39164463 Central Battery System Cooper Ltd

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Central Battery Systems



1

Central battery system based emergency lighting is idealfor larger projects. There are many reasons for this, the

main ones being:

Simplified maintenance

Self contained emergency luminaires each incorporate

individual rechargeable batteries. The combination of

raised ambient temperature within typical luminaires and

continuous charging under mains healthy conditions

results in a normal battery life of around 4 years. At the

end of the battery life, each individual battery must be

replaced, this is a time consuming and disruptive process

often requiring the mains fittings to be dismantled to gainaccess to the battery.

With a Central battery system the battery is housed in a

secure cabinet in a suitable, easy to access location such as

a plant room. The batteries in a central battery system will

typically have a 10 year design life, and when replacement

is required they can be easily and quickly replaced.

On large systems with hundreds of emergency luminaires,

Central battery systems potentially offer massive savings in

maintenance cost and disruption.

Why central battery systems?

Integrated Emergency lighting

Static inverter type central battery systems are able to

power suitable unmodified mains luminaires at full power

during both mains healthy and mains failed conditions.

On projects with large open areas, particularly those with

high mounting heights, the use of mains fittings operating

at full output in emergency mode can greatly reduce the

number of emergency luminaires required. The use of

suitable standard unmodified mains luminaires also hasaesthetic advantages in many applications.



System features

Modular inverterdesignIndividual inverter modules

can easily be removed for

maintenance or to reduce

weight during installation

(2.5KVA and above)

Integral plinthFor ease of positioning

Note: Compact units (AC500...) differ slightly from above, contact technical sales for full details (Tel: 01302 303221)

Comprehensive indicationdisplayShows current system status at

a glance

Temperature compensationwith digital displayAutomatically adjusts charger

voltage to optimise performance

and life in response to ambient

temperature.

2



3

This can considerably reduce the overall installed cost ofthe system by reducing the amount of distribution wiring.

Distributed systems can also increase system integrity by

limiting the area affected by failure of an individual unit.

The compact 500VA static inverter system is ideal for use

as part of a distributed system, having a small footprint

and a lift off front cover, ideal for use in areas where access

space is limited.

Centralised or distributed systems

Cooper Lighting and Security manufactures a wide rangeof Central battery systems. Standard products include

static inverter systems with ratings from 500VA to 30KVA.

Smaller systems are ideal for providing emergency lighting

in small localised areas, e.g. Atriums where traditional

emergency lighting is not appropriate, alternatively

multiple small systems can be utilised, located at

convenient points throughout the building.

Distributed systems can save on overall wiring



4

To complement the range of Central systems, a wideselection of slave luminaires and conversion modules is

also available, which have been specifically designed to

ensure compatibility with Cooper Lighting and Security

central systems. Alternatively ACM1 modules can be used

to enable suitable normal unmodified mains luminaires to

be utilised for both normal and emergency lighting

operation.

ACM1 modules can either be mounted inside the

designated luminaire, or housed in a remote enclosure.

When housed in a remote enclosure, the ACM1 can either

be used to control an individual luminaire or a series of

luminaires, that all share a common switched live under

normal mains healthy conditions.

The operation of the ACM1 module is described opposite.

Cooper Lighting and Security offer dedicated slave

luminaires, that have been purpose designed to operate

with static inverter systems, they have a light output and

distribution that has been optimised to provide typical

emergency lighting design values.

The use of these efficient low power luminaires can

significantly reduce the physical size, output rating and

cost of the static inverter system compared to the use ofadapted normal mains luminaires. ACM1 units can also be

used to control dedicated slave luminaires if either local

switching (see above) or non maintained operation is

required.

For non maintained slave operation, the ACM1 can be used

to “hold off” the supply to the dedicated emergency

luminaires until a mains failure occurs.

This is achieved by simply not adding a switched live

connection to the ACM1.

Choice of emergency luminaires

Mains onlyLuminaires

CombinedMains/EmegencyLuminaire

Local SwitchedSupply

ACM1




ACM1




ACM1




ACM1

Normal mains healthy condition

Failure of normal lighting final circuit

Total mains failure

OR

KEY- LIVE- DEAD



5

Legislation demands that emergency lighting systemsare regularly tested and maintained in full working order.

The Easicheck Addressable testing systems can greatly

simplify the testing and maintenance regime, by

automatically carrying out complete automatic testing of

the entire emergency lighting system and raising an alarm

when remedial work is required.

Easicheck removes the need for expensive, time consuming

manual testing of emergency lighting systems, and ensures

that a thorough, consistent test regime is implemented.

As well as carrying out regular testing of all connected

emergency luminaires, the Easicheck system continually

monitors the status of the central battery units to ensure

that key parameters such as battery voltage and charge

current are at the correct level.

The Easicheck system consists of a control panel (or series

of control panels on large projects) and an addressable

interface added to each emergency luminaire and control

device. An individual Easicheck panel can monitor and

control up to 250 addressable interfaces, each of which

could be either a luminaire, a control device or Central

battery system.

Where ACM1 modules are utilised to allow standard mainsfittings to also operate as emergency luminaires, special

addressable versions are available which have the same

functionality as normal ACM1 modules, but in addition

can be controlled by Easicheck for automatic testing

purposes. An additional interface is fitted to each central

battery unit to allow Easicheck to monitor critical

parameters and to activate discharge testing as required.

Control panels can operate on a stand alone basis or can

be networked together to form a single integrated system.

In addition, software and hardware packages are available

to allow Easicheck systems to connect to a computer to

provide either a text based or graphical user interface for

ease of monitoring on large sites.

The diagram below represents a typical wiring

arrangement for a networked Easicheck system connected

to a Central battery system. A comprehensive installation

planning guide is available on request to assist with the

detailed planning of an Easicheck installation.

Addressable testing

Data cable

Supply to emergency fitting

Network Cable

Optional PCInterface



6



7

Static inverter detailed technical specification

The system includes all necessary features to comply with the requirements of BS EN50171: 2001 for Central System Supplies.Inverters are able to start the full load of a previously un-powered system, within the response time of EN1838 in mains

failure mode.

Charger and Controls

Mains Supply: 230 ± 10% VAC 1 phase 50hz

Input Control: MCB to BS3871 Pt. 1, or BS4752 Part 1

Fusegear: HRC type to BS88

Terminals: DIN rail mounted near to cable entry

Transformer: Double wound with earth screen to BS171

Rectifier: Full wave controlled thyristor/diode bridge

Display Panel: Comprehensive LED and LCD display (see below for details)

Contactor: Standard contactors comply with the requirements of EN 60947-4-1

Charger:Constant voltage, current-limited type with electronic solid-state controller. Voltage is controlled towithin 2% of setting at up to 10% mains supply variations.

TemperatureCompensation:

Fitted as standard on all units with lead acid cells. The charger voltage is automatically adjustedwith reference to ambient temperature to optimise charging and battery life.

Boost Control: Manual boost/commissioning push button is fitted to units with vented batteries.

Test Push-button: Simulates mains failure

InverterOutput voltage:

Pre-settable in the range 220-240VAC. Unless otherwise advised, the output will be set at 230VAC.The voltage tolerance is 2% on loads of 0-100% of system rating.

Frequency: 50 or 60hz. ± 0.01%. Standard setting 50hz

Waveform: Sinusoidal

Voltage Regulation: Static 2%, dynamic 6%

Isolation: 1.5kv rms between input and output terminals

Total HarmonicDistortion:

Less than 3% into a linear load

Power Factor: Will supply loads in the 0.3 lag - 0.3 lead range (0.7 lag - 0.7 lead for AC500 units)

Overload: 200% for 10 seconds, 125% for 20 minutes without reduction in output voltage

Start-up Time: Standard 30mS

Noise Level: Less than 55dBA at 1 metre

Efficiency: 85-89%

Protection:

DC input and AC output MCBsDC input reverse polarity protectionShort circuit protectionReverse-fed mains proof

Low voltage shutdown:

The inverter automatically shuts down when the battery discharges to a pre-set level. Re-set isfollowing a combination of the restoration of the mains supply and an increase in battery voltageabove the disconnect threshold level. Residual current drain when the disconnect circuit hasoperated is less than 1mA per module

Technology: Pulse width modulation with high frequency switching



8

Display Indication

Power OnIndicates that mains power is supplied to the charger, and to all connected sub-circuit monitors(LK1), and that no “brown-out” has occurred.

Maintained lightsIndicating that mains power is supplied to the Maintained circuit, and that any switchingconnected to LK2 is closed

Float mode*Indicating that the charger is working in the constant voltage mode (and hence the charge currentis low or falling). Unless the Boost Mode indicator is also lit (see below) this indicates that thebattery voltage is at the preset float voltage

Current limit* Indicating that the charger is in constant current mode (and hence the battery voltage is rising).

Full charge*Indicating that the charger is in constant voltage mode (at float voltage unless the boost indicatoris also illuminated), and that the current has dropped to a low level (generally below 10-20% ofcurrent limit)

Boost mode*

(Not applicable to Valve Regulated Lead Acid types of batteries) - Indicating that the unit ischarging towards a target voltage about 20% higher than the preset float voltage. Depending onoptions selected at the design stage, this can be initiated automatically or manually. If automatic,it shall start and finish on preset voltage thresholds. If initiated manually, it shall be terminatedeither manually or by a timer. Manual operation shall be by means of two push buttons on theinternal PCB.

Mains fail*Indicating that mains power has failed (or dropped below the “brown-out threshold”) either tothe unit or to one of the sub-circuit monitors connected to it. The charger will then not beoperating, and the output will be supplied from the battery

Charge fail Indicates that battery voltage and charge current are both low.

Battery high voltsIndicating that the battery voltage has risen above a preset threshold, normally 5% above floatvoltage

Battery low voltsIndicates that the battery voltage has dropped below a preset threshold, normally 5% below floatvoltage

Earth fault*Indicating some leakage to earth (resistance approximately 5kohms or less) on any circuitconnected to the battery positive or negative.

Deep discharge

protection

Indicating that the deep discharge protection circuit has operated, cutting off the output to avoiddamage to the battery. It shall remain illuminated until mains power has been restored AND the

condition has been acknowledged by pressing the Deep Discharge Protection Reset button

Inverter running Indicates that the inverter is providing an output of nominally 230VAC

Display current Changes the digital meter display from battery voltage to battery current

Display Temp* Changes the digital meter display from battery voltage to battery temperature

Mute buzzer An internal buzzer sounds when any alarm condition occurs, which can be silenced with this button

LCD DisplayDisplays Battery voltage by default, will display charge/discharge current or ambient temperatureif above buttons are operated

* Not fitted on compact static inverter units (AC500...) See page 10 for details.



9

Use the following procedure to select a correctly sizedstatic inverter:

1) Make a list of all the luminaires to be connected to the

static inverter.

2) Note the quantity of fittings of each type.

3) Establish the electrical supply details for each luminaire

type (the circuit watts and the circuit VA).

4) Multiply each of these by the quantity of luminaires

5) Add together the total Circuit wattage requirement

and the total circuit VA requirement.

6) Add an allowance (recommend a minimum of 20%)

for future expansion.

7) Select an inverter unit from the list opposite which is

capable of supplying both the required VA rating and

the required wattage rating.

Notes

1) Make sure you use the circuit watts of the fitting not

the lamp watts (with a switch start fitting, there can be

as much as 40% difference between the lamp wattage

and the actual circuit wattage of the fitting)

2) The circuit wattage of a HF fitting will be normally be

substantially lower than that of an equivalent switch

start fitting. If HF fittings are used instead of switch

start fittings, the resulting inverter is likely to besignificantly cheaper and smaller.

3) Fittings with a low Power factor have a much highercircuit VA than fittings with a high power factor.

Using low power factor fittings on a static inverter will

increase the size and cost of the static inverter unit.

4) Ensure any fitting selected for use as an emergency

fitting complies with the product standard for

emergency fittings (EN60598-2-22) note, that to

comply with this standard glow starters, or lamps

with built in starters must not be used, (use electronic

starters instead).

Worked examples

In the following examples the same fitting types have beenused in both cases, however in the first example, switch

start gear has been used as the basis for calculation, the

second example, is based on HF gear. These examples

illustrate how the use of HF gear results in a smaller and

cheaper static inverter unit.

Calculate the correct sized static inverter to support the

following load:

55 x 58W battens

21 x Twin 58W Weatherproof fittings

20 x 8W Exit signs

Selecting the correct sized unit

Qty Type Circuit VA (ea) Circuit VA (Tot) Circuit Watts (Ea) Circuit Watts (Tot)

55 1 x 58W Switch start batten 79.3 4361.5 69 3795

21 2 x 58W Switch start weatherproof 158.6 3330.6 138 2898

20 8W Exit sign (HF) 11 220 9 180

Total connected load 7912.10 6873

Plus 20% spare 9494.52 8247.60


55 58W High frequency batten 56.1 3085.5 55 3025

21 2 x 58W High frequency weatherproof 112.2 2356.2 110 2310

20 8W Exit sign (HF) 11 220 9 180


Plus 20% spare 6794.04 6618

Example 1 (Switch start gear)

Example 2 (HF gear)



10

Having calculated the required system size, select a unit from the list below which has sufficient capacity to support therequired load (including the spare capacity), note bolts and VA wattage must be checked.

Cooper Lighting and Security offers a wide range of static inverter systems, with ratings from 500VA to 30KVA. The list below

shows a number of popular sized units are available on short delivery lead times. For requirements outside this range, please

contact out central battery systems technical sales department, who will be pleased to provide further details.

Head Office

Cooper Lighting and Security Ltd, Wheatley Hall Road, Doncaster, South Yorkshire, DN2 4NB

Sales General Major Projects London Export

T: +44 (0)1302 303303 +44 (0)1302 321541 +44 (0)1992 787999 +44 (0)1302 303250F: +44 (0)1302 367155 +44 (0)1302 303220 +44 (0)1992 787222 +44 (0)1302 303251E: [email protected] [email protected] [email protected] [email protected] CC1285/03_07/10K www.cooper-ls.com

* contains Easicheck interface

Part Number Easicheck compatible Max output VA Max output Watts Standby hrs

1AC500VAM3 No 500 400 3

1AC500VAM3EC Yes 500 400 3

1ACSLX12503AP No 1250 1065 3

1ACSLX25003AP No 2500 2000 3

1ACSLX37503AP No 3750 3200 3

SK-AC4KVA-SLR3 No 4000 3400 3

SK-JAC4KVA-SLR3* Yes 4000 3400 3



SK-AC7-5KVA-SLR3 No 7500 6375 3

SK-JAC7-5KVA-SLR3* Yes 7500 6375 3



SK-AC10KVA-SLR3 No 10000 8500 3


Contact technical sales for details of cubicle dimensions (Tel: 01302 303221)



www.cooper-ls.com

CC1285/03_07 /10K



1

F o r e w

o r d

FOREWORD

Cooper IndustriesCooper Industries was originally formed in 1833 as a foundrybusiness in Ohio, USA. It has since grown to become a$5.2 billion turnover global business, manufacturing primarilyelectrical products.

Headquartered in Houston, Cooper employs 31,000 peopleand has sales and manufacturing facilities in over 100locations around the world.

Cooper is active in several areas of electrical manufacturingincluding fuses, petrochemical switchgear and lighting, mainslighting, emergency lighting, fire detection, security systems,electrical enclosures, power tools and medium voltage powerdistribution systems. Well known brands include CEAG,

Crouse-Hinds, Bussmann, Weller, Scantronic and Menvier notto mention the Cooper brand itself.

In 1997, Cooper acquired Menvier followed by the acquisitionof JSB in 1999. Not only were they highly respectedcompanies with excellent brands but it also gave CooperNo. 1 position in both the UK and Europe in emergencylighting and a substantial position in fire detection equipment.Late in 1999, Cooper then acquired Crompton Lighting,a business originally formed in 1876 holding No. 2 position inthe UK.

Cooper Lighting & Safety Ltd

In 2000, Crompton, Menvier and JSB were merged into a new

company - Cooper Lighting and Security - a financially stable,profitable, cash generative and expanding business, turningover £90 million per annum and employing over 900 people.In the last eight years, the business has changed substantially.Following a massive investment program in people, facilities,manufacturing and distribution infrastructure, Cooper Lightingand Security is the strongest and fittest business in its marketplace. In 2008 the Company changed its name to CooperLighting and Safety.

Additionally, 2007 saw the launch of the Axent range ofarchitectural lighting. Incorporating the latest technology,materials and optical designs, Axent products provide boththe lighting designer and the end user with a variety ofinnovative lighting solutions. Details of the Axent range can

be found in the Axent book - contact us if you would like torequest a copy.

Core valuesOur core values and aims are:• Investment in people• To partner with our customers to develop open, long term

relationships• To have an unpretentious, straightforward and honest

approach to business• The continued investment in research and development• Investment in manufacturing facilities to ensure they remain

world class• To produce products which are in full compliance with

standards• To operate in an environmentally friendly way - in the

products we design and the facilities in which we makethem

• To have high ethical standards

Over the last eight years we have welcomed a large number ofhighly talented people to our company.

We believe that our people are the heart of Cooper Lightingand that we have the talent, the infrastructure and the will toserve our customers to the highest standard. We would like tothank our many loyal customers for their support over theyears and we welcome new customers and look forward tomutually beneficial long-term relationships.



2

C e n t r a l B a t t e r y S y s t e m s

Emirates Stadium

Central Battery Systems



3


CONTENTS

Introduction 5

System Design 6

System Planning 18

Sizing AC/DC Units 19

Luminaire Technical Data 20

Sizing Static Inverters 22

Electrical Data 23

Loadstar AC/DC Systems 25

Economy AC/DC Systems 32

Loadstar AC/AC Systems 35

Compact AC/AC Systems 42

Switch Tripping Units 46

Ceaguard CG2000PG 48

Ceaguard CG48 54

Slave Technical Data 58

Briteway 60Briteway Recessed 61

Vistral 62

Fairlite 64

Slimlite 66

Eurolite 67

Micropoint 68

Sintralite 69

Atlantic 71

DRG 72

Weatherlite 73

Alfalux 74

Alfalux Highbay 75

AG Bulkhead 76

New Safe 8 77

Zeta II 78

Britesign 79

Brite Edge 82

Briteblade 83

Evoled 85

Safe Edge 86

Recessed Safe Edge 88

Royalux 90

Manhattan 91

Waylite 800 92

New Safe Ex 93

ZED 94

Exit SE 95

Legendlite 96

TFL 97

ACM1 98

SMCB 100

Emergency Design Guide 103

Emergency Spacing Tables 116

Glossary of Terms 122

Contact Details 124



4


National Space Centre, Leicester

Loadstar Static Inverter System



5


CENTRAL BATTERY SYSTEMS

Central battery system based emergency lighting is ideal for

medium to large installations. For projects where central control

and testing is desirable, a central battery system is a viable and

cost effective alternative to self-contained emergency lighting

products.

The main advantages of central battery systems over self-

contained systems are:

• Testing and maintenance is much easier to carry out

• Battery replacement is much quicker and less disruptive

• Battery life is generally 10 years or more

• Luminaires can be centrally controlled

• High light levels can easily be achieved

• The emergency lighting system can be completely unobtrusive

Cooper Lighting and Safety manufactures a wide range of central

battery emergency lighting systems. Standard products include

AC/AC static inverter systems, with the addition of a new compact,competitively priced unit for smaller installations. A comprehensive

range of traditional AC/DC systems are also available, including an

economy range designed for use in small premises. Bespoke systems

to suit the exact requirements of the specifier are also available.

To complement the range of central battery systems, Cooper Lighting

and Safety also offers a wide selection of Menvier and JSB slave

luminaires and conversion modules for mains fluorescent luminaires.

EasiCheck automatic self-testing can be readily incorporated into

central systems.

The CeaGuard family offers a selection of compact central systems

for small and large installations, operating specially converted slave

luminaires. All test signalling and reporting for CeaGuard systems is

carried down the power cable.

The following pages provide a guide to system design and standards,

in addition to the comprehensive range of central system products

available from Cooper Lighting and Safety

• System Design (See page 6)

• Loadstar AC/DC Systems (See page 23)

• Economy AC/DC Systems (See page 30)

• Loadstar Static Inverter AC/AC Systems (See page 35)

• Compact Static Inverter AC/AC (See page 44)

• Switchgear Tripping Battery Chargers (See page 46)

• CeaGuard Automatic Testing Central Systems (See page 48)

• Slave Luminaire Technical Data (See page 20)



6


SYSTEM DESIGN

Fig. 1

Light output of different types of luminaire (nominal lamp lumens

based on standard 8 Watt fitting)

2 CellSelf-contained

80

3 CellSelf-contained

180

AC/DCSlave

221

Static InverterAC/AC Slave

272

0

100

200

300

LIGHTING DESIGN CONSIDERATIONS

Current legislation and design increases the attraction of using centralbattery systems to provide emergency lighting in a building. In

particular, an increase in the use of static inverter systems,which provide an alternative source of power to normal mainsluminaires. These considerations can be summarised as follows:

1. BS 5266 part 7 (EN 1838) specifies increased emergency lightlevels than previous standards

2. Slave luminaires, operating from AC/DC and AC/AC centralsystems, offer a higher light output and improved spacingcharacteristics over comparable self-contained versions of thesame luminaire

3. Compact fluorescent lamps make ideal slave luminaires, offeringhigh efficiency and appropriate light output for areas with lowceilings

4. There is an increasing requirement from architects and users tomake emergency lighting as unobtrusive as possible, so utilisationof the normal mains luminaires is an ideal solution

Through the use of dedicated slave luminaires and conversion modulesfor mains fluorescent luminaires, these considerations can be cateredfor by both AC/DC and AC/AC central systems. An illustration of theincreased output that can be expected from 8W slave luminairescompared to self-contained versions is shown in figure 1.

CENTRAL BATTERY SYSTEM DESIGN

When it has been decided that a central battery system is the mostsuitable system of emergency lighting for a particular site, the designer

needs to give consideration to the following:

• Lighting design• Type of system• System control & mode of operation• Battery type• System siz ing• Battery room ventilation

This section of the catalogue provides a guide to how to choose themost suitable type of central battery system and then how to ensure itwill meet the installation requirements.Technical assistance is available to help you with selecting and

designing a system correctly. Contact the Cooper Lighting and SafetyCentral Systems Technical Sales department,Tel: 01302 303240 or E-mail: [email protected]

When performing photometric calculations for converted mainsluminaires with static inverter systems, the full design lumen output ofthe luminaire must be taken into account, as the lamps are powered byconventional ballasts. It is important to ensure that the use of suchhigh output luminaires in low ceiling areas does not exceed theuniformity factor limitations. The utilisation factor should be taken atzero reflectance in line with BS 5266 Pts. 1 and 7 1999. Typical

spacing data is provided at the rear of this catalogue, to assist in thecalculation of spacing.



7


NOTES

1. Conversion modules are designed to be incorporated into aconventional mains luminaire. During normal conditions theluminaire operates at full brightness (using the normal switchedmains supply and conventional control gear). In emergencyconditions the luminaire continues to operate at reducedbrightness (with the emergency lamp being powered from theconversion module instead of the conventional control gear).Conversion modules are ideal for use with mains luminaireswhich have louvres with a sharp cut off angle, or for projectswhere the mains luminaires have multiple tubes, but only onetube is required to be illuminated during emergency conditions.

2. Static inverters provide mains voltage output during bothnormal and emergency conditions. They are designed to runconventional mains fittings at full brightness even in emergencyconditions. Static inverters are ideal for projects with largeopen areas, or hazardous areas requiring higher than normal

emergency lighting levels, or for powering compact fluorescentluminaires where there is often insufficient space within thefitting to accommodate a conversion module.

3. Static inverter systems operate the emergency luminaires at fullbrightness throughout the emergency autonomy period, whichusually results in significantly improved luminaire spacing formains slave luminaires compared with an equivalent low voltage

AC/DC unit. In addition, the combination of higher supply voltageand the resultant reduced input current reduces installation costsby allowing the use of smaller distribution cables than would berequired with a lower voltage AC/DC system.

Please note - BS EN 60598-2-22 prohibits the use of glow starters influorescent luminaires used for emergency lighting.

SYSTEM DESIGN

Do you want dedicatedemergency luminaires or

do you require the emergencylighting to be integrated

within the normal lighting?

Use a non-maintainedbattery unit or maintainedbattery unit with hold off

relays or static inverter withsub-circuit monitors

Do you want the emergencylighting to be illuminated

whilst the mains is healthy?eg. maintained emergencylighting, security lighting

or nightlighting applications?

Either use a maintainedbattery unit with conversion

modules (see note 1)or static inverterunit (see note 2)

Use dedicated slaveluminaires powered from

either a maintained batteryunit or static inverter unit

(see note 3)

Use a maintained unit orstatic inverter unit

(see note 3) with hold off relays to control the

non-maintained luminaires

All of thelighting

Noneof thelighting

Some

of thelighting

Dedicated

Integrated

TYPE OF SYSTEM

There are numerous different combinations of central battery system type and the correct choice depends as much on customer preference as ondesign criteria. The selection chart below gives some general guidance. Should you wish to discuss a proposed system type for a particular application,

our technical department is available to provide assistance. Contact the Central System Technical Sales department, Tel: 01302 303240 orE-mail: [email protected].



8


SYSTEM CONTROL & MODE OF OPERATION

It is a requirement of any correctly designed emergency lighting system that the emergency lighting is activated both in the event of complete mainsfailure, and also in the event of a local mains failure. The emergency lighting system can have luminaires that are maintained or non-maintained.

Similarly, the central battery unit can also be maintained or non-maintained operation. The following diagrams explain how activation of the emergencylighting is achieved, using the main types of central battery systems.

Central systems with dedicated slave luminaires

a) Non-maintained central battery unit with sub-circuit monitors.

With this method, relays are used to monitor the normal lightingsupplies. The contacts of these relays are wired in a series loopsuch that in the event of failure of any of the normal lightingsupplies, the loop is broken, sending a signal to the centralbattery unit to activate all of the emergency luminaires.Details of purpose-made remote sub-circuit monitor units canbe found in the Loadstar product section.

SYSTEM DESIGN

Normal mains healthy condition Failure of normal lighting final circuit Total mains failure

KEY- LIVE- DEAD



9


SYSTEM CONTROL & MODE OF OPERATION

Central systems with dedicated slave luminaires (cont’d)

b) Maintained central battery unit with the maintained circuitcontinuously energised. A simple installation where emergencyluminaires are illuminated at all material times irrespective of thestatus of the normal lighting. In the event of a complete mainsfailure, the slave luminaires are illuminated from the battery supply.

c) Maintained central battery unit with remote hold off relays.

The maintained output from the battery unit is fed to a number ofremote hold off relays throughout the building. The coil of the holdoff relay is connected to the unswitched side of the local normallighting supply. Assuming this supply is healthy, the relay will pull in,opening the contacts and preventing power from reaching the slaveluminaires.

In the event of a local mains failure, the relay drops out, the contactsclose and the emergency luminaires in that particular area areilluminated from the maintained circuit of the battery unit. In the eventof a complete mains failure, the system operates in a similar manner,except that the slave luminaires are illuminated from the battery supply.Details of purpose-made remote hold off relays can be found in theLoadstar product section.

SYSTEM DESIGN



KEY- LIVE- DEAD

KEY- LIVE

- DEAD



10


Central systems with converted mains luminaires - AC/DC

Systems

d) Maintained AC/DC central battery with conversion luminaires

With this option, the normal mains luminaires are fitted witha conversion module, enabling them to also operate asemergency luminaires in the event of mains failure. Eachconversion module includes a changeover relay which,under normal circumstances, is energised by a permanentsupply from the unswitched side of the normal lighting circuit.

SYSTEM DESIGN

Whilst energised, it connects the lamp to the conventional mains

control gear within the luminaire allowing it to operate as a standardmains fitting, powered via a switched live connection to the mainsballast. Should the normal lighting fail, the relay within the conversionmodule drops out, disconnecting the lamp from the conventionalcontrol gear and connecting it to the inverter within the conversionmodule. This illuminates the lamp at reduced brightness. In multi-lampluminaires, the conversion module only operates a single lamp in theemergency mode. All other lamps will extinguish upon mains failure.

INV

Normal mains control gear

Combined Mains/Emergency Luminaire



Lamp

SMCB

INV





Lamp

SMCB

INV





Lamp

SMCB

INV





Lamp

SMCB


OR

KEY- LIVE

- DEAD- LIVE VIA INVERTER



11


Central systems with converted mains luminaires - AC/AC

Systems

e) Static inverter unit with conventional mains fittings

A static inverter runs conventional mains luminaires at fullbrightness during both mains healthy and mains failureconditions. However, there is usually a requirement for localswitching of the luminaires during mains healthy conditions,with automatic illumination in the event of mains failure.

SYSTEM DESIGN

Local switching with automatic illumination in the event of mains failure

can be easily achieved by use of the Menvier ACM1 module, which ispurpose-designed for this application. A detailed description of the

ACM1 module, including a typical wiring schematic, can be found onpage 96 .



Local Switched

Supply

ACM1




ACM1




ACM1




ACM1


OR

KEY- LIVE

- DEAD



12


SYSTEM DESIGN

Why choose a true static inverter

When specifying a central power supply for emergency lightingpurposes, there are a number of considerations that require careful

consideration to fulfil the required goal of providing a safe, secure,functional and compliant design.

Load types

Many of the new generation of slave/mains luminaire ballast employeither sophisticated high frequency ballasts or conventional tungstonehalogen lamps with significantly high inrush currents; far in excess ofthe nominal quiescent power of the individual luminaire. When usedwith modern lighting control systems the load variations imposed onthe Static inverter system can be in excess of the nominal rating of theinverter and exceed the maximum overload; causing equipment shut-down/failure .Many modern day static inverter systems, although capable ofproviding the required 120% overload continuously as part of currentstandards; are restricted and rely on the incoming mains supply toclear circuit faults and short term load fluctuations. Such restrictionsare not deemed to be a problem until experiencing an incoming supplyfailure; with sole reliance upon the inverter to handle anyoverload/fluctuations when the inverter and its reliability are mostcritical.The Loadstar range of static inverters are designed with a excellentload compatibility, able to deal with short circuits or reverse mainsback-feed on equipments output terminals with no detrimental damageto the inverter or control circuitry.

Due to the substantial growth and development of low energy/highefficiency discharge lighting as a means of providing large areas ofspace with cheap, high levels of luminance, while maintaining highspacing centres; there are a number of reasons prohibiting the use ofsuch lamp types for emergency lighting purposes.Discharge luminaires require a prolonged period of time for the lamp tostrike when initially powered, typically 10 – 15 minutes and thuscontravene the current standards for emergency lighting; allowing only5 seconds. This can be overcome with the use of no-break staticinverter systems to power the load, providing a clean no-break supply

in the hope of an “uninterrupted” supply to the load (UPS). Dischargelighting is restricted to permanently maintained operation, as sub-circuit change-over/hold-off relays do not comply with no-breakphilosophy.When using no-break static inverters with discharge luminaire types,when experiencing fluctuations or load surges, the inverter outputvoltage can be reduced as a consequence of the need for faultclearance and will result in the reset of the lamp/s; requiring a re-strikecycle. The inadvertent reset of discharge lamps is not due to inverterfault but is a result of limited overload capability of the inverter.

As a alternative to discharge luminiare types for emergency lighting;Coopers Lighting and Safety manufacture a wide range of attractive,fluorescent high bay and escape route luminairs.

Modes of operation

When selecting a static inverter system as part of a centrally poweredemergency lighting design, there are several types of system availableon the market and careful consideration must be taken to choose the

correct equipment for the application.

Active stand-by:During the normal mode of operation, the incoming mains supply is by-passed to the outgoing load terminals via a solid state static switch,the inverter runs continuously with the charger supplying power to theinverter and maintaining a nominal float voltage on the battery. Due tothe permanent active status of the inverter (off-load), power isconstantly being removed and replaced into the battery with the overalleffect of constant repetitive charge/discharge and can significantlyreduce battery lifetime (10 year life battery can almost be halved).

Active on-line:During the normal mode of operation, the inverter runs continuouslywith the charger supplying power to the inverter and maintaining anominal float voltage on the battery; the inverter supplies the load at alltimes. The incoming mains supply is held off as a secondary by-passsource in case of inverter fault and is used to provide charge power tothe batteries/inverter. Like the active stand-by system, active on-lineinverters run continuously and can reduce battery lifetime; aggravatedby the increase in power demand from the inverter supplying the fullequipment load.

Passive stand-by:During normal operation, the incoming mains supply is by-passed tothe outgoing load terminals via a failsafe change-over contactor, the

inverter remains un-powered in stand-by mode with the chargermaintaining a nominal float voltage on the battery ready to power theload. The advantages of passive stand-by operation are the excellentreliability, low maintenance cost and low power consumed duringnormal operation. During the normal mode of operation the inverterand its associated electro-mechanical components are inactive andremain un-powered. As a result of the inverters inactivity, reducedmechanical and electrical stress prolonging equipment lifetime andthus reducing maintenance cost. It can be assumed that while theinverter is not active and is in stand-by mode, there is negligible powerbeing dissipated in the form of wasted latent heat with the benefit ofreduction in the day to day running cost of the equipment andimproved carbon footprint. Consideration must also be given to thereduction of generated (wasted) heat requiring forced ventilation orcooling in the equipments location (plant room/battery room).

With the growing demand for larger higher power static inverters, therequirement for balancing the incoming mains supply between phasesbecomes more apparent with the need for three phase Systems. It isunadvisable when specifying 3 phase inverters to select this option forsmaller power Static Inverters as their fault clearing capability isreduced as a result of only 1/3 of the equipments maximum capacitycan be supplied on any one outgoing phase. This is further aggravatedby the necessity to match the load on each phase to no greater than1/3 of the equipments capacity while maintaining the regulatory 20%spare capacity of each output phase.When specifying 3 phase systems less than 15KVA; 3 phase six wireoutput is the preferred option with the benefits of phase balancing ofthe input supply and excellent fault clearance capability for load circuitfaults.

This example shows the maximum (short term) overload capability for a6KVA 3 phase 4 and 6 wire Static inverter and typical 200% overload.

a) 3 Phase 4 wire systemNormal load per output phase can be no greater than 1/3 of the

equipments maximum load = 2KVA per phase, when applying200% overload factor each output phase can source amaximum of 4KVA for a short term period(typically 10 seconds).

b) 3 Phase 6 wire systemNormal load per output phase can be no greater then 1/3 of theequipments maximum load and equates to 2 KVA per phase,however the 200% overload factor applies to the full equipmentload rating and can source 12KVA for a short term period(typically 10 seconds)



13


SYSTEM DESIGN

3 PhaseTP+NSupply

SinglePhase

SinglePhase

SinglePhase

L1

L2

L3

N

L1

L2

L3

N

N

N

L1

L2

L3

N

N

N1 PhaseSP+N

1 PhaseSP+N

1 PhaseSP+N

3 PhaseTP+NSupply

3 PhaseTP+NSupply

SinglePhase

L1

L2

L3

N

L1L1

L2

L3

N

NL2NL3

N

3 PhaseTP+NDistribution

Static Inverter AC/AC with 3 phase (4 wire distribution)

The Static Inverter provides a true 3 phase (three phase plus neutral)output during normal and emergency operation.

Advantages:

Simple distribution

Disadvantages:

Poor overload capability.

Unnecessary complexity of electronics involved to produce true three

phase output.

Small systems are generally expensive.

Static Inverter with 3 Phase (6 Wire distribution)

The Static Inverter provides three individual single phase (SP+N)outputs of differing phases during normal operation, balancing thesupply demand between supply phases. Under Emergency power

conditions the three outputs are fed from a single phase inverter withthe benefit of excellent overload tolerance.

Advantages:

Simple distributionExcellent overload capability.

Simple, cheap robust design.

Ideal for large and small power systems.

Disadvantages:

TPN distribution not permissible.



