xls40e/50e/60e system architecture - ae · xls40e/50e/60e system architecture sounder circuits ......

SECTION 6: page �

Section 6.�.�: Analogue Addressable – Control Panels

XLS40e/50e/60e System Architecture

SounderCircuits

Local Printer

ActiveRepeater

PassiveRepeater

40 WayMimicDriver

4 WaySounder Module

4 WayRelay

Module

8 WayInput

Module

SerialInterfaceModule

The XLS40e, 50e and 60e range of

controllers offers flexibility. Available

in 1, 2 or 5 loops, the range of

controllers is compatible with the

detection protocol of the five main

industry leaders:* Honeywell TC800,

System Sensor, Apollo (Xplorer,

XP95 & Discovery), Hochiki ESP,

and Nittan.

Further flexibility is afforded by a

wide variety of peripheral devices.

From display repeaters to custom

mimic displays, printers, serial

data interfaces and switching relay

interfaces.

* The XLS range of controllers is not compatible with any of the Gent devices. Refer to Section 5 for compatible controllers.

SECTION 6: page �

The XLS40, 50 and 60e range of

intelligent fire alarm control panels

has been designed with openness

in mind. Affording connection

with up to 5 of the industry

leading detection protocols, 4

of which are truly open protocol.

Constructed around proven and

reliable microprocessor technology,

the series boasts a vast and

comprehensive range of peripherals

providing a scalable approach to

almost all applications.

l Multi Protocoll TC800l System Sensorl Apollo (Xplorer, XP95 and

Discovery)l Hochiki ESPl Nittan

l Supports loop powered Sounder Beacons

l Modular concept

l Simple, robust design

l Intuitive to use

l Cost effective to maintain

l Easy to expand – scalable

l Network options

TEChNICAl SPECIfICATION

Model XlS40e XlS50e XlS60e

Loop Capacity 1 loop 1 to 2 loops expandable 1 to 5 loops expandable

ZonesUp to 20 zones with individual LED indicators

A maximum 200 can be programmed with up to 180 software zones with no LED indication

Up to 80 Zones using the 795-077-020 & 795-077-060 zone indication

expansion modules

Operating Voltage 230V 50Hz ac (+10%, -15% voltage tolerance)

Max. PSU Rating2.5 Amps total

Comprising: Battery Charger: 0.7 Amps Internal & External Loads: 1.8 Amps

Standby Batteries 24V sealed lead acid batteries

Power Supply Input(s) 24V and 7V ac (from integral mains transformer)

Power Supply Output(s) 24V dc nominal (26.5 – 19.5V dc)

Weight10 kg without batteries

18.5 kg with 2 x 12Ah batteries

19 kg without batteries38.2 kg with 2 x 24Ah

batteries

Operating Temperature 0ºC to +40ºC 0ºC to +40ºC 0ºC to +40ºC

Humidity (max) 85% (non-condensing) 85% (non-condensing) 85% (non-condensing)

Relevant Standards EN 54 Parts 2 & 4 EN 54 Parts 2 & 4 EN 54 Parts 2 & 4

Approvals LPCB pending LPCB LPCB

XlS60e Multi-protocol fire Alarm Control Panel

400

400

Dimensions (mm)

OrDEr CODES

XLS40e Single Loop Control Panel 722-101-001

XLS50e One to Two Loop Control Panel 720-101-001

XLS60e One to Five Loop Control Panel 721-101-001

Loop Driver Card for TC800 (HBS) Protocol 795-070

Loop Driver Card for System Sensor Protocol 795-068

Loop Driver Card for Apollo Discovery or XP95 Protocol 795-066

Loop Driver Card for Apollo Series 90 or XP95 Protocol 795-048

Loop Driver Card for Hochiki ESP protocol 795-058-005

Loop Driver Card for Nittan Protocol 795-044-001

Semi Flush Mounting Kit for XLS40e and XLS50e 797-061

Semi Flush Mounting Kit for XLS60e 797-062Loop driver cards ordered separately, compatible with XLS40e, XLS50e and XLS60e only. For further panel accessories please contact Honeywell Building Solutions.

500

500

�35

�95

XLS40e and XLS50e XLS60e

XLS40e, XLS50e and XLS60e


SECTION 6: page 3


The compact repeaters are

remote units which enhance the

display and indicating facilities

of the XLS40/50/60e control

panels. There are two types

of repeaters available, passive

with indications only and active

with both functional controls

and indication. Both repeaters

display the operational state of

the control panel using the 80

character LCD display and the 7

LED status indicators.

l Functional repeater fitted with:

l System Reset

l Sound Alarms

l Mute

l Silence/Re-sound Alarms

l Accept

l Self test

l Connection afforded via RS485 peripheral data bus

l Affords connection of up to 31 repeaters per system

l Backlit adjustable alphanumeric display

l Discrete, aesthetic design


Model Active Passive

Operating Voltage 18 to 32V dc 18 to 32V dc

Operating Current 90mA (Quiescent) 120m (Alarm) 90mA (Quiescent) 120m (Alarm)

Terminals Maximum cross section 2.5mm2 Maximum cross section 2.5mm2

User ControlsKeyswitch activated – System Reset,

Sound Alarms, Silence/Resound, Mute, Accept and Self Test

N/A

LED indicators Fire, Fault, Accepted, Disablement, Silenced, Comms Fail, Power

Weight 1.7 kg (approx) 1.7 kg (approx)

Operating Temperature +5ºC to +45ºC +5ºC to +45ºC

Humidity 10 to 93% (non-condensing) 10 to 93% (non-condensing)

Relevant Standards N/A N/A

Approvals N/A N/A

XlS60e Active repeater Panel

Dimensions (mm)

XLS60e Repeater Panel

OrDEr CODES

XLS60e/BR Base Passive Repeater 709-711-001

XLS60e/FR Base Active Repeater 709-611-001

XLS60e Repeater Bezel for semi-flush mounting 020-600-002Requires RS485 (795-004-001) communication module in Port D and an external power source.

�53.5

�65

50

SECTION 6: page 4


XLS80e System Architecture

Repeater Panel

Repeater Panel

XLS80e

Security

EBIServer

EnergyManager

CCTV AccessControl

XLSNETSecure RS485 Bus

EBI

The XLS80e control panel, available

in 2 through to 8 loop versions, is

one of a few in the market place

that will comply with the standards

and yet provide control of over

512 devices. The Enhanced Loop

Interface Board (ELIB) enables multi

processor control to provide up to 8

loops of detection and loop powered

sounders from one controller.

The key benefit of this system is the

functionality that can be provided

when connected to Enterprise

Building Integrator, EBI.

EBI provides a seamless graphical

representation of alarms and

processes to:

l Hasten the identification of a genuine fire alarm condition

l Improve the efficiency of evacuation procedures

l Provide seamless smart integration with Building systems:

l Fire

l HVAC

l Intruder

l CCTV

l Access Control

l Energy management

l Total control and responsibility for integrated solution, be they 3rd party or in-house

l Enable Honeywell Building Solutions to provide a total solution tailored to the needs of the customer

SECTION 6: page 5

OrDEr CODES

TC800 protocol only

XlS80e Two loop Control Panel 0�0-69�

XlS80e four loop Control Panel 0�0-693

XlS80e Six loop Control Panel 0�0-694

XlS80e Eight loop Control Panel 0�0-695

XlS80e Standard Back Box flushing Bezel 0�0-038-00�

XlS80e loop Booster (boosts loop alarm current) 00�-6�9-�00

XlS80e Printer kit 0�0-644-009

XlS80e rS485 Communications Card 0�0-479Contact Honeywell Building Solutions for further information on available zone configurations and other peripheral equipment.

Advanced design and manufacturing

techniques together with Honeywell’s

50 plus years of experience at

the forefront of the fire industry,

ensure that the XLS80e sets new

standards in areas of functionality,

flexibility, user friendliness and

reliability. The XLS80e is the first

choice when it comes to smart

building integration. Connectivity

with Enterprise Building Integrator

(EBI) (see Section 8) affords total

control over your building services.

l Seamless integration into EBIl Enhanced Loop Boards provide

connection of more than 512 devices per control panel

l Supports Honeywell’s advanced detection:l FILTREX – harsh

environment detectorl Loop powered aspirating

modulel Intrinsically safe equipmentl Laser sensor point detectionl Loop powered sounder

beaconsl 24 and 72 hour standbyl Direct serial connection to

XLSPAVA – Public Address and Voice Alarm system

l Peer to peer or master slave networking

XlS80e Control Panel

XLS80e Control Panel


Loop CapacityExpandable from 2 to 8 loop capacity. Up to 198 loop devices

(up to 99 sensors and 99 modules) may be fitted to each analogue loop

Output voltage 22.5 to 26.4V

Maximum load 0.5A

Zones 255 fire zones per panel

Max. PSU Rating 7A

WeightStandard 14 kg (approx) (no batteries),

Extended – extra depth 20 kg, Back Box Extension – extra depth 5 kg

Operating Temperature -5ºC to +45ºC

Relative Humidity 5 to 95%

Relevant Standards EN 54 Parts 2 & 4

Approvals LPCB approved to EN 54 Parts 2 & 4

Dimensions (mm)


A full range of 19-inch rack mounting assemblies addresses the needs of more industrial type installations.

500

400

�53

SECTION 6: page 6

OrDEr CODES

XlS80e Active repeater 00�-45�-�0�

XlS80e Active repeater flushing Bezel 00�-45�-�05Contact Honeywell Building Solutions for further information concerning mimic LED boards and other peripheral equipment.

Repeater panel requires RS48585 (02 0-479) communication card kit and external power source.

The compact repeaters are

remote units which enhance the

display and indicating facilities

of the XLS80e control panel.

The XLS80-FR active repeater

has both functional controls that

can be enabled and disabled

dependent upon requirements.

