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10 

MAN3037-2 

XP95 PRODUCT GUIDE 

6.5 

Technical Data: 

Specifications are typical and given at 23°C and 50% relative humidity unless specified otherwise. 
 

Detector Type: 

XP95 Optical Smoke Detector - Point type smoke detector for fire 
detection and alarm systems for buildings 

Detection Principle: 

Photo-electric detection of light scattered in a forward direction by smoke 
particles  

Chamber Configuration: 

Horizontal optical bench housing an infra-red emitter and sensor arranged 
radially to detect forward scattered light 

Sensor: 

Silicon PIN photo-diode 

Emitter: 

GaAs Infra-red light emitting diode 

Sampling Frequency: 

1 per second 

Sensitivity: 

Nominal response threshold value of 0.2 dB/m when measured in accordance 
with EN54-7:2000 

Supply Wiring: 

Two wire monitored supply, polarity insensitive 

Terminal Functions: 

L1 and L2: supply in and out connections 
+R remote indicator positive connection (internal 2.2K

 resistance to positive) 

-R remote indicator negative connection (internal 2.2K

 resistance to positive) 

Supply Voltage: 

17 - 28V DC 

Quiescent Current: 

340µA average 600µA peak 

Power-up Surge Current: 

1mA 

Duration of Power-up 
Surge Current: 

0.3s 

Maximum Power-up 
Time: 

4 seconds for communications, 10 seconds to exceed 10 counts, 35 seconds 
for stable clean air value 

Alarm Current, LED on: 

3.5mA 

Alarm Level Analogue 
Value: 

55 

Clean-air Analogue 
Value: 

25 ±7 counts 

Alarm Indicator: 

Clear Light Emitting Diodes (LEDs); illuminating red in alarm. Optional remote 
LED 

Alarm LED Current: 

4mA 

Remote LED Current: 

4mA at 5V (measured across remote load) 

Type Code: 

(210 43) 101 00 

Storage Temperature: 

-30°C to +80°C 

Operating Temperature: 

-20°C to +60°C 

Guaranteed Temperature 
Range: 

-20°C to +60°C (no condensation or icing) 

Humidity: 

0% to 95% relative humidity (no condensation or icing) 

Effect of Atmospheric 
Pressure: 

Unaffected 

Effect of Wind Speed: 

Unaffected by wind 

Vibration, Impact & 
Shock 

To EN54-7: 2000 

IP Rating: 

23D 

Dimensions: 

Detector: 100mm Dia x 42mm H, Detector in Base: 100mm Dia x 50mm H 

Weights: 

Detector 105g, Detector in Base:157g 

Material: 

Detector housing: White polycarbonate rated V-0 in accordance with UL 94. 
Terminals: Nickel plated stainless steel 

 
 

Содержание XP95

Страница 1: ...XP95 Product Guide MAN 3037 ...

Страница 2: ...eat Detector 11 7 1 Operating Principles 11 7 2 Electrical Description 12 7 3 Environmental Characteristics 12 7 4 Product Codes 12 7 5 Technical Data 13 8 MultiSensor Detector 14 8 1 Operating Principles 14 8 2 Product Codes 14 8 3 Technical Data 15 9 XP95 Manual Call Point 16 9 1 Operating Principles 16 9 2 Product Codes 16 9 3 Technical Data 17 10 XP95 Mounting Base 18 10 1 XP95 Mounting Bases ...

Страница 3: ...l therefore respond well to the smoke from smouldering fires The detector also senses air temperature This temperature sensitivity allows the multisensor to give a response to fast burning flaming fires which is similar to that of an ionisation detector The multisensor can therefore be used as an alternative to an ionisation detector Where the environment is smoky or dirty under normal conditions ...

Страница 4: ...unit XP95 Device Flag Tells the control equipment that more information is available Alarm Flag For accelerated alarm reporting Parity Error Check For received message accuracy Interrupt or Alarm Address Provides fast location of a device in alarm state High Level Integration ASICs technology for lower component count Zero Insertion Force Base For easier installation and maintenance Ease of Mainte...

