to Vision
A clear understanding of any situation is essential to allow swift, efficient decisions to be taken and informed direction to be provided. This is equally true for any type of incident - routine, maintenance or emergency. Gent has developed workstation technology to allow situations to be visualised. One sentence does not say much - a dynamic plan of the building with a symbol indicating ‘Fire here’ is easy to understand.
See what is happening, where it is happening. Manage your system - control, maintain or just view the information.
It’s there for you to see.
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by Honeywell
Honeywell
In the critical field of life safety, it is vital that you have confidence in your supplier of fire detection and alarm systems to deliver peace of mind to your customers.
Gent by Honeywell is an independent brand within the global Honeywell organization. A company of depth and integrit, dedicated to delivering customer satisfaction. At Honeywell, we are proud of our innovation in technology to deliver dependable fire equipment that can be relied upon to protect people and property.
Honeywell is a US$33 billion diversified technology and manufacturing leader, serving customers worldwide with aerospace products and services, control technologies for buildings, homes and industry; automotive products; turbochargers and specialty materials. In these days of rapid change, it is reassuring to work with a company that has the resource, innovation and the experience to support the commitments that you make every day to your customers.
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Notes
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Section 2:
by Honeywell
Fire Detection & Alarm Design
Contents •Introduction •System Design •System Installation •System Commissioning •Sensor Application Guide
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by Honeywell
Introduction
This guide provides a basic overview to anyone involved in the design or installation of a fire detection system. It will identify the current legislative requirements as well as clarify the responsibilities placed on the three key roles involved with the provision of a new system, namely the Designer, Installer and Commissioning Engineer, as well as remind the End User or Owner/Occupier what part they play in ensuring that the best possible system is supplied to protect life and property from fire. It is important that everyone involved is conversant with the current British Standard Codes of Practice BS 5839-1:2002 for general buildings and BS 5839-6:2004 for dwellings including those of multiple occupancy. The Installer should also be conversant with the British Standard relating to general wiring BS 7671. This guide, which has been prepared by Gent by Honeywell, one of the UK’s largest manufacturers of fire detection systems, is intended to offer practical advice and is not a substitute for any of the standards or legislation referred to.
Legal elements
Regulations
Regulatory Reform Fire Safety Order 2005*
Building Regulation Approved Document B
Disability Discrimination Act 1995 part III (October 2004)
Building Regulation Approved Document M
All these laws, Building regulations and Standards in some way affect what is included in the system, however the Owner/Occupier is ultimately responsible for the level of protection provided. It is recommended that the Owner/Occupier carries out a Fire Risk Assessment to identify the level of protection required i.e. one of the categories detailed within BS 5839-1:2002 (L1,L2,L3,L4,L5,M,P1 or P2). The full responsibilities of the Owner/Occupier are detailed within the new Regulatory Reform Fire Safety Order* (RRO) that replaced the majority of existing laws within the UK from October 2006. *Note the RRO, at time of press, effects England and Wales whilst Scotland is covered by the Fire (Scotland) Act and NI is still in abeyance.
Any design should be prepared by a competent individual/organisation, who has consulted all interested parties and created a set of drawings, a specification, a cause & effect or fire plan, a list of Variations and completed a G1 Design certificate, detailed within BS 5839-1:2002. If designs are undertaken without this research being carried out, the fire detection system is unlikely to comply with the legal requirements. This could result in prosecution of the parties involved within the supply chain as well as the Owner/Occupier. WARNING: Anyone who takes on the responsibility for design will do so at their own risk and design liability insurance is advisable.
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System Design
The Designers’ responsibilities:
Agree the level of protection or category with Owner/Occupier
Justify any Variations and document reasons
Detail the detection & alarm zones
Prepare specification and drawings including;
Siting of manual call points
Siting of point type heat and smoke detectors
Siting of beam detectors
Siting of any other forms of detection
Specify type of cable for each circuit
Specify type of system and equipment
Include detail for on/off site links with other equipment
Take into account the risk of false alarms – use the Gent sensor application guide at the back of this section
Allow for correct level of sounders and visual alarms
Prepare a fire plan or cause and effect chart
Sign a G1 design certificate
Note BS 5839-1:2002 recommends that a fire detection system is designed by a competent person, who takes responsibility for completing the design and signing off a ‘Design certificate’ G1. This should not be confused with other certificates relating to Installation G2 and Commissioning G3, that are completed by the parties responsible for those parts.
Also if the contract allows, it is suggested that the Designer witness tests the completed system to ensure the original design is sti ll appropriate – the Design certificate can then be completed after any amendments have been included.
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System design
by Honeywell
Design Stage 1 Talk to the interested parties to decide on the level of protection or category and agree Variations The importance of pre-design planning cannot be overstated. Many parties are likely to have an interest in what the fire detection is expected to do. Ultimately it is up to the Owner/Occupier, who is responsible by law, to make the final decision on the level of protection provided for a particular building. In most circumstances the Owner/Occupier will appoint a competent Designer to carry out this work and take liability for the design as a whole. The nominated Designer is expected to consult the following organisations:
The User or Facilities Manager
The Building Control Officer
The Health and Safety Executive
The Insurer
The Local Fire and Rescue Service
A specialist fire alarm system supplier M
Issues to be covered by the designer should include:
The Fire Risk Assessment demands
The requirements necessary to comply with the Regulatory Reform (Fire Safety) Order (RRO) 2005, the Disability Discrimination Act (DDA) 1995 and Building Regulations Approved Documents B & M
The prime purpose of the system (Property or life protection or both)
The level of protection suggested by the interested parties. (Category P1 or P2, M or L1 L2 L3 L4 or L5)
The list of Variations identified by the interested parties
L5
Determine the System Category or Level of Protection Systems designed for Protection of Property only, fall into two classifications P1 or P2.
L4
The objective of a Category P1 is to provide the earliest possible warning of a fire to minimise the time between ignition and the arrival of the fire fighters. P1 is designed to protect the whole building whilst P2 is installed in defined parts of the building only, which may have an extraordinary high risk or hazard. Life protection on the other hand will often depend on the number of people accessing a particular building and depending on the variations, the systems can range from simple Type M to L1 categories, these being detailed in the diagrams on this page.
L3
These diagrams show a typical building with a number of escape routes, side rooms and open plan areas used for escape. A Category M system requires manual call points on all exits as well as corridors where persons are not expected to walk more than 45m (see Design Stage 3) to operate one. Category L5, designed for buildings that have a particular risk identified which warrants some special attention. For example if there is an area of high risk which is considered worthy of having some automatic detection but a manual system is also needed, then this will be termed as L5/M.
L2
Category L4 provides detection within the escape routes only, whereas L3 not only covers these areas but all rooms leading onto the escape route. The reasoning behind this is to alert people of the danger prior to the corridor becoming “Smoke logged” so people can escape safely. L2 is a further enhancement of protection with all the areas covered by an L3 category as well as all high risk areas such as boiler rooms etc. L1 provides protection throughout the building, and also where Property Protection is the prime reason for the system (this allows for a choice between the P1 or P2 categories).
L1
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Design Stage 2
System Design Detection and Alarm Zones
Generally a building is broken down into smaller compartments to enable the fire fighters to locate the fire as quickly as possible. Even if the system is addressable it is still considered beneficial to have a separate ‘at a glance’ indication of the location of the fire. These compartments of a building are called detection zones, which need to comply with the following criteria.
Detection Zones
A detection zone should cover no more than 1 storey, unless total floor area is less than 300m2. Voids in the same fire compartment should be included in the same floor zone. The maximum floor area of a zone should not be greater than 2,000m2, except for some large open plan areas incorporating manual call points only, which can be extended to 10,000m2 The maximum search distance for the fire fighters to see the seat of the fire within a zone should not exceed 60m assuming the route taken is the worst possible option Vertical structures such as stairwells, liftwells etc should be considered as separate zones A manual call point within a staircase should be connected to the zone associated with that floor and ideally be mounted on the accommodation side of the corridor exit. Automatic sensors on the stairwell remain as part of the stairwell detection zone
ZONE 1
ZONE 2
5 E N O Z
ZONE 3
ZONE 4
Alarm Zones An alarm zone is clearly defined within the standard but generally is an area of the building coinciding with the fire compartment boundaries. There must be a clear break between these alarm zones to ensure alert and evacuation messages are not overheard from adjacent areas.
DETECTION
DETECTION
DETECTION
ZONE 1
ZONE 2
ZONE 3
DETECTION
DETECTION
DETECTION
ZONE 4
ZONE 5
ZONE 6
DETECTION
DETECTION
DETECTION
ZONE 7
ZONE 8
ZONE 9
DETECTION
DETECTION
DETECTION
ZONE 10
ZONE 11
ZONE 12
The only other criteria is that an alarm zone may consist of a number of detection zones but not vice versa. Alarm zones are only required when phased or staged evacuation is required. It is therefore important that care should be taken to ensure only one message is heard at any one time particularly where two alarm zones are attached.
1 M R E A N L O A Z 2 M R E A N L O A Z 3 M R E A N L O A Z 4 M R E A N L O A Z
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System Design Design Stage 3
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Siting of Manual Call Points
All manual call points, whatever the system, should comply to BS EN54-11 single action Type A version only and should be located as follows: On all storey exits and all exits to open air irrespective of whether they are designated fire exits Nobody should travel more than 45 metres to reach one, except if the exit routes are undefined in which case the direct line distance should not exceed 30 metres The above distances to be reduced to 25 and 16 metres respectively, if there are persons with limited mobility or there is a likelihood of rapid fire development In all areas with potential high fire risk such as kitchens etc Where phased evacuation is planned, call points will need to be sited on all exits from a particular zone 1.4 metres + or – 200mm above the floor Call points fitted with protective hinged covers for whatever reason should be listed as a Variation Note: In order to comply with the requirements of Building Regulations Approved Document M, which requires electrical switches including manual call points to be mounted at between 1M + or – 200mm on wheel chair access routes, these should be listed as a Variation on the certificate as BS requires MCP’s to be mounted at 1.4M + or – 200mm.
Manual Call Point
Route of travel 45m (max (defined Route of travel 30m (max (undefined
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System Design
Design Stage 4
Selection and Siting of Sensors
For further advice please refer to clauses 21 & 22 of BS 5839-1:2002. The objective is to select the correct sensor for the appropriate application, to provide the earliest warning of fire without the risk of a false alarm. It is therefore worth trying to visualise the type of fire that is likely to occur in a particular room or area and also to familiarise oneself with the application and the risks that could give rise to a false alarm. It should also be remembered that a Vigilon system can incorporate a whole range of different sensors using S-Quad multi-sensors. These can be set up for different applications and can be switched from ‘state to state’ should particular risks be present for short periods of time. This is achieved by selecting the ‘enable/disable’ software within the standard panel software. At the end of this section is a full application guide for all sensors including the latest S-Quad multi-sensor with a range of selectable ‘states’ for common applications and risks.
Heat sensors complying to BS EN54-5 Vigilon with the S-Quad heat sensor has a number of pre-programmed ‘states’ that comply with the requirements of the European standard. Each state has its preferred use as described in the Sensor Application Guide and incorporates two types of heat sensing element. One can be described as fixed temperature whilst the other is known as a rate of rise element. These elements have a broad range of application specific operating states that will respond quickly in the event of fire without risking a false alarm. See the Sensor Application Guide at the back of this section for specific advice on which state is recommended for a particular application. For example; The default state for the S-Quad heat sensor is Grade A1 (state 0) which has a fixed temperature operating point of 59.5º + or – 5.5º C. With a ‘normal’ rate of rise element, the current ‘full list’ of states provided by S-Quad and Vigilon are:-
S-QUAD HEAT SENSOR
GRADE
FIXED TEMP. RANGE
RATE OF RISE
State 0
A1
59.5 + or – 5.5ºC
Normal sensitivity*
State 13
A2
62 + or – 8ºc
Less sensitivity
State 5
B
77 + or – 8ºC
Less sensitivity*
State 6
BS
77 + or – 8ºC
OFF
OFF
OFF
State 15 * tested and approved by LPCB
Heat detector spacing (under flat horizontal ceiling)
5.3m
HEAT
5.3m 7.5m 5.3m
5.3m
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System Design Smoke sensors complying to BS EN54-7 Traditionally, ‘point’ type smoke sensors have fallen into two main categories, optical or ionisation.
Due to new European Directives for the storage and transport of radioactive sources, ionisation sensors are becoming less favourable and are being replaced by multi-sensors utilising single or dual optical chambers which are also combined with heat and/or carbon monoxide sensing elements. This creates a whole range of sensors suitable for detecting different types of fires and yet ignore signals that previously have led to false alarms such as white dust or steam particles. The table below shows the various ‘states’ of these smoke sensor options. This should be read in conjunction with the Sensor Application Guide to ensure the correct sensor is used for a particular location.
S-QUAD DUAL OPTICAL SMOKE SENSOR SENSOR
STATE
DESCRIPTION OF STATE SET UP
OHeat and
O2Heat
0
Medium Optical + A1 Heat*
OHeat and
O2Heat
2
Low Optical + A1 Heat
OHeat and O2Heat
3
High Optical + A1 Heat
OHeat and O2Heat
4
Medium Optical + A1 Heat + (no spike rejection on smoke)*
OHeat and
O2Heat
5
Medium Optical + B Heat*
OHeat and
O2Heat
6
Low Optical + BS Heat
OHeat and
O2Heat
8
Delayed Medium Optical + A1 Heat*
OHeat and O2Heat
11
Low Optical + B Heat
OHeat and O2Heat
12
A1 Heat Only
O2Heat
15
All channels set to off
OHeat and
S-QUAD DUAL OPTICAL HEAT CO SMOKE SENSOR SENSOR
STATE
DESCRIPTION OF STATE SET UP
and CO
0
Medium Optical + A1 Heat + Medium CO*
and CO
1
High Optical + A1 Heat + High CO
and CO
2
Medium Optical + A1 Heat + Low sensitivity CO
O2Heat and CO
4
Medium Optical + A1 Heat + Medium CO (no spike rejection on smoke)*
O2Heat and CO
9
A1 Heat + Medium CO*
O2Heat
and CO
11
B Heat + Medium Optical
O2Heat
and CO
12
A1 Heat only
O2Heat
and CO
15
ALL Channels set to OFF
O2Heat O2Heat O2Heat
* tested and approved by LPCB
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System Design
Smoke detector spacing (under flat horizontal ceiling)
Smoke & Heat detector spacing in corridors (category P only)
7.5m
7.5m
10.6m
H T D I W m 2 O T P U
SMOKE
SMOKE 7.5m
15m
5.3m
10.6m HEAT
7.5m
7.5m
Smoke detector under pitched roofs
Mounting detectors in voids LINE OF CEILING SLAB OR FLOORTILE
UP TO 600mm
TOP 10% OF VOID
OR TOP 125mm OF VOID
FOR LESS THAN 600mm TREAT AS FLAT CEILING
DEEPER THAN 600mm LINE OF CEILING TILE OR FLOOR SLAB
Applies to floor and ceiling void. Any of the above detector positions are acceptable FOR GREATER THAN 600mm AT LEAST ONE ROW OF DETECTORS SHOULD BE IN THE TOP 600mm
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System Design Limits of siting sensors near obstacles or walls
OBSTACLE
500mm MIN
D>250mm
OBSTACLE
D<250mm
xD2 MIN
500mm MIN
OBSTACLE
IF>10% OF CEILING HEIGHT CONSIDER AS A WALL
Siting sensors on ceilings with multiple joists CEILINGS WITH MULTIPLE JOISTS
M
HALF M
L
Permitted spacing detailed in table opposite. Ratio between ceiling heights vs beam depth and maximum spacing ‘M’.
BEAM DEPTH (D)W
SMOKE SENSOR (SPACING (M
HEAT SENSOR (SPACING (M
Less than 10% H
5m
3.8m
More than 6m
Less than 10% H and 600mm or less
5m
3.8m
More than 6m
Less than 10% H and more than 600mm
5m
3.8m
3m or less
More than 10% H
2.3m
1.5m
4m
More than 10% H
2.8m
2.0m
CEILING (HEIGHT (H 6m or less
5m
More than 10% H
3.0m
2.3m
6m or more
More than 10% H
3.3m
2.5m
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System Design
Obstructions
Ceilings above racking If gap between top of rack and ceiling is less than 300mm then treat as wall and provide detection in each aisle.
IF < 300mm CONSIDER AS REACHING THE
RACKING
CEILING
Ceilings with other obstructions or air handling units etc.
AT LEAST 1m FROM AN AIR HANDLING UNIT
FREE 500mm SPACE BELOW DETECTOR
STORAGE RACKS
ACCEPTABLE
One of the most common mistakes is to mount a smoke sensor adjacent to the air conditioning intake or outlet grill. The minimum distance between the two should be at least 1 metre and further if possible. This is due to the fact that smoke may have difficulty penetrating the sensor when the air conditioning is switched on. Also there is a greater risk of the sensor becoming contaminated and giving rise to false alarms.
NOT ACCEPTABLE
Ceilings above perforated ceilings
Detectors above ceilings with perforations can protect the area below subject to the following conditions
The perforations are uniform The minimum perforation is > 10mm The thickness is < than 3 times the minimum dimension of the perforation
Where air is forced through a perforated ceiling, the detector should be mounted on a solid baffle with a minimum diameter of 1200mm
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System Design Siting of beam detectors % ONE BEAM DETECTOR COVERS 17.5m USING EXTRA ALLOWED DUE TO ANGLE OF ROOF
25º 600mm
1.25m m 0 2
2.5m
17.5m
GAP BETWEEN DETECTORS 12.5% AND 25% OF 10m MOUNTING HEIGHT 1.25m AND 2.5m =
General rules apply as for point detectors For apex ceilings extend coverage by 1% for each degree of angle 600mm from the highest point Avoid beams close to walls (500mm) or where temporary obstructions may occur Mount transmitter and receivers on a solid surface not affected by wind or natural temperature changes Additional units may be included in atria to detect at lower levels, to counter stratification effect
Limits of ceilings heights (general) DETECTOR TYPE
MAXIMUM
UP TO 10%
9.0m
10.5m
Heat detector – other classes
7.5m
10.5m
Point type smoke detectors
10.5m
12.5m
Carbon monoxide detectors
10.5m
12.5m
Optical beam detectors
25.0m
25.0m
Aspiration – normal sensitivity
10.5m
12.5m
Aspiration – enhanced sensitivity
12.0m
14.0m
Aspiration – very high sensitivity
15.0m
18.0m
Heat detector – class A
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System Design
Design Stage 5
Choice and Siting of Alarm Sounders and Visual Alarms
Sounders and strobes are generally provided for systems designed to protect life. However, on the rare occasion when only the property is being protected it is still essential to mount a sounder adjacent to the fire control panel as well as immediately outside the main entrance for the fire fighters. Before deciding on the number and location of sounders/visual alarms, it is important to establish the ‘Fire Plan’ or cause and effect. If the building is not going to have a ‘one out – all out’ arrangement, the evacuation procedures must be established. Once this is known, you can then establish the alarm zone areas where different alarm messages may be given, for example an alert or an evacuation tone. Audible alarm levels within buildings are generally accepted as 65dB(A) throughout. However, the new Standard does accept that in certain locations this can be as low as 60dB(A). This allows some degree of flexibility, although in general the majority of a site must achieve 65dB(A) or greater to be compliant. The drawing below illustrates the areas where 60dB(A) is permitted:
ENCLOSURE OF LESS THAN 60M 2 MINIMUM OF (60dB(A
SPECIFIC POINT OF LIMITED EXTENT (MAY BE 60dB(A
65
60
65 65 65
65 60
65
AREAS OF LESS THAN 1M 2 OF HABITABLE SPACE NO MINIMUM
65 65
65 65
60
60
65 60
60
SHADED AREA 500MM FROM BOUNDARY NO MEASUREMENTS REQUIRED
65 60
For areas with high ambient background noise levels, the Standard recommends a sound level of 5dB(A) above the norm although the maximum sound levels should not exceed 120dB(A) for health & safety reasons. Finally it is essential that at least one sounder is placed within each fire compartment and the sounder choice should be common throughout the building. Bells and electronic sounders should not be mixed within the same building although the Gent S-Cubed and S-Quad both offer bell and electronic sounders allowing a system upgrade or switch over from a bell tone to an electronic tone when required.
Design Tip 1 Research* over the last twenty years has proven that a voice enhanced sounder is preferable to a bell or electronic sounder as people pay more attention to a spoken message. The Gent S-Cubed and S-Quad offer sounders that include recorded speech messages delivered in a synchronised manner to create a clear instruction to persons at risk within a building. * Sources: Brian Piggott (The Fire Research Station) and David Canter (Surrey University)
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System Design NOTE: The S-Quad optical heat sensor sounder must be surface mounted to attain these output levels
LED Position
(80dB(A 30º
(80dB(A 30º (84dB(A 15º
(75dB(A 45º
m 1
(79dB(A 45º
(79dB(A 45º
84dB(A) 0º
(84dB(A 15º
(75dB(A 45º
m 2
(75dB(A 15º
(75dB(A 30º (75dB(A 30º
(75dB(A 15º (75dB(A 0º
m 6 . 0
It is maintained that to rouse sleeping persons you need to achieve a minimum of 75dB(A) at the bedhead. Sound attenuation is affected by numerous physical structures within a room, including the people, door, furniture and materials used for floor, walls etc. General internal doors will attenuate at least 20dB(A), whilst heavier fire doors may well attenuate by up to 30dB(A). To ensure 75dB(A) is achieved within a bedroom it is accepted that the sounder is mounted within the room rather than the corridor outside. Use of sensor sounders ensures an even spread of sound throughout the building without the need for separate louder sounders. Visual alarms are generally considered as supplementary rather than the only means of providing an alarm, and are used in areas where the dB(A) level exceeds 90dB(A) or where persons within the area have impaired hearing. The exception could be where sound of any description is undesirable, for example operating theatres, TV studios and places of entertainment where a discreet staff alarm system is the best option to avoid panic. Visual alarms are also included as a requirement of the Disability Discrimination Act and Approved Document M of the Building Regulations and should be included in all sleeping accommodation where people with a hearing disability may be present.
Design Stage 6
Control equipment and power supplies
The Control panel itself should comply to EN54-2 and any power supply used should comply to EN54-4. Today the majority of Gent fire control panels incorporate their own battery and charger and as long as the guidelines for loading these systems are complied with, the battery should be sufficient to maintain the system for a period of 24 hours with half an hour alarm load thereafter. It is however recommended that a battery load calculation is carried out to verify the standby period provided by the capacity of the battery supplied. Irrespective of the size or type of system the control panel should be sited with the following points in mind; In an area of relatively low fire risk On the ground floor entrance which the fire fighters will use In buildings of multiple occupancy, the panel should be sited within a communal area or if this does not exist, a location which is accessible at all times Where ambient light levels, ensure visibility at all times Fire zonal indication should be clearly displayed by LEDs or an illuminated mimic diagram – it is not acceptable to simply accept the information from an LCD or VDU display If there are several entrances to the building, consideration should be given to the provision of repeat indicators.
Design Tip 2
The S-Quad combines a sounder and strobe within a sensor which not only reduces the number of individual devices you have to install, but also provides an even cover of sound and light throughout a building.
SECTION 2: page 16
by Honeywell
System Installation
The Installers’ responsibilities
To install all equipment in accordance with the Standard To use the correct types of cable To test the cables, continuity and earth, and provide certificates To flag up any Variations that affect the Design To produce a set of ‘as fitted’ drawings To sign off a G2 Installation certificate
Types of cable and where to use them There are two basic grades of cable permitted for use on fire alarm systems. These are known as Standard grade and Enhanced grade designed to meet the new standards BS 8434-1 and BS 8434-2 respectively. The choice of cable needed is dependant on how long the cable is expected to continue to operate whilst a fire is occurring. The integrity of the system is paramount and all interconnections between devices must be considered especially those that affect the signal’s critical path. Firstly the Standard insists that the mains supplies to the system, the manual call points and the automatic sensor circuits are wired in fire resistant cables.
What cable? – Standard or Enhanced fire resistant cables? The Standard fire resistant cable will satisfy most applications particularly with ‘one out, all out’ fire plans. Enhanced fire resistant cables are required for applications that need communications to continue during a fire incident when the building fabric may be destroyed. Examples of where Enhanced fire resistant cable should be used include:
In un-sprinklered buildings where the ‘Fire Plan’ involves the evacuation of occupants in four or more phases In un-sprinklered buildings greater than 30 metres in height In un-sprinklered buildings or large networked sites where a fire could affect the cable’s ‘critical path’, particularly where people will remain in occupation during a fire elsewhere on the site Where in part, a delayed evacuation may exist and the critical signal path may pass through an area of high risk Where a Risk Assessment has identified a particular need for Enhanced cable
Sixth Floor Fifth Floor Fourth Floor Third Floor Second Floor First Floor Ground Floor Standard Fire Resisting Cable
Standard Fire Resisting Cable
Enhanced Fire Resisting Cable
Example of a networked fire alarm in a multi-storey building, showing standard cable grade throughout provided that there is diverse routing of the network cable loop.
Example of a networked fire alarm in a multi-storey building, showing standard cable grade for local wiring and enhanced grade for network cable.
SECTION 2: page 17
System Installation
by Honeywell
Other aspects in regard to Installation practice The electrical characteristics of the cable such as impedance, capacitance etc should be capable of handling the data and power of the system For the Vigilon system, Gent regularly updates the list of approved standard and enhanced cables used for loops or networks. We would suggest you obtain the latest copy of our system data sheets or contact your local engineer to obtain the latest approved product
Cable requirements Core size not less than 1mm Where exposed cables are below 2m, additional mechanical protection should be considered, except for cables complying to BS 7629 The colour of the outer sheath should preferably be RED although other colours are permitted as long as it is common throughout the building and does not clash with any other electrical services
Fire cables should:
be segregated from all other services
not share the same conduit
use a separate compartment if common trunking is used
avoid running alongside high current power lines
avoid running adjacent to lightning conductors
avoid electro magnetic interference from ‘extra low voltage (240V) circuits’ The Standard precludes the use of multicore cable where a single fault will cause more than one circuit to fail. This is particularly true with loop wired systems where communication from either end is required and the failure of a 4-core cable will mean that all communication is lost
Cable joints should be avoided, other than the components themselves
Cable support should withstand the same temperature as the cable, which means the use of plastic cable clips, cable ties or trunking, where this is the main means of supporting the cable, should NOT be used
Cables should not rely on suspended ceilings for their support
Mains power supplies should also be wired back to the main circuit breaker in Standard grade fire resistant cable
Recommendations for the Mains Power supplies For reasons of electrical safety, the mains supply to the system should be via a separate circuit breaker taken from the load side of the buildings main isolating device. This circuit breaker can incorporate a switch if necessary but in either event should be labelled ‘FIRE ALARMS – DO NOT SWITCH OFF’ – this supply should be used for the sole purpose of the fire alarm system. In large multiple occupancy buildings it may be necessary to obtain a mains supply via a mains distribution board. However the same arrangements as above apply. The isolation of this local distribution board and the fire isolating device is a minimal requirement and should be inaccessible to unauthorised persons. Ideally the supply should not be protected by a residual current device unless necessary to comply with requirements of BS 7671. If this is the case then it should not be capable of isolating the mains supply to the fire alarm system.
Inspection and testing of wiring Prior to any equipment being connected, all installed cables should be subject to a 500V dc insulation test. These tests should show an insulation value of at least 2Mohm between conductors and between each conductor and screen or earth. Earth continuity tests should be carried out on all mains supply circuits as well as an earth loop impedance in accordance with BS 7671. It is important with the Vigilon system that all earth leads or screen cables are terminated and connected through each device. The maximum impedance of each loop or radial circuit should be recorded to ensure it meets the manufacturers recommendations. In the case of Vigilon this is determined by not exceeding the recommended maximum cable lengths which for loop circuits should not be greater than 1Km and a maximum of 100 metres for any radial circuit connected on a loop powered interface.
SECTION 2: page 18
by Honeywell
System Commissioning
Commissioning Engineers’ responsibilities:
Functional testing of all equipment Confirm fire plan or cause & effect is correct as per design Look for any incorrect positioning of sensors or other devices – snag them or list them as Variations Record sound level meter readings Provide a log book and product manuals Carry out staff training Collate all documents including
G1 Design Certificate
G2 Installation Certificate
G3 Commissioning Certificate (also sign it!)
Cable test and wiring certificate
Specification and drawings
List of agreed Variations
Fire Plan or ‘Cause and Effect’
G4 Acceptance Certificate signed by clients representative It is important that the system is commissioned by a competent person who has attended recognised training courses on the equipment as well as the British Standard.
At this stage the entire system should be inspected and tested, in particular; Every manual call point, sensor, sounder, interface and indicator Check that all devices are correctly sited to cover the area they are intended to protect – see previous notes on siting of devices Check that all devices are correctly labelled and display the corr ect information on the control panels All sound pressure levels should be measured and recorded Any transmission of signals to remote centres or equipment should be proven The fire plan or cause and effect should be checked from every device All alarm panels and printers display the correct information and are sited correctly A suitable zone plan is mounted adjacent to the control panel No changes to the building have affected the siting of equipment or effectiveness of the system for example an additional partition requiring additional sensors Mains and standby power supplies are adequate and designed to support the system for a specified period, for example 24, 48 or 72 hours As far as reasonable, ascertain that the installation complies with the standard and certificates are provided by the installer If radio equipment is used, ensure all radio signals are of sufficient strength to ensure reliability Ensure there are no obvious shortcomings with the system as a whole and that all the documentation is correct It is also recommended that the system is soak tested for up to a week, dependant on the system size, so that any teething problems are identified without giving rise to any false alarms.
Documentation On completion of commissioning and user training all documentation will have to be collected and handed to the client or their representative. This will include;
Design, Installation and Commissioning certificates G1,G2 & G3 Cable and insulation resistance test records “As fitted” drawings of the final installation, including cable run details Product manuals and user instructions System log book A copy of the fire plan documentation against which the commissioning engineer programmed the system The designer’s specification and a written list of agreed Variations
SECTION 2: page 19
by Honeywell
Sensor Application Guide This guide is aimed at providing advice on the most suitable type of sensor for specific applications. Obviously conditions may vary depending on the particular application and if there are any doubts we suggest you consult one of our field sales advisors.
2
TABLE 1 GENERAL APPLICATION FOR SENSOR
PREFERRED OPTION
OPTION 2
Duct detectors with O2HCO
Aspiration
Airport terminals
Beams** state 0
O 2H* state 0
Video
Animal houses, stables, zoos etc
EP heat state 0 Aspiration
O 2HCO* state 1
Radio detection
Air extraction ducts
Areas of High risk like historic houses Atria
OPTION 3
OTHER SOLUTIONS
Suggest time out feature, used when reduced sensitivity is required
Beams** state 0
Aspiration Vertically
Battery re-charge rooms
O 2H* state 0
Flame
Bedroom
O2H* state 0
O2H* state 8
Bedroom with adjacent bathroom
O 2H* state 8
O2HCO* state 0
O2HCO* state 9
Options dependant on severity of steam leakage into bedroom see table 2
Bedroom with bathroom and/or kitchen attached
O2H* state 8
O2HCO* state 0
O2HCO* state 9
Options dependant on severity of steam cooking fumes leakage into bedroom see table 2
H* state 5
O 2HCO* state 11
Boiler room with coal or coke Boiler room clean with gas/oil/electric al source Cable duct ways (Car park (enclosed
O 2H*
state 5
O2HCO* state 11
Linear Heat
Beams** state 0
H* state 0
O2H*
state 2
Changing rooms alongside showers etc
O 2HCO* state 9
H* state 0
Clean data processing room
O 2HCO* state 1
O2H* state 1
Cold rooms Corridors, stair wells or internal passage ways Electrical switch or plant rooms Enclosures open to air Flour mills
Aspiration O 2HCO* state 0
O2H* state 0
EP Heat
EP Flame
O 2HCO*
state 9
Kitchen, large commercial
H* state 6
O 2HCO* state 11
O 2H* state 2
H* state 13
Laundry room large, high ceiling
Beams** state 0
O 2HCO* state 9
Laundry room small, low ceiling
O 2HCO*
Laundry, storage room
O 2HCO* state 9
H* state 0
Libraries
O2HCO* state 0
Aspiration
state 9
Beams** state 0
Flames
O 2HCO* state 2
O2HCO* state 9
Restaurant area
O 2H* state 0
H* state 0
(Retail shop, high ceilings (e.g. B&Q
Beam state 0
Retail shop, normal ceiling height
O 2H* state 0
O2HCO* state 0
Room with gas fire
O 2H* state 0
O2HCO* state 0
Room with open wood/coal fire
O 2H*
Store rooms Tunnels
Suggest timeout feature to revert to O 2HCO* state 0 Suggest timeout feature revert to higher detection state 0 or 9 respectively
Flame
Consider linear heat around machinery
O 2H* state 0
state 2
Watch number of candles lit for option 2 Suggest timeout feature to switch between states
H* state 0
O 2HCO* state 0 Flame EP heat
Wide variation dependant on use contact engineer H* state 0 O 2HCO*
Linear Heat
Watch out for hazardous requirement
state 9
O2HCO* state 0
Subject to material in store
Flame
Linear Heat
Beams** state 0
O2H* state 0
Warehouse loading bay
H* state 0
Flame
X-ray or other high EMC areas
Aspiration
O 2HCO* state 0
Warehouse
O2H* state 2
O 2H* state 0
Prison/secure accommodation
Steam rooms, sauna or shower areas
Watch for rapid air changes see table 2
H* state 13
Open high ceilings in churches or cathedrals
Spray booths – spray shops
Aspiration
Flame detector O 2HCO* state 9
Scientific laboratories
state 8
Use heat state 0 but avoid fitting near open doors
H* state 0
Normal office or working area
Watch out for obstructions for options 2 O2H*
O 2H* state 0
Garage work areas
Kitchen, small domestic
Note use ‘snout’ on receivers to protect against sunlight
Option 1 watch out for fork lift trucks & cranes O 2H* state 0
Note* Versions may include Speech, Sound and Strobe or mixture of all features. ** Beams state dependent on path length.
Ignore use of ionisation detectors
SECTION 2: page 20
by Honeywell
Sensor Application Guide
Choice and siting of automatic sensors This table provides guidelines on the type of sensor and programmable ‘state’ of those sensors, that should be used when specific risks are present. The solutions that are listed are chosen to provide optimum performance for detecting fire and minimising the risk of false alarms. In most cases the sensor ‘states’ can be preset at selected time frames and therefore revert back to a more sensitive ‘state’ for normal protection level shown on the application table.