General alarm and fault status

are provided by on-board LEDs,

whilst indication of textual

information is afforded by a 240

x 60 graphic LCD.

l Repeater controls:

l System Reset

l Sound Alarms

l Mute

l Silence/Re-sound Alarms

l Accept

l Self test

l Connection afforded via RS485 peripheral data bus

l Affords connection of up to 31 repeaters per system

l Backlit adjustable alphanumeric display

l Discreet, aesthetic design

XlS80e Active repeater Panel

Dimensions (mm)


Model Active Passive


Operating Current 90mA (Quiescent) 120m (Alarm) 90mA (Quiescent) 120m (Alarm)

Terminals Maximum cross section 2.5mm2 Maximum cross section 2.5mm2

User ControlsKeyswitch activated – System Reset,

Sound Alarms, Silence/Resound, Mute, Accept and Self Test

N/A

LED indicators Fire, Fault, Disables, Accepted, Silenced, Power, Communications loss

Weight 1.7 kg (approx) 1.7 kg (approx)

Operating Temperature +5ºC to +45ºC +5ºC to +45ºC


Relevant Standards N/A N/A

Approvals N/A N/A

�53.5

�65

50

XLS80e FR Repeater Panel


SECTION 6: page 7

Loop Booster


OrDEr CODES

loop Output Booster 00�-6�9-�00

flush Mounting Kit for loop Booster 0�0-599-00�

The loop booster has been

specifically designed to provide

extra power to a loop in an alarm

condition (e.g. higher current

devices such as sounders and

beacons). In the event that

more, higher current devices are

added, the loop booster makes

an attractive, cost affective

alternative to that of providing

additional control panels or

cabling.

l Expands the capacity of ‘alarm’ devices on a loop

l Self-contained standby batteries

l Using 2 x 12V 12 Ah SLA batteries will provide up to 72 hour standby

l Up to 1.5A can be supplied to the loop in alarm

l Onboard local LED indication

l Fully monitored locally and from the control panel

loop Booster


Loop Current Quiescent (no faults)

1.0mA

Loop Current Quiescent (maximum)

6.7mA – in alarm the loop booster supplies current to the loop (peak 1.5A)

Input voltage 230V ac, ±15%, 48-63Hz

Max. current consumption 1.6A

Weight 3.5 kg (without batteries)


Relative Humidity 5 to 95%

Relevant Standards EN 54 Part 18

Approvals LPCB pending

Dimensions (mm)

380

365

�06

SECTION 6: page 8

1Enterprise Building Integrator (EBI)The XLS range of controllers are designed to interface seamlessly with EBI, which is a high performance integration package that gives the user visibility and full control of the building systems: Intrusion, CCTV, Fire, Access Control and Environmental Controls.

2Specialist ApplicationsHoneywell Building Solutions has direct access to Honeywell owned technologies that have been designed to specifically deal with ‘Specialist’ applications: Public Address and Voice Alarm (PAVA), high sensitivity detection, hazardous area detection and alarm indication and harsh environment detection (areas of high levels of airborne contamination).

3Direct AccessHoneywell owned technologies have a world wide proven track record in the fire alarm industry so that the end user will always be dealing directly with the solution provider and not a third party distributor.

4Open Detection ProtocolOne of a few suppliers that can provide interconnection with open protocol detection and alarm equipment by using the XLS40e, 50e and 60e control panels (e.g. System Sensor, Apollo, Hochiki or Nittan detection protocol).

5TC800 Detection ProtocolTC800 is a detection and alarm equipment protocol that has been specifically developed for HBS worldwide and is the best way to ensure full compatibility with all Honeywell systems providing ongoing solution and support, managed from one point of contact – Honeywell Building Solutions.

6Scalable SolutionsUp to 99 panels (XLS40/50/60e) or 32 panels (XLS80e) can be networked to control large or complex sites. New buildings or extensions are also easily accommodated onto an existing system.

7reduce incidents and false alarmsThe COPTIR multi criteria device is unique to Honeywell and by utilising the following methods of combined detection: Carbon Monoxide, Infrared, Heat and optical smoke detection – four sensors in one – it is designed to limit the number of false alarms.

8loop Powered Sounder/StrobeLoop powered sounder/strobes save on cabling and interface costs whilst ensuring compliance with the Disability Discrimination Act 1995.

9Easy to Use InterfaceThe XLS80e has a 240 x 64 pixel, 6 line by 40 character display providing easily identifiable system messages. The intuitive on screen menu allows the user to control and access important information.

10Peace of Mind Established, innovative market leader in fire detection, delivering industry leading solutions to ensure reliable detection of real fires and minimal false alarm activations.

10 Reasons to Specify XLS


SECTION 6: page 9

Processed versus Unprocessed Signals

Time: hours

ProcessedUnprocessed

PW

4 µs

Drift compensation and smoothing

Drift Compensation and Smoothing eliminate nuisance alarms and provide a consistent progressive alarm sensitivity threshold throughout the period between service intervals.

In many instances this will result in an improved economic performance through savings in the cost of maintenance by extending the detector cleaning interval.

Intelligent sensors incorporate enhanced digital signal processing, eliminating spurious peaks.

figure �

Honeywell's range of intelligent devices uses decimal address switches to define a device’s address between 00 and 99 (See Figure 1). This is a simple intuitive method, not requiring knowledge of binary or purchase of specialised equipment to set addresses.

Differences in the protocol between detectors and modules allow them to have the same address without interfering with each other, and normally address 00 (the factory default setting) is not used within a system so that the panel can identify if a device address has not been set: Hence a total of up to 198 devices – 99 detectors and 99 modules (including call points, sounders, input and output modules) may be connected to a loop.

All XLS detectors have two integral LEDs, which provide local visual indication of the sensor status. These LEDs provide a dual function. In the event of an alarm, they are switched ON continuously, and can also be programmed to either blink when polled by the panel or remain off during normal conditions. In addition to their integral LEDs, XLS detectors can be connected to a remote LED indicator.

The individual loop address of each XLS detector can be easily set and read, using the rotary decade address switches located on the rear of each sensor. The use of decimal address codes significantly reduces the potential for incorrect address selection.

Each sensor base includes a tamper resistant option which, when activated, prevents the removal of the sensor from its base without the use of a tool.

Full circuit functionality can be easily confirmed on site by use of the sensor test switch. This comprises a switch operated by a magnet near the side of the detector. Operation of this magnetic switch simulates the effect of smoke or heat on the detector, and will generate an alarm response to the fire alarm control panel, making system testing both convenient and simple.

The XLS range of plug in analogue addressable smoke detectors combines state of the art design with micro-processor control and sophisticated processing circuitry to provide fast, efficient fire detection in a wide range of applications.

Effects of Drift Compensation

Time: years

Sen

sor

valu

e

low fault threshold

Analogue sensor value

Maintenance levels

Adjusted thresholds

1 12

TENS UNITS

23 3

4 45 56 67 7

8 80 09 9

Section 6.�.�: Analogue Addressable – Detectors

Introduction to XLS Loop Devices

SECTION 6: page �0

The COPTIR device has been specifically designed to meet two critical life safety issues: Reducing False Alarms and Speed of Response.

This plug-in fire detector, available in TC800 protocol only, combines 4 separate sensing elements that work intelligently together as a single unit.l Carbon Monoxide (CO) sensing

– using EC cell technology – for monitoring partially combusted products from a smouldering fire, for example

l Infra Red (IR) sensing for measuring ambient light levels and flame signatures

l Optical smoke detection

l Heat detection

The intelligent monitoring of these four major elements of a fire enables the COPTIR to respond far more quickly to an actual fire and yet provide a very high immunity to nuisance alarms. The device normally operates at a high immunity level, changing to become very sensitive to fires when the appropriate characteristics are sensed. In this way transient nuisances are monitored and ignored, reducing the false alarm rate and genuine fires are communicated quicker.

Based upon the signals, the sensor is constantly adapting and is dynamically

changing in accordance with:l Sensor thresholds

l Sensor gain

l Time delays

l Sensor combinations

l Sampling rates

l Averaging rates

In the case of a sensor failure, COPTIR will change the sensitivity of the remaining sensors as well as indicating a fault condition.

The IR light sensor helps the detector recognise specific situations such as welding and makes adjustments rapidly in order to further reduce the potential for false alarms.

The thermal detection function fuses thermistor technology with a software corrected linear temperature response. In areas where the normal daytime activities are likely to create unwanted alarms, the detector can be programmed to operate in a “Heat only” mode, automatically reverting to optical-thermal operation during the unoccupied period. The COPTIR is thus able to offer exceptional false alarm immunity and excellent fire detection.

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Photo-thermal2.7%/ft

Ion1.7%/ft

C02 PPM C0 PPM Nuisance Fire Overall

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Elements of a fireEvery fire has different elements, (particulate and gaseous) to be sensed: a true multi-criteria device must be able to sense all elements.

Gas in a fireCO and CO� is also emitted.

Performance test summarySummary of performance testing of COPTIr versus other technologies.

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COPTIr


COPTIR Multi-criteria Sensor

SECTION 6: page ��

l Unique, true four sensor multi-criteria detector

l Fully integrated Infra Red Sensing to support the fire alarm decision

l CO gas sensing for fastest response to slow developing and smouldering fires

l Highest immunity to unwanted alarms

l Available in TC800 protocol

l Automatic drift compensation of smoke sensor and CO cell

l Twin LED indicators providing 360º visibility

l Wide temperature range

l Built-in test switch

l Stable communication with high noise immunity

l Compatible with TC800 Loop powered sounder beacons to provide one location for multi-criteria detection and alarm indication


Type

Operating Voltage Range 15 to 32V dc

Maximum Standby Current 200μA at 24V dc (no communications)

Maximum Alarm Current 7mA at 24V dc

Operating Temperature Range -20ºC to +55ºC

Relative Humidity 15 to 90% (non-condensing)

Max Wire Gauge for Terminals 2.5mm2

Weight 176g (inc base)

Colour Ivory

Material Bayblend FR110

IR Limits 0-450 uW/cm2

CO Limits 0-500 PPM

Relevant Standards EN 54 Parts 5 & 7, LPS1279

Approvals LPCB

Dimensions (mm)

OrDEr CODES

TC800 Protocol only

COPTIR Multi-criteria sensor (IR, CO, Optical and Heat) TC850E1009

Standard Sensor Base 14506414-007

Standard Sensor Base with Built-in Isolator 14506414-006 Compatible with XLS80e only.