14


BATTERY TYPE

Cooper Lighting and Safety offer a choice of five different batterytypes:

• Valve regulated lead acid (10 year design life)• Valve regulated lead acid (3-5 year design life)• Vented nickel-cadmium• High performance plante lead acid• Flat plate lead acid

BATTERY TYPE

Each battery type has specific characteristics. In order to assist withthe choice of battery, full details of the characteristics and benefits can

be found in the Loadstar and Static Inverter System product pages.The table below (fig. 2) provides a comparative guide to thesecharacteristics

The most popular battery type is valve regulated lead acid with a 10year design life. This type of battery is used on approximately 90% ofprojects due to its competitive cost, good life characteristics, ease ofmaintenance and compact size.

SYSTEM DESIGN

BATTERY ROOM VENTILATION

Vented batteries, such as nickel cadmium, plante and flat plate leadacid emit potentially explosive gases under charge conditions.Therefore it is important when selecting rooms for emergency lightingcentral battery systems with these types of battery, to calculate theamount of ventilation required.The required number of air changes per hour (A) is given by thefollowing formula:

A = 0.045 x N x I

V

Where:N = Number of cells in the batteryV = Volume of room in cubic metresI = Charge rate in Amperes

This formula will give the number of air changes per hour requiredduring boost charge conditions. On float charge (systems are on floatcharge for most of their service life), the amount of gas emitted isapproximately 1.5% of that liberated whilst on boost charge and under

most circumstances this will be dissipated by natural ventilation, andwill not present a hazard. However, we recommend that the boostcharge condition is allowed for at the design stage to ensure theappropriate decision on ventilation requirements is made.

Although Valve Regulated Lead-Acid Batteries require little ventilationunder normal operating conditions, it is good practice to apply theformula to calculate the number of air changes required to achieveminimum risk under battery fault or failure conditions. Please refer to:BS 6133:1995

Fig. 2 Comparison of Battery Characteristics

Characteristics Valve Regulated Valve Regulated Vented High Performance Flat plate

Lead Acid (10 year life) Lead Acid (3-5 year life) Nickel Cadmium Plante Lead Acid Lead acid

Expected Life

Capital Cost

Maintenance

Resistance to damage & abuse

Through Life costs



15


SYSTEM SIZING

When sizing the system, it is important to allow for the full inputrequirement of the light fittings rather than the lamp wattages.

AC/DC systems

When using conversion modules fitted to conventional mains fittings,the lamp will be illuminated directly from the mains ballast duringnormal mains healthy operation and via the inverter during emergencyconditions. When being driven from the battery unit via the conversionmodule, the emergency lamp will be illuminated at less than full output,and as a result, the fitting will consume a reduced input power.

AC/AC systems

When utilising a static inverter system, the fitting operates at full outputduring both mains healthy and mains failure conditions. When sizing asuitable static inverter to power a particular load, it is important toconsider the input VA and the input (not lamp) wattage of theemergency luminaires. The total VA requirement defines the invertermodule size, and the total input wattage defines the battery size.

SYSTEM DESIGN

Fig. 3 Typical System. VA rating with and without power factor correction

Fig. 4 Typical System. VA rating with and without power factor correction

0

1000

2000

3000

4000

5000

6000

7000

8000

Total CircuitWatts

W a t t s / V A

VA Rating(with PFC)

VA Rating(without PFC)

Note: Use of compact fluorescent luminaires with power factor correction (PFC) leads to a reduced inverter module si ze and therefore savings in space and capital costs

Qty of Total VA Rating (Compact VA Rating (Compact

Luminaires Description Circuit Watts lamps without PFC) lamps with PFC)

25 1 x 58W T8 (wire wound ballasts) 1725 1925 1925

40 1 x 28W 2D (wire wound ballasts) 1360 2960 1560

15 1 x 16W 2D (wire wound ballasts) 315 690 375

15 1 x 13W TC-D (wire wound ballasts) 270 600 315

5 1 x 40W GLS incandescent 200 200 200

Inverter Rating = 3870 6375 4375

Therefore, to establish the correct inverter module size, the powerfactor correction (PFC) rating of the luminaires must be considered in

addition to lamp wattage and control gear losses. High frequencycontrol gear circuits have excellent PFC ratings, usually of around 0.96to 0.98. This compares with 0.85 to 0.9 for equivalent lamp magneticcontrol gear circuits. Care should be taken when low wattage compactfluorescent lamps are used, utilising high frequency gear or high PFCversions where possible. Low power factor versions can have PFCratings of only 0.45 to 0.5, thereby greatly increasing the inverter ratingrequired for the system. If utilising low voltage lighting powered viastep-down transformers, it is essential to allow for the efficiency andpower factor of the step-down transformers.

Table (fig. 3) and graph (fig. 4) illustrate the relationship betweenwattage and VA rating for a typical system.

For a detailed explanation of conversion operation, please refer topage 98.

For details of the power consumption of slave luminaires and

converted luminaires (when operating in the emergency mode via aconversion module), please refer to page 19.



16


ADDITIONAL CONSIDERATIONS

Spare capacity

With any central battery system it is important to bear in mind that it is

difficult to extend the system at a later date unless capacity has beenallowed for at the design stage. For this reason, we would stronglyrecommend that some spare capacity is included when selecting thecentral battery system rating. Our technical department is available toprovide assistance. Contact the Central System team,Tel: 01302 303240 or E-mail: [email protected].

Fire protection of cables

Cables should be routed through areas of low fire risk.

The following cables and wiring systems should be used.a) Cables with inherently high resistance to attack by fire

i) Mineral-insulated copper-sheathed cable in accordance withBS 6207: Part 1

ii) Cable in accordance with BS 6387. The cable should be atleast category B

b) Wiring systems requiring additional fire protection.i) PVC-insulated cables in accordance with BS 6004 in rigid

conduitsii) PVC-insulated cables in accordance with BS 6004 in steel

conduitiii) PVC-insulated and sheathed steel wire armoured cable in

accordance with BS 6346 or BS 5467

Systems should be installed in accordance with IEE Regulations andBS 5266. Additional fire protection may apply. For example, if cablesare buried in the structure of the building.

SYSTEM DESIGN

Internet City, Dubai, UAE

Central Battery System



17


Cable sizes

When selecting cable sizes, due regard should be paid to limitations

imposed by voltage drop and physical strength. Each conductor shallbe of copper, having a nominal cross-sectional area of not less than1mm2. BS 5266 states that the voltage drop in cables connecting acentral battery to a slave luminaire should not exceed 4% of thesystem nominal voltage at maximum rated current.

Using copper conductors, volts drop can be calculated per pair ofconductors as shown in table fig. 5.Total volts drop on a circuit can be calculated according to the formula:

VDT = I x VDM x D

Where:VDT = volts drop totalI = maximum load currentVDM = volts drop per amp per metre (obtained from fig. 5)D = cable run in metres The problems of volt drop can be overcome by:

• Using higher system voltages (= lower currents and therefore lower

volt drop)• Using larger cables (= lower resistance and therefore lower volt

drop)• Using multiple outgoing circuits (= less current per circuit and

therefore lower volt drop)

Example:Fig. 6 & 7 show an example comparison for a central battery systemwith a total connected load of 1500W and a 50m run of 16mm2 cablesupplying the luminaires.

This example shows that for this configuration, a 230V system wouldbe most suitable to meet the requirements of BS 5266.The low current value combined with greater allowable volt drop wouldenable much smaller cables to be used.

Fig. 5

Fig. 7

Nominal Cross Maximum Current Volt per Drop

Sectional Area Rating per Metre

1.0mm2 14 amps 42mV

1.5mm2 17 amps 28mV

2.5mm2 24 amps 17mV

4.0mm2 32 amps 11mV

6.0mm2 41 amps 7.1mV

10.0mm2 55 amps 4.2mV

16.0mm2 74 amps 2.7mV

Fig. 6

Comparison Data 24V 50V 110V 230V

System System System System

Max. permissible

Volt drop (BS 5266) 0.96V 2.0V 4.4V 9.2V

Total current for total

connected load of 1500W62.5A 30A 13.6A 6.52A

Actual volt drop for 16mm2

cable with 50m length8.43V 4.05V 1.84V 0.88V

0

10

20

30

40

50

60

70

24V

System

V o l t s / A m p s

50V

System

110V

System

230V

System

Max. permissiblevolt drop (V)

Current for1500W load (A)

SYSTEM DESIGN

The use of larger cables or multiple outgoing circuits may permit theuse of 24, 50 or 110V systems in the above example.



18


SYSTEM PLANNING

This can considerably reduce the overall installed cost of the system byreducing the amount of distribution wiring. Distributed systems can alsoincrease system integrity by limiting the area affected by failure of anindividual unit.

The compact 500VA static inverter system is ideal for use as part of adistributed system, having a small footprint and a lift off front cover,ideal for use in areas where access space is limited.

Cooper Lighting and Safety manufactures a wide range of Centralbattery systems. Standard products include static inverter systemswith ratings from 500VA to 60KVA, CBU in 24V, 50V, 110V from100W - 10828W.

Smaller systems are ideal for providing emergency lighting in smalllocalised areas, e.g. Atriums where traditional emergency lighting is notappropriate, alternatively multiple small systems can be utilised, locatedat convenient points throughout the building.

Distributed systems can save on overall wiring



19


SIZING AC/DC UNITS

Use the following procedure to select a correctly sized AC/DC unit:

1) Make a list of all the luminaires to be connected to the staticinverter.

2) Note the quantity of fittings of each type.3) Establish the electrical supply details for each luminaire type

(Amps).4) Multiply each of these by the quantity of luminaires5) Add together the total Circuit current in Amps requirement.6) Add an allowance (recommend a minimum of 20%) for future

expansion.

Note

Ensure any fitting selected for use as an emergency fitting complieswith the product standard for emergency fittings (EN60598-2-22) note,that to comply with this standard glow starters, or lamps with built instarters must not be used, (use electronic starters instead).

Worked examples

Calculate the correct sized 110V AC/DC unit to support the followingload (using SMCB conversion kits):55 x 58W battens21 x Twin 58W Weatherproof fittings20 x 8W Exit signs

Qty Type Amps (Ea) Amps (Tot)

55 1 x 58W Switch start batten using SMCB110 0.165 9.075

21 2 x 58W Switch start weatherproof using SMCB110 0.165 3.465

20 8W Exit sign (HF) 0.07 1.4

Total 13.94

Plus 20% spare 16.73


If requirement is for SLR batteries with 3 hour duration - maintainedFrom table on page 29 SLR/110/95/M3



20


LUMINAIRE TECHNICAL DATA

Slave luminaires for use with central emergency lighting systems mustbe compatible with the central battery supply unit.

The most common types are:

• Dedicated slave luminaires, with specially designed housings andcircuits

• Converted mains luminaires, which have been modified by theaddition of an emergency circuit, normally to operate on 24, 50 or110V AC/DC supplies

• Mains luminaires which are suitable to be powered by 230V ACinverter systems

24V AC/DC 50V AC/DC 110V AC/DC 230V AC/AC

Central System Output

Maintained voltage output range including cable voltage drop 19.4 - 25.3V 40.5 - 53.0V 89.1 - 116.6V 194.4 - 254.4V

Initial emergency output voltage range including cable voltage drop 21.6 - 24.0V 45.0 - 50.0V 99.0 - 110.0V 200.0 - 223.0V

End of duration output voltage range including cable voltage drop 19.4 - 21.6V 41.4 - 45.0V 89.0 - 99.0V 200.0 - 223.0V

Compatible Dedicated 8W Luminaires

Minimum strike volts (0°C) 18.0V 37.5V 82.5V 198.0V

Minimum run volts (0°C) 18.0V 37.5V 82.5V 198.0V

Maximum run volts (0°C) 30.0V 62.5V 138.0V 264.0V

Converted or Dedicated Luminaire Fitted with SMCB Module

Minimum strike volts (0°C) 20.7V 40.3V 95.0V -

Minimum run volts (0°C) 18.0V 37.5V 82.5V -

Maximum run volts (0°C) 30.0V 62.5V 138.0V -

SYSTEM & LUMINAIRE TECHNICAL DATA

Note: SMCB units use changeover relays, so the maintained function should be provided by the normal mains control gear. However, the module will operate on either AC or DC

enabling it to operate with a maintained central system in the emergency conditions

POWER CONSUMPTION AND PERFORMANCE

Dedicated Slave Luminaires

AC/DC Systems AC/AC Systems

24V 50V 110V 230V High Frequency Ballast

Lamp watts & type Lumens Amps Lumens Amps Lumens Amps Lumens Watts VA

8W T5 275 0.34 275 0.18 275 0.07 272 8 9

11W TC-S - - - - - - 900 14 16

2x21W Tungsten - - - - 2x300 0.50 2x300 55 60

2x1W LED - - - - - - - 4 6

3W LED - - - - - - - 4 6

To be compatible with the power supply unit and to comply with theluminaire product standard, whilst being installed to meet therequirements of the BS 5266 Pt.1 code of practice, the luminairesshould meet the following requirements:

• Voltage compatibility - the luminaire operating range must be withinthe central system output voltage range, minus an additional 4%cable voltage drop

• Static inverter systems - luminaires must fully meet therequirements of EN 60598-2-22, which ensures they are suitablefor use as emergency luminaires

Cooper Lighting and Safety systems and slave luminaires meet theserequirements in full.



21


LUMINAIRE TECHNICAL DATA

Mains Luminaires Powered from a Central Inverter

230V AC/AC Systems

High Frequency Ballast Wire Wound

Ballast

Lamp watts & type Lumens Watts VA Watts VA

18W T8 1100 20.2 20.8 26 29.5

36W T8 2700 38 39.2 43 45.3

58W T8 4200 58.1 59.9 67 77

70W T8 5300 72.4 74.6 80 92

16W 2D 850 17 17.9 21 45.7

28W 2D 1655 31.2 32.5 34 37.4

38W 2D 2300 43.2 45 45 49.5

13W TC-DE 725 16.1 16.6 18 20.7

18W TC-DE/TC-L 970 20.6 21 24 26.4

26W TC-DE 1450 28.8 30 32 35.6

36W TC-L 2300 37.6 38.4 45 53

Mains Luminaires Converted with an AC/DC SMCB Unit

AC/DC Systems

24 Volts 50 Volts 110 Volts

Lamp watts & type Lumens (BLF) Amps Lumens (BLF) Amps Lumens (BLF) Amps

18W T8 230 (0.31) 0.32 350 (0.44) 0.22 350 (0.44) 0.095

36W T8 400 (0.22) 0.48 650 (0.33) 0.33 650 (0.33) 0.14

58W T8 - - 740 (0.24) 0.38 740 (0.24) 0.165

70W T8 - - 700 (0.18) 0.40 700 (0.18) 0.17

16W 2D 260 (0.45) 0.42 400 (0.65) 0.29 400 (0.65) 0.11

28W 2D 315 (0.28) 0.52 500 (0.40) 0.33 500 (0.40) 0.145

38W 2D 360 (0.23) 0.53 560 (0.33) 0.34 560 (0.33) 0.15

9W TC-S 160 (0.50) 0.40 250 (0.71) 0.21 250 (0.71) 0.09

11W TC-S 240 (0.49) 0.45 375 (0.70) 0.23 375 (0.70) 0.10

13W TC-DE 210 (0.44) 0.45 330 (0.63) 0.23 330 (0.63) 0.10

18W TC-DE/TC-L 170 (0.25) 0.48 260 (0.37) 0.24 260 (0.37) 0.10

26W TC-DE 275 (0.28) 0.50 425 (0.40) 0.30 425 (0.40) 0.13

36W TC-L 390 (0.24) 0.60 600 (0.35) 0.41 600 (0.35) 0.15

Notes:

1. VA ratings assume power factor capacitors are fitted

2. Watts and VA figures based on typical control gear data, for system design purposes

3. The above lumen data is based on output from triphosphor lamps. De-rate by 15% if halophosphate lamps are used4. Lumen output figures include the effects of lamp and luminaire ageing, end of discharge voltage and cable volt drop

5. Data for 230V AC/AC SMCB unit available on application



22


SIZING STATIC INVERTERS

Use the following procedure to select a correctly sized static inverter:

1) Make a list of all the luminaires to be connected to the staticinverter.

2) Note the quantity of fittings of each type.

3) Establish the electrical supply details for each luminaire type (thecircuit watts and the circuit VA).

4) Multiply each of these by the quantity of luminaires

5) Add together the total Circuit wattage requirement and the totalcircuit VA requirement.

6) Add an allowance (recommend a minimum of 20%) for futureexpansion.

7) Select an inverter unit from the list on page 40 which is capable ofsupplying both the required VA rating and the required wattagerating.

Notes1) Make sure you use the circuit watts of the fitting not the lamp watts

(with a switch start fitting, there can be as much as 40% differencebetween the lamp wattage and the actual circuit wattage of the

fitting)

2) The circuit wattage of a HF fitting will be normally be substantiallylower than that of an equivalent switch start fitting. If HF fittings areused instead of switch start fittings, the resulting inverter is likely tobe significantly cheaper and smaller.

3) Fittings with a low Power factor have a much higher circuit VA thanfittings with a high power factor.

Using low power factor fittings on a static inverter will increase thesize and cost of the static inverter unit.

4) Ensure any fitting selected for use as an emergency fittingcomplies with the product standard for emergency fittings(EN60598-2-22) note, that to comply with this standard glowstarters, or lamps with built in starters must not be used, (useelectronic starters instead).

Worked examples

In the following examples the same fitting types have been used in bothcases, however in the first example, switch start gear has been used asthe basis for calculation, the second example, is based on HF gear.These examples illustrate how the use of HF gear results in a smallerand cheaper static inverter unit.

Calculate the correct sized static inverter to support the following load:55 x 58W battens21 x Twin 58W Weatherproof fittings20 x 8W Exit signs


55 1 x 58W Switch start batten 79.3 4361.5 69 3795

21 2 x 58W Switch start weatherproof 158.6 3330.6 138 2898

20 8W Exit sign (HF) 11 220 9 180


Plus 20% spare 9494.52 8247.60


55 58W High frequency batten 56.1 3085.5 55 3025

21 2 x 58W High frequency weatherproof 112.2 2356.2 110 2310

20 8W Exit sign (HF) 11 220 9 180


Plus 20% spare 6794.04 6618


Example 2 (HF gear)

If requirement is for SLR batteries with 3 hour durationFrom table on page 40 AC10kVA/8500/SLR3

If requirement is for SLR batteries with 3 hour durationFrom table on page 40 AC8kVA/6800/SLR3



23


ELECTRICAL DATA

Nominal Lamp Total Power Circuit Approx max qty. of

Lamp Watts Type Circuit Watts Factor VA fittings per type 3 MCB

Compact Fluorescent 10A MCB

16A MCB

1 x 13 TC-D 16.1 0.97 16.6 46 78

2 x 13 TC-D 30.6 0.96 31.9 32 52

1 x 16 2D 17 0.95 17.9 75 75

1 x 18 TC-D/L/T 20.6 0.98 21 48 80

2 x 18 TC-D/L/T 38.8 0.98 39.6 48 80

1 x 26 TC-D/T 28.8 0.96 30 34 74

2 x 26 TC-D/T 53.4 0.98 54.5 22 38

1 x 28 2D 31.2 0.96 32.5 32 66

1 x 32 TC-T 36.8 0.97 37.9 34 74

2 x 32 TC-T 70.5 0.98 71.9 22 38

1 x 36 TC-L 37.6 0.98 38.4 30 80

2 x 36 TC-L 77.1 0.97 79.5 20 40

1 x 38 2D 43.2 0.96 45 20 40

1 x 40 TC-L 49.8 0.97 51.4 30 80

2 x 40 TC-L 91.6 0.98 93.4 14 26

22 + 40 T5-FC 72.8 0.98 74.3 29 47

1 x 42 TC-T 48.2 0.98 49.1 34 74

2 x 42 TC-T 92.8 0.98 94.6 14 18

1 x 55 TC-L 65.9 0.96 68.7 20 40

2 x 55 TC-L 125.6 0.98 128.2 10 20

Linear Fluorescent

1 x 14 T5 (HE) 19.4 0.95 20.4 29 48

2 x 14 T5 (HE) 33.9 0.95 35.7 29 48

3 x14 T5 (HE) 48.2 0.98 49.1 33 53

4 x 14 T5 (HE) 64.6 0.98 65.9 25 40

1 x 18 T8 20.2 0.97 20.8 44 74

2 x 18 T8 39.2 0.97 40.4 36 60

3 x 18 T8 59.3 0.97 61.2 40 80

4 x 18 T8 78.3 0.97 80.7 30 52

1 x 21 T5 (HE) 26.7 0.95 28.1 29 48

2 x 21 T5 (HE) 48.5 0.95 51 29 48

1 x 24 T5 (HO) 29.1 0.95 30.6 29 48

2 x 24 T5 (HO) 53.3 0.95 56.1 15 25

1 x 28 T5 (HE) 36.4 0.95 38.3 29 48

2 x 28 T5 (HE) 65.4 0.95 68.9 29 481 x 35 T5 (HE) 43.6 0.95 45.9 29 48

2 x 35 T5 (HE) 79.9 0.95 84.1 29 48

1 x 36 T8 38 0.97 39.2 38 60

2 x 36 T8 77.1 0.97 79.5 24 38

3 x 36 T8 114.5 0.985 116.2 18 32

1 x 39 T5 (HO) 48.5 0.95 51 29 48

2 x 39 T5 (HO) 94.5 0.95 99.4 15 25

1 x 49 T5 (HO) 60.6 0.95 63.8 29 48

2 x 49 T5 (HO) 118.7 0.95 124.9 15 25

1 x 54 T5 (HO) 65.4 0.95 68.9 29 48

2 x 54 T5 (HO) 125.9 0.95 132.6 15 25

1 x 58 T8 58.1 0.97 59.9 36 60

2 x 58 T8 111.5 0.98 113.8 16 26

1 x 70 T8 72.4 0.97 74.6 20 34

2 x 70 T8 135 0.98 137.8 10 16

1 x 80 T5 (HO) 92 0.95 96.9 12 20

2 x 80 T5 (HO) 181.6 0.95 191.2 12 20

Typical Electrical Data - Fluorescent Circuits - High frequency control gear

These tables are provided for generalguidance only. If specific advice isrequired, please contact TechnicalSupport for ballast characteristics.This information should then be relayedto the MCB manufacturer for advice onsuitable breaker types.



34


Shangri La Hotel, Dubai




35


WHERE TO USE LOADSTAR AC/AC SYSTEMS

• Hospitals • Shopping centres

• Airports • Offices

• Museums • Industrial facilities

• Theatres • Universities, schools and colleges• Sports arenas • Nursing homes

• Cost effective modular design

• Standard mains luminaires used for emergency

lighting

• Fully complies with BS EN50171:2001

• Digital display to clearly indicate system status

• EasiCheck compatible versions available

The Loadstar range of AC/AC static inverter units offer

the opportunity to create a discreet emergency lighting

system, utilising suitable standard mains luminaires without

modification. Small or decorative compact fluorescent

luminaires can also be easily incorporated. Loadstar AC/AC

systems offer many benefits, including higher light levels in

emergency mode, as all lamps in the luminaire are usually

energised by the emergency supply. Mains voltage and lower

currents enable cables of smaller cross sectional area to be

used than with low voltage AC/DC systems, without

unacceptable levels of voltage drop. The proven and reliable

modular design ensures a cost effective emergency lighting

solution.

LOADSTAR AC/AC SYSTEMS



36



SYSTEM OPERATION

• In mains healthy condition, the system charges the batteries and

stores power, ready for emergency operation

• In mains healthy condition, the power to luminaires designated foremergency use is supplied from the normal mains, via a by-pass

contactor inside the cubicle. This may be switched, using a

“maintained lights” switch (optional extra) or by use of a remote

switch connected to terminals provided

• Local change-over switching can be achieved using an ACM1

module, controlling single or multiple luminaires (if fed from

common switched mains supply - max load 750VA).

The system will then supply normal mains power or emergency

power via the inverter, dependant on status of mains supply at the

static inverter

• In the event of a mains failure, the system provides emergency

power to dedicated mains slave or designated standard mains

luminaires, until mains power is restored (or for the rated duration

of the system in the event of extended mains failure)

DIMENSIONS

Cubicle Ref H (mm) W (mm) D (mm)

931 1200 715 755

932 1800 715 755

934 1800 1015 755

Depth of 931/2/4 includes a 75mm spacer fitted to

back, to ensure ventilation grilles are not obstructed

Dimensions are for guidance only and may be subject

to change

WD

H

STANDARD SPECIFICATIONS

• Cubicles- 1.6mm zinc coated steel panels with powder coat RAL7032

Light German Grey finish

- Plinth base feature to prevent build up of moisture/corrosive

materials and aid mechanical handling by fork or pallet truck

- 3 standard size cubicles, for combined

charger/inverter/battery, charger/inverter only or battery only

- Small systems require only one cubicle. Larger systems housed in

multiple sets (see selection tables)

- Electrical control gear and battery compartments are

segregated, with lockable access door(s)- Battery compartments supplied, where appropriate with

separate tiered sections, to enable ease of electrolyte level

inspection

- Separate fixed facia panel for mounting control/display panel

- Option of open battery racks on larger systems

• Battery Charger- Solid state, constant voltage charge control module

- Ful ly automatic

- Full recharge within 24 hours of a rated discharge

- Recharge to 80% capacity within 12 hours, complying with

BS EN 50171:2001

- Manual boost switch on systems with vented battery cells

- Current limit facility, preventing overcharging or damage to the

system in the event of battery failure or fault

- Outputs have low AC ripple currents for maximum battery life

and in compliance with BS EN 50171:2001

- Input protection by mcb to BS 3871 Part 1 or BS 4752 Part 1

• Battery- Systems can be specified with:

• Valve regulated lead acid

• Vented nickel cadmium

• High performance plante

- See selection tables/guides for battery characteristics

• Fusegear- Removable industrial HRC fuses, complying with BS 88

• Input Circuits- Cable entry via removable gland plate on top of cubicle

- Single phase 230V ± 10% AC 50Hz supply. Other input

voltages on request

- Input terminals and mcb’s DIN rail mounted and easily

accessible

• Load Circuits- Substantial DIN rail mounted output terminals

- Option of integral distribution board (MCB or HRC fuses)

• Output voltage, from the system via the inverter, is 230V AC

nominal

• Standard mains luminaires require no modification to operate with

the static inverter (unless ACM1 change-over module is

fitted integrally). All lamps in multi-lamp luminaires will be litduring mains failure, unless separate control gear is provided for

individual lamps

• Sub-circuit monitoring and hold off relays can be added to the

system to energise the emergency luminaires in the event of a

localised mains circuit failure, if the ACM1 module is not used

• Full detail of modes of operation is shown on page 8

• Full detail of ACM1 module is shown on page 96

• Monitoring Circuits- Terminals provided for connection of remote monitors and

controls

• Cables- Compliant with BS 6231

• Transformer

- Double wound with earth screen to BS 171

• Rectifier- Full wave controlled thyristor/diode bridge



37



STANDARD SPECIFICATION (cont’d)

• Contactor

- Mains failure contactor to BS5424 Part 1

• Temperature Compensation

- All lead acid cell systems supplied with transducer to monitor

battery compartment temperature

- Chargers pre-set for optimum performance in 20°C ambient

- Charging voltage automatically adjusted to optimise battery life

• Low Battery Voltage Disconnect Circuit- Automatically shuts down the inverter when battery voltage falls

below pre-set level, during extended periods of mains supply failure

- Helps prevent potential damage from deep discharge

- Indicator remains lit until mains power restored and reset

pressed

• Inverter

- Extensively proven and reliable modular design

- Systems with ratings up to 4 kVA incorporate a single module

rated at 1.25 kVA, 2.5 kVA or 4 kVA- Larger systems utilise multiple modules in parallel to provide a

single common output, equal to sum of individual ratings

- Complies fully with BS EN50171:2001

- Modules can be quickly and easily removed/replaced, aiding

installation and maintenance

- See table for detailed technical specification

• Test Push Button- Simulates a mains failure

• Metering and Display Panel- Simple and easy to read status display

- LCD meter indicating battery voltage, battery current or battery

compartment temperature. Voltage is default, others displayed

using push buttons. Display mode indicated by LED:

• Volts

• Amps• Temperature - lead acid batteries only

- Charger indication LED’s

• Power On

• Maintained Lights (maintained systems only)

• Float Mode

• Current Limit

• Fu ll Charge

• Boost mode (vented battery systems only)

- Alarm indication LED’s

• Mains Fail

• Charge Fail

• Battery High Volts

• Battery Low Volts

• DC Earth Fault• Deep Discharge Protection (protection circuit has operated)

- Inverter indication LED’s

• Inverter Running

• Inverter Overload (optional alarm package)

• Inverter High Volts (optional alarm package)

• Inverter Low Volts (optional alarm package)

- Audible alarm fitted internally, with mute button on display plus

common volt free contacts for remote signalling of a fault

condition and terminals for optional remote alarm unit



38



INSTALLATION NOTES

• Note - BS EN 60598-2-22 prohibits the use of glow starters in

fluorescent luminaires used for emergency lighting.

• A full set of Installation, Operating and Maintenance Instructions is

supplied with each system to assist the installer carry out the work

efficiently and safely

• Adequate ventilation has been provided in the cubicle to allow a

safe dispersal of gases but it is important to remember that when

choosing where to locate systems, particularly those with large

batteries, attention must be paid to ensuring a build-up of

potentially explosive gases is avoided

• Please refer to the System Design section for details of ventilation

calculations

• Warning notices should be displayed on entry doors to battery

rooms:

BATTERY ROOM. EXTINGUISH ALL NAKED LIGHTS BEFORE

ENTERING. NO SMOKING

SYSTEM DESIGN

To ensure a suitably rated system is selected, list the luminaires to be

used, with their characteristics, to determine the wattage and VA

power rating of the required inverter

• Where possible, utilise luminaires with high frequency control

gear, compact fluorescent luminaires with h igh power factor

correction, or dedicated Menvier or JSB 230V AC mains slave

luminaires, to minimise the required VA rating of the inverter

• Using uncorrected compact fluorescent luminaires with poor

power factor, will increase the size of inverter module required,

leading to increased capital cost and space requirements

• See page 15 for an example of determining the required

inverter rating

• For details of static inverter systems with ratings above those

listed, please contact our central systems technical sales

department

• It should be noted that multiple smaller units can often be more

cost effective than a single large system. Distribution costs can

be substantially reduced by locating units throughout a large

building

• BS EN 60598-2-22 prohibits the use of glow starters in

fluorescent luminaires used for emergency lighting

• Note - systems specified for emergency lighting use should not

have other services connected to them

Output voltage Pre-settable in the range 220-240V AC. Default setting is 230V AC.

Voltage tolerance is 2% on loads of 0-100% of system ratingFrequency 50 or 60Hz. ±0.01%. Standard setting 50Hz. Waveform: Sinusoidal

Voltage regulation Static 2%, dynamic 6%

Isolation 2kv rms between input and output terminals

Total harmonic distortion Less than 3% into a linear load

Power factor Will supply loads in the 0.3 lag - 0.3 lead range

Overload 200% for 10 seconds, 125% for 20 minutes without reduction in

output voltageStart-up time Standard 30mS soft start

Noise level Less than 55dBA at 1 metre

Efficiency 85 - 89%

Protection DC input and AC output mcb’s

DC input reverse polarity protection

Short circuit protection

Pre-charge protection fuse

Reverse-fed mains proof

Low voltage shut down Inverter module(s) automatically shut down when battery discharges to a

pre-set level. Re-set is following a combination of the restoration of the

mains supply and an increase in battery voltage above the disconnect

threshold level

Residual current drain when the disconnect circuit has operated is less

than 1mA per module

Inhibit An inhibit switch to control the inverter is fitted on a user control pcb in the

cubicle

Technology Pulse width modulation with high frequency switching

INVERTER TECHNICAL SPECIFICATION



39



FACTORY FITTED OPTIONS

• 3 Phase Failure Monitor- Detects phase failure and energises the inverter from the battery

supply- Suffix - P

• Multi-way Sub Circuit Monitor- Detects mains lighting circuit failure and energises the inverter

from the battery supply

- Monitoring relays fitted inside cubicle and require supply from

each mains lighting circuit

- Suffix - xMPF (x = number of circuits)

CATALOGUE NUMBERS

Number of Cat. No. of Cat. No. of

ways monitored Sub Circuit Monitor Hold Off Relay Monitor

4 1SCM4 1HOR4

8 1SCM8 1HOR/8

12 1SCM12 1HOR12

Use suffix /TS for addition of a test keyswitch

REMOTE MOUNTED OPTIONS

• Remote Alarm Unit- Visual and Audible indication of system fault

- Sounder mute facility- Surface mounting dimensions: H114 x L114 x D25mm

- Suffix - RAU

• Sub Circuit Monitor- Non load switching

- Monitors mains lighting circuits. Provides signal to central battery

unit in the event of a sub circuit failure

- Standard units available to monitor 4, 8 or 12 sub circuits

- Multiple units can be used if more than 12 circuits require

monitoring

- A keyswitch can be fitted if required to enable simple testing by

authorised user

- Unit dimensions: H250 x L265 x D130mm

• Hold Off Relay Monitors- Load switching

- Used to hold off maintained output from static inverter unit,

providing non-maintained luminaire operation

- Monitors mains lighting circuits. In the event of a sub circuit

failure, contactor drops out, allowing the maintained supply to

energise the emergency luminaires



authorised user


Typical hold off relay arrangement

TO NEXT MONITOR

OR CENTRAL BATTERY

SYSTEM

S 1 0 1 9

L 1

L 2

N L 3

L 4

L O OP I N

L O OP O U T

N

L

N / 0

C O M

230V 50HzMONITOREDSUPPLY

UNUSED INPUTSMUST HAVE A LIVECONNECTION

S 1 0 1 9

L 1

L 2

N L 3

L 4

N

L

N / 0

C O M

L O OP I N

L O OP O U T



FROM CENTRALBATTERY SYSTEMOR STATIC INVERTER

+/L

-/N

TO LUMINAIRES

-/N

+/LC1-1

C1-2

L1

L2

N

L3

L4

C1

TEST KEYSWITCH

Typical sub-circuit monitor arrangement

Remote Alarm Unit

SCM and HOR units are designed to accept a single common neutral per enclosure,

all monitored circuits connected to an individual unit must share a common neutral.