TABLE 2 SPECIFIC RISK
PREFERRED SOLUTION
Aerosol (excessive)/chemicals
OTHER OPTIONS OR ADVICE
Flame
HCO may be suitable depending on aerosol
(Aerosol (general
O2H state 8 or O 2HCO state 0
If possible use Timezone disablement on O 2
Burning toast/food
H state 13 or O 2HCO state 9
This is a FIRE therefore manage with techniques such as Timezone disablement on O 2
O2HCO
(Cigarette smoke (excessive
state 2 or 9
If possible use Timezone disablement on O 2. Could give an alarm with high levels of CO
Cooking fumes
O2HCO state 9
Direct sunlight
O 2HCO state 0
Fit snouts to beam detector receivers. Other sensors may be used including CO. May delay detection of fire .with optical sensors because of thermal barrier effect. Avoid use of Flame detectors
(Dry Ice (CO2
O2HCO state 9
All optical sensors are unsuitable
Dust (temporary eg. builders’ clear up (period
Fit dust covers to sensors
Remove sensors altogether
(Dust or lint (excessive
O 2HCO state 9 or Flame
Fork lift trucks and cranes
If possible use Timezone disablement on O 2
All optical sensors are unsuitable Watch out when using beam detectors
(Fire appliance – gas (clean burning
O 2H state 0
See Rapid temperature changes
Fire appliance – wood, coal, coke or flame effect gas
O2H state 8
See Rapid temperature and dust. do not use Flame or CO
O2HCO state 9
All optical sensors are unsuitable
(Gas (battery charging, animal house
O 2H state 0
CO sensors are unsuitable
(High humidity (up to 95% RH
O 2H state 0
Generally OK for all types, if humidity levels are constant. Continuous operation in high humidity environments may reduce the life expectancy of the sensor
High powered electro-magnetic equipment
O 2H state 0
(A void placing detectors or FDA cables near equipm ent ( X- ray m achine s, scanners etc
O 2HCO state 0 or 9
Excessive infestation of insects may cause a delayed response in O 2H as it can reduce the sensitivity of the optical
(Low humidity (less than 15% RH
O 2H state 0
CO sensors should not be used in continuously dry environments
Rapid air changes
O 2H state 0
May delay detection dependent on location and direction/speed of air f low. Aspiration detection is an alternative
Fumes for hot oil based machines (suds etc)
Insects and harvest flies
Soldering
O2HCO state 9
If possible use Timezone disablement on O 2
(Spiders (small
O2HCO
Steam or water vapour (excessive/constant)
O2HCO state 9
All optical sensors are unsuitable
(Steam or water vapour (occasional/light
O 2HCO state 0
O2 will withstand quite high levels, O 2 may have delayed action
H state 5 or O 2 H state 5
Suitable range 40 oC to 65 oC
Aspiration detectors
Use Heat state 0 but avoid fitting near open doors
Temperature – high ambient Temperature – low (permanently below 0 o) Temperature – rapidly changing (Vehicle exhausts (occasional
state 9
All optical sensors including beams are unsuitable
H state 13
Fixed temperature operation only
O 2HCO state 9 or O 2H state 8
Could give an alarm with high levels of CO
H state 13 or O 2H state 8
Type of welding must be known before selecting other sensor type
Welding or brazing Note: 1
2
3
High levels of CO could cause physical damage to occupants therefore alarm is desirable but CO elements should not be relied on for sensing gas leaks. Heat detectors configured to state 0 are suitable for all risks unless otherwise indicated. An O2H device should always be used in preference to an OH, where a specific unwanted alarm risk could occur.
The interactive S-Quad Selector is available for download at www.gent.co.uk ‘Simply click on ‘Downloads
SECTION 3: page 1
Section 3:
by Honeywell
Protecting your investment in Gent
Contents • Investment
SECTION 3: page 3
Protecting your Investment
by Honeywell
3
As a valued customer of Gent by Honeywell fire detection and alarm systems, we would like to reassure you of our commitment to provide compatibility of our new technology with your installed Gent fire system. As the first manufacturer to bring Optical Heat multi-sensors and loop powered sounders to market in the 1980s, through to its new ground breaking S-Quad multi sensor with integrated sounder, speech and strobe functionalities, Gent is driven by its pride in innovation to continuously improve the integrity of fire detection and deliver peace of mind to all Gent customers.
The Gent by Honeywell Upgrade Path Even if your Gent fire detection installation is 20 years old, we have a solution to enable you to take advantage of the unique detection capabilities of the market leading S-Quad sensor. Through Gent’s unique backwards compatibility policy, we ensure that your investment in Gent is always protected.
Gent by Honeywell’s Technology Control Panels 3400 control panel (released in 1985)
Vigilon control panel (released in 1999)
Detection Devices 3400 devices (released in 1985)
34000 devices (released in 1995)
S-Quad (released in 2005)
SECTION 3: page 4
by Honeywell
Protecting your Investment
To take advantage of the uniques of the S-Quad sensor range for Vigilon: Standalone System 3400
Networked System Swap your
3400
3400 panel for a Vigilon panel
VIGILON Vigilon
Upgrade your BS5839 pt4 panel
A software upgrade to your existing panel
A software upgrade to EN54 pt 2 and 4 panel
S-QUAD
3400
On a 3400 panel network site, a Vigilon panel can be added to the network in order to install market leading S-Quad sensors
All fire and fault information is maintained on the 3400 panels
Benefits of installing and upgrading your Gent Fire Detection and Alarm System l Reduced life cycle costs Other manufacturers may need you to rip out a system installed 20 years ago in order to install new technology into an extension of an existing site. With Gent there is a practical solution to allow you to take advantage of new technology. l Trusted technology As the UK’s leading manufacturer of innovative fire detection and alarm systems, Gent delivers peace of mind to all its customers. l Reduced capital costs By avoiding a total rip out of older installations to install new technology, the end customer can spend less on upgrading their system. l Reduced cost of spares The client need only hold spares for the newer technology and avoid the higher cost of spares for products no longer manufactured. l The only system on market that can support a system installed 21 years ago Uniquely, Gent has a strategy to install its latest S-Quad technology devices onto a 3400 site which may have first been installed over 20 years ago!
In addition, Gent’s approach to Managed Protocol with its network of Approved System Integrators ensures that the end customer always has freedom of choice over their maintenance service provider. Any of the Gent 24 System Integrators can provide the expertise needed to design, install, commission and service G ent by Honeywell systems. In addition, this ensures that your customer s’ sites are maintained by professional companies committed to third party accreditation.
SECTION 4: page 1
by Honeywell
Section 4:
Conventional Fire Detection
Contents • • • • • • • • • • • • • • •
•
• • • • • • • • •
System Architecture Cont rol Panel M anual Call Points Smo ke Detectors Heat Detectors Beam Smoke Detectors Duct Smo ke Detector S3 Electronic Sounders / Strobes S3 Voice Enhan ced Sounders Electron ic Bells Door Release Relays Pow er Supp lies System Loading Calculator S3 Electron ic Soun ders / Stro bes Sound Patterns S3 Voice Enhan ced Sounders Sound Patterns Charger Unit Accessories Series 3000 Specifications Ancillaries Squashni Platform Sounder Flashni Beacon / Soun der xenon GE & GE Series Sigma XT
SECTION 4: page 3
by Honeywell
Xen ex Syst em A rchit ect u re
Dual RX/TX Beam with reflector
Beam Receiver
Beam Transmitter
3 Core Cable
24 V End of Line
Call Point
Smoke Detector
Control Unit Extend PSU End of Line
Call Point
End o f Line
Smoke Detector
Extend PSU Required (24V required)
Smoke Detector
Smoke Detector
Heat Detector
Call Point
Duct Detector
Control Panel (also 1,2,4 ,8 zone versions)
Repeat Panel
Class Change 1 N/O, 1 N/C relay cont acts to auxiliary equipment such as doo r hold ers or manned centre link.
End of Line
Alarm Sounder
Voice Enhanced Sounder
Sounder Strobe
Voice Enhanced Soun der Strob e
Pola rised Relay (to switch 230V equipment eg. door holders)
End of Line
Sounders Circuits
Sounder Strobe
End of Line
SECTION 4: page 4
by Honeywell
Xenex Control Panel
The Xenex panel complies fully with the European standard EN 54 Parts 2 & 4 and can be used on installations meeting BS 583 9-1. Each panel contains its own integral
power
supply
and
battery support for up to eight alarm
sounder
circuits,
two
auxiliary relay contacts, a zone disablement facility and a one man tes testt and com miss mission ion f acil acility ity,, all simplifying system design, installation and commissioning.
Xenex Control Panel TECHNICAL SPECIFICATION N o . o f Zo n e s M axi m u m Lo ad p er Zo n e N o . o f So u n d er Ci r c u i t s
1
2
4
8
3m A
3m A
3m A
3m A
2
2
4
8
500m A per circuit circuit max 1A comb ined
M ax. Sound Sound er Circuit Circuit Load Ba t t er i es (sep er a t e)
500 mA per circuit M ax 1.5A combined
2 x 1 2 V, 2 . 1 A h
Ba t t er y St a n d b y
2 x 1 2 V, 2 . 8 A h
7 2 h o u r s p l u s 0 . 5 h o u r s al a r m l o a d
A u x. Rel a y Co n t a ct s
1 N / O a n d 1 N / C p a i r, 1 A at 2 4 V
Approx Weight (with batteries)
5 . 1 Kg
5 . 1 Kg
Rel evan t St a n d a r d
6 . 6 Kg
6 . 6 Kg
EN 5 4 Pa r t s 2 & 4
A p p r o va l s
LPCB a p p r o ved t o EN 5 4 : Pa r t s 2 & 4
Cab l e Typ e
BS 6 3 8 7 , 2 co r e, m i n 1 . 5 m m 2 CSA In d o o r, 0 - 4 0 o C
O p er a t i n g Tem p er at u r e Cl ass Ch a n g e Fac i l i t y
Vo l t f r ee co n t ac t – m a x d i st a n c e 1 0 0 m
.Note: Maximum of 1, 8 zone repeat panel per system .Note: For maximum system loading table see page 16
Dimensions of all panels (inc Repeat panel) (mm)
ORDER CODES
3 95
1 Zone
13270 -01LB
2 Zone
13270 -02LB
4 Zone
13270 -04LB
8 Zone
13270 -08LB
8 Zone Repeat Panel
13271-08LB
Flush Surround
1327 0-29
Fire Fault Relay
XEN-FFR
87
9 1
4 7 2
7 9 1
(Batteries to be ordered seperatly)
89
89
For flush mounting, aperture size 378mm x 245mm x 60mm
SECTION 4: page 5
by Honeywell
M anu al Cal alll Po Po int s Manual
call
points
are
manufactured from ABS with plastic covered p ush b reak glasses glasses for safe and simple operation. No hammer is required. A polycarbonate cover version is
available
susceptible
for
applications
to
inadvertent
operation, such as sports halls.
Manual Call Point TECHNICAL SPECIFICATION N o m i n a l Vo l t a g e
2 4 Vd c
In g r ess Pr o t ect i o n
I P4 3 (I P5 5 w i t h c o ver )
A p p r o x W ei g h t
0 . 1 1 Kg
O p er a t i n g Tem p er at u r e
- 2 0 o C t o + 7 0o C
Rel eva n t St an d ar d
EN 5 4 - 1 1
A p p r o va l s
LPCB A p p r o ved
Alarm Alar m Curr Current ent
30mA (max (max))
Co l o u r
Red (Si m i l ar t o RA L 3 0 2 0 )
ORDER CODES Surface Mounted c/w Backbox IP44 New EN54 Pt11 vers version ion
1411 2-08EN
Surface Mounted with Cover and Backbox Backbox New EN54 Pt11 vers version ion
1411 2-48EN
Key Operated, Surface Mounted c/w Bac Backbox kbox
1411 5-08
Surface Mou nted New EN54 Pt11 vers version ion
1411 2-01EN
M CP Surface Surface
Dimensions Dimens ions (mm ) Removable Terminal block 87 87
21 21 15 15
Weather Res Resistant istant Kit
141 12-1 9EN
BS/EN Front Conversion Kit with Glass New EN54 Pt11 vers version ion
1411 2-EN-K 2-EN-KIT IT
Spare Square Glasses, pack of 10 New EN54 Pt11 vers version ion
1411 2-09EN
Hinged Cover with drilled front moulding EN54 Pt11 vers version ion 7 7 8 8
1411 2-49EN
Pack of 10 Plastic Test Keys for 34800-EN 34800-E N and 14112-08 MCP
14112-10
MCP Weatherproof Enclosure for MCP * Normally Open / Normally Close
S4-3489 6
SECTION 4: page 6
by Honeywell
Optical
smoke
Smoke Detectors
detectors
are
ideal at detecting visually smoky fires which are likely to be slow, smouldering fires. ABS cas casing ing w ith red LED LED fire indicator.
Optical Detector
Special feature The use of th e
TECHNICAL SPECIFICATION Typ e
Op t i cal
diode base allows monitoring of a removed detector to comply with BS 5839.
N o m i n a l Vo l t a g e
9 - 28V dc
Q u i escen t Cu r r en t
6 0 µA
In g r ess Pr o t ect i o n
I P3 0
N.B.. M ax N.B aximum imum of 20 per zone.
A p p r o x W ei g h t
0 . 1 1 Kg
O p er a t i n g Tem p er at u r e
- 1 0 o C t o + 5 0o C
Rel evan t St a n d a r d s
EN 5 4 – 7
A p p r o va l s
LPCB ap p r o v ed
ORDER CODES Optical
17840-01
Common Bas Basee
1780 0-02
(Dimensions (mm 104
Common Base with Diode
17801-02
Base less Diode (surface (s urface cabling)
0 1
1780 0-01
Basee w ith Diode Bas (surface (s urface cabling)
1780 1-01
Remote Re mote LE LED D module
1789 9-01
Remote Re mote Re Relay lay module
1789 9-44
6 4
3 7 e s a b h t i
w
SECTION 4: page 7
by Honeywell
Heat He at De Dett e c t o rs Heat
detectors
respond
to
changes in temperature and are better suited to smoky, dusty or steamy environments than smo ke d etec etectors. tors. A comprehensive range of fixed, high t emperature and rate of ris risee devices are available, making the range suitable for areas where the temperature fluctuates for natural reasons reasons or d ue to cer certain tain ind ustrial pro ces cesse ses. s. ABS casing with red LED fire Heat Detector
indicator.
TECHNICAL SPECIFICATION Typ e
Fi xed Tem p .
Rat e o f Ri se
Hi g h Fi xed Tem p .
N o m i n a l Vo l t a g e
28V dc
28V dc
24V dc
Q u i esc en t Cu r r en t
3 0 µA
3 0 µA
30µA
In g r ess Pr o t ect i o n
IP3 0
IP3 0
I P3 0
0 . 0 7 Kg
0 . 0 7 Kg
A p p r o x W ei g h t
0 . 0 7 Kg
- 1 0 o C t o + 5 0o C
O p er a t i n g Tem p er at u r e Rel eva n t St an d ar d s
EN 5 4 Pa r t 5
EN 5 4 Pa r t 5
EN 5 4 Par t 8
A p p r o va l s
LPCB
LPCB
-
Tr i g g er Tem p er a t u r e
58 oC
N A (Fa ct o r y p r eset 5 8 o C)
8 5 oC
Gr a d e 1
Grad e 1
Gr ad e 2
Sen si t i vi t y
ORDER CODES Fixedd Temperatu re Fixe
178 50-0 1
Rate of Ris Risee
1786 0-01
High Fixe Fixedd Temperatu re
178 70-0 1
Common Bas Basee
1780 0-02
Common Base
Dimensions Dimens ions (mm )
104 97 0 1
with Diode
17801-02
Base less Diode (surface (s urface cabling)
1780 0-01
Basee w ith Diode Bas
4 4
(surface (s urface cabling)
1780 1-01
Remote Re mote LE LED D module
1789 9-01
Remote Re mote Re Relay lay module
1789 9-44
SECTION 4: page 8
by Honeywell
Beam Sm o ke Det ecto rs
Optical beam smoke detectors are suitable for large open areas where installation of single point detectors may be difficult or uneconomical. Beam detectors can be installed with separate transmitter and receiver or combined transceiver unit and reflector.
Note: An additional 24V dc power supply is required.
Dual Ended Beam
Sing le Ended Refl ective Beam
TECHNICAL SPECIFICATION Type
Dual Ended Beam
Nom inal Voltage Quiescent Current
Com bined Reflective Beam
24V dc
24V dc
Receiver: - 8m A
Receiver: < 4m A
Transmitter: - 5mA
Approx Packaged W eight Am bient Tem perat ure Relevant Standards
Kg 3.2
Kg 0.67
-10 o C to 50 o C
-30 o C to 55 o C
BS 5839-5
Beam Lengt h
10m - 100m
50m - 100m
(Dimensions (mm Separate Beam Smoke Detector
65
101 0 6 2
5 9
210 Reflective Beam Detector Width: 130mm Height: 210mm Depth: 120mm
ORDER CODES 07011-41
Beam Detector
07011-40
Reflective Beam
05214-24-EN
Power Supply
85
SECTION 4: page 9
by Honeywell
Duct Sm o ke Det ect o r
The duct detector kit is comp rised of a conventional detector and duct detector housing. The duct detector is mounted on the outside of the air duct. A venturi tube protrudes into the duct and draws a sample of the air which passes over the sensor and returns back into the duct. When the smoke density in the sampled air reaches the trigger level of the smoke detector an alarm w ill be signalled on t he fire Duct Detector
alarm control panel.
TECHNICAL SPECIFICATION Ingress Prot ect ion
IP54
Operat ing Tem perat ure
-10 o C t o + 6 0 o C
Approx W eight
0.7Kg
Finish
(ABS plast ic (Grey
Air Velocit y
1M /S to 20M /S
Quiescent Current
90µA
Dimensions (mm ) 300
120
0 1 1
ORDER CODES Duct Detector Includes Venturi tube and Duct Kit Mo unting
1781 5-01
Remote Relay Mo dule
1789 9-44
Optical Smoke Detector
1784 0-01
SECTION 4: page 10
by Honeywell
S3 Electr o n ic So u n d ers / St ro b es
The S-cubed range of alarm sounders
incorporate
sound,
speech and strobe effects all in one range of alarm devices. The range offers all variants in the choice of 2 colours, red or w hite, w ith either a shallow base version sealed to IP31 or a deep base version sealed to IP55. All the low profile sounders have the option of an integral strobe. As an aid to commissioning there is the option to use the HandiLink IR remote control to select sounder tones and adjust the volume remotely. This means
TECHNICAL SPECIFICATION – 1.0. SOUNDERS AND STROBES Sounder
Sounder/St robe
Sound Out put at 1m
See Tone Table
See Tone Table
N/A
to make this adjustment. This
St robe Flash Rat e
See Tone Table
See Tone Table
Variable
facility is only active when the
St robe Out put
physical access is not required
sounders are turned on from the fire alarm panel.
Type
Average Current Synchronisation Operating Volt age Range
See Tone Table
Operating Tem perat ure
IP65 Electronic Sounder Red
C3IP-SN-R
IP65 Electronic Sounder Wh ite
C3IP-SN-W
IP31 Electronic Sounder Red
C3-SN-R
IP31 Electronic Sounder Wh ite
C3-SN-W
See Tone Table
m A @ 24V 6
Sound & Strobe synchronisation better than ± 30mS over 20 m inutes with all units powered from the same circuit 10.8V – 28.8V
10.8V – 28.8V
10.8V – 28.8V
IP55C w it h t he Deep Base IP31C w it h t he Shallow Base
Approx W eight
Low Profile Sounder 100 dBA
Equivalent to a 3w Xenon Equivalent to a 3w Xenon Strobe Strobe
N/A
Ingress Prot ect ion
ORDER CODES
St robe Only
0.3Kg
0.3Kg -10 C to 50 C
-10 C to 50 o C
EN54-3
EN54-3
N/A
3m
3m
N/A
IR Cont rol Operating Distance St andards
o
o
0.3Kg
-10 C to 50 C
Relevant Standards (Sounder (only
o
o
o
Com plies w it h EN54 Pt 3
Low Profile Sounder and Strobe 100 dBA IP65
Electronic
Red IP65
Electronic
The strobe option is equivalent to a standard 3w xenon strobe and uses 1/20th of the power
32 sounder tones are available
Voice enhanced sounders are available in the range
4 voice phrases and a bell sound are available as standard
C3-SN-ST-RR
All sound and strobe signals are synchronised to better than + /- 30m S over 20 minu tes
Sounder/Strobe
Soun ders and Strob es are compatib le with 12V and 24V systems
C3-SN-ST-WR
A th ird w ire option allows the selection of 2 alternative soun ds. Ideal for class change applications
Products incorporate inn ovative design f eatures for w hich m ultiple patent s have
Sounder/Strobe C3IP-SN-ST-WR
Electronic
Red IP31
Very low p ow er consum ptio n m eans mo re soun ders and strobes per circuit
C3IP-SN-ST-RR
White IP31
Sounder/Strobe
Electronic
White
Sounder/Strobe
Convention al Stro be IP65
Ultra
Low
Red Body/ Red Lens
Current
Strobe
(5mA)
C2IP-ST-RR
Please note – all strobes are red except where listed
been granted
SECTION 4: page 11
S3 Voice
by Honeywell
Enhanced Sounders
TECHNICAL SPECIFICATION – 1.1 VOICE ENHANCED SOUNDERS & STROBES Type
Voice Enhanced Sounder
Voice Enhanced Sounder/St robe
Sound Out put at 1m
See Table 3
See Table 3
St robe Flash Rate
See Table 3
See Table 3
St robe Out put
Equivalent t o a 3w Xenon St robe
Average Current
See Table 3
See Table 3
Sound & Strobe synchronisation better than ± 30m S over 20 m inutes with all units powered from the same circuit
Synchronisation M essage and At t ent ion Tone Period
10-30 Seconds
10-30 Seconds
Operat ing Volt age Range
10.8V – 28.8V
10.8V – 28.8V
M aximu m Voltage
30V/20µA
30V/20µA
Reverse
Mo nitoring
In gress Prot ect io n
IP5 5C w it h t he Deep Base IP3 1C w it h t he Sh allow Base
Approx W eight
0.3 Kg
0.3 Kg
Operat ing Tem perat ure
-10 o C to 50 o C
-10 o C to 50 o C
IR Cont rol Operat ing Dist ance
3m
3m
How to select a speech message and attention tone 1. Select the required speech message and tone from the signal 1 column of table 3 referring to table 1 and 2 for message and ton e descriptions. 2. If the third wire option is used the two alternative messages and ones for your first selection are shown on the right hand side of table 3. 3. Aft er making a selection set the switch SW1 as shown in the SW1 column of table 3.
CONVENTIONAL SPEECH SOUNDER AND STROBE Table 1 M essage No.
Speech M essage
M1
A tt en ti on p le ase th is i s a n em erg en cy pl ea se lea ve th e b ui ld in g b y t he ne arest av ai la bl e exi t. (Fem al e v oi ce)
M2
A n i ncid en t h as been rep ort ed in th is bu ild in g p lease aw ai t f urt her in st ru ct io ns. (Fem ale vo ice)
M3
This is a test message no action is required. (Female voice)
M4
Th is i s a f ire a la rm ! Pl ea se l ea ve t he b ui ld in g i mm ed ia te ly b y t he n ea rest av ai la bl e exi t. (M a le v oi ce )
Complex Tone No.
Description of Tone
CTO
Alarm Bell (equivalent to 8” 12V 105dB(A) @ 1m w ith s t ro b e 14.2mA 24V 105.5dB(A) @ 1m w ith strobe 12mA (without strobe 4.5mA)
Solenoid (without strobe
Bell) 4.5mA)
Standard messages and complex tones (Audio File - PA020001) Table 2 G r a p h i c a l representation
Tone
Description
Tone 1
Alternating ton e 800/ 970Hz @ 2Hz – FP 106 3.1 Telecoms
Tone 2
Intermittent tone 970Hz @ 1Hz LF back up alarm – BS 5839: Part 1
Tone 3
Intermit tent ton e 970 Hz 0.25s on, 1s off – BS 5839 : Part 1
Tone 4
Continuo us @ 970 Hz - BS 5839 : Part 1
Tone 5
Fast sweep 800 Hz – 970 Hz @ 7Hz – BS 5839 : Part 1
Tone 6
M edium sweep 800H z – 970H z @ 1Hz – BS 5839 : Part 1
Tone 7
Sweep 1200Hz @ 1200Hz -– 500Hz @ 1Hz with 10ms silence – Germ an DIN t on e e vacu at e
Tone 8
Alternating ton e 440Hz / 554Hz @ 2Hz – Turn out Sw eden
Tone 9
Intermit tent ton e 100 0Hz @ 1Hz – Local w arning Sw eden
Tone 10
Intermit tent Tone 700H z 4s On, 4s Off – Industrial alarm Germany
Tone 11
Fast wh oop 500Hz – 1000Hz @ 7Hz
and Strobe 100 dBA
Tone 12
US temp oral ton e LF
IP31 Voice Sound er/Strob e Red
Tone 13
US temp oral ton e HF
IP31 Voice Sounder/Strobe W hite C3-VP-ST-WR
Tone 14
Define during manu facture – default is a fast siren
ORDER CODES Low Prof ile Voice Enhanced Sounder
Remote Cont rol HandiLink
IR
Remote
S-Cubed range of Sounders Note: Only the messages and complex tones specified in table 1 are applicable to this S-cubed product. Note: The nominal sound frequencies stated in the table are based on the resonance frequency of the transducer.
C3-VP-ST-RR
Control
for
the
S3-CONTROL
SECTION 4: page 12
by Honeywell
Electronic Bells
An electronic bell for a wide range of uses. M etal casing available in red or grey finish. Suitable for semi flush or surface mounting.
Bell TECHNICAL SPECIFICATION Type Ingress Protection Approx W eight
24V dc
230V ac
St andard IP40
St andard IP41
Special IP55
Special IP55
Kg 1.1
Operating Tem perat ure Sound Out put at 1m Current at Nom inal Volt age
Kg 1.25 o
o
Indoor, -10 C t o + 5 0 C (93dB(A
(96dB(A
30m A
30m A
Relevant St andard
EN 54-3
(Dimensions (mm 155
85
ORDER CODES IP40 24V dc Electronic Bell Red 30mA 93-95 dBA @ 1M
12141-04
IP41 220/240V ac Electronic Bell Grey 30mA
1214 2-59
IP55 24V dc Weather Resistant Electronic Bell Red 30mA
1214 3-04
0 3 1
5 5 1
SECTION 4: page 13
by Honeywell
Door Release
To ensure fire doors close in an emergency and prevent the spread of fire and smoke. M oulded
ABS
and
steel
enclosure capable of floor or wall mounting. Complies with BS 5839-3.
Door Holder TECHNICAL SPECIFICATION Type
Wall Mount ed
Wall Mount ed
Floor Mount ed
24V dc
230V ac
24V dc
Approx W eight
Door plat e, 0.07 Kg
Current Consum ption
21m A
Door holder, 0.53 Kg
12m A
45m A o
Operat ing Tem perat ure
o
Indoor/Out door, -10 C t o + 5 0 C
Nom inal M agnet ic Pull
112 New ton
Relevent St andard
200 New t on BS 5839- 3
Finish
M oulded ABS
Dimensions (mm )
2 7 a i d
6 9
ORDER CODES Door Holders, Closers, Batteries and Chargers Magnet Door Holder 24V dc 22mA
04390-31
Magnet Door Holder 23 96
45
240V ac 17.5mA
04390-55
Door Holder Floor Plate
0439 0-92
Door Plate Assembly (Spare)
043 90-9 9
Magnet Door Holder Floor Mounted 24V dc 45mA
04390-41
Pow er Supply Units for 24V dc Door Holders Transformer Rectifier 24V dc 0.5 A
051 06-0 5
Transformer Rectifier 24V dc 1.5 A
051 06-1 5
SECTION 4: page 14
by Honeywell
Relay
enclosure
Relays to
house
applications involving switching and t imers. All
purpose
polycarbonate
construction. Suitable
for
activating
class
change or ‘start w ork’ signals.
Low Prof ile Enclosure
TECHNICAL SPECIFICATION Coil Voltage
24V dc
Coil Current
50m A
Cont act Rat ing 240V ac
6A
Contact Rating 24V dc
5A
Profile
High
M ax. Capacit y
4 m ini relays
Ingress Prot ect ion
IP67
Op erat in g Tem perat ure
In do or/Ou td oo r, 0 - 40 o C
Dimensions (mm ) 50
ORDER CODES 24V dc DPCO Relay c/w High Profile Enclosure
1910 7-52
24V dc Relay Base and Diode
1910 4-52
Timer Octal Base 2-3 2 Secs. DOE 24V dc c/w Base
1910 6-02
5 2 1
Enclosures and Accessori es for Relays High Profile Enclosure with DIN Rail 125x125x100mm
19100-02 125
75
25
SECTION 4: page 15
by Honeywell
Po w er Su p p lies
To supply additional standby power for control panels or relays. Protected against over-voltage and reverse polarity connections. Fault monitoring to comply with BS 5839.
Pow er Supp ly Unit TECHNICAL SPECIFICATION M ains Input
230V ac
230V ac
Out put Current
4A
1A
Out put Volt age
27.5V dc
Operat ing Tem perat ure
-10 o t o + 4 0 o C
-10 o t o + 5 0o C
M ax. Bat t ery Capacit y
2 x 12V/24Ah
2 x 12V/7Ah
8.5 Kg
7.5Kg
Approx W eight
ORDER CODES Pow er Supply Unit s (less cells) 24V, 6.0A charger 24V, 1A Charger
0521 4-24EN 6210 28
SECTION 4: page 16
by Honeywell
Syst em Lo ad in g Calcu lat o r
Zone Loading To calculate the zon e loading of any system comp lete the t able below and ensure that the g rand t otal d oes not exceed system limits (Xenex is 3mA per zone). (NO. (a
(QUIESCENT LOAD (µA) (b
Opt ical Sm oke Detector
60
Fixed Temperature Heat Detector
30
Rat e of Rise Heat Det ect or
30
High Tem perat ure Heat Det ect or
30
(TOTAL LOAD (µA) (a x b
Grand Total Notes: 1. If detector removal monito ring is required to comp ly with BS 5839, a detector base w ith diode should be used and the maximum number of detectors should not exceed 20 per zone. 2. Any numb er of manual call points may be included in zone calculations. 3. Beam detectors will require a separate pow er supp ly.
Sounder Circuit Loading To calculate the maximu m soun der loading comp lete the table below and ensure that t he grand tot al does not exceed system limits. (For Xenex; maxim um load per circuit is 0.5A. Total load m aximu m 1A).
(NO. (a
OPERATING CURRENT ((mA) (b
S-Cubed Sounders and Strobes
(TOTAL LOAD (m A (a x b)
*
Sounder Base
18
24V dc Bell
30
(S3 Sounder (no St robe
(depending on t one) 2-6
(S3 Sounder (w it h St robe
(depending on t one) 5-12 Grand Total
*See tone table for specific operating currents (page 17 section 4).
