Addressable Fire Detection System CF3000 Addressable Fire Detection System

Introduction History JSB and Menvier Acquired by Cooper Industries ~1999 / 2000 Analogue Addressable CF3000 range Started development approx 2004 Rationalisation of the legacy technology into one new platform To develop an entire single-manufacturer range Includes CF3000, DF6000, FX6000 Fire Detection Voice Evacuation, Emergency Voice Communication Systems

Introduction Agenda Introduction Concept of Operation Control Panels Addressable Devices Networking Operation, Commissioning and Fault Finding

Introduction Range CF3000: CF1100/1200: 1 – 4 loops per panel 200 devices per loop 504 loops max per 126 panel network CF1100/1200: 1 – 2 loops per panel 252 loops max per 126 panel network 1-4LP: CF3000 / DF6000 / FX6000 1LP: CF1100 / DF6100 / FX6100 2LP: CF1200 / DF6200 / FX6200

Introduction Key Features UL and EN54 Certification 1, 2 or 4 loops per panel 200 addresses per loop Max 512 detection devices per panel for EN54 Recommended 150 devices per loop for practical application Software Allocated Addressing Optional hard addressing via CF800PROG Network up to 126 panels (504 or 252 max) 96 Zone LED indication 250 Zones per panel in configuration software

Introduction System Schematic ~ LON-FO NC EC200 LOOPS 2-4 FIBRE OPTIC LOCAL AREA NETWORK UP TO MAX 126 NETWORK NODES EXT 24V MODBUS OUTPUT TO BMS SYSTEM BACNET OUTPUT TO BMS SYSTEM ECO232 SITE MONITOR SYSTEM SITE GRAPHICS SYSTEM EC540 EC400 CFSFL01 CF3000 CW9000 CTPR3000 CF1100/1200 LOOP 1 ADRRESSABLE LOOP ADDRESSABLE SPUR CIRCUIT CONVENTIONAL SOUNDERS CONVENTIONAL SOUNDERS EC650 EC700

Concept of Operation Autolearn Replace Device Delete Device Add Device Complete interrogation and reallocation of loop devices, addresses and config Soft Address: in loop order, spurs first then ongoing loop Hard Address: pre-programmed with CF800PROG Replace Device Direct replacement of an existing device on an operational system Delete Device Removing an existing device from an operational system Add Device Adding a new device to an operational system Check Auto Config Loop connectivity check Loop status interrogation and fault reporting Intermittent Fault Search Reduces fault tolerance to identify any corrupted/intermittent devices

Concept of Operation Autolearn Complete interrogation and reallocation of loop devices, addresses and config Start with loop return disconnnected

Concept of Operation 001 Panel>>>> All isolators O/C

Concept of Operation 002 Panel>>>> Request device type 001 Panel>>>> All isolators O/C

Concept of Operation 003 Device>>> Device type = Sounder 002 Panel>>>> Request device type 001 Panel>>>> All isolators O/C

Concept of Operation 004 Panel>>>> Request device status 003 Device>>> Device type = Sounder 002 Panel>>>> Request device type 001 Panel>>>> All isolators O/C

Concept of Operation 005 Device>>> Status = OK 004 Panel>>>> Request device status 003 Device>>> Device type = Sounder 002 Panel>>>> Request device type 001 Panel>>>> All isolators O/C

Concept of Operation 006 Panel>>>> Request device address 005 Device>>> Status = OK 004 Panel>>>> Request device status 003 Device>>> Device type = Sounder 002 Panel>>>> Request device type 001 Panel>>>> All isolators O/C

Concept of Operation 007 Device>>> Address = 254??? 006 Panel>>>> Request device address 005 Device>>> Status = OK 004 Panel>>>> Request device status 003 Device>>> Device type = Sounder 002 Panel>>>> Request device type

Concept of Operation 008 Panel>>>> New address = 001 007 Device>>> Address = 254 006 Panel>>>> Request device address 005 Device>>> Status = OK 004 Panel>>>> Request device status 003 Device>>> Device type = Sounder 1

Concept of Operation 009 Panel>>>> Close isolator 008 Panel>>>> New address = 001 007 Device>>> Address = 254 006 Panel>>>> Request device address 005 Device>>> Status = OK 004 Panel>>>> Request device status 1

Concept of Operation 010 Panel>>>> Request device type 009 Panel>>>> Close isolator 008 Panel>>>> New address = 001 007 Device>>> Address = 254 006 Panel>>>> Request device address 005 Device>>> Status = OK 1

Concept of Operation 011 Device>>> Device type = Optical Detector 010 Panel>>>> Request device type 009 Panel>>>> Close isolator 008 Panel>>>> New address = 001 007 Device>>> Address = 254 006 Panel>>>> Request device address 1

Concept of Operation 012 Panel>>>> Request device status 011 Device>>> Device type = Optical Detector 010 Panel>>>> Request device type 009 Panel>>>> Close isolator 008 Panel>>>> New address = 001 007 Device>>> Address = 254 1

Concept of Operation 013 Device>>> Status = OK, Analogue value = 20??? 012 Panel>>>> Request device status 011 Device>>> Device type = Optical Detector 010 Panel>>>> Request device type 009 Panel>>>> Close isolator 008 Panel>>>> New address = 001 1