40


SELECTION TABLE : AC/SLR range

System Reference Inverter Power Rating (kVA) Output Watts Control Cubicle Battery Cubicle

1 hour standby time systems

AC1KVA/850/SLR1 1.0 850 931 -

AC2KVA/1700/SLR1 2.0 1700 931 -

AC2.5KVA/2125/SLR1 2.5 2125 932 -

AC3KVA/2550/SLR1 3.0 2550 932 -

AC4KVA/3400/SLR1 4.0 3400 932 -

AC5KVA/4250/SLR1 5.0 4250 934 -

AC6KVA/5100/SLR1 6.0 5100 934 -

AC7.5KVA/6375/SLR1 7.5 6375 934 -

AC8KVA/6800/SLR1 8.0 6800 934 -

AC10KVA/8500/SLR1 10.0 8500 932 932

AC12KVA/10200/SLR1 12.0 10200 932 934

AC12.5KVA/10625/SLR1 12.5 10625 932 934

AC13KVA/11050/SLR1 13.0 11050 932 934

AC15KVA/12750/SLR1 15.0 12750 932 934

AC16KVA/13600/SLR1 16.0 13600 932 934

AC17.5KVA/14875/SLR1 17.5 14875 934 934

AC20KVA/17000/SLR1 20.0 17000 934 2 x 934

AC22KVA/18700/SLR1 22.0 18700 934 2 x 934

AC23KVA/19550/SLR1 23.0 19550 934 2 x 934

AC24KVA/20400/SLR1 24.0 20400 934 2 x 934 AC25KVA/21250/SLR1 25.0 21250 932 + 934 2 x 934


AC1KVA/850/SLR3 1.0 850 931 -

AC2KVA/1700/SLR3 2.0 1700 932 -

AC2.5KVA/2125/SLR3 2.5 2125 934 -

AC3KVA/2550/SLR3 3.0 2550 934 -

AC4KVA/3400/SLR3 4.0 3400 932 932

AC5KVA/4250/SLR3 5.0 4250 932 934

AC6KVA/5100/SLR3 6.0 5100 932 934

AC7.5KVA/6375/SLR3 7.5 6375 932 934

AC8KVA/6800/SLR3 8.0 6800 932 2 x 932

AC9KVA/7650/SLR3 9.0 7650 932 2 x 934

AC10KVA/8500/SLR3 10.0 8500 932 2 x 934

AC12KVA/10200/SLR3 12.0 10200 932 2 x 934

AC12.5KVA/10625/SLR3 12.5 10625 932 2 x 934

AC13KVA/11050/SLR3 13.0 11050 934 2 x 934

AC14KVA/11900/SLR3 14.0 11900 934 2 x 934

AC15KVA/12750/SLR3 15.0 12750 934 2 x 934

AC16KVA/13600/SLR3 16.0 13600 934 2 x 934 + 932

AC17.5KVA/14875/SLR3 17.5 14875 934 3 x 934

AC18KVA/15300/SLR3 18.0 15300 934 3 x 934

AC19KVA/16150/SLR3 19.0 16150 934 5 x 932

AC20KVA/17000/SLR3 20.0 17000 934 5 x 932

AC21KVA/17850/SLR3 21.0 17850 934 3 x 934

AC22KVA/18700/SLR3 22.0 18700 934 3 x 934

AC23KVA/19550/SLR3 23.0 19550 932 + 934 4 x 934

AC24KVA/20400/SLR3 24.0 20400 932 + 934 4 x 934

AC25KVA/21250/SLR3 25.0 21250 932 + 934 4 x 934

SYSTEMS WITH VALVE REGULATED LEAD ACID BATTERIES

• Compact

• Reliable

• Cost effective

• Maintenance free, 10 year design life batteries

• Low battery voltage disconnect circuit fitted as standard

• Charger temperature compensation fitted as standard


Inverter systems listed have been matched with batteries to provide an output which assumes a load power factor of no better than 0.85 lagging. 2 hour standby systems available

* Cubicles configuration is on given as an indication. Please check prior to ordering.



41



SYSTEMS WITH VENTED NICKEL CADMIUM BATTERIES

• Extremely robust over a wide temperature range

• Reliable, with a 25 year service life

• Good “through life” costs• Resistant to electrical and mechanical abuse

• Can be stored in any state of discharge without damage

• Automatic and manual boost circuits fitted as standard

SELECTION GUIDE: AC/NC range

System Reference Inverter Power Rating (kVA) Output Watts

AC/NC series 1.0 - 25.0 500 - 21250

SYSTEMS WTH HIGH PERFORMANCE PLANTE BATTERIES

• 25 year service life

• Reliable

• Retains virtually full capacity throughout design life• Low battery voltage disconnect circuit fitted as standard


This guide provides only an overview of possible system configurations.

Contact our Central Systems Technical Sales department for full details, including

cubicle arrangement. 1, 2 or 3 hour autonomy systems available

SELECTION GUIDE: AC/HP range


AC/HP series 1.0 - 25.0 500 - 21250






34


Shangri La Hotel, Dubai




35


WHERE TO USE LOADSTAR AC/AC SYSTEMS

• Hospitals • Shopping centres

• Airports • Offices


• Theatres • Universities, schools and colleges• Sports arenas • Nursing homes

• Cost effective modular design

• Standard mains luminaires used for emergency

lighting

• Fully complies with BS EN50171:2001


• EasiCheck compatible versions available

The Loadstar range of AC/AC static inverter units offer

the opportunity to create a discreet emergency lighting

system, utilising suitable standard mains luminaires without

modification. Small or decorative compact fluorescent

luminaires can also be easily incorporated. Loadstar AC/AC

systems offer many benefits, including higher light levels in

emergency mode, as all lamps in the luminaire are usually

energised by the emergency supply. Mains voltage and lower

currents enable cables of smaller cross sectional area to be

used than with low voltage AC/DC systems, without

unacceptable levels of voltage drop. The proven and reliable

modular design ensures a cost effective emergency lighting

solution.




36



SYSTEM OPERATION



• In mains healthy condition, the power to luminaires designated foremergency use is supplied from the normal mains, via a by-pass

contactor inside the cubicle. This may be switched, using a

“maintained lights” switch (optional extra) or by use of a remote

switch connected to terminals provided

• Local change-over switching can be achieved using an ACM1


common switched mains supply - max load 750VA).

The system will then supply normal mains power or emergency

power via the inverter, dependant on status of mains supply at the

static inverter





DIMENSIONS


931 1200 715 755

932 1800 715 755

934 1800 1015 755

Depth of 931/2/4 includes a 75mm spacer fitted to

back, to ensure ventilation grilles are not obstructed


to change

WD

H

STANDARD SPECIFICATIONS

• Cubicles- 1.6mm zinc coated steel panels with powder coat RAL7032

Light German Grey finish

- Plinth base feature to prevent build up of moisture/corrosive

materials and aid mechanical handling by fork or pallet truck

- 3 standard size cubicles, for combined

charger/inverter/battery, charger/inverter only or battery only

- Small systems require only one cubicle. Larger systems housed in

multiple sets (see selection tables)

- Electrical control gear and battery compartments are

segregated, with lockable access door(s)- Battery compartments supplied, where appropriate with

separate tiered sections, to enable ease of electrolyte level

inspection

- Separate fixed facia panel for mounting control/display panel

- Option of open battery racks on larger systems

• Battery Charger- Solid state, constant voltage charge control module

- Ful ly automatic

- Full recharge within 24 hours of a rated discharge

- Recharge to 80% capacity within 12 hours, complying with

BS EN 50171:2001

- Manual boost switch on systems with vented battery cells

- Current limit facility, preventing overcharging or damage to the

system in the event of battery failure or fault

- Outputs have low AC ripple currents for maximum battery life

and in compliance with BS EN 50171:2001

- Input protection by mcb to BS 3871 Part 1 or BS 4752 Part 1

• Battery- Systems can be specified with:

• Valve regulated lead acid

• Vented nickel cadmium

• High performance plante

- See selection tables/guides for battery characteristics

• Fusegear- Removable industrial HRC fuses, complying with BS 88

• Input Circuits- Cable entry via removable gland plate on top of cubicle

- Single phase 230V ± 10% AC 50Hz supply. Other input

voltages on request

- Input terminals and mcb’s DIN rail mounted and easily

accessible

• Load Circuits- Substantial DIN rail mounted output terminals

- Option of integral distribution board (MCB or HRC fuses)


nominal

• Standard mains luminaires require no modification to operate with

the static inverter (unless ACM1 change-over module is

fitted integrally). All lamps in multi-lamp luminaires will be litduring mains failure, unless separate control gear is provided for

individual lamps


system to energise the emergency luminaires in the event of a

localised mains circuit failure, if the ACM1 module is not used

• Full detail of modes of operation is shown on page 8

• Full detail of ACM1 module is shown on page 96

• Monitoring Circuits- Terminals provided for connection of remote monitors and

controls

• Cables- Compliant with BS 6231

• Transformer

- Double wound with earth screen to BS 171

• Rectifier- Full wave controlled thyristor/diode bridge



37



STANDARD SPECIFICATION (cont’d)

• Contactor

- Mains failure contactor to BS5424 Part 1

• Temperature Compensation

- All lead acid cell systems supplied with transducer to monitor

battery compartment temperature

- Chargers pre-set for optimum performance in 20°C ambient

- Charging voltage automatically adjusted to optimise battery life

• Low Battery Voltage Disconnect Circuit- Automatically shuts down the inverter when battery voltage falls

below pre-set level, during extended periods of mains supply failure

- Helps prevent potential damage from deep discharge

- Indicator remains lit until mains power restored and reset

pressed

• Inverter

- Extensively proven and reliable modular design

- Systems with ratings up to 4 kVA incorporate a single module

rated at 1.25 kVA, 2.5 kVA or 4 kVA- Larger systems utilise multiple modules in parallel to provide a

single common output, equal to sum of individual ratings

- Complies fully with BS EN50171:2001

- Modules can be quickly and easily removed/replaced, aiding

installation and maintenance

- See table for detailed technical specification

• Test Push Button- Simulates a mains failure

• Metering and Display Panel- Simple and easy to read status display

- LCD meter indicating battery voltage, battery current or battery

compartment temperature. Voltage is default, others displayed

using push buttons. Display mode indicated by LED:

• Volts

• Amps• Temperature - lead acid batteries only


• Power On

• Maintained Lights (maintained systems only)

• Float Mode

• Current Limit

• Fu ll Charge

• Boost mode (vented battery systems only)


• Mains Fail

• Charge Fail



• DC Earth Fault• Deep Discharge Protection (protection circuit has operated)

- Inverter indication LED’s


• Inverter Overload (optional alarm package)

• Inverter High Volts (optional alarm package)

• Inverter Low Volts (optional alarm package)

- Audible alarm fitted internally, with mute button on display plus

common volt free contacts for remote signalling of a fault

condition and terminals for optional remote alarm unit



38



INSTALLATION NOTES

• Note - BS EN 60598-2-22 prohibits the use of glow starters in

fluorescent luminaires used for emergency lighting.



efficiently and safely

• Adequate ventilation has been provided in the cubicle to allow a






calculations


rooms:



SYSTEM DESIGN

To ensure a suitably rated system is selected, list the luminaires to be

used, with their characteristics, to determine the wattage and VA

power rating of the required inverter

• Where possible, utilise luminaires with high frequency control

gear, compact fluorescent luminaires with h igh power factor

correction, or dedicated Menvier or JSB 230V AC mains slave

luminaires, to minimise the required VA rating of the inverter

• Using uncorrected compact fluorescent luminaires with poor

power factor, will increase the size of inverter module required,

leading to increased capital cost and space requirements

• See page 15 for an example of determining the required

inverter rating

• For details of static inverter systems with ratings above those

listed, please contact our central systems technical sales

department

• It should be noted that multiple smaller units can often be more

cost effective than a single large system. Distribution costs can

be substantially reduced by locating units throughout a large

building

• BS EN 60598-2-22 prohibits the use of glow starters in

fluorescent luminaires used for emergency lighting

• Note - systems specified for emergency lighting use should not

have other services connected to them


Voltage tolerance is 2% on loads of 0-100% of system ratingFrequency 50 or 60Hz. ±0.01%. Standard setting 50Hz. Waveform: Sinusoidal



Total harmonic distortion Less than 3% into a linear load



output voltageStart-up time Standard 30mS soft start

Noise level Less than 55dBA at 1 metre

Efficiency 85 - 89%

Protection DC input and AC output mcb’s




Reverse-fed mains proof

Low voltage shut down Inverter module(s) automatically shut down when battery discharges to a

pre-set level. Re-set is following a combination of the restoration of the

mains supply and an increase in battery voltage above the disconnect

threshold level

Residual current drain when the disconnect circuit has operated is less

than 1mA per module

Inhibit An inhibit switch to control the inverter is fitted on a user control pcb in the

cubicle


INVERTER TECHNICAL SPECIFICATION



39



FACTORY FITTED OPTIONS

• 3 Phase Failure Monitor- Detects phase failure and energises the inverter from the battery

supply- Suffix - P

• Multi-way Sub Circuit Monitor- Detects mains lighting circuit failure and energises the inverter

from the battery supply

- Monitoring relays fitted inside cubicle and require supply from

each mains lighting circuit

- Suffix - xMPF (x = number of circuits)

CATALOGUE NUMBERS

Number of Cat. No. of Cat. No. of

ways monitored Sub Circuit Monitor Hold Off Relay Monitor

4 1SCM4 1HOR4

8 1SCM8 1HOR/8

12 1SCM12 1HOR12

Use suffix /TS for addition of a test keyswitch


• Remote Alarm Unit- Visual and Audible indication of system fault

- Sounder mute facility- Surface mounting dimensions: H114 x L114 x D25mm

- Suffix - RAU

• Sub Circuit Monitor- Non load switching

- Monitors mains lighting circuits. Provides signal to central battery

unit in the event of a sub circuit failure


- Multiple units can be used if more than 12 circuits require

monitoring


authorised user


• Hold Off Relay Monitors- Load switching

- Used to hold off maintained output from static inverter unit,

providing non-maintained luminaire operation

- Monitors mains lighting circuits. In the event of a sub circuit

failure, contactor drops out, allowing the maintained supply to

energise the emergency luminaires



authorised user


Typical hold off relay arrangement

TO NEXT MONITOR

OR CENTRAL BATTERY

SYSTEM

S 1 0 1 9

L 1

L 2

N L 3

L 4

L O OP I N

L O OP O U T

N

L

N / 0

C O M



S 1 0 1 9

L 1

L 2

N L 3

L 4

N

L

N / 0

C O M

L O OP I N

L O OP O U T



FROM CENTRALBATTERY SYSTEMOR STATIC INVERTER

+/L

-/N

TO LUMINAIRES

-/N

+/LC1-1

C1-2

L1

L2

N

L3

L4

C1

TEST KEYSWITCH

Typical sub-circuit monitor arrangement

Remote Alarm Unit

SCM and HOR units are designed to accept a single common neutral per enclosure,

all monitored circuits connected to an individual unit must share a common neutral.



40


SELECTION TABLE : AC/SLR range

System Reference Inverter Power Rating (kVA) Output Watts Control Cubicle Battery Cubicle


AC1KVA/850/SLR1 1.0 850 931 -

AC2KVA/1700/SLR1 2.0 1700 931 -

AC2.5KVA/2125/SLR1 2.5 2125 932 -

AC3KVA/2550/SLR1 3.0 2550 932 -

AC4KVA/3400/SLR1 4.0 3400 932 -

AC5KVA/4250/SLR1 5.0 4250 934 -

AC6KVA/5100/SLR1 6.0 5100 934 -

AC7.5KVA/6375/SLR1 7.5 6375 934 -

AC8KVA/6800/SLR1 8.0 6800 934 -

AC10KVA/8500/SLR1 10.0 8500 932 932

AC12KVA/10200/SLR1 12.0 10200 932 934

AC12.5KVA/10625/SLR1 12.5 10625 932 934

AC13KVA/11050/SLR1 13.0 11050 932 934

AC15KVA/12750/SLR1 15.0 12750 932 934

AC16KVA/13600/SLR1 16.0 13600 932 934

AC17.5KVA/14875/SLR1 17.5 14875 934 934

AC20KVA/17000/SLR1 20.0 17000 934 2 x 934

AC22KVA/18700/SLR1 22.0 18700 934 2 x 934

AC23KVA/19550/SLR1 23.0 19550 934 2 x 934

AC24KVA/20400/SLR1 24.0 20400 934 2 x 934 AC25KVA/21250/SLR1 25.0 21250 932 + 934 2 x 934


AC1KVA/850/SLR3 1.0 850 931 -

AC2KVA/1700/SLR3 2.0 1700 932 -

AC2.5KVA/2125/SLR3 2.5 2125 934 -

AC3KVA/2550/SLR3 3.0 2550 934 -

AC4KVA/3400/SLR3 4.0 3400 932 932

AC5KVA/4250/SLR3 5.0 4250 932 934

AC6KVA/5100/SLR3 6.0 5100 932 934

AC7.5KVA/6375/SLR3 7.5 6375 932 934

AC8KVA/6800/SLR3 8.0 6800 932 2 x 932

AC9KVA/7650/SLR3 9.0 7650 932 2 x 934

AC10KVA/8500/SLR3 10.0 8500 932 2 x 934

AC12KVA/10200/SLR3 12.0 10200 932 2 x 934

AC12.5KVA/10625/SLR3 12.5 10625 932 2 x 934

AC13KVA/11050/SLR3 13.0 11050 934 2 x 934

AC14KVA/11900/SLR3 14.0 11900 934 2 x 934

AC15KVA/12750/SLR3 15.0 12750 934 2 x 934

AC16KVA/13600/SLR3 16.0 13600 934 2 x 934 + 932

AC17.5KVA/14875/SLR3 17.5 14875 934 3 x 934

AC18KVA/15300/SLR3 18.0 15300 934 3 x 934

AC19KVA/16150/SLR3 19.0 16150 934 5 x 932

AC20KVA/17000/SLR3 20.0 17000 934 5 x 932

AC21KVA/17850/SLR3 21.0 17850 934 3 x 934

AC22KVA/18700/SLR3 22.0 18700 934 3 x 934

AC23KVA/19550/SLR3 23.0 19550 932 + 934 4 x 934

AC24KVA/20400/SLR3 24.0 20400 932 + 934 4 x 934

AC25KVA/21250/SLR3 25.0 21250 932 + 934 4 x 934

SYSTEMS WITH VALVE REGULATED LEAD ACID BATTERIES

• Compact

• Reliable

• Cost effective

• Maintenance free, 10 year design life batteries

• Low battery voltage disconnect circuit fitted as standard



Inverter systems listed have been matched with batteries to provide an output which assumes a load power factor of no better than 0.85 lagging. 2 hour standby systems available

* Cubicles configuration is on given as an indication. Please check prior to ordering.



41



SYSTEMS WITH VENTED NICKEL CADMIUM BATTERIES

• Extremely robust over a wide temperature range

• Reliable, with a 25 year service life

• Good “through life” costs• Resistant to electrical and mechanical abuse

• Can be stored in any state of discharge without damage

• Automatic and manual boost circuits fitted as standard

SELECTION GUIDE: AC/NC range


AC/NC series 1.0 - 25.0 500 - 21250

SYSTEMS WTH HIGH PERFORMANCE PLANTE BATTERIES

• 25 year service life

• Reliable

• Retains virtually full capacity throughout design life• Low battery voltage disconnect circuit fitted as standard





SELECTION GUIDE: AC/HP range


AC/HP series 1.0 - 25.0 500 - 21250






42


COMPACT AC/AC SYSTEM

• Competitive 500VA static inverter system

• Compact - ideal for smaller installations

• Fully complies with BS EN 50171:2001

• Four separately fused outputs


• EasiCheck compatible version available

WHERE TO USE COMPACT AC/AC SYSTEM

• Schools and colleges • Nursing homes

• Offices • Community centres

• Public houses • Medical centres

• Restaurants • Industrial units• Student accommodation blocks

Many features normally only associated with larger units are

included in the standard specification of the Menvier Compact

AC/AC static inverter system. The inverter has a rated output

of 500VA/400W and benefits from 4 independently fused

outputs, battery deep discharge protection, automatic

temperature compensation and a clear, informative system

status display panel. The unit also fully complies with the

latest BS EN 50171:2001 standard. An output voltage of 230V

AC permits any suitable, unmodified mains luminaires to be

operated at full output in emergency mode.



43



SYSTEM OPERATION



• In mains healthy condition, the power to luminaires designated foremergency use is supplied from the normal mains via a by-pass

contactor inside the cubicle






nominal

• Local change-over switching can be effected using an ACM1


common switched mains supply)

• Suitable standard mains luminaires require no modification to

operate with the static inverter (unless ACM1 change-over module

is integral). All lamps in multi-lamp luminaires will be lit during

mains failure, unless separate control gear is provided for individual

lamps


system to energise the emergency luminaires in the event of alocalised mains circuit failure, if the ACM1 modules is not used

• Full details of modes of operation is shown on page 8-11

• Full details of ACM1 module is shown on page 98

DIMENSIONS

WD

H

H (mm) W (mm) D (mm)

970 530 400

General

Cubicle 1.6mm zinc coated steel panels with powder coat RAL7032 Light

German Grey finish. Removable cover retained by screws. Cableentries via removable top gland plate

Batteries Valve regulated lead acid, 10 year design life

Charger and controls

Mains supply 230V ± 10% AC single phase supply, 50 Hz

Input control MCB to BS3871 Pt 1, or BS4752 Pt 1

Fusegear HRC type to BS88

Terminals DIN rail mounted near to cable entry

Transformer Double wound with earth screen to BS171

Rectifier Full wave controlled thyristor/diode bridge

Contactor Standard contactors comply with requirements of BS5424

Charger Constant voltage, current limited type with electronic solid state

controller. Voltage controlled to within 2% of setting at up to 10%

mains supply variations. Full recharge within 24 hours.

80% capacity within 12 hours. Current limit facility

Deep discharge protection Fitted as standard. Automatic shut down of inverter when battery

voltage falls below pre-set level, during extended periods of mains

supply failure

Cables Compliant with BS6231

Load circuits 4 independent fused output circuits.

Monitoring circuits Terminals provided for connection of remote monitors and controls

Temperature compensation Fitted as standard. Charger voltage is automatically adjusted with

reference to ambient temperature to optimise charging and battery

life. Pre-set for optimum performance at 20°C

Test push button Simulates mains failure

Display panel Composite facia with LCD display and LED indicators

Alarm warning Audible alarm fitted internally plus common volt free contacts for

remote signalling of a fault condition and terminals for remote alarm

unit option

Inverter


Voltage tolerance is 2% on loads of 0-100% of system rating

Frequency 50Hz. ±0.1%. Waveform: Sinusoidal



Total harmonic distortion Typically 3% or better. Max. 10%



output voltage

Start-up time Standard 300mS. Soft start

Noise level Effectively silent on both charge and discharge

Efficiency 83% nominal. Typically 82-85%

Protection DC input protection. AC output fuses




Low voltage shut down Inverter module automatically shuts down when battery discharges to

a pre-set level. Re-set is automatic following the restoration of the

mains supply

Inhibit An inhibit switch to control the inverter is fitted on t he main pcb in the

cubicle


SPECIFICATION



44


• METERING AND DISPLAY PANEL- Simple and easy to read status display

- LCD meter indicating battery voltage or current Reading mode

indicated by LED:

• Volts• Amps

- Indication LED’s

• Power On

• Charge Fail

• Battery High/Low Volts

• Deep Discharge Protection (protection circuit has operated)



• Remote Alarm Unit

• Sub Circuit Monitor

• Hold Off Relay Monitor• ACMI’s

Full details of these options can be found on page 28


CATALOGUE NUMBER - Compact Static Inverter

System Inverter Output Output Standby Weight

Reference Rating (VA) Watts Time (kg)

AC500VA/M3 500 400 3 hours 135.0

DESIGN & INSTALLATION NOTES

• To ensure the system is suitably rated, list the luminaires to be

used, with their characteristics, to ensure the wattage and VA

power rating of the inverter is not exceeded

• Using fluorescent luminaires with poor power factor will increase

the VA load

• Note - BS EN 60598-2-22 prohibits the use of glow starters influorescent luminaires used for emergency lighting.


supplied with each system to assist the installer carry out the

work efficiently and safely

• Adequate ventilation has been provided in the cubicle to allow

a safe dispersal of gases but it is important to remember that

when choosing where to locate systems, particularly those with

large batteries, attention must be paid to ensuring a build-up of


• Please refer to the System Design section for details ofventilation calculations


rooms:





45


Compact AC/AC System



46


SWITCH TRIPPING UNITS

• Proven and reliable units


• Comprehensive alarm and indication package

• Choice of vented nickel cadmium or valve

regulated lead acid batteries

• Systems available to meet exact project

requirements

Cooper Lighting and Safety battery chargers for switchgear

tripping and closing have been developed from the

experience gained from many years of designing and

manufacturing sophisticated battery charging and control

equipment. Designed to provide a continuous DC supply for

operating switchgear and protection equipment, these latest

units are supplied with a comprehensive alarm, metering and

indication package as standard. The informative and clear

display panel is fixed to the fascia of both wall and floor

standing units, with a remote alarm unit as an option.

Extremely reliable and easy to install, these units provide a

competitively priced solution.



47


SWITCH TRIPPING UNITS

General

Cubicle (30V systems) Wall mounted 1.2mm zinc coated steel panels with powder coat RAL7032

Light German Grey finish. Removable cover retained by screws. Steeldivider separates control gear and battery compartments

Cubicle (110V systems) 1.6mm zinc coated steel panels with powder coat RAL7032 Light German

Grey finish. 2 lockable doors and segregated control gear/battery

compartments. Cable entries via removable top gland plate

Batteries Vented nickel cadmium, 25 year design life

Valve regulated lead acid, 10 year design life


Mains supply 230V ± 10% AC single phase supply, 50 Hz. Other input voltages available

Input control MCB to BS3871 Pt 1. Type D

Input terminals DIN rail mounted near to cable entry

Transformer Double wound with earth screen to BS171

Rectifier Full wave controlled thyristor/diode bridge

Charger Constant voltage, current limited type with electronic solid state controller.

Voltage controlled to within 1% of setting at ±10% mains supply variations.

Full recharge within 24 hours.

Cables Compliant with BS6231

Output terminals DIN rail mounted

Temperature compensation Fitted as standard to lead acid battery units. Charger voltage is

automatically adjusted with reference to ambient temperature to

optimise charging and battery life. Pre-set for optimum performance at

20°C

Display panel Composite facia with LCD display and LED indicators

Alarm warning Audible alarm fitted internally plus common volt free contacts for use in

conjunction with integral on-board power supply to operate the remote

alarm unit option

SPECIFICATIONDIMENSIONS

W

H

DCubicle Ref H (mm) W (mm) D (mm)

Wall (S type) 450 745 270

931 1200 715 680

932 1800 715 680


to change, depending on precise specification required

• METERING & DISPLAY PANEL

- Simple and easy to read status display

- LCD meter indicating battery voltage and the option of batterycurrent or battery compartment temperature. Voltage is default,

others displayed using push buttons (If options specified).

Display mode indicated by LED:

• Volts

• Amps (optional)

• Temperature (lead acid battery systems only)


• Power On

• Float Mode

• Current Limit

• Fu ll Charge

• Boost mode (nickel cadmium battery systems only)


• Mains Fail

• Charge Fail



• DC Earth Fault

Audible alarm fitted internally, with mute button on display. Common

set of volts free changeover contacts for remote signalling and output

for remote alarm unit

INSTALLATION NOTES


supplied with each system to assist the installer carry out the

work efficiently and safely

• Adequate ventilation has been provided in the cubicle to allow

a safe dispersal of gases but it is important to remember that

when choosing where to locate systems, particularly those with

large batteries, attention must be paid to ensuring a build-up of


• Refer to System Design section for ventilation calculations

• Warning notices should be displayed on battery room doors:BATTERY ROOM. EXTINGUISH ALL NAKED LIGHTS BEFORE


OPTIONS

• Remote Alarm Unit

• Integral HRC fused distribution board (110V systems only)

• Integral MCB distribution board (110V systems only)

CATALOGUE NUMBERS

Nominal Battery Nominal Output Voltage No of Approximate Cubicle

Reference Ah Capacity System Voltage Float Max Cells Weight (kg) Type

Systems with Nickel Cadmium Batteries

ST30/10/* 10 30 36 41.25 25 65 Wall(S)ST30/18/* 18 30 36 41.25 25 77 Wall(S)

ST30/24/* 24 30 36 41.25 25 79 Wall(S)

ST30/30/* 30 30 36 41.25 25 84 Wall(S)

FST110/10/* 10 110 132.5 151.8 92 230 932

FST110/18/* 18 110 132.5 151.8 92 270 932

FST110/24/* 24 110 132.5 151.8 92 280 932

FST110/30/* 30 110 132.5 151.8 92 294 932

Systems with Valve Regulated Lead Acid Batteries

FSLRT110/19/* 19 108 122.5 122.5 54 220 931

FSLRT110/29/* 29 108 122.5 122.5 54 250 931

FSLRT110/38/* 38 108 122.5 122.5 54 345 932

Notes: 1. * = Specify charger size. Contact us for guidance

2. Diode regulators can be fitted to control the output terminal voltage to pre-determined limits. Contact Central Systems Technical Sales for details3. Other size batteries and chargers are available on request



48


CEAGUARD CG2000

• Versatile central system for emergency lighting

• Built-in automatic testing, without need of a data

cable

• Compact dimensions

• Maintenance free batteries

• Flexible programming of operation for individual

luminaires

• Easy set up via panel or PC

WHERE TO USE CEAGUARD CG2000

• Hospitals • Offices


• Theatres • Nursing homes

• Shopping centres • Universities, schools and colleges

Representing the latest development in central battery

systems, CG2000 is compact, utilises maintenance free lead

acid cells and can be built to meet project specific

requirements. Each basic unit is fitted with up to 10 individual

circuit output modules, each capable of supplying up to 20

luminaires. DLS modules may be added which monitor the

status of local normal switched mains lighting circuits, and

instruct corresponding emergency luminaires to illuminate

when a mains lighting circuit is energised. Alternatively,

individual luminaires can be freely programmed to operate

as non-maintained or permanently maintained units.

Every CG2000 system has built-in automatic testing as

standard, with the time, day and frequency of tests

programmable to suit the installation, with full logging of

results using an optional smart media card.



49


CEAGUARD CG2000

SYSTEM OPERATION



• The load to luminaires programmed for maintained operationis supplied by the system from the normal mains, via a by-pass

contactor inside each output module


power to emergency luminaires, until mains power is restored

(or for the rated duration of the system in the event of extended

mains failure)

• Output voltage from the system is 230V AC under normal

conditions and 220V DC nominal in the event of a complete mains

failure

• The unit can either be used with dedicated CeaGuard slave

luminaires, or suitable mains luminaires that have been converted

for emergency use using a special ballast

• Luminaires can be freely programmed using the control module on

the fascia of the cubicle, or via a PC, to operate in non-maintained,

permanently maintained or individually switched maintained mode

• Optional addressable DLS maintained light switch modules can be

installed to monitor local switched supply circuits. Specific

luminaires can then be programmed to switch on and off, inresponse to the application or removal of a switched live control

signal to the relevant input of a DLS module

• Converted luminaires can have their mode of operation changed at

any time by simply re-programming

• The CG2000 system carries out regular functionality and full

duration tests automatically. The time, day and frequency of these

tests are programmable. A log is kept of all test results on the

optional smart media card, which can then be viewed after

downloading to a PC from the smart media card, which is

removable

• No additional data cable is required for the testing function, as all

signalling and reporting is carried down the power cable

• Up to 10 individual emergency lighting circuits can be operated

from a single CG2000 system

• For larger installations, up to 32 CG2000 systems can be

networked, with central control and monitoring

General

Cubicle Zinc coated steel panels with powder coat RAL7035 Light Grey finish.

Lockable door and segregated control gear/battery compartment(s). Top cable entries




Battery fuse Cartridge type

Input terminals DIN rail mounted near to cable entry, 4mm2 capacity

Charger Plug in with constant voltage, current limited output.

2 charger bays to allow an extra charger to be fitted for larger systems

Deep discharge protection Fitted as standard. Automatic shut down of the output module when

battery voltage falls below pre-set level, during extended periods of

mains supply failure

Monitoring circuits 3 bays to fit internal DLS maintained light switch monitors. Terminals

and 24V current loop provided for connection of up to 10 remote

DLS/phase monitors. Max total of internal and external DLS = 10.

3 x volt free contacts for remote failure/status indication


reference to ambient temperature to optimise charging and battery life.

Control module Composite facia with 4 line x 20 character LCD display and LED

indicators

Alarm warning Audible alarm fitted internally. Programmable to select conditions under

which alarm sounds

Output module

Mounting PCB for mounting into vacant bay. Max. 10 per system

Output voltage 220V DC

Max. continuous output 150W during emergency operation

Start output in emergency 270W (< 1min.)

Max. surge current 120 A/1ms

Output terminals DIN rail mounted, 4mm2 capacity




STANDARD SPECIFICATION

DIMENSIONS

WD

H

H (mm) W (mm) D (mm)

1450/1800 600 300

Note: Height of cubicle is dependant

on system output rating



50


CONTROL MODULE & SMART MEDIA CARD

The control module is the heart of the CG2000 system, for set up,

programming, testing, monitoring and fault/alarm indication.

The module has a port for a plug-in smart media card, which is usedto transport data to and from the programming software and has a

non-volatile memory to ensure the event log is retained when power is

disconnected. Programming is via a 4 x 4 foil keypad, with the menus

and data inputted displayed on a 4 line x 20 character LCD display.

The module can be used to program the following:

- Date and time set up

- Install and configure output modules, luminaires and DLS/phase

monitors

- Perform automatic luminaire search function, which identifies

and registers all luminaires on each output module

- Add location text to the addresses of modules, luminaires and DLS

monitors

- Designate luminaires as non-maintained, maintained or switched

maintained

- Allocate control signals from DLS monitors to appropriate circuit

and luminaires that have been designated switched maintained

- Set up and carry out testing operation, including selection of time,date and frequency of functionality and duration tests

- Select conditions under which alarms are activated

CEAGUARD CG2000

In addition, the display indicates:

- LED indication of mains operation, battery operation,

system failure and power on status- Battery voltage

- Battery charge and discharge currents

- Charging fault

- Luminaire fault, with location text

- Deep discharge protection

- Manual reset

- Test operation

- Insulation fault on output circuits

- Fault information

The programming can also be carried out remotely using CG2000 PC

software. The programming can be saved onto the media smart card

and the card simply plugged back into the control module. The

software can read the test logbook from the smart media card, for

viewing on the PC and printing.

The control module has 3 volt free contacts for remote

status/failure/alarm buzzer indication



51


CEAGUARD CG2000

OUTPUT MODULE

Up to 10 output modules can be accommodated, each providing

a separate emergency circuit for a maximum of 20 luminaires.

The module is rated at a maximum continuous emergency operationoutput of 150W and start output of 270W.

LUMINAIRE CONVERSION MODULE

CG2000 is designed primarily to operate 8W converted luminaires,

which optimise the maximum rating of each output module. Higher

wattage fluorescent lamps can also be converted for use with CG2000,

up to the maximum rating for the output module. Each module has a

rotary switch for addressing.

A comprehensive standard range of CeaGuard CG2000 compatible

luminaires is listed on page 58.

La mp Wattage & Type Eme rgency Ballast Emergency Operation Start Up

Lumen Factor Running Watts Watts

8W T5 0.75 7.25 7.25

9W TC-S 0.75 7.5 7.5

11W TC-S 0.75 10.0 10.0

13W TC-DE/TC-T 0.75 12.1 12.1

18W T8 0.75 16.5 16.5

18W TC-DE/TC-T 0.75 16.5 16.5

26W TC-DE/TC-T 0.30* 17.2 29.5

36W T8 0.30* 17.7 38.8

58W T8 0.30* 22.1 58.1

LOAD TABLES FOR LUMINAIRE CONVERSION MODULES

Notes:

1. Loading of an output module cannot exceed 150W running and 270W start-up

2. * Indicates a conversion module that can operate at pre-selectable emergency

BLF between 0.30 & 1.00. Running watts is affected by BLF setting. Contact

Central Systems Technical Sales for details

3. The conversion module only supplies 1 lamp in multi-lamp luminaires. Separate

gear must be used to operate mains only operation lamps

4. A comprehensive range of Menvier 8W CeaGuard CG2000 compatible luminaires

is shown on page 56

SUPPLY CIRCUIT MONITOR

Provides signal to the CG2000 unit in the event of supply circuit or

phase failure, interrupting the 24V current loop of the panel, which

energises all emergency luminaires. Dims: H85 x W53 x D65mm.

Terminals - 2 .5mm2.

REMOTE INDICATOR/ISOLATOR

Remote indication of status of CG2000 panel. LED’s indicate mains

operation, battery operation and system failure. Indicator is powered

by the CG2000 system. The panel can be isolated by a built-in key

operated switch, in which case the output will be disabled even in the

event of a mains failure.

Dims: H180 x W80 x D55mm. Terminals - 2.5mm2 wall mounting.

Supply circuit module Remote indicator/isolator

Internal DLS module External DLS module

INTERNAL DLS MODULE

Up to 3 DLS maintained light switching modules can be fitted internally

to CG2000. The units have 5 inputs to monitor the status of local

switched circuits. Switched maintained emergency luminaires are

programmed to illuminate in response to a switched mains signal being

applied to the selected input of the relevant DLS unit to which they are

assigned during system programming. Terminals: Connection via DIN

rail terminals at top of cabinet.