�0� 66 (in B50� base)

COPTIr


COPTIR Multi-criteria Sensor


OrDEr CODES

TC800 Protocol

Photoelectric Smoke Sensor TC806E1012M01

Multi Criteria Photoelectric Smoke / Thermal Detector TC840ME

System Sensor Protocol

Photoelectric Smoke Sensor 2251EM

Multi Criteria Photoelectric Smoke / Thermal Detector 2251TEM

Bases – for both protocols


Standard Sensor Base with Built-in Isolator 14506414-006

The low profile, photo-

electronic sensor is a plug in

smoke detector combining

a photo-optical sensing

chamber with addressable

analogue communications

and microprocessor control.

Intelligent, drift compensation

algorithms allow the sensor

to constantly adjust to

its surroundings, thereby

reducing false alarms due to

contamination.

l Microprocessor precision control

l Automatic drift compensation

l Enhanced signal processing for improved stability

l Extended temperature range


l Attractive low profile style

l Available in TC800 or System Sensor Protocol


Type Photoelectric Smoke SensorMulti Criteria Photoelectric Smoke / Thermal Detector

Operating Voltage Range 15 to 32V dc 15 to 32V dc

Maximum Standby Current 200μA at 24V dc (no communications) 250μA at 24V dc (no communications)

Maximum Average Standby Current

300μA (One Communication every 5 seconds with LED blink enabled)

Maximum Alarm Current (LED On)

7mA at 24V dc 7mA at 24V dc

Application Temperature Range

-20ºC to +60ºC -20ºC to +60ºC

Short duration & storage -30ºC to +80ºC -30ºC to +80ºC

Humidity 10 to 93% Relative Humidity (non-condensing)

Max Wire Gauge for Terminals

2.5mm2 2.5mm2

Material Bayblend FR110 Bayblend FR110

Weight 111g 111g

Colour Pantone Warm Grey 1C Pantone Warm Grey 1C

Relevant Standards EN 54 Part 7 EN 54 Parts 5 & 7

Approvals CPD, LPCB, VdS CPD, LPCB, VdS

Dimensions (mm)

�0� 43

Smoke Detector


Smoke Detectors


This range of static element and

“rate of rise” temperature sensors

provide solutions for a wide

range of applications. The 57

and 78 degree fixed temperature

analogue addressable sensors

employ low mass thermistors

and microprocessor technology

for fast response and linear

temperature sensing. The rate

of rise sensor uses the same

thermistor and microprocessor

technology.


l Twin LED indicators providing 360˚ visibility

l Rotary decade address switches

l Tamper-Resistant (standard feature)

l Built in test switch

l Attractive low profile style



Type 57º fixed 78º fixed rate of rise

Response Classification Class A1S Class A1R Class BS

Operating Voltage Range 15 to 32V dc 15 to 32V dc 15 to 32V dc


Maximum Average Standby Current

300μA (One Communication each 5 seconds with LED blink enabled)


7mA at 24V dc 7mA at 24V dc 7mA at 24V dc

Operating Temperature Range

-20ºC to +60ºC -20ºC to +60ºC -20ºC to +60ºC

Short duration and storage -30ºC to +80ºC -30ºC to +80ºC -30ºC to +80ºC

Humidity 10 to 93% Relative Humidity (non-condensing)


2.5mm2 2.5mm2 2.5mm2

Weight 78g 78g 78g

Colour Pantone Warm Grey 1C Pantone Warm Grey 1C Pantone Warm Grey 1C

Material Bayblend FR110 Bayblend FR110 Bayblend FR110

Relevant Standards EN 54 Part 5 EN 54 Part 5 EN 54 Part 5

Approvals CPD, LPCB, VdS CPD, LPCB, VdS CPD, LPCB, VdS

Dimensions (mm)

OrDEr CODES

TC800 Protocol

57º Fixed Temperature Heat Sensor TC808E1002M01

78º Fixed Temperature Heat Sensor TC808E1051M01

Rate of Rise Heat Sensor TC808E1028M01


57º Fixed Temperature Heat Sensor 5251EM

78º Fixed Temperature Heat Sensor 5251HTEM

Rate of Rise Heat Sensor 5251REM




�0� 5�

heat Detector


Heat Sensors


Audio and Visual Indication Range

Section 6.�.�: Analogue Addressable – loop Powered Sounder Beacons

The Loop Powered Audio and Visual Indication range provides:

More Devices on a loopl Reduced current consumption

increases the amount of devices on a loop without detriment to performance

lower Installed Costl Total cost of installation including

labour, cable and devices

Simplified Installation and Specificationl Ease of design, specification and

installation of systems

Technological Innovationl Developing a ‘technology story’ and

‘quantifiable USPs’. This enables Honeywell to be positioned as an innovator through the provision of differentiated, systems technologies and products to the market

Wide range of Devicesl Detector base-mount version,

reduces the impact on aesthetics with its unobtrusive design

l Wall mount version, designed to fit in, architecturally with a building’s décor

l Wide range of body and lens colours, to suit the needs of any ancillary fire alarm system requirement

high Performance Allows more products on a loop. 32 tones as standard on all products. Low current products providing high output:

l Significant improvements in current consumption providing immediate option to put more AV devices on a loop

l More devices on a loop means less loop. Therefore, less associated cabling and labour costs

l Reduces the need for additional products such as the loop booster and associated product costs and installation

l Low profile, Surface mounting kits & Weatherproof kits available on all wall mount products

Combined sounder/beacon detector base productsAllows all technologies to be installed at one point, in combination with multi-criteria detectors:

l Single address for combined sounder/beacon units software allows combined sounder/beacons to have one address instead of two

l One point of installation

fully Approved to CPDFully approved to EN 54 PART 3 & CPD for use in European Union

Isolated or non-isolated variantsFlexibility for system design:

l Cost saving for on-going maintenance as building changes

l Flexibility for system design at quotation stage

Available in TC800 and System Sensor ProtocolMulti-controller compatibility:

l TC800 Protocol fully validated with XLS40e, 50e, 60e and XLS80e (check for compatible control panel firmware version)

l System Sensor Protocol affords connection to third party panel manufacturers for existing service business

Features and Benefits

Honeywell presents the latest in proven audio visual technology with a comprehensive range of loop powered sounders, beacons and combined sounder beacon units. These devices, available in either an integrated detector base or wall mounted version, have been designed to cater for almost any building application.


Receiving their power from the

loop, the wall-mounted sounders

make an excellent alternative to

conventionally powered devices.

Volume control and tone

selection (up to 32 different tones

available) can be achieved by

simply selecting the appropriate

switch on the reverse of the

sounder.


Max. wire gauge for screw terminals 2.5mm2

Shallow Base Depth 10mm

Deep Base Depth 40mm

Ingress Protection Standard IP44 Optional IP66

Sounder output See Sounder Output and Current Ratings table for wall-mounted sounders on page 20Current rating


Approvals CPD, LPCB

Dimensions (mm)

Wall-mounted Sounder

OrDEr CODES

TC800 Protocol

For TC800 models add SSDH- before the System Sensor Protocol order code


Intelligent Wall Mounted Red Sounder WMSOU-RR-P03

Intelligent Wall Mounted White Sounder WMSOU-WW-P03

Intelligent Wall Mounted Red Sounder with Isolation WMSOU-RR-P04

Intelligent Wall Mounted White Sounder with Isolation WMSOU-WW-P04

Bases – fit all models

Deep Profile Base Red SDBR

Deep Profile Base Detector White SDBD

Deep Profile Base Bright White SDBW

Deep Waterproof Base (IP66) Red WDBR

Deep Waterproof Base (IP66) Detector White WDBD

Deep Waterproof Base (IP66) Bright White WDBW


�� 68 ��

Intelligent Wall Mounted red Sounder


Wall-mounted Sounder Beacon


Where audible indication needs

to be supplemented by visual

means, the combined sounder/

beacon device is ideally suited.

It draws minimal current

enabling many devices to be

connected to a loop. A range of

coloured lenses suits almost any

application.

Dimensions (mm)

OrDEr CODES

TC800 Protocol



Intelligent Wall Mounted Sounder Beacon Red Body, Red Lens WMSST-RR-P03

Intelligent Wall Mounted Sounder Beacon Red Body, Amber Lens WMSST-RA-P03

Intelligent Wall Mounted Sounder Beacon Red Body, Clear Lens WMSST-RC-P03

Intelligent Wall Mounted Sounder Beacon White Body, Red Lens WMSST-WR-P03

Intelligent Wall Mounted Sounder Beacon White Body, Amber Lens WMSST-WA-P03

Intelligent Wall Mounted Sounder Beacon White Body, Clear Lens WMSST-WC-P03

Intelligent Wall Mounted Sounder Beacon with isolation Red Body, Red Lens WMSST-RRx-P04

Intelligent Wall Mounted Sounder Beacon with isolation Red Body, Amber Lens WMSST-RAx-P04

Intelligent Wall Mounted Sounder Beacon with isolation Red Body, Clear Lens WMSST-RCx-P04

Intelligent Wall Mounted Sounder Beacon with isolation White Body, Red Lens WMSST-WR-P04

Intelligent Wall Mounted Sounder Beacon with isolation White Body, Amber Lens WMSST-WA-P04

Intelligent Wall Mounted Sounder Beacon with isolation White Body, Clear Lens WMSST-WC-P04








�� 68 ��






Sounder output See Sounder Output and Current Ratings table for wall-mounted sounders on page 20Current rating


Approvals CPD, LPCB

Intelligent Wall Mounted Sounder Beacon with red Body and red lens



Beacon type non isolation with isolation

Voltage 15 24 15 24

Average Current /mA 2.67 1.70 2.87 1.88





Relevant Standards N/A

Approvals N/A

Wall-mounted Beacon


Dimensions (mm)

�� 37 78

OrDEr CODES

TC800 Protocol



Intelligent Wall Mounted Beacon Red Lens WMSTR-WR-P03

Intelligent Wall Mounted Beacon Amber Lens WMSTR-WA-P03

Intelligent Wall Mounted Beacon Clear Lens WMSTR-WC-P03

Intelligent Wall Mounted Beacon with isolation Red Lens WMSTR-WR-P04

Intelligent Wall Mounted Beacon with isolation Amber Lens WMSTR-WA-P04

Intelligent Wall Mounted Beacon with isolation Clear Lens WMSTR-WC-P04








Where audible indication is

insufficient to alert occupants

to a fire condition, with a wide

range of coloured lenses to suit

almost any application, the low

current loop powered beacon

will provide a visual means of

identification. In addition, if used

with the IP66 mounting base

and gasket, this device could

be used externally as a more

environmentally-friendly means

of communicating between

buildings.