SECTION 4: page 17
S3 Electr o n ic
by Honeywell
So u n d ers / St ro b es
TONE TABLE FOR SOUNDER ONLY AND SOUNDER / STROBE VARIANTS 12V
Signal 1
Strobe
Tone 1
1Hz
Tone 2 Tone 3 Tone 4 Tone 5 Tone 6
1Hz 1Hz 1Hz 0.8Hz 1Hz
Description Alternating tone 800/ 970Hz @ 2Hz FP 1063.1 Telecoms BS 5839: Part 1 Alternating tone 800/ 970Hz @ 1Hz - BS 5839: Part 1 Intermittent tone 970 Hz @ 1Hz LF back up alarm - BS 5839: Part 1 Intermittent tone 2850Hz @ 1Hz HF back up alarm - 2nd tone BS 5839: Part 1 Intermittent tone 970Hz 0.25s - on, 1s off - BS 5839: Part 1 Continuous @ 97 0Hz - BS 5839: Part 1
SW 1 Sw itch
Tone 8 Tone 9 Tone 10
0.5Hz 1Hz 1Hz 1Hz
Slo w sweep 300Hz- 1200Hz over 2s - Vds2300 Signal Fast sweep 800H z - 970Hz @ 7Hz - BS 5839: Part 1 Medium sweep 800Hz - 970Hz @ 1Hz - BS 5839: Part 1 Continuous @ 2850Hz
1Hz
Sweep 2400 - 2850Hz @ 7Hz
1Hz
Sweep 2400 - 2850Hz @ 1Hz
Tone 14 Tone 15
0.86Hz 1Hz 1Hz
Slo w whoop 5 00Hz - 1200Hz over 3s with 0.5s off Sweep 1200Hz @ 1200Hz - 500Hz @ 1Hz wit h 10ms silence - German DIN tone evacuate Alternating tone 2400/ 2850Hz @ 2Hz
Tone 17 Tone 18
1Hz 1Hz 1Hz
Alternating tone 554Hz for 100mS then 440Hz for 400ms - French AFNOR tone Alternating tone 440Hz / 554Hz @ 2Hz - Turn out Sweden Continuous 700Hz - All clear Sweden
Tone 20 Tone 21
1Hz Intermittent tone 700Hz 6s On 12s Off 6s - On - Pre- vital message Sweden 12s - Off 1Hz 1Hz
Intermittent tone 1000Hz @ 1Hz Local warnin g Sw eden Rising 1s, constant 4s, fall 1s @ 1000Hz - Industrial alarm Germany
1Hz Intermittent tone 700Hz 4s On , 4s Off Tone 22 4s - On 4s - Industrial alarm Germany - Off Tone 23 Tone 24 Tone 25 Tone 26
Sync. pulses 1Hz 1Hz 1Hz
Emergency evacuation to ISO 8201 - ISO 8201 Tone Slo w whoop 500Hz - 1000Hz over 4.5s - Evacuate Netherlands Siren (ramp up from 500Hz - 1200Hz in 3s then ramp down 1200 Hz - 500Hz in 3s) Fast whoop 500Hz - 1000Hz @ 7Hz
101.8
16.5
7.4
101.8
9.5
3.4
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
101.7
16.5
7.3
101.7
9.5
3.4
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
1 0 1 .6
15.5
4.5
1 0 1 .6
8.2
2.0
To n e 5
0 . 8 Hz
To n e 6
1Hz
1
2
3
4
5
6
103.7
15.8
5.5
103.7
8.5
2.5
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
101.2
12.0
2.0
101.4
6.0
1.0
Tone 2
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
102.0
16.5
8.0
102.1
9.8
3.7
Tone 3
0.5Hz
Tone 1
1Hz
1
2
3
4
5
6
99.3
13.0
7.9
99.3
7.0
3.7
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
93.5
16.3
8.2
93.7
9.4
3.7
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
94.1
16.5
8.7
94.3
9.5
4.0
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
104.4
16.5
9.7
104.7
10.2
4.4
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
100.2
1 6.5
11.2
100 .8
10.6
5.4
Tone 12
0.5Hz
Tone 10
1Hz
1
2
3
4
5
6
101.9
16.5
12.0
102.7
11 .5
5.8
Tone 3
0.5Hz
Tone 10
1Hz
1
2
3
4
5
6
98.8
15.5
7.5
99.2
8.7
3.5
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
96.6
1 6.2
7.3
98.1
9.5
3.5
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
101.7
1 6.5
12.0
102 .5
11.8
6.2
Tone 12
0.5Hz
Tone 10
1Hz
1
2
3
4
5
6
89.3
15.8
5.2
89.6
8.7
2.5
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
90.1
15.8
5.7
90.3
8.9
2.8
Tone 19
0.5Hz
Tone 18
1Hz
1
2
3
4
5
6
95.9
16.2
7.0
96.3
9.8
3.3
Tone 1
0.5Hz
Tone 3
1Hz
1
2
3
4
5
6
95.9
6.1
4.0
96.3
5.0
2.3
Tone 17
0.5Hz
Tone 18
1Hz
1
2
3
4
5
6
100.6
15.5
5.8
101.0
8.5
2.7
Tone 17
0 .5Hz
Tone 25
1Hz
1
2
3
4
5
6
100.9
16.0
10.0
101.2
10.0
4.0
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
101.4
8.7
5.7
101.9
6.4
3.0
Tone 19
0.5Hz 6s - On 12s - Off
Tone 6
1Hz
1
2
3
4
5
6
104.0
12.0
4.0
104.5
6.0
1.5
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
99.6
16.0
7.2
10 0.2
9 .5
3.4
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
98.2
16.0
7.5
98.5
9.5
3.5
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
95.8
15.8
7.0
96.0
8.7
3.3
Tone 24
0.5Hz
Tone 25
1Hz
1
2
3
4
5
6
100.6
12.0
3.0
100.6
5.5
1.0
Tone 3
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
99.0
11.8
2.5
99.0
5.3
0.8
Tone 4
0.5Hz
Tone 6
1Hz
1
2
3
4
5
6
98.8
16.3
9.4
99.2
10.0
4.3
To n e 3
0 . 5 Hz
To n e 6
1Hz
1
2
3
4
5
6
101.6
16.5
13.0
102.2
10 .8
6.4
Tone 3
0.5Hz
Tone 31
1Hz
1
2
3
4
5
6
101.2
16.5
13.0
102.0
10.8
6.4
Tone 3
0.5Hz
Tone 8
1Hz
1
2
3
4
5
6
98.8
16.0
7.5
99.2
9.5
3.5
Tone 3
0.5Hz
Tone 6
1Hz
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
Tone 27 Tone 28 Tone 29
Sync. pulses
US temporal ton e LF
Sync. pulses
US temporal tone HF
1Hz
ON
ON
LF buzz 800Hz- 970Hz @ 50Hz
ON
Tone 30 Tone 31
1Hz 1Hz
Alternate 2500/ 31 00 @ 2Hz - Securit y alarm Alternate 2500 / 3100 @ 4Hz
ON
ON
Tone 32
1Hz
Define during manufacture - default is a fast siren
ON
Note: The current data in the table is for Red strobe only. The nominal sound frequencies stated in the table are based on the resonance frequency of the transducer. Tone 1 is the f actory default setting
Strobe
6
ON
Tone 19
Signal 3
5
ON
Tone 16
Strobe
4
ON
Tone 13
Signal 2
3
ON
Tone 12
dB(A) @ 1m
2
ON
Tone 11
dB(A) @ 1m
Operating Current With Strobe Without mA Strobe mA
1
ON
ON
Tone 7
Graphical representation
24V
Operating Current With Strobe Without mA Strobe mA
SECTION 4: page 18
by Honeywell
S3 Voice Enhanced Sounders TABLE 3 – TONE / VOICE TABLE FOR VOICE AND VOICE / STROBE VARIANTS Decibel (dBA) and current (mA) values
Signal 1 Message
Strobe
Attention Tone
M1
1Hz
Tone 1
SW1 Switch
1Hz
Tone 6
1Hz
Tone 11
1Hz
Tone 5
1Hz
Tone 8
M1
1Hz
Tone 7
1Hz
Tone 12
1Hz
Tone 14
1Hz
Tone 1
1Hz
Tone 6
101.8
9.5
3.4
M2
0.5Hz
Tone 2
M3
1Hz
Tone 4
1
2
3
4
5
6
94.1
16.5
8.7
94.3
9.5
4.0
M2
0.5Hz
Tone 3
M3
1Hz
Tone 4
1
2
3
4
5
6
95.8
15.8
7.0
96.0
8.7
3.3
Tone 5
0.8Hz
Tone 6
M3
1Hz
Tone 4
1
2
3
4
5
6
93.5
16.3
8.2
93.7
9.4
3.7
Tone 3
0 .5Hz
Tone 6
M3
1Hz
Tone 4
1
2
3
4
5
6
9 0.1
1 5.8
5.7
90 .3
8 .9
2 .8
Ton e 2
0 .5 Hz
Tone 6
M3
1 Hz
Tone 4
1
2
3
4
5
6
96.6
16.2
7.3
98.1
5.5
1.0
Tone 3
0 .5Hz
Tone 1
M3
1Hz
Tone 4
1
2
3
4
5
6
98.8
16.0
7.5
99.2
9.5
3.5
Tone 3
0 .5Hz
Tone 6
M3
1Hz
Tone 4
1
2
3
4
5
6
1 01 .8
1 6.5
7.4
10 1.8
9 .5
3 .4
Ton e 3
0 .5 Hz
Tone 6
M3
1 Hz
Tone 1 4
1
2
3
4
5
6
9 4.1
1 6.5
8.7
96 .0
8 .7
3 .3
Ton e 3
0 .5 Hz
Tone 6
M6
1 Hz
Tone 4
1
2
3
4
5
6
93.5
16.3
8.2
93.7
9.4
3.7
Tone 3
0 .5Hz
Tone 6
M6
1Hz
Tone 4
1
2
3
4
5
6
9 0.1
1 5.8
5.7
90 .3
8 .9
2 .8
To ne 1 2
0 .5 Hz
Tone 1 0
M6
1 Hz
Tone 4
1
2
3
4
5
6
96.6
16.2
7.3
98.1
9.5
3.5
Tone 3
0 .5Hz
Tone 10
M6
1Hz
Tone 4
1
2
3
4
5
6
1 00 .6
1 2.0
3.0
10 0.6
5 .5
1 .0
Ton e 3
0 .5 Hz
Tone 6
M6
1 Hz
Tone 4
1
2
3
4
5
6
98.8
16.0
7.5
99.2
9.5
3.5
Tone 3
0.5Hz
Tone 6
M6
1Hz
Tone 4
1
2
3
4
5
6
Tone 12
0.5Hz
Tone 10
M6
1Hz
Tone 4
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 6
M3
1Hz
Tone 14
1
2
3
4
5
6
Tone 19
0.5Hz
Tone 18
M3
1Hz
CT0
1
2
3
4
5
6
Tone 1
0.5Hz
Tone 3
M3
1Hz
CT1
1
2
3
4
5
6
Tone 17
0.5Hz
Tone 18
M3
1Hz
CT2
1
2
3
4
5
6
Tone 17
0.5Hz
Tone 25
M3
1Hz
CT3
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 6
M3
1Hz
CT4
1
2
3
4
5
6
Tone 19
0.5Hz 6s - On 12s - Off
Tone 6
M3
1Hz
CT5
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 6
M3
1Hz
CT6
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 6
M3
1Hz
CT7
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 6
-
1Hz
CT0
1
2
3
4
5
6
Tone 24
0.5Hz
Tone 25
-
1Hz
CT1
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 6
-
1Hz
CT2
1
2
3
4
5
6
Tone 4
0.5Hz
Tone 6
-
1Hz
CT3
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 6
-
1Hz
CT4
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 31
-
1Hz
CT5
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 8
-
1Hz
CT6
1
2
3
4
5
6
Tone 3
0.5Hz
Tone 6
-
1Hz
CT7
ON
M4
1Hz
Tone 11
ON
M4
1Hz
Tone 5
ON
M4
1Hz
Tone 8
ON
M4
1Hz
Tone 7
ON
M4
1Hz
Tone 12
ON
M4
1Hz
Tone 14
ON
M1
1Hz
CT0
ON
M1
1Hz
CT1
ON
M1
1Hz
CT2
ON
M1
1Hz
CT3
ON
M1
1Hz
CT4
ON
M1
1Hz
CT5
ON
M1
1Hz
CT6
ON
M1
1Hz
CT7
ON
-
1Hz
CT0
ON
-
1Hz
CT1
ON
-
Y L N O E N O T
1Hz
CT2
ON
-
1Hz
CT3
ON
-
1Hz
CT4
ON
-
1Hz
CT5
ON
-
1Hz
CT6
ON
-
1Hz
CT7
Attention Tone
7.4
ON
M4
Strobe
16.5
ON
M4
Signal 3 Message
101.8
ON
M1
Attention Tone
6
ON
M1
Strobe
5
ON
S E G A S S E M H C E E P S Y B D E W O L L O F E N O T N O I T N E T T A
Signal 2 Message
4
ON
M1
Without Strobe mA
3
ON
M1
24 V With Strobe dB(A) @ 1m mA
2
ON
M1
Without Strobe mA
1
ON
M1
12 V With Strobe dB(A) @ 1m mA
Int erm itt ent 1S On and 1S Off
ON
Refer to d ecibel (dBA) and current (mA) valu es stated in Table 1.
Note: Only the complex tones (CTn) and speech messages (Mn) specified in Table 1 are valid. The highlighted row in this table shows the factory default setting of the S-cubed unit.
: 19 SECTION 4: page
Charger Un it
page : SECTION
by Honeywell
Charger Unit TECHNICAL SPECIFICATIONS
Gent 5216-24 Power Supply / Charger Unit
Ambient temperature range for continuous operation
-10ºC + 50ºC
Rat ed Volt ages
115/230V
Supply / Charger is a wall
Rat ed Frequency Range
45 - 65Hz
mounting fully automatic 24V
Rat ed Current
115/230V; 3.4/1/7A
6A constant potential constant
Po wer Con versio n Ef ficiency
u p t o 80 %
To tal Bat t er y Ch arg er O ut p ut
0 /6 A@ 2 7. 6V ± 1 % (2 0º C)
Permitted Maximum Load Current
4.32A for 16 Hr battery recharge period. 5.00A for 24 Hr battery recharge period The battery will supply peaks of o utput current up t o th e maximum load circuit rating of 10A With the battery disconnected, the Battery Charger will operate normally as a power supply, with a nominal output voltage of 27.6V ± 1% current limited to a maximum of 6A.
The
Gent
5216-24
Power
current float battry charger, with accommodation of up to 2 off 12V 24Ah (Gent Code No.15901-24), sealed lead acid batteries. Description:
M axim um out put ripplie
100m V pp
The
Common Repeat Fault Indication
Voltage free contacts are provided for remot e alarm in the event of the operation of any of the above fault indications (Fault alarms)
efficiency system s grad e sw itched
Contact rating: 1A @ 30V dc The remo te alarm relay de-energies w hen a fault condit ion occurs
A front panel mounted yellow LED provides a local common fault indication Cable entry is via 4 X 20mm diameter knock-out s situated at the top and on the rear panel fo r sub-surface installation
unit
comprises
a
high
mo de pow er source. It is capable of continuo us operation betw een 0/100% o f th e equipm ent’s rated out put . the unit has selectable mains
supplies
of
230V
or
115V by manual adjustment. There is accurate temperature
M aximim Cable Sizes M ains t erm inal block
2.5m m ²
compensation provided for the
Rem ote alarm s
2.5m m ²
sealed lead acid bat tery.
Bat t ery & Load Term inals
4.0m m ²
A range of fault monitoring
M ains fuse rat ing
BS4265 HRC Ceramic, Size 25 X 5mm 115V : T8A 230V : T4A
facilities are provided for both
Bat t ery fuse rat ing
BS 2950A Glass, size 32m m X 6.35m mF15A
monitor the mains and charger
Load fuse rat ing
BS 2950A Glass, size 32m m X 6.35m m F15A
outputs respectively.
100% spare fuses are provided Dim ensions (m m )
380 (H) X 408 (W ) X 190 (D)
W eight
Bat t ery : 8.9 Kgs each Equipment : 7.6 Kgs
Environm ent
Safety Com pliance
The sealed bat teries not supplied used in this equipm ent cont ain lead and concentrated sulphu ric acid. Wh en no lon ger serviceable, dispose of safely. if in doub t, p lease contact your Gent Service Department for assistance
the battery and battery charger, green neon and LED indicators
Whilst
the
equipment
is
designed principally for use with Gent fire alarm products, the specification and outstanding performance
mean
that
this
unit will naturally lend itself to
In the event of difficulty, contact either the supplier or manufacturer who w ill be pleased to help
many applications outside the
BS/EN60065
fire alarm field. Telemetry,
These includ e
Instrumentation,
Communications and other uses that require a reliable monitored un-interrupted source of battery standb y pow er.
SECTION 4: page 20
by Honeywell
Accessories
Key Box A neat circular enclosure in which a key can be kept for use in emergencies. Particularly suitable for buildings where there is a need for unsupervised emergency exits to be kept locked.
ORDER CODES Key Box
08205 -00
10 Spare Glasses (Plain)
414 4-00 7
10 Spare Glasses (Printed)
414 4-08 8
Spares Test Keys For testing call point s w ithou t breaking the glass. Resetab le Elem ent Allow ing a break glass call point to be modified into a resetable call point.
ORDER CODES Pack of 10 MCP S/Mo unt Boxes
7116 7-94NM
Pack of 10 Spares Glasses
711 67-9 0NM
Pack of 10 Test Keys
S4-3489 9
Pack of 10 Resetable Elements
711 67-9 6NM
Pack of 5 Protective Covers
711 67-9 5NM
: SECTION 4: page 21
page : SECTION
Charger Un it by Honeywell
Series 3000
K3000 Series Convent ion al Fire alarm Control Panels For systems of 12 zones upw ards, t he K3000 Series provides all of the f acilities that a conventional fire detection and alarm system is likely to need
Features Complies with BS5839: Part 4: 1988 Can be used on pre BS5839 type systems
Product Overview The K30 00 Series exceeds the rquirem ents of BS58 39 : Part 4:1 98 8 in several areas. Inclusion of zone isolate, zonal one man test, zonal contacts, shop unit interface and zoned or two stage alam ou tpu ts are all standard features. A wide range of detectors are supported by the equipment, ensuring that the K3000 Series control p anels can be used with existing insallations with out the need t o change t he field devices/ Front panel controls and indicators are kept to a minimum to simplify user operation and to maint ain clarity of indication. High intensity tw in bar LED indicators are used on all front panels, All panels are supp lied wit h suitable pow er supp ly and generous batt ery space to g ive extended batter standby if required. Am ple cable entries and rem ovable chassis assist in ease of installat ion. All pan els are available as true flush or surface mounting and in two tone grey or cream or brown. All colours are available to special order. Arrangement s can be m ade for special badging or special features such as brass or stainless steel K3000 Series control p anels allow con tinued o peration of call points and detectors upon removal of a device from the detection line. This can be achieved either by fitting an active end of line device or by using special line clamping bases.
12 - 48 zones are standard, more available on request Class change input Common
fire
and
fault
contacts Line continuity upon detector removal Remote signal contact and isolate Shop e interface input Zone one man test Zonal selection for operation with intrinsically safe barriers Zonal volt free contacts Zone isolate facility Com patible with m ost po pular detectors Option for plug-in two stage soun der cards
Control Panel
Flush mo unt cross section
4
SECTION 4: page 22
by Honeywell
Specifications TECHNICAL Construct ion
1.2m m fully w elded sheet st eel
Finish
epoxy pow der coat
St andard colour
2 t one grey
Sounder out put s
2 out put s each fused at 1 am p each (0.5A E3002001)
Isolat ed fire cont act
volt free changeover 1A at 30V DC
Auxillary alarm cont act
volt free changeover 1A at 30V DC
Fault cont act
volt free changeover 1A at 30V DC
Zonal cont act
volt free norm ally open 1A at 30V DC
Auxilliary DC out put
fused at 500m A
Det ect ion zone m onit oring resistor
6k8
Sounder circuit m onit oring resist or
10k
Rem ot e control input s
Alarm input , Silence input , Reset input (opt ion f or pulsed alarm inpu t (Security alert)
M ains supply
230V AC (+ 10% / -15%)
Call point s
require 470 OHM series resist or
Alarm t hreshold
100 t o 900 Ohm s
Short circuit t hreshold
0 t o 100 Ohm s
M axim um zone quiescent current
1.6m A
Act ive end of line
K1406K (Opt ional)
Operating t em perat ure
-5º C t o + 40º C
Operating hum idit y
to 95% (non condensing)
PANELS Product code
Zones
St andby current
Alarm current
Sounder load per circuit
Sounder load total
Minimum battery (24h standby)
PSU
W eight (approx in kgs)
Size (mm )
K3012003
12
0.2A
0.34A
1.0A
1.5A
7.0Ah
4.0A
8.6 Kgs
500 X 355 X 108
E3012003
12
0.2A
0.34A
1.0A
1.5A
7.0Ah
2.5A
8.6 Kgs
500 X 355 X 108
K3016005
16
0.22A
0.38A
1.0A
1.5A
7.0Ah
4.0A
11.0 Kgs
570 X 420 X 110
E3016005
16
0.22A
0.38A
1.0A
1.0A
7.0Ah
2.5A
11.0 Kgs
570 X 420 X 110
K3024005
24
0.31A
0.45A
1.0A
1.5A
12.0Ah
4.0A
11.5 Kgs
570 X 420 X 110
E3024005
24
0.31A
0.45A
1.0A
1.0A
12.0Ah
2.5A
11.5 Kgs
570 X 420 X 110
K3032007
32
0.38A
0.52A
1.0A
1.5A
12.0Ah
4.0A
20.0 Kgs
600 X 700 X 140
E3032007
32
0.38A
0.52A
1.0A
1.0A
12.0Ah
2.5A
20.0 Kgs
600 X 700 X 140
Flush mo unt ing versions are available to o rder. All weigh ts quot ed are less standby batt eries
: SECTION 4: page 23
Charger Un it
page : SECTION
by Honeywell
Ancillaries Electronic Sounders
ORDER CODES
A versatile 24V electronic sounder for u se in a w ide range of app lications. Soun d signals m ay be sent in 3 ways; cont inuou s, intermitt ent or warable. High imp ack black base mo ulding w ith red or grey horn op tions
TECHNICAL SPECIFICATION Type Sound out put at 1m Current at nominal voltage Ap prox. w eight In gress p ro tect io n
24V dc
240V ac
100dB (A)
100d B (A)
2 0m A
12m A
0.34 Kg
0.84 Kg
IP4 2 (IP5 5 w it h gasket)
IP65
Note: Squashni sounders accommodate a common detector mounting base
Ap prox. w eight In gr ess p ro t ect io n
Sq uashni 2 4V dc
9 3dB (A)
93dB (A)
18m A
1 8m A
0.25 Kg
0.18 Kg
IP4 2 (IP5 5 w it h gasket)
IP42
TECHNICAL SPECIFICATION 24V dc
230 V dc
230V W P
Sound output at 1m
103dB
100dB
1 30dB
0.5A
0.085A
0.46A
0.21 Kg
0 .55 Kg
1.24 Kg
IP 42
IP 42
IP 65
Ingress protection
025 13-5 5
Weather Resistant Kit
125 11-1 9
4
Squashni sounder
026 01-3 1
Cover plate
026 01-6 1
Bedhead sounder
025 19-5 2
9-28V Deep base
74452-2 4 744 51-2 4
NM E
ORDER CODES 24V dc Siren
027 03-0 1
240 V dc Siren
027 02-0 1
240 V ac Siren (Weatherproof) 027 01-0 1
Type
Approx. w eight
240 V ac Sounder, Red
9-28 V Sounder base
Roshni 24V dc
Power Supplies A range of electric motor driven sirens which are particularly well suited for noisy industrial environm ents. A w eather proof version is available for outd oor use.
Current at nominal voltage
125 11-5 2
NM E
TECHNICAL SPECIFICATION
Current at nominal voltage
24V Sounder, Grey
ORDER CODES
Squashni sound ers are underful for small room s. They may also be used wit h a detector t o reduce the number of fixing points.
Sound out put at 1m
125 11-3 7
(IP55)
Roshni & Squ ashni Electr oni c Soun ders
Type
24V Sounder, Red
Xenon Flashers A h igh intensity visual w arning signal f or situations w here soun ders are very ineffective e.g near noise machinery. Polycarbonate, ABS Case
TECHNICAL SPECIFICATION Type Cu rr en t at n om i na l v o lt ag e Approx. w eight Ingress Protection
24V dc
240V ac
0 1 - 1 2 5m A 0 3 - 4 5 m A 0.18 Kg
0.18 Kg
IP65
IP65
ORDER CODES 24V dc Flasher
023 00-0 1
240 V ac Flasher
023 00-0 2
240 V dc Flasher
023 00-0 3
SECTION 4: page 24
by Honeywell
Squashni Platform Sounder
ø 1 1 2 m m
The Squashni Squashni presents presents the m any qualities of the Roshni Roshni in the f orm of a base soun der for use with alm ost any available available fire detector. The flat deck area area can also also be used wit h beacon s to p rovide a compact audio-visual alarm device with the added economy of a single installation point. Fixi ixing ng p latform for d etectors or beacons Low curre current nt cons consump ump tion Blank cover for use as a stand alone sounder
30mm
Reduced installation costs Colour matched to leading manufacturers detectors Tamper proof cap TECHNICAL SPECIFICATION Vo l t a g e
9 - 28V dc
Cu r r en t
1 8 m A (t o n e 3 )
So u n d o u t p u t To n es Vo l u m e Co n t r o l
9 3 d B (A ) (t o n e 3 ) 32 20dB
M o n it o rin g
Rever se p o l a r i t y
Tem p er a t u r e
-1 0 º C t o + 5 5 º C
Pr o t ect i o n
IP5 4
Co n st r u ct i o n
A BS
W ei g h t
0 . 1 5 Kg
Co l o u r s
Red o r W h i t e
SECTION 4: page 25
by Honeywell
Flas lashh n i Bea eaco co n /S /Soo u n d ers ex exeno eno n
ø 93mm
4
The Flas lashn hn i is an aud ible and visual device device wh ich requires one sing sing le installatio installatio n po int . This greatly reduces installation and costs and is m uch less ob tru siv sivee than t w o separat separat e devices devices.. Vers Version ion s are available with the sounder and beacon linked or with separate terminals for independent operation High out put sounder beacon beacon Aut om atic sound sound er synchronisa synchronisation tion Volum Vol um e control Choice of lens / soun soun der colour com bination s Base compatible with the Roshni, Clarifire and Solex beacons Lockable base TECHNICAL SPECIFICATION Vo l t a g e
9 - 1 5 V d c (1 2 V Ver si o n ) 1 8 - 3 0 V d c (2 4 V Ver si o n ) (* 1 )
Cu r r en t
1 0 0 m A 1 2 V Ver si o n 6 8 m A 2 4 V Ver si o n
So u n d o u t p u t To n es
9 0 d B (A ) (To n e) To n e 5 1 2 V Ver si o n (* 2 ) To n e 3 2 4 V Ver si o n (* 2 )
Vo l u m e Co n t r o l
20dB
Li g h t so u r ce
Xen o n
Ra t i n g
0 .7
Fl ash r at e
1Hz
Len s Co l o u r
Red , A m b er, Bl u e, Gr een , Cl ea r
M o n it o rin g
Rever se Po l ar i t y
Tem p er a t u r e
-1 0 º C t o + 5 5 º C
Pr o t ec t i o n Co n st r u ct i o n
IP5 4 Sh a l l o w b a se IP6 5 D eep & U b ase A BS FR, PC l en s
W ei g h t
0 . 3 3 Kg
Co l o u r s
Red o r W h i t e
E S A B m W m O 2 L 9 L A H S
D E E P U B A S E
1 2 1 m m
SECTION 4: page 26
by Honeywell
GE & GEE Series
The GE & GEE Series exceeds the requirements of BS5839: Part 4: 1988 in several areas. Inclusion of zone isolate, zonal one man test, zonal contacts, shop unit interface and zoned or two stage alarm outputs are all standard features features.. A wide range of detectors are supported by the equipment, ensuring that the GE & GEE Series control panels can be used with existing installations without the need to change the field devices. Front panel controls and indicators are kept to a minimum to simplify user operation and to maintain clarity of indication. High intensity, twin bar LED indicators are used on all front panels. All panels are supplied with suitable power supply and generous battery space to give extended batt ery standb standb y if required.
Conventional Fire Alarm Control Panels For System System s of t w elve zon zon es up w ards, th e GE & GEE Series pro vides all all of th e facilities that a conventional fire detection and alarm sys ystem tem is likel likelyy to need.
Additional f ea eatures tures Complies w ith BS583 BS583 9: Part Part 4: 19 88 Can be used on pre BS5839 type systems Class change input Comm on f ire and and f ault contacts contacts
Ample cable entries and removable chassis assist in easee of installatio n. All pan els eas are available as true flush or surface mounting and in two tone grey or cream and brown.
Line continuity upon detector removal
GE & GEE Series control panels allow continued operation of call points and detectors upon removal of a device from the detection line. This can be achieved either by fitting an active end o f line device or b y using using special line clamping bases.
Comp atible with m os ostt p opular detectors detectors
Remot e signal signal cont act and is isolate olate Shop interface inpu inpu t Zonal one m an test Zonal sele selection ction for operation w ith intrinsic intrinsically ally safe safe barriers Zonal volt free contacts Zone isolate facility
SECTION 4: page 27
by Honeywell
GE & GE Series Product
Zones
Code
St and b y
Alarm
Current
Current
Sounder Load per Circuit
Sounder Load Tot al
Minimum Battery ( h standb y)
PSU
Weight
Size
(Approx)
(mm)
GE30120 GE 30120 03
12
0.2A
0.34A
1.0A
1.5A
7.0Ah
4.0A
8.6kg
500 x 355 x 108
GEE GE E301200 3
12
0.2A
0.34A
1.0A
1.5A
7.0Ah
2.5A
8.6kg
5 00 x 355 x 108
GE30160 GE 30160 05
16
0.22A
0.38A
1.0A
1.5A
7.0Ah
4.0A
11.0kg
5 70 x 420 x 110
GEE GE E301600 5
16
0.22A
0.38A
1.0A
1.0A
7.0Ah
2.5A
11 .0kg
570 x 420 x 110
GE30240 GE 30240 05
24
0.31A
0.45A
1.0A
1.5A
12.0Ah
4.0A
11.5kg
570 x 420 x 110
GEE GE E302400 5
24
0.31A
0.45A
1.0A
1.0A
12.0Ah
2.5A
11.5kg
570 x 420 x 110
GE30320 GE 30320 07
32
0.38A
0.52A
1.0A
1.5A
12.0Ah
4.0A
20.0kg
600 x 700 x 140
GEE GE E303200 7
32
0.38A
0.52A
1.0A
1.0A
12.0Ah
2.5A
20.0kg
600 x 700 x 140
All w eights quo ted are less less standb standb y batteries
Construction - 1.2m m fu lly w elded sheet sheet steel steel Finish - epoxy pow der coat Standard colour - 2 tone grey Sound er outputs - 2 out put s ea each ch fused fused at 1 amp each Isolatab Is olatab le fire cont act - volt free changeove changeoverr 1A at 30 V DC Auxiliary alarm contact - volt free changeove changeoverr 1Aat 3 0V DC Fault cont act - volt free changeove changeoverr 1A at 30V DC Zonal con tacts - volt free norm all allyy open 1A at 3 0V DC Auxiliary DC output - fus fused ed at 500m A Detection Dete ction zon e mo nito ring resis resistor tor - 6k8 Ohms Soun der circuit circuit m onito ring resis resistor tor - 10k Ohms Remote control inputs - Alarm inp ut , Silence inp ut , Res eset et input (optio n fo r pu ls lsed ed alarm alarm inpu t [Sec [Security urity Alert]) M ains supp ly - 230V AC (+ 10%/10%/-15%) 15%) Call point s - require 47 0 Ohm s series res resis isto to r Alarm t hres hreshold hold - 100 to 900 Ohms Short circuit threshold - 0 to 100 Ohms Ohms M ax aximu imu m zone quiesce quiescent nt current - 1.6mA Active end of line - K1406K (option al) Operating temperature - -5°C -5°C to + 40 °C Operating Oper ating hum idity - 0 to 95% (non (non condensing) condensing)
SECTION 4: page 28
by Honeywell
Sigm a XT
Extinguishant Control Panel Sigma XT is a new generation extingu ishant releasing panel w hich is fully compliant with European standard BS EN120 94-1. (Fixed firefighting systems – components for gas extinguishing system s). The simple, programmable configuration options and easy to install construction make Sigma XT panels the ideal choice for small to medium sized systems using all extingu ishant agents.
Access Level 2 • Test Zones 1 to 3 • Disable Zones 1 to 3 • Disable 1st Stage Alarms • Disable Pre-activated 1st Stage Relay • Disable Pre-activated 2n d Stage Relay • Disable Extract Fan O utp ut • Disable M anual Release Inpu t • Disable Exting uishant Sub System • Activate Extract Fan Outp ut • Activate Alarm Delays
Features Complies with EN12094-1
• • • • • • • •
• Coincidence Detection • Disable Panel Features • Zone Alarm Delays (Detectors) • Zone Alarm Delay (Call Point s)
Any single zone or any comb inations of zones can be conf igured to release Config urable first stage sound er delays Config urable detection delays Zero tim e delay upo n m anual release opt ion Com patible w ith I.S. barriers Non-latching zone input opt ion t o receive signals from other systems such as
aspirating equipment
Access Level 3 • Soun der Delay
Three detection zones as standard
• • • • •
Conf igurable extinguishant delays up to 60 seconds in 5 second steps Configurable extinguishant duration up to 5 minutes in 5 second steps Countdown timer shows time remaining until release Supp orts up t o seven, four w ire statu s indicators Built in Extract Fan control
• Config ure Zone for I.S Barrier Use
l a u n a l M a h / c h u t o i t c n t u i a w A w M S S e e e t t t s o c o a e e m m l l e e e e R S R R
• Zone Short Circuit Alarm 1st Stage Sounders
• Zone Non Latching
10K
2nd Stage Sounders
10K
• Zone Input s Delay
10K
s g r n o i t s a c e e t l e e R D
• Exting uishant Release Tim e Delay
Remote Control Inputs
• Extinguishant Release Duration Tim er
To Status Units
• Exting uishant Reset Delay Tim er
E
R0V SIL AL FLT RST AUX REMOTE DATA POWER 24V CONTROL STATUS UNITS
S1
S2
l s a r r o e t h p c e i r t e e P D
8 K 6
8 K 6
8 K 6
S
S
S
S
S
S
S
g n i n o i t i d n o C r i A p o t S
r e w o P n w o d t u h S
R 0 7 4
8 K 6
R 0 7 4
8 K 6
h c t i w S d l o H e t o m e R R 0 7 4
8 K 6
d e s a e l e h R c t t i n w a S h s e i u r g u n s i t s e x r E P R 0 7 4
8 K 6
d i o n e l o S g n i s a e l e R E D O I D
S O L
w o h L c t t i r n w e a w S o h s e P i r u n g u s a n s i F t e x r t E P c a r t x R E 0 7 4
8 K 6
Auxiliary Signalling Relays
S
NC C NO NC C NO NO C NC C NO NC C NO NC C NO ZONE 1ZONE 2 ZONE 3 2ND 1ST 2ND MODE MAN. HOLD REL EXTING. LOW EXTRACT FAULT LOCAL FIRE SOUNDER STAGE STAGE SELECT RELEASE PRESS. PRES. RELAY FIRE RELAY SWITCH SWITCH
Sigma XT PCB
SECTION 4: page 29
Flash n i Beaco n /So u n d ers exeno n
by Honeywell
Product Overview Designed and manufactured to the highest standards in a quality controlled environment and with European EN12094-1 approvals, the Sigm a XT extinguishant releasing p anel offers outstanding value and p erformance for all small to medium fixed firefight ing installations. With three detection zones as standard, extinguishant release can be configured to activate from any combination of detection zone inputs to allow (among other combinations) any two from three type activations such as would be required for detection in ceiling void, room and floor void applications. The extensive config uration opt ions of t he Sigm a XT allow the fu nctionality of the system to be extensively mod ified w hile still com plying with the requirements of the controlling standard for the equipment (EN12094-1). The panel contains a large LED display to enable easy configuratio n and control w hich also d isplays the t ime remaining unt il extingu ishant release fo r ad ded user safety. The count dow n tim er is dup licated on up t o seven remot e status units to p rovide local indication of the extinguishant system status. W ith all o f t he electronics mo unt ed on a single, easily remo vable, steel plate Sigma XT panels are bot h rob ust and easy to install.
4
Sigm a XT is supplied in an enclosure that mat ches the design and colou r of the Sigma CP range.
Panel Product Code
Description
Size (mm) Sze
K11031M2
Surface mounting panel
385 x 310 x 90
K11031F2
Flush mounting panel *
415 x 315 x 86
Compatible Status & Hold Off Units K911000M8
6 lamp unit
(surface)
K911000F8
6 lamp unit
(flush)
K911100M8
6 lamp unit c/w mode select
(surface)
K911100F8
6 lamp unit c/w mode select
(flush)
K911110M8
6 lamp unit c/w m ode select and m anual release
(surface)
K911110F8
6 lamp unit c/w m ode select and m anual release
(flush)
K911113M8
10 lamp unit c/w mode select and manual release
(surface)
K911113F8
10 lamp unit c/w mode selectand manual release
(flush)
K91000M10
Extinguishant hold off switch
(surface)
W911000W8
IP65 - 6 lamp unit
(surface)
W911100W8
IP65 - 6 lamp unit c/w mode select
(surface)
W911110W8
IP65 - 6 lamp unit c/w m ode select and man ual release
(surface)
W911113W8
IP65 - 1 0 lamp unit c/w m ode select and man ual release
(surface)
K18002
Tamp er resistant Vision W indow * *
SECTION 4: page 30
Notes
1 SECTION 5: page
Section 5:
by Honeywell
Nano System
Contents • Gent Panel Selector • System Architecture • Nano Control Panel • Compatible Loop Devices • Nano Commissioning Tool
SECTION 5: page 3
by Honeywell
Panel Selector Vigilon System
Nano System
Nano-24
Compact-24
Vigilon-24
Vigilon-72
127 devices
✔
Upto 400
Upto 800
Upto 1200*
Loop length 1000M or less
✔
✔
✔
✔
16 zones or less
✔
32**
32**
32**
Standalone system
✔
Network capability
Network capability
Network capability
24 hour standby capacity
✔
✔
✔
Up to 72hours
No on board printer requirement
✔
✔
Integrated in Panel
Integrated in Panel
Remote evacuation input at panel
✔
✔
✘
✘
S-Quad / S-Cubed compatible
✔
✔
✔
✔
8 beam pairs or less
✔
16 pairs per Loop
16 pairs per Loop
16 pairs per Loop
Customised / Voice Enhanced Messaging
✘
✔
✔
✔
3400 / 34000 device compatability
✘
✔
✔
✔
Simple or no repeat indication requirement
✔
Loop controlled repeats & Mimics
Loop controlled repeats & Mimics
Loop controlled repeats & Mimics
One out all out
✔
✔
✔
✔
Complex cause and effect (including command builds)
✘
✔
✔
✔
Simple linked 16 zone phased evacuation
✔
✔
✔
✔
Simple linked 16 zone phased evacuation with delay
✔
✔
✔
✔
Integral sounder mode
✘
✔
✔
✔
Upto 16 loop interfaces
✔
✔
✔
✔
Up to 128 groups
Up to 128 groups
Up to 128 groups
Via remote input
Via system timer or remote input
Via system timer or remote input
Via system timer or remote input
Integrated Voice Alarm system
✘
✔
✔
✔
3rd party Voice Alarm connectivity
✔
✔
✔
✔
Head end management requirement
✘
Winmag
Winmag
Winmag
Simple interfacing requirements Single area co-incidence detection Day Night mode
*Note all loop capacities subject to loop loading calculatations & max of 512 detection devices (EN54 requirement) ** Greater than 32 with Vigilon Mimic panel
SECTION 5: page 4
by Honeywell
System Architecture Printer
Conventional Sounders (2 master alarm circuits) Nano Control Panel
24V supply Repeat Indicator Panel
USB RS485 Fire relay change over contacts rated 1A @ 24V dc
Monitored Input
Fault relay change over contacts rated 1A @ 24V dc
230V ac
RS232 Printer Port
Loop circuit
Input output signals may be used to control fire dampers and plant equipment
Remote LED S-Quad Sensor/ Speech Strobe
MCP S-Cubed
MCP
T-breaker
S-Quad Sensor/ Speech Strobe
T-breaker
Beam Transmitter
S-Cubed
Beam Receiver
S-Quad Sensor/Speech Strobe
SECTION 5: page 5
by Honeywell
Nano Control Panel
Nano is the latest fire detection control panel from Gent by Honeywell. Nano is a single loop analogue addressable panel with an intuitive user interface and attractive appearance. Managing up to 127 devices on the loop, Nano is ideal for small systems. Nano has been designed with ease of use as a high priority. From installation and commissioning to everyday use, Nano delivers an experience that makes the fire alarm system easy to use and Nano control panel
safe to operate. The appearance of the panel means that Nano
TECHNICAL SPECIFICATION
may be installed and look good
Type
Control panel
Loop Capacity
127
in any type of building.
Batteries
2 x 7Ah
Battery Standby
24 hours standby (subject to battery calculations)
Approx Weight
9 Kg (with batteries)
Operating Temperature
0ºC to +45ºC
Gent by Honeywell. This allows
Relevant Standard
EN54 Parts 2 & 4
a small system to benefit from
Cable Entry
Top and rear knockouts
Gent’s advanced fire detection
Approvals
LPCB Approved
technology and powered loop
Nano operates the latest range of Vigilon loop devices from
performance with ranges such as S-Quad and S-Cubed. Designed for small buildings, Nano offers a simple cause and effect which can be configured by a simple and easy to use PC commissioning tool.
Dimensions (mm)
9 1 4
ORDER CODES NANO SYSTEM CONTROL PANEL 347
85.5
Nano Single Loop Panel
NANO-24
SECTION 5: page 6
by Honeywell
Compatible Loop Devices
A Q U D C O S -
M P
T
A
I B L
E
Nano is compatible with the full S-Quad range. Reduce system costs by taking full advantage of the S-Quad’s multi-function devices that combine fire sensing with a sounder and/or a strobe. Fewer devices means less cabling and therefore reduced time spent on site.