EXTERNAL DLS MODULE

External, DIN rail mounted DLS modules can also be fitted, up to

a combined total of 10 internal and external modules. External

modules have terminals for the connection of a 24V power loop and

data cable to provide a signal back to the CG2000 unit, from the 5 DLS

inputs. Alternatively, the module can provide 2 x DLS inputs and a 3-

phase monitor, capable of monitoring a single 3-phase supply or 3,

single phase circuits. If an external DLS unit is configured to operate as

a 3-phase monitor unit, then all emergency luminaires will illuminate in

the event of failure of any monitored circuit. Dims: H76 x W75 x D70.

Terminals - 2 .5mm2. Each module has a rotary switch for addressing.



52


SYSTEM DESIGN & APPLICATION

• Determine the number and type of emergency luminaires to be

used using the spacing charts at the rear of this catalogue

• Use the plans and quantity of luminaires to determine the numberof circuits required

• If designated luminaires are required to operate in switched

maintained mode, calculate the quantity of internal and/or

external DLS modules required

• If it is inappropriate to operate a luminaire in the permanently

maintained mode, circuit monitors should be used to switch them

on in the event of a failure of the final circuit to the normal mains

luminaires in that area

• Using table on page 51, calculate that luminaires chosen per

circuit do not exceed load ratings of output module

• Contact Cooper Lighting and Safety to determine configuration of

CG2000, charger(s) and batteries

• Locate the CG2000 unit where the visual indication/alarms can be

readily seen and heard. Alternatively use a remote indicator. Select

a location where fire risk is minimised (see notes on ventilation)

• Output wiring should be in fire protected cable

• As the luminaires are individually addressed, circuits can be teed or

spurred, as is convenient• Set up the system using the control module keypad or via the PC

software, adding location text to circuits, luminaire addresses and

DLS modules. Program the mode of operation of each luminaire.

Program date, time, frequency, duration of tests

• Up to 32 CG2000 systems can be networked, with central control

and monitoring. Contact Central Systems Technical Sales for full

details

• The Cooper Lighting and Safety Service Department can offer a

programming and commissioning service

CG2000 SYSTEM REFERENCES

Description Cat. No.

Cabinet with control module and charger CG2000

Output Module CGMOD

Smart Media Card SMC

Internal DLS DLSI

External DLS DLSE

Batteries On request

Note: systems are designed and manufactured to meet a specific project, using

modular components. Contact Central Systems Technical Sales for full details

CEAGUARD CG2000

INSTALLATION NOTES



efficiently and safely• Adequate ventilation has been provided in the cubicle to allow a






calculations


rooms:


ENTERING. NO SMOKING.



53


CEAGUARD CG2000

DLS

CG2000

CG2000 WIRING SCHEMATIC

DLS modules can be used to monitor normal switched mains lighting circuits. When the mains lighting circuit is energised, corresponding emergency

luminaires can be programmed to illuminate. In the event of a failure of the monitored circuit, all emergency luminaires will illuminate at emergency BLF

level.



54


CEAGUARD CG48

• Simple installation and operation

• Powers up to 48 x 8W luminaires for 3 hours

• High light output to maximise spacing

• Built-in automatic testing, without need of a

data cable

• Extremely compact dimensions

• Network and centrally control up to 32 panels

WHERE TO USE CEAGUARD CG48

• Universities, schools and colleges • Offices

• Accommodation blocks • Industrial facilities

• Retail • Nursing homes

CeaGuard CG48 is an extremely compact system for

emergency lighting, with the benefit of built-in automatic

testing. The system and luminaires are regularly tested and

any faults identified, affording a high level of integrity. CG48

systems are easy to design, install, program and maintain.

Every panel has four output circuits, each with a maximum of

12 luminaires. Designed primarily with smaller installations in

mind, CG48 can also be utilised in larger projects that would

benefit from independent sub-systems, such as multi-floor or

multi-wing accommodation blocks. An application controller

allows up to 32 panels to be networked, with central control

and facility to connect a printer.



55


CEAGUARD CG48

General

Cubicle Zinc coated steel panels with powder coat RAL7035 Light Grey finish.

Lockable door with transparent panel for visible status display.Segregated control gear/battery compartment. Top cable entries. Wall

mounted




Battery fuse Cartridge type

Input terminals DIN rail mounted near to cable entry, 4 mm2 capacity

Charger Constant voltage, current limited output

Recharge period - 10 hours (24 Ah) or 20 hours (52Ah).

Deep discharge protection Fitted as standard. Automatic shutdown of the output modules when

battery voltage falls below pre-set level, during extended periods of

mains supply failure

Monitoring circuits Terminals and 24V current lo op provided for connection of supply

circuit/phase monitors. Max permissible cable run of the monitoring

loop is 2,000m using 1.5mm2 cable

3 x volt free contacts for remote failure/status indication


reference to ambient temperature to optimise charging and battery life.

Control module Programmable, with 2 line alphanumeric LCD display and LED

indicators

Alarm warning Audible alarm fitted internally for charge, luminaire or general supply

failure

Converter

Output voltage 220V DC

Max. supply capacity 4 independent circuits, each with up to 12 x 8W CeaGuard compatible

luminaires

Max. surge current 120 A/1ms

Output terminals DIN rail mounted, 2.5mm2 capacity



STANDARD SPECIFICATIONSYSTEM OPERATION



• The load to luminaires converted for maintained mode emergencyuse, is supplied by the system from the normal mains connected

into the relevant maintained input supply terminals, via a

changeover contactor fitted to each of the 4 output converter

modules


power to converted luminaires, until mains power is restored

(or for the rated duration of the system in the event of extended

mains failure)

• Output voltage from the system, via the output module, is 230V AC

under normal conditions, when operating in maintained mode and

220V DC nominal in the event of complete mains failure

• The system operates with dedicated CeaGuard compatible slave

luminaires. An integral module is addressed using rotary switches

• Each of the output circuits can be programmed to operate in

non-maintained, permanently maintained or switched maintained

mode (switched maintained via remote switching of maintained

supply or by change of output module setting)

• The CeaGuard system carries out weekly functional and annual fullduration tests automatically. The results can be viewed on the

control module or downloaded to a printer via the application

controller

• No additional data cable is required for the testing function, as all

signalling and reporting is carried down the power cable

• Up to 4 individual emergency lighting circuits can be operated

from a single CG48 system. Each circuit can accept up to

12 x 8W luminaires

DIMENSIONS


CG48 panel 600 400 160

Additional battery cubicle 700 500 190

(for 3 hour system)

W

H

D

LUMINAIRE CONVERSION MODULE

CG48 is designed primarily to operate 8W converted luminaires. Higher

wattage lamps can also be used, although this would result in fewer

luminaires being capable of connection to an individual CG48 panel.

Each module has a rotary switch for addressing. A comprehensive standard range of CeaGuard luminaires is listed on

page 58.

Lamp Wattage & Type Emergency Ballast Maximum per

Lumen Factor Circuit

9-13W TC-S/TC-DE 1.00 8

18-26W TC-L/TC-DE 1.00 3

32W TC-T 0.50 3

36W TC-L/T8 1.00 2

58W T8 1.00 1

MAXIMUM CIRCUIT LOADING FOR LAMPS ABOVE 8W

Note: Maximum loading for each type of lamp assumes no other types of lamps are

connected



56


SUPPLY CIRCUIT MONITOR

Provides signal to the CG48 unit in the

event of supply circuit or phase failure,

interrupting the 24V current loop of

the panel which then energises all

emergency luminaires.2.5mm2 terminals. Dims: 85mm(H) x

W53mm(W) x 65mm(D). DIN rail

mounting.

REMOTE INDICATOR/ISOLATOR

Remote indication of status of CG48

panel. LED’s indicate mains ON/OFF,

battery operation and system/luminaire

failure. Indicator is powered by the CG48

panel. Built-in key operated switch allows

isolation of the panel.

Dims: 180mm(H) x 80mm(W) x 55mm(D).

2.5mm2 terminals. Wall mounting.

CEAGUARD APPLICATION

CONTROLLER

Micro-processor controlled, for the

recording and remote control of up

to 32 CeaGuard CG48 panels. All

messages and commands are transmitted

via the 3-wire serial data bus between the

controller and panels. A standby voltage

in the CG48 panel ensures operation

during a mains fail condition. DB25

interface for connection of a printer (IBM proprietary/HP DeskJet

printer driver included) to download logbook for test record-keeping.

2.5mm2 terminals.

Dims: 75mm(H) x 175mm(W) x 85mm(D). DIN rail mounted.

CONTROL MODULE

The control module is used for set up, programming, testing,

monitoring and fault/alarm indication. Programming is menu driven

via a 2 line LCD display, using 4 push buttons for selection, with aconstant programming memory. The module has three main functions:

- Display of the current panel/luminaire status

- Control and monitoring of all test cycles and functions

- Configuration of the output module mode of operation

The following is displayed:

- Battery voltage level

- Battery current during test run or emergency operation

- Charger fault

- Interrupted battery circuit

- Duration test failure

- Deep discharge protection “ON”

- Function test (FT) in progress

- Battery duration test (BT) in progress

Function and battery duration tests can be manually initiated and

cancelled any time. The display indicates the circuit and address

number of luminaires with a fault condition. This can be cross

referenced with luminaire location chart to identify the exact location.

Three LEDs, which are visible with the panel door closed, indicate:

- Mains ON/OFF (green)

- Battery in operation (amber)

- Luminaire or panel test failure (red)

The control module allows free programming of each of the

4 output circuits to independently operate in non-maintained,

permanently maintained or switched maintained mode (via a remote

switch).

Circuit no Luminaire identification(X alongside a luminairenumber indicates that thisparticular luminaire is faulty)

SYSTEM DESIGN & APPLICATION

• Determine the number of emergency luminaires to be used using

the spacing charts at the rear of this catalogue

• Use the plans and quantity of luminaires to determine the number

of circuits and panels required (Each panel has a maximum of 4

circuits, with 12 x 8W luminaires per circuit. Less luminaires per

circuit if higher wattage lamps are used)

• Determine whether each independent circuit should be non-

maintained, permanently maintained or switched maintained

• If it is inappropriate to operate a circuit in the permanently

maintained mode, circuit monitors should be used to switch them

on in the event of a failure of the final circuit to the normal mains

luminaires in that area

• Locate the CG48 panel where the visual indication/alarms can be

readily seen and heard. Alternatively use an application controller or

remote indicator. Select a location where fire risk is minimised (see

notes on ventilation)

• Output wiring should be in fire protected cable

• As the luminaires are individually addressed, circuits can be teed or

spurred, as is convenient• Add a remote indicator and/or application controller for remote

indication or control, or if printer connection/panel networking is

required

• Set up the system using the control module. Program the mode

of operation of each circuit. Program date and time of first test

CEAGUARD CG48



57


CEAGUARD CG48

CG48 SYSTEM REFERENCES

Description Cat. No.

Cabinet with control module, charger & batteries -24Ah, 1 hour duration CG48/220/24

Cabinet with control module, charger & batteries -

65Ah, 3 hour duration CG48/220/65

Application controller CG48

Supply circuit monitor CG3P

Remote Indicator/Isolator CGF3

INSTALLATION NOTES



efficiently and safely• Adequate ventilation has been provided in the cubicle to allow a






calculations


rooms:


ENTERING. NO SMOKING.

11L1 12N 32N N 31L3 L4 22N 21L2 + S2 S3 S4-- S1AGE L N PE PEPEPEPE 42322212 41312111

Systemoperational

Batteryoperation

Systemfailure

On

Off

N L 3 L 2 L 2

1 2 3

L1 L1

S S

N L3 L2 L2

1 2 3

L1 L1

S S

Typical Schematic - CeaGuard 48 system



60


BRITEWAY

• Compact and unobtrusive

• Long life LED technology

• Axially mounted for optimum aesthetics

• Simple surface installation

• Low power consumption

Menvier Briteway is a very compact low profile emergency

luminaire, with dimensions a fraction of the size of traditional

bulkheads. It utilises LED technology to provide an

unobtrusive, low maintenance, emergency lighting solution

for a wide variety of areas. Unlike traditional fluorescent

emergency luminaires, Briteway is optically engineered to

provide maximum performance when mounted axially, thus

complementing the typical mains lighting layout. Briteway is

simple to install, being surface mounted and having a plug in

mains connection and first fix backplate. The low energy

consumption and carefully controlled light distribution of the

twin, high output long life LED light sources make Menvier

Briteway ideal for nightlighting or background illumination

applications.

198mm

36mm

107mm

LAMP OPTIONS

• 2 x 1W high intensity LED

MATERIALS

• Base, mounting plate and cover, fire retardant ABS, lens optical

grade acrylic

INSTALLATION NOTES

• Low profile surface fixing

• First fix back plate with self locking clip on main body

• Plug in electrical connection and main body automatically locks

into position when pushed into place, requires tool to remove

• Designed to provide optimum performance when mounted axially

• Purpose designed surface cable pattress available

• Pattress has 20mm knockouts in each side and end

• Pattress accepts standard mini trunking terminations and fixings

DIMENSIONS

OPTIONS

• EasiCheck

SPECIFICATION

Slave - To specify state: Low profile, ceiling mounted, Static inverter

slave luminaire with dual high output white LED light sources and

optical design optimised for axial mounting. Installation via first fix

back plate and fully compliant with EN 60598-2-22 as Menvier

Briteway range part no. ________

PHOTOMETRIC DATA

CATALOGUE NUMBERS

System Mode Cat. No. Weight (kg)

Static inverter slave BW230 0.3

Surface wiring pattress BWPAT 0.1

Escape route 2m wide Open (anti-panic) area1 lux min 0.5 lux min

Luminaire Mounting Lux leveltype height (m) directly

under

Slave 2.5 1.9 1.3 3.0 7.8 2.5 1.0 2.9 7.1 2.7

3.0 1.3 1.1 3.4 8.0 2.0 0.9 3.2 7.4 2.8

4.0 0.8 - - - - 0.9 3.6 7.8 2.0

0.5L0.5L

0.5L

0.5L

L (mm) W (mm) D (mm)

Standard 198 107 36

c/w Pattress 198 107 80

Simple installation via first fix

back plate

Optional pattress to suit surface

wiring

Pattress supports conduit and

surface trunking



62


VISTRAL

• Attractive, curved, low profile design

• Stylish exit sign using legend kit

• EasiCheck and CeaGuard options

• Available in AC/DC and AC mains slave versions

Equally at home in prestigious installations and commercial

interiors, Vistral is an ultra-low profile luminaire with a stylish

design, allowing it to blend unobtrusively into any

environment. The luminaire has a maximum depth of only

50mm and appears even slimmer thanks to an elegantly

curved upper gallery, which also incorporates the efficient

clear fresnel lens. The excellent flashing developed by this

wide lens also permits Vistral to be deployed as an attractive

exit sign, using the optional legend kit.

CATALOGUE NUMBERS


CeaGuard slave VS230CG 0.95

24V AC/DC Central system slave VS24 0.95



230V AC Static inverter system slave VS8S230 0.95

Legend kit

European format self-adhesive legend kit LEXSAVS

50mm

180mm365mm

LAMP OPTIONS

• 8W T5 fluorescent, 3500°K - G5 cap

MATERIALS

• Upper/lower gallery - polycarbonate and ABS

• Lens - clear polycarbonate

INSTALLATION NOTES

• Suitable for ceiling or wall mounting

• Lower gallery fixed direct, via keyhole slots

• BESA entry on rear. Cable entries on side and end

• Upper gallery and lens have snap fix retention

• Supplied complete with 1 x 8W lamp

DIMENSIONS

OPTIONS

• EasiCheck addressable testing

• Central system slave versions

• CeaGuard testing version

SPECIFICATION

Slave - To specify state: Central system slave compatible, 50mm deep

ultra-low curved profile decorative emergency luminaire, with snap fix

high quality fresnel lens and upper gallery, in white finish, as Menvier

Vistral range, part no. ________

PHOTOMETRIC DATA

Escape route 2m wide Open (anti-panic) area

1 lux min 0.5 lux min


under

Slave

AC/DC 2.5 4.89 2.9 6.8 6.8 2.6 2.3 7.5 7.2 2.3

4.0 1.91 3.5 8.6 7.4 2.3 3.0 8.9 8.9 2.5

6.0 0.85 - - - - 3.5 10.0 9.8 2.1

AC/AC 2.5 6.7 3.1 7.8 7.8 3.0 2.7 8.4 7.7 2.04.0 2.6 3.9 9.0 8.4 2.9 3.2 9.8 9.8 2.1

6.0 1.1 3.1 11.2 7.6 1.4 3.9 11.2 11.2 1.9

0.5L0.5L

0.5L

0.5L

T5



63


Emirates Stadium

Vistral



64


FAIRLITE

• Unobtrusive low profile

• Attractive styling

• Choice of grey, chrome and brass finish

• Easy to install, with quick fit geartray and diffuser

• EasiCheck options

The popular Fairlite range offers attractive styling and a

wide range of options, to satisfy a variety of applications.

The luminaire provides efficient, diffused lighting during

normal operation and effective escape route illumination

when the mains power fails. Available in square or round

format, to blend with different architectural styles, Fairlite

employs 2D lamp technology for efficiency and long life.

In addition to the standard grey base, a choice of brass and

chrome finish is available, particularly suitable for hotels,

waiting areas and office receptions. Fairlite is also easy to

install, with both the geartray and diffuser having snap fit

location.

100mm

285mm

90mm

260mm260mm

LAMP OPTIONS

• 16W, 28W 2D compact fluorescent, 3500°K - GR10q-4 cap

MATERIALS

• Base - polycarbonate, self-coloured grey finish/brass or chrome

coated finish

• Diffuser - opal polycarbonate

• Geartray - steel, powder coated in Permawhite finish

INSTALLATION NOTES


• BESA entry and screw fixing drill outs on rear

• Geartray and diffuser clip into position. Fitted and removed without

need of tools

• Supplied complete with lamp

DIMENSIONS

OPTIONS


• Central system combined mains/slave versions

• 230V AC mains slave uses HF gear

SPECIFICATION

Slave - To specify state: Intelligent self-testing/Central system

compatible slave, decorative low profile emergency luminaire,

with square/circular clip-on opal diffuser and grey/brass/chrome base,as JSB Fairlite range, part no. ___________

PHOTOMETRIC DATA


Luminaire Mounting

type height (m)

Slave - 28W

AC/DC 2.5 3.2 8.4 8.4 3.2 2.9 9.1 9.1 2.9

4.0 4.4 9.6 9.6 4.4 3.3 11.2 11.2 3.3

6.0 2.4 9.5 9.5 2.4 3.3 12.6 12.6 3.3

AC/AC 2.5 5.0 12.5 12.5 5.0 4.4 12.6 12.6 4.4

4.0 5.9 15.1 15.1 5.9 5.2 15.4 15.4 5.2

6.0 6.4 16.8 16.8 6.4 5.8 18.1 18.1 5.8

0.5L0.5L

0.5L

0.5L



65


FAIRLITE

CATALOGUE NUMBERS

Lamp Rating System Mode Grey Finish Chrome Finish Brass Finish Weight (kg)

Square Fairlite

1 x 16W 230V AC Mains slave SG16230 SG16230CH SG16230BR 1.50

1 x 28W 50V AC/DC Combined mains/slave SG50 SG50CH SG50BR 1.90

1 x 28W 110V AC/DC Combined mains/slave SG110 SG110CH SG110BR 1.90

1 x 28W 230V AC Mains slave SG28230 SG28230CH SG28230BR 1.90

Round Fairlite

1 x 16W 230V AC Mains slave RG16230 RG16230CH RG16230BR 1.50

1 x 28W 50V AC/DC Combined mains/slave RG50 RG50CH RG50BR 1.90

1 x 28W 110V AC/DC Combined mains/slave RG110 RG110CH RG110BR 1.90

1 x 28W 230V AC Mains slave RG28230 RG28230CH RG28230BR 1.90

Brass finish Chrome finish



66


SLIMLITE

• Shallow profile design - only 62mm deep

• Large format ideal for retrofit installations

• Optional large legend kit with 36m viewingdistance

• Diffuser retained by screws

• EasiCheck central addressable options

• Available in AC/DC slave versions

At only 62mm deep and with a softly rounded edge opal

diffuser, Slimlite is an unobtrusive luminaire that is suitable for

numerous interior applications. The large format design offers

dual benefits. Firstly, the luminaire is ideal for use as a slim

profile exit sign, using the optional legend kit. A viewing

distance of up to 36m is achieved with this accessory.

Additionally, decoration damage, often experienced when

removing old luminaires in refurbishments, is easily covered

by Slimlite. Diffusers are retained by screws ensuring that

Slimlite can be confidently used in public areas, such as

hotels, pubs or schools.

62mm

194mm 416mm

LAMP OPTIONS


MATERIALS

• Base - polycarbonate, white finish


• Gear cover/reflector - steel, powder coated in Permawhite finish

INSTALLATION NOTES


• Base fixed direct, via keyhole slots

• BESA entry on rear. Conduit entry on one side

• Gear cover/reflector retained by 2 screws

• Diffuser secured by screws


OPTIONS



DIMENSIONS

SPECIFICATION

Slave - To specify state: Central system compatible slave, decorative

62mm deep, low profile emergency luminaire, with opal diffuser

secured by screws, as Menvier Slimlite range, part no. ________

PHOTOMETRIC DATA

CATALOGUE NUMBERS


24V AC/DC Central system slave SLO24 1.40



Description Cat. No. Weight (kg)

European format self-adhesive legend kit LEXSAL 0.10



under

Slave

AC/DC 2.5 2.24 2.3 6.6 6.2 2.2 2.3 7.9 7.2 2.1

4.0 0.88 - - - - 2.2 8.9 8.4 2.1

6.0 0.39 - - - - - - - -

AC/AC 2.5 4.10 2.3 6.4 6.2 2.2 2.2 7.3 7.1 1.6

4.0 1.50 2.0 6.6 6.6 1.8 2.3 8.4 8.4 1.7

6.0 0.75 - 5.4 5.2 - 1.9 9.7 9.5 1.3

0.5L0.5L

0.5L

0.5L

T5

Slimlite with legend



67


CATALOGUE NUMBERS


CeaGuard slave NEURO230CG 0.90

24V AC/DC Central system slave NEURO24 0.90



230V AC Static inverter system slave NEUROS8230 0.90

Legend kit Cat. No. Weight (kg)

European format self-adhesive legend kit LEXSAM 0.10

• Unobtrusive flush mounted design

• Quick and simple installation

• Hinged fresnel lens for easy maintenance

• Legend kit option for attractive flush exit sign

• EasiCheck and CeaGuard self-testing options

• AC/DC and AC mains slave versions

Eurolite provides a perfect solution for installations where the

use of surface mounted emergency luminaires would detract

from the décor and clean ceiling lines. The neat, unobtrusive

design also incorporates time and money saving features,

including a simple yet ingenious recessing frame with

adjustable ceiling clamps, clip-in body and hinged fresnel

lens. The carefully designed prisms of the lens afford excellent

spacing characteristics from a recessed luminaire. When fitted

with the optional legend kit and flush mounted into a wall,

Eurolite makes an attractive exit or directional sign.

Self-testing options complete this versatile range.

EUROLITE

D1

D2

W L

LAMP OPTIONS


MATERIALS

• Body, recessing plate and gear cover - flame retardent ABS,

white finish

• Fresnel lens - clear polycarbonate with linear prisms

INSTALLATION NOTES

• Suitable for flush mounting into ceiling or wall

• Recessing frame secured by adjustable clamps or screw fixed

• Front access only is required to install luminaire

• BESA entry on rear. Cable entries rear and end

• Electrical supply connected to body. Body is then clipped into

the recessing frame

• Lens snap fixes into position and hinges for lamp replacement


OPTIONS

• EasiCheck addressable testing.


• CeaGuard testing versions.

DIMENSIONS

SPECIFICATION


compatible slave, recessed emergency luminaire, requiring front access

only for installation, with adjustable clamp fixed recessing plate,clip-in body and hinged polycarbonate lens, as Menvier Eurolite range,

part no. ___________

PHOTOMETRIC DATA



under

Slave

AC/DC 2.5 3.22 3.3 8.2 5.7 2.0 2.8 8.1 6.4 2.0

4.0 1.25 3.2 9.9 5.6 1.3 3.4 10.2 7.5 1.9

6.0 0.56 - - - - 3.3 12.3 7.7 0.8

AC/AC 2.5 4.40 3.6 8.6 6.4 2.4 3.0 8.3 7.0 1.6

4.0 1.70 2.7 10.8 6.4 2.0 3.8 10.4 8.4 1.6

6.0 0.80 - 11.8 5.4 - 4.1 13.0 9.1 1.4

0.5L0.5L

0.5L

0.5L

T5

L (mm) W (mm) D1 (mm) D2 (mm) Cut out (mm)

407 150 78 7 364x112



68


MICROPOINTMICROPOINT

• 60,000 hour life LED technology

• Minimal Visual presence

• Remote gear box

• Plug in mains and LED connections

Micropoint is a recessed LED emergency luminaire designed

to satisfy the most demanding of aesthetic requirements.

The only visible part is a flush mounted LED light assembly,

with a visible diameter of just 40mm. The control gear are

housed in a remote pod with plug in connector for the mains

supply. A spring clip fixing arrangement provides quick and

simple installation of the LED luminaire body. For simplicity,

the green status LED is incorporated into the luminaire body,

enabling maintenance personnel to carry out mandatory

maintenance checks without requiring access to the remote

module. For applications with limited access, an adaptor plate

is available which allows the remote gear pod to pass through

the luminaire fixing hole, thus removing the need for any

additional maintenance access. The high power, high

efficiency LED light source provides uniform illumination ideal

for coverage of open areas.

40mm

52mm

2mm

LAMP OPTIONS

• High power (3W) white LED

MATERIALS

• Luminaire body - Aluminium

• Remote gear pod - ABS

INSTALLATION NOTES

• 0.5 Lux spacing for open areas is typically 6 - 6.5 metres,

detailed spacing data is available on request

• Flush mounting

• Spring retaining clips require only front access for installation

• Mains supply via plug and socket on remote gear pod

• No disassembly of gear pod required during installation

• Cut out diameter (without gear pod adaptor plate 32mm hole saw)

• Cut out diameter (with gear pod adaptor plate 51mm hole saw)

• Slave version must be installed via a locally fused connection

DIMENSIONS

OPTIONS



SPECIFICATION

To specify state: Flush mounted slave 3W LED emergency luminaire,

retained in ceiling with spring fixing assembly requiring front access

only. Control gear to be mounted in remote pod with plug in

connections for incoming supply and LED head as per Menvier

Micropoint part number __________

CATALOGUE NUMBERS


230V AC slave MPS230 0.25

Optional adaptor allows

installation in solid ceilings



69


SINTRALITE

• Attractive flush mounting design

• Dual mode maintained/non-maintained operation

• Choice of chrome, brass and white colour finish

• Rapid fit ceiling spring clips



Available in a choice of colour finishes, to complement all

forms of interior decoration, Sintralite is an attractive recessed

mounting luminaire. Chrome and brass finish versions are

particularly suited to prestigious locations, such as hotels,

restaurants and reception areas.

D

W

L

LAMP OPTIONS


MATERIALS

• Body - ABS, self-coloured white finish/brass or chrome coated

finish

• Geartray/reflector - polycarbonate, self coloured with silver

metalised reflector surface coating

• Prismatic controller - clear polycarbonate

INSTALLATION NOTES

• Suitable for flush mounting in ceiling

• Body retained in ceiling by strong spring steel clips

• 20mm cable entries rear and end

• Geartray and controller both clip in to body


DIMENSIONS

OPTIONS



• CeaGuard testing versions

SPECIFICATION

Slave - To specify state: Central system compatible slave,

recessed emergency luminaire, retained in ceiling by strong

spring clips, with clip-in geartray and prismatic controller,

available in white/chrome/brass finish, as JSB Sintralite range,

part no. ___________

PHOTOMETRIC DATA

CATALOGUE NUMBERS

System Mode White Finish Chrome Finish Brass Finish Weight (kg)

24V AC/DC Central system slave SN24 SN24CH SN24BR 1.00



230V AC Static inverter system slave SN230 SN230CH SN230BR 1.00

CeaGuard Slave SN230CG SN230CHCG SN230BRCG 1.00



Luminaire Mountingtype height (m)

Slave

AC/DC 2.5 2.8 7.5 6.3 2.3 2.5 8.0 6.8 2.1

4.0 2.1 8.0 6.4 1.9 2.8 9.5 8.2 2.2

6.0 - - - - 1.8 10.8 9.1 1.8

AC/AC 2.5 3.3 8.4 6.0 2.3 2.9 8.1 6.7 1.5

4.0 3.8 10.2 6.2 1.8 3.6 10.2 8.0 1.6

6.0 - 10.8 4.6 - 3.8 12.6 8.7 1.2

0.5L0.5L

0.5L

0.5L

T5

L (mm) W (mm) D (mm) Cut out (mm)

389 126 80 340x90



70


Emirates Stadium

Atlantic



71


CATALOGUE NUMBERS


CeaGuard slave AT230CG 1.00

24V AC/DC Central system slave AT24 1.00



230V AC Static inverter system slave ATS8230 1.00


European format self-adhesive legend kit LEXSABL 0.10

• Weatherproof and vandal resistant

• High performance, wide spacing distribution

• Time saving first fix base and plug-in geartray

• Optional large format legend kit


Weatherproof, stylish and robust, the Atlantic family is suitable

for practically any application and location. All share the

convenience of a first fix base, plug in geartray and self

locking snap on vandal resistant lens which greatly speeds

installation, saving time and cost. The robust, fully

polycarbonate construction affords enhanced protection for

even the most vulnerable locations.

ATLANTIC

80mm

135mm330mm

LAMP OPTIONS


MATERIALS

• Base geartray and lens - polycarbonate

INSTALLATION NOTES


• First fix base with heavy duty connector

• BESA entry on rear, conduit entries on ends and side

• Plug-in geartray

• Self-locking snap on lens. Requires tool for removal


DIMENSIONS

OPTIONS




SPECIFICATION

Slave - To specify state: Intelligent 2/3 cell self-testing/Central system

compatible slave, IP65 vandal resistant, high performance emergency

luminaire, with plug-in geartray, self-locking snap on lens that requires

tool for removal and standard/high light output circuit, as Menvier

Atlantic/Atlantic Plus range, part no. ___________

PHOTOMETRIC DATA



under

Slave

AC/DC 2.5 3.05 3.5 10.4 5.9 2.0 3.6 10.7 6.7 2.0

4.0 1.19 1.3 9.9 5.6 1.1 3.1 13.5 7.7 2.06.0 0.53 - - - - 1.1 12.0 7.9 0.7

AC/AC 2.5 4.40 4.3 11.4 6.6 2.4 4.0 10.6 7.0 1.7

4.0 1.70 2.7 12.0 6.6 2.0 4.2 13.7 8.5 1.7

6.0 0.80 0 6.2 5.4 - 2.2 15.3 9.5 1.4

0.5L0.5L

0.5L

0.5L

Atlantic with legend

T5



72


DRG

• Heavy duty vandal resistant construction

• IP65 weatherproof rating

• Attractive and functional grille and pattress,allowing flush fixing over conduit

• Tamper resistant security screws


• Matching mains version

A strong die cast base and tough, tamper resistant

polycarbonate diffuser affords the DRG range an extremely

high level of vandal resistance. Yet whilst robust, DRG is also

stylish and attractive and will blend into a variety of

contemporary and period applications, both interior and

exterior. The style and resilience is further enhanced by an

optional die cast aluminium grille and pattress kit, which has

functional security screws and special channels on the back,

allowing the kit to fit flush over surface conduit. DRG is

available with the latest in self-test technology and a matching

mains only version for attractive, efficient general illumination.

105mm

285mm

150mm

334mm

LAMP OPTIONS

• 28W 2D compact fluorescent, 3500°K - GR10q-4 cap

MATERIALS

• Base - die cast aluminium, powder coated in white finish

• Pattress kit - die cast aluminium, powder coated in grey finish



INSTALLATION NOTES


• BESA entry drill outs on rear, alternative drill outs for screw fixing

• Optional grille and pattress kit adds side conduit entry options

• Pattress fits flush over surface conduit and BESA box

• Geartray retained by screws

• Diffuser retained by allen key security screws

• Supplied complete with lamp

OPTIONS


• Central system combined mains/slave versions

• Optional die cast grille and pattress accessory

DIMENSIONS

SPECIFICATION


compatible slave, IP65 vandal resistant, robust emergency luminaire,

with die cast aluminium base, tough polycarbonate opal diffuser and

optional attractive and functional die cast grille and pattress, as JSB

DRG range, part no. ___________

PHOTOMETRIC DATA

CATALOGUE NUMBERS


110V AC/DC Combined mains/slave DRG110 2.50

230V AC Mains slave DRG28230 2.50


Die cast grille and pattress kit DRGACCKIT 2.00



Luminaire Mountingtype height (m)

Slave

AC/DC 2.5 3.6 9.5 9.5 3.6 3.2 10.3 10.3 3.2

4.0 3.9 10.5 10.5 3.9 3.7 12.0 12.0 3.7

6.0 3.2 10.8 10.8 3.2 3.8 14.0 14.0 3.8

AC/AC 2.5 5.5 13.6 13.6 5.5 4.7 15.4 15.4 4.7

4.0 6.4 16.4 16.4 6.4 5.7 18.2 18.2 5.7

6.0 7.0 18.4 18.4 7.0 6.4 20.7 20.7 6.4

0.5L0.5L

0.5L

0.5L

DRG with grille and pattress kit Pattress kit, detailing channels

for surface conduit



73


CATALOGUE NUMBERS


24V AC/DC Central system slave WL24 1.20



230V AC Static inverter system slave WL230 1.20

Accessories Cat. No. Weight (kg)

Semi-recessing mounting bezel WLBEZ 0.05

European format self-adhesive legend kit LEXSAM 0.10

• IP65, vandal resistant polycarbonate construction

• Rapid installation, first fix base with plug-in

geartray• Sustained operation version

• Optional semi-recessing bezel

• Legend kit available


Weatherlite is a popular, traditional weatherproof luminaire,

which can be used for exterior and interior projects.

Constructed from sturdy polycarbonate, Weatherlite features

a time saving first fix base plate and plug-in geartray, ideal for

convenient maintenance. Tamper resistant screws retaining

the diffuser allow the unit to be confidently employed in public

areas. A wide choice of standard options includes a sustained

operation version, ideal for the lighting of walkways in housing

complexes, whilst a semi-recessing bezel accessory is

available to further enhance the appearance of Weatherlite.

WEATHERLITE

D

WL

D1

D2

WL

LAMP OPTIONS


MATERIALS

• Base - polycarbonate, grey finish



• Recessing bezel - steel, powder coated in Permawhite finish

INSTALLATION NOTES


• First fix base plate with heavy duty connector

• BESA entry on rear, facility for conduit entry on one end

• Plug-in geartray, retained by single screw

• Diffuser retained by allen key screws


DIMENSIONS

OPTIONS



• CeaGuard testing versions• Semi-recessing flanged bezel attachment

SPECIFICATION

Slave - To specify state: Central system compatible slave, IP65 vandal

resistant emergency luminaire, polycarbonate base with BESA and

conduit entries, plug-in geartray and tamper resistant opal diffuser,

as Menvier Weatherlite range, part no. ___________

PHOTOMETRIC DATA



under

Slave

AC/DC 2.5 3.68 2.6 7.2 6.4 2.4 2.3 8.6 7.1 2.2

4.0 1.43 2.0 7.2 6.6 1.8 2.5 9.8 8.4 2.16.0 0.64 - - - - 1.5 10.0 9.0 1.4

AC/AC 2.5 5.10 3.1 8.4 6.8 2.5 2.9 9.5 7.3 1.7

4.0 1.90 2.8 8.8 7.6 2.3 3.1 10.9 9.1 1.9

6.0 1.00 0.5 8.0 6.8 0.5 2.8 12.3 10.6 1.7

0.5L0.5L

0.5L

0.5L

Style L (mm) W (mm) D/D1 (mm) D2 (mm) Cut out (mm)

Surface mounted 365 125 95 - -

Semi-recessed 390 152 39 56 370 x 135

Weatherlite with legend

T5



74


ALFALUX

• IP65, heavy duty vandal resistant construction

• Rapid-fit hinged geartray with plug and socket

connection• Heavy duty terminal block

A die cast aluminium body, virtually unbreakable

polycarbonate diffuser, hinged plug and socket geartray

and high emergency lamp lumens have all contributed

to Alfalux being first choice for public authorities in the

UK and overseas. The option of fixing holes outside of the

weatherproof area allow Alfalux to be mounted without the

worry of breaking the IP65 seal, whilst threaded conduit

entries permit easy connection of cables in vulnerable

locations. The sustained version offers additional peace

of mind for public housing walkways and car parks, with a

matching mains only version providing good general

illumination. Self-test versions and a smart semi-recessing

bezel complete a versatile range.