Intelligent Wall Mounted Beacon with red lens


Detector Base-mounted Sounders


Dimensions (mm)

�� 69.�3

The single address point given

to both the beacon and the

sounder allows more devices on

a loop, as well as affording total

control of your installation. Low,

medium and high volume control

settings, available on all of the

audio devices, provide flexibility

with regard to compensating for

ambient noise levels.

OrDEr CODES

TC800 Protocol



Intelligent Integrated Detector Base Sounder Red IBSOU-RR-P03

Intelligent Integrated Detector Base Sounder White IBSOU-WW-P03

Intelligent Integrated Detector Base Sounder with isolation Red IBSOU-RR-P04

Intelligent Integrated Detector Base Sounder with isolation White IBSOU-WW-P04













Sounder output See Sounder Output and Current Ratings table for base-mounted sounders on page 21Current rating


Approvals CPD, LPCB

Intelligent Integrated Detector Base Sounder White


The single address point given to

both the beacon and the sounder

allows more devices on a loop, as

well as affording total control of

the installation. Low, medium and

high volume control settings are

available on all audio devices.

Dimensions (mm)

Base-mounted Sounder and Beacon


OrDEr CODES

TC800 Protocol



Intelligent Integrated Detector Base Sounder Beacon Red Body, Red Lens IBSST-RR-P03

Intelligent Integrated Detector Base Sounder Beacon Red Body, Amber Lens IBSST-RA-P03

Intelligent Integrated Detector Base Sounder Beacon Red Body, Clear Lens IBSST-RC-P03

Intelligent Integrated Detector Base Sounder Beacon White Body, Red Lens IBSST-WR-P03

Intelligent Integrated Detector Base Sounder Beacon White Body, Amber Lens IBSST-WA-P03

Intelligent Integrated Detector Base Sounder Beacon White Body, Clear Lens IBSST-WC-P03

Intelligent Integrated Detector Base Sounder Beacon with isolation Red Body, Red Lens IBSST-RR-P04

Intelligent Integrated Detector Base Sounder Beacon with isolation Red Body, Amber Lens IBSST-RA-P04

Intelligent Integrated Detector Base Sounder Beacon with isolation Red Body, Clear Lens IBSST-RC-P04

Intelligent Integrated Detector Base Sounder Beacon with isolation White Body, Red Lens IBSST-WR-P04

Intelligent Integrated Detector Base Sounder Beacon with isolation White Body, Amber Lens IBSST-WA-P04

Intelligent Integrated Detector Base Sounder Beacon with isolation White Body, Clear Lens IBSST-WC-P04








�� 69.�3






Sounder output See Sounder Output and Current Ratings table for base-mounted sounders on page 21Current rating


Approvals CPD, LPCB

Intelligent Integrated Detector Base Sounder Beacon with White Body and red lens


Sounder Output and Current Ratings


No

Pat

tern

No

min

al

fre

qu

en

cy

Cyc

le

WAll-MOUNTED

Sounder (S) Combined Sounder Beacon (SB) Both S & SB

Current (mA) @ �4V




Output (dBA) @ �m ±3dB

HIGH MED LOW HIGH MED LOW HIGH MED LOW HIGH MED LOW HIGH MED LOW

1 A 554/440 2Hz (100ms/400ms) 5.37 2.14 1.56 8.99 2.93 2.24 8.83 5.60 5.02 14.75 8.69 8.00 100 92 89

2 A 800/970 1Hz 5.81 3.32 1.34 9.22 5.34 1.87 9.27 6.78 4.80 14.98 11.10 7.63 99 94 84

3 A 800/970 2Hz 5.97 3.38 1.28 8.98 5.27 1.99 9.43 6.84 4.74 14.74 11.03 7.75 99 94 84

4 A 2400/2900 3Hz 5.53 2.62 1.41 9.77 4.37 2.15 8.99 6.08 4.87 15.53 10.13 7.91 97 90 82

5 A 2500/3100 2Hz 5.30 2.57 1.38 9.78 4.48 2.05 8.76 6.03 4.84 15.54 10.24 7.81 96 89 81

6 A 988/645 2Hz 4.88 2.93 1.42 8.14 4.64 1.88 8.34 6.39 4.88 13.90 10.40 7.64 99 94 84

7 C 660 4.31 2.55 1.27 6.47 3.72 1.67 7.77 6.01 4.73 12.23 9.48 7.43 98 94 85

8 C 970 4.95 2.99 1.29 8.40 4.97 1.83 8.41 6.45 4.75 14.16 10.73 7.59 99 94 84

9 C 1200 6.26 2.65 1.59 9.65 5.01 3.10 9.72 6.11 5.05 15.41 10.77 8.86 97 92 86

10 C 2850 5.19 2.48 1.49 9.86 4.16 2.04 8.65 5.94 4.95 15.62 9.92 7.80 98 91 84

11 C 4000 5.31 2.46 1.76 9.43 4.09 2.73 8.77 5.92 5.22 15.19 9.85 8.49 94 87 84

12 I 660 0.05Hz 6.5s on, 13s off 4.17 2.49 1.24 6.49 3.73 1.76 7.63 5.95 4.70 12.25 9.49 7.52 98 93 84

13 I 660 0.277Hz 1.8s on, 1.8s off 4.14 2.47 1.18 6.47 3.72 1.71 7.60 5.93 4.64 12.23 9.48 7.47 93 89 80

14 I 660 3.33Hz 150ms on, 150ms off 2.68 1.77 0.99 3.96 2.44 1.19 6.14 5.23 4.45 9.72 8.20 6.95 95 91 81

15 I 970 0.8Hz 0.25s on, 1s off 3.57 2.15 1.01 5.88 3.45 1.49 7.03 5.61 4.47 11.64 9.21 7.25 84 79 70

16 I 970 0.5Hz 1s on, 1s off 4.86 2.96 1.26 8.38 4.94 1.79 8.32 6.42 4.72 14.14 10.70 7.55 91 86 76

17 I 2850 1Hz 5.12 2.43 1.43 9.70 4.12 2.03 8.58 5.89 4.89 15.46 9.88 7.79 89 82 75

18 I 970 1Hz 500ms on, 500ms off 4.82 2.92 1.27 8.31 4.90 1.80 8.28 6.38 4.73 14.07 10.66 7.56 90 85 75

19 I 9500.22Hz (0.5s on, 0.5s off) rptx3, 1.5s off

4.68 2.82 1.26 7.85 4.49 1.80 8.14 6.28 4.72 13.61 10.25 7.56 90 86 77

20 I 2850 4Hz 150ms on, 100ms off 3.96 1.84 1.20 6.79 3.16 1.54 7.42 5.30 4.66 12.55 8.92 7.30 96 89 81

21 S 400–1200 (0.5s on, 0.5s off)*3, 1.5s off 5.83 2.55 1.72 9.25 3.80 2.62 9.29 6.01 5.18 15.01 9.56 8.38 92 86 81

22 S 1200–500 0.99Hz 1s on, 0.01s off 6.22 3.14 2.20 9.93 4.63 2.90 9.68 6.60 5.66 15.69 10.39 8.66 100 94 89

23 S 2400–2850 7Hz 5.73 2.68 1.54 9.88 4.72 2.18 9.19 6.14 5.00 15.64 10.48 7.94 97 89 82

24 S 500–1200 (0.5s off, 3.5s on) 6.81 3.52 2.16 10.08 4.83 3.13 10.27 6.98 5.62 15.84 10.59 8.89 96 90 85

25 S 800–970 50Hz 4.72 2.83 1.35 8.00 4.80 1.80 8.18 6.29 4.81 13.76 10.56 7.56 99 94 84

26 S 800–970 7Hz 5.29 3.08 1.36 8.42 4.98 1.85 8.75 6.54 4.82 14.18 10.74 7.61 99 94 84

27 S 800–970 1Hz 6.70 4.04 1.65 8.67 6.16 2.71 10.16 7.50 5.11 14.43 11.92 8.47 99 94 84

28 S 2400–2850 50Hz 5.34 2.68 1.57 9.58 4.37 2.11 8.80 6.14 5.03 15.34 10.13 7.87 96 89 81

29 S 500–1000 7Hz 5.32 2.65 1.39 8.62 4.22 1.84 8.78 6.11 4.85 14.38 9.98 7.60 100 94 85

30 S 500–1200–500

0.166Hz rise 1s, stable 4s, fall 1s 6.19 3.00 1.89 10.05 5.31 2.92 9.65 6.46 5.35 15.81 11.07 8.68 98 92 87

31 S 800–1000 2Hz 5.73 3.22 1.38 8.77 5.21 1.94 9.19 6.68 4.84 14.53 10.97 7.70 99 94 84

32 S 2400–2850 1Hz 5.73 2.68 1.42 10.09 4.52 2.13 9.19 6.14 4.88 15.85 10.28 7.89 95 88 80

Pattern codes: A – Alternating, C – Continuous, I – Intermittent, S –Sweep

The current values shown in the above table should be increased by 0.19mA for the isolator version.

All values are typical. Constant sound output with varying voltage is due to output being driven by fixed output switching supply.