Because all of the S-Quad devices are powered by the loop each one requires just one pair of cables and one set of terminations to provide all of its multi-sensor and sounder, strobe and speech functionalities. S-QUAD – SAVING YOU TIME AND MONEY
There is a built-in isolator in every single S-Quad – saving you more money whilst improving the integrity of the system
Each S-Quad has a monitored line that can be configured for a fire output or a fire input – this may remove the need and cost for a separate interface
S-QUAD – ENSURING YOUR PEACE OF MIND
The capability and function of Nano with S-Quad ensures that the system complies with the requirement s of: The Disability Discrimination Act Part III 1995 The Building Regulations Approved Document B&M The British Standard BS 5839-1:2002
SECTION 5: page 7
by Honeywell
Compatible Loop Devices
Strobe
Sensor
SENSOR
The combined power of Nano and S-Quad provides quick,
The built-in, high intensity flashing strobe helps alert occupants in noisy environments as well as the hearing
The S-Quad sensor can incorporate one or all of the
impaired
The strobe function is built in to the centre of the sensor
CO. So depending on the environment, anything from an
– this gives the whole device a low profile. Far better
Optical only to a Dual Optical Heat CO sensor can b e used
looking than bulky layers of strobes and sounders that are
S-Quad’s unique combination of sensing elements
fixed to some sensor bases
eliminates a higher number of false alarms
intelligent fire decisions following sensing elements: optical, dual optical, heat and
STROBE
Uniquely the S-Quad has a series of sensor states that are
strobe can achieve the equivalent of a 3W Xenon s trobe
designed to overcome the false alarm risk s in different types of rooms
It’s very low power consumption means that the S-Quad whilst only using 1/20th of the power
Low power consumption and high output LED technology ensures reliable and cost eff icient units
Speech
Sounder
SOUNDER
The sensor sounder device allows an even distribution of
SPEECH MESSAGES
sound with only one device to install
Sensors with voice capability can reduce the need for speakers and traditional voice alarm amplifiers in
Instead of three cables being needed to wire individual sensors, strobes and sounder s, these device innovations
All strobes are synchronized across the Nano loop
applications where background music or PA is not re quired
Up to 2 different standard messages are stored in each
can significantly reduce the cost of install by requiring just
device to allow different message s to be played in each
one cable terminated to one device
area for phased evacuation
As a result, eight S-Quad devices can be provided for the
A bell tone can be reproduced within the device required
same price of just one traditional wall-mounted sounder
for schools where the fire alarm sounders are used to
and its own cabling and installation
produce a ‘class change’ signal
Low current consumption means that more sensor sounders can be supporte d on the Nano loop
Voice messages are synchronised across the loop to ensure clear instructions throughout the building
SECTION 5: page 8
by Honeywell
Compatible Loop Devices
Gent by Honeywell’s patented S-Cubed – Speech messages/Sounder/ Strobe – devices are fully loop powered and do not require any separate sounder circuits.
Sounder, speech messages, strobe
Sounder only
l
Sounder, speech messages
Low current consumption means that more sounders can be supported on the Nano loop
The S-Cubed sounder/strobes are fully compatible with the S-Quad range and all are synchronised across the loop
Each S-Cubed requires just one pair of cables and one set of terminations to
ORDER CODES
provide all of its sounder, strobe and spee ch functionalities
NANO SYSTEM CONTROL PANEL
The strobe option is equivalent to a 3W Xenon strobe but uses only 1/20th of
Nano Single Loop Panel
the power
NANO CONTROL PANEL SPARES
The strobe and sound element is fully monitored for circuit failures
Spare MCB for Nano
NS-MCB
S-Cubed can help the Nano system meet the requirements of the Disability
Spare PSU for Nano
VCS-PSU-N
Discrimination Act Part III
Spare Battery set for Nano
S-Cubed can be programmed to store customer messages
Spares Pack for Nano
Spare Display for Nano Spare Front Cover for Nano Spare Backbox for Nano
NANO-24
NS-BATT NS-SPARE NS-HMI NS-DOOR NS-BACKBOX
Spare Nameplate / Screw Cover Pack of 5 Nano
NS-NPLATE
SECTION 5: page 9
by Honeywell
Compatible Loop Devices
The combination of powerful software in the Nano control panel and Vigilon’s advanced range of loop powered devices delivers a flexible, easy to use system for small buildings. BEAM SENSORS
The beam sensors are connected to the same circuit as all other devices, no additional wiring is needed
The loop powered beam sensors do not require any additional power supplies or interfaces
This makes them the most economical solution for beam detection
INTERFACES
Nano can support a high number of interfaces on the loop, exceeding typical Nano system requirements
Interfaces with output channels don’t need additional relays – the Nano panel will monitor for cable faults
The range includes low voltage and mains switching variants to meet all app lication needs
MANUAL CALL POINTS
The manual call point is available as a break glass variant or with resettable elements
As well as saving on the cost of replacement glasses, the resettable eleme nt is ideal where glass could prove to be a safety hazar d
Surface or flush mounted variants are available - the call point flushes with a standard installation back box
5
SECTION 5: page 10
by Honeywell
Designed for small buildings, Nano offers a simple cause and effect which can be configured by an easy to use PC commissioning tool. The new commissioning tool has been developed specifically to improve the set up time for Nano. Future configuration changes can be managed through the tool or directly via the interface on the panel.
Nano Commissioning Tool
SECTION 6: page 1
Section 6:
by Honeywell
Vigilon System Overview & Control Panels
Contents • Overview • Architecture • Key Benefits • Panel Overview • Vigilon • Vigilon Compact • Repeat Panels • Vigilon Repeat • LCD Repeat Indicator • A3 Mimic
SECTION 6: page 3
by Honeywell
Vigilon System Overview
The feature-packed Vigilon analogue addressable fire detection and alarm system from Gent offers medium to large sized building owners the latest in system flexibility and control panel aesthetics. Vigilon offers a degree of system sophistication that has not previously been available and incorporates a host of features designed to make it the simplest system to install, configure and use. As well as providing the user with clear comprehensive information in the event of a fire, Vigilon additionally provides an entire historic log of the system’s management information. Should a system fault occur a detailed explanation is shown and the user can at any time navigate through the faults history.
MCP Repeat Panel
S-Quad Sensor Sounder T-breaker
MCP
Max Loop Length 1000m
Alarm Sounder
Sprinkler
Interface Units
Door Release or Plant Shutdown S-Quad Sensor Sounder
Beam Transmitter
Beam Receiver S-Quad Sounder Strobe
WINMAG
Loop 1
Manned Centre Link to Fire Station
Loop 2 Loop 3 Loop 4
Secure Fibre Network
Secure Copper Network
Node
Node
Loop 6
Node
Secure Fibre Optic Loop 2 Loop 3 Domain Loop 4 (Max 200 panels/ nodes per system)
ACU
Loop 1
4 or 6 loop, 24 or 72 hour standby Loop 1
S-Quad Sensor
MCP DAU
Up to 200 Devices per Loop
A3 Mimic Panel MCP
S-Quad Sensor/ Speech Strobe
SECTION 6: page 4
by Honeywell
10 reasons to specify Vigilon
1
The Power of Vigilon Supports the largest number of fire detection and alarm products on the same 2 cables with soft or SAFE (Soft Addressed Firmware Encoded) addressing options. Minimise False Alarms The combined power of S-Quad and the Vigilon panel provides quick, intelligible decision making. The S-Quad dual angle optical sensor recognises a clear distinction between smoke and steam.
3
Rapid Fire Detection
The 4 separate sensing elements in the
S-Quad, including CO, can be set with individual sensitivity levels and sensor ‘states’ can be programmed for different time periods to suit all applications and environments. Cost Savings Cable runs are shorter. 2 core costs less than 4 core. Overall cable costs are normally 30% less than other systems.
5
Create Seamless Network Connect up to 200 panels together and retain control on large or complex sites. Also, new buildings or extensions are easily accommodated onto the existing system. Customise your Fire Plans
Evacuating public areas or production
lines is disruptive and costly. Vigilon Compact’s powerful software gives you flexibility. Areas throughout the building can be sectored to give an evacuate or alert signal on alarm, or can be configured with pre-set delays.
7
Safe Evacuation
Voice messaging capability through the sounder
functionality of S-Quad ensures quick and safe evacuation in the event of a fire. Loop powered sounder/strobe Loop powered sounder/strobes save on cabling and interface costs whilst ensuring compliance with the Disability Discrimination Act 1995. Built-in high intensity flashing strobes warn those with hearing difficulties of a potential fire hazard – now a legal requirement in all public buildings.
9
Clear Information An 8-line by 40 character display means the user is not limited in describing the position or nature of an emergency. A clear backlit LCD display reduces confusion and speeds response. Integrated Voice and Graphics Systems Vigilon may be integrated with Gent’s Vigilon Voice evacuation system, or connected to Supervisor, a graphic display for single point control and monitoring.
SECTION 6: page 5
Section 6.1:
Vigilon Control Panels
by Honeywell
SECTION 6: page 7
Vigilon Panels Overview
by Honeywell
The Vigilon system offers a complete range of control panels that can be installed as standalone panels from 1 to 6 loops or as part of multi-panel networks. A system that can meet the needs of a building today and in the future.
The Vigilon System is suitable for all building types and sizes
Vigilon’s modular concept makes systems simple to design for any building. Panels can be installed as standalone units or as multi panel networks of 200 panels/nodes Vigilon Compact is ideal for smaller systems needing upto 2 loops, while Vigilon panels can manage up to 6 loops allowing easy and flexible panel selection Vigilon panels are available with 24 and 72 hour standby power supply options Both Compact and Vigilon panels can be installed in the same network
The Vigilon System responds quickly to real fires without the risk of false alarms
Vigilon’s advanced sensing technology and powerful software processing in the control panel quickly identifies real fires Powerful software algorithms are used to match the pattern of activity in the sensor with data from test fires stored in the panel memory. False inputs that do not match a real fire pattern are ignored or flagged as faults The latest Vigilon range of S-Quad multi-sensors incorporates four separate technologies in the same sensor that combine to create a range of sensing states appropriate for different environments Unique programming options allow these different sensitivity states to be used to reduce the likelihood of known risks triggering a fire, thus avoiding unnecessary evacuation while maintaining the ability to give a fast response to a real event
The Vigilon System is cost effective to install
The Vigilon loop manages the largest number and variety of devices, with up to 200 sensors, sounders and interfaces connected to the same 2 core loop circuit Vigilon sounders, strobes and interfaces are loop powered so there is no need for auxiliary power supplies Every loop device includes an integral short circuit isolator reducing installation costs at the same time increasing system integrity Multi-function devices combining sensor, sounder, speech and strobe reduce the number of individual devices that need to be installed Every S-Quad sensor has a configurable, monitored input. This can be used instead of an interface saving on installation and product costs
The Vigilon System – flexible and simple to use
The Vigilon control panels have a simple user interface with LCD screen providing accurate information in an emergency Every Vigilon loop device has a unique address assigned in software. Text labels, of up to 64 characters, can be assigned to each address. This allows fires to be located quickly and assists troubleshooting in commissioning and maintenance PC Based commissioning tools release powerful programming options that allow complex fire plans to be configured without extra equipment Flexible programming options are available at the panel so minor changes can be made without the need for PC tools Multi-panel networks can be programmed seamlessly as one system. This allows for flexible design and system management Vigilon Systems can be easily extended or changed. Additional loops and extra panels can be added without affecting the operation of the existing installation
The Vigilon System provides peace of mind
The Vigilon panel, S-Quad sensors and S-Cubed sounders are certified by LPCB to EN 54 the European standard for fire detection systems Loop architecture combined with short circuit isolators in every device ensures maximum tolerance to cable faults S-Quad sensors can be locked into their base protecting them from unauthorised removal Advanced loop and network communications protocols ensure a rapid response to fire triggers achieving response in under 3 seconds even across networks Gent by Honeywell’s Managed Protocol approach ensures that every system is designed, installed, commissioned and serviced by highly trained Gent approved System Integrators
SECTION 6: page 8
by Honeywell
Vigilon 1 to 6 loop
Vigilon 1-6 loop control panels can accommodate up to 200 devices on each loop. The panel is available with 24 or 72 hour standby facility. Advanced networking options allow multi-domain networks of up to 250 panels. Vigilon’s backlit 8-line by 40 character display presents clear indication of fire or fault locations. To meet the requirements of BS 5839 Part 1: 2002 the panel also has separate zonal
Vigilon Control Panel
indication. This comprises 32 fire LED’s which give an overview
TECHNICAL SPECIFICATION
indication ‘at a glance’ without
Type
Control panel
Control panel
Max No of Loops
4
6
Loop Capacity
200
200
Batteries
2 x 12V @12Ah
4 or 8 x 12V @ 21Ah*
Battery Standby
24 hours standby + 30 minutes alarm upgradeable to 72 hours standby + 30 minutes alarm
72 hours standby + 30 minutes alarm
to 4 loops and a network card.
Approx Weight
16.5 Kg
16.5 Kg
The enhanced panel can offer 6
Operating Temperature
0°C to 45°C
0°C to 45°C
Relevant Standard
EN54 Parts 2 & 4
EN54 Parts 2 & 4
Cable Entry
Top and rear knockins
Top and rear knockins
Approvals
LPCB approval to EN 54 Parts 2 & 4
LPCB approval to EN 54 Parts 2 & 4
the need for manual intervention by fire fighters. The standard Vigilon Panel has 24 hour battery standby and up
loops and a network card and up to 72 hour battery standby. Fire to
plans
can
precisely
be
tailored
meet
project
* 6 Loop Panel requires external battery enclosure
requirements.
A
ORDER CODES EN54 Control Panels
B
C
Control Panel 406
543
172
Battery Box
309
112
382
Dimensions (mm)
Vigilon control panel 1 Loop Card (no printer)
VIG1-24-NP
1-4 Loop Panel with 1 Loop Card
VIG1-24
1-6 Loop Panel with 1 Loop Card
VIG1-72
Additional loop
VIG-LPC
Network Card
VIG-NC
Fibre Net
VIG-NC-FO
B
Stainless Steel Door for Vigilon Main Control Panel
VIG-DOOR-SS
Vigilon Main control panel flush mounting kit
VIG-FLUSH-SS
For existing systems to BS 5839 part 4 upgrades are available. Contact Gent for details.
A
C
SECTION 6: page 9
by Honeywell
Vigilon Compact Control Panel
A one to two loop panel accommodating devices
per
up
loop
to
200
with
the
capability of networking with other
Compact
or
Vigilon
Panels. Multiple panel networks can be
programmed
seamlessly
as one system, allowing for flexible design and total system management. LCD
display
indication Vigilon Compact Control Panel
clear
fire
or
fault
plans
can
location. Site
TECHNICAL SPECIFICATION
of
allows
specific
fire
Control panel
be programmed to meet the
Max Number of Loops
2
evacuation
Loop Capacity
200
Networking Capacity
Upto 31 panels/nodes
building.
Ingress Protection
IP31
Type
Approx Weight
16.6 Kg (with batteries)
Operating Temperature
0 oC to +45oC
Relevant Standards
EN54 Parts 2 & 4
Batteries
2 x 12V @ 12 Ah
Battery Standby
24 Hours + 30 minutes alarm
Supply Voltage
216V – 253V 50Hz
Power Consumption
140 W
Cable Entry
Top and rear
Dimensions W x H x D (mm)
403 x 338 x 136
Auxiliary Contacts
Programmable to activate on Fire, Fault or Disablement. (1 x SPCO 1 x DPCO)
Sounder Circuits
2 circuits @ 250mA each
Monitored input
1 input which is programmable to perform a logical action via a command build
Communication ports
2 x RS485, 1 x RS232 selectable functions
Approvals
EN54 Parts 2 & 4
needs
of
the
ORDER CODES
Dimensions (mm)
Control Panel
COMPACT-24-N
LCD Repeat panel
COMPACT-RPT
Flush fixing frame
COMPACT-FLUSH
Additional Loop card
COMPACT-LPC
Network card for Vigilon Network 3 0 4
Optical only sensor
COMPACT-NC S4-715
Stainless Steel Options: Stainless steel door
VIG-RPT-DOOR-SS
Stainless steel flush frame 338
136
COMPACT-FLUSH-SS
SECTION 6: page 10
by Honeywell
A
repeat
panel
Repeat Panel repeats
all
information provided to the main control panel and provides mains control functions. The repeat panel is connected directly to the loop but requires a mains supply to run its battery backed power supply.
Vigilon Repeat Panel TECHNICAL SPECIFICATION Type
Repeat panel
Max No per Loop
4
Loop Capacity
N/A
Batteries
12V @ 7Ah
Battery Standby
24 hours standby + 30 minutes alarm, upgradeable to 72 hours standby + 30 minutes alarm
Approx Weight
9 Kg
Operating Temperature
0°C to 45°C
Relevant Standard
EN54 Part 2 & 4
Cable Entry
Top and rear knockins
Approvals
Applied for
Dimensions (mm)
ORDER CODES Repeat Panel
VIG-RPT-72*
Repeat panels require a first fix Stainless steel door
3 0 4
VIG-RPT-1ST-FIX VIG-RPT-DOOR-SS
Stainless steel flush frame COMPACT-FLUSH-SS * VIG-RPT-72 is compatible with EN 54 and BS
Vigilon System 338
101
SECTION 6: page 11
by Honeywell
LCD Repeat Indicator
The Vigilon Indicator Repeat displays
Fire,
Fault
and
Disablement information on a 2 x 40 character LCD. A
maximum
of
4
Repeat
Panels can be connected to a Vigilon panel via an RS485 Communication Port.
LCD Repeat Indicator
TECHNICAL SPECIFICATION Type
LCD Repeat Panel (Indication Only)
Ingress Protection
IP30
Supply Voltage
21 – 30V dc
Power Consumption
Approx 30 mA
Approx Weight
0.75 Kg
Operating Temperature
0 oC to +45oC
Communication ports
1x RS485 to communicate with the main control panel
Cable Entry
Top and rear knockins
Approvals
N/A
6
(Dimensions (mm
7 7 1
206
49
Wiring Details – LCD Repeat Indicator (indication only) RS 485
Max Cable Length 1000M One LCD repeat Indicator can be powered from the control panel, additional repeat indicators must be powered from an additional power supply. The communication link to the panel is monitored, so if power to the repeat indicators fails the fault will be reported at the control panel.
24Vdc
ORDER CODES Monitored Battery Backed 24V PSU
LCD Repeat panel Vigilon Compact Control Panel
COMPACT-RPT
SECTION 6: page 12
by Honeywell
A3 Mimic Panel
TThe A3 mimic panel provides a pictorial representation of a building’s layout. This gives a rapid, visual indication of the location of any fire incident. It can also be used to provide indication of fault and supervisory events in the system. This one panel can be used as a Zonal Mimic or can hold a pictorial overlay to provide a customised view. The
A3
Customised
Mimic
panel can be mounted in either landscape or portrait, while an A3 Zonal Mimic panel must only
A3 Mimic Panel TECHNICAL SPECIFICATION Type
A3 Mimic Panel
be mounted landscape when
Max Quantity per Loop
4
using the overlay supplied.
Batteries
2 x 6V @ 7Ah
Battery Standby
24 hours + 30 minutes alarm upgradeable to 72 hours
Approx Weight
7.9 Kg without batteries 10.5 Kg with batteries
Operating Temperature
0 oC to 45oC
Cable Entry
Rear
Load Factor
3
Relevant Standard
EN 54 Part 2 & 4
Indicators
1536 Number – High Intesity Red LED’s
Approvals
Applied for
ORDER CODES Mimics and Repeat Panels (EN54) Vigilon Repeat Panel 72 hour (New) BS & EN compatible
VIG-RPT-72
Non-functional LCD Repeat Display (RS485 connection to panel)
COMPACT-RPT
A3 Zonal and Graphic Mimic
VIG-MIM-A3
Repeat Panel and Mimic
Dimensions (mm)
Accessories Vigilon Repeat Panel Battery Pack VSRPT-BATT Battery Pack for A3 Mimic (2 x 6v 7 Ah)
VSRPT-BATT-A3
Repeat Panel Flush Surround
VIG-RPT-FLUSH
Stainless Steel Door for Vigilon Repeat
VIG-RPT-DOOR-SS
1 0 1 : h t p e D
8 3 3
Stainless Steel Repeat Panel Flush Mounting Kit
VIG-RPT-FLUSH-SS
LED Driver Board for Special Mimics
S4-34600 403
1 SECTION 7: page
Section 7:
by Honeywell
The Power of the Vigilon Loop
Contents •S-Quad •S-Quad Overview
•S-Quad Sensors •S-Quad Sensor Sounder
•S-Quad Strobe and Speech
•Wireless Detection •Wireless Overview •Wireless System Architecture
•Wireless Transceiver •Wireless Devices •S-Cubed •Interfaces & Keyswitch •Beam Detectors •Manual Call Points •Duct Smoke Sensor •Sensor Ancillaries •T-Breaker •Flush Mounting Kit for Detectors
•Dust Covers •S-Quad Base Label
SECTION 7: page 3
by Honeywell
Introduction to S-Quad S-Quad features
S-Quad Extra Sensory Detection
Gent’s S-Quad sensor range for Vigilon is the UK’s most innovative solution to the detection and signalling of fires. Patented dual angle optical scatter smoke detection improves both the speed and integrity of fire detection. This advanced sensing technology is coupled with an integral sounder with speech capability and strobe in the same intelligent device, making S-Quad a truly unique fire detection and alarm sensor. The S-Quad sensors inherit all the advantages of Vigilon’s 34000 range combined with extra features, making Vigilon and S-Quad an industry leading combination for fire detection and alarm signalling. Dual Angle Optical Scatter Technology
Light beam is deflected by theBackward Scatter particles in the chambers and results in beams scattered in many directions. The ratio of forward and backward scatter indicates the type of particles present
l
Gasket
Base label
(optional)
(optional)
Locking feature
Base
Dust cover for base (optional)
Forward Scatter
Dual Angle Optical Heat and Carbon Monoxide Multisensor
Optical chamber
Combining the CO technology into the O 2H sensor gives this multisensor the benefits of both high false alarm rejection and fast detection of a wide range of fire types. Many combinations of the different sensors are used in the multisensor to enable fast and above all, reliable fire detection. The following 2 cases are an example of this. CASE 1: SMOULDERING FIRES With smouldering fires, either the CO levels will be sufficient to detect a fire early, or the presence of CO with smoke will enhance the sensitivity of the dual optical and hence the speed of detection. Note that this process is very immune to common false alarm signals, due to the discrimination of the CO cell used in combination with the dual optical sensor. CASE 2: FLAMING FIRES With flaming fires the dual optical sensor becomes more sensitive. Furthermore if a rise in temperature is detected by the heat sensor, a further increase in optical sensitivity occurs, enabling fast and reliable detection of flaming fires. Once again this process has good immunity to false alarms, due to the discrimination of the heat sensor used in combination with the dual optical sensor.
and sounder horn assembly
Baffle ring CO Cell
Black – sensor only White – with speech and/or sounder
Insect mesh assembly
Outer housing Strobe (flasher) assembly Identification ring Black ring – heat only Goldring – CO
Dust cover Gent S-Quad
Competitors
Multi-criteria sensors: combined optical/heat with CO gas detection capability
3
3
Enhanced voice sounder with integral speech messaging and bell tone
3
KEY:
3 S-Quad as standard
3 Offered by a few manufacturers
DDA compliant for audible and visual alarm signal
3
3
Dual Angle Chamber using forward/backward analysis for advanced smoke sensing
3
3
Puts an end to false alarms through clear distinction between smoke, steam and dust
3
3
Early detection using 4 sensors in 1 device each with individual sensitivity settings
3
Design flexibility offers programmable states to suit site specific applications
3
In built input/output capabilities allowing remote LED or signalling of non-fire events
3
Built in isolators in every device maintaining loop integrity
3
Reduced installation and ongoing maintenance costs
3
SAFE addressing – Soft Addressed Firmware Encoded as standard
3
Aesthetically pleasing low profile sensor with optional semi-flushing kit
3
3
3 3
SECTION 7: page 4
by Honeywell
S-Quad 4 Functions in ONE Sensor
SENSOR - A new concept in fire detection - a truly intelligent analogue sensor incorporating exceptional computing power in the sensor as well as the panel to achieve an extremely fast response to a real fire whilst minimising the risk of false alarms.
Sensor
The multi-sensor combines Heat (H), Carbon Monoxide (CO), Optical Forward Scatter (OFS), • Optical Backward Scatter (OBS) The patented dual angle optical scatter technology allows identification of the particle source • filtering potential false alarms due to steam and dust The gas sensing element (CO) within the chamber monitors the concentration of carbon • monoxide, a product of incomplete combustion Effectiveness in reducing False Alarms
in some fire types, and potentially life threatening. The CO sensor allows rapid fire detection, with smouldering fires in areas where smoke detectors could register false alarms. Combined CO gas sensing with dual angle optical and heat allows a higher level of false alarm immunity whilst still improving the detection speed of certain types of fires. Each sensor element has sensitivity settings which Effectiveness of Sensors to Detect Test Fires can be adjusted to suit the environment / application and can be programmed for different time periods during the day or night Repeat fire LED output as standard (if monitored input not used) Operational LED blink Ón/Off’option Dust cover fitted as standard Analogue digital converters to prevent data corruption. Time comparison analogue sensors tested with...
Detector types and multi-sensor options
H
I
O
CO
OH
O2H
O2HCO
Dust
Aerosol
•
Steam
Insects
Cigarette smoke Cooking fumes
Other Gas leakages
Probable Alarm
P
Possible Alarm
Unilikely Alram
•
Analogue sensors during standard test fires
• • • •
Detector types and multi-sensor options
H
I
O
CO
OH
O2H
O2HCO
TF1 Open wood fire
TF2 Smouldering wood fire
TF3 Smouldering cotton fire
TF4 Open plastics (PU) fire
TF5 Liquid fire (n-heptane)
TF6 Liquid fire (spirit)
No response
Poor response
Acceptable response
Good response
SPEECH - Another ‘First’ - a voice chip capabe of delivering synchronised messages throughout the building via the sensor.
Speech
Programmable voice messaging ensures quicker and safer evacuation in the event of a fire • or an emergency Complements the S-Cubed sounder with messages and complex sound signals such as the • bell tone Soft-star and programmable volumes • Programmable message period 10 - 20 seconds • Programmable silences and tones • Low current consumption • RESEARCH* SHOWS ONLY 13% OF PEOPLE REACT TO BELLS, WHILE 70% REACT TO A VOICE MESSAGE * Sources: Brian Piggott (The Fire Research Station) and David Canter (Surrey University)
SECTION 7: page 5
S-Quad 4 Functions in ONE Sensor
by Honeywell
SOUNDER - Increased output with Vigilon still having the largest number of sounders on a loop.
Combined sensor sounder technology provides a cost effective solution for alarm signalling saving on installation costs as there is no need for additional power supplies. Synchronised messages are transmitted through the same sensor that detects the fire. Attention tones can be programmed either as a bell (on speech variants) or a choice of 12 • standard tones. Soft start option • Uniform sound distribution • Low current consumption • Fully synchronised sound patterns via the panel • Selectable speech messages available to suit most • requirements - switched on/off by the Vigilon panel Rich harmonic sound output using patented technique • Options for sound output: • Standard mode = 90dBA @ 1m (typical) • Up to 98 dBA possible if required •
Sounder
STROBE - Warns those with hearing difficulties of potential fire hazard, now a legal requirement in all public buildings through DDA legislation
Built-in high intensity flashing strobe helps alert occupants in noisy environments as well as • the hearing impaired Complies with the latest requirements of the DDA (Disability Discrimination Act 1995) • Compatible with S-Cubed wall mounted strobes • Low power consumption and high output LED technology ensures strobes are cost efficient • and more reliable in use than other high powered strobes Wide viewing angle • Synchronised across the loop • Strobe can operate independently of the sounder if required • Visual indicators • Red LED - indicates Fire as well as reassures device is • operating correctly Strobe LED - flashes at different rate to Red indicating LED • Blue LED - indicates CO present • Gold ring to indicate CO version • Black ring indicated Heat detector only version •
Strobe
SECTION 7: page 6
S-Quad Sensors
by Honeywell
A new concept in fire detection – a truly intelligent analogue sensor combining exceptional computing power in the sensor as well as the panel to achieve an extremely fast response to a real fire whilst minimising the risk of false alarms.
The multi-sensor combines heat (H), carbon monoxide (CO), optical forward scatter (OFS) and optical backward scatter (OBS) The patented dual angle optical scatter technology allows identification of the particle source filtering potential false alarms due to steam and dust The gas sensing element (CO) within the chamber monitors the concentration of carbon monoxide, a product of incomplete combustion in some fire types, and potentially life threatening. The CO sensor allows rapid fire detection, with smouldering fires, in areas where smoke detectors could register false alarms Combined CO gas sensing with dual angle optical and heat allows a higher level of false alarm immunity whilst still improving the detection speed of certain types of fire Each sensor element has sensitivity settings which can be adjusted to suit the environment / application and can be programmed for different time periods during the day or night Repeat fire LED output as standard (if monitored input not used) Operational LED blink ‘On/Off’ option Monitored Input - which can be Fire, Fault or Supervisory
S-Quad Sensor
Why a Dual Optical Heat CO Multi-sensor?
Combining the CO technology into the O2H sensor radically reduces false alarms and allows fast detection of fires.
O2HCO Performance Examples Steam
Forward Scatter High Signal • Alarm = Backwards Scatter Low Signal • No Alarm =
Many combinations of the different sensors are used in the multi-sensor to enable fast and above all, reliable fire detection.
Heat & CO No Signal • No Alarm = Result No Alarm
Dimensions (mm) e 6 . s 9 a 4 b ) h 8 t . i 3 w 6 (
117
TECHNICAL SPECIFICATION
ORDER CODES
Sensor Base
S4-700
Heat Sensor
S4-720
S-Quad Optical Heat
S4-710
Optical
S4-715
Dual Optical Heat Sensor
S4-711
Dual Optical Heat Sensor CO
S4-911
Type Device Load Factor Ingress Protection Approx Weight Operating Temperature Relevant Standards Approvals
Optical
Optical Heat
1
1
EN54-7
Heat
Dual Optical Heat 1
1 IP30 0.11 Kg (0.17 Kg with base) -10 oC to +50oC EN54-7 +5 EN54-5 EN54-7 +5 LPCB Approved
Dual Optical Heat CO 1
EN54-7 +5
SECTION 7: page 7
by Honeywell
S-Quad Sensor Sounder
Combined sensor sounder technology provides a cost effective solution for alarm signalling saving on installation costs as there is no need for additional power supplies. Synchronised messages are transmitted through the same sensor that detects the fire.
S-Quad Sensor Sounder
Effectiveness of Sensors to detect test fires Analogue sensors during standard test fires
Detector types and multi-sensor options H
I
O
CO
OH
O2H
O2HCO
TF1 Open wood fire
TF2 Smouldering wood fire
TF3 Smouldering cotton fire TF4 Open plastics (PU) fire TF5 Liquid fire (n-heptane)
Attention tones can be programmed either as a bell (on speech variants) or a choice of 12 standard tones ’Soft’ start option Uniform sound distribution Low current consumption Fully synchronised sound patterns via the control panel Selectable speech messages available to suit most requirements –switched on/off by the Vigilon control panel Rich harmonic sound output using patented technique Options for sound output: Standard mode = 90 dB(A) @1m (typical)
TF6 Liquid fire (spirit)
No response
Acceptable response
Poor response
Good response Very good response
TECHNICAL SPECIFICATION
Type
Heat Sensor Sounder
Optical Heat Sounder
8
8 IP30 0.11Kg (0.17Kg with base) -10 oC to +50oC CEA 4021 EN54-3&7 +5 Typically 90 dB(A) LPCB pending
Device Load Factor* Ingress Protection Approx Weight Operating Temperature Relevant Standards Sound Output at 1m Approvals
EN54-3&5 LPCB
Dual Optical Heat Sensor Sounder 8
CEA 4021 EN54-3&7 +5 LPCB
.Load factors for guide purposes only *
Dimensions (mm)
ORDER CODES
e 6 . s 9 a 4 b ) h 8 . t i 3 w 6 (
117
Sensor Base
S4-700
Heat Sensor Sounder
S4-780
Dual Optical Heat Sensor Sounder
S4-771
Optical Heat Sounder
S4-770
SECTION 7: page 8
S-Quad Strobe and Speech
by Honeywell
A strobe option warns those with hearing difficulties of a potential fire hazard, now a legal requirement in all public buildings through DDA Legislation.
Built-in high intensity flashing strobe helps alert occupants in noisy environments as well as the hearing impaired Complies with the latest requirements of the DDA (Disability Discrimination Act 1995) Compatible with S-Cubed wall mounted strobe Low power consumption and high output LED technology ensures strobes are cost efficient and more reliable in use than other high powered strobes Wide viewing angle Synchronised across the loop Strobe can operate independently of the sounder if required Strobe LED – flashes at different rate to Red indicating LED
Another ‘first’ – a voice chip capable of delivering synchronised messages throughout the building via the sensor.
Programmable voice messaging ensures quicker and safer evacuation in the event of a fire or an emergency Complements the S-Cubed sounder with messages and complex sound signals such as the bell tone ‘Soft-start’ and programmable volumes Programmable message period 10-20 seconds Programmable silences and tones Low current consumption
TECHNICAL SPECIFICATION
Type
Visual Indicators
S-Quad Strobe and Speech
Red LED – indicates Fire as well as reassures device is operating correctly Blue LED – indicates CO present Gold ring to indicate CO version Black ring indicates Heat detector only version
Device Load Factor* Ingress Protection Approx Weight Operating Temperature Relevant Standards Sound Output at 1m Approvals
Dual Optical Heat Sensor Strobe 10
EN54-7&5 N/A
Dual Optical Heat Sensor Speech Strobe 18-26 **
Dual Optical Dual Optical Heat Sensor CO Heat with Speech Strobe Speech 18-26** 18-26** IP30 0.11Kg (0.17Kg with base) -10 oC to +50oC EN54-7&5 EN54-7&5 EN54-3 EN54-3 EN54-5&7 CEA 4021 CEA 4021 EN54-3 Multisensor Multisensor Typically 90 dB(A) LPCB
Dual Optical Heat with Speech 18-26**
EN54-5&7 EN54-3
* Load factors for guide purposes only. **Higher value for ‘turbo’ mode or bell
Voice Messages
ORDER CODES
Sensor Base Dual Optical Heat Sensor Strobe
1 Alert Message (female voice)
S4-700 S4-711-ST
Dual Optical Heat Sensor Speech Strobe S4-711-ST-VO Dual Optical Heat Sensor CO Speech Strobe S4-911-ST-VO Dual Optical Heat with Speech Heat Sounder Speech Strobe
“An incident has been reported in the building, please await further instructions.”
S4-711-VO S4-720-ST-VO
2 Alarm Message 1 (female voice) “Attention please, this is an emergency. Please leave the building by the nearest available exit.”
Dimensions (mm) ) 8 . e 3 s a 6 ( b h 6 . t 9 i 4 w
3 Alarm Message 2 (male voice) “ This is a fire alarm! Please leave the building immediately by the nearest available exit.” 4 Test Message (female voice) “This is a test message, no action is required.”