D

W

L

D1

D2

WL

LAMP OPTIONS


MATERIALS

• Base - die cast aluminium, powder coated in Permawhite finish




INSTALLATION NOTES


• Twin BESA entry drill-outs on rear

• 20mm conduit entry on each end, with blanking plugs

• Direct screw fix option, with fixing holes outside IP65 area

• Geartray hinged, retained in closed position by single screw

• Plug and socket terminal block, accommodating 3 x 1.5mm2

or 2 x 2.5mm2 looped cables for through wiring• Diffuser retained by allen key security screws

DIMENSIONS

OPTIONS



• Semi-recessing flanged bezel attachment

SPECIFICATION

Slave - To specify state: Central system compatible slave, IP65 vandal

resistant emergency luminaire, die cast aluminium base with twin BESA

drill-outs, 2 x conduit entries with blanking plugs and screw fixing

holes outside the weatherproof area, hinged geartray with plug and

socket terminal block and tamper resistant opal diffuser, as JSB Alfalux

range, part no. ________

PHOTOMETRIC DATA

CATALOGUE NUMBERS


24V AC/DC Central system slave AF824 2.20



230V AC Static inverter system slave AF8230 2.20

Mounting bezel Cat. No. Weight (kg)

Semi-recessing mounting bezel AF8FM 0.05


Luminaire Mounting

type height (m)

Slave

AC/DC 2.5 2.5 7.0 5.8 2.1 2.5 6.6 5.3 2.0

4.0 1.5 6.6 5.7 1.2 2.4 7.0 5.8 2.0

6.0 - - - - - - - -

AC/AC 2.5 2.5 7.0 6.2 2.2 2.5 8.8 7.0 1.6

4.0 2.3 7.6 6.4 1.8 2.7 9.8 8.4 1.6

6.0 - 7.2 5.8 - 2.5 11.6 9.8 1.5

0.5L0.5L

0.5L

0.5L

T5



Semi-recessed 443 177 41 60 412 x 144



75


CATALOGUE NUMBERS


230V AC Slave HL8230 2.50

Slave CEAG compatible HL8230CG 2.50

• Purpose designed for high mounting heights

• BSI verified spacing performance

• IP65 rated

• Simple to install

Designing emergency lighting for areas with high ceilings

poses problems. Conventional bulkheads lack sufficient light

output and often have inappropriate photometric distribution,

and twin spot projectors are unlikely to provide the 0.5Lux

minimum coverage over the entire core area for open areas as

required for compliance with standards. Simple to install,

solution suitable for mounting heights up to 10 Metres, with

features such as a hinged geartray and push in wire terminals

for the mains supply.

ALFALUX HIGH BAY

D

W

L

LAMP OPTIONS


MATERIALS

• Base - Die cast Aluminium, finished in white powder coated paint

• Diffuser - clear polycarbonate

• Batteries (self contained versions) - Nickel Cadmium

INSTALLATION NOTES

• Suitable for ceiling mounting

• Designed for mounting heights of 6 - 10M• Twin BESA entry drill-outs on rear

• 20mm conduit entry on each end, with blanking plugs

• Direct screw fix option, with fixing holes outside IP65 area

• Geartray hinged, retained in closed position by single thumb screw

• Terminal block, accommodating push in wiring (solid or stranded

cables)

• Diffuser retained by allen key security screws


DIMENSIONS

OPTIONS


• Ceaguard testing versions

SPECIFICATION

Slave - High output high performance IP65 rated slave luminaire

complete with high output control gear and purpose designed reflector

suitable for mounting heights of up to 10 Metres. Cast Aluminium base

and heavy duty clear diffuser as JSB part number ___________

L (mm) W (mm) D (mm)

400 136 95

T5



77


CATALOGUE NUMBERS


CeaGuard slave NS8230CG 0.90

24V AC/DC Central system slave NS824 0.90



230V AC Static inverter system slave NS8S230 0.90


Semi-recessing mounting bezel NSR 0.05

European format self-adhesive legend kit LEXSAS 0.10

• Competitive range

• Easy to install, with snap-on lens

• IP65 polycarbonate construction

• Optional semi-recessing bezel

• Exit legend kit available



Suitable for both exterior and interior applications, New Safe 8

represents excellent value for money. Full third party

approvals, via the BSI Kitemark and ICEL registration

schemes, provide complete peace of mind that quality has

not been compromised. The luminaire is easy to install. New

Safe 8 has an attractive, unobtrusive and compact profile that

is suitable for a wide variety of applications, from offices and

hotels to factory units. A semi-recessing bezel accessory is

available to further enhance the appearance of this popular

luminaire.

NEW SAFE 8

L

D

W

L

D1D2

W

LAMP OPTIONS


MATERIALS

• Body and gear cover - polycarbonate, white finish

• Lens - clear polycarbonate with linear prisms


INSTALLATION NOTES


• BESA entry drilling template on rear

• Cable entries rear and end

• Lens snap-fits into position


DIMENSIONS

OPTIONS




SPECIFICATION


compatible slave, IP65 emergency luminaire, with polycarbonate

base and snap-on linear prisms lens, as Menvier New Safe 8 range,

part no. ___________

PHOTOMETRIC DATA



under

Slave

AC/DC 2.5 4.43 2.8 8.2 6.8 2.6 2.8 9.2 7.2 2.3

4.0 1.73 2.6 8.0 7.3 2.2 2.8 11.2 8.9 2.5

6.0 0.77 - - - - 2.3 11.0 9.8 2.1

AC/AC 2.5 6.10 3.5 8.6 7.4 2.8 3.0 10.1 7.4 1.9

4.0 2.30 3.0 9.4 8.2 2.8 3.3 11.9 9.5 2.1

6.0 1.10 1.2 8.8 7.8 1.0 3.1 13.4 11.1 2.0

0.5L0.5L

0.5L

0.5L

T5



Semi-recessed 358 113 47 35 331 x 86

NS8 legend kit



78


ZETA II

• Competitive IP65 weatherproof range

• Shallow and unobtrusive profile

• Simple first fix base with removable geartray

• Exit legend kit available



Zeta II continues to be popular for many types of installations.

The shallow, unobtrusive profile neatly blends into any

environment and is further enhanced by the semi-recessing

trim plate. Competitively priced, Zeta II has full BSI Kitemark

and ICEL approvals as well as an IP65 weatherproof rating.

LAMP OPTIONS


MATERIALS

• Base - flame retardant ABS, white finish

• Diffuser - linear reeded clear polycarbonate


• Recessing trim plate - steel, powder coated in Permawhite finish

INSTALLATION NOTES


• BESA entry drill-outs on rear. Cable entries on ends

• Geartray and diffuser clip into position. Removal requires tool to

release clips


DIMENSIONS

OPTIONS




SPECIFICATION

Slave - To specify state: Central system compatible slave,

IP65 emergency luminaire, with ABS base, clip-in geartray

and polycarbonate clip-on diffuser, as JSB Zeta II range,

part no. ___________

PHOTOMETRIC DATA

CATALOGUE NUMBERS


24V AC/DC Central system slave ZE824 0.90



230V AC Static inverter system slave ZE8230 0.90


Semi-recessing mounting bezel ZE8FM 0.10

European format self-adhesive legend kit ZELK 0.05


Luminaire Mounting

type height (m)

Slave

AC/DC 2.5 2.5 7.2 6.0 2.3 2.6 7.4 5.3 2.1

4.0 1.0 7.0 6.7 1.9 2.5 7.5 6.3 2.3

6.0 - - - - 1.8 7.0 6.6 1.8

AC/AC 2.5 3.0 8.4 6.0 2.6 2.9 10.9 7.0 1.5

4.0 2.9 8.4 7.6 2.6 2.9 11.8 8.7 1.9

6.0 0.5 8.2 7.4 0.5 2.9 11.8 10.5 1.9

0.5L0.5L

0.5L

0.5L

T5

D

W

L LD1

D2

W



Semi-recessed 390 132 31 44 345 x 85

Zeta II legend kit



79


• Latest LED technology - 50,000 hour life, up to 10

times longer than 8W lamps

• Ultra slim profile - only 50mm deep• Robust construction

• White, dark grey or satin chrome finish

• Uniform luminance legend panel

• Fully compliant with EN 1838

• Provides useful threshold downlight

The latest LED technology is combined with patented

pictogram technology to create the stylish Britesign range.

Constructed from steel, Britesign is ideal for public areas.

A choice of colour finishes, including plated satin chrome,

permits easy integration with any décor, including prestigious

applications. Britesign uses high intensity LED’s with a rated

life of at least 50,000 hours. This compares with a 5,000-

8,000 hour life for conventional 8W lamps, resulting in

outstanding savings in lamp replacement and labour costs.

The luminaire body and front trim/legend assembly are

supplied separately to aid designer choice.

BRITESIGN

White finish Dark grey finish Profile of Britesign



80


BRITESIGN

CATALOGUE NUMBERS


Britesign luminaire body - order trim/legend assembly separately

230V AC Static inverter system slave BSS230 1.30

CeaGuard Slave BSS230CG 1.30

Trim colour finish

Trim/legend assembly Pictogram White Dark Grey Satin Chrome Weight (kg)

Order luminaire body separately

Down arrow BSWAD BSGAD BSCAD 1.75

Left arrow BSWAL BSGAL BSCAL 1.75

Right arrow BSWAR BSGAR BSCAR 1.75

380mm50mm

275mm

LAMP OPTIONS

• 2 x 1W high intensity white LED

MATERIALS

• Body - steel, powder coated in Permawhite finish

• Trim/legend assembly - steel, powder coated in Permawhite or

textured dark grey finish, or electro-plated in satin chrome finish

• Legend panel (pre-fitted to trim) - clear acrylic with variable pitch

dot, screen print

INSTALLATION NOTES

• Suitable for wall mounting

• First fix body with 3 x 20mm entries

• BESA entry on rear, or direct screw fix via keyhole slots,

conduit entry at top 20mm knockouts at top and sides

• Can be set to operate as maintained or non-maintained

• Maintained requires addition of a switched live supply

• Trim/legend assembly (order separately) screw fixed to base

• Trim/legend assembly supplied with pre-mounted LED light source

and chosen legend pictogram fitted

DIMENSIONS

OPTIONS

• Choice of legend pictograms and trim colour finish combinations

• Intellem self test

• EasiCheck addressable testing• Central static inverter system versions


SPECIFICATION

Static inverter slave - To specify state: Intelligent self-testing/Static

inverter system compatible slave, robust, shallow profile emergency

exit sign luminaire, fully compliant with EN 1838, first fix base

incorporating BESA and conduit entries. Trim/legend assembly,

fitted with variable dot pitch pictogram, edge lit by ultra long life

LED light source, with white/textured dark grey/satin chrome trim

finish, as Menvier Britesign range, part no. ___________

MAXIMUM VIEWING DISTANCE

30 metres



81


BSI Hemel Hempstead

Britesign



82


BRITE EDGE

• Latest LED technology - 50,000 hour life,

up to 10 times longer than 8W lamps

• Fully meets EN 1838• Suitable for solid or suspended ceilings

• Compatible with EasiCheck system

• Available with self test

• Concealed cover fixings

Brite Edge is an unobtrusive recessed exit sign utilising the

latest LED technology to provide a highly reliable ultra low

maintenance, smart, recessed exit sign for prestigious

applications. The dual LEDs provide excellent uniform

illumination of the legend and offer a typical working life

of 50,000 hours, many times that of a fluorescent lamp.

Installation is simple into either solid or suspended ceilings

due to the innovative rotating fixing arms and a suspension

spring system for ease of legend retention. Self test versions

use light measuring technology to verify the actual light output

of the individual LED’s during testing.

381mm

186mm

75mm

120mm

LAMP OPTIONS

• 2 x 1W High intensity white LED

MATERIALS

• Body - Steel powder coated in permawhite finish

• Trim – Steel powder coated in a choice of colours

• Legend panel clear acrylic with variable dot pitch screen print

INSTALLATION NOTES

• Can be installed into solid or suspended ceilings

• Body is retained into ceiling by 4 suspension arms which are

retracted into the luminaire body prior to installation but rotate

outwards into position as the fixing screws are tightened

• Legend panel ordered separately

• Trim secured to body by concealed wishbone springs

DIMENSIONS

OPTIONS

• Choice of trim plate colour

• Static inverter slave version

• EasiCheck addressable testing• Choice of legends


SPECIFICATION

Slave - To specify state: Intelligent self testing/Static inverter

compatible slave recessed edgelit exit sign utilising dual white LEDs

with a design life of at least 50,000 hours. Metal body suitable for

use in solid or suspended ceiling types, luminaire retention to utilise

retractable side arms. Legend illumination to be fully compliant with

requirements of EN 1838 and product to be fully compliant with

EN 60598-2-22 as Menvier Brite Edge range part no. ___________


CATALOGUE NUMBERS

System Mode White Trim Plate Silver Trim Plate Weight (kg)

230V AC static inverter system slave BE230 BE230S 1.50

CeaGuard Slave BE230CG BE230SCG 1.50

Legend panel Pictogram Cat. No. Weight (kg)

Down arrow BEAD 0.60

Left arrow BEAL 0.60

Right arrow BEAR 0.60

30 metres



83


• Fully meets EN 1838

• Metal body construction

• Suitable for single or doubled-sided use

• Suitable for solid or suspended ceilings

• Compatible with EasiCheck system

JSB Briteblade has similar styling and construction to the

Brite Edge but incorporates a traditional fluorescent light

source and has a smaller overall height, making it ideal for

applications with limited headroom. Installation is simple into

either solid or suspended ceilings due to the innovative

rotating fixing arms that allow the fitting to pass easily into the

mounting aperture on solid ceilings and a suspension spring

system for ease of legend retention.

BRITEBLADE

White finish



84


BRITEBLADE

CATALOGUE NUMBERS

System Mode White Trim Plate Silver Trim Plate Weight (kg)

24V AC/DC central system slave BB24 BB24S 1.60

50V AC/DC central system slave BB50 BB50S 1.60110V AC/DC central system slave BB110 BB110S 1.60

230V AC static inverter system slave BB230 BB230S 1.60

CeaGuard slave BB230CG BB230CGS 1.60

Legend panel Pictogram Cat. No. Weight (kg)

Single sided panel. Down arrow LUCADS 0.35

Double sided panel. Left and right arrow LUCALR 0.35

Double sided panel. Down arrow LUCAD 0.35

351mm

146mm

75mm

120mm

LAMP OPTIONS


MATERIALS

• Body - Steel powder coated in permawhite finish

• Trim - Steel powder coated in a choice of colours

• Legend panel clear acrylic with pre applied screen print legend

INSTALLATION NOTES

• Can be installed into solid or suspended ceilings

• Body is retained into ceiling by 4 suspension arms which are

retracted into the luminaire body prior to installation but rotate

outwards into position as the fixing screws are tightened

• Legend is ordered separately

DIMENSIONS

OPTIONS

• Choice of trimplate colour

• Central system slave (AC/DC or static inverter)

• EasiCheck addressable testing• CeaGuard testing versions

SPECIFICATION

Slave - To specify state: Intelligent self testing/central system

compatible slave, recessed edgelit exit sign with metal body suitable

for use in solid or suspended ceiling types. Luminaire retention to

utilise retractable side arms. Legend illumination to be fully compliant

with requirements of EN 1838 and product to be fully compliant with

EN 60598-2-22 as JSB Briteblade range part no. ___________


T5

24 metres



85


EVOLED

• 60,000 hour LED light source

• Fully complies with EN 1838

• Long life LED technology


Menvier Evoled combines the long life and low maintenance

benefits of LED technology with energy efficient operation and

prestigious styling to produce an exit sign suitable for almost

any application. Available in a choice of either white or silver

colour finishes, Evoled is quick and simple to assemble with

a snap together design incorporating a self locking clip in

legend panel. Reliable operation is assured by the long life

LED light source.

267mm

190mm

120mm

LAMP OPTIONS• 1 x 1W high output high efficiency side emitting white LED

MATERIALS

• Cover and base: polycarbonate

• Legend Panel: PMMA with pre applied legend

INSTALLATION NOTES


• Screwless snap together assembly

• Legend panel has a self locking mechanism to prevent malicious

removal

• Push in connectors for mains supply cables

OPTIONS

• Static inverter slave version

• Choice of colour finishes

• Ceaguard testing versions

SPECIFICATION

Slave - To specify state: Compact stylish edgelit exit sign using

LED technology and fully compliant with EN 1838. Minimum viewing

distance of 24 metres and complete with self retaining clip in

Legend as Menvier Evoled range part no. ___________

DIMENSIONS


CATALOGUE NUMBERS


230V AC slave White ICS230

230V AC slave Silver ICS230S

CeaGuard White ICS230CG

CeaGuard Silver ICS230SCG

Legend panels Pictogram Cat. No.

Double sided panel. Down arrow ICAD

Single sided panel. Down arrow ICADS

Double sided panel. Left and right arrow ICALR

24 metres



86


SAFE EDGE

• Suitable for wall or ceiling mounting

• Legend panel pivots for use on walls or sloping

ceilings• Slim modern profile

• Quick and easy to install

• Accepts surface or concealed wiring

• Available in a choice of colours

The ever popular Safe Edge has been fully restyled and

redesigned to make it ideal for use in modern prestigious

applications. The new design retains popular features such

as the universal legend arrangement, which pivots through a

full 90 degrees making the product suitable for mounting on

walls, flat ceilings and even sloping ceilings.

To maximise versatility, concealed surface cable entry

facilities have been added, along with the existing full rear

BESA cable facilities. Available in white or silver finish.

The fitting provides clear direction along with good aesthetic

appearance, making it suitable for use in a very wide range of

applications.

Silver finish



88


RECESSED SAFE EDGE

• Unobtrusive flush mounted design

• Choice of chrome, gold or white finish

• Quick and easy installation

• Superb, uniformly lit legend panel



Designed for use in prestigious locations, Recessed Safe

Edge is suitable for flush mounting into both solid and

suspended ceilings. Installation time is kept to a minimum

thanks to a separate recessing frame which has adjustable

fixing clamps. The body is then simply clipped into position

after connection of the supply cables, followed by insertion

of the lamp and legend panel and finally the clip-on cover.

The legend panel itself is constructed with an advanced

technology variable density prism honeycomb inside, evenly

distributing light to meet fully the requirements of EN1838.

Chrome, gold or white colour finishes ensure Recessed Safe

Edge will blend into any interior.

Chrome finish Gold finish



89


RECESSED SAFE EDGE

D1

D2

W L

LAMP OPTIONS


MATERIALS

• Body, recessing frame and gear cover - flame retardant ABS,

self coloured white finish/gold or chrome coated finish

• Legend panel - acrylic with variable density prism honeycomb

INSTALLATION NOTES

• Suitable for flush mounting into ceiling

• Recessing frame secured by adjustable clamps or screw fixed

• Front access only is required to install luminaire body

• BESA entry drill-outs on rear. Cable entries rear and end

• Connect supply then clip body into frame

• Lamp inserted into extruded channel on legend panel

(ordered separately)

• Cover plate clips onto frame and internal cradle moulding supports

panel


DIMENSIONS

OPTIONS



• CeaGuard testing versions• Choice of legend panels

SPECIFICATION

Slave - To specify state: Intelligent self-testing/Central system slave,

recessed edge-lit emergency sign, fast fit body, finished

white/chrome/gold, and legend panels with variable density prisms,

fully compliant with EN 1838, as Menvier Recessed Safe Edge range,

part no. _______


L (mm) W (mm) D (mm) D2 (mm) Cut out (mm)

407 150 85 145 364x112

T5

27 metres

CATALOGUE NUMBERS

System Mode White Finish Chrome Finish Gold Finish Weight (kg)

CeaGuard slave RSE230CG RSE230CGCH RSE230CGGD 1.00

24V AC/DC Central system slave RSE24 RSE24CH RSE24GD 1.00



230V AC Static inverter system slave RSES230 RSES230CH RSES230GD 1.00

Legend panels Pictogram Cat. No. Weight (kg)

Single sided panel. Down arrow SEDS 0.45

Double sided panel. Left and right arrow SEDLR 0.45

Double sided panel. Down arrow SEDDSS 0.45



90


ROYALUX

• Classical styling

• Choice of luxury brass and chrome plate finish

• Patented uniform luminance legend panel

• Adjustable chain suspension

• Optional suspension tube kit included



Royalux offers the latest automatic testing and legend

technology, but without losing the popular traditional styling.

The high lustre brass or chrome plated finish and elegant

bevelled design make Royalux ideal for prestigious locations,

such as hotels, boardrooms and theatres. To this is added a

patented variable pitch dot, screen printed legend panel.

D1

D2

W

L

LAMP OPTIONS


MATERIALS

• Body and mounting plate - steel aluminium frame, cover with brass

or chrome plating. ABS end caps

• Suspension chain and tubes - steel with brass or chrome plate

• Legend panel - clear acrylic with patented variable pitch dot,

screen print

INSTALLATION NOTES


• Mounting plate direct screw fixed with rear cable entry

• 2 x 1000mm chain links supplied, adjustable on site

• Optional suspension tube kit included

• Power supply cable linking body to mounting plate supplied

• Legend locates onto pegs behind cover plate of body

• Cover plate screws onto body obscuring fixings


OPTIONS



• Central system slave versions• Choice of legend panels


SPECIFICATION

Slave - To specify state: Intelligent self-testing/Central system slave,

edge-lit emergency sign, with adjustable suspension chain,

brass/chrome finish and legend panels with variable pitch dot

screen printing, fully compliant with EN 1838, as JSB Royalux range,

part no. _______


CATALOGUE NUMBERS

System Mode Brass Finish Chrome Finish Weight (kg)

24V AC/DC Central system slave RLX24 RLX24CH 1.70



230V AC Static inverter system slave RLX230 RLX230CH 1.70

CeaGuard Slave RLX230CG RLX230CHCG 1.70


Down arrow - single sided MAAD 0.75

Left arrow - single sided MAAL 0.75

Right arrow - single sided MAAR 0.75

L (mm) W (mm) D1 (mm) D2 (mm)

360 55 122 min - 1087 max 291

T5

27 metres

Royalux mounted using

suspension tubes

DIMENSIONS



91

C e n t r a l B a t t e r y S y s t e m sCATALOGUE NUMBERS


24V AC/DC Central system slave MA824 2.10



230V AC Static inverter system slave MA8230 2.10


Down arrow - single sided MAAD 0.75

Left arrow - single sided MAAL 0.75

Right arrow - single sided MAAR 0.75

• Modern sculptured profile

• Premium quality extruded aluminium body

• Convenient first fix mounting box

• Patented uniform luminance legend panel

• EasiCheck central addressable self-test options


Contemporary styling and traditional materials are blended

together perfectly to produce the attractive Manhattan range

of pendant exit signs. High quality aluminium extrusions lend

the luminaire a distinctive, sculptured appearance which is

suitable for a wide variety of interiors and applications, from

offices to hotels. Manhattan also benefits from a modern,

curved legend panel that incorporates a patented variable

pitch dot, screen printing process, which ensures compliance

with European luminance and uniformity standards. A remote

mounting box offers the convenience of quick first fix and

simplified installation and can be installed onto ceilings or

walls.

MANHATTAN

D1

D2

W

L

LAMP OPTIONS


MATERIALS

• Body - extruded aluminium powder coated in white finish,

with flame retardant ABS end caps

• Mounting box - steel mounting plate, with flame retardant ABS

cover

• Legend panel - clear acrylic with patented variable pitch dot,

screen print

INSTALLATION NOTES


• Mounting plate direct screw fixed, with rear cable entry.

Cover clips over base plate

• Supplied with 4 core cable connecting body to mounting plate,

adjustable for length on site

• Legend locates onto pegs inside body

• Body sections lock together via screwed end cap


OPTIONS



• Choice of legend panels

SPECIFICATION

Slave - To specify state: Central system slave, edge-lit emergency sign,

with adjustable suspensions, extruded aluminium body and legend

panels with variable pitch dot screen printing, fully compliant with

EN 1838, as JSB Manhattan range, part no. __________


L (mm) W (mm) D1 (mm) D2 (mm)

390 68 61 min - 560 max 290

T5

32 metres

DIMENSIONS



92


WAYLITE 800

• Unique dual function downlight and exit sign

• Superior optical design

• Vandal resistant polycarbonate construction

• Internal, evenly illuminated legend panel

• Supplied with universal legend kit


Designed specifically in response to the latest EN 1838

standard, Waylite 800 has the unique combination of a

powerful downlight and evenly illuminated exit legend panel,

both served from the same light source. The downlight optic

provides an exceptionally high level of threshold light over the

surrounding floor area, minimising the quantity of additional

emergency luminaires required. Simultaneously, the base

mounted lamp is used to back light the exit legend, via an

ingenious ribbed legend mounting plate that collects and

evenly redirects the light over the entire legend surface.

Constructed in vandal resistant polycarbonate, Waylite 800

is designed to provide long term reliable service.

75mm

180mm

380mm

LAMP OPTIONS• 8W T5 fluorescent, 3500°K - G5 cap

MATERIALS

• Base - polycarbonate, white finish


• Legend mounting plate - ribbed polycarbonate, opal finish


INSTALLATION NOTES


• Direct screw fix. Cable entry on top or drilled on site

• Geartray locates into groove and clips into position.

Retained by single screw

• Universal legend kit supplied for application to legend mounting

plate, which clips inside diffuser• Diffuser retained by screw and clips


OPTIONS





DIMENSIONS

SPECIFICATIONSlave - To specify state: Intelligent self-testing/Central system slave,

back lit emergency sign, for wall mounting, with powerful threshold

downlight, ribbed legend mounting plate and universal legend kit, fully

compliant with EN 1838, as JSB Waylite 800 range, part no. _______


CATALOGUE NUMBERS





230V AC Static inverter system slave WL800230 1.55

CeaGuard Slave WL800230CG 1.55

T5

25 metres



93


• Attractive modern styling

• Easy and fast to install

• Competitive, value for money product

• Uniformly lit legend, compliant with EN 1838

• Fresnel lens downlight panel


New Safe Ex is a popular choice for many installations.

Offering excellent value for money, it can be quickly installed

thanks to time saving features such as BESA piercings,

keyhole screw fixings, clip out cable entry and a removable,

hinged geartray. The legend panel has been thoughtfully

designed to slide in from below, permitting installation close

to the ceiling or adjacent walls. The light source also provides

excellent threshold lighting, thanks to a high quality fresnel

lens downlight panel.

NEW SAFE EX

402mm75mm

184mm


MATERIALS

• Body - steel, powder coated in RAL9010 finish,

with polycarbonate end caps


• Legend panel - acrylic

INSTALLATION NOTES


• BESA entry on rear, or direct screw fix via keyhole slots

• Additional top cable entry, with clip out grommet

• Removable gear tray clips into body, hinges and locates

via locking tabs

• Legend panel (ordered separately) slides in from bottom• Supplied complete with 1 x 8W lamp

OPTIONS






DIMENSIONS

SPECIFICATIONSlave - To specify state: Intelligent self-testing/Central system slave,

back-lit emergency sign, with hinged removable geartray,

fresnel downlight lens and slide in legend panel, fully compliant with

EN 1838, as Menvier New Safe Ex range, part no. __________


T5

30 metres

CATALOGUE NUMBERS


CeaGuard slave SX230CG 2.10

24V AC/DC Central system slave SX24 2.10



230V AC Static inverter system slave SXS8230 2.10


Down arrow - single sided PEXD 0.10

Left arrow - single sided PEXL 0.10

Right arrow - single sided PEXR 0.10



94


ZED

• Competitively priced double sided exit sign

• Easy to install

• Internal, tamper resistant legend panels

• Supplied with universal legend kits

• EasiCheck central addressable self-test options


• Weatherproof

ZED is an easy to install, cost effective answer to projects

requiring a double sided exit sign solution. Manufactured from

hard wearing, resilient polycarbonate and ABS, the luminaire

has the benefit of a removable geartray for easy installation

and rapid future maintenance and a clip-on diffuser. The

standard decorative skirt attachment lends a modern, sleek

wedge profile appearance to the luminaire. A universal legend

kit is supplied for application to an internally mounted legend

plate, offering scratch and tamper resistance.

180mm

108mm380mm


MATERIALS

• Body and skirt - flame retardant ABS, white finish



• Legend mounting plate - flame retardant PVC

INSTALLATION NOTES


• BESA entry drill-outs on rear. Cable entries on ends

• Skirt fitted behind base, fixed when base secured

• Geartray and diffuser clip into position

• Universal legend kit supplied for application to mounting plate

and clipped inside diffuser• Supplied complete with 1 x 8W lamp

OPTIONS




DIMENSIONS

SPECIFICATIONSlave - To specify state: IP54 Central system slave, doub le sided

emergency sign, with decorative skirt, clip-in geartray and diffuser

with internal mounting plates for legend kits, as JSB ZED range,

part no. __________


CATALOGUE NUMBERS


24V AC/DC Central system slave ZED824 1.10



230V AC Static inverter system slave ZED8230 1.10

CeaGuard Slave ZED8230CG 1.10

T5

22 metres



95


CATALOGUE NUMBERS


50V AC/DC Central system slave SE850 2.10

110V AC/DC Central system slave SE8110 2.10

230V AC Static inverter system slave SE8230 2.10

• Large format, ideal for open plan areas

• Robust construction

• 39 metres viewing distance

• Large downlight panel

• EasiCheck central addressable option


Traditionally styled, Exit SE is a large format exit sign that is

ideally suited to large, open plan areas, such as shopping

malls, call centres and function rooms. Robustly constructed

from steel, the luminaire features a screw fixed frame that

retains the legend panel securely. The exit legend is screen

printed on the inner surface of the panel providing a high

degree of resistance from cleaning abrasion or accidental

scratching. Exit SE is therefore suitable for public spaces

where such damage may occur. Good threshold illumination

is obtained via the large opal downlight panel, offering

improved indication of escape routes during mains power

failure.

EXIT SE

65mm

238mm

482mm


MATERIALS

• Body and gear cover - steel, powder coated in Permawhite finish

• Legend panel - clear acrylic with rear screen printing

• Downlight panel - opal polycarbonate

INSTALLATION NOTES


• Direct screw fix, cable entry knock-outs on rear, ends and top

• Screw fixed gear cover

• Front frame retained by screws on side of body

• Legend panel (ordered separately), locates inside frame


OPTIONS




DIMENSIONS

SPECIFICATIONSlave - To specify state: Central system slave, back-lit, large format

emergency sign, with large downlight panel and 39m viewing distance

legends, as JSB Exit SE range, part no. __________


T5

39 metres


Down arrow - single sided SEAD 0.10

Left arrow - single sided SEAL 0.10

Right arrow - single sided SEAR 0.10



96


LEGENDLITE

• Value for money exit sign


• Neat design

• Downlight feature


• Excellent viewing distance

Legendlite is an attractive, low cost exit sign, that represents

outstanding value for money. Constructed from sheet steel,

the luminaire is post painted with a powder coated finish,

making it easy to clean and with no sharp edges. The simple

design is easy to install, including the choice of legend panels

which slide into position from below and are retained by a

screw fixed base plate on the housing. Legendlite is the

perfect cost effective solution for a wide range of open area

and escape route applications.

70mm

184mm

360mm


MATERIALS

• Body - steel, powder coated in Permawhite finish

• Legend panel - screen printed acrylic

INSTALLATION NOTES


• Direct screw fix, cable entry on rear top or sides

• Legend panel (ordered separately), retained by screw on

bottom panel


OPTIONS


• EasiCheck versions available

DIMENSIONS

SPECIFICATIONSlave - To specify state: Slave exit sign luminaire with metal body,

screen printed legend panel and integral downlight element.

Legend panel to be bottom entry for ease of installation near walls,

as JSB part number __________


T5

30 metres

CATALOGUE NUMBERS


24V AC/DC slave LEX24 1.60



Static inverter system slave LEX230 1.60


Down arrow - single sided PEXD 0.10Left arrow - single sided PEXL 0.10

Right arrow - single sided PEXR 0.10



98


ACM1 - 230V AC CONVERSIONS

• Simple single or multiple luminaire control

• Controls up to 750VA

• Ultra compact profile for ease of integration

• Meets switching thresholds of EN 60598-2-22

• Rated to switch 480V

• EasiCheck self-test system compatible versions

Discreet emergency lighting, without purchasing and installing

additional luminaires can be achieved by utilising suitable,

standard mains luminaires operated via a static inverter

system. Normally there is a requirement for local switching

under normal mains healthy conditions. ACM1 modules

automatically override this during a mains failure, providing

failsafe illumination of the emergency luminaires. Easy to use,

the module is ultra compact allowing easy integration into

luminaires chosen for emergency operation from a 230V AC

static inverter system. Alternatively it can be mounted in a

remote enclosure to control a load of up to 750VA, if fed from

a common switched mains supply. Rated to switch 480V,

the ACM1 delivers reliable, high integrity performance.



99


ACM1 230V AC CONVERSIONS

OPTIONS

• EasiCheck addressable testing system compatible versions

available.

SPECIFICATION

To specify state: Static inverter system control module for fluorescent

lamps, in low profile case, providing changeover from switched mains

supply to emergency supply, with 480V switch rating and conforming

to switching thresholds of EN 60598-2-22, controlling individual

luminaires or multiple loads up to 750 VA, for use with 230V AC/AC

static inverter systems, as Menvier Active Control Modu le range,

part no. ACM1

DIMENSIONS

L

D

W

MATERIALS

• Module case - polycarbonate, white finish

• Remote box - galvanised steel

INSTALLATION NOTES

• Suitable for fitting integral to host luminaire, where electro-magnetic

test results permit

• Modules can control single or multiple luminaires

• A maximum load of 750VA can be controlled by one module,

providing all luminaires are fed from the same switched supply in

mains healthy mode

• Requires unswitched mains supply

• Heavy duty terminals

• Remote mounting box available (order separately)

• Changeover device can switch 480V, permitting feed from inverter

and local switched supply to be on different phases

• Operates luminaire at full lumen output. When performing

photometric designs the K and S lumen reduction factors of

0.95 and 0.85 respectively should be applied. See page 101 forDesign Guide

CATALOGUE NUMBERS


Active Control Module ACM1 0.30

(max load 750VA)

Remote enclosure FMENCA 0.60

Description L (mm) W (mm) D (mm) Fixing Centres (mm)

Module 158 38 33 147

Remote box 285 100 55 -

Switched MainsSupply 230V AC only

MainsLightingDistributionBoard

Un - Switched MainsSupply 230V AC only

Light

Switch EL Supply Indicator

*Must be Fire Rated Cable!*

Output to EmergencyLight - 3A Max

230V AC EL Supply

*Must be Fire Rated Cable!*

Emergency LightingDistribution Board

Static InverterSystem 230V ACOutput

Combined Mains, EmergencyMains OnlyMains Only Combined Mains, Emergency

1 LN

NL

NN

L

L

NACM1L

23456

654321

TYPICAL ACM1 SCHEMATIC DIAGRAM



02


New Safe 8

Scottish Environment Protection Agency



103


EMERGENCY DESIGN GUIDE

LEGAL REQUIREMENTS

The main reason for installing an emergency lighting system is to

enable the building to meet fire safety legislation in a way that is

visually acceptable and meets the user’s needs for ease of operationand maintenance. Consequently it is important to establish all the

relevant legal requirements for emergency lighting and fire alarm

systems before commencing the design. These should ideally be

agreed between the system designer, user, fire authority, building

control officer and system installer.