Sounder Output and Current RatingsN

o

Pat

tern

No

min

al

fre

qu

en

cy

Cyc

le

BASE-MOUNTED

Sounder (S) Combined Sounder Beacon (SB) Both S & SB





Output (dBA) @ �m ±3dB

HIGH MED LOW HIGH MED LOW HIGH MED LOW HIGH MED LOW HIGH MED LOW

1 A 554/440 2Hz (100ms/400ms) 6.25 1.81 1.32 10.40 2.23 1.57 9.71 5.27 4.78 16.16 7.99 7.33 92 83 79

2 A 800/970 1Hz 4.92 2.72 1.23 8.90 4.04 1.54 8.38 6.18 4.69 14.66 9.80 7.30 92 86 76

3 A 800/970 2Hz 5.15 2.67 1.17 7.58 3.70 1.55 8.61 6.13 4.63 13.34 9.46 7.31 93 86 76

4 A 2400/2900 3Hz 6.33 2.63 1.29 10.44 4.36 1.52 9.79 6.09 4.75 16.20 10.12 7.28 83 75 63

5 A 2500/3100 2Hz 6.46 2.69 1.26 10.77 4.53 1.57 9.92 6.15 4.72 16.53 10.29 7.33 82 74 61

6 A 988/645 2Hz 4.61 2.59 1.27 7.26 2.82 1.40 8.07 6.05 4.73 13.02 8.58 7.16 92 84 76

7 C 660 3.88 2.30 1.10 10.24 2.30 1.33 7.34 5.76 4.56 16.00 8.06 7.09 90 83 77

8 C 970 4.90 2.67 1.16 10.12 3.14 1.32 8.36 6.13 4.62 15.88 8.90 7.08 94 86 76

9 C 1200 4.79 2.41 1.46 8.28 2.67 1.46 8.25 5.87 4.92 14.04 8.43 7.22 89 80 74

10 C 2850 5.65 2.44 1.29 10.81 4.02 1.49 9.11 5.90 4.75 16.57 9.78 7.25 84 76 63

11 C 4000 5.61 2.56 1.60 10.27 4.24 2.05 9.07 6.02 5.06 16.03 10.00 7.81 95 88 81

12 I 660 0.05Hz 6.5s on, 13s off 3.57 1.61 1.12 5.59 2.11 1.31 7.03 5.07 4.58 11.35 7.87 7.07 89 82 77

13 I 660 0.277Hz 1.8s on, 1.8s off 3.53 1.59 1.15 5.56 2.09 1.37 6.99 5.05 4.61 11.32 7.85 7.13 85 78 73

14 I 660 3.33Hz 150ms on, 150ms off 2.28 1.48 0.91 3.52 1.48 1.01 5.74 4.94 4.37 9.28 7.24 6.77 87 79 74

15 I 970 0.8Hz 0.25s on, 1s off 3.51 1.57 0.99 6.11 2.37 1.14 6.97 5.03 4.45 11.87 8.13 6.90 78 72 63

16 I 970 0.5Hz 1s on, 1s off 4.88 1.99 1.16 8.28 3.14 1.32 8.34 5.45 4.62 14.04 8.90 7.08 86 78 69

17 I 2850 1Hz 5.59 2.40 1.20 10.57 3.98 1.35 9.05 5.86 4.66 16.33 9.74 7.11 77 69 60

18 I 970 1Hz 500ms on, 500ms off 4.75 2.00 1.15 8.24 3.10 1.32 8.21 5.46 4.61 14.00 8.86 7.08 86 78 69

19 I 9500.22Hz (0.5s on, 0.5s off) rptx3, 1.5s off

4.84 1.95 1.03 8.28 3.04 1.31 8.30 5.41 4.49 14.04 8.80 7.07 83 76 68

20 I 2850 4Hz 150ms on, 100ms off 4.23 1.90 1.00 7.71 3.07 1.14 7.69 5.36 4.46 13.47 8.83 6.90 81 73 61

21 S 400–1200 (0.5s on, 0.5s off)*3, 1.5s off 3.17 1.72 1.27 5.04 2.68 1.55 6.63 5.18 4.73 10.80 8.44 7.31 81 74 70

22 S 1200–500 0.99Hz 1s on, 0.01s off 5.09 2.42 1.52 6.27 2.82 1.73 8.55 5.88 4.98 12.03 8.58 7.49 89 83 77

23 S 2400–2850 7Hz 5.96 2.65 1.32 10.48 4.40 1.47 9.42 6.11 4.78 16.24 10.16 7.23 79 72 59

24 S 500–1200 (0.5s off, 3.5s on) 5.15 2.26 1.57 7.64 3.01 1.79 8.61 5.72 5.03 13.40 8.77 7.55 86 80 74

25 S 800–970 50Hz 4.54 2.63 1.19 6.42 3.17 1.34 8.00 6.09 4.65 12.18 8.93 7.10 90 84 74

26 S 800–970 7Hz 4.60 2.59 1.17 7.14 3.33 1.45 8.06 6.05 4.63 12.90 9.09 7.21 90 84 74

27 S 800–970 1Hz 5.46 2.82 1.29 8.22 3.78 1.61 8.92 6.28 4.75 13.98 9.54 7.37 89 84 74

28 S 2400–2850 50Hz 5.75 2.60 1.37 10.44 4.19 1.54 9.21 6.06 4.83 16.20 9.95 7.30 79 72 59

29 S 500–1000 7Hz 4.88 2.41 1.23 6.18 3.18 1.37 8.34 5.87 4.69 11.94 8.94 7.13 90 85 75

30 S 500–1200–500

0.166Hz rise 1s, stable 4s, fall 1s 4.80 2.37 1.45 8.16 3.19 1.75 8.26 5.83 4.91 13.92 8.95 7.51 89 81 75

31 S 800–1000 2Hz 4.89 2.65 1.18 7.59 3.69 1.62 8.35 6.11 4.64 13.35 9.45 7.38 90 84 74

32 S 2400–2850 1Hz 5.86 2.61 1.29 10.70 4.27 1.46 9.32 6.07 4.75 16.46 10.03 7.22 78 71 58

Pattern codes: A – Alternating, C – Continuous, I – Intermittent, S –Sweep

The current values shown in the above table should be increased by 0.19mA for the isolator version.

All values are typical. Constant sound output with varying voltage is due to output being driven by fixed output switching supply.


OrDEr CODES

TC800 Protocol

Flush Glass Element SSDH500KAC-FG

Flush Flexible Element SSDH500KAC-FF

Isolated Flush Glass Element SSDH500KAC-IFG

Isolated Flush Flexible Element SSDH500KAC-IFF

Surface Glass Element SSDH500KAC-SG

Surface Flexible Element SSDH500KAC-SF

Surface IP67 Glass Element WR6649W

Isolated Surface Glass Element SSDH500KAC-ISG

Isolated Surface Flexible Element SSDH500KAC-ISF


Flush Glass Element MCP5A-RP01FG-01

Flush Flexible Element MCP5A-RP01FF-01

Isolated Flush Glass Element MCP5A-RP02FG-01

Isolated Flush Flexible Element MCP5A-RP02FF-01

Surface Glass Element MCP5A-RP01SG-01

Surface Flexible Element MCP5A-RP01SF-01

Surface IP67 Glass Element WR6648W

Isolated Surface Glass Element MCP5A-RP02SG-01

Isolated Surface Flexible Element MCP5A-RP02SF-01

Accessories – for both protocols

Pack of ten Spare Glass (EN 54) KG1 X 10

Pack of ten Spare Test Keys SC070

Transparent Protective Hinged Cover Seal PS200

EN 54 Flexible Operating Element PS210 X 1Contact Honeywell Building Solutions for further information concerning Honeywell Call Point accessories.

Product Benefits

l Unique ‘Plug & Play’ installation concept

l Total ‘Flex-Ability’ in the choice of operating element

l Anti-Tamper facility

l Enhanced aesthetics and compact design

l Fully approved to the latest standards

l Backward compatibility

l IP67 option



Type Indoor Call Points IP67 Call Points

Cable Termination 0.5-2.5mm2 0.5-2.5mm2

Maximium Voltage 30V dc 30V dc

Standby Current400μA @ 24V dc (non-isolation)

500μA @ 24V dc (isolation)200μA @ 24V dc (non-isolation)

Operating Current7.6mA @ 24V dc (non-isolation)

7.6mA @ 24V dc (isolation)7.6mA @ 24V dc (non-isolation)


Operating Temperature -10ºC to +55ºC -10ºC to +55ºC

Ingress Protection IP24D IP67D

Material PC/ABS PC/ABS

Weight 0.11 kg Flush 0.16 kg Surface 0.46 kg Surface

Colour Red, Ral 3001 Red, Ral 3001

Relevant Standards EN 54 Part 11 EN 54 Part 11

Approvals LPCB LPCB

Manual Call Points

89

Dimensions (mm)

�7.5 3�

93

Section 6.�.3: Analogue Addressable – Manual Call Points

Indoor Call Point

��4 60

��4

Indoor Call Point IP67 Call Point

�0

87


Section 6.�.4: Analogue Addressable – Ancillaries

Beam Guide

PRINCIPLES OF OPERATION

There are two basic types of projected light

beam detectors, both of which operate

on the principle of light obscuration: a

light beam is projected across the area

to be protected, and is monitored for

obscuration due to smoke (See figure 1).

There are two basic types:

An End-to-End type detector has separate

transmitter and receiver units, mounted at

either end of the area to be protected. A

beam of infrared light is projected from the

transmitter towards the receiver, and the

signal strength received is monitored.

End-to End type detectors require power

to be supplied both to the transmitter

and the receiver ends of the detector.

This leads to longer wiring runs, and thus

greater installation costs than the reflective

type device.

Reflective or Single-Ended type detectors

have all the electronics, including the

transmitter and receiver mounted in the

same housing. The beam is transmitted

towards a specially designed reflector

mounted at the far end of the area to be

protected, and the receiver monitors the

attenuation of the returned signal.

The detector is typically calibrated to a

number of preset sensitivity levels based

on the attenuation of the beam seen

by the receiver. The sensitivity setting is

selected based on the beam range and

site environment.