117
SECTION 7: page 9
S-Quad Technical Specification Uniquely in the UK, Fire Detection and Alarm industry, Gent continues to offer backward compatibility assurance on its third generation of 34000 Vigilon range of sensors through the appropriate system upgrade. PART NUMBER
DESCRIPTION
SYMBOL
LOAD FACTOR
S4 - 700
Sensor Base
-
0
S4 - 720
Heat Sensor
H
1
S4 - 780
Heat Sensor Sounder
HS
8
S4 - 715
Optical Sensor
O
1
S4 - 710
Optical Heat Sensor
OH
1
S4 - 770
Optical Heat Sensor Sounder
OHS
8
S4 - 711
Dual Angle Optical Heat Sensor
O²H
1
S4 - 771
Dual Angle Optical Heat Sensor Sounder
O²HS
8
S4 - 720 - ST - VO
Heat Sensor + Speech + Strobe
HSpSt
18 - 26**
S4 - 711 - ST
Dual Angle Optical Heat Sensor + Strobe
O²HSt
10
S4 - 711 - VO
Dual Angle Optical Heat Sensor + Speech
O²HSp
12 - 26**
S4 - 711 - ST - VO
Dual Angle Optical Heat Sensor + Speech + Strobe
O²HSpSt
18 - 26**
S4 - 911
Dual Angle Optical Heat & CO Sensor + Speech + Strobe O²HCO
1
S4 - 911 - ST - VO
Dual Angle Optical Heat & CO Sensor
18 - 26**
O²HCOSpSt
Load factors for guide purposes only
by Honeywell
SYSTEM COMPATIBILITY LOOP LOADING
** Higher value for ‘turbo’ mode or bell
DESCRIPTION
DETAILS
Weight
110g (170g with base)
Dimensions
Diameter - 117mm: Height = 49.6mm (height increases to 63.8mm with base)
IP Rating
IP 30 (IP43 with gasket 54 - BASE GASKET)
Enclosure Materials
ABS
Colour
RAL 9010
Storage Temperature
-20ºC to 70ºC (CO is -20ºC to 50ºC)
SPECIFICATION
Ambient operating temperature -10ºC to 50ºC Relative humidity
95% non condensing (25ºC to 45ºC)
Sensor sounder frequency
Low 700Hz - High 933Hz
Approvals Pending
Heat
EN54 : pt 5
Optical Smoke all variants
EN54 : pt 7
Optical Heat with CO
EN54 : pt 7 (ISO/DIS 7240 - 15) CEA 4021 Multi Sensor Standard
Sounder
EN54 : pt 3
Speech Sounder
EN54 : pt 3 prA (draft)
Strobe
EN54 : pt 23 (draft)
Heat with CO
LPS 1274 : 1.0
The speech function is provided by stored messages on a non-volatile flash memory component. This audible output from the flash memory processor lasts for up to 20 seconds of speech. There is also the capability to provide complex tones, such as bell and DIN tones. Each sensor includes 4 standard messags with the component, which are as follows:Alert Message: (Female Voice) “An incident has been reported in the building, please
• await further instructions”. Alert Message 1: (Female Voice) “Attention please, this is an emergency, please leve • the building by the nearest available exit”. Alert Message 2: (Male Voice) “This is a Fire Alarm! Please leve the building • immediately by the nearest available exit”. Test Message: (Female Voice) “This is a test message, no action is required”. •
VOICE MESSAGES
SECTION 7: page 10
by Honeywell
10 Reasons to specify S-Quad 1
Advanced Sensing Technology coupled with integral sounder, speech
capability and strobe in one intelligent device provides the UK’s most innovative solution to the detection and signaling of fires. Rapid Fire Detection 4 separate sensing elements including CO can be
set with individual sensitivity levels and sensor ‘states’ can be programmed for different time periods to suit all applications and environments.
3
Minimal False Alarms The combined power of S-Quad and Vigilon
panel provides quick, intelligible decision making. The S-Quad dual angle optical sensor recognises a clear distinction between smoke and steam. The S-Quad range incorporates intelligent heat and gas sensing technology to allow the early detection of fires, which are known to be particularly hazardous to building occupants. Saves Lives
5
Safe Evacuation Voice messaging capability through the sounder
functionality ensures quick and safe evacuation in the event of a fire. Cost Savings S-Quad provides four functionalities within one device
supported by 2-wire loop Vigilon system, with built-in isolators in every device. Compliance with DDA (Disability Discrimination Act 1995)
7
Legislation Built-in high intensity flashing strobe warns those with
hearing difficulties of a potential fire hazard – now a legal requirement in all public buildings. The Power of Vigilon Supports the largest number of Fire Detection
and Alarm products on the same 2 cables with soft or SAFE (Soft Addressed Firmware Encoded) addressing options. Monitored Line Input / Output Option Output can be used for a
9
remote LED. Input can have a separate identity to the sensor although they share the same electronic address. Peace of Mind All Gent fire products are designed to be compatible
with the same successful Vigilon platform and supported by a UK wide network of Approved System Integrators.
SECTION 7: page 11
S-Quad States
by Honeywell
The state in which the S-Quad sensors operate can be changed from the default factory set state to another state during commissoning. The environment in which the S-Quad device is installed will determine what state is applicable. # - Default State ~ - These are LPCB approved states - at the time writing this document the approval was pending.
S-quad Heat Sensor States STATE
DEFINITION / GRADE
APPLICATION / SUITABEL FOR
State 0# ~
Grade A1 heat
High levels of smoke / dust / steam
State 5 ~
High temperature Grade B Heat
High ambient temp. plus dust/smoke/steam present
State 6
High temperature Grade BS heat - with no rate of rise component
Rapid temperature changes plus dust / smoke / steam present
State 13
Grade A2 heat
Moderate temperature changes plus dust, smoke or steam present
State 15
No detection
S-Quad Optical Sensor States STATE
DEFINITION / GRADE
APPLICATION / SUITABEL FOR
State 0# ~
Medium sensitivity optical
General application
State 2
Low sensitivity optical
Application with moderate dust, smoke or steam present
State 3
High sensitivity optical
Clean environments (where early detection is required)
State 8
Delayed medium sensitivity optical
General application with transient steam, dust or smoke present
State 15
No detection
SECTION 7: page 12
by Honeywell
S-Quad States S-Quad Dual Optical Heat / Optical Heat Sensor States
STATE
DEFINITION / GRADE
APPLICATION / SUITABEL FOR
State 0# ~
Medium sensitivity optical, Grade A1 heat
General application
State 2
Low sensitivity optical, Grade A1 heat
Application with moderate dust / smoke / steam present
State 3
High sensitivity optical, Grade A1 heat
Clean environments (where early detection is required)
State 5
Medium sensitivity optical, Grade B heat
High ambient temperature plus low dust or smoke or steam present
State 6
Low sensitivity optical, Grade BS heat
High ambient temperature with change, plus moderate dust, smoke or steam present
State 8
Delayed medium sensitivity optical, Grade A1 heat
General application with transient steam dust or smoke present
State 11
Low sensitivity optical, Grade B heat
High ambient temperature, plus moderate dust, smoke or steam present
State 12
Grade A1 heat only
Smoke, dust or steam occurs at pre-defined times
State 15
No detection
# - Default State ~ - These are LPCB approved states - at the time writing this document the approval was pending. S-Quad Heat Sensor States
STATE
DEFINITION / GRADE
APPLICATION / SUITABEL FOR
State 0# ~
Medium sensitivity optical, Grade A1 heat, Medium sensitivity gas (false alarm resistant)
General application plus false alarm reduction
State 1
High sensitivity optical, Grade A1 heat, high sensitivity gas
Clean environments (where early detection is required) false alarm reduction
State 9
Medium sensitivity gas, Grade A1 heat
High levels of smoke / dust / steam often present
State 11
Medium sensitivity gas, Grade B heat
High ambient temperature, plus low levels of dust / smoke / steam
State 12
Grade A1 heat only
Smoke / dust / steam / gas occurs at predefined times
State 15
No detection
SECTION 7: page 13
S-Cubed Speech, Sounder Strobe
Sounder function
TECHNICAL DATA
Sound output for standard tone (levels given are typical values with measurement taken at 90º anechoic - fast response) Standard (for sounder only) Messages, Tones and Strobe flast rate Strobe light output with red lens Operating voltage Terminal size IP rating
Low profile S³ - 100dBA ±3dBA
with deep base
IP55C
with shallow base Loop loading factors
IP31C
Standard tone / Standard tone with Speech
5
System S³ - 103dBA ±3dBA EN54 : Part 3 See instructions supplied with the product Equivalent to 3W Xenon Flasher Range 35V - 41V 2.5mm² maximum
per device
Standard tone with red Strobe plus 16 Speech / Standard tone with red or amber Strobe Complex tone ‘Tone n’with red Strobe Enclosure colour Enclosure material
Weight Operating temperature Storage temperature Relative humidity (non condensing) IR operating distance (used for selecting volume level) Message and attention tone period
by Honeywell
23 White and Red (with red translucent lens cover fitted to unit with strobe) Flame retardant ABS (Strobe cover is polycarbonate). The plastic enclosures meet the flammability requirements of ISO1210:1992 Class FH-2 0.3 Kg (approximate) -10ºC to 50ºC -20ºC to 70ºC up to 90% 3m 10 seconds default Configurable up to 60 seconds
Anew S³ sounder can operate in turbo mode if configured during commissioning to provide further 3db out put. The sound outputs are based on the settings of the FABs and SABs at the panel that gives changing levels over 2 seconds durations in 8 times slots. The standard outputs are synchronized with the 34000 sounders and other S³ devices installed in the same. The volume of the sound output can be individually set at the device, note that the sound level should not be set lower than 65dBA at I am for standards compliance. The system prevents adjustment of volume down to zero. Another feature that can be configured is the soft start that ramps the sound volume gradually to the maximum level set at the device. Turbo and Non Turbo Modes
The S³ sounders can output in turbo and/ or in non turbo modes. When the panel commands a low or high tone output at S³, if configured during commissioning, the S³ Sounder will output turbo and/or non turbo tones. The high and low FAB mappings are used to change the tone output of the S³ sounder. The turbo mode outputs a waveform with a basic frequency that is the same frequency as the resonant frequency of the S³ piezo. The non turbo mode outputs modulated turbo waveform.
SECTION 7: page 14
by Honeywell
S-Cubed Speech, Sounder Strobe
The low power addressable Voice Enhanced Sounder and combined Stobe products provide audible and visual alaram systems. The S3 devices are supplied with standard speech messages along with sounder and strobe option. The devices are configured during commissioning to operate to site spececigic requirements. The devices are supplied with either a deep base (40mm) or a shallow base (25mm), offering IP55C and IP31C ratings respectively, with the exception of the system range which is available with deep base only. The S3 product range incorporative design features protected by patents GB2388994, GB2388995 and GB2388916. The product design has also been registered.
Low profile S3 Available in deep or shallow base
System S3 Available in deep base only
SPEECH MESSAGES Message No.
Speech message
Message 2
Attention please this is an emergency please leave the building by the nearest available exit. (female voice) An incident has been reported in this building please await further instructions. (female voice). This is a test message no action is required. (female voice) This is a fire alarm! Please leave the building immediately by the nearest available exit. (male voice). Description of tone. Alarm Bell (equivalent to 8» solenoid Bell) 106dBA @ 1m.
Message 3 Message 5 Message 5 Tone No. Message 1
The Sounder in all the S3 products have been approved by the Loss Prevention Certification Board and meets the requirements of EN54: Part 3:2001 which is the standard for Fire Alarm Devices - Sounders. Turbo square Wave
Turbo high tone
Turbo low tone - high output
Turbo low tone
Turbo rich high tone
Withdeep base
Withshallowbase
25
112 35
Turbo rich low tone
75 Withdeep base
112
Non-Turbo square wave
Non-Turbo high tone (Default)
Non-Turbo low tone - high output
Non-Turbo low tone - (Default)
Non-Turbo rich high tone
Non-Turbo rich low tone
120 DIA
90
40 75
SECTION 7: page 15
by Honeywell
S-Cubed Alarm Devices tt
The S-Cubed range of alarm sounders incorporate sound speech and strobe effects all in one range of alarm devices. The range offers all variants in the choice of 2 colours red or white with either a shallow base version sealed to IP31 or a deep base version sealed to IP55. All the low profile sounders have the option of an integral strobe which is completely loop powered. With the introduction of voice enhanced sounders into the Vigilon range we now have the option of having an S-Cubed loop powered bell sound for the first time as well as standard speech messages. As an aid to commissioning there is the option to use the HandiLink Infrared remote control to turn on individual sounders and adjust the volume remotely. This means physical access is not required to make this adjustment and is only active during the commissioning process. Password access at the control panel is required to enable this feature so it is not possible to make this adjustment accidentally or maliciously.
TECHNICAL SPECIFICATION – 1.0 TONE AND VOICE SOUNDERS
Type
Max Quantity per Loop Device Load Factor Ingress Protection Approx Weight Operating Temperature Relevant Standards (Sounder only) Sound Output at 1m IR Control Operating Distance Approvals
Standard Tone
System Sounder Voice Enhanced
Inc Bell Sound
Standard Tone
Low Profile Voice Enhanced
Inc Bell Sound
200
125
70
200
125
70
5
8 13 5 8 IP55C with Deep Base IP31C with Shallow Base 0.3Kg
13
-10oC to +50oC EN54-3 103 dB(A) ± 2dB(A)
100 dB(A) ± 2dB(A) 3m
EN54 part 3 (except voice sounders) (applied for)
Very low power consumption means more sounders per loop e.g. 200 system sounders per loop compared to 40 The strobe option is equivalent to a standard 3w xenon strobe and uses 1/20th of the power The strobe element of the sounders is fully monitored for circuit failures The sounder tones are programmed in exactly the same way as the existing Vigilon sounders Loop powered voice enhanced sounders are available in the range 4 voice phrases and a bell sound are available as standard By using the bell sound in the voice sounder it is possible to have a loop powered bell The sound producing element in the voice sounders is monitored every hour using a VLF tone Voice and Tone mode can be freely mixed within the same sounder All messages and strobe signals are synchronised across loops in the same control panel Complements the S-Quad sensor with voice messages and complex sound signals A backwards compatible version of the system sounder is available for replacement or expansion to existing systems, avoiding the need to upgrade panel software The HandiLink remote control makes it much easier to adjust the sounders in situ Products incorporate innovative design features for which multiple patents are pending High intensity flashing strobe conforms to the Disability Discrimination Act (DDA) 1995 legislation
SECTION 7: page 16
S-Cubed Alarm Devices
by Honeywell
With the remote control ORDER CODES
individual sounders can be
IP55 System Sounders
turned on and the sounder
Sounder Red
S2IP-SN-R
volume adjusted remotely
Sounder White
S2IP-SN-W
from up to 3m away. To
Backwards compatible Sounder White S2IP-SN-W3
maintain system security this
Backwards compatible Sounder Red S2IP-SN-R3
.at the control panel
feature is password protected
IP31 Low Profile Sounders
Sounder/Strobe Red
S3-SN-ST-RR
Sounder/Strobe White
S3-SN-ST-WR
Sounder Red
S3-SN-R
Sounder White
S3-SN-W
Voice Sounder/Strobe Red S3-VP-ST-RR Voice Sounder/Strobe White
TECHNICAL SPECIFICATION – 1.1 TONE AND VOICE SOUNDERS WITH STROBE
Type
Sounder/Strobe Strobe Colour
S3-VP-ST-WR
Voice Sounder Red
S3-VP-R
Voice Sounder White
S3-VP-W
IP55 Low Profile Sounders
Sounder/Strobe Red
S3IP-SN-ST-RR
Sounder/Strobe White
S3IP-SN-ST-WR
Sounder/Strobe Red body White lens S3IP-SN-ST-RW Sounder/Strobe White body Amber lens S3IP-SN-ST-WA Sounder Red
S3IP-SN-R
Sounder White
S3IP-SN-W
Voice Sounder/ Strobe Red Voice Sounder/ Strobe White
T
Voice Enhanced Sounder/Strobe Strobe Only Strobe Colour Strobe Colour White Red or Red or with & Red or White Amber Inc White Amber without Amber Bell Tone bell tone 30 60 40 30 100 40 28 16 23 33 10 23 IP55C with Deep Base IP31C with Shallow Base 0.3Kg -10 oC to +50oC
Red or Amber Max Quantity per Loop Device Load Factor Ingress Protection Approx Weight Operating Temperature Relevant Standards (Sounder only) Sound Output at 1m Strobe Light Output Strobe Flash Rate IR Control Operating Distance Approvals
60 15
EN54-3 100 dB(A) ± 2 dB(A) Equivalent to a 3w Xenon Signal 1 0.5Hz Signal 2 & 3 1.0Hz 3m LPCB approved to EN54-3 (Except Voice Sounders)
S3IP-VP-ST-RR 1 When using the bell sound with voice enhanced sounders refer to the “Inc Bell Tone” column for the loop loading data.
S3IP-VP-ST-WR
IP55 Loop Powered Strobes
Strobe Red body/Red lens
S2IP-ST-RR
2 To use the new range of Sounders the panel software (main & repeat) may need to be upgraded.
Dimensions (mm) Low profile sounder
System sounder
Standard Voice Messages 1 Alert Message (female voice)
Strobe White body/Red lens S2IP-ST-WR Strobe White body/ Amber lens
0 9
5 7
S2IP-ST-WA
0 1 1
112
HandiLink IR Remote Control
112
2 Alarm Message 1 (female voice) “Attention please, this is an emergency. Please leave the building by the nearest available exit.”
Strobe Red body/White lens S2IP-ST-RW Remote Control
“An incident has been reported in the building, please await further instructions.”
121
3 Alarm Message 2 (male voice)
S3-CONTROL
2 1 1
2 1 1
“ This is a fire alarm! Please leave the building immediately by the nearest available exit.” 4 Test Message (female voice)
112
112
“This is a test message, no action is required.”
SECTION 7: page 17
Interfaces
by Honeywell
Interfaces are used to link the fire alarm system to other plant management devices such as sprinklers and security systems. They can also be used to link to a zone of conventional detectors.
Key Operated Interface
Single Input and Four Channel Input/Output Interfaces TECHNICAL SPECIFICATION Low Voltage Input/Output Range Type
Approx Weight Operating Temperature Relative Humidity Ingress Protection
Device Load factor
Panel Compatibility Approvals
Single Input S4-34410
92g
Four Channel Input/Output (I/ O) S4-34450
Output Interface (Mains)
Key Operated Interface
Single Input/ Output S4-34420
S4-34415 / S4-34411
S4-34418
100g
DIN mountable: 138g PCB with cover in metal box: 800g
110g
100g
-10ºC to +60ºC
-25ºC to +70ºC
Up to 95% – Temperature +5ºC to +45°C (Non condensing) IP31 for plastic box S4-34490, Metal box IP40 estimated for metal box S4-34492 – IP40 estimated Load Factor 1-4 switch inputs = 1 (maximum 200 per loop) 1-4 relay outputs = 2 (maximum 200 per loop only 8 individually sectored) Zone Input = 26 (maximum 30 per loop) Every LED output = + 5 (maximum 100 LED outputs per loop)
5 (maximum 200 devices per loop)
IP43
The Vigilon system can accommodate a high capacity of single channel interfaces on the loop operating both inputs and outputs. The loop powered four channel interface range has individually sectored outputs with channel 1 set as a loop powered zone module. All interfaces are seen by the panel as one address although each input/output can have a separate label displayed at the panel. Interfaces are either powered from the loop or require a separate mains supply. The mains power version has its own battery backup.
1
Compatible with Loop = V3.93 / V4.35 and Main Control Card = V3.94 / V4.37 EN54-17 Approval EN54-17: 2005 and EN54-18: 2005 LPCB pending
(Dimensions (mm
ORDER CODES 3 9
Single Input Interface
S4-34410
Four Channel Input/Output Interface
S4-34450
Single Input/Output Interface S4-34420
23
90
DIN rail mount bracket
S4-34491
Key operated Interface
S4-34418
12-Input Interface
S4-34412
SECTION 7: page 18
Interface Enclosures
by Honeywell
The Vigilon Interfaces are generally supplied without enclosures. A range of enclosures are available if required to house them.
Interface Enclosure (Metal)
Large Interface Enclosure (Plastic)
ORDER CODES
Interface Enclosure (Metal)
S4-34492
Large Interface Enclosure (Plastic)
S4-34490
Small Interface Enclosure (Plastic)
S4-34493
Small Interface Enclosure (Plastic)
SECTION 7: page 19
Beam Sensors
by Honeywell
Beam sensors are suitable for large open areas where installation of single point detectors may be difficult or uneconomical. These detectors come in pairs, one of which emits an infra-red beam, detected by the other unit. If the beam is broken by smoke, the sensor is triggered. This model employs ‘True’ analogue detection techniques whereby other interruptions, caused by people or shadows, will be discounted.
Beam Sensor (Pair) TECHNICAL SPECIFICATION
Max. Quantity per Loop Approx Weight Ingress Protection Operating Temperature Relevant Standards Beam Length Mounting Height Device Load Factor
16 pairs 0.6Kg per pair IP42 0 oC to 50 oC BS 5839- 5 2 - 100m 25 - 40m 2
Dimensions (mm)
106
50
ORDER CODES
Beam Sensor (Pair)
34740
Brackets required (2 per pair)
Angle bracket
34741-01
Parallel bracket
34741-03
SECTION 7: page 20
Manual Call Points
by Honeywell
An addressable call point with a response time less than 1 second. Versions available include:
Resettable or break glass Lift up protective covers Keyswitch IP55 rated – when fitted with cover and surface box
Manual Call Point TECHNICAL SPECIFICATION
Max Quantity per Loop Operating Temperature Ingress Protection Relevant Standard Approx Weight Device Load Factor
200 -25 oC to 70oC Standard IP43, Special IP55 (with cover and backbox) EN54 Part 11 0.11Kg 1
Dimensions (mm) Removable Terminal block 87
ORDER CODES
Manual Call Point (Glass)
S4-34800
Manual Call Point (Glass) with Protective cover
S4-34842
Manual Call Point with Resettable Element
S4-34805
Manual Call Point with Resettable Element and Protective Cover S4-34845 Resettable Element for MCP S4-34890 (Pack of 10) Glass for MCP (Pack of 10)
S4-34891
Protective cover for MCP (Pack of 5)
S4-34892
Surface Back Box for MCP (Red Plastic) (Pack of 10)
S4-34895
MCP with Key Switch
S4-34807
7 7 8 8
21 21 15
SECTION 7: page 21
Duct Smoke Sensor
by Honeywell
An optical smoke sensor specifically designed for use in ventilation ducting. A venturi probe samples the air in the duct for smoke. Detector housing is mounted externally to the duct. This device can trigger the shutdown of an air-conditioning or ventilation plant to prevent the spread of smoke.
Duct Detector TECHNICAL SPECIFICATION
Type Max Quantity per Loop Approx Weight Operating Temperature Ingress Protection Duct Air Velocity Device Load Factor Relevant Standards Approvals
Duct smoke sensor 200 (50 if slave LEDs used) 4.6 Kg 0 oC to 50 oC IP55 1 to 10 m/sc 2 (1 for slave LEDs) N/A N/A
ORDER CODES
Duct Smoke Sensor
S4-34760
0.6m Venturi Tube
S4-34760-06
1.5m Venturi Tube
S4-34760-15
2.8m Venturi Tube
S4-34760-28
Mounting Bracket for round Ducts
S4-34760-99
SECTION 7: page 22
by Honeywell
Sensor Ancillaries
T - Breaker
Used to provide a spur from the addressable loop.
Removal Tool
Tools and Mounting Accessories
A range of mounting accessories and tools are available as listed.
Flush Mounting Kit
Dust Cover
S-Quad Base Label
T-Breaker
TECHNICAL SPECIFICATION
Type Max Quantity per Loop Approx Weight Operating Temperature Ingress Protection Device Load Factor
T-Breaker 200 0.35Kg
Remote LED 100 0.34Kg -10 oC to +50oC IP40 1
T-Breaker Dimensions (mm)
86
ORDER CODES
T-Breaker Flush Mounting Kit
34701 S4-FLUSH
Dust Covers (pack 50) S4-COVER-DUST Remote LED
13449-01
S-Quad Removal Tool
S4-EXTRACTOR
S-Quad Base Label
S4-BASE-LABEL
Gasket
S4-BASE-GASKET
48
SECTION 7: page 23
Keyswitch MCP/Interface
by Honeywell
The keyswitch units covered in this leaflet are suitable for installation in GENT analogue addressable fire alarm system. The product range covered include:-
TECHNICAL DATA
Standard Dimensions (in mm) Full assembly weight Storage temperature Operating temperature Relative Humidity (Non condensing) Temperature 25 - 55ºC Emission Immunity Ingress Protection Colour Case
EN54: Part 17 for both units, EN54 - 18 for interface unit 88 (H) X 88 (W) X TBA (D) 88 (H) X 88 (W) X TBA (D) when surface mounted TBAg - with backbox -30 to 70ºC -25 to 70ºC up to 95%
BS EN61000-6-3:2001 Residential, Commerical and Light Industry, Class B Limits BS EN50130-4: Part 4:1996 IP43 estimated standard type IP55 estimated with protective cover and back box Red (Similar to RAL 3020), Blue (Similar to RAL 5015) ABS Engineering plastic
Indicators
Normal Active Terminals LPCB Approved Operating Voltage Loop
Green LED for status and find device application Red LED for active or Fire indication 2.5mm² maximum TBC 35V to 41V Maximum number per loop = 200 Load factor - 1 (load factor 1000 max. per loop) 2 way device
The keyswitch unit may be mounted on a standard electrical box or on the optional red (S434895) / blue (S4-xxxx) back box.
ORDER CODES Keyswitch MCP (Red)
S4-34807
Keyswitch Interface (Blue)
S4-34418
Spare Keys (Pack of 5)
S4-34xxx
Surface Back Box for MCP (Blue Plastic) (Pack of 10)
S4-34xxx
Surface Back Box for MCP (Red Plastic) (Pack of 10)
S4-34895
SECTION 7: page 24
by Honeywell
Keyswitch MCP/Interface Keyswitch Call point / Interface assembly TBA 15
87
7 8
Removable Terminal block
Optional Back box 36
87 43,5 5 , 8 1
D
THIS WAY UP
7 0 8 5
D
The optional back box has recessed centers ‘D’3 at the top and 1 at the bttom, a maximum of 2 are usable. Installation
The contents of the package: Operation
o operate the keyswitch insert the operating key into the keyhole ‘J’ and turn clockwise to the s top position, the red LED ‘K’ is flashing. The green LED ‘I’gives an operating indication. Apply the reverse procedure to return the keyswitch to a normal operating position. Label
When using the blue keyswitch interface to control plant ensure the unit is labelled to describe what is being controlled by the keyswitch. Transparent cover
I
J
K
Disable Zone n
32 x 12 mm Stick on label
Normal
Normal
It is suggested that an A4 sheet white paper label 32 x 12mm is used, such as the one from RS, part number RS495 385. The required text can be printed onto the label. The label is stuck centrally inside the aperture behind the transparent cover. Ensure LEDs remain visible and are not covered by the label.
SECTION 7: page 25
Network Node - (VIG-NODE-24) 15:45 Pa nel he althy Vigilon Fire Sy st em GEN T 2006 t2 & 4 D es igne d to E N5 4 P
Network Node - (VIG-NODE-24) Features:
Two master alarm circuits. • RS485 to connect to a Repeat indicator panel. • RS232 to connect to another control panel (domain bridge) external printer or • commissioning tool. Two sets of auxiliary relay change over contacts configurable to operate with fire, • fault or disablement. One set of clean voltage-free change over contacts that operates with fire events • Standby supply to power the system in the event of mains failure. • LCD alphanumeric type display with with back light to show event information • LED lights for event indication • Local audible buzzer to announce event • Push button for essential controls and menu driven commands • Four programmable control buttons (U1 to U4) •
by Honeywell
The Vigilon Network Node (also called Terminal node) is designed to manage the operation of the Vigilon network. The node houses igs own power supply with batteries, which supply standby power in the event of mains supply failure. A lockable front door prevents unauthorised access to fire alarm controls, but allows all of the indicators to be seen. Two push button controls are located on the front door below the display that enables Fire messages to be scrolled in the event of multiple fires. The node is designed for surface or flush mounting, with the latter provided by a flush shroud. The panel facilitates both rear and top cable entry points.
SECTION 7: page 26
by Honeywell
Network Node - (VIG-NODE-24) CONTROL PANEL
Dimensions in mm Panel weight Storage Temperature Operating Temperature Relative Humidity (Non condensing) Temperature 5 - 45ºC Emission Immunity
Ingress Protection Colour Network
RS232 and RS485 connection
543(H) X 406(W) X 172(D) 10.2Kg approximately + 2 batteries 12V 21Ah battery weighing - 6 Kg each -10 to 55º C 0 to 45º C up to 90%
BS EN50081-1: 1992 Part 1 Residential, Commercial & Light Industry - Class B limits BS EN50130-4: Part 4 Alarm Systems: Electromagnetic compatibility Product family standard: Immunity requirements for components of fire, intruder and social alarm systems IP31 Door: Grey (Pantone 422) Back Box: Graphite Grey (RAL 7024) The node is supplied with a network card for secure network connections: Fibre Optics - 2 Kms Copper (RS485) - 1.2 Km The node is supplied with an IO card that facilitates RS232 for connecting to another panel (domain bridge) or Gent Supervisor. The maximum cable length allowed for RS232 is 10m. The maximum cable length allowed for RS485 is 1.2 Km
SECTION 7: page 27
Network Node - (VIG-NODE-24) Plug in Card slots MCC / LCC - P1 IOC / N/W - P1 Loop 1 - P3 Loop 2 - P4 Loop 3 - P5 Loop 4 - P6 N/W or I/O - P7 N/W or I/O - P8 Auxiliary relays Aux relay 1
Aux relay 2
Clean contacts
Master alarm circuits
Indicators
Display
Master Control card (node) # Input Output / Network Card Input Output card option Input Output card option Input Output card option Input Output card option Input Output or Network Card Input Output or Network Card (# - supplied) Voltage-free contacts rated 1A @ 24Vdc 2 sets of change over contacts configured to operate immediately with any system Fire event. The relay is normally deenergised 2 sets of change over contacts configured to operate immediately with any system fault event. The relay is normally energised. The relays can be re-configured to operate with any Fire, any Fault or any Disablement event, with a delay of up to 10 minutes and can operate in a normally energised or de-energised state 1 set of voltage free change over contacts rated 1A @ 24Vdc, active with any fire event. Operates with any system fire event 2 (24 volts nominal) 400mA max, per circuit MA1 - fuse 1A FS1 MA2 - fuse 1A FS2 Both fuses are 20mm X 5mm in size and are located on the terminal card Power (Green) Power Fault (Amber) Delay (Amber) Test (Amber) Verify (Amber) CB253 / CB254 (Amber) Fault (amber) Disablement (Amber) System fault (Amber) Sounder (Amber) Alpha-numeric display - 8 lines by 40 character per line, back-lit, (Black characters on green background, liquid crystal display).
by Honeywell
SECTION 7: page 28
by Honeywell
Network Node - (VIG-NODE-24) Internal sounder Menus
Controls (with door closed) Access level 1 Controls (with door open) Access level 2a User having door key
Access level 2b User having door key and customer password Access level 3 Engineer having door key and engineer password Logos
Printer
To announce Fire and Fault events, plus give a key press confirmation beep. [Control], [Setup], [Information] and [Test Engineering] menus accessed via Menu On/Off, F1, F2, F3 and F4 buttons. Next and Previous buttons operable during Fire condition only. Sound Alarms, Silence Alarms, Reset, Cancel Buzzer, Verify, F1-F4 keys, Menu On/Off key, QWERTY key board, U1-U4 key available if configured to perform site specific actions by triggering CB251, CB252, CB253 and CB254 As access level 2a plus access to complete level 2 menu commands. As access level 2b plus access to all menu commands Active system Logs: Fire, Fault and Disablement Historic system log: All events Event system logs: Fault, Disablement, Warning, Supervisory, Exceptions and Historic fires. The integral printer operates when the access door (outer door) is open. The printer menu driven controls include: ON, OFF, Line feed and Test print. An optional remote printer can be connected to the panel.
POWER SUPPLY
Mains operating voltage Nominal supply voltage for master alarm circuits Battery circuit (s)
Light indications PSU Fuses Mains Protects 44V supply Battery charge circuit Storage temperature Operating temperature Relative Humidity Non condensing) Temperature 5 - 45ºC
230V 50Hz +10% -6% protected by a fuse - 3.15A AS 20mm X 5mm 24V +1V, -4V Terminals to connect to internally housed batteries, capable of reaching a charged state in 24Hrs To show status of PSU FS6 T3, 15A Ceramic FS2 F3, 15A Glass FS7 F5A Ceramic for VIG1-24 only Above fuses are 20mm X 5mm size -10 to 55ºC 0 to 45ºC up to 90%
SECTION 7: page 29
Repeat Panel (loop connected) TECHNICAL DATA
Dimensions in mm Panel weight Storage Temperature Operating Temperature Relative Humidity (Non condensing) Temperature 5 - 45ºC Battery Mains operating voltage Emission Immunity LVD Ingress Protection Colour Indicators
Controls (with door closed) Access level 1 Controls (with door closed) Access level 2 Loop connection Compatibility with control panel Maximum number per loop
403(H) X 388(W) X 101(D) 9Kg with battery (approx) -10 to 55º C 0 to 45º C up to 90%
12V 7Ah sealed lead acid 230V 50Hz +10% -6% BS EN61000-6-3:2001 BS EN50130-4: 1966: Part 4 BS EN60950-2002 IP31 (estimated) Door: Grey (Pantone 422) Back Box: Graphite Grey (RAL 7024) Fire, Verify, Sounder, Power, Power Fault, System Fault, Delay, Test, Disablement, CB253/254 and Fault. 32-Fire zone indicators 8 lines 40 characters per line, back-lit liquid crystal display Next and previous buttons operable during fire condition only Sound Alarms, Silence Alarms, Reset Fire, Cancel Fault Buzzer, Verify F1-F4, Menu On/Off and Keyboard, U1 U4keys 3 way connection to a loop circuit LCC software V4.22 or greater MCC/MCB software V4.16 or greater Maximum number of repeat and mimic panels per loop = 4 load factor per panel = 3 (load factor 1000 max per loop)
by Honeywell
SECTION 7: page 30
by Honeywell
Contols and indications Indicators
Message display
Fire Fault System Fault Disablement Sounder Power Fault
Cancel Buzzer
Test
Power
Fire Fault Disablement
1
2
3
4
5
6
7
8
9
Display Mode
Warning
0
Cover open
Fire Disablement Sounder
Fault System Fault
Power Fault Power
Test
Cancel Buzzer
Fire
Fault
Warning
Disablement Display Mode
Controls
This light is illuminated when at least one fire event has been detected in the system. This light is illuminated when part of the fire alarm system has been disabled. This light is illuminated always with either the FAULT light or the DISABLEMENT light to indicated that there is a sounder fault or sounder disablement. This light is illuminated when at least one fault event has been detected in the system. This light is illuminated when there is a fault with the system processor or communication has failed. This light is illuminated to indicate mains or battery supply failure on the panel. This light is illuminated to indicate the panels mains power is present. Pressing this buton will cause all the lights and display to illuminate and cause the local buzzer to sound for approximately 2 seconds. Pressing the Cancel Buzzer button. This operating will also cancel the Control panel buzzer. This button calls up the FIRE event messages. The individual messages can be retrieved by pressing the buttons. This button calls for the FAULT event messages. The individual messages can be retrieved by pressing the buttons. This button calls up the WARNING event messages. The individual messages can be retrieved by pressing the buttons. This button calls for the DISABLEMENT event messages. The individual messages can be retrieved by pressing the buttons. Not used at present
SECTION 7: page 31
by Honeywell
Network of systems Network of systems
It is possible to network together up to 31 standalone Vigilon EN54 fire alarm systems. Each standalone system has an EN54 Vigilon control panel that is fitted with a network card. The network card permits RS485 communication between other control panels / network nodes. The cable distance between panels and nodes can be up to a maximum of 1.2 km. The network node is a central point of information and has no loop supporting capabilities Control panel
Control panel
Control panel
#
#
#
#
#
#
Control panel
Control panel
Network node
Copper network connections From previous panel or node
Cable screen To Next panel or node N/C
No connection P10
0V1 +VE1 -VE1 0V2 N/C +VE2 -VE2 N/C
0V1 +VE1 -VE1 0V2 N/C +VE2 -VE2 N/C
P10
1 2 3 4 5 6 7 8 0V -ve +ve 0V I -ve +ve |
Connections for Network card in Socket P8 (Card 6)
Connections for Network card in Socket P8 (Card 6)
Connections for Network card in SocketP8 (Card 6)
(post08-2006) BACKPLANE
(post08-2006) BACKPLANE
NEW Control Panel
(Pre08-2006) BACKPLANE
OLD Control Panel
NEW Control Panel
Fibre network connections
Tx
Side1(End1)
Side2 (End2)
Side1 (End1)
Side2 (End2)
Rx
Tx Rx
P7
P4
Rx
Tx
1 2 3
P6
P5
Rx
Tx
P7
P4
Rx
Tx
4 6 7 8
1 2 3
P6
P5
Rx
Tx
4
5
P2
5
P3
C
P10
P2
6 7 8
P3
C
BACKPLANE
BACKPLANE
ControlPanel
ControlPanel
SECTION 7: page 32
‘T’ breaker and slave units
by Honeywell
‘T’ breaker and slave units
A ‘T’ breaker provides 3 way connection at the point of installation on a loop, to a spur circuit. It is an addressable device. A Slave relay provides voltage free contacts that operates with the next sensor device (master) on the loop. A slave does not take up a loop address.