The main legislative requirements are:

THE BUILDING REGULATIONS 2000 - 2005 edition

(England and Wales with equivalent legislation covering

Scotland and Northern Ireland)

The main changes regarding emergency lighting in the 2005 edition

are that designers are reminded that when finished and put into use,

the building will have to have satifactory fire precautions to meet the

hazards identified by the fire risk assessment required by the Fire

Safety Order

The building regulations detail the design and construction

characteristics of a building. Approved Document B details the fire

safety requirements for new buildings and the major refurbishment of

existing premises. Table 9 of this document shows the locations that

must be provided with emergency lighting. It now defines that in

addition to escape routes, all open areas larger than 60m2 must be

illuminated in the event of the failure of the normal lighting supply.

It also clarifies that emergency lighting is needed for all parts of

schools that either do not have natural light or are used outside

normal school hours. The regulations require that systems comply

with BS 5266-1, the code of practice for emergency lighting.

THE FIRE SAFETY ORDER 2005

(England and Wales with equivalent legislation covering

Scotland and Northern Ireland)

These items of legislation replace the Fire Precautions act 1997 andare the laws by which the UK enforces the European Workplace

Directive

This new legislation requires that all premises must be safeguared from

fire by appropriate fire safety precautions.

• This must be demonstated by the responsible person for the

premises (normally the employer) conducting a fire safety risk

assessment. If the site has 5 or more employees then the risk

assessment must be kept as a formal record for inspection by

the Fire Authority.

• The Assessment replaces fire certificates which are now no

longer valid

Main points in the guide are:

• That the law now covers all premises that have employees or are

visited by members of the public. (Previously Fire certificates did

not cover small premises)

• Emergency lighting should by upgraded to meet the current

standards (Previously a premises did not have to be upgraded

when standards improved, now those engineered to previous

issues need to be brought up to date)

Identify fire hazards - such as sources of ignition, fuel or work processes

Identify the location of people at risk in the case of fire

Carry out any improvements needed

Record findings and action taken

Keep the assessment under review - revise provisions if the situation changes

Evaluate the risks to check whether existing fire safety measures are adequate, including:

- Control of ignition and fuel sources- Fire detection and warning- Means of escape and the provision of emergency lighting- Means of fighting fire- Maintenance and testing of fire precautions- Fire safety training of employees

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6



04


THE FIRE SAFETY ORDER 2005 (cont’d)

The Government has produced 11 guides for individual applications to

help employers to conduct their assessments and gives guidance on

the safety equipment required .The guides make it clear that occupants have to be protected from

risks in the event of the normal supply failing to assist users they

advise that:

• Emergency lighting is likely to be required where any escape routes

are internal and without windows or if the premises are used during

darkness (including early darkness in Winter)

• The assessment should cover the location of employees and any

visitors (including information on those persons with disabilities)

to the site to assist in determining the areas requiring emergency

lighting

• The guidance gives detailed requirements for the suitability of

escape routes and calls for the installation of emergency lighting

to be in accordance with BS 5266-1

• The evaluation of areas with a fire risk assists when deciding

which areas need protection, e.g. a school chemical laboratory

may be smaller than 60m

2

but still need emergency lighting, ascombustible materials and sources of ignition would be present

• It recommends that advice on the installation should be given by a

competent person who specialises in emergency lighting systems

• Continued maintenance and testing must be correctly carried out,

to comply with the directive

• The equipment used must be capable of being demonstrated as of

adequate quality. Compliance with the appropriate British Standard,

or other approved third party scheme, gives evidence of this.

The standard for luminaires is BS EN 60598-2-22. ICEL 1001

registration endorses the spacing data of these luminaires.

The standard for central battery systems is BS EN 50171

Note: When the premises are being assessed for risk, shortcomings in

other areas of fire protection can be compensated for by improved

levels of emergency lighting and fire alarms.

THE HEALTH AND SAFETY (SAFETY SIGNS AND SIGNALS)

REGULATIONS 1996

These regulations bring into force the EC Safety Signs Directive

(92/58/EEC) on the provision and use of safety signs at work. The

purpose of the Directive is to encourage the standardisation of safety

signs throughout the member states of the European Union so that

safety signs, wherever they are seen, have the same meaning.

The regulations apply to all safety signs including those which provide

directional signage for escape routes.


OTHER REQUIREMENTS

In addition to fire safety legislation, some workplaces require a licence

from the Local Authority, including theatres and cinemas, sport

stadiums and premises for public entertainment, music, dancing,gambling and the sale of alcohol. Other premises must be registered

with the Local Authority and be inspected by the Fire Authority,

including nursing homes, children's homes, residential care homes and

independent schools. Both licensed and registered premises have to

pass a fire inspection to confirm that they have systems complying

with BS 5266-1 for the emergency lighting and BS 5839 for fire

equipment. Records of a system are now essential to maintain the

validity of approvals and licences.

EMERGENCY LIGHTING - SYSTEM DESIGN

This section provides guidance on system design to meet BS 5266

Parts 1 and 7 and so achieve compliance with legislation

DESIGN OBJECTIVE

BS 5266, when referring to the provision of Escape Lighting in section

4.2, requires that when the supply to all or part of the normal lighting inoccupied premises fails, escape lighting is required to fulfil the

following function:

(a) To indicate clearly and unambiguously the escape routes.

(b) To provide illumination along such routes to allow safe movement

towards and through the exits provided.

(c) To ensure that fire alarm call points and fire fighting equipment

provided along escape routes can be readily located.

(d) To permit operations concerned with safety measures.

BS 5266-1 recommends that discussions should be held prior to

commencing the design, to establish the areas to be covered, the

method of operation, the testing regime and the most suitable type of

system. These discussions should include the owner or occupier of the

premises, the system designer, the installer, the supplier of the

equipment and the fire authority.

Note: BS 5266 will be revised during 2006 following the publication

of EN 50172. For up to date information visit our website at

www.cooper-ls.com. Alternatively visit the British Standards Institute

website, at www.bsi-global.com



105


STAGE 1

LOCATE LUMINAIRES AT MANDATORY “POINTS OF EMPHASIS”

Initial design is conducted by situating luminaires to reveal specific hazards and highlight safety equipment and signs, in addition to providing

illumination to assist safe travel along the escape route. This should be performed regardless of whether it is an emergency escape route or anopen (anti-panic) area. Only when this is accomplished should the type of luminaire or its light output be considered. BS 5266 Pt 7: 1999 requires

that the luminaires sited at points of emphasis must comply with BS EN 60 598-2-22.

Specific locations where a luminaire must be provided are:

At each exit door All safety exit signs

At each change of direction

At each intersection of corridors

Outside and near each final exit

Near each first aid post

Near each piece of fire fighting equipment

and call point

Near stairs so that each tread receives direct

light

Near any other change of floor level

Note - the term near means within 2 metres measured horizontally



06


• Sign formats should not be mixed- BS 2560: 1975

Old-style signs now obsolete. Should have been replaced by

December 1998

- BS 5499 Pt 1

Signs are still acceptable, if they are already in the building

- European Signs Directive Format

This came into force on 1st April 1996, under The Signs Directive

If there is any doubt as to the most appropriate format of sign,

guidance should be obtained from the local Fire Authority.

EXIT

EXIT

h<200 x h h <100 x h

min luminance = 2cd/m

ratio of luminance shall beless than 10:1 for either colour

contrast of the colours must bebetween 5:1 and 15:1

2

STAGE 2

ENSURE THAT EXIT SIGNS ARE OF CORRECT FORMAT AND SIZE

Section 4.1 of BS 5266 Pt 7 states that “Signs which are provided at all exits intended to be used in an emergency and along escape routes shall be

illuminated to indicate unambiguously the route of escape to a point of safety”. Where direct sight of an emergency exit is not possible, an illuminateddirectional sign (or series of signs) shall be provided to assist progression towards the emergency exit.

• Maximum viewing distancesFor all formats of safety signs, the maximum viewing distances and luminance conditions are given in BS 5266 pt7/EN 1838 Signs can be either

internally illuminated, such as exit boxes or edge lit emergency luminaires with a screened sign that have a controlled illuminance, or painted signs

which includes Photoluminescent signs but to be acceptable they must have an external emergency light illuminating them.

Maximum viewing distances are:

Internally illuminated signs - 200 x the panel height Externally illuminated signs - 100 x the panel height

• Illumination requirementsThe sign must conform to the colours of ISO 3864, which defines that exit and first aid signs must be white with green as the contrast colour.

The ratio of luminance of the white colour to the green colour must be between 5:1 and 15:1. The minimum luminance of any 10mm patch area on

the sign must be greater than 2cd/m2 and the ratio of maximum to minimum luminance shall be less than 10:1 for either colour

Note: Internally illuminated exit signs are pre-tested to ensure they meet these requirements, provided that they comply with EN 60598-2-22. If the sign

is designed to be externally illuminated, considerable care must be taken by the system designer to see that these conditions are met. Even though an

emergency luminaire must be sited within 2 metres from the sign (see stage 1) calculations should still be made to check that the sign is adequately

illuminated.




107


STAGE 3

LOCATE LUMINAIRES AT THE FOLLOWING ESSENTIAL AREAS IN THE BUILDINGS

Locate luminaires at the following essential areas in the buildings.

These locations are not part of the escape route but because of their risk they require protection by emergency lighting. Some of these areas arespecifically defined in BS 5266-1. Others are likely to be hazard areas defined by the risk assessment and being considered as a guidance Standard pr

BS 5266-10

Required by BS 5266-1

Other areas that need consideration as input to the risk assessment (pr BS5266-10)

Kitchens - Sudden failure of lighting while staff are cooking hot food is potentially dangerous,

currently these areas would need an emergency light over the extinguisher but emergency lighting is

needed over the area for hot food preparation. Employees need to be able to locate and turn off

machinery/ovens/hobs etc. to ensure that they do not turn on once the supply is re-instated and

cause a possible unsafe condition.

First Aid stations - Currently the requirement is for the light level needed to evacuate the

premises, however system designers consider the light level response and duration times of

emergency lighting of first aid rooms where treatment is to be givenRefuge areas for disabled people - In these areas fire wardens will now have to go and collect

disabled persons often also transferring them into rescue sleds to enable them safely to be taken

down stairs should consider the light level response and duration times of emergency lighting in

refuges.

Fire equipment - In a fire condition, users must inspect and act on the condition of fire alarm

panels and repeaters. The light must be sufficient to enable displays to be read accurately. The staff

will also have to contact the fire brigade so they must have sufficient illumination for the number to

be dialled correctly in the emergency condition.

The emergency lighting must provide adequate direct illumination on crash bars on exit doors to

enable them to be easily seen and operated, consider using exit signs above downward light

panels.

b) Toilets - all toilets for the disabled and

facilities exceeding 8m2 floor area or

without borrowed lights. Note the

Current issue of BS 5266-1 now

excludes the en suite facilities in hotels

c) Escalators - to enable users to get off

them safely.

d) Motor generator, control or plant rooms

- require battery supplied emergency

lighting to assist any maintenance or

operating personnel in the event of

failure.

a) Lift cars - although only in exceptional

circumstances will they be part of the

escape route, they do present a problem

in that the public may be trapped in

them in the event of a supply failure.

e) Covered car parks - the normal

pedestrian routes should be provided

with non-maintained luminaires of at

least 1 hour duration.



08


• Light Level RequirementsBS 5266 Pt 7: 1999 (EN 1838) 4.2 calls for a minimum of 1 lux

anywhere on the centre line of the escape route for normal risks.

A uniformity ratio of 40:1 maximum to minimum must not be

exceeded. This illuminance must be provided for the full duration

and life of the system. 50% of the illuminance must be available

within 5 seconds and the full value within 60 seconds of supply

failure.

Note: The UK has an “A deviation” which continues to allow a 0.2 lux

minimum value for routes that will be permanently unobstructed. It

should be noted that this puts a heavy burden on the user to ensure

routes are kept clear even in an emergency.

For this reason it is recommended that the 1 lux level should alwaysbe used.

• Photometric DesignEmergency Escape Routes

The use of authenticated spacing tables or a suitable computer

program provides the information to determine whether luminaires

are needed in addition to those for the points of emphasis (see

data section), to provide the minimum required level of illumination

on the escape routes. To ensure that the design will meet the

required levels at all times the data is de-rated, as required by the

standard, to cover the following factors:

i. Reduction in light as the battery voltage reduces during

discharge.

ii. Ageing of lamps in maintained circuits

iii. The effects of dirt (Spacing tables use a figure of 80%).

11m

c e i l i n g

2 .

5 m

22m

11m 11m 11m

c e i l i n

g

2 . 5 m

STAGE 4

ESCAPE ROUTE LIGHTING

When the points of emphasis have been covered, it is essential to provide any additional luminaires to ensure that minimum illuminance levels are met

to enable the routes to be used safely. In addition, every compartment on the escape route must have at least two luminaires, to provide some light inthe event of luminaire failure.

Example - luminaire spacing along escape route

Locate luminaires at mandatory

“Points of emphasis”

Add additional luminaire to achieve

1 lux minimum

Britelite Escape route 2m wide Open (anti-panic)

area1 lux min 0.5 lux min

Luminaire Mounting Lux levelt ype hei ght ( m) di rect ly

under

Self-contained

NM 2.5 3.28 3.9 11.3 4.0 2.0 4.0 12.0 6.0 1.9

4.0 1.28 2.1 9.6 5.6 1.2 3.3 14.8 7.2 1.9

6.0 0.57 - - - - 1.6 12.4 7.4 0.8

M 2.5 2.75 3.3 10.7 5.2 1.8 3.7 11.7 5.8 1.8

4.0 1.07 1.5 8.0 5.0 0.7 3.5 14.2 7.0 1.7

6.0 0.48 - - - - - - - -

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L

PHOTOMETRIC DATA




109


STAGE 5

OPEN (ANTI-PANIC) CORE AREAS

Areas larger than 60m2, open areas with an escape route passing through them, or hazards identified by the building risk assessment all require

emergency lighting. The current standard is easy to design for and to verify, promoting systems that provide good uniformity rather than ones that usea few large output luminaires.

• Light Level Requirements

BS 5266 Pt 7/EN 1838 - 4.3 calls for 0.5 lux minimum of the empty

core area, which excludes a border of 0.5m of the perimeter of the

area. Spacing tables or a suitable computer program provide

simple and accurate data that can easily be used. The spacing

tables for 0.5 lux are de-rated on the same basis as those for

escape routes. They can also be used as a guide for initial selection

of the location of luminaires when using a computer program

• Spacing dataSpecific data is available for self-contained dedicated emergency

luminaires. This can be found on each of the individual product

entries in this catalogue and repeated in the section after this

design guide.

If using standard mains luminaires fitted with an emergency conversion

kit, typical data is shown in the emergency lighting spacing tables. The

data details the polar distribution for common types of luminaires, from

which a suitable match should be selected. The factors considered

should be the shape of the polar curve and the scale, which is shown

by the nadir intensity.

Alternatively, a computer program can be used and the light outputs of

the appropriate kit can be used with the actual distribution data of the

luminaire chosen.

0.5 metre border(core area excludes a borderof 0.5m of the perimeter of the area)

Minimum points - at which 0.5 lux is obtained

0.5L0.5L

0.5L

0.5L

Luminaire spacing in open (anti-panic) core areas



10


STAGE 6

HIGH RISK TASK AREA LIGHTING

Areas of high physical risk, or the control rooms of dangerous plant

and production lines, need emergency lighting to enable them to beshut down safely. BS 5266 Part 1: 1999 defines that emergency

lighting should provide 10% of the normal lighting level at the hazard,

with a minimum of 15 Lux. (In practice this minimum is unlikely ever to

be a problem, as it would only be valid if the risk area had a normal

illumination level less than 150 lux).

DESIGN PROCEDURES

Reaching the light levels needed would normally be achieved by using

a conversion of the normal luminaire, or by using a tungsten projector

unit. If conversion units are selected, a direct ratio can be obtained by

the Ballast Lumen Factor (BLF). i.e. to achieve 10% of normal use

either:

- Emergency units with a BLF of 10% are needed for each fitting in

the area

- Emergency units with a BLF of 20% are needed for every other

fitting

- Emergency units with a BLF of 100% are needed for one in 10fittings

Care is needed to ensure that a reasonably uniform distribution is

achieved by whatever combination of luminaire and conversion kit

used. If tungsten projector units are selected, a co-efficient of

utilisation calculation has to be performed for the required value.

STAGE 7

CONTROL

Non-maintained luminaires must be activated by failure of supply to the

normal lighting. They must therefore be connected an unswitched livetaken from the local normal lighting final circuit.

Once the design has been completed it becomes apparent that the

performance of the luminaire depends as much on the light distribution

as it does the light output available. Consequently it becomes essential

that luminaire types specified for a particular design do not get

changed without a re-appraisal of the photometric design.

TESTING AND LOG BOOK

The Fire Safety Order require that appropriate testing is performed to

maintain compliance of the system. The system should include

adequate facilities for testing and recording the system condition.

These need to be appropriate for the specific site and should be

considered as part of the system design. Discussions with the user or

system designer should identify:

- The calibre and reliability of staff available to do the testing

- The level of difficulty in performing the test

- If discharge tests need to be done outside normal working hours,

or phased so only alternate luminaires are tested in buildings that

are permanently occupied

The testing requirements in the code of practice are:

• Function test All emergency luminaires should be tested be breaking the supply

to them and checking that they operate satisfactorily. The supply

must then be restored and the charging indicators must be seen to

be operating correctly. This test must be performed at least once

per month and the results logged.

• Discharge testThe luminaires must be tested for their full rated duration period

and checked for satisfactory operation. The supply must then berestored and the charging indicators rechecked. This test must be

performed at least annually and the results logged.

MANUAL TESTING

If manual testing is utilised, the following points should be considered:

- Is a single switch to be used? Unless the whole building is to be

switched off, a separate switch should be used for each final

circuit. As the feed to non-maintained circuits must be taken from

the switch this will probably mean that the building will have to be

walked around twice, once to check the luminaires and once to

check that they are recharging

- Are luminaires to be individually switched? In practice, only a

single walk around the building will be needed. However, the test

switches could spoil the décor of the building and they must be of

a type that is tamper proof. After the tests, the performance of the

luminaires must be logged.


Normal lighting

LN

Emergency lighting



111


COMMISSIONING CERTIFICATE

BS 5266 Pt 1 and the European Standard both require written

declarations of compliance to be available on site for inspection.

These consist of:

1. Installation quality

IEE regulations must have been conformed with andnon-maintained fittings fed from the final circuit of the normal

lighting in each, as required in BS 5266

2. Photometric performanceEvidence of compliance with light levels has to be supplied by the

system designer. Photometric tests for Cooper Lighting and

Safety luminaires are normally performed at BSI and spacing data

is registered by the ICEL scheme. Therefore copies of the spacing

data in this catalogue provide the verification required.

3. Declaration of a satisfactory test of operation A log of all system tests and results must be maintained.

System log books, with commissioning forms, testing forms and

instructions are available from Cooper Lighting and Safety.



12



MAINTENANCE

2005 Fire Safety Order regulatory reform

The 2005 Regulatory Reform Fire Safety Order d irective (FSO) replace’sthe Fire precautions (workplace) regulations 1997; applicable to the

workplace and premises open to the public.

As part of the FSO, the employer or manager must take responsibility

for the Fire Risk Assessment with the traditional fire certificates no

longer issued by the fire officer. Details of the fire safety order directive

can be found on www.uk-legislation.hmso.gov.uk.

With the inception of the new directive, the employer or manager of the

premises must undertake the following criteria:-

a) Carry out a risk assessment of the premises, identifying any fire

hazards.

b) Identify all people at risk in the premises, including employees,

visitors and consideration must be given to physically impaired

persons. Records must be kept of any findings where 5 or more

people are employed.

c) Evaluate the risk to people from hazards identified and

implement the necessary fire precautions including emergency

lighting and necessary testing/planned maintenance.

d) Records must be kept of any findings and the corrective actionsfor premises with more than 5 employees. Including information

of any training and instructions given to employees regarding

fire precautions in the workplace.

e) Regular reviews of the fire safety equipment and emergency

lighting (where required) shall be completed to ensure correct

operation and good working order. Failure to comply with the

requirement by the user/manager can be a criminal offense

under the Fire safety Order and is a act of Law.

As part of the FSO, the manager or employer must appoint a

Responsible Person to ensure the safety procedures are followed and

risk assessment completed. The responsible person must be a senior

person capable of ensuring the correct procedures and records are

upheld in accordance with the directive.

Testing and maintenance

EN50172 : BS 5266 part 8 defines the specific requirement set out as

part of regulatory emergency escape lighting testing and maintenance,

superseding BS5266 Part 1. As part of the 2005 Fire safety Orderdirective it is important that employers/managers implement and

maintain the requirements of BS5266 part 8 to ensure compliance with

the directive and should not be limited to this standard.

The guidelines for testing and maintenance as part of the new

standards are.

a) Regular servicing and maintenance are essential to ensure a

functional and compliant emergency escape lighting system. A

competent person must be appointed to ensure the correct test

and procedures are performed, records of results and corrective

actions must be kept.

b) A Daily check of central power supply indicators to ensure

correct operation and no fault indicators are illuminated. There

is no requirement for a daily test of emergency operation. The

installation of a remote audible/visual fault monitoring device in

a convenient, prominent location eliminates the need to attend

the central power supply and provides immediate indication of

equipment fault.c) The following tests should be carried out Monthly, records must

be kept.

i. A short duration discharge test shall be performed by

failure or simulation of the central power supply and

emergency luminaires for a duration sufficient to ensure

all emergency lamps are illuminated (consideration

should be given to minimise damage to emergency

luminaire components).

ii. Inspection of all emergency luminaires/signs to ensure

correct operation and good state of repair.

iii. Following a short duration discharge test the central

power supply shall be checked for correct normal

operation and all fault indicators have reset.

d) As part of the Annual test required, the monthly test must be

performed with the following additional tests.

i. A duration discharge test shall be performed for the fullautonomy of the central power supply with all

emergency luminaires illuminated and inspected for

correct operation and good state of repair.

ii. Following a full duration discharge test the charger

should be checked to ensure recharge of the battery in

preparation of a further supply interruption (EN50171

stipulates 80% charge attained within 12 hours of

charger re-instatement)

Automatic testing can be used as an alternative to manual testing,

however visual inspection of luminaires and their state of repair is

required with recorded results.

Note: Following any test, there may be a reduce duration in the

autonomy of the emergency escape lighting and tests should be

performed during times of minimal risk.



14


Toilet

Escalator

Lobby

e&he&h

a,b & c

Office (i)

Plant room Workshop (iv)

Acid bath

Office (ii)

Office (iii)

Lift

2

b&e

x

xh

d

1

c&h

b

x

x

a,b,c,f&k

x

g

m

b

h&f

x

4

x

x

d

3

i

i


EXAMPLE OF SYSTEM DESIGN



115


EXAMPLE OF SYSTEM DESIGN

Stage 1Locate luminaires at points of emphasis on escape route

a At each exit doorb To illuminate exit and safety signs

c Near call points (some covered by a.)

d Near each staircase

e Change of direction (some covered by b.)

f Near fire fighting equipment (some covered by a.)

g Change of floor level

h Near intersection of escape routes

i Outside final exits

k Near first aid points

Stage 2Exit sign location is covered by Stage 1, but it is important to check

that maximum viewing distances are not exceeded and that if the

normal lighting is dimmed, e.g. in cinemas, the exit signs must be

permanently illuminated while the building is occupied (maintained

lighting).

Stage 3Other areas, which require emergency lighting but are not on the

escape route area.

1 Lift car

2 Toilet (above 8m2 floor area)

3 Escalators

4 Plant room

Stage 4Check minimum illuminance levels on the escape routes.

After selecting a suitable luminaire, e.g. Britelite, consulting the spacing

table shows the number of fittings needed to provide a minimum of

1 lux on the centre line of the escape routes.

Stage 5 Anti-panic open areas (x) apply to any areas over 60m2 floor area,

or that have an escape route passing through them.

(i) Office over 60m2

- 3 x Britelite

(ii) Office under 60m2

- no requirement

(ii i) Under 60m2, but part of escape route from office (ii)

- 2 x Britelite fittings, either as compartment of escape route

or an open anti-panic area

(iv) Workshop 4m high

- 3 x Britelite + 1 x DQX - 5 cell conversion unit for high risk

(m) or 4 x DQX - 5 cell conversion units (Use of conversion

units is dependent on suitable mains luminaires being used).

Stage 6High risk lighting requirement for an acid bath (m) is included in the

design for stage 5. If a conversion of a mains luminaire is not suitable,

a high power tungsten projector, such as Beamlite could be used

instead.

WIRING INSTALLATION

The wiring of emergency luminaires should generally be in accordance

with normal wiring practice (I.E.E. Wiring Regulations), statutory

requirements applicable to the type of building, local by-laws andregulations. The supply for self contained luminaires should be taken

from the unswitched local light source

Cabling used when installing self-contained emergency luminaires

should be of a similar type to that used for the normal mains light.

In the event of a fire, if the cabling used for the emergency luminaires

has greater protection, there may be a chance of the normal lighting

failing and the emergency lighting remaining in the normal mode

(i.e. inoperative). Hence it is recommended that self-contained

emergency luminaires are wired in PVC insulated cable.

The supply to self-contained luminaires should be such as to prevent

unauthorised disconnection, but should incorporate suitable means

for simulating a mains failure for test purposes. The source of supply

should be from the same local fuse as the normal lighting, so that in

the event of a fuse failure causing the normal lighting to be

extinguished, the emergency lighting is brought into operation in thesame locality.



16


Luminaire Mounting Lux level type height (m) directly

under

Atlantic AC/DC 2.5 3.05 3.5 10.4 5.9 2.0 6.7 16.2 10.0 4.0 3.6 10.7 6.7 2.0

4.0 1.19 1.3 9.9 5.6 1.1 8.1 20.3 12.0 4.6 3.1 13.5 7.7 2.0

6.0 0.53 - - - - 7.4 23.0 13.0 4.6 1.1 12.0 7.9 0.7

AC/AC 2.5 4.40 4.3 11.4 6.6 2.4 6.9 15.8 10.8 4.4 4.0 10.6 7.0 1.7

4.0 1.70 2.7 12.0 6.6 2.0 8.9 20.8 13.0 5.2 4.2 13.7 8.5 1.7

6.0 0.80 - 6.2 5.4 - 9.3 22.4 14.8 5.4 2.2 15.3 9.5 1.4

Eurolite AC/DC 2.5 3.22 3.3 8.2 5.7 2.0 5.1 12.0 10.0 4.0 2.8 8.1 6.4 2.0

4.0 1.25 3.2 9.9 5.6 1.3 6.5 15.6 11.6 4.5 3.4 10.2 7.5 1.9

6.0 0.56 - - - - 7.3 18.8 12.0 5.0 3.3 12.3 7.7 0.8

AC/AC 2.5 4.40 3.6 8.6 6.4 2.4 5.3 12.4 10.6 4.4 3.0 8.3 7.0 1.64.0 1.70 2.7 10.8 6.4 2.0 6.7 15.8 12.6 4.9 3.8 10.4 8.4 1.6

6.0 0.80 - 11.8 5.4 - 8.1 20.0 14.0 5.3 4.1 13.0 9.1 1.4

New Safe 8 AC/DC 2.5 4.43 2.8 8.2 6.8 2.6 5.8 14.0 10.5 4.6 2.8 9.2 7.2 2.3

4.0 1.73 2.6 8.0 7.3 2.2 6.5 17.0 13.6 5.4 2.8 11.2 8.9 2.5

6.0 0.77 - - - - 6.3 18.2 15.6 5.7 2.3 11.0 9.8 2.1

AC/AC 2.5 6.10 3.5 8.6 7.4 2.8 6.0 15.8 11.4 4.7 3.0 10.1 7.4 1.9

4.0 2.30 3.0 9.4 8.2 2.8 7.1 18.2 14.6 5.8 3.3 11.9 9.5 2.1

6.0 1.10 1.2 8.8 7.8 1.0 7.5 22.0 17.0 6.4 3.1 13.4 11.1 2.0

Slimlite AC/DC 2.5 2.24 2.3 6.6 6.2 2.2 4.9 12.4 11.0 4.3 2.3 7.9 7.2 2.1

4.0 0.88 - - - - 5.5 14.0 12.9 4.9 2.2 8.9 8.4 2.1

6.0 0.39 - - - - 5.2 14.8 14.0 4.7 - - - -

AC/AC 2.5 4.10 2.3 6.4 6.2 2.2 4.3 10.8 10.6 4.2 2.2 7.3 7.1 1.6

4.0 1.50 2.0 6.6 6.6 1.8 5.2 12.8 13.0 5.0 2.3 8.4 8.4 1.7

6.0 0.75 - 5.4 5.2 - 5.6 15.4 14.4 5.6 1.9 9.7 9.5 1.3

Vistral AC/DC 2.5 4.89 2.9 6.8 6.8 2.6 4.8 12.0 11.2 4.6 2.3 7.5 7.2 2.3

4.0 1.91 3.5 8.6 7.4 2.3 5.5 14.0 13.6 5.4 3.0 8.9 8.9 2.5

6.0 0.85 - - - - 6.6 16.0 15.5 5.8 3.5 10.0 9.8 2.1

AC/AC 2.5 6.70 3.1 7.8 7.8 3.0 5.1 12.6 11.8 5.0 2.7 8.4 7.7 2.0

4.0 2.60 3.9 9.0 8.4 2.9 6.0 14.8 14.8 6.0 3.2 9.8 9.8 2.1

6.0 1.10 3.1 11.2 7.6 1.4 7.0 17.6 17.6 6.7 3.9 11.2 11.2 1.9

Weatherlite AC/DC 2.5 3.68 2.6 7.2 6.4 2.4 5.2 13.2 10.7 4.4 2.3 8.6 7.1 2.2

4.0 1.43 2.0 7.2 6.6 2.0 5.7 15.2 13.2 5.1 2.5 9.8 8.4 2.1

6.0 0.64 - - - - 5.8 16.3 14.3 5.2 1.5 10.0 9.0 1.4

AC/AC 2.5 5.10 3.1 8.4 6.8 2.5 5.8 14.4 11.6 4.7 2.9 9.5 7.3 1.7

4.0 1.90 2.8 8.8 7.6 2.3 6.7 16.6 13.8 5.6 3.1 10.9 9.1 1.9

6.0 1.00 0.5 8.0 6.8 0.5 7.0 19.2 16.6 6.2 2.8 12.3 10.6 1.7


under

75% Atlantic 2.5 3.60 3.9 11.0 6.3 2.3 6.9 16.4 10.3 4.3 3.8 11.2 7.0 2.2

AT230CG 4.0 1.41 2.0 10.3 6.3 1.6 8.6 21.0 12.7 5.0 3.6 14.0 8.3 2.2

6.0 0.63 - 4.4 4.0 - 8.5 24.2 14.1 5.0 1.5 15.4 8.9 1.4

75% New Safe 8 2.5 7.33 3.7 10.0 8.1 3.2 6.7 17.0 12.6 5.2 3.5 11.2 8.4 2.8

NS8230CG 4.0 2.86 3.6 10.5 9.2 3.2 8.0 20.0 16.0 3.2 3.6 13.3 10.5 3.2

6.0 1.27 2.5 10.0 9.1 2.1 8.3 22.0 18.4 7.1 3.5 14.2 11.4 3.1

75% Vistral 2.5 6.97 3.2 8.2 8.2 3.2 5.6 13.6 13.0 5.3 2.9 9.1 8.7 2.9

VS230CG 4.0 2.73 4.1 9.6 9.2 3.3 6.5 16.2 16.2 6.5 3.3 19.6 10.6 3.2

6.0 1.21 4.3 11.9 9.1 3.4 7.5 18.5 18.2 7.2 4.1 12.0 12.0 2.7

75% Eurolite 2.5 5.87 4.0 9.4 7.1 2.7 4.9 12.4 11.6 4.8 3.2 9.2 7.5 2.4

EU230CG 4.0 2.29 4.6 11.8 7.6 2.5 7.5 17.0 14.0 5.6 4.1 11.6 9.2 2.6

6.0 1.03 4.0 13.2 7.0 0.2 9.1 22.0 16.0 6.0 4.6 14.4 10.5 2.4

75% Weatherlite 2.5 5.86 3.4 8.9 7.8 2.9 6.3 16.0 12.8 5.2 3.1 10.2 8.4 2.7WL230CG 4.0 2.28 3.2 9.4 8.4 2.9 7.0 18.0 15.6 6.2 3.2 11.6 9.9 2.9

6.0 1.02 1.0 8.8 8.0 1.0 7.5 20.0 17.6 6.7 3.0 12.9 11.3 2.8

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L

EMERGENCY SPACING TABLES

MENVIER LUMINAIRE SPACING TABLES

Slave Luminaires Escape route 2m wide Escape route 2m wide Open (anti-panic) area

1 lux min 0.2 lux min (unobstructed routes) 0.5 lux min

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L

CeaGuard Luminaires Escape route 2m wide Escape route 2m wide Open (anti-panic) area1 lux min 0.2 lux min (unobstructed routes) 0.5 lux min



18


Self Contained Central Battery System

WATT LUMEN QX SERIES ADV SERIES 24V SLAVE 50V/110V SLAVE 230V SLAVE

Type BLF ELDL TYPE BLF ELDL BLF ELDL BLF ELDL ELDL

18 1350 BQX 10 100 ADV343 11 105 31 230 44 350 1100

36 3350 BQX 9 215 ADV343 8 195 22 400 33 650 2700

58 5200 CQX 6 225 ADV453 7 260 - - 24 740 4200

70 6550 DQX 5 235 ADV563 7 330 - - 18 700 5300

HALO-PHOSPHATE LINEAR LAMPS

18 1200 BQX 10 85 ADV343 11 95 31 200 44 310 970

36 2900 BQX 9 190 ADV343 8 185 22 350 33 560 2340

58 4800 CQX 6 210 ADV453 7 210 - - 24 685 3870

70 5800 DQX 5 210 ADV563 7 290 - - 18 620 4680

COMPACT LAMPS

16 - 2D 1050 BQX 13 100 ADV343 13 100 45 260 65 400 85028 - 2D 2050 - - - ADV443 14 205 28 315 40 500 1655

38 - 2D 2850 - - - ADV553 12 245 23 360 33 560 2300

11 - TC-S 900 BQX 15 95 ADV343 19 125 49 240 70 375 725

13 - TC-D 900 BQX 14 90 ADV343 16 105 44 210 63 330 725

18 - TC-D 1200 BQX 10 85 ADV343 12 105 25 170 37 260 970

24 - TC-L 1800 - - - ADV343 11 145 28 275 40 425 1450

36 - TC-L 2900 BQX 7 145 ADV343 8 145 24 390 35 600 2300

DESIGN PROCEDURE FOR CONVERTED MAINS LIGHTING LUMINAIRES

When normal mains luminaires are converted and utilised for emergency use, the procedure below should be followed:

1. The table of emergency lighting design lumens (above), should be consulted to determine the minimum emergency lamp output for the particular

lamp/circuit required, for use with either spacing tables or a computer design program.

2. The appropriate spacing table should then be selected and used, checking the following points:

• That the shape of the polar curve corresponds with the luminaire to be used

• That the value of the output is similar (LOR and at the nadir. Variations can be compensated for, by determining a ratio for the lamp output value

obtained in 1)

3. The spacing limits for escape routes or open areas can then be read off for specific height and lamp outputs.

Note: If different values of minimum light level are needed, they can also be obtained by determining a ratio for the lamp output value i.e. To ensure a

minimum of 10 lux on the centre line of an escape route, a value 10 times greater must be applied to the chart value. So 2000 lumen lamp output gives

the same spacing to 10 lux as 200 lumens does for 1 lux.