Страница 5: ...rradiates the air in both chambers to produce positive and negative ions On applying a voltage across these electrodes an electric field is formed as shown in Fig 2 The ions are attracted to the electrode of the opposite sign some ions collide and recombine but the net result is that a small electric current flows between the electrodes At the junction between the reference and smoke chambers is t...

Страница 6: ...ncreases to produce an analogue signal An A D conversion of the signal from the ionisation chambers is carried out once per second or when either the detector or preceding address is being interrogated Whenever the device is interrogated this data is sent to the control equipment EN54 threshold alarm levels are calibrated within the processing ASIC If the device is not addressed within 1 second of...

Страница 7: ...depends on the wind speed and on the orientation of the detector relative to the wind direction Relatively small changes in wind direction can cause significant changes in analogue value For wind speeds up to 1m s 200ft min the change in analogue value will not exceed 5 counts Continuous operation in wind speeds greater than 2m s 400ft min is not recommended However wind speeds up to 10m s 2000ft ...

Страница 8: ... by the HSE for further details Storage regulations depend on local standards and the legislation but in the UK the number of ionisation smoke detectors in any building or premises shall be less than 500 See Certificate of Approval No TA3 of 1999 issued by the HSE for further details At the end of their recommended working life of ten years ionisation smoke detectors should b returned to the manuf...

Страница 9: ...ge 500µA peak Power up Surge Current 1mA Maximum power up time 4 seconds for communications 10 seconds to exceed 10 counts 15 seconds for stable clean air value Clean air analogue value 25 7counts Alarm Level Analogue Value 55 Alarm Indicator Light Emitting Diodes LEDs illuminating red in alarm Optional remote LED Alarm LED Current 2mA Remote LED Current 4mA at 5V measured across remote load Type ...

Страница 10: ...tor is connected to the incoming and outgoing supply via terminals L1 and L2 in the mounting base A remote LED indicator requiring not more than 4mA at 5V may be connected between the R and R terminals An earth connection terminal is also provided When the device is energised the ASICs regulate the flow of power and control the data processing The optical ASIC is controlled by the communications A...

Страница 11: ... Schematic Diagram XP95 Optical Smoke Detector Figure 9 Typical Response Characteristic XP95 Optical Smoke Detector Figure 10 Typical Temperature Response XP95 Optical Smoke Detector 6 4 Product Codes Product Description LPCB EN54 7 SAI Global AS7240 7 Activfire AS1603 2 XP95 Optical Smoke Detector 55000 620AMP 4106 2001 201 0003 55000 630 XP95 Optical Smoke Black Detector 55000 660AMP 4106 2010 2...

Страница 12: ...on internal 2 2KΩ resistance to positive Supply Voltage 17 28V DC Quiescent Current 340µA average 600µA peak Power up Surge Current 1mA Duration of Power up Surge Current 0 3s Maximum Power up Time 4 seconds for communications 10 seconds to exceed 10 counts 35 seconds for stable clean air value Alarm Current LED on 3 5mA Alarm Level Analogue Value 55 Clean air Analogue Value 25 7 counts Alarm Indi...

Страница 13: ...etwork which provides a voltage output proportional to the external air temperature The standard heat detector will respond to increasing air temperature in such a way that it is classified as an A2S device providing 55 counts at 55 C See figure 13 A high temperature CS heat detector which can be installed in a typical ambient temperature of 55 C is available See figure 14 This device will give 55...

Страница 14: ... a count of 55 is exceeded the alarm flag is initiated and the device address is added to the data stream every 32 polling cycles from its last polling for the duration of the alarm level condition except when an alarming device is being interrogated This can provide a location identified alarm from any device on the loop in approximately two seconds The detector is calibrated to give an analogue ...