Fire Indicator
Relay
A Slave fire indicator operates with the next sensor device (master) connected on the loop. A slave does not take up a loop address
TECHNICAL INSTRUCTIONS
Dimensions in mm Full assembly weigt Slave breaker Slave LED indicator Slave Relay Storage temperature Operating temperature Relative humidity (Non condensing) Temperature 5 45˚C Emission Immunity
Ingress protection Color Operating voltage Indicator T breaker Slave LED indicator Slave Relay Loop T breaker Slave LED indicator Slave Relay
diameter 86 x height 48 350g with fixing base 340g with fixing base 360g with fixing base -30 to 70˚C 0 to 50˚C Up to 90% BS EN50081-1:1992 Part 1 Residential, Commercial & Light Industry Class B limits. BS EN50130-4: 1996: Part 4 Alarm systems: Electromagnetic compatibility product family standard: Immunity requirements for components of fire, intruder and social alarm systems. IP40 estimated White 20-50V Green LED Red LED Red LED Maximum number per loop= 200 Maximum number per loop= 100 Maximum number per loop= 100 Load factor = 1(load factor 1000 max per loop) Single pole change over rated 2A at 24 Vdc resistive.
Relay Slave Relay contacts Dimensions (mm)
ORDER CODES T-Breaker
34701
Remote LED
13449-01
Slave Relay
34703
Remote LED (with S-Quad)
13449-01 86
48
SECTION 7: page 33
S-Quad Remote LED (13449-01) Programmable input/output
All S-Quad devices have terminals that can be configured as a monitored input or output. The factory serring of the programmable input / output is set to an unmonitored output to drive an external repeat LED with non series resistor needed. There is a maximum cable limit of 15 meters from the S-Quad base to the monitored / unmonitored I/O unit.
Unmonitored LED output + + OUT 5
L2
-
EM2
IN4
- + - +
C3 L1
0V
-
+
+
-
+
-
Remote LED unit 13449-01
Input
OUT 5
L2
EM2
K 0 0 1 7 4
IN4 C3 L1
0V
The input can accept signals such as fire, non fire or fault, these are configured during commissioning. As a fire input it is possible to connect a conventional Manual Call Point (non UK application only) with a series resistor of value 470 Ohms coupled with an end-of-line 10Kohms resistor. In this case the fire input is fully monitored for open or short circuit faults. The input can be setup as a non-fire or fault input using a similar arrangement with series and parallel resistors as shown. It is possible for such an input to trigger a command that is configured to action an output elsewhere in the system to control plant equipment such as the ventilation system.
by Honeywell
SECTION 7: page 34
by Honeywell
New Fibre Network Card (EN)
The fibre network card allows fast message passing to the network. the card must be plugged into the backplane of the panel or node in a dedicated slot. The fibre optic cables connect directly to sockets on the card. There are two types of fibre network cards for secure EN54 Vigilon network.
New Fibre Network Card (VIG-NC-FO and VIG-NC-DOM-FO) for Vigilon Network
VIG-NC-FO Fibre Optic Network card • Using the Fibre Optic Network card VIG-NC-FO up to 31 Control panel and Network Nodes can be connected in a secure loop. There can be up to 2Km Fibre Optic cable distance between panel and node. VIG-NC-DOM-FO Fibre Optic Network card • (for Domain bridge) Using the Fibre Optic Network card VIG-NC-FO up to 64 smaller networks can be connected to form a secure domain. The Fibre Optic cable distance between nodes of the smaller networks can be up to 2Km. The entire system can have up to 200 panels / nodes. SPECIFICATION:
Overall Size in mm Node address range Baud Terminations / Fibre Optics
Weight Operating Temperature Storage Temperature Relative humidity (non condensing)
144 (H) X 100 (W) 1 to 64 (VIG-NC-DOM-FO) 1 to 32 (VIG-NC-FO) 19.2K, 38.4K, 115.2K and 230.4K ST connection is by means of the ST sockets on the Network card. Cable: Multi mode 62.5 / 125µm Fibre 820nm wavelength 82g (approximate) 0ºC to 45ºC -10ºC to 55ºC up to 90%
SECTION 7: page 35
by Honeywell
Copper Network Card (EN)
Copper Network Card (EN) (VIG-NC) for EN54 Vigilon Network
This copper network card is used to allow data to pass between control panels and network nodes installed in a networked fire system. The card must be plugged into the backplane of the panel or node in a dedicated slot. When it is plugged into the slot P8 on the backplane the external cables must be connected to terminal block P10 which is also on the backplane. The dual-in-line switches on the card are set to program the address number and baud rate. This network card can be installed in: Vigilon Fire Panels VIGI-24 • VIGI-72 • Vigilon Network Node VIG-NODE-24 • Connecting the Panels and Nodes
Cable screen From previous panel ornode
ToNext panel ornode No connection
No connection
1 2 3 4 5 6 7 8 0V -ve +ve 0V I -ve +ve I
P10
Connectionsfor Networkcardin SocketP8(Card6) BACKPLANE ControlPanel orNetworkNode
1 2 3 4 5 6 7 8 0V -ve +ve 0V I -ve +ve I
P10
Connectionsfor Networkcardin SocketP8(Card6) BACKPLANE ControlPanel NetworkNode
SECTION 7: page 36
by Honeywell
Copper Network Card (EN) TECHNICAL DATA
Overall Size in mm Node address range Baud Operating voltage Terminations Cable Weight Operating temperature Storage temperature Relative humidity (non condensing)
128 (H) X 100 (W) 1 to 31 2400, 9600, 19.2K and 38.4K ±5V (RS485) Terminal block P10 assuming Network card is installed in backplate slot P8 Belden 9729 (Example) 72g (approximate) 0º to 45ºC -10ºC to 55ºC up to 90%
Using the Copper Network card a maximum of up to 31 Control panels and Network nodes can be connected in a secure network loop with up to 1.2Km cable distance between panels / nodes dependent on cable type
SECTION 7: page 37
Copper Network Card (CN)
Copper Network Card (COMPACT-NC) for Vigilon Compact (Networkable)
This copper network card is used to allow data to pass between control panels in a Vigilon Compact networked fire system. This card must be plugged in to the Master Control board MCB of the panel in a dedicated slot ÇARD2’. The card has terminals to accept external network wiring. A bank of dual-in-line switches on the card allow setting of address number and baud rate
TECHNICAL DATA
Dimensions (in mm) Node address range Baud Operating voltage Terminal block Cable Weight Operating Temperature Storage Temperature Relative humidity (non condensing)
155 (H) X 100 (W) X 25 (D) 1 to 31 2400, 9600, 19.2K and 38.4K ±5V (RS485) 2.5mm² Belden 9729 (Example) 108g (approximate) 0ºC to 45ºC -10ºC to 55ºC up to 90%
Using the Copper Network card a maximum of up to 31 Control panels can be connected in a secure network loop, with up to 1.2Km cable distance between panels dependent on cable type.
by Honeywell
SECTION 7: page 38
Domain Bridge actoss Networks
by Honeywell
Domain Bridge across Networks
It is possible to connect two or more Vigilon networks together by means of domain bridge. To domain bridge two or more networks a Doman bridge IO card must be installed in the bridging node/panel. There are various methods of domain bridging depending on the distance between the node / panel. Domain bridge can be made directly using RS232 ports of the IO card, via modem, RS422 converter unit, fibre optics or via dedicated network using NPORT units.
Methods of domain bridging
Domain bridge IOC
DOMAIN BRIDGE Network node
RS232
IO C
IO C
15mmax
Network node
Modem 2Km FibreOptic 2Km Computer network Star connection
Domain 1 NetworkNode -4IOCCards -1NetworkCard Domain Bridge Domain Bridge IOC
Domain 2
Domain Bridge IOC
Domain 3
IOC
Domain 4
SECTION 7: page 39
Domain Bridge actoss Networks
by Honeywell
Fibre Optic Domain bridge using FO Network DOM card
DOMAIN BRIDGE Domain1
Fibre Optics
FO Net DOM
FO Net DOM
Domain2
IOC
Domain2
Network node
RS232 Domain bridge using Domain IO card
DOMAIN BRIDGE Domain1
RS232 15m Cable length
IOC
Network node
Network node
Modem Domain bridge
DOMAIN BRIDGE BT Leased line D om ain 1
IOC
Modem
Modem
IOC
Network node
D o m ain 2
Network node
NPORT Domain bridge using NPORT module
Dedicated Computer network D om ain 1
Network node
IOC
Modem
Modem
RS232 15m Cable length
IOC
D o m ain 2
Network node
NPORT CONVERTER UNIT
MAINS SUPLY N 1 L
PARTS REQUIRED EN54 SETUP 2x VIG-IO-DOM 2x VIG-DOM-NPORT
INFORMATION REQUIRED FROM CUSTOMER 2x IP NETWORK INFORMATION 2x NETWORK PORTS 2X PATCH CABLE
SECTION 7: page 40
Local Controller Card (LCC)
by Honeywell
Local Controller Card (LCC)
The primary task of the local controller card (part number: VIG-LCC) is for installation in the control panel is to make final decision on fire, fault and warming events based on device condition information supplied by the loop processor cards. On making the decision the local controller card actions the system via other cards, to include the local visual indications given at the display keypad card DKC. Connection to the DKC is made via a ribbon cable The local controller card (part number: VIG-LCC-NOD) is for installation in the Network node. A network node cannot support loops and therefore can accommodate additional IOC in place of LPC. Connector P1 plugs into the backplane
IC3 Local Cont roller
BAT T1 Battery
Local Controller Card
The rest push button SW1 provides a warm reset to all the cards installed in the panel TECHNICAL DATA
Overall Size Weight Operating temperature Storage temperature Relative humidity ( non condensing)
147mm height x 100mm width 72g (approximate) 0°C to 45°C -10°C to 55°C up to 90%
SW1 re set push but ton
SECTION 7: page 41
by Honeywell
Loop Processor Card (LPC) Loop Processor Card (LPC)
A Loop Processor Card (part number: VIG-LPC) is able to control up to 200 devices connected onto a loop circuit. The LPC drives the loop circuit from both ends, and handles all messages to and from each outstation. A control panel can accommodate up to 4 LPC s Connector P1 plugs into the backplane
IC4 Loop Processor
Local Processor Card
TECHNICAL DATA
Overall Size Weight Operating temperature Storage temperature Relative humidity ( non condensing)
128mm height x 100mm width 74g (approximate) 0°C to 45°C -10°C to 55°C up to 90%
Semi-Flush fixing the control panel
The control panel may be semi-flush mounted using a semi flush surround VIG-24-FLUSH. A stainless steel variant of the semi-flush surround (VIG-FLUSH-SS) will require a stainless steel door VIG_DOOR_SS. Control panel semi-flush surround (The repeat panel surround is similar)
Aperture depth - 132mm Aperture
Cross section of the wall to which the panel is to be semi-flush mounted
Cross section of the wall to which the panel is to be semi-flush mounted
Control Panel
Flush Surround
5mm diameter fixing holes
Aperture Width: 390mm - Control panel
Installation Stainless Steel Doors for Vigilon Control and Repeat panels
VIG-RPT-DOOR-SS Stainless steel door for Repeat panel VIG-DOOR-SS Stainless steel door for Vigilon panel
DESCRIPTION
QUANTITY
Stainless steel door Keys (for the stainless steel door) Allen key (to open the inner door)
1 1 1
SECTION 7: page 42
by Honeywell
EN to BS conversion Kits EN to BS conversion kits for Vig 1-24/72 panels and node
These conversion kits are designed for installation in Vig1/24/72 Control panels and Network node. The kit (VIG-BSKIT) can be installed in VIG1-24 or VIG1-72 control panel to convert it from an EN control panel to BS control panel. The kit (VIG-BSKIT-NODE) can be installed in a VIG-NODE-24 to convert it from an EN Network node to a BS Network node. The kit consists of:
1 X Main Control Card (MCC) (BS - Version 3) 1 X Loop Processor Card (LPC) (BS Version 3) (Not supplied with VIG-BSKIT-NODE) 1 X Commission / Warning LED Label 1 X Blank Label 1 X Input / Output Card (IOC) (BS-Version 3) (Not supplied with VIG-BSKIT) 1 X Network Card (NC) (BS-Version 3) (Not supplied with VIG-BSKIT)
SECTION 7: page 43
Replacement PSU PCB & Cover Replacement PSU PCB & Cover (VCS-PSU-N)
The replacement PSU PCB assembly and (VCS-PSU-N) in to a Vigilon Compact panel, either COMPACT-24 (non networkable) or COMPACT-24-N (networkable) panel. The package contains Replacement PSU for VIG1-24/72 (VS-PSU-24 and VS-PSU-72)
The replacement PSUs (VS-PSU-24 and VS-PSU-72) are suitable for installation in VIG1-24 and VIG1-72 Vigilon 4/6 loop fire alarm control panels.
To open mains fuse
Replacement PSU
Ribbon cable to Terminal Card connector P10 Spade connector for 0V to printer Indicates Communication with MCC LD5 Ribbon cable to Backplane connector P12
FS7 5A QB Ceramic
2x12V 21Ah batteries
FS2 3A15 QB glass
FS1 10A QB ceramic
FS3 10A QB Ceramic
FS6 3.15A AS ceramic
by Honeywell
SECTION 7: page 44
by Honeywell
Inner Door and Firmware
Inner door Inner Door and Firmware (VCS-IDOOR) for Vigilon Compact panel
This leaflet provides data on how to replace inner door on a Vigilon Compact panel. The part VCS-IDOOR consists of a replacement door and a firmware chip. NEW Master Control Board (new replacement MCB) - networkable 24V 0V B A TX 1R X1 OV TX2 RX 2 L 1 0V L2 0V
D R A O B Y E K
NC C NO N C C N O NC C NO L1 O V L2 O V
PB10
PB11 PB7
24V FS3 200mA
O V MP NC C NO
12345667
PB9
PB8
MA1 - FS1 250mA MA2 - FS2 250mA
P1 CARD 2
P2 CARD 1
FIRMWARE BACKUP
IC3
IC16
POWER SUPPLY P12
SW2 MODE P 1 3
P16 SW1 RESET
BATT3
OLD Master Control Board - non networkable
P15 D R A O B Y E K
P10
PB11 P6
P14
24V FS3 200mA
P9 P8
MA1 - FS1 250mA MA2 - FS2 250mA
P1 CARD 2
BATT1
P7
P2 CARD 1
CODE BACKUP
R E T N I R P
POWER SUPPLY
IC3
IC16
P16 P13
Fireware 2211-148
SW1
Correct orientation Notch
SECTION 7: page 45
Installation Upgrade Kit
by Honeywell
Installation Upgrade Kit (VIG72-UPGR) for VIG1-24 panelt
The upgrade kit (VIG72-UPGR) is designed for installation in a Vigilon panel (VIG1-24). It is used to convert a VIG1-24 panel to VIG172 panel. The kit consists of a 72Hr PSU module for charging up to 8 x 21Ah batteries installed in a remote battery box. It consists of parts (1) to (5).
P2 P7
1
P11
x 1 72Hr PSU Module P1
2 1
x 1 Battery filter cable
P3
3 4
x 1 Battery Terminal Card (with 1 - fixing screw)
x 2 - 12V 21Ah Battery
2 5
x 1 Battery box
x 1 Instructions
3 5
Battery box
Batteries 4x12V 21 Ah or 8x12V 21Ah
4
Notes
SECTION 8: page 1
Section 8:
by Honeywell
Voice Alarm Systems
Contents •Vigilon Compact Voice Alarm System •Vigilon Voice Alarm System •Loudspeakers
SECTION 8: page 3
Section 8.1:
by Honeywell
Vigilon Compact Voice Alarm System
Contents Vigilon Compact Voice Alarm System •Overview •System Architecture •Benefits/Features •Vigilon Compact Voice Panel •Networked System •Mains Powered DAU •Paging •Loop Powered DAU •Loudspeakers for Loop Powered DAU
SECTION 8: page 5
10 reasons to specify Vigilon Compact Voice
1
An industry first Combined FDA and VA/PA providing the highest levels of system integrity, with proven Vigilon technology including built-in isolators in all devices. Safe evacuation for everyone in the building High quality intelligible voice messages reduce confusion and panic.
3
Savings on installation costs compared with conventional voice alarm systems Loop powered DAUs do not require secondary mains or battery supplies and reduce length of speaker circuits. Reliable system compatibility Proven Vigilon system technology with speakers individually monitored and designed to meet the requirements of BS 5839-8.
5
Highly flexible software allows on-site configuration Additional DAUs can be easily accommodated with flexible message changes selected from the standard Audio Pack. Reduction in on-going costs
Innovative 'off the shelf' technology
requiring only one person testing the system, which can also be maintained at standard competitive rates.
7
Free extras A fire alarm system offering VA/PA benefits or vice versa.
True analogue time comparison sensors for false alarm reduction The very latest S-Quad sensors are fully compatible with Vigilon Compact Voice for the ultimate system specification.
9
The reassurance of GENT support Designed and manufactured by the UK’s life safety specialists with unrivalled expertise and technical support capabilities. Fully compliant with relevant industry standards GENT are LPCB approved for both systems and products and Vigilon Compact Voice is designed to comply with BS/EN standards.
by Honeywell
SECTION 8: page 6
by Honeywell
Vigilon Compact Voice System An industry first Vigilon Compact Voice is the new integrated fire detection, voice alarm and public address system from Gent – an innovation that combines the analogue addressable fire detection and alarm functionality of Gent’s proven Vigilon Compact system with the very latest voice alarm and public address (VA/PA) technology. The Vigilon Compact fire and voice alarm control panel drives one or two loops of fire detection and alarm devices and a number of loop powered distributed amplifier units (DAUs). A separate fault tolerant audio loop carries the live announcements for emergency situations and public address. The control panel has a built in emergency microphone and is able to accept inputs from a PA paging microphone and a background music source, e.g. CD player.
Life Safety First
The Vigilon Compact Voice system delivers clear, intelligible voice alarm messages. Vigilon Compact Analogue Addressable fire detection and alarm technology ensures reliable and constant life safety protection for both people and property. Research* shows only 13% of people react to bells, whilst 70% react to a voice message. Orderly phased evacuation in the event of a fire or other hazards through loudspeaker messages in relevant zones and live emergency messages relayed via the panel’s built in microphone.
Increased operational efficiency
Routine paging functionality provides an effective public address system. An on board emergency microphone is fitted into the control panel.
Improved building comfort
Enhances environments with CD quality background music around the building as required.
System integrity
Control and indicating equipment designed to EN54-2 & 4 and BS5839-8 All devices powered directly from the same two wires, including the DAUs. Only one panel required to control both fire and voice. Smallest DAU available in the marketplace. Delivers highest levels of system integrity and clear, high quality sound.
Fire and VA/PA System...at no extra cost!
Paging capability.
Plays music in selected areas.
Provides emergency and non-emergency messages.
Operates during mains failure.
Live message facility, routine paging announcements and advertising background music enhances all environments.
* Sources: Brian Piggot (The Fire Research Station) and David Canter (Surrey University).
SECTION 8: page 7
by Honeywell
System Architecture
S-QUAD MCP
INTERFACE UNIT
ZONE 2
ZONE 3
DAU
DAU S-CUBED STROBE
S-QUAD
MAINS DAU
LOOP POWERED MICRO DAU
S-QUAD
*
ZONE 1
INDUCTION LOOP S-QUAD
DAU
ZONE 4
MAINS DAU
MAINS DAU
SOUNDERS Should be separated acoustically from speaker zones
LIVE AUDIO CHANNEL
MCP
S-QUAD
WINMAG PC-BASED MANAGEMENT SYSTEM
PAGING INTERFACE VIGILON COMPACT VOICE CONTROL PANEL
MUSIC SOURCE BUILT IN EMERGENCY MICROPHONE
*
DAU
MULTI ZONE PAGING MIC (5 ZONE OR 10 ZONE)
Loudspeakers, Loop DAU requires special 63 Ohm low impedance speakers. Mains DAU uses standard 100v l oud speakers.
MCP
SECTION 8: page 8
by Honeywell
Benefits of Vigilon Compact Voice
Unique integrated system delivering Fire Detection, Voice Alarm, Public Address and Background Music.
by Honeywell
●
Compact Voice amplifier units are located around the building local to the actual broadcast zones
●
The DAU has a local message store of pre-recorded messages
●
Compatible with the full range of Vigilon powered loop devices
●
One control panel managing Fire Detection, Voice Alarm, Public Address and Background Music
●
Mains DAU is compatible with a comprehensive range of loudspeakers
●
Integrated control panel and distributed architecture delivers cost saving
●
Fully functional 10 zone public address
●
Complies to Standards BS 5839 Part 8: 2008 & BS EN 54 Part 16
SECTION 8: page 9
by Honeywell
Vigilon Compact Voice System Features Integrated Fire and Voice Alarm Control Panel
FIRE ALARM USER INTERFACE
LINE / 40 CHARACTER 8 LCD DISPLAY
TO EN54 PART 2
LED ZONAL DISPLAY
secret until lit
VOICE ALARM USER INTERFACE AUDIO CONTROL PANEL WITH EMERGENCY AND AUXILIARY CONTROLS
INTEGRAL EMERGENCY MICROPHONE COMPLIANT WITH BS 5839 PART 8
PRE-RECORDED MESSAGES SELECTABLE FROM THE CENTRALLY STORED AUDIO PACK
SECTION 8: page 10
by Honeywell
Vigilon Compact Voice Panel
A one to two loop panel accommodating
up
to
200
devices per loop (see Vigilon section for device details). Each loop can drive up to 5 DAUs and 5 voice evacuation zones. There is a built in emergency microphone for live emergency speech, which can be directed to any or multiple voice evacuation zones. The panel has an 8-line by 40
character
showing
LCD
detailed
display fire
Vigilon Compact Voice Panel
and
fault information, and 32 fire TECHNICAL SPECIFICATION
detection zonal LEDs.
Max No of Loops
2
Loop Capacity
200
Ingress Protection
IP31
Approx Weight
28 Kg including batteries
Operating Temperature
0 oC to +45oC
Relevant Standards
EN54: 2&4 BS 5839-8
Batteries
2 x 12V @ 12Ah
Battery Standby
24 hrs + 30 mins alarm
Supply Voltage
216V–253V 50-Hz
Power Consumption
75W
Cable Entry
Top and rear knock outs
Auxiliary Contacts
Programmable to activate on fire, fault or disablement (1 x SPCO 1 x DPCO)
Sounder Circuits
2 circuits @250mA each
Monitored Input
1 input which is programmable to perform a logical action via a command build
Colour
Egg shell white (Dupont 7EPZ1172S) Back box – Graphite grey (RAL 7024)
Communication Ports
2 x RS485 1 x RS232 selectable functions
Network
Copper network card (max 31 panels per node)
Dimensions (mm)
7 4 5
ORDER CODES Compact Voice Panel
COMPACT-VA
506
179
SECTION 8: page 11
Networked Systems
by Honeywell
Connected to a network of Vigilon control panels, Compact Voice becomes the master Voice Alarm and Fire Detection panel for the entire network
Compact Voice Networking Detection Loop Vigilon Network Audio Loop Compact VA Detection Loop 100V L/S Circuit
SECTION 8: page 12
by Honeywell
Epsilon
The Epsilon system comprises a new control panel that is a fire detection and integrated addressable voice evacuation and public address system in a single panel. The scaleable panelscan be used stand alone for small applications or networked together using CobraNet™ technology to route audio and control data over the Ethernet to form a highly distributed, fault tolerant network containing thousands of nodes. The scalable architecture ensures the system is able to cope with the complex life safety and PA requirements imposed by very large buildings. Addressable speakers, conventional amplifiers, paging microphones, advanced message replay and store and forward systems can be connected to the panel to form a comprehensive PA and VA system. Hundred of panels can be connected to form one seamless fire detection and voice evacuation system.
Addressable Speaker Loops The system supports the world’s first addressable speaker loops each supporting up to 60 fault tolerant wired loud speakers in 4 zones.
The
Gent by Honeywell patented technology allows the speakers to be zoned by the software in the panel.
The speaker power level is set by the commissioning tool eliminating the need for tapping individual transformers.
The
digital
data
stream
supports
the
simultaneous transmission of up to 4 audio channels
Channels can be used for emergency messages, live speech or background music Each speaker has an isolator so no speakers are lost in the event of a short/open circuit fault on the loop.
Each speaker is individually monitored unlike those on a conventional system where lost speakers cannot be detected.
Speaker Sound Pressure level (SPL) can be separately configured for VA announcements, PA announcements and background music for each speaker.
Schematic of Epsilon System Architectur
SECTION 8: page 13
by Honeywell
Epsilon Addressable Speaker Speaker Loops The fire plan determines how the system responds to fire incidents. Epsilon panels offer unprecedented levels of fire plan flexibility. flexibility. The system can be programmed such that a fire fire incident in any given detection zone or range of detection zones, can cause either an immediate or delayed alert or evacuate message to be played in any evacuation zone or range of evacuation zones. Fire detection and evacuation zones may be either local to the panel, or indeed, anywhere on the network. The system provides comprehensive support for ancillary plant devices such as dampers and fans. By allowing complex user definable states to be downloaded to the panel any conceivable building plant device can be supported.
Fire detection
Voice Alarm
Two fire detection loop circuits each supporting up to 200 Gent loop devices Thirty Two Two fire detection z ones supporting Gent fire alarm loop devices
Addressable speakers offer four evacuation zones per loop Up to 30 customisable pre-recorded emergency voice messages Up to 4 attention grabbing tones
S Quad Sensor Range S Cubed Sounder and Strobe Range
Audio output options Two card slots, each may provide 4 balanced line level outputs suitable for 3rd party VA distributed amplifier units OR An addressable speaker loop each supporting up to 60 loudspeakers in 4 zones, with total 60W output power
Audio input options options
Custom messages can be downloaded via system configuration tool
S-Quad Sensors
The first analogue input is a monitored balanced line 0dBm input suitable for emergency microphone to BS5839: Part 8 Voice message 18KHz
bandwidth
80Hz
to
Voice messages synchronised over the whole network
Message Store Up to 30 messages with a total storage capacity of 10 minutes
Optional audio input card provides: 4 balanced line level inputs
Attention grabbing tone generation
Each input can be used for PA paging microphones and background music sources
Capable of simultaneous output of an attention grabbing tone and three speech channels
First input is a monitored balanced line 0dBm suitable for an emergency microphone to BS5839: Part 8
The message store is continually checked and verified in accordance with BS5839: Part 8.
Each input has idependently configurable gain, low frequency gain, high frequency gain and audio delay Paging microphone inputs configurable priority level
S-Cubed Sounders and Strobes
have
Manual Call Point
SECTION 8: page 14
by Honeywell
Mains Powered DAU
The Mains Powered DAU is a new addition to Compact Voice System increasing the design capability and flexibility of the system.
The
new
Amplifier
Unit allows connection to a comprehensive range of standard 100 volt loudspeakers meeting the needs of any VA application at the same time as maintaining the advantages already delivered by the Compact Voice System.
Two x 30 Watt Class D amplifiers (Maximum 60W per DAU) Fault tolerant amplifier hot standby as standard The DAU can be located anywhere on the detection loop, reducing loudspeake loudspeakerr cable length Up to 10 DAUs per Vigilon loop (20 per system) Fault tolerant – actions local messages if audio loop fails Local and independent volume adjustment of voice alarm, PA and background music Designed to comply with EN54 Part 16 or BS 5839 Part 8 Internal PSU and battery standby designed to EN54 Part 4 Microphone input for Local Emergency Microphone, Paging or background music 4 monitored inputs for control of VA and or Fire system, 1 auxiliary relay output for interfacing with local plant or equipment
Mains Powered DAU TECHNICAL SPECIFICATION Audio Input
Three balanced line level inputs f or the connection of local background music, local PA input, central audio
Audio Output options
2 x 100 volt loudspeaker circuits (A+B) up to a total 60W output power 2 balanced line level outputs suitable for 3rd party VA amplifiers or induction loop equipment
Ingress Protection
IP31
Max Weight
8 Kg
Power Supply
230V ac 50/60Hz
Batteries
2 x 1 2V @ 7 Ah
Battery Standby
24 Hours + 30 minutes alarm
Cable Entry
Top and rear knock outs
Diagnostics
Comprehensive fault management All status and historic data can be accessed via the Master Control Panel
Loudspeakers - Mains DAU is compatible with any 100v VA loudspeaker, NB Loudspeakers require DC blocking capacitor see section 9 page 29 for options
Dimensions (mm)
8 3 3
ORDER CODES Mains Powered DAU
COMPACT-MAINS DAU
300
136
SECTION 8: page 15
by Honeywell
Paging
Compact Voice includes a range of paging options for Public Address. These include:
Zone Paging Mic 5
Public Address Paging Microphone
Zone Paging Mic 10 TECHNICAL SPECIFICATION 5 zo zon ne pa pagi gin ng mic icro roph pho one
10 zo zone ne pa pagi ging ng mi micr crop oph hon onee
Output Sensitivity
Mic Level: 1mV Line Level: 500mV Line
Mic Level: 1mV Level: 500mV
Output Impedance
Mic Level: 60Ohms Line Level: 600 Ohms
Mic Level: 60 Ohms Line Level: 600 Ohms
Polar diagram approx to cardioid, presence lift @ 3KHz
Polar diagram approx to cardioid, presence lift @ 3KHz
±6dB, 100Hz ~ 8KHz
±6dB, 100Hz ~ 8KHz
‘Soft touch’ momentary action push button ‘Soft touch’ latching action
‘Soft touch’ momentary action push button ‘Soft touch’ latching action
Terminations
15 Way ‘D’ male to unterminated open end (1.5m)
15 Way ‘D’ male to unterminated open end (1.5m)
Dimensions
Base: 130(W) x 50(H ) x 170(D) mm Gooseneck length to capsule: 260mm
Base: 130(W) x 50(H ) x 170(D) mm Gooseneck length to capsule: 260mm
250g
350g
Characteristics Frequency Response ‘Press-to-Talk’/’All Call’ Zone ‘Press-to-Talk’/’All Selection
Weight Finish
Desk top: grey Desk base: satin black powder coat Gooseneck & mic: matt black
TECHNICAL SPECIFICATION – PUBLIC ADDRESS PAGING MICROPHONE Console Mounting Microphone Style Polar Response Frequency Response
Single and 2 zone paging mics for pre defined paging groups 5 and 10 zone paging microphones for freely selectable multizone paging. These operate in conjunction with a paging interface module which integrates onto the Vigilon detection loop. Multi zone paging mics incorporate soft touch zone selection along with press to talk and all call buttons. LED indicators confirm to the user which zones have been selected
Stainless Steel Surface Desk Mount Gooseneck Cardioid 150Hz to 12kHz
Power Supply
Powered from control panel
Zone Control
Software programmable
LED Indication
Speak Now
ORDER CODES Single Zone Desk mounted Paging Microphone
DPM-102
Two Zone Paging Microphone for Compact VA
COMPACT-MIC-02
5 Zone Paging Microphone for Compact VA
COMPACT-MIC-05
10 Zone Paging Microphone for Compact VA
COMPACT-MIC-10
SECTION 8: page 16
by Honeywell
Loop Powered DAU
Each DAU can drive up to 10 64 Ohm high efficiency speakers on two circuits (5 speakers per circuit). The DAUs are wired in a fault tolerant ring configuration, and each DAU has an isolator to protect against short circuits on the analogue audio loop. Local volume of voice alarm, PA and background music can be adjusted via an IR remote control.
Loop Powered DAU TECHNICAL SPECIFICATION Weight
2Kg
Mounting
Wall
Amplifier Load
2 x 12.8 Ohm 10V RMS Output (class D)
Microphone Input Sensitivity
5mV-22mV/10k 5mV-22m V/10k Ohm (includes AGC)
Auxx Inpu Au Inputt Sen Senssit itiv ivit ityy
775 75mV mV//60 600 0 Ohm Ohm (Bal (Bala anc nceed)
Signal to to Noise Ratio
>80dB
Frequency Response
100Hz to to 18kHz ± 3d 3d B
Tota otall Harmon Harmonic ic Distor Distortio tion n
<0.5% <0. 5% @ 1KHz 1KHz
Power Supply
Loop powered
Auxi Au xili lia ary Re Rela layy
Two co conf nfig igur urab able le vo volt ltag agee fr freee co con nta taccts ra rate ted d 1A @ 24V 24Vdc dc
LED Indication
Audio status – Audio I/P present/power Circuit A Fault – wiring or AMP fault Circuit B fault – wiring or AMP fault
Dimensions (mm)
ORDER CODES Loop Powered DAU
COMPACT-DAU
SECTION 8: page 17
Loudspeakers for Loop Powered DAU
by Honeywell
The system can support up to 100 64 Ohm low impedance loudspeakers.
Wall Loudspeaker Wall Loudspeaker
Ceiling Loudspeaker
TECHNICAL SPECIFICATION – LOUDSPEAKERS FOR USE WITH LOOP POWERED DAU Ceiling Loudspeakers
Bi-directional Wall Speakers
6 4 O hms
64 Ohms
6 4 O hms
Steel
Steel including Fire Dome
Steel
Sensitivity
>93dB(A) @ 1m (1kHz Tone)
>93dB(A) @1m (1kHz Tone)
>85dB(A) @1m (1kHz Tone)
Effective Frequency Response
85Hz – 18.5 kHz
85Hz – 18.5kHz
125Hz – 12kHz
Description
Wall Loudspeakers
Impedance Material
Directivity Q factor, 1k Hz Colour Mounting Dimensions (WxHxD) mm
2.1
2 .1
0.6
White
White
White
Surface
Flush
Surface
190 x 190 x 75
239 x 110 dia
210 x 130 x 98
The above Loudspeakers are for use with the Loop Powered DAU only.
ORDER CODES Wall Loudspeakers
COMPACT CAB
Ceiling Loudspeakers
COMPACT RCS
Bi-directional Wall Speakers COMPACT BDCAB
SECTION 8: page 18
by Honeywell
Audio Pack
Audio Pack – messages and pre-tones. The message card fitted in all factory supplied Vigilon Compact Voice alarm panels and DAUs contains an Audio Pack of messages and tones. During commissioning it is possible to re-configure this by selecting alternative centralised and distributed messages and pre tones for Alert, Evacuate, Bomb and Auxiliary 1, 2 and 3 controls.
NUMBER TYPE OF OF ME MESSAGE
VOICE
MESSAGE
1
DAU Test
Malee Mal
The voi voice ce ala alarm rm vol volume umess are are bei being ng adj adjust usted ed – ther theree is is no no need need to tak takee any any act action ion..
2
Alert (default – Emergency 1)
Female
Your attention please, the fire alarm has been activated in another area, please remain where you are and Your await further instructions.
3
Evacuate (default – Emergency 2)
Male
Attention please, attention please, this is an emergency. emergency. Please leave the building by the nearest available exit. Do not use the lifts or escalators.
4
Bomb (default – Emergency 3)
Female
May I have your attention please, an incident has been reported in the area. As a precaution, please move away from the windows. I repeat, please move away from all windows, further information will follow shortly.