USE OF SPACING TABLES WITH COMPUTER PROGRAMS

Computer programs can provide accurate values for specific applications, using data for the exact luminaire, at the precise mounting height and with

the actual emergency lamp output, for any luminaire configuration.

To quickly develop an initial spacing layout, the spacing values from the nearest table should be used. This can then be applied to the software and

modified as required, to obtain the optimum luminaire layout. Illuminance levels can then be calculated, verifying the system design as required by

BS 5266-1:1999 & EN 1838.

To enable photometric designs to be performed as required by BS 5266 pts 1 and 7, the following factors need to be used to ensure that the worst case

conditions are designed for.

Initial lamp lumens of the lamp must be derated by:

• Ballast lumen factor (for emergency circuits, these are independently tested and their % value is shown)• K Factor for the effect of reduction in supply voltage as the battery discharges, and of cable voltage drop on central systems

• S Factor to compensate for the ageing of lamps during service life.

The effect of dirt on the diffuser must also be allowed for, so an allowance for 20% as recommended by ICEL has been built into these spacing tables.

If the design is being produced on a computer, similar allowance should be made.

System lumen reduction factors used in the following lumens chart are:

When applied with the appropriate Ballast Lumen Factors % with typical fluorescent lamps, they give the following Emergency Lighting Design Lumens

(ELDL) for typical fluorescent lamps which can be used for spacing calculations:

SYSTEM TYPE SELF-CONTAINED 24 VOLT SLAVE 50 & 110 VOLT SLAVE 230 VOLT INVERTER SLAVE

K Factor 0.85 0.65 0.7 0.95

S Factor 0.85 0.85 0.85 0.85


TRI-PHOSPHOR LINEAR LAMPS

Notes: 1. ADV series modules suitable for use with switch start circuits only2. Other lamp type/wattage data on request



119


Lux level

mtg Ht (M) ELDL directly under

65°-200cd/m2 100 4.0 2.5 5.5 5.2 2.4 1.9 5.9 6.4 1.8 3.1 6.5 7.6 3.7

200 8.1 2.7 5.9 7.0 2.9 2.0 6.1 6.6 2.4 3.6 7.0 7.7 3.8

600 24.4 3.3 6.6 7.6 3.7 2.2 6.6 7.2 2.6 3.8 7.2 7.8 3.8

2000 81.1 3.6 7.0 7.7 3.8 * * * * * * * *

4000 163.2 * * * * * * * * * * * *

100 1.6 2.9 7.2 6.4 1.9 2.5 8.6 8.8 2.2 4.5 9.8 10.4 4.6

200 3.2 3.6 8.6 8.8 3.2 3.0 9.1 9.9 3.0 4.9 10.2 10.6 5.1

600 9.6 4.6 9.8 11.0 4.7 3.4 10.4 11.0 3.8 5.3 11.4 12.1 5.6

2000 32.0 5.1 10.9 11.7 5.6 3.5 11.0 11.6 3.9 5.7 11.6 12.4 5.9

4000 64.0 5.3 11.6 12.2 5.7 * * * * * * * *

General 100 4.4 2.5 5.4 5.9 2.5 1.8 6.2 6.8 2.0 3.3 7.6 8.0 3.6Purpose

200 8.8 2.7 6.4 7.0 2.9 2.2 6.5 7.6 2.4 3.8 7.8 8.6 4.0

600 26.4 3.4 7.6 8.2 3.7 2.5 7.2 8.6 2.6 3.9 8.3 9.2 4.2

2000 88.0 3.8 7.8 8.6 4.0 * * * * * * * *

4000 176 * * * * * * * * * * * *

100 1.7 2.2 6.8 6.80 2.0 2.3 8.6 8.9 2.3 4.4 9.8 11.6 4.8

200 3.4 3.4 8.6 9.2 3.4 3.0 9.5 10.5 3.2 4.9 10.8 12.4 5.8

600 10.2 4.5 10.1 11.8 5.0 3.5 11.2 12.6 4.1 5.7 12.6 13.9 6.4

2000 34.0 5.4 12.0 13.2 6.1 3.7 12.0 13.4 4.2 6.1 12.9 14.8 6.7

4000 64.0 5.7 12.6 14.0 6.4 * * * * * * * *

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L

1 LUX MINIMUM ON CENTRE LINE 0.5 LUX MINIMUM IN CORE AREA 0.2 LUX MINIMUM ON CENTRE LINEESCAPE ROUTES - ALL RISKS OPEN AREAS UNOBSTRUCTED ROUTES ONLY

2.5

4

2.5

4

Lux level


100 1.9 1.6 5.8 4.6 1.5 2.0 8.0 6.5 1.6 4.5 11.6 8.7 3.4

200 3.8 2.9 8.2 6.4 2.3 2.8 10.7 8.0 2.2 5.8 15.0 10.6 4.6

600 11.4 4.9 12.5 9.4 3.6 4.3 16.0 11.0 3.2 8.6 22.0 14.8 6.0

2000 28.0 7.5 19.0 13.0 5.2 5.2 19.0 13.0 3.6 9.8 25.1 16.0 6.7

4000 47.0 8.6 22.0 14.8 6.0 * * * * * * * *

100 0.7 – – – – 2.2 8.0 6.6 1.1 4.6 13.0 10.0 3.8

200 1.5 2.2 8.0 7.0 1.7 2.8 11.6 9.4 2.4 6.5 17.0 12.6 5.0

600 4.5 5.1 13.9 10.6 4.1 4.8 18.0 13.5 3.7 9.8 25.4 17.8 7.3

2000 15.2 8.5 22.0 15.8 6.2 7.7 28.0 19.5 5.5 15.0 38.0 25.0 10.3

4000 30.4 11.0 27.0 19.6 7.9 * * * * * * * *

100 0.3 – – – – – – – – 3.8 13.0 10.4 3.0

200 0.6 – – – – 1.7 11.2 9.1 1.6 6.5 17.8 14.4 5.2

600 2.0 4.5 14.2 11.1 3.8 4.9 19.6 15.2 3.8 10.8 28.0 21.0 8.2

2000 6.8 8.9 24.2 18.4 7.2 8.4 32.0 23.5 6.3 17.0 44.0 30.0 12.4

4000 13.6 12.1 31.6 23.7 9.2 10.8 40.0 28.0 8.0 22.0 54.0 36.0 15.0

100 0.1 – – – – – – – – – – – –

200 0.2 – – – – – – – – – – – –

600 0.7 – – – – 3.5 19.6 16.0 2.8 11.3 31.5 25.0 9.0

2000 2.4 8.6 20.6 20.6 7.1 9.1 36.0 28.0 7.0 19.5 52.0 38.0 15.0

4000 4.8 13.0 27.6 27.6 10.3 12.2 48.0 36.0 9.6 26.0 63.0 46.0 19.0

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

CONVERSIONS WITH LOW BRIGHTNESS LOUVRE

30°

60°

90°

30°

60°

90°

300

200

100

cd/1000lm

60°

90°

30° 30°

60°

90°

120°120°

40

80

120

cd/1000lm

Nadir intensity 320cd/1000lm

ULOR 0.00

DLOR 0.61LOR 0.61

CONVERSIONS WITH INDUSTRIAL WEATHERPROOF Nadir intensity 129cd/1000lm

ULOR 0.15DLOR 0.57LOR 0.72



20


Lux level


100 3.3 2.4 5.8 5.8 2.4 2.0 6.7 6.7 2.0 3.5 7.2 7.2 3.5

200 6.7 2.9 6.6 6.6 2.9 2.3 6.9 6.9 2.3 3.6 7.8 7.8 3.6

600 21.1 3.5 7.6 7.6 3.5 2.6 7.7 7.7 2.6 3.9 8.7 8.7 3.9

2000 67.0 4.1 8.2 8.2 4.1 * * * * * * * *

4000 134.0 * * * * * * * * * * * *

100 1.3 2.1 6.0 6.0 2.1 2.1 8.7 8.7 2.1 4.6 10.4 10.4 4.6

200 2.6 3.0 8.8 8.8 3.1 3.0 9.8 9.8 3.0 5.2 11.0 11.0 5.2

600 7.8 4.7 10.5 10.5 4.7 3.6 11.1 11.1 3.6 5.7 12.6 12.6 5.7

2000 26.0 5.5 11.8 11.8 5.5 3.8 12.0 12.0 3.8 6.2 13.0 13.0 6.2

4000 52.0 5.7 12.6 12.6 5.7 * * * * * * * *

100 0.6 – – – – 1.1 8.2 8.2 1.1 4.8 13.6 13.6 4.8

200 1.2 1.7 8.4 8.4 1.7 2.9 12.1 12.1 2.9 6.8 15.0 15.0 6.8

600 3.6 5.5 14.0 14.o 5.5 4.9 15.6 15.6 4.9 8.0 17.6 17.6 8.0

2000 12.0 7.5 17.0 17.0 7.5 5.9 17.7 17.7 5.9 9.0 18.9 18.9 9.0

4000 21.0 8.5 17.8 17.8 8.5 6.1 18.5 18.5 6.1 * * * *

100 0.2 – – – – – – – – 1.6 13.0 13.0 1.6

200 0.4 – – – – – – – – 6.5 19.6 19.6 6.52.2

600 1.2 3.9 15.0 15.0 3.9 5.2 21.6 21.6 5.2 11.5 25.6 25.6 11.5

2000 4.2 9.8 24.4 24.4 9.8 8.4 25.3 25.3 8.4 13.5 30.4 30.4 13.5

4000 8.4 12.2 27.5 27.5 12.2 9.4 26.3 26.3 9.4 15.2 33.0 33.0 15.2

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

Lux level


100 2.5 2.3 6.8 5.4 1.9 2.3 9.0 7.0 1.8 4.8 11.8 9.6 3.9

200 5.2 3.4 9.0 7.6 2.7 3.1 10.9 8.8 2.6 5.9 13.8 11.4 4.8

600 15.6 5.1 12.1 10.0 4.0 4.2 14.0 12.6 3.5 7.1 16.2 16.0 6.5

2000 52.0 6.2 15.0 14.0 5.7 4.4 14.6 13.1 3.6 7.3 17.1 16.4 6.7

4000 104.0 * * * * * * * * * * * *

100 1.0 0.1 6.4 5.2 0.1 2.2 9.7 7.9 1.8 5.4 14.0 9.0 3.0

200 2.0 3.2 10.2 8.4 2.6 3.5 13.0 10.3 2.9 7.0 17.4 14.2 5.8

600 6.0 5.9 15.2 12.1 4.7 5.3 18.2 15.0 4.2 9.5 22.0 19.6 8.0

2000 20.0 8.7 19.8 17.8 7.1 6.9 23.2 21.0 6.2 10.6 24.0 22.0 9.2

4000 40.0 9.9 23.2 21.0 8.9 * * * * * * * *

100 0.4 – – – – – – – – 4.9 14.8 12.6 4.2

200 0.9 – – – – 2.8 13.2 11.0 2.5 7.4 20.2 16.2 6.3

600 2.7 5.6 16.5 13.0 4.8 5.7 21.6 17.2 4.5 11.7 26.8 23.4 9.5

2000 9.2 10.1 25.6 20.4 8.1 8.7 30.0 25.2 7.0 15.5 35.0 32.0 13.5

4000 18.4 12.8 27.6 25.0 10.2 9.4 34.0 30.0 8.7 * * * *

100 0.1 – – – – – – – – – – – –

200 0.2 – – – – – – – – 6.6 21.6 17.6 5.12

600 0.9 – – – – 5.5 23.6 19.0 4.2 13.0 34.4 28.0 10.7

2000 3.2 10.7 30.0 24.0 8.8 10.5 38.0 30.8 8.4 20.6 48.0 40.0 16.2

4000 6.4 15.0 39.0 30.5 12.0 13.6 46.0 36.0 9.8 24.0 52.8 50.0 20.0

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

CONVERSIONS WITH COMPACT LAMP DOWNLIGHTER Nadir intensity 272cd/1000lm

ULOR 0.00

DLOR 0.60LOR 0.60

CONVERSIONS WITH TROUGH REFLECTOR Nadir intensity 241cd/1000lm



30°

60°

90°

30°

60°

90°

100

200

300

cd/1000lm

30°

60°

90°

30°

60°

90°

300

200

100

cd/1000lm



121


Lux level


100 1.8 1.5 5.2 4.2 1.3 1.8 7.0 5.5 1.4 4.0 11.0 7.2 3.0

200 3.7 2.6 7.4 5.8 2.1 2.5 10.1 6.9 2.0 5.5 14.4 8.6 3.7

600 11.1 4.5 11.6 7.6 3.2 4.0 15.3 8.8 2.6 8.3 21.0 11.6 4.8

2000 37.0 7.0 18.4 10.2 4.3 4.9 18.5 10.3 3.0 9.7 24.5 12.8 5.4

4000 74.0 8.0 21.6 11.3 4.7 * * * * * * * *

100 0.7 – – – – 1.5 7.0 6.1 1.1 4.2 11.6 9.0 3.5

200 2.6 2.2 7.2 5.4 1.6 2.5 10.4 8.3 1.9 5.8 15.8 10.8 4.5

600 4.3 4.6 12.7 9.5 3.7 4.4 17.0 11.3 3.3 9.4 24.0 14.2 6.0

2000 15.0 7.9 21.0 13.0 5.6 7.3 26.0 15.7 4.5 14.7 13.0 19.6 8.2

4000 30.0 10.3 26.4 15.6 6.5 * * * * * * * *

100 0.32 – – – – – – – – 3.5 11.4 9.6 3.0

200 0.64 - - - - 1.8 10.0 8.8 1.4 5.8 16.3 13.0 4.9

600 2.0 4.2 13.0 10.8 3.6 4.5 17.6 13.3 3.7 10.1 26.2 17.3 7.3

2000 6.4 8.2 22.2 15.7 6.2 7.7 31.0 19.0 5.4 16.0 42.0 24.0 10.0

4000 13.0 11.2 30.0 19.0 7.8 10.5 40.0 23.0 6.6 21.0 52.0 29.0 12.0

100 0.11 – – – – – – – – – – – –

200 0.23 – – – – – – – – 3.6 16.0 13.6 2.72.2

600 0.66 – – – – 3.5 18.2 15.9 2.8 10.2 28.0 21.7 8.4

2000 2.2 8.0 23.6 19.0 6.8 8.2 28.0 24.0 6.6 18.0 48.0 30.4 12.6

4000 4.4 11.8 32.3 24.2 9.5 11.3 44.0 28.0 8.4 24.0 56.0 38.0 15.2

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

Lux level


100 1.8 1.4 4.6 4.6 1.4 1.6 5.6 5.6 1.6 3.4 8.6 8.6 3.4

200 3.6 2.3 6.2 6.2 2.3 2.2 7.0 7.0 2.2 4.3 10.6 10.6 4.3

600 10.8 3.6 9.2 9.2 3.6 3.2 9.5 9.5 3.2 6.1 14.8 14.8 6.1

2000 18 4.3 10.6 10.6 4.3 3.7 11.5 11.5 3.7 * * * *

4000 36 5.3 13.2 13.2 5.3 * * * * * * * *

100 0.7 – 3.2 3.2 – 1.1 6.3 6.3 1.1 3.6 9.8 9.8 3.6

200 1.4 1.6 6.4 6.4 1.6 2.2 8.4 8.4 2.2 5.0 12.8 12.8 5.0

600 4.2 4.0 10.6 10.6 4.0 3.7 11.8 11.8 3.7 7.3 18.0 18.0 7.3

2000 7 5.0 12.8 12.8 5.0 4.5 14.0 14.0 4.5 8.4 20.8 20.8 8.4

4000 14 6.4 16.0 16.0 6.4 5.6 17.1 17.1 5.6 * * * *

100 0.3 – – – – – 6.0 6.0 – 2.8 10.0 10.0 2.8

200 0.6 – 4.0 4.0 – 1.4 9.0 9.0 1.4 5.0 14.0 14.0 5.0

600 1.8 3.5 11.2 11.2 3.5 3.9 13.9 13.9 3.9 8.2 20.8 20.8 8.2

2000 3 5.1 14.0 14.0 5.1 4.9 16.2 16.2 4.9 10.0 24.4 24.4 10.0

4000 6 7.1 18.4 18.4 7.1 6.4 20.3 20.3 6.4 12.2 20.4 20.4 12.2

100 0.11 – – – – – – – – – – – –

200 0.22 – – – – – – – – 2.0 13.2 13.2 2.02.2

600 0.66 – – – – 2.7 15.4 15.4 2.7 8.8 24.0 24.0 8.8

2000 1.1 2.3 13.6 13.6 2.3 4.8 19.0 19.0 4.8 11.2 29.2 29.2 11.2

4000 2.2 6.8 20.4 20.4 6.8 7.1 24.1 24.1 7.1 14.6 37.2 37.2 14.6

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

CONVERSIONS WITH PRISMATIC DIFFUSER Nadir intensity 143cd/1000lm

ULOR 0.32

DLOR 0.49LOR 0.81

CONVERSIONS WITH RECESSED MODULAR FITTED WITH

FLAT PRISMATIC DIFFUSERNadir intensity 190cd/1000lm


30°

60°

90°

30°

60°

90°cd/1000lm

80

120

160

60°

90°

120°

60°

90°

120°

50

100

150cd/1000lm



22


GLOSSARY OF TERMS

Anti-Panic (Open) Area Lighting

The part of Emergency Escape Lighting provided to avoid panic and

provide illumination allowing people to reach a place where an escape

route can be identified.

Ballast

The component that controls the operation of a lamp from a specified low

or high voltage AC or DC source (Typically between 12 and 240 volts).

Ballast Lumen Factor

The ratio of the light output of the lamp in emergency operation compared

with the light output of the same lamp operated by a reference ballast at

its rated voltage and frequency.

Battery

Secondary cells providing the source of power during mains failure.

Battery - Recombination

A battery that is designed to recombine the electrolyte, constructed so

that no provision is made for replacement of electrolyte (sometimes called

sealed).

Battery - Vented

A battery that requires replacement of electrolyte at regular periods.

Battery Capacity

The discharge capability of a battery, being a product of average current

and time, expressed as Ampere-hours (Ah) over a stated duration.

Note: At fast rates of discharge the full ampere hour capacity of the

battery is not available.

Candela (cd)

The unit of luminous intensity.

Central Battery System

A system in which the batteries for a number of emergency luminaires are

housed in one location. Usually for all the emergency luminaires on one

lighting sub-circuit, but sometimes for all emergency luminaires in a

complete building.

Colour Rendering Index (CRI)

A measure of the degree to which the appearance of a surface colour

under a given light source compares to the same surface under a CIE

reference source. The index has a maximum value of 100.

Colour Temperature (°K)

All materials emit light when heated (e.g. metal glows red through to white

as the temperature increase). The temperature to which a full radiator

(or ‘black body’) would be heated to achieve the same chromaticity

(colour quality) of the light source being considered, defines the correlated

colour temperature of the lamp, quoted in degrees Kelvin.

Combined Emergency Luminaire

A luminaire containing two or more lamps, at least one of which is

energised from the emergency supply and the remainder from the normal

supply (If the emergency lamp is only illuminated in a mains failure

condition this luminaire is regarded for fire authority approval as non-

maintained).

Design Voltage

The voltage declared by the manufacturer to which all the ballast

characteristics are related.

Disability Glare

Glare produced directly or by reflection, that obscures or impairs vision

of an object, but does not necessarily cause any discomfort.

Discomfort Glare

Glare which causes visual discomfort.

Downward Light Output Ratio (DLOR)

The ratio of luminaire light output below the horizontal, compared with

total lamp light output.

Emergency Lighting

The lighting provided for use when the supply to the normal mains lighting

installation fails.

Escape Route LightingLighting provided to ensure that the means of escape can be effectively

identified and safely used when a location is occupied.

Emergency Exit

The way out of a building, which is intended to be used at any time whilst

the premises are occupied.

‘F’ Mark

Mark indicating that a luminaire is suitable for mounting on to normally

combustible surfaces.

Final Exit

The terminal point of an escape route, beyond which point persons are no

longer in danger from fire or any other hazard requiring evacuation of the

building.

Glare

The discomfort or disability that occurs when there is an excessive

change of luminance in the field of vision.

High Risk Task Area Lighting

Emergency lighting provided to ensure the safety of people involved in

a potentially dangerous process or situation and to enable proper shut

down procedures for the safety of the operator and other occupants of

the premises.

Housing 850°C Test

Mandatory test for emergency luminaires used on escape routes,

to establish that materials do not burn at given temperature.

Self-extinguishing grades of plastic must be used, or alternatively

glass and/or steel.

ICEL 1001 Registration

The industry standard for the approval of photometric performance and

claimed data of emergency lighting equipment, which is tested by theBritish Standards Institute.

Illuminance (lux)

The luminous flux density at a surface, indicated in lm/m2.

Ingress Protection (IP) Number

Classification of the degree of protection a luminaire provides against the

entry of solid foreign bodies and moisture.

Isolux Diagram

Diagram showing contours of equal illuminance

K Factor

The ratio of the light output from the lamp in its worst condition, normally

at end of discharge and with any cable volt drop, to the output at nominal

voltage.

Lamp Lumen Maintenance Factor (LLMF) The proportion of light output of a lamp after a stated period, compared

with initial lumen output.

Lamp Survival Factor (LSF)

The proportion of functioning lamps in an installation after a stated period.

Light Loss Factor (LLF)

See Maintenance Factor

Light Output Ratio (LOR)

The ratio of the total light output of a luminaire, compared with total lamp

light output.



123


Lumen (lm)

The unit of luminous flux used to describe the quantity of light emitted by

a source or received by a surface.

Luminaire Apparatus which distribute the light given by a lamp or lamps, including all

the items necessary for fixing and protecting the lamps and for

connecting them to the electrical supply.

Luminaire Maintenance Factor (LMF)

The proportion of light output from a luminaire with dirt deposition after

a stated period, compared with the initial light output when clean.

Luminance (cd/m2 )

The perceived brightness of a surface, measured by the intensity of light

emitted or reflected from a surface area in a given direction.

Luminous Efficacy (lm/W)

The ratio of light emitted, to the power consumed by a lamp.

Luminous Flux (lm)

The total light emitted by a lamp, measured in lumens.

Luminous Intensity (cd)

The power of a light source or illuminated surface to emit light in a given

direction, measured in candela.

Lux

The unit if illuminance, equal to one lumen per square metre (lm/m 2 )

Maintained Emergency Luminaire

A luminaire containing one or more lamps, all of which operate from the

normal supply or from the emergency supply at all material times.

Maintenance Factor (MF)

The ratio of the illuminance provided by an installation at a stated period,

compared to the installation when new. Calculated as a product of lamp

lumen, lamp survival, luminaire and room surface maintenance factors.

Mounting Height The vertical distance between the luminaire and the working plane.

Note: For emergency lighting the floor is always taken to be the working

plane.

Non-Maintained Emergency Luminaire

A luminaire containing one or more lamps, which operate from the

emergency supply only upon failure of the normal mains supply.

Rated Duration

The manufacturers declared duration for a battery operated emergency

lighting unit, specifying the time for which it will operate after mains failure.

This may be for any reasonable period, but is normally one or three hours

(when fully charged).

Rated Load

The maximum load which may be connected to the system which will be

supplied for the rated duration.

Re-charge Period The time necessary for the batteries to regain sufficient capacity to

achieve their rated duration.

Room Index (K)

Index defining the relationship between the height, length and width of a

room. Used for illuminance calculations.

Room Surface Maintenance Factor (RSMF)

The proportion of illuminance provided by a lighting installation with dirt

deposition on the room surfaces after a stated period, compared with the

illuminance when the room was clean.

Self Contained Emergency Luminaire

A luminaire or sign providing Maintained or Non-Maintained emergency

lighting, in which all the elements such as battery, the lamp and the

control unit are contained within the housing or within 1 metre of the

housing.

Single Point Luminaire

See self-contained emergency luminaire.

Slave Luminaire

An emergency luminaire without its own batteries, which is designed to

work in conjunction with a central battery system.

Spacing to Height Ratio (SHR)

The ratio of the distance between luminaire centres in relation to their

height above the working plane. Maximum spacing to height ratio

(SHRmax) is the maximum spacing of an array of luminaires that will

achieve a ratio of min/max direct illuminance of at least 0.7.

Standby Lighting

The part of emergency lighting which may be provided to enable normal

activities to continue in the event of a mains supply failure.

Sustained Emergency Luminaire

See combined emergency luminaire.

Uniformity

The ratio between minimum illuminance (or luminance) to average

illuminance (or luminance), usually measured at the working plane.

Upward Light Output Ratio (ULOR)

The ratio of luminaire light output above the horizontal, compared with

total lamp light output.

Utilance (U)

The proportion of luminous flux emitted by a luminaire which reaches the

working plane.

Utilisation Factor (UF)

The proportion of luminous flux emitted by a lamp (or lamps) which

reaches the working plane.



452

T e c h n i c a l - E m e r g e n c y L i g h t i n g S

p a c i n g T a b l e s


under

Atlantic NM 2.5 1.66 1.6 7.4 4.3 1.3 5.4 12.9 7.3 3.0 2.5 9 .1 5 .3 1.4

4.0 0.65 - - - - 5.1 15.2 8.8 3.0 0.7 9.6 5.8 0.4

6.0 0.29 - - - - 2.2 13.2 8.4 1.6 - - - -

M 2.5 1.40 1.2 6.6 3.9 1.0 5.4 12.9 7.3 3 .0 2.3 8.8 5.0 1 .4

4.0 0.55 - - - - 5.1 15.2 8.8 3.0 0.9 8.0 5.0 0.6

6.0 0.25 - - - - 2.2 13.2 8.4 1.6 - - - -

Atlantic Plus NM 2.5 3.05 3.5 10.3 5.8 2.1 6.5 15.8 9.6 3.9 3.6 10.9 6.7 2.0

4.0 1.19 1.6 8.8 5.6 1.1 7.5 19.8 11.2 4.2 3.0 13.4 7.7 1.9

6.0 0.53 - - - - 6.0 20.4 12.0 4.0 1.1 11.1 5.0 0.7

M 2.5 2.59 3.0 9.6 5.4 1.9 6.5 15.8 9.6 3.9 3.3 10.0 6.1 1.84.0 1.01 0.8 7.2 5.0 0.3 7.5 19.8 11.2 4.2 2.5 12.8 7.2 1.7

6.0 0.45 - - - - 6.0 20.4 12.0 4.0 - - - -

Britelite NM 2.5 3.28 3.9 11.3 4.0 2.0 7.4 17.6 8.8 3.6 4.0 12.0 6.0 1.9

4.0 1.28 2.1 9.6 5.6 1.2 8.4 21.8 10.8 4.0 3.3 14.8 7.2 1.9

6.0 0.57 - - - - 7.0 24.0 11.6 4.0 1.6 12.4 7.4 0.8

M 2.5 2.75 3.3 10.7 5.2 1.8 7.4 17.8 8.8 3.6 3.7 11.7 5.8 1.8

4.0 1.07 1.5 8.0 5.0 0.7 8.4 21.8 10.8 4.0 3.5 14.2 7.0 1.7

6.0 0.48 - - - - 7.0 24.0 11.6 4.0 - - - -

Eurolite NM 2.5 2.28 2.6 6.9 4.3 1.3 4.3 10.1 8.0 3.2 2.2 7 .5 5 .6 1.5

4.0 0.89 - 7.4 3.1 - 5.3 12.9 8.0 3.2 2.5 8.6 5.6 1.0

6.0 0.40 - - - - 5.7 15.1 9.1 2.4 - - - -

M 2.5 1.94 2.5 6.7 4.1 1.2 4.3 10.1 8.0 3 .2 2.2 7.2 5.4 1 .4

4.0 0.75 - 6.6 2.0 - 5.3 12.9 8.0 3.2 2.4 8.2 5.4 0.9

6.0 0.33 - - - - 5.7 15.1 9.1 2.4 - - - -

Kwiklite NM 2.5 2.46 2.5 6.9 6.5 2.2 4.6 11.8 10.6 4.2 2.4 8.1 7.2 2.2

4.0 0.96 - 6.7 6.3 - 5.0 13.2 12.0 4.6 2.3 9.2 8.4 2.2

6.0 0.42 - - - - 5.3 14.1 13.3 4.5 - 9.8 9.1 -

M 2.5 2.09 2.2 6.5 6.0 1.8 4.6 11.8 10.6 4.2 2.2 7 .8 7 .0 2.1

4.0 0.81 - 6.1 5.6 - 5.0 13.2 12.0 4.6 2.1 8.5 7.8 1.9

6.0 0.36 - - - - 5.3 14.1 13.3 4.5 - - - -

New Safe 8 NM 2.5 2.30 2.0 5.9 5.3 1.8 4.3 10.8 8.8 3.5 2.0 7 .5 6 .0 1.6

4.0 0.92 - - - - 4.2 12.2 10.3 3.9 1.8 8.4 7.0 1.6

6.0 0.42 - - - - 3.8 12.0 10.8 3.3 - - - -

M 2.5 2.02 1.8 5.4 4.9 1.8 4.3 10.8 8.8 3 .5 1.6 7.2 5.7 1 .3

4.0 0.79 - - - - 4.2 12.2 10.3 3.9 1.6 7.5 6.5 1.4

6.0 0.35 - - - - 3.8 12.0 10.8 3.3 - - - -

Planete NM 2.5 4.70 5.1 14.0 6.6 2.5 9.0 21.2 11.2 4.6 4.9 14.5 7.2 2.4

4.0 1.80 3.0 16.3 6.4 2.1 11.6 27.6 13.4 5.0 5.7 18.0 8.6 2.5

6.0 0.82 - 8.0 6.0 - 12.6 32.0 15.5 5.0 3.5 21.0 10.0 2.1

Roundlite NM 2.5 5.30 3.1 9.1 9.1 3.1 6.0 14.2 14.2 5.6 3.1 9.6 9.6 3.1

4.0 2.07 2.6 8.6 8.6 2.6 6.3 16.4 16.4 6.3 3.0 11.2 11.2 3.0

6.0 0.87 - 7.0 7.0 - 6.1 17.8 17.8 6.1 2.4 12.0 12.0 2.4

M 2.5 4.51 2.8 8.1 8.1 2.8 5.6 14.2 14,2 5.6 2.8 9 .2 9 .2 2.84.0 1.76 2.3 7.7 7.7 2.3 6.3 16.4 16.4 6.3 2.7 10.6 10.6 2.7

6.0 0.74 - 6.0 6.0 - 6.1 17.8 17.8 6.1 1.7 11.2 11.2 1.7

Slimlite NM 2.5 1,17 1.4 4.8 4.4 1.2 3.5 9.2 8.4 3.2 1.6 6.3 5.7 1.4

4.0 0.46 - - - - 3.4 10.0 9.2 3.2 - - - -

6.0 0.21 - - - - - - - - - - - -

M 2.5 1.02 1.1 4.4 4.0 0.9 3.5 9.2 8.4 3.2 1.5 6.0 5.6 1.4

4.0 0.40 - - - - 3.4 10.0 9.2 3.2 - - - -

6.0 0.18 - - - - - - - - - - - -

Vistral NM 2.5 2.70 2.4 5.8 5.4 1.9 3.8 9.2 9.1 3.6 2.0 6.3 6.2 1.9

4.0 1.06 1.6 7.2 5.1 0.6 4.4 10.7 10.6 4.0 2.5 7 .4 7 .0 1.7

6.0 0.47 - - - - 5.3 13.0 11.3 3.6 - 8.8 7.4 -

M 2.5 2.16 2.3 5.6 5.0 1.7 3.6 9.2 9.1 3.6 2.0 5.9 5.7 1.7

4.0 0.90 - 6.8 4.4 - 4.4 10.7 10.6 4.0 2.3 7.0 6.7 1.5

6.0 0.40 - - - - 5.3 13.0 11.3 3.6 - 8.5 7.0 -

Weatherlite NM 2.5 4.00 2.7 7.2 6.6 2.5 4.8 12.4 10.8 4.3 2.5 8.5 7.4 2.3

4.0 1.56 2.1 7.5 6.8 1.9 5.3 15.5 12.8 4.9 2.6 9 .8 8 .6 2.3

6.0 0.69 - 5.3 4.7 - 5.3 15.5 13.7 4.8 1.8 10.3 9.5 1.6

M 2.5 3.40 2.5 7.0 6.3 2.2 4.8 12.4 10.6 4.3 2.4 7 .8 6 .8 2.1

4.0 1.32 1.6 6.8 6.2 1.4 5.3 15.5 12.8 4.9 2.3 9 .2 8 .2 2.1

6.0 0.59 - 3.6 3.4 - 5.3 15.5 13.7 4.8 1.2 9.8 8.8 1.1

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L

EMERGENCY LIGHTING SPACING TABLES


Note: The photometric design data is registered within the ICEL photometric scheme which requires thata ) The lumina ire complies wi th BSEN 60598.2.22 c ) The f it ti ngs are tes ted photometr ica lly by BSI

b) Cooper Lighting and Security has BSEN ISO9000 approval d) The derived data is subject to ICEL’s third party inspection

Self Contained Luminaires Escape route 2m wide Escape route 2m wide Open (anti-panic) area