Concept of Operation 014 Panel>>>> Request device address 013 Device>>> Status = OK 012 Panel>>>> Request device status 011 Device>>> Device type = Optical Detector 010 Panel>>>> Request device type 009 Panel>>>> Close isolator 1

Concept of Operation 015 Device>>> Address = 254??? 014 Panel>>>> Request device address 013 Device>>> Status = OK 012 Panel>>>> Request device status 011 Device>>> Device type = Optical Detector 010 Panel>>>> Request device type 1

Concept of Operation 016 Panel>>>> New address = 002 015 Device>>> Address = 254 014 Panel>>>> Request device address 013 Device>>> Status = OK 012 Panel>>>> Request device status 011 Device>>> Device type = Optical Detector 2 1

Concept of Operation 017 Panel>>>> Close isolator 016 Panel>>>> New address = 002 015 Device>>> Address = 254 014 Panel>>>> Request device address 013 Device>>> Status = OK 012 Panel>>>> Request device status 2 1

Concept of Operation Repeated for next device, 3 2 1

Concept of Operation Etc, 3 4 2 1

Concept of Operation Etc, 3 4 5,6 2 1

Concept of Operation Etc, 3 4 5,6 2 7 1

Concept of Operation Etc, 3 4 5,6 2 7 1 8

Concept of Operation Etc, until all devices identified 3 4 5,6 2 7 1 9,10 8

Concept of Operation Re-connect loop return cable 3 4 5,6 2 7 1 9,10 8

Concept of Operation Autolearn with Spur Circuits when spur isolators are encountered on the loop, the spur circuit is addressed first, then the loop addressing is continued 3 4 5,6 5 7 8 9 2 1

Concept of Operation Autolearn with Spur Circuits Spur isolators have no address or communications capability 3 4 5,6 7 8 9 2 10 11 12,13 14 1

Concept of Operation Autolearn with Spur Circuits The last device must have an address, ie, it cannot be a spur isolator 3 4 5,6 7 8 9 2 10 1 15 16,17 11 12,13 14

Concept of Operation Replace Device Direct replacement of an existing device on an operational system Replacement with the same device type only ONE by ONE 1 2 3 4 5 6 7 8 254 OLD NEW

Concept of Operation Replace Device Physically replace the device with a new one (default address 254) 3 4 5 2 6 254 OLD NEW 1 7 8

Concept of Operation Replace Device Then select Replace Device option at Control Panel Replacement device is identified and address reallocated Discard old device 3 4 5 2 6 6 DISCARD NEW OLD 1 7 8

Concept of Operation Add Device Add a new device to an operational system ONE by ONE 1 2 3 4 5 6 7 254 NEW

Concept of Operation Add Device Physically add the new device (default address 254) Then select Add Device option at panel New device identified and the lowest unused address allocated 1 2 3 4 5 6 7 8 254 NEW

Concept of Operation Add Device Allocate the device to a zone Enter the device description text Allocate any relevant device settings 1 2 3 4 5 6 7 8 NEW

Concept of Operation Delete Device Removing an existing device from an operational system ONE by ONE Do not delete Loop 1 Device 1 1 2 3 4 5 7 8 6

Concept of Operation Delete Device Select Delete Device option at panel Then physically remove device (address returned to default 254) 1 2 3 4 5 7 8 254

Control Panels Standby Power Integrated Power Supply Unit Loop and Standby Calculator inbuilt in Site Installer software CF3000 Standard Housing 24V 12Ah capacity Deep Housing 24V 24Ah capacity CF1100/1200 Standard Housing 24V 7Ah capacity

Control Panels Optional Protective Cover Suitable for CF3000 Lockable clear cover Prevents unauthorised access Inbuilt SCROLL and MUTE BUZZER buttons May be retro-fitted at a later date Use with ‘Screen Cover’ menu mode

Control Panels Optional Integral Printer Suitable for CF3000 Lockable printer door Self loading ‘Drop-In’ paper cradle Removable blanking plug for retro-fit

Control Panels Circuit Connections CF3000 12V 24V

Control Panels Circuit Connections CF1100 / CF1200 12V START LOOP END LOOP

Control Panels False Alarm Reduction: Alarm Investigation Delay T1/T2 timers User acknowledgment of alarm condition Allows a further investigation time 1: Acknowledgement Delay 3 minutes max All outputs or FRE only are delayed 2: Investigation Delay 10 minutes max Full activation at end of delay Activates according to programmed settings

Control Panels False Alarm Reduction: Alarm Verification Delay Filter out transient alarms Reduces disruption from nuisance alarms Select zones as required 1: Verification Stage EN: 15 or 30 seconds verification delay UL: 60 seconds verification delay 2: Full Alarm Full activation if smoke remains at end of delay Activates according to programmed settings

Control Panels False Alarm Reduction: HMO Mode Housing in Multiple Occupation Reduces disruption from nuisance alarms Compliant with BS5839 Pt 6 1: Verification Stage Indication at Control Panel and Zonal sounders 1 – 5 minutes time delay Auto Reset if smoke clears within delay 2: Full Alarm Full activation if smoke remains at end of delay Activates according to programmed settings