Страница 15: ... Level 55 Counts 55 C when measured under static conditions Alarm Indicator Light Emitting Diodes LEDs illuminating red in alarm Optional remote LED Alarm LED Current 2mA Remote LED Current 4mA at 5V measured across remote load Type Code 210 43 110 00 Storage Temperature 30 C to 80 C Operating Temperature 20 C to 70 C Guaranteed Temperature 20 C to 70 C no condensation or icing Operating Humidity ...

Страница 16: ...esses the two signals The temperature signal processing extracts only rate of rise information for combination with the optical signal The detector will not respond to a slow temperature increase even if the temperature reaches a high level A large sudden change in temperature can however cause an alarm without the presence of smoke if sustained for 20 seconds The processing algorithms in the mult...

Страница 17: ...gue value 23 4 0 Alarm level analogue value 55 Alarm Indicator 2 colourless Light Emitting Diodes LEDs illuminating red in alarm Optional remote LED Temperature range Max continuous operating 60 C Min continuous operating 0 C Min operating no condensation icing 20 C Storage 30 C to 80 C Humidity 0 to 95 relative humidity no condensation or icing Effect of Temperature on Optical Detector Less than ...

Страница 18: ...hould recognise this response as a test signal and should not raise a general alarm XP95 Manual Call Points incorporate an integral short circuit isolator and are provided with a resettable element A backbox for surface mounting is also provided as standard If a glass or flush mounting tray is required these are available on request Versions with a pattress box are also available To provide additi...

Страница 19: ...ck L1 and L2 Operating Voltage 17 28V DC Communication Protocol 5 9V peak to peak Quiescent Current 100µA at 24V DC Power up Surge Current 1mA Maximum power up time 1s Alarm Current LED on 4mA Normal analogue value 16 Alarm State Value 64 Temperature Range Maximum continuous operating 60 C Minimum continuous operating 0 C Minimum operating 20 C no condensing icing Storage 30 C to 80 C Humidity 0 t...

Страница 20: ...s isolated and can be used to provide continuity of an earth or shield Universal address cards known as XPERT cards are supplied with all bases Consult the coding guide to determine which pips are to be removed Pre printed and pre punched address cards that save time and increase accuracy during commissioning are available in sets part number 38531 771 The base has a one way only fit and detectors...

Страница 21: ...the fall in voltage is sensed and the base isolates the negative supply in the direction of the fault The isolated section is tested using a current pulse every five seconds When the short circuit is removed the power will automatically be restored If it is a requirement that no device is lost in the event of a single short circuit every detector should be fitted to an isolating base In applicatio...

Страница 22: ... to the intelligent reflective beam detector The termination backbox can be surface or flush mounted Product Description Product Number Item Number XP95 Reflective Beam 5 50M Detector 55000 268APO 201 1074 XP95 Reflective Beam 50 100M Detector 55000 273APO 201 0171 13 Loop Powered Sounders Beacons Sounder Beacons There are two types of loop powered sounder available allowing fire engineers to spec...

Страница 23: ...d NZS4512 and Europe EN54 3 and incorporates synchronisation of continuous and pulsed tones This ensures the integrity of the alert signals tones from different sounders do not merge into one signal that could be mistaken for an Evacuate signal A nominal sound output of 96dB is achieved at a current consumption of 5mA while the acoustic self test feature enables the sounder to listen to itself whe...

Страница 24: ...s The Intelligent Open Area Sounder Beacon is a loop powered wall mounted device offering a choice of three tones Australian AS1670 4 New Zealand NZS4512 and Europe EN54 3 and incorporates synchronisation of continuous and pulsed tones A nominal sound output of 100dB is achieved at a current consumption 8mA The beacon is activated whenever the sounder is active and cannot be controlled separately ...

Страница 25: ...t industrial environments Generic Emission Standard EN 61000 6 4 Emission standard for industrial environments EN 50130 4 Alarm Systems Electromagnetic compatibility product family standard Immunity requirements for components of fire intruder and social alarm systems EN 6100 4 2 Electrostatic discharge EN 6100 4 3 Radiated immunity EN 6100 4 4 Fast transient bursts EN 6100 4 5 Surge immunity EN 6...

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