453




under

Atlantic AC/DC 2.5 3.05 3.5 10.4 5.9 2.0 6.7 16.2 10.0 4.0 3.6 10.7 6.7 2.0

4.0 1.19 1.3 9.9 5.6 1.1 8.1 20.3 12.0 4.6 3.1 13.5 7.7 2.0

6.0 0.53 - - - - 7.4 23.0 13.0 4.6 1.1 12.0 7.9 0.7

AC/AC 2.5 4.40 4.3 11.4 6.6 2.4 6.9 15.8 10.8 4.4 4.0 10.6 7.0 1.7

4.0 1.70 2.7 12.0 6.6 2.0 8.9 20.8 13.0 5.2 4.2 13.7 8.5 1.7

6.0 0.80 - 6.2 5.4 - 9.3 22.4 14.8 5.4 2.2 15.3 9.5 1.4

Eurolite AC/DC 2.5 3.22 3.3 8.2 5.7 2.0 5.1 12.0 10.0 4.0 2.8 8.1 6.4 2.0

4.0 1.25 3.2 9.9 5.6 1.3 6.5 15.6 11.6 4.5 3.4 10.2 7.5 1.9

6.0 0.56 - - - - 7.3 18.8 12.0 5.0 3.3 12.3 7.7 0.8

AC/AC 2.5 4.40 3.6 8.6 6.4 2.4 5.3 12.4 10.6 4.4 3.0 8.3 7.0 1.6

4.0 1.70 2.7 10.8 6.4 2.0 6.7 15.8 12.6 4.9 3.8 10.4 8.4 1.6

6.0 0.80 - 11.8 5.4 - 8.1 20.0 14.0 5.3 4.1 13.0 9.1 1 .4

New Safe 8 AC/DC 2.5 4.43 2.8 8.2 6.8 2.6 5.8 14.0 10.5 4.6 2.8 9.2 7.2 2.3

4.0 1.73 2.6 8.0 7.3 2.2 6.5 17.0 13.6 5.4 2.8 11.2 8.9 2.5

6.0 0.77 - - - - 6.3 18.2 15.6 5.7 2.3 11.0 9.8 2.1

AC/AC 2.5 6.10 3.5 8.6 7.4 2.8 6.0 15.8 11.4 4.7 3.0 10.1 7.4 1.9

4.0 2.30 3.0 9.4 8.2 2.8 7.1 18.2 14.6 5.8 3.3 11.9 9.5 2.1

6.0 1.10 1.2 8.8 7.8 1.0 7.5 22.0 17.0 6.4 3.1 13.4 11.1 2.0

Slimlite AC/DC 2.5 2.24 2.3 6.6 6.2 2.2 4.9 12.4 11.0 4.3 2.3 7.9 7.2 2.1

4.0 0.88 - - - - 5.5 14.0 12.9 4.9 2.2 8.9 8.4 2.1

6.0 0 .39 - - - - 5.2 14.8 14.0 4.7 - - - -

AC/AC 2.5 4.10 2.3 6.4 6.2 2.2 4.3 10.8 10.6 4.2 2.2 7.3 7.1 1.6

4.0 1.50 2.0 6.6 6.6 1.8 5.2 12.8 13.0 5.0 2.3 8.4 8.4 1.7

6.0 0.75 - 5.4 5.2 - 5.6 15.4 14.4 5.6 1.9 9.7 9.5 1.3

Vistral AC/DC 2.5 4.89 2.9 6.8 6.8 2.6 4.8 12.0 11.2 4.6 2.3 7.5 7.2 2.3

4.0 1.91 3.5 8.6 7.4 2.3 5.5 14.0 13.6 5.4 3.0 8.9 8.9 2.5

6.0 0.85 - - - - 6.6 16.0 15.5 5.8 3.5 10.0 9.8 2.1

AC/AC 2.5 6.70 3.1 7.8 7.8 3.0 5.1 12.6 11.8 5.0 2.7 8.4 7.7 2.0

4.0 2.60 3.9 9.0 8.4 2.9 6.0 14.8 14.8 6.0 3.2 9.8 9.8 2.1

6.0 1.10 3.1 11.2 7.6 1.4 7.0 17.6 17.6 6.7 3.9 11.2 11.2 1.9

Weatherlite AC/DC 2.5 3.68 2.6 7.2 6.4 2.4 5.2 13.2 10.7 4.4 2.3 8.6 7.1 2.2

4.0 1.43 2.0 7.2 6.6 2.0 5.7 15.2 13.2 5.1 2.5 9.8 8.4 2.1

6.0 0.64 - - - - 5.8 16.3 14.3 5.2 1.5 10.0 9.0 1.4

AC/AC 2.5 5.10 3.1 8.4 6.8 2.5 5.8 14.4 11.6 4.7 2.9 9.5 7.3 1.7

4.0 1.90 2.8 8.8 7.6 2.3 6.7 16.6 13.8 5.6 3.1 10.9 9.1 1.9

6.0 1.00 0.5 8.0 6.8 0.5 7.0 19.2 16.6 6.2 2.8 12.3 10.6 1.7


under

75% Atlantic 2.5 3.60 3.9 11.0 6.3 2.3 6.9 16.4 10.3 4.3 3.8 11.2 7.0 2.2

AT230CG 4.0 1.41 2.0 10.3 6.3 1.6 8.6 21.0 12.7 5.0 3.6 14.0 8.3 2.2

6.0 0.63 - 4.4 4.0 - 8.5 24.2 14.1 5.0 1.5 15.4 8.9 1.4

75% New Safe 8 2.5 7.33 3.7 10.0 8.1 3.2 6.7 17.0 12.6 5.2 3.5 11.2 8.4 2.8

NS8230CG 4.0 2.86 3.6 10.5 9.2 3.2 8.0 20.0 16.0 3.2 3.6 13.3 10.5 3.2

6.0 1.27 2.5 10.0 9.1 2.1 8.3 22.0 18.4 7.1 3.5 14.2 11.4 3.1

75% Vistral 2.5 6.97 3.2 8.2 8.2 3.2 5.6 13.6 13.0 5.3 2.9 9.1 8.7 2.9

VS230CG 4.0 2.73 4.1 9.6 9.2 3.3 6.5 16.2 16.2 6.5 3.3 19.6 10.6 3.2

6.0 1.21 4.3 11.9 9.1 3.4 7.5 18.5 18.2 7.2 4.1 12.0 12.0 2.7

75% Eurolite 2.5 5.87 4.0 9.4 7.1 2.7 4.9 12.4 11.6 4.8 3.2 9.2 7.5 2.4

EU230CG 4.0 2.29 4.6 11.8 7.6 2.5 7.5 17.0 14.0 5.6 4.1 11.6 9.2 2.6

6.0 1.03 4.0 13.2 7.0 0.2 9.1 22.0 16.0 6.0 4.6 14.4 10.5 2.4

75% Weatherlite 2.5 5.86 3.4 8.9 7.8 2.9 6.3 16.0 12.8 5.2 3.1 10.2 8.4 2.7

WL230CG 4.0 2.28 3.2 9.4 8.4 2.9 7.0 18.0 15.6 6.2 3.2 11.6 9.9 2.9

6.0 1.02 1.0 8.8 8.0 1.0 7.5 20.0 17.6 6.7 3.0 12.9 11.3 2.8

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L




0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L

CeaGuard Luminaires Escape route 2m wide Escape route 2m wide Open (anti-panic) area1 lux min 0.2 lux min (unobstructed routes) 0.5 lux min



454



Luminaire Mounting type height (m)

AG Bulkhead NM 2.5 1.8 5.6 4.7 1.5 4.0 10.3 8.3 3.2 2.0 5.4 4.4 1.6

3.0 1.4 5.5 4.6 1.1 4.0 10.7 8.9 3.3 1.9 5.5 4.6 1.6

4.0 - - - - 4.0 11.2 9.5 3.4 1.6 5.5 4.6 1.3

M 2.5 1.5 5.2 4.2 1.2 4.0 10.3 8.3 3.2 1.8 5.1 4.2 1.5

3.0 0.9 4.9 4.1 0.7 4.0 10.7 8.9 3.3 1.7 5.2 4.3 1.5

4.0 - - - - 4.0 11.2 9.5 3.4 1.2 5.0 4.2 1.0

Alfalux NM 2.5 2.0 6.0 5.1 1.7 4.2 10.9 3.6 8.9 2.2 6.0 4.8 1.9

and 3.0 1.8 5.9 5.1 1.5 4.3 11.4 9.5 3.7 2.2 8.2 5.0 1.7

Ekolux 4.0 - - - - 4.5 12.1 10.4 3.9 2.0 6.3 5.3 1.7

M 2.5 1.8 5.6 4.7 1.5 4.2 10.9 8.9 3.6 2.1 5.6 4.6 1.73.0 1.5 5.6 4.6 1.2 4.3 11.4 9.5 3.7 2.0 5.8 4.8 1.7

4.0 - - - - 4.5 12.1 10.4 3.9 1.7 5.8 4.9 1.5

Delta NM 2.5 1.8 7.8 3.8 1.0 5.3 13.4 6.8 2.7 2.7 9.3 4.7 1.3

3.0 1.0 7.4 3.4 1.1 5.6 14.4 7.2 2.7 2.5 10.0 5.0 1.1

4.0 - - - - 5.5 15.6 7.6 2.8 0.7 10.6 5.3 0.5

M 2.5 0.9 7.0 3.4 0.7 5.3 13.4 6.8 2.7 2.4 8.9 4.4 1.1

3.0 0.9 5.6 3.8 0.7 5.6 14.4 7.2 2.7 2.2 9.2 4.7 1.0

4.0 - - - - 5.5 15.6 7.6 2.6 0.5 8.4 5.6- 0.4

DRG NM 2.5 2.4 6.5 6.5 2.4 4.4 11.1 11.1 4.4 3.2 7.5 7.5 3.2

3.0 2.4 6.8 6.8 2.4 4.6 12.0 12.0 4.6 2.3 8.2 8.2 2.3

4.0 1.9 6.8 6.8 1.9 4.0 12.9 12.9 4.0 2.3 8.9 8.9 2.3

M 2.5 2.3 5.2 5.2 2.3 4.4 11.1 11.1 4.4 2.1 7.2 7.2 2.1

3.0 2.1 5.0 5.0 2.1 4.6 12.0 12.0 4.6 2.2 7.7 7.7 2.2

4.0 1.4 6.1 6.1 1.4 4.0 10.9 10.9 4.0 2.1 8.4 8.4 2.1

Fairlite NM 2.5 1.5 4.8 4.8 1.5 3.5 9.0 9.0 3.5 1.6 5.6 5.6 1.6

RG and SG16W 3.0 1.1 4.5 4.5 1.1 3.6 9.6 9.6 3.6 1.6 6.1 6.1 1.6

4.0 - - - - 3.8 10.1 10.1 3.8 1.2 6.5 6.5 1.2

M 2.5 2.3 6.3 6.3 2.3 4.4 11.1 11.1 4.4 2.1 7.2 7.2 2.1

3.0 2.1 6.4 6.4 2.1 4.6 12.0 12.0 4.6 2.2 7.7 7.7 2.2

4.0 - - - - 3.4 9.6 9.6 3.4 0.8 6.1 6.1 0.8

Fairlite NM 2.5 2.1 6.0 6.0 2.1 4.2 10.4 10.4 4.2 2.1 7.0 7.0 2.1

RG28 and SG28 3.0 2.0 6.0 6.0 2.0 4.4 11.2 11.2 4.4 2.1 7.2 7.2 2.1

4.0 1.2 5.9 5.9 1.2 4.7 12.2 12.2 4.7 2.0 8.0 8.0 2.0

M 2.5 1.9 5.6 5.6 1.9 4.0 10.0 10.0 4.0 1.9 6.7 6.7 1.9

3.0 1.7 5.6 5.6 1.7 4.2 10.4 10.4 4.2 1.9 7.0 7.0 1.9

4.0 0.4 5.2 5.2 0.4 4.4 11.4 11.4 4.4 1.8 7.4 7.4 1.8

Jubilee NM 2.5 2.0 5.8 5.4 1.8 4.0 10.5 9.2 3.6 2.1 5.7 5.0 1.9

3.0 1.7 5.9 5.4 1.6 4.2 11.0 9.8 3.8 2.1 5.9 5.2 1.9

4.0 - - - - 4.3 11.8 10.6 4.0 1.9 6.0 5.4 1.7

M 2.5 1.7 5.5 5.0 1.6 4.0 10.5 9.2 3.6 2.0 5.4 4.8 4.0

3.0 1.5 5.4 4.9 1.3 4.2 11.0 9.8 3.8 2.0 5.6 5.0 4.2

4.0 - - - - 4.3 11.8 10.6 4.0 1.7 5.6 5.1 4.3

Sintralite NM 2.5 2.0 5.8 4.8 1.6 3.9 9.9 8.4 3.3 2.0 6.7 4.3 1.63.0 1.5 5.9 4.8 1,4 4.0 10.2 8.8 3.2 2.0 7.0 5.8 1.6

4.0 - - - - 4.2 11.2 5.4 3.5 1.6 7.8 6.4 1.4

M 2.5 1.7 5.4 4.4 1.4 3.9 9.9 8.4 3.3 1.8 6.3 5.4 1.4

3.0 1.1 5.4 4.3 1.1 4.0 10.2 8.8 3.2 1.8 6.7 5.7 1.4

4.0 - - - - 4.2 11.2 5.4 3.5 1.1 7.2 6.1 1.1

Stylite NM 2.5 0.7 3.5 2.4 0.5 2.1 4.9 4.9 2.1 1.2 3.3 3.3 0.8

3.0 0.5 2.7 2.0 0.4 2.3 5.4 4.5 1.9 0.9 3.8 3.6 0.6

4.0 0.3 1.6 1.2 0.3 2.7 6.6 3.4 1.8 0.5 4.3 3.9 0.4

Waylite* M 2.0 2.6 6.6 4.8 1.8 5.0 12.0 7.8 3.2 - - - -

2.5 2.5 7.6 5.0 1.7 2.5 13.6 8.0 3.5 - - - -

3.0 3.2 7.6 5.0 1.5 5.7 14.0 8.5 3.7 - - - -

Zeta II NM 2.5 1.7 5.4 4.9 1.6 4.2 11.6 8.3 3.4 1.8 7.2 5.6 0.9

3.0 1.6 5.2 4.8 1.3 4.2 11.6 9.2 3.6 1.8 7.2 6.0 0.9

4.0 - - - - 4.3 11.9 10.0 3.9 1.6 7.5 6.5 1.4

M 2.5 1.5 5.0 4.6 1.4 4.0 10.8 8.2 3.3 1.7 7.0 5.4 1.5

3.0 1.3 4.8 4.4 1.0 4.0 11.0 8.8 3.5 1.6 7.0 5.7 1.5

4.0 - - - - 4.0 11.1 9.6 3.6 1.4 7.0 6.2 1.1

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L

JSB LUMINAIRE SPACING TABLES

Self Contained Luminaires Escape route 2m wide Escape route 2m wide Open (anti-panic) area



*Note: Exit signs should be mounted between 2.0 & 2.5m above floor level, unless an alternative height is agreed with the fire authority



455



Luminaire Mounting type height (m)

AG Bulkhead AC/DC 2.5 2.5 7.0 5.8 2.1 4.9 12.7 10.0 4.0 2.5 6.6 5.3 2.0

4.0 1.5 6.6 5.7 1.2 5.3 14.5 11.9 4.6 2.4 7.0 5.8 2.0

6.0 - - - - 5.1 15.5 13.1 4.6 - - - -

AC/AC 2.5 3.0 8.0 6.0 2.2 5.7 14.8 10.6 4.2 2.8 9.8 7.0 1.5

4.0 2.3 7.8 6.6 1.8 6.2 16.6 12.6 5.0 2.7 10.8 8.4 1.7

6.0 - 6.8 5.6 - 6.7 18.6 14.8 5.7 2.4 11.8 9.9 1.4

Alfalux AC/DC 2.5 2.5 7.0 5.8 2.1 4.9 12.7 10.0 4.0 2.5 6.6 5.3 2.0

and 4.0 1.5 6.6 5.7 1.2 5.3 14.5 11.9 4.6 2.4 7.0 5.8 2.0

Ekolux 6.0 - - - - 5.1 15.5 13.1 4.6 - - - -

AC/AC 2.5 2.5 7.0 6.2 2.2 5.2 13.6 10.6 4.3 2.5 8.8 7.0 1.64.0 2.3 7.6 6.4 1.8 6.0 15.6 13.0 5.0 2.7 9.8 8.4 1.6

6.0 - 7.2 5.8 - 6.7 17.8 15.4 5.6 2.5 11.6 9.8 1.5

Delta AC/DC 2.5 3.7 10.2 5.0 1.8 7.0 17.8 8.4 3.5 3.5 11.7 5.6 1.7

4.0 2.2 8.5 6.0 1.6 6.7 18.7 10.4 4.0 3.5 12.7 6.7 1.6

6.0 - - - - 6.8 18.7 11.8 3.8 2.1 8.6 5.9 1.4

AC/AC 2.5 3.8 10.2 5.2 1.6 7.1 17.6 8.8 3.2 3.6 11.6 5.7 1.3

4.0 1.3 10.0 5.0 1.0 8.2 20.8 10.4 4.0 3.5 13.2 7.0 1.3

6.0 - 3.4 2.2 - 8.8 24.0 12.6 4.5 1.2 15.4 7.7 0.6

DRG AC/DC 2.5 3.6 9.5 9.5 3.6 6.4 16.0 16.0 6.4 3.2 10.3 10.3 3.2

4.0 3.9 10.5 10.5 3.9 7.2 18.4 18.4 7.2 3.7 12.0 12.0 3.7

6.0 3.2 10.8 10.8 3.2 8.2 21.0 21.0 8.2 3.8 14.0 14.0 3.8

AC/AC 2.5 5.5 13.6 13.6 5.5 9.1 24.0 24.0 9.1 4.7 15.4 15.4 4.7

4.0 6.4 16.4 16.4 6.4 10.8 27.0 27.0 10.8 5.7 18.2 18.2 5.7

6.0 7.0 18.4 18.4 7.0 12.5 31.5 31.5 12.5 6.4 20.7 20.7 6.4

Fairlite RG16W AC/AC 2.5 4.0 10.0 10.0 4.0 6.6 16.2 16.2 6.6 3.5 10.3 10.3 3.5

4.0 4.4 11.8 11.8 4.4 8.0 20.0 20.0 8.0 4.1 12.7 12.7 4.1

6.0 4.2 12.8 12.8 4.2 9.2 23.2 23.2 9.2 4.4 15.1 15.1 4.4

Fairlite RG28W AC/DC 2.5 3.2 8.4 8.4 3.2 5.7 13.6 13.6 5.7 2.9 9.1 9.1 2.9

4.0 4.4 9.6 9.6 4.4 6.7 16.5 16.5 6.7 3.3 11.2 11.2 3.3

6.0 2.4 9.5 9.5 2.4 7.5 19.1 19.1 7.5 3.3 12.6 12.6 3.3

AC/AC 2.5 5.0 12.5 12.5 5.0 8.2 18.4 18.4 8.2 4.4 12.6 12.6 4.4

4.0 5.9 15.1 15.1 5.9 10.0 22.0 22.0 10.0 5.2 15.4 15.4 5.2

6.0 6.4 16.8 16.8 6.4 11.4 26.0 26.0 11.4 5.8 18.1 18.1 5.8

Jubilee AC/DC 2.5 2.4 6.6 6.1 2.2 4.9 12.1 10.4 4.2 2.4 6.3 5.5 2.1

4.0 1.6 6.5 6.1 1.5 5.4 13.9 12.4 4.8 2.4 6.9 6.2 2.1

6.0 - - - - 5.2 15.2 13.8 4.8 - - - -

AC/AC 2.5 2.9 7.6 6.6 2.4 5.5 13.4 11.2 4.4 2.7 8.7 7.3 1.7

4.0 2.2 8.0 6.8 2.2 6.2 16.0 13.8 5.3 2.8 10.2 8.7 1.7

6.0 - 7.2 6.0 - 6.8 18.6 15.8 6.0 2.5 11.8 10.1 1.5

Sintralite AC/DC 2.5 2.8 7.5 6.3 2.3 5.0 12.2 10.2 4.2 2.5 8.0 6.8 2.1

4.0 2.1 8.0 6.4 1.9 5.7 14.4 12.2 4.9 2.8 9.5 8.2 2.2

6.0 - - - - 6.2 16.2 14.0 5.0 1.8 10.8 9.1 1.8

AC/AC 2.5 3.3 8.4 6.0 2.3 5.0 12.0 10.4 4.2 2.9 8.1 6.7 1.54.0 3.8 10.2 6.2 1.8 6.2 15.6 12.4 4.9 3.6 10.2 8.0 1.6

6.0 - 10.8 4.6 - 8.0 19.4 13.8 5.0 3.8 12.6 8.7 1.2

Zeta II AC/DC 2.5 2.5 7.2 6.0 2.3 5.5 14.6 9.7 4.1 2.6 7.4 5.3 2.1

4.0 1.0 7.0 6.7 1.9 5.7 15.8 12.0 4.8 2.5 7.5 6.3 2.3

6.0 - - - - 5.6 16.2 14.0 5.2 1.8 7.0 6.6 1.8

AC/AC 2.5 3.0 8.4 6.0 2.6 6.3 16.6 10.6 4.7 2.9 10.9 7.0 1.5

4.0 2.9 8.4 7.6 2.6 6.7 18.4 13.4 5.7 2.9 11.8 8.7 1.9

6.0 0.5 8.2 7.4 0.5 7.1 19.6 16.0 6.1 2.9 11.8 10.5 1.9

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JSB LUMINAIRE SPACING TABLES





456



Self Contained Central Battery System

WATT LUMEN QX SERIES ADV SERIES 24V SLAVE 50V/110V SLAVE 230V SLAVE

Type BLF ELDL TYPE BLF ELDL BLF ELDL BLF ELDL ELDL

18 1350 BQX 10 100 ADV343 11 105 31 230 44 350 1100

36 3350 BQX 9 215 ADV343 8 195 22 400 33 650 2700

58 5200 CQX 6 225 ADV453 7 260 - - 24 740 4200

70 6550 DQX 5 235 ADV563 7 330 - - 18 700 5300

HALO-PHOSPHATE LINEAR LAMPS

18 1200 BQX 10 85 ADV343 11 95 31 200 44 310 970

36 2900 BQX 9 190 ADV343 8 185 22 350 33 560 2340

58 4800 CQX 6 210 ADV453 7 210 - - 24 685 3870

70 5800 DQX 5 210 ADV563 7 290 - - 18 620 4680

COMPACT LAMPS

16 - 2D 1050 BQX 13 100 ADV343 13 100 45 260 65 400 85028 - 2D 2050 - - - ADV443 14 205 28 315 40 500 1655

38 - 2D 2850 - - - ADV553 12 245 23 360 33 560 2300

11 - TC-S 900 BQX 15 95 ADV343 19 125 49 240 70 375 725

13 - TC-D 900 BQX 14 90 ADV343 16 105 44 210 63 330 725

18 - TC-D 1200 BQX 10 85 ADV343 12 105 25 170 37 260 970

24 - TC-L 1800 - - - ADV343 11 145 28 275 40 425 1450

36 - TC-L 2900 BQX 7 145 ADV343 8 145 24 390 35 600 2300

DESIGN PROCEDURE FOR CONVERTED MAINS LIGHTING LUMINAIRES

When normal mains luminaires are converted and utilised for emergency use, the procedure below should be followed:

1. The table of emergency lighting design lumens (above), should be consulted to determine the minimum emergency lamp output for the

particular lamp/circuit required, for use with either spacing tables or a computer design program.

2. The appropriate spacing table should then be selected and used, checking the following points:• That the shape of the polar curve corresponds with the luminaire to be used• That the value of the output is similar (LOR and at the nadir. Variations can be compensated for, by determining a ratio for the lamp

output value obtained in 1)

3. The spacing limits for escape routes or open areas can then be read off for specific height and lamp outputs.

Note: If different values of minimum light level are needed, they can also be obtained by determining a ratio for the lamp output valuei.e. To ensure a minimum of 10 lux on the centre line of an escape route, a value 10 times greater must be applied to the chart value.So 2000 lumen lamp output gives the same spacing to 10 lux as 200 lumens does for 1 lux.

USE OF SPACING TABLES WITH COMPUTER PROGRAMS

Computer programs can provide accurate values for specific applications, using data for the exact luminaire, at the precise mounting height

and with the actual emergency lamp output, for any luminaire configuration.

To quickly develop an initial spacing layout, the spacing values from the nearest table should be used. This can then be applied to the softwareand modified as required, to obtain the optimum luminaire layout. Illuminance levels can then be calculated, verifying the system design asrequired by BS5266-1:1999 & EN1838.

To enable photometric designs to be performed as required by BS 5266 pts 1 and 7, the following factors need to be used to ensure that theworst case conditions are designed for.

Initial lamp lumens of the lamp must be derated by:• Ballast lumen factor (for emergency circuits, these are independently tested and their % value is shown)• K Factor for the effect of reduction in supply voltage as the battery discharges, and of cable voltage drop on central systems• S Factor to compensate for the ageing of lamps during service life.

The effect of dirt on the diffuser must also be allowed for, so an allowance for 20% as recommended by ICEL has been built into these spacingtables. If the design is being produced on a computer, similar allowance should be made.

System lumen reduction factors used in the following lumens chart are:

When applied with the appropriate Ballast Lumen Factors % with typical fluorescent lamps, they give the following Emergency Lighting Design

Lumens (ELDL) for typical fluorescent lamps which can be used for spacing calculations:

SYSTEM TYPE SELF-CONTAINED 24 VOLT SLAVE 50 & 110 VOLT SLAVE 230 VOLT INVERTER SLAVE

K Factor 0.85 0.65 0.7 0.95

S Factor 0.85 0.85 0.85 0.85


TRI-PHOSPHOR LINEAR LAMPS

Notes: 1. ADV series modules suitable for use with switch start circuits only2. Other lamp type/wattage data on request



457



Lux level


65°-200cd/m2 100 4.0 2.5 5.5 5.2 2.4 1.9 5.9 6.4 1.8 3.1 6.5 7.6 3.7

200 8.1 2.7 5.9 7.0 2.9 2.0 6.1 6.6 2.4 3.6 7.0 7.7 3.8

600 24.4 3.3 6.6 7.6 3.7 2.2 6.6 7.2 2.6 3.8 7.2 7.8 3.8

2000 81.1 3.6 7.0 7.7 3.8 * * * * * * * *

4000 163.2 * * * * * * * * * * * *

100 1.6 2.9 7.2 6.4 1.9 2.5 8.6 8.8 2.2 4.5 9.8 10.4 4.6

200 3.2 3.6 8.6 8.8 3.2 3.0 9.1 9.9 3.0 4.9 10.2 10.6 5.1

600 9.6 4.6 9.8 11.0 4.7 3.4 10.4 11.0 3.8 5.3 11.4 12.1 5.6

2000 32.0 5.1 10.9 11.7 5.6 3.5 11.0 11.6 3.9 5.7 11.6 12.4 5.9

4000 64.0 5.3 11.6 12.2 5.7 * * * * * * * *

General 100 4.4 2.5 5.4 5.9 2.5 1.8 6.2 6.8 2.0 3.3 7.6 8.0 3.6Purpose

200 8.8 2.7 6.4 7.0 2.9 2.2 6.5 7.6 2.4 3.8 7.8 8.6 4.0

600 26.4 3.4 7.6 8.2 3.7 2.5 7.2 8.6 2.6 3.9 8.3 9.2 4.2

2000 88.0 3.8 7.8 8.6 4.0 * * * * * * * *

4000 176 * * * * * * * * * * * *

100 1.7 2.2 6.8 6.80 2 .0 2.3 8.6 8.9 2.3 4.4 9.8 11.6 4.8

200 3.4 3.4 8.6 9.2 3.4 3.0 9.5 10.5 3.2 4.9 10.8 12.4 5.8

600 10.2 4.5 10.1 11.8 5.0 3.5 11.2 12.6 4.1 5.7 12.6 13.9 6.4

2000 34.0 5.4 12.0 13.2 6.1 3.7 12.0 13.4 4.2 6.1 12.9 14.8 6.7

4000 64.0 5.7 12.6 14.0 6.4 * * * * * * * *

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

2.5

4

Lux level


100 1.9 1.6 5.8 4.6 1.5 2.0 8.0 6.5 1.6 4.5 11.6 8.7 3.4

200 3.8 2.9 8.2 6.4 2.3 2.8 10.7 8.0 2.2 5.8 15.0 10.6 4.6

600 11.4 4.9 12.5 9.4 3.6 4.3 16.0 11.0 3.2 8.6 22.0 14.8 6.0

2000 28.0 7.5 19.0 13.0 5.2 5.2 19.0 13.0 3.6 9.8 25.1 16.0 6.7

4000 47.0 8.6 22.0 14.8 6.0 * * * * * * * *

100 0.7 – – – – 2.2 8.0 6.6 1.1 4.6 13.0 10.0 3.8

200 1.5 2.2 8.0 7.0 1.7 2.8 11.6 9.4 2.4 6.5 17.0 12.6 5.0

600 4.5 5.1 13.9 10.6 4.1 4.8 18.0 13.5 3.7 9.8 25.4 17.8 7.3

2000 15.2 8.5 22.0 15.8 6.2 7.7 28.0 19.5 5.5 15.0 38.0 25.0 10.3

4000 30.4 11.0 27.0 19.6 7.9 * * * * * * * *

100 0.3 – – – – – – – – 3.8 13.0 10.4 3.0

200 0.6 – – – – 1.7 11.2 9.1 1.6 6.5 17.8 14.4 5.2

600 2.0 4.5 14.2 11.1 3.8 4.9 19.6 15.2 3.8 10.8 28.0 21.0 8.2

2000 6.8 8.9 24.2 18.4 7.2 8.4 32.0 23.5 6.3 17.0 44.0 30.0 12.4

4000 13.6 12.1 31.6 23.7 9.2 10.8 40.0 28.0 8.0 22.0 54.0 36.0 15.0

100 0.1 – – – – – – – – – – – –

200 0.2 – – – – – – – – – – – –

600 0.7 – – – – 3.5 19.6 16.0 2.8 11.3 31.5 25.0 9.0

2000 2.4 8.6 20.6 20.6 7.1 9.1 36.0 28.0 7.0 19.5 52.0 38.0 15.0

4000 4.8 13.0 27.6 27.6 10.3 12.2 48.0 36.0 9.6 26.0 63.0 46.0 19.0

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

CONVERSIONS WITH LOW BRIGHTNESS LOUVRE

30°

60°

90°

30°

60°

90°

300

200

100

cd/1000lm

60°

90°

30° 30°

60°

90°

120°120°

40

80

120

cd/1000lm


ULOR 0.00

DLOR 0.61LOR 0.61

CONVERSIONS WITH INDUSTRIAL WEATHERPROOF Nadir intensity 129cd/1000lm




458



Lux level


100 3.3 2.4 5.8 5.8 2.4 2.0 6.7 6.7 2.0 3.5 7.2 7.2 3.5

200 6.7 2.9 6.6 6.6 2.9 2.3 6.9 6.9 2.3 3.6 7.8 7.8 3.6

600 21.1 3.5 7.6 7.6 3.5 2.6 7.7 7.7 2.6 3.9 8.7 8.7 3.9

2000 67.0 4.1 8.2 8.2 4.1 * * * * * * * *

4000 134.0 * * * * * * * * * * * *

100 1.3 2.1 6.0 6.0 2.1 2.1 8.7 8.7 2.1 4.6 10.4 10.4 4.6

200 2.6 3.0 8.8 8.8 3.1 3.0 9.8 9.8 3.0 5.2 11.0 11.0 5.2

600 7.8 4.7 10.5 10.5 4.7 3.6 11.1 11.1 3.6 5.7 12.6 12.6 5.7

2000 26.0 5.5 11.8 11.8 5.5 3.8 12.0 12.0 3.8 6.2 13.0 13.0 6.2

4000 52.0 5.7 12.6 12.6 5.7 * * * * * * * *

100 0.6 – – – – 1.1 8.2 8.2 1.1 4.8 13.6 13.6 4.8

200 1.2 1.7 8.4 8.4 1.7 2.9 12.1 12.1 2.9 6.8 15.0 15.0 6.8

600 3.6 5.5 14.0 14.o 5.5 4.9 15.6 15.6 4.9 8.0 17.6 17.6 8.0

2000 12.0 7.5 17.0 17.0 7.5 5.9 17.7 17.7 5.9 9.0 18.9 18.9 9.0

4000 21.0 8.5 17.8 17.8 8.5 6.1 18.5 18.5 6.1 * * * *

100 0.2 – – – – – – – – 1.6 13.0 13.0 1.6

200 0.4 – – – – – – – – 6.5 19.6 19.6 6.52.2

600 1.2 3.9 15.0 15.0 3.9 5.2 21.6 21.6 5.2 11.5 25.6 25.6 11.5

2000 4.2 9.8 24.4 24.4 9.8 8.4 25.3 25.3 8.4 13.5 30.4 30.4 13.5

4000 8.4 12.2 27.5 27.5 12.2 9.4 26.3 26.3 9.4 15.2 33.0 33.0 15.2

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

Lux level


100 2.5 2.3 6.8 5.4 1.9 2.3 9.0 7.0 1.8 4.8 11.8 9.6 3.9

200 5.2 3.4 9.0 7.6 2.7 3.1 10.9 8.8 2.6 5.9 13.8 11.4 4.8

600 15.6 5.1 12.1 10.0 4.0 4.2 14.0 12.6 3.5 7.1 16.2 16.0 6.5

2000 52.0 6.2 15.0 14.0 5.7 4.4 14.6 13.1 3.6 7.3 17.1 16.4 6.7

4000 104.0 * * * * * * * * * * * *

100 1.0 0.1 6.4 5.2 0.1 2.2 9.7 7.9 1.8 5.4 14.0 9.0 3.0

200 2.0 3.2 10.2 8.4 2.6 3.5 13.0 10.3 2.9 7.0 17.4 14.2 5.8

600 6.0 5.9 15.2 12.1 4.7 5.3 18.2 15.0 4.2 9.5 22.0 19.6 8.0

2000 20.0 8.7 19.8 17.8 7.1 6.9 23.2 21.0 6.2 10.6 24.0 22.0 9.2

4000 40.0 9.9 23.2 21.0 8.9 * * * * * * * *

100 0.4 – – – – – – – – 4.9 14.8 12.6 4.2

200 0.9 – – – – 2.8 13.2 11.0 2.5 7.4 20.2 16.2 6.3

600 2.7 5.6 16.5 13.0 4.8 5.7 21.6 17.2 4.5 11.7 26.8 23.4 9.5

2000 9.2 10.1 25.6 20.4 8.1 8.7 30.0 25.2 7.0 15.5 35.0 32.0 13.5

4000 18.4 12.8 27.6 25.0 10.2 9.4 34.0 30.0 8.7 * * * *

100 0.1 – – – – – – – – – – – –

200 0.2 – – – – – – – – 6.6 21.6 17.6 5.12

600 0.9 – – – – 5.5 23.6 19.0 4.2 13.0 34.4 28.0 10.7

2000 3.2 10.7 30.0 24.0 8.8 10.5 38.0 30.8 8.4 20.6 48.0 40.0 16.2

4000 6.4 15.0 39.0 30.5 12.0 13.6 46.0 36.0 9.8 24.0 52.8 50.0 20.0

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

CONVERSIONS WITH COMPACT LAMP DOWNLIGHTER Nadir intensity 272cd/1000lm

ULOR 0.00

DLOR 0.60LOR 0.60

CONVERSIONS WITH TROUGH REFLECTOR Nadir intensity 241cd/1000lm



30°

60°

90°

30°

60°

90°

100

200

300

cd/1000lm

30°

60°

90°

30°

60°

90°

300

200

100

cd/1000lm



459

Lux level


100 1.8 1.5 5.2 4.2 1.3 1.8 7.0 5.5 1.4 4.0 11.0 7.2 3.0

200 3.7 2.6 7.4 5.8 2.1 2.5 10.1 6.9 2.0 5.5 14.4 8 .6 3.7

600 11.1 4.5 11.6 7.6 3.2 4.0 15.3 8.8 2.6 8.3 21.0 11.6 4.8

2000 37.0 7.0 18.4 10.2 4.3 4.9 18.5 10.3 3.0 9.7 24.5 12.8 5.4

4000 74.0 8.0 21.6 11.3 4.7 * * * * * * * *

100 0.7 – – – – 1.5 7.0 6.1 1.1 4.2 11.6 9.0 3.5

200 2.6 2.2 7.2 5.4 1.6 2.5 10.4 8.3 1.9 5.8 15.8 10.8 4.5

600 4.3 4.6 12.7 9.5 3.7 4.4 17.0 11.3 3.3 9.4 24.0 14.2 6.0

2000 15.0 7.9 21.0 13.0 5.6 7.3 26.0 15.7 4.5 14.7 13.0 19.6 8.2

4000 30.0 10.3 26.4 15.6 6.5 * * * * * * * *

100 0.32 – – – – – – – – 3.5 11.4 9.6 3.0

200 0.64 - - - - 1.8 10.0 8.8 1.4 5.8 16.3 13.0 4.9

600 2.0 4.2 13.0 10.8 3.6 4.5 17.6 13.3 3.7 10.1 26.2 17.3 7.3

2000 6.4 8.2 22.2 15.7 6.2 7.7 31.0 19.0 5.4 16.0 42.0 24.0 10.0

4000 13.0 11.2 30.0 19.0 7.8 10.5 40.0 23.0 6.6 21.0 52.0 29.0 12.0

100 0.11 – – – – – – – – – – – –

200 0.23 – – – – – – – – 3.6 16.0 13.6 2.72.2

600 0.66 – – – – 3.5 18.2 15.9 2.8 10.2 28.0 21.7 8.4

2000 2.2 8.0 23.6 19.0 6.8 8.2 28.0 24.0 6.6 18.0 48.0 30.4 12.6

4000 4.4 11.8 32.3 24.2 9.5 11.3 44.0 28.0 8.4 24.0 56.0 38.0 15.2

0.5L0.5L0.5L0.5L

0.5L0.5L

0.5L0.5L


2.5

4

6

10

CONVERSIONS WITH PRISMATIC DIFFUSER Nadir intensity 143cd/1000lm

ULOR 0.32

DLOR 0.49LOR 0.81

CONVERSIONS WITH RECESSED MODULAR FITTED WITH FLATPRISMATIC DIFFUSER


ULOR 0.00

60°

90°

60°

90° cd/1000lm

80

60°

90°

120°

60°

90°

120°

50

100

150cd/1000lm

39164463 Central Battery System Cooper Ltd

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