Unlike point type optical smoke detectors,

the response of beam smoke detectors

is generally less sensitive to the type

and colour of smoke. Therefore, a beam

smoke detector may be well suited to

applications unsuitable for point optical

smoke detectors, such as applications

where the anticipated fire would produce

black smoke. Beam smoke detectors

do however require visible smoke and

therefore may not be as sensitive as ion

detectors in some applications.

Since the sudden and total obscuration

of the light beam is not a typical smoke

signature, the detector will normally see

this as a fault condition, rather than an

alarm. This minimizes the possibility of

an unwanted alarm due to the blockage

of the beam by a solid object, such

as a sign or ladder, being inadvertently

placed in the beam path. This “beam

blocked” fault threshold will typically be set

by the manufacturer at a sensitivity level

exceeding 7 to 10dB.

Very small, slow changes in the quality

of the light source are also not typical of

a smoke signature. These changes may

occur because of environmental conditions

such as dust and dirt accumulation

on the transmitter and / or receivers’

optical assemblies. These changes are

typically allowed for by automatic drift

compensation. When the detector is

first turned on and put through its setup

programme, it assumes the light signal

level at that time as a reference point for a

normal condition. As the quality of the light

signal degrades over time, due to dust

build up, the detector will compensate for

this change. The rate of compensation

is limited to ensure that the detector will

still be sensitive to slow or smouldering

fires. When the detector can no longer

compensate for the loss of signal (as with

an excessive accumulation of dirt) the

detector will signal a trouble condition.

Suitable Application

Like point smoke detectors, beam smoke

detectors are inappropriate for outdoor

applications. Environmental conditions

such as temperature extremes, rain,

snow, sleet, fog, and dew can interfere

with the proper operation of the detector

and cause nuisance alarms. In addition,

outdoor conditions make smoke behaviour

impossible to predict and thus will affect

the detector’s response to a fire.

Up to 100M

Up

to

25m

hei

ght

Combined Emitter /Receiver Unit

ReflectorBeam

attenuatedby smoke

plume

figure �: Operation of reflective Type Optical Beam Smoke Detector



Beam Guide

TESTING AND MAINTENANCE

Maintenance

As dust builds upon a beam detectors’

optical components, its sensitivity

will increase leading to an increased

susceptibility to nuisance alarms. Most

modern beam detectors such as these

include algorithms to compensate for

this gradual build up of dirt and reduce

maintenance whilst retaining constant

sensitivity. However, the detector lenses

and reflector will still need to be cleaned

periodically. The maintenance interval will

be dependant on site conditions – the

dirtier the site, the more frequent cleaning

will be required.

Manufacturer’s instructions’ should be

referred to for cleaning procedures, however

a fairly typical maintenance method is to

clean the detector lenses and reflector

with a damp soft cloth and a mild soap.

Solvents should not normally be used.

Note: Before carrying out any maintenance

on the detector, notify the relevant

authorities that the fire detection system

is undergoing maintenance, and that

the system is therefore temporarily out

of service. Disable the relevant zone to

prevent unwanted alarms.

functional Testing

Following installation, or any routine

maintenance work, beam detectors should

undergo functional testing.

The normal means of testing a beam

detector is to place a filter in the path

of the beam to reduce the amount of

received light below the detector threshold

and thus produce an alarm.

With the Honeywell beam detector, a

graduated scale is marked on the reflector.

To test the sensitivity, a suitable piece of

opaque material is used to block off a

section of the reflector corresponding to

the sensitivity, checking that the detector

reacts as expected.

Cha

mb

erVa

lue

Time

Clean AirValue

UncompensatedAlarm Threshold

UncompensatedChamber Value

CompensatedThreshold

Smoke required toreach alarmthreshold reduces -detector sensitivityincreases

Thresholdincreases tocompensate forincreased chamberclean air value

10 15 20 25 30 35 40 4555 60 65

50

figure �: Dust Build up and Drift Compensation

figure 3: Beam Detector functional Testing

By their nature, most beam detectors

are mounted in high inaccessible areas,

often requiring the use of a cherry picker

or similar machinery to reach them. It

can therefore be an expensive and time

consuming procedure to test them.

The Honeywell beam detectors have

overcome this problem by incorporating

a unique automatic test feature. On

command from a remote station, a servo

controlled calibrated filter is moved in front

of the receiver, simulating the effect of

smoke on the beam. If the correct signal

reduction in the returned light is detected

then the detector will enter the alarm

condition, otherwise a fault is returned.

The Asuretest function meets the periodic

maintenance and testing requirements

of most local standards, testing both

the electronics and optics of the unit

installation.


OrDEr CODES

TC800 Protocol

Analogue Reflective Beam Detector with Self Test Function TC847A1004EUR


Analogue Reflective Beam Detector with Self Test Function 6500S


Heater Kit (beam) to reduce build up of condensate BEAMHK

Heater Kit (30-70m range Reflector Panel) to reduce build up of condensate BEAMHKR

Long Range Reflector Kit (70-100m range) BEAMLRK

Multi-mount Accessory for ceiling or wall mounting (adjusts angle up and down or side to side) BEAMMMK

Surface Mount Accessory (back box to be used with the BEAMMMK) BEAMSMK

Remote Test Key Switch 6500RTS-KEY

These detectors are addressable

reflector-type linear optical beam

smoke detectors designed to be

connected directly to the loop,

available in TC800 or System

Sensor Protocol. The self test

feature affords remote testing, in

accordance with the standards,

saving time and money by

reducing the need for special

height access equipment.

l Well suited for protecting buildings with large open spaces: warehouses, atriums etc

l Mechanical filter option to facilitate remote testing – saves time and money with regard to servicing

l Easy alignment – saving installation time


Operating Voltage Range 0.5-2.5mm2

Typical Standby Current 2mA @ 24V dc (No communications, LED off)

Maximum Alarm Current 8.5mA (LED on)


-30ºC to +55ºC

Relative Humidity 0 to 95% (non condensing)

Ingress Protection IP54

Weight 1.77 kg


2.0mm2

Colour White trim, black box

Material Lens cover – Lexan, Backbox – Noryl

Reflector 200 x 230mm (5-70m range, supplied as standard)

Relevant Standards EN 54 Parts 12 & 17

Approvals CPD, LPCB, BOSEC, VdS

Beam Detectors

Dimensions (mm)


�90

�54

84

Analogue reflective Beam Detector


The duct housing samples air

currents passing through the

duct and gives dependable

performance for shutdown of

fans, blowers, and air conditioning

systems locally or across the

loop, preventing the spread

of toxic smoke and fire gases

through the protected area.

l Available in two loop powered versions:

l Extra low voltage, clean contacts outputs for switching local devices – DH500ACDC-E

l No external contacts – DH500

l 24V AC/DC operation – DH500ACDC-E

l For use with TC800 or System Sensor protocol

l Continuous sensitivity monitoring from the panel

l Analogue addressable photo heads with twist-in/twist-out removal

l Air velocity rating from 2.5 m/s to 20 m/s

l Clear polycarbonate cover for easy visual inspection of sampling tube filters

Dimensions (mm)

Duct Detector

OrDEr CODES

For use with TC800 or System

Sensor Protocol

Duct Sensor Housing with B501 Intelligent detector base* DH500

Duct Sensor Housing with (separately powered) change over contacts (not mains rated) with B501 Intelligent detector base* (TC800) 14506873-011 (System Sensor) DH500ACDC-E

Photoelectric Sensor (TC800) TC806E1012M01 (System Sensor) 2251EM


10 foot Sampling Tube ST-10



1.5 foot Sampling Tube ST-1.5* Sensor purchased separately.

Contact Honeywell Building Solutions for further information concerning module accessories.



Type Dh500 Dh500ACDC-E / �4506873-0��

Requires separate Power Supply Unit

No YES =>500mA (see note 1)

Operating Voltage Range 15 to 32V dc 20 to 30V dc 20.6 to 26.4V ac

Maximum Standby Current 200μA at 24V dc

(no communications)26mA @ 24V dc

65mA RMS @ 24V ac


7mA at 24V dc87mA @ 24V dc

182mA RMS @ 24V ac

Contact Rating N/A 10A @ 30V dc (resistive)


0ºC to +49ºC 0ºC to +49ºC

Relative Humidity 10 to 93% (non-condensing) 10 to 93% (non-condensing)

Weight 2.0 kg (inc packing) 2.0 kg (inc packing)

Duct air velocity 2.5m/s to 20m/s 2.5m/s to 20m/s

Relevant StandardsNo European Standard at present

– designed in accordance with UL 268A No European Standard at present

– designed in accordance with UL 268A

Approvals N/A N/A

Note 1: AC/DC @ 300mA RMS

368

��7

�0�

Duct Detector


Single and multi-way interfaces

are available within the same

mechanical package, reducing

both the cost of installation and

the mounting space required.

Their unique mechanical design

allows each module to be

mounted in either a wall box,

on a DIN rail or within any type

of enclosure. Irrespective of the

mounting methods chosen, the

address switch is both visible

and accessible for selection.

l Common mechanical platform for box, panel and DIN rail mount versions

l Tri-colour LEDs

l Built-in short circuit isolators

l Decade address switches visible and selectable in two planes

l Wide angle LED visibility


Type Isolator Single Output Single Input Dual Input relay

Operating Voltage 15 to 30V dc 15 to 30V dc 15 to 30V dc 15 to 30V dc 15 to 30V dc

Maximum Standby Current

200μA at 24V dc

310μA at 24V dc no communications

340μA at 24V dc, no communications

510μA at 24V dc, one communication every 5 seconds

with LED blink enabled

660μA at 24V dc, one communication every 5 seconds

with LED blink enabled

Fault Detection Delay 100 to 400ms – – – –

Maximum On Resistance

0.13Ω at 15V – – – –


-20ºC to +60ºC -20ºC to +60ºC -20ºC to +60ºC -20ºC to +60ºC -20ºC to +60ºC


Ingress Protection IP30 IP30 IP30 IP30 IP30

Weight 62g 62g 100g 110g 110g

Maximum Wire Gauge for Terminals

2.5mm2 2.5mm2 2.5mm2 2.5mm2 2.5mm2

Relevant StandardsEN 54 Part 17, CEA GEI 1-052

EN 54 Part 17, CEA GEI 1-052




Approvals VdS VdS VdS VdS VdS

Dimensions (mm)

Interface Modules

OrDEr CODES

TC800 Protocol

Isolator Module TC811E1023

Single Output Module TC810E1032

Single Input Module TC809E1043

Dual Input Module TC809E1050

Dual Input, Single Output (Relay) Module TC809E1068


Isolator Module M200XE

Single Output Module M201E

Single Input Module M210E

Dual Input Module M220E

Dual Input, Single Output (Relay) Module M221E


Single Output Module

�393

94


240V Relay Modules


OrDEr CODES

TC800 Protocol

240V Relay Module for surface mounting TC810E1040

240V Relay Module for DIN rail mounting TC810E1057


240V Relay Module for surface mounting M201E-240

240V Relay Module for DIN rail mounting M201E-240-DINContact Honeywell Building Solutions for further information concerning module accessories.