Female
May I have your attention please, may I have your attention please, an incident has been reported in the building. While this report is being investigated, please remain at your workplace.
5
Alert (alternative)
6
Evacuate (alternative)
Male
Ladies and gentlemen, due to unforeseen circumstances we are required to evacuate the building. P lease leave the building immediately by the nearest available exit.
7
Gas Carbon Monoxide
Male
May I have your attention please, may I have your attention please, excessive carbon monoxide levels have been detected, please leave the area immediately by the nearest available exit.
8
Gas Fixed Extinguishant
Male
May I have your attention please, may I have your attention please, extinguishant gas release imminent, please evacuate the area immediately by the nearest available exit.
9
Fire alarm test end (default – Auxiliary 1)
Female
Attention please, attention please, this is a test of the fire and voice alarm system, there is no need to take any action.
10
Fire alarm test end (default – Auxiliary 2)
Female Fema le
The test of the the fire fire and and voice voice alarm alarm syste system m has has now now been been complet completed ed (defaul (defaultt – Auxili Auxiliary ary 2)
11
Coded message
Fema Fe male le
Woul Wo uld d Mr. Mr. San Sands ds ple pleas asee repo report rt to to rece recept ptio ion. n.
12
Class change
Female
Class ch change.
13
Gent by Honeywell (advertisement)
Female
Ladies and gentlemen this speech message is produced by Gent by Honeywell’s Vigilon Compact Voice alarm system. This product integrates voice alarm functions into an analogue fire alarm system ideal for small to medium sized buildings.
14
Stand down (default – Auxiliary 3)
Female
May I have your attention please, the cause of the alarm has been investigated and the system reset. There is no cause for concern. Thank you.
15
Special tone 1
–
Beep beep beep (950Hz 80ms beep every 420ms)
16
Special tone 2
–
Beep beep beep (950Hz 50ms beep every 80ms)
17
Factory test
–
Frequency sweep (300Hz to 10KHz in 3s)
18
Nursery rhyme 1
Tune
‘Boys and Girls Come Out to Play’
19
Nursery rhyme 2
Tune
‘Twi nk nkle Tw Twinkle Li Little St Star’
ATTENTION TONE Number
Description of tone
Number
Description of tone
1
Nee Naw x 8
6
Pulse
2
Two tone (ding dong)
7
Continuous
3
Four tones – ascending
8
Dong
4
Four tones – descending
9
Chopin
5
Bell
10
‘Sleigh Bells’
SECTION 8: page 19
Section 9.2:
by Honeywell
Vigilon Voice Alarm System S ystem
Contents Vigilon Voice Alarm System •Overview •System Architecture •Benefits •Master Audio Unit •Distributed Amplifier Unit •Microphones •Fireman’s Microphone •Paging Microphone
•Ancillaries •Input/Output Microphone •Ambient Noise Microphone •Volume and Rotating Control
SECTION 8: page 21
System Overview
by Honeywell
The Vigilon Voice is a distributed Voice Alarm System, which integrates seamlessly with the Vigilon Fire Alarm system supporting the needs of large, multi-story buildings and complex sites.
Introduction A Master ACU allows additional Slave ACUs or microphone units to be supported. This Slave acts as a second VA control panel and mimics the controls of the Master. No keypad or LCD for programming is provided at the Slave. The Master ACU can be supplied as either a blank version or complete with a user interface and integral emergency microphone. A Master ACU is always required when more than one DAU is to be used on the same system. The ACU enables paging announcements to be made to the distributed systems. An interface is provided to allow inputs from the Vigilon control panel(s) to control Digital Voice Announcements (DVAs) from the distributed systems.
Control Network Operation The control network acts as a transparent transmission medium for the control protocol to be transmitted from the ACU to the DAUs. The network is configured as a loop and is tolerant to open or short circuit cable faults between nodes of the loop. This is achieved by the network normally operating in a preferred transmission direction, should a fault be detected, the originating node shall effectively transmit in both directions around the ring. Receiving DAUs are able to detect the new data direction.
Audio Distribution Baseband Audio will require one copper pair per channel. Three audio channels are supported as a minimum to enable simultaneous ‘Alert’, ‘Evacuate’ and emergency microphone audio to be broadcast. In non-emergency conditions the audio channels may be used for background music and routine paging functions. The audio loops are fault-tolerant. As well as distributing the audio, it is required that a master microphone, Press-to-talk, signal is also conveyed over the audio link. This is to fulfil the BS 5839 Part 8 requirement that an “All-Call Fireman’s Microphone” operation is supported even if control processors fail. It is possible for multiple ACU microphones to contend for a single audio channel for emergency microphone announcements. A simple global priority is implemented between microphones for granting access.
SECTION 8: page 22
by Honeywell
System Architecture
Slave ACU
A B A/ B Audio Highway 3 x 2 x 1mm 2
A/ B A/ B
4x A / B Speaker zones
DAU EVAC
230V ac supply
Data Highway 1 x 2 x 1mm 2
Additional Emergency Microphone
ALERT MIC Local Audio Inputs x 8
DATA
Master ACU EVAC
230V ac supply
ALERT MIC Paging Microphones
A B
DATA
A/ B A/ B A/ B
4x A / B Speaker zones DAU
230V ac supply
EVAC
Music Source
ALERT MIC Local Audio Inputs x 8
DATA
230V ac supply
Fire Detecton Loop Vigilon Fire Panel
S-Quad
MCP
SECTION 8: page 23
10 Reasons to specify Vigilon Voice
1
Safe evacuation
High quality intelligible voice messages reduce
confusion and panic. State of the art technology
High quality audio with full digital
signal processing, continuous audio path surveillance and DVA message monitoring.
3
Save on space Fully featured wall mounted control panel, easier to accommodate than conventional rack systems. All functions software
Simple configuration and upgrades
configurable with no hardware links etc to set. Configuration can be readily archived and restored.
Functionality upgrades involve only
software not hardware.
5
Full compliance with relevant standards
Complies fully with BS
5839-8, which is widely called for in project specifications. Ideal for large Multi-storey premises
System can be networked,
with a central Audio Control Unit (ACU) controlling up to 30 Distributed Amplifier Units (DAU).
7
System reliability The network is tolerant to open or short circuit faults between any two units on data or audio busses, automatically recovering and pinpointing the location of the fault. Even if all the processors in the system fail, an All-Call announcement is still possible from the ACU Emergency Microphone. Site wide audio synchronisation 3 audio channels plus data, allows simultaneous distribution of Alert and Evacuation messages to allow site wide audio synchronisation in addition to Emergency Microphone audio. When no emergency audio is present these channels may support routine paging or background music functions.
9
No data degradation Data is re-clocked at each DAU to ensure there is no data degradation as the size of the system increases. Easy to maintain Detailed full system fault status can be viewed at the central ACU, meaning that remote units do not need to be inspected to diagnose the exact fault.
by Honeywell
SECTION 8: page 24
by Honeywell
Master Audio Control Unit
Interfacing the Audio Control Unit (ACU) with the Vigilon fire
alarm
system
facilitates
centralised control. It takes the form of a wall-mounted box fulfilling the primary function of a Voice Alarm Control Panel. The ACU features a keypad and LCD display for configuration and fault reporting, and can be supplied either blank, with no further control functions, or with an integral emergency microphone of
and
configurable
a
number
front
panel
Master Audio Control Unit
buttons for zone selection, and 8 push button selectors for
TECHNICAL SPECIFICATION
Digital
Capacity
Voice
Announcement
30 DAUs / 120 Zones
Messages
2 x 66 second and 2 x 50 second digital messages
Approx Weight (Inc batteries)
35Kg
If the blank version of the Master
Operating Temperature
-5 oC to 50oC
ACU is supplied, in order to
Batteries
18 Ah Valve Regulated SLA 2 x 12V 18Ah
Battery Standby
24hrs + 1 / 2hr alarm
Supply Voltage
230V +10%, -6% rms 50Hz AC
Power Consumption
2A at 230V ac 600VA
(DVA)broadcasts.
provide the same functionality, an
additional
Desk
Console
or wall mounted Emergency
Dimension (H x W x D mm)
700 x 510 x 156
Microphone can be provided in
Relevant Standard
BS 5839 Part 8
place of the on-board Keypad.
Microphone Inputs and Control panels The ACU allows up to 4 microphone consoles to be supported with configurable buttons for paging or DVA messages. The microphone consoles buttons may be implemented in a number of ways: 1
Modular Microphone panels on the front panel of the ACU.
2
Custom Mic Boards to enable customer specific fire Microphone panels to be constructed.
3
Standard DMS Microphones for simple paging functions.
Additional Audio inputs In addition to the four microphone-capable audio inputs, an additional 4 balanced audio
ORDER CODES ACU Master blank ACU Master with 20 way keyboard and network c/w microphone
VA-1311
inputs are provided. These may be used for background music and similar input sources. The ACU supports 2 x 66 second emergency messages and 2 x 50 second auxiliary messages.
VA-1312
Audio Outputs
ACU Master c/w all-call button and microphone
VA-1314
ACU Master c/w all-call button and microphone 40 zone
VA-1316
ACU Master c/w all-call button and microphone 60 zone
VA-1317
For further options on ACU configurations consult your price list
The ACU provides 4 analogue outputs that feed busses on the analogue network. Three channels will be used for the network audio, #1 Emergency Microphone; #2 Evacuate Message; #3 Alert Message.
SECTION 8: page 25
by Honeywell
Distributed Amplifier Unit
The Vigilon Voice Distributed Amplifier Unit (DAU) is a selfcontained, wall mounted voice alarm system. The unit contains all audio processing, amplification and battery back up elements needed BS
to
5839
provide Part
8
a
fully
compliant
system. The DAU comprises:
400W DAU
TECHNICAL SPECIFICATION 200W DAU
400W DAU
4 x 50W amplifiers which may be paralleled to achieve 2 x 100W
4 x 100W amplifiers which may be paralleled to achieve 2 x 200W
Audio Amplification Emergency microphone interfaces
2 sets of monitored PTT and Speak Now interfaces to support emergency microphone operation on inputs 1 and 2 are provided
Serial Communications
Zonal Power Amplification Surveillance Routing Power Supply and Battery Charger Control Interfaces Fault Display User Interface Network Interface Vigilon Loop Interface
1 x RS232 and 1 x RS485
Messages
2 x 66s and 2 x 50s messages
Approx Weight (Inc batteries) Operating Temperature Batteries
51Kg -5 oC
to
70Kg
50oC
-5oC
24 Ah valve regulated SLA
Battery Standby
Dimensions (H x W x D mm)
38 Ah valve regulated SLA
24h +0.5h alarm
Supply Voltage Power Consumption
to 50oC
230V +10, -6% rms 50Hz AC 600VA
800VA
700 x 510 x 156
790 x 580 x 204
Relevant Standard
BS 5839 Part 8
Audio Inputs General purpose inputs – four inputs are provided. The first two inputs maybe used as Fire Microphone inputs. The general-purpose inputs feature a serial interface for connection of Zoned Paging and Fire microphones.
l
l
Two background music inputs are provided.
Digital Messages – Two 66 second emergency messages and two 50 second Auxiliary Messages are provided.
l
Audio Monitor Input – A connection is provided for an audio monitor bus from the amplifier system. This allows for audio monitoring of selected amplifier outputs under the control of the front panel.
l
ORDER CODES 200W DAU
VA-1321
400W DAU
VA-1322
SECTION 8: page 26
by Honeywell
The
Fireman’s
Fireman’s Microphones
Microphone
Stations comprise a lockable wall mounting box housing a fist microphone and associated electronics. They will operate in an all-call mode even in the event of processor failure within the router, as required by BS 5839 Pt 8.
Single Zone Fireman’s Microphone
The VA-1315 desk console can be used as a remote alternative to the integral keyboard and microphone of the Audio Control Unit (ACU). In addition, the VA-
Zone Fireman’s Microphone 20
1315 can also be used as an TECHNICAL SPECIFICATION
emergency microphone.
Type
VA-1364
VA-1365
VA-1366
VA-1367
VA-1315
Microphone audio is provided
Supply voltage range
as a balanced 0dBu (nominal)
Current consumption maximum – all LEDs on
70mA @ 24 V DC supply
90 mA @ 24 V DC supply
250 mA @ 24 V DC supply
limiting automatic gain control is
Format
Wall mounting box
Desk Console plastic case
Desk Console metal case
provided to help compensate for
Microphone
analogue signal. An in-built signal
varying operator technique. The
microphone’s
processor
is responsible for generating an
outgoing
to monitor the audio connection the
VAR
Fist PTT button acts as All Call select button
Router,
5
10
LEDs
20
20 can also control routes or DVAs
PTT button
Zone Busy Speak Now (twin) Status
while
microphone capsule monitoring
Gooseneck
Other Buttons
low-frequency
surveillance tone which is used to
Zone Select Buttons (can also control routes or DVAs)
18 – 40V DC
2 Zone Select LEDs per zone button (zone Busy and zone Selected) Speak Now (twin)
2 Zone Select LEDs per zone button (zone Busy and zone Selected) Speak Now (twin) All Call Only (twin) System Fault Power
is performed by injection and
Microphone speech level meter
monitoring of a signal such that
Colour
Red RAL3020
PB No.5 off-white with black annotation
Black with silver annotation
Dimensions (WxDxH mm) excluding gooseneck and connectors
350 x 88.5 x 300 excluding handle
180 x 130 x 40
450 x 182 x 81
5.7 kg
1.0 kg
3.7 kg
either open or short circuit of the capsule or associated wiring will indicate a fault.
Weight
N/A
N/A
Operating and storage temperature Ingress protection
Single Zone Fireman’s Microphone
VA-1364
5 Zone Fireman’s Microphone
VA-1365
10 Zone Fireman’s Microphone
VA-1366
20 Zone Fireman’s Microphone
VA-1367
20 Way Emergency Desk Console and Emergency Microphone
VA-1315
Five LED bargraph
−5°C to +50°C
Humidity range
ORDER CODES
N/A
0% to 93% Non-condensing N/A
N/A
N/A
N/A
IP55
SECTION 8: page 27
by Honeywell
Paging Microphones
The Paging Microphone series comprise a range of sloping desk consoles with a flexible gooseneck paging microphone. An
in-built
automatic
signal gain
limiting
control
is
provided to help compensate for varying operator technique. A processor within the Paging Zone Paging Microphone 20
Microphone interfaces all LEDs and switches to the DSP Router by means of a serial interface, while microphone audio is provided
and 10 Zone Paging Microphone 5
as a balanced 0dBu (nominal) analogue signal. All connections TECHNICAL SPECIFICATION Type
VA-1361
VA-1362
Supply voltage range
Dimensions (WxDxH mm) excluding gooseneck and connectors Weight Operating and storage temperature Humidity range
through
CAT5
connector. The microphone’s processor is
Gooseneck
also responsible for generating
5
10
20
an
outgoing
low-frequency
surveillance tone which is used
Other Buttons
Colour
provided
Desk Console plastic case
Microphone
LEDs
120 mA @ 24 V DC supply
90 mA @ 24 V DC supply
Format
are
cabling terminated with an RJ45
18 – 40V DC
Current consumption maximum – all LEDs on
Zone Select Buttons (can also control routes or DVAs)
VA-1363
PTT button
to monitor the audio connection
2 Zone Select LEDs per zone button (zone Busy and zone Selected) Speak Now (twin)
to
the
VAR
Router,
while
microphone capsule monitoring
PB No.5 off-white with black annotation
is performed by injection and 180 x 130 x 40
318 x 164 x 40
1.0 kg
1.5 kg
monitoring of a signal such that either open or short circuit of the
−5°C to +50°C
capsule or associated wiring will indicate a fault.
0% to 93% Non-condensing
ORDER CODES 5 Zone Paging Desk Microphone
VA-1361
10 Zone Paging Desk Microphone
VA-1362
20 Zone Paging Desk Microphone
VA-1363
SECTION 8: page 28
by Honeywell
Input/Output Interface
The VA-1381 is an input and output
control
port
(I/O)
expander for the Voice Alarm Router (VAR) series of routers. The VAR Routers are able to support the connection of up to 9 remote va-1381 units, connected by a multi-drop RS485 serial interface.
12 analogue inputs 12 digital (opto-isolated) inputs 12 digital (open collector) outputs
These input and output control
PAVA Input/Output Interface
ports may be used for functions such as: Program Selection, Volume Control, Fault Input,
TECHNICAL SPECIFICATION Supply voltage range
18 – 40V DC
Current consumption
70mA @ 24 V DC supply
Routing Control, Routing Reset
Open collector maximum rated current
350mA
Input, External Fault Input, and
Open collector maximum voltage
60V
Analogue input voltage range
0 – 5V (nominal) 24V max without physical damage
Digital input voltage range
12 – 48V
The VA-1381 is housed in a
Dimensions (W x D x H mm)
156 x 58 x 105
DIN-rail mountable enclosure
Weight
300g
Operating and storage temperature
−5°C to +50°C
Humidity range
0% to 93% Non-condensing
Busy Output.
suitable for use either within a central equipment rack or remotely, at distances of up to 1km from the VAR Router.
ORDER CODES Input / Output Interface
VA-1381
SECTION 8: page 29
by Honeywell
Ambient Noise Microphone
The Ambient Noise Sensor (ANS) is for the Voice Alarm Router (VAR) series of routers. Each VAR Router is able to support the connection of multiple Ambient Noise Sensor units, each of which interfaces to an analogue input of the I/O Interface. The interface is a simple 3-wire connection between the I/O Interface and each Ambient Noise Sensor. The Ambient Noise Sensor detects ambient noise using its built in Ambient Noise Microphone
microphone. The detected signal has a speech-band response; this
TECHNICAL SPECIFICATION
is then converted into a current
Supply voltage range
21 – 40V DC
Current consumption
35mA @ 24 V DC supply
Ambient noise measurement range
65 – 95dBA
to the true RMS value of the
Dimensions (W x D x H mm)
85 x 45 x 145
noise measurement.
Weight
500g
Operating and storage temperature
−5°C to +50°C
The VAR Router can control the
Humidity range
0% to 93% Non-condensing
volume of one or more zones
with a logarithmic relationship
from each ANS, and each zone can be controlled by one or more ANS sensors. The Ambient Noise Sensor is housed in a standard metal 2-gang wall box, with the electronics
and
microphone
being mounted on the front plate.
ORDER CODE PAVA ambient noise Microphone
VA-1382
8
SECTION 8: page 30
by Honeywell
The
VA-1383
and
Volume and Routing Control VA-1384
provide convenient local control of volume, from attractive wall plate mounted rotary selectors. Up to 12 controls may be connected (via a simple 2 wire interface per control) to a VA1381 unit mounted either locally or at the equipment rack. All controls may be configured to affect multiple or single system inputs and outputs as required. The
VA-1385
and
VA-1386
provide convenient local control of
program
selection,
Volume and Routing
Routing Control Unit
Volume Control Unit
Control Unit
from
attractive wall plate mounted
TECHNICAL SPECIFICATION VA-1383 VA-1384
VA-1385 VA-1386
VA-1387 VA-13848
Supply voltage range
5V DC max from BMB01 analogue Input
5V DC max from BMB01 analogue Input
5V DC max from BMB01 analogue Input
Current consumption
1mA max
1mA max
1mA max
rotary selectors. Up to 12 controls may be connected (via a simple 2 wire interface per control) to a VA-1381 unit mounted either
Dimensions (W x D x H mm) 85 x 53 x 85
85 x 53 x 85
85 x 53 x 145
locally or at the equipment rack.
Weight
100g
100g
190g
All controls may be configured to
Operating and storage temperature
−5°C to +50°C
−5°C to +50°C
−5°C to +50°C
Humidity range
0% to 93% Noncondensing
0% to 93% Noncondensing
0% to 93% Noncondensing
affect multiple or single system inputs and outputs as required.
ORDER CODES Single gang plastic panel mounted volume control
VA-1383
Single gang metal panel mounted volume control
VA-1384
Plastic routing control
VA-1385
Metal routing control
VA-1386
Plastic volume and routing control
VA-1387
Metal volume and routing control
VA-1388
SECTION 9: page 1
Section 9:
by Honeywell
Specification For Analogue Addressable
Contents •Analogue Addressable
SECTION 9: page 3
Analogue Addressable
by Honeywell
System Description The system will be analogue in operation, with each sensor device providing s ignal levels relative to the current operating environment. These analogue samples will be transmitted to the control panel in a digital format to reduce possible corruption. Outstation background environmental conditions will be monitored every 80 seconds to create a table of each analogue channel for event analysis. For sensors in a threshold condition 256 data readings will be taken, with fast-scanning employed to locate threshold outstations within a period of 0.5 seconds. Addressing of any devices directly connected to the system will be carried out in a manner that does not require manual setting of switches in either, the head or the base i.e. all addressing will be carried out automatically by the control panel (soft addressed). Additionally the system should be SAFE addressed (Software Addressed Firm-ware Encoded), incorporating an E2PROM allowing the soft address to be encoded permanently with each device. This will be achieved via a control panel software prompt only. To maintain system performance & compatibility, all equipment to be provided by one manufacturer, this manufacturer will be certified by the British Standards Institute under the registered company scheme to ISO 9002. All field devices to be connected to the control panel are to be wired directly via 2 core loop circuits. Loop cable types to be selected in accordance with manufacturers recommendations to ensure optimum performance. The system will be capable of providing fire, fault disablement and supervisory monitoring facilities as required by EN 54 Pt 2. Short or open circuit wiring fault isolation will be provided within every device to protect the system. “Group Circuit Monitors” which isolate/ protect sections of a loop circuit, i.e. a group of field devices are not acceptable.
Central Alarm Control Panel It shall be possible to surface or flush mount the panel enclosure The control panel shall be multi-tasking in operation with each loop utilising microcomputer technology to communicate with the main panel controller processor. The control panel will be modular in type to allow for future additions up to a maximum of 4 or 6 detection loops. Contained within the control panel shall be the facility to install a separ ate network communications card to provide means of connection for up to a maximum of 31 control panels in the form of a secure network. All specific site data shall be field programmable and stored in internal E2 memory. The use of “burnt” “EPROM’S” to retain site data in the event of a malfunction will NOT be permitted.
Central Alarm Control Panel Cont’d..... All internal cards will be fully monitored, for fault conditions and any relevant information will be displayed and/or printed on the integral printer. The Control and Indicating Equipment (from hereon referred to as CIE) shall provide the following visual indications for each of the following conditions : Power on Sounder fault Common fire Common fault System fault Disablement The CIE will be provided with the following as standard: Full QWERTY keyboard User controls start sounders, stop sounders, reset cancel buzzer, verify F1 – F4 function controls. 4 fast navigation keys 2 x 400mA 24V monitored sounder circuits 2 x DPCO volt free programmable auxiliary contacts
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Analogue Addressable
1 x SPCO volt free manned centre link connection (MCL) 1 x RS232/RS485 connection 1 x RS 485 panel networking connection (separate card required) 40 character x 8 line back-lit display text on blue background 32 zonal secret until lit fire LED indicators The control and indicator panel will be LPCB approved to the requirements of EN54 parts 2 & 4.
Loop Parameters Individual loop circuits will be capable of accommodating the following : Up to a maximum of 200 addressable devices Up to 200 dedicated addressable sounders Up to 100 loop power electronic strobes Up to 60 loop powered combined electronic sounders and strobes Up to 125 sensors with integral sounder The detection loop shall have the ability too support both sensors and sounders connected on the same 2 core loop circuit. Up to 16 beam sensor pairs (transmitter and receiver), connected directly to the detection loop. A combination of up to 32 mimic and/or repeat indicator panels on any one detection loop. Up to 8 mains powered interface units Up to 30, 4 way, loop powered and 100 single channel or zone module interface units. The ability to spur off the detection loop using appropriate ‘T’ breaker devices, without any degradation of system capabilities or response times.
System Events The control panel will log the following: 1. The last 100 fire events on a last in first out basis. This information can be either printed and/or displayed. The fire information will be presented in the following format :Date and time of fire. Device number and loop number. Status of Initiation Device to sense “Fire Condition” i.e. “Optical Sensor”. 2. The previous 255 panel events, all relevant events excluding the operation of the fault buzzer being cancelled. 3. The previous 255 supervisory (non-fire) events. This information to be provided in the following form. Time activated. Time de-activated. Supervisory action label or number 4. All fire fault and supervisory events to be logged immediately with the illumination of an array of appropriate coloured LED’s (Red for Fire, Yellow for Fault and Amber for supervisory) and the internal buzzer to give the appropriate audible signal.
System Non Fire Events The control panel shall be capable of accepting non-fire signals and actioning a pre-configured series of events. These inputs shall be initiated manually via a field wired input device or automatically via the control panel real time clock on a seven day basis or resulting from an alarm signal or via any one of 4 programmable function keys on the control panel. Up to 255 separate non-fire events can be used each of which may be assigned a 40 character label, this being displayed and/or printed during operation. The internal supervisory buzzer shall also sound for a period of 30 seconds to draw the users attention to the non-fire event. Non fire inputs may be configured to operate all programmable control functions within the system software.
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Analogue Addressable
by Honeywell
SYSTEMS INDICATIONS Electrical supply from the public main system will illuminate a green LED when present, upon the loss of this supply the lamp will be extinguished and the fault buzzer operated. The display medium for all alphanumeric messages will via a back lit liquid crystal display (white text on a blue background) being 40 characters in width by 8 lines. Zonal indication of a fire event will be provided in the form of 32 fire LED indicators, which will be secret until lit in operation and located directly above the LCD display on the control and indicating panel. On-board printouts will be provided by a thermal printer, 40 characters in width. FEED, TEST, ON and OFF options shall be presented to the user, with the printer being automatically disabled when the hinged door is in the locked position, this being regardless of the last operation. Up to 255 system events may be printed as and when requested.
SYSTEM CONTROLS All user controls will be covered by means of a key op erated hinged ABS plastic door finished to Pantone 422 Grey and having a glass window for viewing the LCD and indicators. The door shall incorporate the facility to store the system log book and operating instructions. The control panel door shall include controls to allow access to v iew the previous and next fire conditions without gaining access to system controls. The control panel shall be provided with a full QWERTY keyboard to allow all system labelling, control and config uration to be carried out on site without the requirement for a laptop computer. All essential controls and the facility for alarm verification shall be separate and clearly marked. These to include menu on/off, start and stop sounders, fire reset, cancel fault buzzer and access information logs. (Access level 2). 3rd level controls may be protected by an access code if required by the end user. They shall be able to perform the following tasks :i) Disablement of automatic sensors, either individually or on a group basis. This may be carried out either manually or in a time related manner using the internal real time clock. ii) Disablement of sections of the system i.e. alarm sectors on a singular or range basis. iii) Disablement of master alarms. iv) Disablement of interface inputs and outputs. All of which will provide the appropriate disablement message. v) Manual operation of 2 in built auxiliary relays, which may be configured to operate under fire, fault, disablement or supervisory conditions. vi) Control the integral printer. vii) Pause all sounders and outputs for a configurable period of up to 10 minutes during a fire condition (Verify Fire). viii) Manually operate a supervisory action, which will in turn trigger a series of pre-determined event. ix) Modify the panel clock, any outstation labels or any site specific configuration d etails. x) Back up all data to the internal E2 memory.
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Analogue Addressable
4th level controls allow access to engineering functions that can be carried out directly from the control panel. These being protected by means of an access code to prevent unauthorised access. The following functions shall be available: i) Time average information, where analogue readings taken from sensor heads are stored in memory and m ay be recalled at any time. These shall take the form of foreground and background values. ii) Find outstation facility, whereby by specifying a particular d evice number and its associated loop number, some form of output will be given from that device in the format of either a flashing LED or a sound output being given, dependent upon the status of the device. iii) Reset and allocate. This enables specific loops to be powered down and the allocation process whereby the panel “maps” out all external devices to be initiated. iv) Automatic commissioning mode. The panel will perform an automatic silence alarms and fire reset after a period of 10 seconds allowing simple one-man commissioning to take place.
Programmable Software Options The following programmable software features shall be provided as standard without the requirement for separate software enhancements or modules. 32 individually programmable sectors per detection loop Cross sector linking 10 separate sound signals: including complex tones such as bell an DIN tones, with the additional ability to include voice messaging of up to 20 seconds of speech. Sensors with speech option having 4 voice messages as standard within the flash memory component, with ability for on-site reprogramming SAFE addressing and ‘soft’ addressing (does not require manual setting of switches in either, the head or the base) 64 character length address labels Co-incidence and multi-level fire detection Programmable delay for outputs (sounders and interfaces) Programmable timer to allow switching of sensor states 255 non fire events
Power Supply & Standby Batteries The system shall comprise of an integral charger and 2 sets of individually monitored sealed lead acid cells enclosed within a separate ventilated enclosure. The batteries are to be maintenance free. The charger will be preset at a nominal DC output. The batteries will be provided to maintain a standby period of 24 hours (minimum) with a further 30 minutes under full alarm/control load conditions. The charging current shall be automatically adjusted according to the batteries ambient temperature. Should a full discharge of the cells take place, then the system will be capable of completely re-charging them within a 24hr period. If any form of malfunction is detected within the charger/cells unit then an appropriate fault message should be displayed. Individual messages will include: Mains supply lost Batteries 1-2 faulty Batteries 1-2 discharged Batteries 1-2 open circuit All of the above should be cleared automatically as and when the particular faults are resolved. The clearing of power supply faults will not require any manual restart procedures. The battery enclosure shall have a key access hinged door in the same finish as the fire alarm control panel.
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Analogue Addressable
by Honeywell
Repeat Panels The repeater panels will be similar in style, finish and essential user controls to that of control panel, in order to maintain user awareness of all fire associated items. The display shall be a 40 character by 16 line back-lit liquid crystal display with white characters on a blue background. Upon any key press, the screen will be back-lit. (As that of the main control panel). The panel will accept the 230V AC supply @ 50Hz, and have integral battery (12V) and charger. The battery provided will be capable of maintaining a standby period of 24 hours (minimum) with a further 30 minutes, under full alarm and control load conditions. Should a full discharge of the cells take place, then the system shall b e capable of completely re-charging the cells within a 24hr period. The repeat panels shall be connected on the same 2-wire loop as the sensors and sounders. Also within the panel, terminals will be provided to allow a loop spur connection to be made as standard. All essential controls will be covered by a lockable hinged door, complete with a glass/clear perspex window to enable the display to be read at all times. Other control features available to the user via the repeater panel shall include: i) ii)
CONTROL MENU - to allow for disablements of alarm sectors, sensors and interface I/O lines. INFORMATION MENU - to provide fire, fault, warning and supervisory events.
This enables the repeat panel to be used for the day to day operation of the system. Any malfunction of the repeat panel will be displayed both locally and at the main control panel. If the system for whatever reason is not communicating with repeat panels the repeater will display “MAIN PANEL NOT ON LINE”.
Mimic Panels The mimic panel will be similar in style and finish to the control panel and be available in A4 and A2 sized formats. It will be sighted in a conspicuous and well-lit area, preferably the entrance where the fire-fighting team will arrive. The panel will be a standard unit will all site specific information being programmed “on site”, this information will be held on a EPROM integrated circuit, which may be modified at a later date to encompass any site changes. The panel will accept the 240V AC supply @ 50Hz, and have integral battery (12V) and charger. The battery provided will be capable of maintaining a standby period of 24 hours (minimum) with a further 30 minutes, under full alarm/control load conditions. Should a full discharge of the cells take place, then the system shall be capable of completely re-charging the cell within a 24hr period. The mimic panels shall be connected on the same 2-wire loop as the sensors and sounders. Also within the panel, terminals will be provided to allow a loop spur connection to be made as standard. A CAD drawing of the area covered by the system shall locate between clear perspex sheets and retained within the mimic lid, overlaying an array of hi-brightness LEDs. This provides pin-point accuracy in determining the location of a fire and the flexibility to tailor the Customers requirements. The following options will be required as standard: Optional clock display in the form. (HH:MM in A2 size only) A full range of alphanumeric characters both upper and lower case. (A2 size only) Steady or flashing illumination, being either in phase or anti-phase. First fire flashing option. 128 Zone (A2 size only) or 64 Zone display (A2 or A4 size) zonal display as standard. The Electrical Contractor shall provide a site outline diagram to allow the Fire Specialist Company to produce a CAD overlay drawing for the mimic panels.
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by Honeywell
Analogue Addressable
S-quad Analogue Sensors & Bases All analogue sensors and bases shall be provided by the manufacturer of the control system. No other make of sensors will be permissible. The sensor bases for interfacing between the loop wiring and the sensor head shall be manufactured by means of injection moulded ABS plastic coloured white and shall not contain any electronics. The base fixings should be suitable for UK industry standard BESA or conduit boxes. All bases shall include the option to provide a programmable monitored input, which can be configured as fire, non-fire, fault or supervisory signals from third party equipment for display at the control and indication panel. The programmable output shall also be configurable for sending repeat fire signals to a remote LED unit. All bases shall be provided with a plastic r emovable dust cover for protection during site construction as well as an IP rated sealing ga sket to prevent dirt and moisture from entering through from the fixing surface. The sensors provided shall be lockable into position if required and removal of locked sensors shall be achievable only through the use of the appropriate removal tools as specified by the manufacturer of the sensors. Sensor removal tools are to be handed over on completion of the contract as part of the spare parts profile. Removal of a sensor from it’s associated base shall not affect the continuity of the detection loop. The following types of analogue sensors will be available as standard: Heat sensor Heat sensor with integral sounder Dual angle Optical/Heat sensor Dual angle Optical/Heat sensor with integral sounder Dual angle Optical/Heat sensor with integral strobe Dual angle Optical/Heat sensor with integral strobe and integral speech sounder Dual angle Optical/Heat sensor with integral CO gas sensor Dual angle Optical/Heat sensor with integral CO gas sensor, integral strobe and integral speech sounder Beam sensor (transmitter and receiver) Duct sensor All of the above shall be compatible with the aforementioned base providing inter-changeability between sensor heads, without the requirement for switch settings. All sensors will also have an integral short circuit isolator, which in the event of a single cable fault will isolate the “culprit” piece of cable and retain all devices on the loop operationally in less than 1 second. Each sensor will possess an integral LED g iving a flashing indication for a fire signal or a continuous indication for certain fault indications. The integral LED should also be configurable to provide operational status, i.e. short flashes that indicate the unit is powered and communicating with the control panel. The optical/heat sensor with integral gas sensor shall include a further LED giving a flashing indication for presence of carbon monoxide (CO). For remote locations, each sensor shall be capable of connection to a remote LED unit by means of a fault monitored 2 core wire connection. Sensors will be white in colour and manufactured from ABS plastic. All electronics and associated sensing elements will be housed within this unit, these components being hermitically sealed to prevent their operation from being impaired by dust, dirt and humidity. The sensitivity off all sensors will be adjustable from the control panel. This may be carried out manually or on an automatic basis using the system clock. It shall be possible to programm e sensor sensitivity locally using a programmer unit in conjunction with a laptop PC and appropriate programming software from the manufacturer. The ranges of sensitivity shall be from State 0 (high level) right through to State 15 (total disablement). All sensors shall be provided with a plastic removable dust cover for protection during site construction. A semi-flush recessing kit for analogue sensors shall be available for each sensor type incorporating the standard sensor base.
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Analogue Addressable
by Honeywell
Heat Sensor Standards: BS/EN 54 PT5 & 8 This will be a dedicated heat only sensor, which may be configured to provide 4 different levels of fixed temperature heat as well as rate of rise and high temperature sensing. The different temperature sensing states should be fully compliant with EN54 part 5 to provide configurable grades of A1, A2, B and BS.