The relay module is a loop-

powered device controlling an

unsupervised double pole (one

normally open, one normally

closed) output suitable for

managing 240V ac loads. The

output relay is a bi-stable device,

latching in the on or off state on

command from the control panel.

It is available in two versions:

boxed, wall mount and 35mm

‘Top Hat’ DIN rail mount.

l Boxed, wall mount and DIN rail mount option

l Mains rated contacts

l Tri-colour LEDs

l Available in TC800 or System Sensor protocol

l Built-in short circuit isolators

l Decade address switches

Dimensions (mm)


Type Surface mounting DIN rail mounting


Maximum Standby Current

275μA at 24V dc (no communications) 275μA at 24V dc (no communications)

Maximum Alarm Current

445μA at 24V dc, One communication every 5 seconds with LED blink enabled

445μA at 24V dc, One communication every 5 seconds with LED blink enabled

Relay Specifications5A at 30V dc, 5A at 250V ac,

resistive load 5A at 30V dc, 5A at 250V ac,

resistive load




Weight 195g 140g

Maximum Wire Gauge for Terminals

1.5mm2 2.5mm2

Relevant Standards EN 54 Part 17, CEA GEI 1-052 EN 54 Part 17, CEA GEI 1-052

Approvals VdS VdS

�34

�39

40

7648

��5

relay Module for surface mounting relay Module for DIN rail mounting


Conventional Zone Monitor Module


The Conventional Zone Monitor

Module provides an interface

between a zone of conventional

detectors and an intelligent

signalling loop. The module

monitors the conventional zone

and transmits the zone state

(normal, open or short fault and

alarm) to the panel.

l Built-in isolation

l Monitors open circuit and short circuit faults

l TRI – Colour Status LED


l Zone powered from comms line or 24V PSU

l Remote reset of conventional zone

l Compatible with:

l 100, 400 and EC series detectors

l 1151EIS and 545EIS IS detectors

l 6500 and 6500S optical beam detectors

l Monitoring of external power supply

l External fault input


Max Power applied to Conventional zone from loop. Cap. EOL only

1.3mA (no communication)

Communication Line Standby Current Cap. EOL only

288μA max @ 24V (no communication)

Communication Line Standby Current Cap. EOL only

1.5mA max (communication every 5 secs)

Maximum conventional zone current limit 15mA

External power supply voltage 18-32V

Maximum series resistance 50Ω

Max LED current @ 24VDC Green 6.6mA Red 2.2mA Yellow 8.8mA

Initial power up time 3 seconds

Operating Temperature Range -20ºC to +60ºC


Weight 110g

Wire Gauge for Terminals 0.5mm2 – 2.5mm2

Relevant Standards EN 54 Part 17, CEA GEI 1-052

Approvals LPCB

Dimensions (mm)

OrDEr CODES

TC800 Protocol

Conventional Zone Monitor Module TC841E1019


Conventional Zone Monitor Module M210E-CZIf using conventional IS detectors, please use either the TC841E1002 or the M512ME (refer to section 6.2.3 for further information)

Conventional Zone Monitor Module

�393

94

SECTION 6: page 30

Specialist Solutions

Section 6.�: Specialist Solutions

Honeywell Building Solutions recognises that one solution does not fit all applications and that the risk to life and property can hinge upon the specialist nature of particular areas of a building.

Honeywell Building Solutions is fully capable of delivering a solution tailored to the needs of almost any application:

hazardous area detection and alarm indication

harsh environment detection

For installations that require products to function under potentially explosive atmospheres, Honeywell Building Solutions has the expertise to provide intrinsically safe systems, to ensure total coverage throughout, without detriment to the increased risk environment.

The Filtrex detector can be used in conjunction with our TC800 or System Sensor protocol controllers to extend cover into areas of high ambient dust levels, which would ordinarily be limited to heat detection cover, reducing the risk to business by increasing the level of coverage.

Early warning of a potential fire condition has rarely been as important as it is within areas of sensitive processes or business critical applications (e.g. a computer room) where by a business could be critically affected by the loss of important customer information and data back-up. Honeywell Building Solutions recognise this and can provide in-house and third party systems designed specifically to meet the needs of very early detection applications.

high sensitivity applications

SECTION 6: page 3�

Laser Detector Overview

Section 6.�: Specialist Solutions

This is achieved by combining a patented optical chamber with the latest in laser diode and precision optics technology, which enhances the sensitivity of the device. The chamber is also linked to sophisticated processing circuitry that incorporates smoothing filters to help eliminate transient environmental noise conditions, which can be the cause of unwanted alarms.

The result is a very sensitive but stable sensor that can achieve sensitivities of 0.006% to 0.6% per metre obscuration and provides up to 100 times more

sensitivity than a standard photoelectric smoke sensor. With its quick response and pinpoint accuracy, this unique sensor is ideally suited to environmental applications where there is substantial cost for downtime or a significant investment in installed equipment has been made, e.g. Electronics Manufacturer Clean Rooms, Telecommunication Rooms, Computer Rooms.

The sensor’s performance is improved even further by the inclusion of special drift compensation algorithms, which compensate for the build up

of contamination in the sensing chamber. There are three stages of drift compensation, ‘low level alert’, ‘high level alert’ and ‘maintenance urgent’. The ‘low and high level alert’ signals are used to identify that the sensor has accumulated significant amounts of airborne particles and requires maintenance, whilst the ‘maintenance urgent’ signal indicates that the sensor has reached the end of its compensation range.

The most sensitive point detector in the world uses a laser instead of LEDs to sense smoke. This high sensitivity laser based intelligent smoke sensor from Honeywell Building Solutions provides ultimate protection by detecting the earliest particles of combustion.

SECTION 6: page 3�

OrDEr CODES

TC800 Protocol

Laser Detector TC846A1005


Laser Detector 7251




l Extremely high sensitivity ‘laser’ based smoke sensor

l Superior early warning performance

l Effective response to both fast flaming and slow smouldering fires


l When used with the aspirating module, it makes an ideal cost affective solution for an aspirating application (e.g. computer room)

l Automatic drift compensation

l Three levels of fault warning for contamination


l Nine sensitivity levels (0.07-6.56%/m)



l Tamper resistant

l Built-in test switch


Operating Voltage Range 15 to 32V dc


Maximum Average Standby Current 330μA (one flash every 99 Communications)

Application Temperature Range -10º to +55ºC


Weight 0.12 kg

Max Wire Gauge for Terminals 2.5mm2

Colour Pantone Warm Grey 1C

Material Bayblend FR110


Approvals LPCB

Laser Detector

Dimensions (mm)

Section 6.�.�: Specialist Solutions – high Sensitivity Detection

laser Detector

�0� 4�

SECTION 6: page 33

Aspirating Detector

Section 6.�.�: Specialist Solutions – high Sensitivity Detection

OrDEr CODES

TC800 Protocol

Single Channel Laser Aspiration Detector TC866E1001

Dual Channel Laser Aspiration Detector TC866E2009


Single Channel Laser Aspiration Detector A211E-LSR

Dual Channel Laser Aspiration Detector A222E-LSRAll models are inclusive of the laser sensor.

The aspirating system has been

designed to take advantage of

Honeywell’s unique laser sensor

to provide a compact, and cost

effective aspirating solution.

Available in a single or dual channel

unit, the device is connected

directly to the loop affording an

effective way of providing very

early warning detection for high

value and enterprise critical areas.

It is also an effective method

of affording detection for large,

open areas or areas that are

inaccessible or difficult to reach

such as under-floor cable voids in

computer rooms.

l Integrated into the main fire detection system

l Can be used in a stand alone mode with volt-free outputs for fire and fault alarms

l Configurable sensitivity from 0.065% – 6.5% OBS/M

l Integral display with user programmable functions

l In-line air filter

l Local indication of airflow management status

l Adjustable airflow speed with visual monitor

l Optional IP65 waterproof enclosure

l Design application for configuring the pipework

Dimensions (mm)


Type Single Channel Aspirating Unit Dual Channel Aspirating Unit

Operating Voltage Range 18 to 30V dc 18 to 30V dc

Maximum Standby Current 100μA (no communications) 100μA (no communications)

Current Draw80 to 500mA depending on pipe length

and fan speed80 to 500mA depending on pipe length

and fan speed



Humidity 10 to 93% (non condensing) 10 to 93% (non condensing)

Ingress Protection IP50 (IP65 optional) IP50 (IP65 optional)

Maximum Pipe Length 75m 50m per channel

Pipe Diameter 20mm to 26.7mm (3/4” BSP) 20mm to 26.7mm (3/4” BSP)

Pipe Hole Diameter 3mm at start & 6mm at end of pipe 3mm at start & 6mm at end of pipe

Pipe Hole Spacing 7.5m 7.5m


0.4mm2 to 2.0mm2 0.4mm2 to 2.0mm2

Weight 1.9 kg 2.17 kg

Relevant Standards PR EN 54-20, CEA4022 PR EN 54-20, CEA4022

Approvals VdS VdS

�58 �45

�94

Aspirating Detector

SECTION 6: page 34

Filtrex Overview

Section 6.�.�: Specialist Solutions – harsh Environments

The Filtrex analogue optical detector from Honeywell Building Solutions is the only point smoke detector specifically designed for use in dusty environments.

The biggest drawback with all smoke detectors is that if the air entering the detection chamber contains significant amounts of dust or water mist, it is unable to differentiate between smoke and other particulate matter. It reacts to the dust particles or water droplets as though they were smoke, causing false alarms and adding to the overall life cost of the system, through maintenance and unplanned visits.

During extensive site testing, it was found that textile factories and paper mills were amongst some of those applications at the greatest risk of false alarms when using traditional point smoke detectors, leaving some building owners with the risk of disruption to their business. In buildings that would experience high levels of false alarms, building owners were forced into opting for a lower levels of automatic detection in the form of slower responding heat detectors – until now.

The new Filtrex analogue optical detector has been developed to address this particular specialised market. The detector is fitted with two 32 micron filters to prevent the ingress of dust and water particles. The inner filter is permanently installed during the manufacturing process, the external filter is removable for replacement by the user. The filters allow smoke particles through while excluding the much larger dust particles and water droplets.

l The only point smoke detector specifically designed for use in dusty environments

l Reduces false alarms caused by airborne particulates (e.g. dust and water)

l Reduces cost of maintenance

l User replaceable filter

l Filter monitored by monitoring air flow and alerting the control panel before it becomes blocked to smoke particulates

l Can be used in high air velocity applications (20m/s) as air flow is controlled by an integral fan

Maintenance intervals in dusty atmospheres should be much extended because, with no dust entering the chamber, false alarms due to settling dust are eliminated. The external filter is removed for cleaning with a simple tool and the system stays on line during the cleaning process, again ensuring that protection is maintained.

The Filtrex intelligent optical detector is the first model in the family to be released and great interest has been shown by the Industrial sector. The benefits of providing early detection in harsh environments at low cost are an attractive alternative to the more established products already serving this specialised, but widespread marketplace.

SECTION 6: page 35

OrDEr CODES

TC800 Protocol

Filtrex Detector TC844A1015

Filtrex Sensor Base 14507371-008

Water Resistant Cover for FILTREX Sensor Base (14507371-008) B524FTXE-WRC

Filtrex 1st stage Filter Mesh for (TC844A1015) (replaceable without removing detector) RF-FTX

Filtrex 2nd stage Filter Mesh (32 UM) for (TC844A1015) (sensor has to be removed to replace this filter) F37-04-01

The Filtrex™ Smoke Detector

provides early warning

smoke detection in difficult

environments where traditional

smoke detectors are not

practical. Using a small air

intake fan and a high density

replaceable filter, air and smoke

are drawn into a photoelectric

sensing chamber while dust is

removed.

l High density filter removes particulate down to 34 microns

l Air delivery system is separately powered and fully supervised

l Filter is easily replaced

l Approved for use in high airflow (20m/s)

l Optional remote LED


l Twin alarm LEDs provide 360º visibility

l Compatible with the XLS80e only


Operating Voltage Range (detector) 15 to 32V dc

Operating Voltage Range (fan) 15 to 30V dc

Current Consumption Detector 250μA at 24V dc (without communication)

Air Delivery System6mA standby 123mA maximum

60mA typical when checking for smoke 27mA average80mA typical when checking for proper airflow



Weight 214g


Approvals CPD, LPCB

Dimensions (mm)

�55 3�

Filtrex

Section 6.�.�: Specialist Solutions – harsh Environments

filtrex Detector

SECTION 6: page 36

Section 6.�.3: Specialist Solutions – Intrinsically Safe hazardous Area Detection

Intrinsically Safe Overview

Utilising our expertise in intrinsic safety and explosion proof engineering, Honeywell Building Solutions can offer you a solution comprising of intrinsically safe and explosion proof equipment integrated together to undertake the most demanding of fire alarm solutions.

Our systems have been designed for those who work in demanding environments, where precision, reliability and user-friendliness are of the utmost importance. Our solutions currently serve customers that work in potentially explosive environments especially in the chemical, pharmaceutical, petrochemical, oil and gas industries.

Intrinsically safe devices form an integral part of our life safety offering with a range of devices available in both Conventional and Analogue Addressable.

SECTION 6: page 37

I.S. Conventional Detection


The range of conventional

detection has been specifically

designed to provide a cost

effective alternative to the

placement of addressable

sensors. Alternatively, if used in

conjunction with a conventional

zone monitor, (TC841E1002

or M512ME) the conventional

detection can be used to

communicate instances of alarm

to an analogue addressable

system (XLS40e XLS50e XLS60e

or XLS80e).

l Rate of rise heat sensor

l Ionisation smoke sensor

l Twin LEDs provide 360° visible alarm indication

l Remote LED capability

l Latching alarm feature – reset by a momentary power interruption

l Magnetic test switch facility

l Ionisation – EN54 part 7 and BASEEFA approved

l Thermal – EN54 part 5 Class A1R and BASEEFA

l Tamper resistant


Type Ionisation Sensor Thermal Sensor

Operating Voltage (measured after galvanic seperation)

15 to 32V dc 15 to 32V dc

Standby Current (maximum) 30mA 100mA

Operating Temperature Range -10ºC to +40ºC -10ºC to +40ºC


Intrinsic Safety Rating EEx ia IIB T5 EEx ia IIB T5

Weight 110g (excluding base) 277g

Relevant Standards EN 54 Part 7 EN 54 Part 5

Approvals CPD, LPCB, BASEEFA, VdS CPD, LPCB, BASEEFA, VdS

OrDEr CODES

Intrinsically Safe Ionisation Sensor (B401 base purchased separately) 1151EISE

Intrinsically Safe Thermal Sensor (58°C) Rate of Rise (B401 base purchased separately) 5451EISE

400 Series Standard Sensor Base B401

Galvanic Barrier for use with conventional and addressable devices (System Sensor or TC800 protocol) YZ2221Control panel manufacturers’ advice must be sought for appropriate galvanic separation.

Ensure no head removal or end of line device is fitted within the detector base.

Dimensions (mm)

�0� 43 �0� 60

Ionisation Sensor Thermal Sensor

Ionisation Sensor Thermal Sensor

SECTION 6: page 38

I.S. Conventional Manual Call Point


An Intrinsically Safe indoor call

point for installation in hazardous

areas. These call points are

manufactured to protect against

other hazards, as defined in

paragraph 1.2.7 of annex II of

the ATEX Directive 94/9/EC.

They are intended for indoor

use within Intrinsically Safe (I.S.)

systems using suitable zener

barriers.

l Unique ‘Plug & Play’ installation concept

l Total ‘Flex-Ability’ in the choice of operating element

l Anti-Tamper facilityl Enhanced aestheticsl Fully approved to the latest

standards

l Backward compatibility

OrDEr CODES

Indoor Flush Mounted

470 Ohm resistor, Break Glass Element MCP1A-R470FG-01IS

470 Ohm resistor, Flexible Element MCP1A-R470FF-01IS

24V Changeover contacts, Break Glass Element MCP3A-R000FG-01IS

24V Changeover contacts, Flexible Element MCP3A-R000FF-01IS

Indoor Surface Mounted

470 Ohm resistor, Break Glass Element MCP1A-R470SG-01IS

470 Ohm resistor, Flexible Element MCP1A-R470SF-01IS

24V Changeover contacts, Break Glass Element MCP3A-R000SG-01IS

24V Changeover contacts, Flexible Element MCP3A-R000SF-01IS

Waterproof IP67

24V Changeover contacts, Break Glass Element, IP67 rated WRIS4001

470 Ohm resistor, Break Glass Element, IP67 rated WRIS4072

F/facing large LED + 2 resistors 0.5 watt, Break Glass Element, IP67 rated WRIS4061

Galvanic Barrier for use with conventional and addressable devices (System Sensor or TC800 protocol) YZ2221


Cable Termination 0.5-2.5mm2

Maximium Voltage 30V dc

Maximum current 500mA

Maximum Power 1W

Intrinsic Safety Ratings EA1 G.EEx IIC T4

Humidity 0 to 95% (non-condensing)

Ambient Temperature Range -30ºC to +70ºC

Ingress Protection IP24D

Material PC/ABS

Weight 0.11 kg Flush 0.16 kg Surface

Colour Red, Ral 3001


Approvals ATEX, LPCB and SIRA

Control panel manufacturers’ advice must be sought for appropriate galvanic separation.

Dimensions (mm)

89 �7.5 3�

93

Intrinsically Safe Indoor Call Point

SECTION 6: page 39

I.S. Addressable Optical Smoke Sensor


The analogue addressable

photoelectric sensor is a plug

in, intrinsically safe smoke

sensor combining an optical

sensing chamber with analogue

addressable communications.

As an intrinsically safe sensor, it

has been designed specifically to

provide fire protection for most

hazardous environments, and

has therefore been engineered so

that it cannot become a source of

ignition in areas where potentially

explosive atmospheres are likely

to arise.

l Low profile design

l Reliable analogue addressable communications


l Tamper Resistant

l Twin LED indicators provide 360º visibility

l Built in test switch

l Suitable for use in up to Zone 0 environments

l Compatible with the XLS40e XLS50e XLS60e and XLS80e


Operating Voltage 15 to 32V dc

Standby Current (maximum) 30μA at 24V dc

Operating Temperature Range -10ºC to 55ºC


Intrinsic Safety Ratings EEx ia IIB T5

Weight 0.11 kg (excluding base)


Approvals CPD, LPCB, BASEEFA

OrDEr CODES

Intrinsically Safe Photoelectric Sensor, use standard sensor base, do not use isolator base TC842B1007E


Protocol Translator for Analogue Addressable IS device IST200E

DIN Rail Metal Bracket Conventional (500 series) compatible with IST200 protocol translator M500DIN2

Galvanic Barrier for use with conventional and addressable devices (System Sensor or TC800 protocol) YZ2221Control panel manufacturers’ advice must be sought for appropriate galvanic separation.

Dimensions (mm)

70 3�

SECTION 6: page 40

Notes

xls40e/50e/60e system architecture - ae · xls40e/50e/60e system architecture sounder circuits ......

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