Heat Sensor Sounder The sensor element of the heat sensor sounder shall be as per the specification for the heat sensor, however the device shall incorporate and internal electronic sounder. The internal electronic sounder shall be an integral part of the detection device comprising of a piezo sounder output device providing the low and high frequency output. The combined sensor sounder shall provide a sound pressure level of 90dBA at 1 metre and with the option of a turbo-boost mode it should be possible to provide a sound pressure level in excess of 95dBA at 1 metre (this relies on using the flush fixing unit). The audible volume levels shall be individually selectable for each device as desired and there should also be a configurable soft start feature that gradually ramps up the volume until the desired final volume is reached, rather than switching on instantly at full set level. It shall be possible to connect a maximum of 125 combined sensor sounders to a detection loop. Sensor sounders will be capable of providing up to 10 different sound signals, which are selected/configured via the main control panel. Individual sensor sounder volume levels shall be adjustable at the main control panel or via the use of the remote programmer unit coupled with a laptop PC and appropriate programming software from the manufacturer. The frequency of sound signals emitted will be as follows: 910Hz Low Sound 970Hz High Sound In order to meet with the requirements of BS5839 Part 1. Activation of the sounder shall be independent of the detection of a fire condition by the sensing element. The device shall also incorporate and activate a self test low volume audible sequence. It shall be possible to disable this sequence at the main control panel. Each sounder will have its own microcomputer to handle loop communications, which along with all other associated electronic components will be hermetically sealed to provide protection from hostile operating environments.
Optical/heat Sensor Standards: BS/EN 54 Part 5 & 7 This device will combine two individual sensing elements to provide excellent cover for both “types” of fires. (Slow smouldering and fast free burning). OPTICAL SENSING: Will be carried out by means of an Infra-red LED transmitting a pulse of light across an obtuse angled chamber. HEAT SENSING:
Will be carried out by a thermistor, sampling the surrounding environmental temperature.
It will possess a minimum of 7 possible selecting sensing states of operation.
Optical/heat Sensor Sounder Standards: BS/EN 54 Part 5 & 7 The sensor element of the optical/heat sensor sounder shall be as per the specification for the optical/heat sensor, however the device shall incorporate an internal electronic sounder. The internal electronic sounder shall be an integral part of the detection device comprising of a piezo sounder output device providing the low and high frequency output.
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by Honeywell
Analogue Addressable
The combined sensor sounder shall provide a sound pressure level of 90dBA at 1 metre and with the option of a turbo-boost mode it should be possible to provide a sound pressure level in excess of 95dBA at 1 metre (this relies on using the flush fixing unit). The audible volume levels shall be individually selectable for each device as desired and there should also be a configurable soft start feature that gradually ramps up the volume until the desired final volume is reached, rather than switching on instantly at full set level. It shall be possible to connect a maximum of 125 combined sensor sounders to a detection loop. Sensor sounders will be capable of providing up to 10 different sound signals, which are selected/configured via the main control panel. Individual sensor sounder volume levels shall be adjustable at the main control panel or via the use of the remote programmer unit coupled with a laptop PC and appropriate programming software from the manufacturer. The frequency of sound signals emitted will be as follows: 910Hz Low Sound 970Hz High Sound In order to meet with the requirements of BS5839 Part 1. Activation of the sounder shall be independent of the detection of a fire condition by the sensing element. Each sounder will have its own microcomputer to handle loop communications, which along with all other associated electronic components will be hermetically sealed to provide protection from hostile operating environments.
Dual Angle Optical/heat Sensor Standards: BS/EN 54 Part 5 & 7 This device will combine two individual sensing elements to provide excellent cover for both “types” of fires. (Slow smouldering and fast free burning). Optical Sensing: Will be carried out by 2 infra-red LED transmitters across 2 separate optical detection angles. This sensor shall process both the reflection and light absorption properties of particles entering the detection chamber of the device, allowing the detection system to differentiate between smoke and steam particles. Heat Sensing: Will be carried out by a thermistor, sampling the surrounding environmental temperature. It will possess a minimum of 7 possible selecting sensing states of operation.
Dual Angle Optical/heat Sensor Sounder Standards: BS/EN 54 Part 5 & 7 The sensor element of the optical/heat sensor sounder shall be as per the specification for the dual ang le optical/heat sensor, however the device shall incorporate an internal electronic sounder. The internal electronic sounder shall be an integral part of the detection device comprising of a piezo sounder output device providing the low and high frequency output. The combined sensor sounder shall provide a sound pressure level of 90dBA at 1 metre with the option of a turbo-boos t mode to provide a sound pressure level of in excess of 95dBA at 1 metre. The audible volume levels shall be individually selectable for each device and there should also be a configurable soft start feature that ramps up the volume gradually rather than switching on at full level. It shall be possible to connect a maximum of 125 combined sensor sounders to a detection loop. Sensor sounders will be capable of providing up to 10 different sound signals, which are selected/configured via the main control panel. Individual sensor sounder volume levels shall be adjustable at the main control panel or via the use of the remote programmer unit coupled with a laptop PC and appropriate programming software from the manufacturer.
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Analogue Addressable The frequency of sound signals emitted will be as follows: 910Hz Low Sound 970Hz High Sound In order to meet with the requirements of BS5839 Part 1.
Activation of the sounder shall be independent of the detection of a fire condition by the sensing element. The device shall also incorporate and activate a self test low volume audible sequence. It shall be possible to disable this sequence at the main control panel. All sounder outputs shall be synchronised with all other loop powered sensor sounder devices and other loop powered audible visual units on the system. Each sounder will have its own microcomputer to handle loop communications, which along with all other associated electronic components will be hermetically sealed to provide protection from hostile operating environments.
Dual Angle Optical/heat Sensor Strobe Standards: BS/EN 54 Part 5 & 7 The sensor element of the dual angle optical/heat sensor strobe shall be as per the specification for the dual angle optical/heat sensor. The integral strobe element shall utilise a high power red LED with variable time pulsing for strobe effect. LED pulsing shall be synchronised with all other loop powered audible visual units located on the fire alarm and detection system with the option to programme changes to the pulse timings (ranging from 1 to 2 seconds). The strobe LED shall be fault monitored for working operation. It shall be possible to connect a maximum of 55 combined dual angle optical/heat sensor strobes to a detection loop. Activation of the strobe shall be independent of the detection of a fire condition by the sensing element. Each strobe will have its own microcomputer to handle loop communications, which along with all other associated electronic components will be hermetically sealed to provide protection from hostile operating environments.
Dual Angle Optical/heat Sensor Sounder Strobe With Speech Standards: BS/EN 54 Part 5 & 7 The sensor element of the dual angle optical/heat sensor sounder strobe with speech shall be as per the specification for the dual angle optical/heat sensor. The sounder element of the dual angle optical/heat sensor sounder strobe with speech shall be as per the specification for the dual angel optical/heat sensor s ounder. The integral strobe element of the dual angle optical/heat sensor sounder strobe with speech shall be as per the specification for the dual angel optical/heat sensor strobe. The speech function shall be provided by stored messages on a non-volatile flash memory component. Output from the flash memory processor shall be up to 20 seconds of speech. Additionally there shall be the capability to provide complex tones, such as bell and DIN tones. Each sensor shall include 4 standard messages within the flash memory component. As standard, the flash memory shall contain the following messages: Alert Message: (Female Voice)
“An incident has been reported in the building, please await further instructions”
Alarm Message 1: (Female Voice)
“Attention please, this is an emergency please leave the building by the nearest available exit”
Alarm Message 2: (Male Voice)
“This is a Fire Alarm! Please leave the building immediately by the
Test Message: (Female Voice)
“This is a test message, no action is required”
nearest available exit”
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by Honeywell
Analogue Addressable
In addition to the voice messages above, an 8 Inch solenoid bell recording shall be provided as a standard complex tone. All speech outputs shall be synchronised with all other loop powered sensor speech devices and other loop powered audible visual units on the system. It shall be possible to connect a maximum of 55 combined dual angle optical/heat sensor strobes with sounder speech to a detection loop.
Dual Angle Optical/heat Sensor With Co Standards: BS/EN 54 Part 5 & 7 The sensor element of the dual angle optical/heat sensor with CO shall be as per the sp ecification for the dual angle optical/heat sensor. The CO element shall be incorporated into the optical chamber to sense the presence of carbon monoxide gas em issions from smouldering fires. In normal environments the CO element shall have a life expectancy of a minimum of 5 years. This CO element shall be fault and life monitored and shall be replaceable without the need to change the whole device.
Dual Angle Optical/heat Sensor With Co Strobe And Sounder Speech Standards: BS/EN 54 Part 5 & 7 The sensor element of the dual angle optical/heat sensor with CO, strobe and sounder speech shall be as per the specification for the dual angle optical/heat sensor. The CO element of the dual angle optical/heat sensor with CO, strobe and sounder speech shall be as per the specification for the dual angle optical/heat sensor with CO. The strobe and sounder speech elements of the dual angle optical/heat sensor with CO, strobe and sounder speech shall be as per the specification for the dual angle optical/heat sensor with strobe and sounder speech. It shall be possible to connect a maximum of 55 combined dual angle optical/heat sensor with CO, strobe and sounder speech to a detection loop.
Beam Sensors BS/EN 54 part 5 Beam sensors shall not require any additional control/supply equipment as stated earlier. Beam receiver and transmitter devices must be connected on the same 2-wire circuit. The control panel shall possess the ability to adjust the gain of respective beam sensors either by setting a level through the control panel (direct) or by automatically adjusting the gain to a suitable level for ambient conditions (auto gain). The panel will also allow facilities to enable beams to be aligned by one person. This will involve the flashing of the red LED’s. It will possess a minimum of 6 possible selecting sensing states of operation.
Duct Sensors This device shall employ the aforementioned Optical/Heat sensor to provide environmental information. Probes are fitted to pick up smoke in ventilation ducts. This unit is particularly suitable for sensing smoke particles in ducting which is likely to be in large quantity and flowing fairly quickly. The states of operation will be as described for the Optical/Heat sensors.
Manual Call Points The manual initiation devices shall be electrically compatible with all of the aforementioned sensor types. Each MCP shall contain its own microprocessor giving a 1 second response time from initiation. It also handles all communication to the control panel. All electronic devices contained within the MCP shall be hermetically sealed so as to prevent damage from hostile environment conditions: i.e. dust, up to a rating of IP32. For additional protection from environmental conditions a weatherproof version of the MCP shall be available to provide a rating of IP54.
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Analogue Addressable
by Honeywell
The MCP will be available for either semi-flush or surface fixing. Semi-flush flanges shall be available in black. Frangible glass will be utilised, allowing for complete removal upon operation. All inscriptions text and marks will be screened onto the glass. The device can be tested functionally without the need to either remove the front cover and/or breaking the glass, with a special test key (supplied as standard). The key shall insert the underside of the MCP ensuring easy access of the key at all times. Upon operation of the break glass the integral LED will flash to denote operation, this being cancelled upon the operation of a reset procedure. The system must not allow a “Fire” reset to take place until a new glass has been correctly inserted. Should a “Fire” reset be operated with a MCP still being in the operated mode, the panel will inform the user of the situation, e.g. “Call Point not reset properly Please investigate and try again” These devices will comply fully with BS5839 Part 2.
Sound Signals Electronic sounders, combined sounder/strobe and standalone strobes for direct connection to the 2 core detection loop shall be electrically compatible with all initiation devices. These units shall be available in red or white and suitable for both indoor and outdoor applications with an ingress protection rating of IP31 and IP65 respectively. All sounder devices shall comply with the requirements of EN54 pt3:2001 grades A&B. The electronic sounders and combined sounder/strobe shall include an infra red receiver within the device to enable communication to a hand held remote control unit. The remote control unit shall have the ability to turn on the sounder and adjust the volume of the device from maximum to minimum range. Once the required audible level is achieved, the remote control unit can then be used to silence the sound output of the alarm device. Note: This feature can only be accessible when the control panel is in commissioning mode.
All electronic sounders, sounder/strobe and strobe only versions shall have alarm signals synchronised across all the detection loops of the fire alarm control panel. All alarm devices shall have a short circuit isolation device provided as an integral component of the device. All sounders shall have a ‘soft start’ feature controlled by the fire alarm panel, where by a low initial volume can be set and then increased at a defined rate upto a maximum volume setting.
System Sounder System sounders shall be capable of providing a minimum sound level of 103dBA ± 2 dBA @ 1 metre. The sounder shall be capable of providing 3 different sound signals, which are selected/configured via the main control panel. Configuration of sounder patterns will not be carried out locally at individual sounders. In order to meet with the requirements of BS5839 Part 1, the frequency of sound signals emitted will be as follows: 800Hz Low tone 970Hz High tone Each sounder shall include its own microprocessor to handle loop communications and monitoring of the internal sound element during an alarm condition. This shall allow faulty devices to be automatically identified during the weekly test procedure. All associated electronic components shall be hermetically sealed to provide protection from hostile oper ating environments. These devices will be available in a 2 way configuration allowing for direct connection to the detection loop. It shall be possible to connect upto 200 system sounders to each detection loop of the fire alarm control panel.
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by Honeywell
Analogue Addressable
Low Profile Sounder A low profile electronic sounder shall be capable of providing a minimum sound level of 100dBA ± 2dBA @ 1 metre. Sounders shall be capable of providing 3 different sound signals, which are selected/configured via the main control panel. Configuration of sounder patterns will not be carried out locally at individual sounders. In order to meet with the requirements of BS5839 Part 1, the frequency of sound signals emitted will be as follows: 800Hz Low tone 970Hz High tone Each sounder shall include its own microprocessor to handle loop communications and monitoring of the internal sound element during an alarm condition. This shall allow faulty devices to be automatically identified during the weekly test procedure. These devices will be available in a 2 way configuration allowing for direct connection to the detection loop. It shall be possible to connect up to 200 system sounders to each detection loop of the fire alarm control panel.
Electronic Strobe The electronic strobe shall be suitable for direct connection to the 2 core detection loop. The device shall have a matrix of high brightness LED>s providing a light output equivalent to a 3W xenon strobe. The frequency of the electronic strobe light output shall be 0.5Hz (Alert) and 1Hz (Evacuate). The electronic strobe shall have an ingress protection rating of IP65. The unit shall be manufactured from ABS plastic with a polycarbonate lens. Body and lens colour options shall be as follows: Red body / red lens White body / red lens White body / amber lens Red body / white lens Each electronic strobe shall include its own microprocessor to handle loop communications and monitoring of the internal strobe e lement for faults in both the quiescent and alarm conditions. The internal circuit assembly and all other associated electronic components shall be hermetically sealed to provide protection from hostile operating environments. These devices will be available in a 2 way configuration allowing for direct connection to the detection loop. It shall be possible to connect upto 100 electronic strobes to each detection loop of the fire alarm control panel.
Low Profile Sounder With Strobe A low profile combined electronic sounder and strobe shall be capable of providing a minimum sound level of100dBA ± 2dBA @ 1 metre. The sounder shall be capable of providing 3 different sound signals which are selected/configured via the main control panel. Configuration of sounder patterns shall not be carried out locally at individual sounders. In order to meet with the requirements of BS5839 Part 1, the frequency of sound signals emitted will be as follows: 800Hz Low tone 970Hz High tone The unit shall have its own microprocessor to handle loop communications and monitoring of the internal strobe element for faults in both the quiescent and alarm conditions. The microprocessor shall also monitor the sound producing element during an alarm condition to ensure that faulty devices can be automatically identified during the weekly test procedure. All associated electronic components shall be hermetically sealed to provide protection from hostile oper ating environments. The electronic strobe element of the unit shall form part of the sounder horn of the device and shall have a matrix of high brightness LED>s providing a light output equivalent to a 3W xenon strobe. The frequency of the electronic strobe light output shall be 0.5Hz (Alert) and 1Hz (Evacuate).
SECTION 9: page 15
by Honeywell
Analogue Addressable
The unit shall be manufactured from ABS plastic with a polycarbonate lens. Body and lens colour options shall be as follows: Red body / red lens White body / red lens White body / amber lens Red body / white lens These devices shall be available in a 2 way configuration allowing for direct connection to the detection loop. It shall be possible to connect upto 60 low profile combined electronic sounder/strobes to each detection loop of the fire alarm control panel.
Voice Enhanced Sounders The system sounder, low profile sounder and combined sounder and strobe unit described previously shall be available in a
version. The sounder unit shall incorporate a microprocessor which has up to 19 seconds of available storage space to be used for voice messages or a complex tone (for example, a bell tone in the event of alarm or supervisory condition). As standard, the microprocessor shall contain the following messages: Alert Message: (Female Voice)
“An incident has been reported in the building, please await further instructions”
Alarm Message 1: (Female Voice)
“Attention please, this is an emergency please leave the building by the nearest available exit”
Alarm Message 2: (Male Voice)
“This is a Fire Alarm! Please leave the building immediately by the
Test Message: (Female Voice)
nearest available exit”
“This is a test message, no action is required”
In addition to the voice messages above, an 8 Inch solenoid bell recording shall be provided as a standard complex tone. All the voice messages shall be synchronised across the detection loops by means of a regular synchronisation signal generated by the fire alarm control panel. It shall be possible to have bespoke site specific message and tone options recorded and installed into the system sounder, low profile sounder and combined low profile sounder/electronic strobe. With the voice enhanced sounder option, it shall be possible to mix both the standard sound signals, voice messages & complex tones. Up to 3 different sound signals, which are selected/configured via the main control panel, sha ll be employed by the fire detection system. Configuration of sounder patterns shall not be carried out locally at individual sounders. A test of the message storage device, amplifier, power supply and tone generator within the voice enhanced sounder shall be carried out by the fire alarm control panel once an hour. Should the sounder fail to produce the required tone quality of sound output, then a fault indication shall be provided at the control panel. Sounders shall be capable of being tested for the conditions described above in both the quiescent and alarm state. It shall be possible to connect upto 200 sounders or 60 sounder/strobe devices to each detection loop of the fire alarm control panel. The voice enhanced sounder option shall be available with an ingress protection rating of IP31 or IP65 and shall be available in red or white colour options. Hand Held Remote Control Unit A hand held, infra red remote control shall be available for sound level adjustment on all system sounder, low profile sounder and combined sounder/strobe devices. The unit shall comprise of an infra red transmitter with the ability to be operational from up to 3 metres from the alarm device. The unit shall only be operational with the fire alarm devices when the control and indicator panel is in the .
SECTION 9: page 16
by Honeywell
Analogue Addressable
The unit shall switch the sounders off and on and shall also adjust the volume of the devices from maximum sound output to zero. The hand held remote control unit shall be compatible with the equivalent range of conventional alarm products.
Repeat Sounder The repeat sounder shall be similar in appearance to the sensor sounder and shall fit to a standard terminal base plate. The repeat sounder shall provide a sound pressure level of 85dBa at 1 metre. It shall be possible to connect a maximum of 125 repeat sounder to a detection loop. Sounders will be capable of providing up to 3 different sound signals, which are selected/configured via the main control panel. Configuration of sounder patterns will not b e carried out locally at individual sounders. The frequency of sound signals emitted will be as follows: 910Hz Low sound 970Hz High sound In order to meet with the requirements of BS5839 Part 1. Each sounder will have its own microcomputer to handle loop communications, which along with all other associated electronic components will be hermetically sealed to provide protection from hostile operating environments.
Sounder Control Loop wired sounders may be grouped or SECTORED together to provide phased or delayed evacuation procedures. All linking of sounders and output patterns shall be easily configured within the control panel software, giving flexibility of use should any of the site criteria change at a later date.
Interface Units These devices will be directly connected to the loop, three variants will be available as standard, these being: (i) Loop powered 4 channel interface unit (ii) Loop powered 1 channel interface unit (iii) Loop powered zone module unit (iii) Mains powered 4 channel interface c/w integral power supply and battery standby These units shall be self-contained wall mountable units, similar in finish to the main control panel. (i) Loop powered 4 channel interface unit Loop powered interface units shall be capable of accepting 4 input signals, 4 output signals or any combination of either. Dependent upon the specific application, input signals may be interpreted by the system as any of the following: Fire signal input Fault signal input Supervisory signal input The exact nature of which shall be selected by means of an on-board DIL switch. For fire input applications, a selectable 30 second timer delay shall be available as standard, such as sprinkler flow switches where the water supply is not stabilised. These units will accept and or supply clean contact signals only, either normally open or normally closed (configurable). No switched voltage inputs or outputs will be accepted. When used as an output the unit shall be provided with single pole change over contacts for control of plant, door release units etc. The contacts shall be rated at A V DC. All outputs on the interface can be individually programmed. These units will not require any form of external power supply and are fully maintained under mains power failure condition by the main control panel’s standby batteries.
SECTION 9: page 17
Analogue Addressable
by Honeywell
As with other outstations previously mentioned, loop powered interface units will contain local processing in order to handle all signalling and loop communications. (ii) Loop powered 1 channel interface unit Loop powered interface devices shall be capable of accepting either 1 input signal or 1 output signal. Dependent upon the specific application, input signals may be interpreted by the system as any of the following: Fire signal input Fault signal input Supervisory signal input The exact nature of which shall be selected by means of an on-board DIL switch. For fire input applications, a selectable 30 second timer delay shall be available as standard, such as sprinkler flow switches where the water supply is not stabilised. These units will accept and or supply clean contact signals only, either normally open or normally closed (configurable). No switched voltage inputs or outputs will be accepted. These units will not require any form of external power supply and are fully maintained under mains power failure condition by the main control panel’s standby batteries. When used as an output the unit shall be provided with single pole change over contacts for control of plant, door release units etc. The contacts shall be rated at 5amps at a nominal voltage of 230 VAC / 24VDC. As with other outstations previously mentioned, loop powered interface units will contain local processing in order to handle all signalling and loop communications. (iii) Mains powered interface units These interface units will require a separate supply of 230VAC and integral 24V 2.1 Ah sealed lead acid battery pack. This unit will be capable of supporting 4 channels, which may be configured as any permutation of inputs and/or outputs. Input channels shall be capable of supporting the specified manufacturers current range of conventional detectors and manual call points, these being 24VDC operational. These circuits will be fully monitored for open and short circuit faults providing that these devices are installed correctly and terminated with the correct end of line monitoring device. Output channels will be capable of providing a 24V output in the event of an alarm. This may be used for driving conventional bells/relays. Providing these devices are installed correctly and terminated with an end of line monitoring device, the output will be fully monitored for open and short circuit faults. A total alarm load of 500mA at 24VDC will be provided from the interface unit in the event of an alarm condition being initiated. An auxiliary, 24VDC, 500mA, power supply will be available from the interface unit for the control of ancilliary ser vices. Within the enclosure provision will be made for mounting up to 4 octal base relays for remote signalling along with a suitable voltage barrier. In the event of any of the above faults occurring or a problem developing with the mains or battery supply, a suitable fault message will be displayed throughout the system, e.g. Mains Supply Lost I/F No. 5 GRND FLR Exit O/S 20 Loop 1. Confirmation that loop communications between interface units and main control panel are being carried out shall be identified by means of an on-board LED, which will illuminate upon a communications breakdown. Similarly an indication will be provided to rep resent 230VAC is being supplied to the unit.
SECTION 9: page 18
by Honeywell
Analogue Addressable
Networking Of Control Panels It shall be possible to network connect up to 31 controls as a secure network connection. The network shall be configurable so that single panels, groups of panels or all panels on the network operate the same site configured cause and effect fire plan. The network shall also be configured to allow master control from any one of the control panels on the network, config uration operating across the network shall include master sectors co-incidence detection, non fire and supervisory actions. It shall be possible to connect individual networks together via the use of domain bridges. Network to Network connection may be hard wired ,modem or fibre optic link, the maximum number of panels within a linked secure network shall be 50.
Graphics Software Package Options The monitoring system shall be available with 2 textual package options giving different levels of control: Information only: Shall allow access to the Information mode only (see below for description) Full access: Shall allow access to all the operating modes described below depending on the access rights of the curr ent user. Textual package options may be operated on their own, or in conjunction with a graphics display package.
Operating Mode And User Access Rights Information: The information mode shall be useful to security personnel and reception staff who require an indication of events. It shall be possible to view active events on the fire alarm network, the system historic log and a “tree” representation of the panels and devices connected to the system. The information mode shall not allow the user to control any aspect of the fire alarm system. If the graphics display package is chosen then a graphical representation of the location of the device(s) or zone(s) in a fire or fault condition shall be displayed on one of a set of hierarchical building plans. Operator: The operator mode shall provide information but also allow control of the fire alarm system including allowing parts of the system to be disabled. This option is likely to be of use to authorised personnel who are responsible for site evacuation and day-to-day management of the system. Engineer: The engineer mode is likely to be of use to engineers who are responsible for maintenance of the fire alarm system. As well as giving access to the functions of the Information and Operator modes, this mode shall allow device labels and auxiliary text to be modified. Administrator: Any of the users may be given administrator access rights. This shall allow these users to add and delete other users. This is likely to be of use to an authorised person who is also responsible for the fire alarm system. User access rights: Each user shall have a unique user name and password which shall be associated with an operating mode. Logging on with the correct user name and password shall give that user access to the functions associated with that operating mode.
Displaying Text & Graphics Textual and graphical information shall be integrated onto a single display that allows easy access to both types of information. It shall also be possible to display the graphical information on a number of remote display units connected via a network.
Maintaining Fire Alarm Integrity A PC-based monitoring system utilises commercial computer equipment to provide information and control of the fire alarm system. Although there is an uninterruptible power supply option, this still does not bring the system up to the rigorous standards of a fire alarm system. To ensure that the operator always has access to information and control even if the PC-based system should fail, the computers shall be sited close to a control panel or other secure display panel. The panel shall be close enough for the operator to hear the buzzer and to see the primary indicators.
SECTION 9: page 19
Analogue Addressable
by Honeywell
Display Of Events Via Text Text Package Status Bar The status bar shall continually display the status of the fire alarm system with respect to Fires, Emergencies, Faults and Disablements. The detection of these types of events shall be indicated by a colour change and a count of the number of events of each type. It shall be possible to view the details of each type of event at any time by pressing on the appropriate button. The system time & date and the user name of the currently logged-in user shall also be continuously displayed.
Fire Events Display In a fire condition, the appropr iate section of the status bar shall change colour to RED, the fire count shall increment by one and a pop-up window shall appear, providing details of the fire. A distinct audible indication shall also be given. The popup window shall display the device or zone label, the time and date of the event and up to 4 lines of 40 characters of auxiliary text. Accepting the event (by pressing the ‘Ok’ button) shall silence the audible indication and hide the pop-up window.
Emergency Events Display In an emergency condition, the appropriate section of the status bar shall change colour to MAGENTA, the emergency count shall increment by one and a pop-up window shall appear, providing details of the emergency. A distinct audible indication shall also be given. The popup window shall display the emergency description label, the time and date of the event and up to 4 lines of 40 characters of auxiliary text. Accepting the event (by pressing the ‘Ok’ button) shall silence the audible indication and hide the pop-up window.
Fault Events Display In a fault condition, the appropr iate section of the status bar shall change colour to YELLOW, the fault count shall increment by one and a pop-up window shall appear, providing details of the fault. A distinct audible indication shall also be given. The popup window shall display the device or zone label, the type of fault, the time and date of the event and up to 4 lines of 40 characters of auxiliary text. Accepting the event (by pressing the ‘Ok’ button) shall silence the audible indication and hide the pop-up window.
Disablements Events Display In a disablement condition, the appropriate section of the status bar shall change colour to YELLOW, the disablement count shall increment by one and a pop-up window shall appear, providing details of the disablement. After a short time the pop-up window shall be automatically hidden.
Display Of Events Graphically Building Graphics Graphics shall provide a diagrammatic representation of the buildings or group of buildings being protected through a set of pages, normally arranged in a hierarchy. If a fire or fault (or optional an emergency) event occurs the system shall automatically zoom-in to the appropriate page and identify the exact location of the device or zone. The user shall then be able to navigate through the page hierarchy by pressing buttons or ‘hot-spots’ provided on the page.
Control Functions Selection Methods The software shall be designed so that all of the functionality is accessible using a mouse & keyboard and / or a touch screen display.
SECTION 9: page 20
by Honeywell
Analogue Addressable
Alarm Controls The following alarm controls shall be provided and shall operate on all control panels on the network: Sound Alarms Silence Alarms Reset Cancel Buzzer
User Actions Buttons Up to 62 user action buttons shall be provided. The function of these shall be programmable and each shall be capable of displaying a label describing its function.
System View It shall be possible to view all of the control panels and devices connected to the system on a “tree” representation (an expandable hierarchy of icons). It shall be possible to select devices in the tree by pressing on their icon. Once a device is selected it shall be possible to perform the following functions: Disable or enable the device Modify the device’s label Modify the auxiliary text associated with the device
Connecting The Computer System It shall be possible to connect the PC to a single control panel, a network of control panels, or multiple separate networks of control panels via serial links. The PC shall connect to a secure point on the fire alarm network which receives and displays all information passed around the network. A variety of possible connection methods shall be provided to a llow for flexibility in design and to extend the distance between the PC and the secure point where necessary. These shall include: RS232 The standard link between the PC and the fire alarm network shall be RS232. This shall allow a cable length of up to 15 metres between the PC and the point of connection to the fire alarm network.
Modem Link Over leased telephone line to BT standard EPS21. The limit on the distance that data can be transmitted will depend on the telephone company being able to provide the standard.
Rs485/rs422 Link A RS232 to RS485/RS422 converter unit shall enable a cable length of up to 1200 metres between the PC and the point of connection to the fire alarm network. This unit shall provide electrical isolation between the input and output.
Optical Fibre Link A RS232 to Optical Fibre converter unit shall the PC to be connected to fire alarm network over standard communications grade optical fibre. The distance attainable shall depend on the characteristics of the fibre and converter used.
PC Hardware The PC utilised shall have the following specification as a minimum: Processor: 200Mhz Intel Pentium II Processor or better Memory: at least 64 Mb RAM, 1 Gb hard disk Floppy disk: 3.5» 1.44 Mb
SECTION 9: page 21
Analogue Addressable
by Honeywell
CD ROM drive: min. 4 x speed Ports: 2 serial, 2 parallel Video: SVGA 1280 x 1024 graphics Monitor: 17» monitor with max. 0.28mm dot pitch capable of 1280 x 1024 Pointer: separate PS/2 or Bus mouse (NOT a serial mouse) Sound system: SoundBlaster 16 compatible sound card with speakers Real time clock Operating system: Windows NT 4 Workstation Software with service pack 4 On the Windows NT Approved Platform list
Power Supply 70 minutes standby UPS Netpro 1500
9
SECTION 9: page 22
Notes
SECTION 10: page 1
Section 10:
by Honeywell
WINMAG Graphics Management System
Contents • What is WINMAG? • WINMAG Text and Graphics • WINMAG Text Only • Scenarios 1 • Scenarios 2 • Scenarios 3 • Additional and Technical Information
SECTION 10: page 3
by Honeywell
What is WINMAG?
WINMAG PC-based management system interfaces seamlessly with Vigilon allowing full display and management of both small and large networked systems, reporting fault and alarm signals as well as managing the routine activities from a central point.
How does WINMAG fit with Vigilon? WINMAG connects to a Vigilon network via serial or USB port of the Vigilon panel or network node. The Vigilon driver in WINMAG enables all events to be displayed, and allows all functions that may be performed at the control panel to be completed at the central PC.
WINMAG Functionality WINMAG carries out the following basic functions: Emergency response to Fire Alarms Management of the system in fault and during planned maintenance User security is managed by user groups each with clearly defined access routes Information Operator Engineer WINMAG is ideally suited for large or small systems where management is needed via a PC user interface either centrally or locally, e.g. hospitals, schools, airports, shopping malls etc.
MCP S-Quad Sensor Sounder
Repeat Panel MCP
T-breaker
Max Loop Length 1000m
Alarm Sounder
Sprinkler
Interface Units
Door Release or Plant Shutdown S-Quad Sensor Sounder
Beam Transmitter
Beam Receiver Loop 1
S-Quad Sounder Strobe WINMAG
Manned Centre Link to Fire Station
Loop 2 Loop 3 Loop 4
Secure Fibre Network
Secure Copper Network
Node
Node
Node
Secure Loop 2 Fibre Optic Loop 3 Loop 4 Domain (Max 200 panels/ nodes per system)
ACU
Loop 1 Loop 6
4 or 6 loop, 24 or 72 hour standby Loop 1
S-Quad Sensor
MCP DAU
Up to 200 Devices per Loop
A3 Mimic Panel MCP
S-Quad Sensor/ Speech Strobe
SECTION 10: page 4
by Honeywell
WINMAG Graphics and Text
WINMAG Graphics and Text provides a graphical view of an entire system, enabling the easy location of a fire in an emergency and leading to swift decision-making through event-based control of devices.
Active icons manage all eventualities during routine activities and maintenance
Status of devices can be shown at a glance
Allows control of devices from individual device icons
Field device management
Full status info
Enable devices
Disable devices
Change sensor state
Find outstation for device verification
Control Panels
Status and control
Local and global reset
Features and benefits Easy to set up
Graphics are easy to generate
Easy to update
Multiple graphics Allows easy navigation and rapid location of emergency
Individual devices may be placed on more than one graphic to aid this Easy to use Thumbnail Zoom Simple to navigate whole system
Select Device to disable
Confirm selected device Active icon allows direct control
Quick navigation from graphic to graphic Active icon shows status
Device Management
Locate emergency on different scale views
Alarm management workflow as with WINMAG Text
In a fire emergency, WINMAG gives information graphically with supporting text information to ensure a .swift response
WINMAG Graphics and Text – Identify Devices The WINMAG Graphics and Text option can be used to identify graphics for certain devices
SECTION 10: page 5
by Honeywell
WINMAG Text Only
WINMAG Text Only allows for the management of an entire system; all system events – emergency and routine – are displayed.
Displays device status (fault, disablement, sub-fault)
Manages routine activities such as testing, routine disablement, management of sensitivity states, planning the maintenance schedule
Analysis of system events and options for false alarm analysis
Text Only provides all the functionality of Graphics
System is represented in a chart layout
System has many navigation aids to achieve rapid navigation to devices in Alarm or needing attention
Text only WINMAG allows the system to be managed in chart view. The whole of the system is displayed, showing all elements, from actual devices to configuration objects such as zones and sectors. Each object displays the appropriate status and allows control, subject to appropriate access rights. The example shown is the control possibilities for a Vigilon panel.
Event Status overview Icon Controls
Device Status and Control
System Tree at a glance
Alarm stack
SECTION 10: page 6
by Honeywell
WINMAG Text Only In WINMAG chart view there are filter options to allow easy navigation to devices for management. Example shows searching for “zone”. Only zones are displayed when search is active.
All events have a standard window with full device information. Additional information can be added to guide the user to take the correct actions.
SECTION 10: page 7
by Honeywell
Scenario 1 Fire / Emergency WINMAG displays a fire in graphics and text simultaneously. The graphic display shows the operator the exact location of the fire at a glance. Multiple views aid navigation, especially on large campus sites. The Text information gives exact detail of the device in alarm and provides additional information to allow a quick and effective response. WINMAG provides work flow that the user must follow to ensure a consistent management of the system in an emergency.
2
1
4
3
SECTION 10: page 8
by Honeywell
Scenario 2
Management of Faults and Disablement A faulty device or panel will be displayed simultaneously on graphics and as text. This allows easy location of a problem and the text can give instructions as to the appropriate response.
SECTION 10: page 9
by Honeywell
Scenario 3 Historic Log / Event Analysis Filtered events are listed and can be printed in custom reports. If required, a screen print of the alarm window can be retrieved and displayed, showing the exact details that were shown at the time of any emergency.
2
1
4
3
10
5
SECTION 10: page 10
by Honeywell
Additional and Technical Information
Advanced Options WINMAG may be used to integrate the fire system with other building security systems such as security and CCTV requirements. Operating as a high-end convergence point for signals from intruder, fire and access control monitoring as well as video surveillance, WINMAG displays highly informative data n a number of operator-friendly ways. For advanced applications contact your Gent representative who will work with you to identify a solution to meet your needs.
Technical Information WINMAG license options – Standard:
Basic (includes Fire) Text only Expansion to WINMAG Graphics by Gent Systems Integrator
WINMAG license options – Extended:
Multi-station license (single connection, multi-station client) Remote connection (web access via MS Explorer) Notification (SMS, E-mail, Pager)
WINMAG software – minimum hardware specification:
Pentium IV 3 Ghz 512 MB memory (1024 MB preferred) 1 GB free hard disk space Operating system – Windows XP Professional, Windows 2003 Server or Windows Vista Ultimate RS232 serial ports 17 inch monitor Network adaptor for multi-station configurations