Control Panels False Alarm Reduction: Day Night Mode Reduced Sensitivity in DAY period Optical Smoke: No change Opto-Thermal: Smoke off, heat only Heat: RofR > Hi Fixed, Hi Fixed > RofR, Med Fixed > no change Configuration Select device DAY/NIGHT setting with PC Trigger from Input Module set to DAY/NIGHT Operates over loop pairs 1-2, 3-4

Repeater Panels Range CF3000 PRG: CF3000 PRGNC: CTPR3000: LCD Loop repeater CF3000 PRGNC: LCD Network repeater CTPR3000: Touch Screen Network repeater

ADDRESSABLE LOOP CIRCUIT Repeater Panels Repeater Connection Schematic ~ TOUCH SCREEN NETWORK REPEATER NC COOPER FIRE NETWORK CF3000 LCD NETWORK REPEATER ADDRESSABLE LOOP CIRCUIT LCD LOOP REPEATER

Repeater Panels Standard Repeater Panel Loop: stores and displays text only for its own panel Network: automatically receives text for entire system (/NC) LCD display Passive or Active: Silence, Evacuate and Reset controls LOOP: CF3000PRG / DF6000PR / FX6000PR NETWORK: CF3000PRGNC / DF6000PRNC / FX6000PRNC

Repeater Panels Touch Screen Repeater Panel Network: automatically receives text for entire system Touch screen display Passive or Active: Silence, Evacuate and Reset controls Programmable Input: Fire, pre-alarm, fault, silence, reset, evacuate Custom Text CTPR3000

Addressable Devices Address Allocation Software Allocated Addressing By control panel AUTOLEARN Hardware Allocated Addressing By CF800PROG handheld programmer PRE ADDRESSED AUTOLEARN Programmer will also interrogate analogue value

Addressable Devices Loop Loading 60 Sounder Outputs + 60 I/O modules = 120 Outputs per loop maximum 200 addresses per loop inc Input and Output devices 60 x Sdr, MCOM-S, 20 x 3IO, MCIM, MCIN-NF, MCIM-(input), MCOM, MCOM-R, MIO324, MIO324S, CMIO1240, CSC354 30 x ZMU, MIU 6 x MIO324T = 20 x 3/10 = 60 x Sdr Lo

Addressable Devices Automatic Detection CAP320: Optical Smoke Detector Optical scatter CAPT340: Multi Criteria Opto-Thermal Smoke Detector Thermally enhanced optical scatter Rate of rise - (A1S characteristic 60oC) CAH330: Multi-mode Heat Detector Rate of rise - (A1R characteristic 60oC) Med Fixed temp - (BS medium characteristic 77oC) Low Fixed temp - (CS high temperature characteristic 92oC) All Devices Inbuilt S/C isolator Software or hardware allocated addressing LED 360o viewing angle Optical chamber monitoring and drift compensation OPT SM: CAP320 / MAP820 / FXN723 OPT TH SM: CAPT340 / MAOH850 / FXN722 HT: CAH330 / MAH830 / FXN725 BASE: CAB300 / MAB800 / FXN720

Addressable Devices Optical Smoke Detector Optical scatter smoke detection Analogue threshold compensation Pre Alarm warning Analogue value available for analysis Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG Remote LED capability Loop Loading 200 max Subject to Loop Calculation CAP320 / MAP820 / FXN723

Addressable Devices Multi Criteria Opto-Thermal Smoke Detector Thermally enhanced optical scatter smoke detection Analogue threshold compensation Pre Alarm warning Analogue value available for analysis Also independently Rate of rise - (A1S characteristic 60oC) Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG Remote LED capability Day/Night mode Loop Loading 200 max Subject to Loop Calculation CAPT340 / MAOH850 / FXN722

Addressable Devices Multi Function Heat Detector Thermistor based heat Detection Rate of Rise 60oC : A1R Med Fixed 77oC: BS High Fixed 92oC: CS Panel control of sensitivity Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG Remote LED capability Day/Night mode Loop Loading 200 max Subject to Loop Calculation CAH330 / MAH830 / FXN725

Addressable Devices Detector Base Shorting switch gives loop continuity on detector removal Cable Screen termination point Continuity: Not EARTH connection Optional Locking Pin Keep cable tidy, no room for excess +VE -V OUT SCR INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING TAPE BINDING LIVE END MARKING -V IN LED -V LOOP CONTINUITY SWITCH

Addressable Devices Detector Base Connections -V IN +VE SCREEN LED -V -V OUT SCREEN INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING LIVE END MARKING -V IN LED -V LOOP CONTINUITY SWITCH

Addressable Devices Manual Call Point Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG Optional weatherproof IP66 version Loop Loading 200 max Subject to Loop Calculation INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING TAPE BINDING LIVE END MARKING MCP: CBG370S / MBG813 / FXN501 MCP WP: CBG370WP / MBG817 / FXN503

Addressable Devices Manual Call Point Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG Key operated testing Options Surface / flush Weatherproof IP66 Accessories Replacement glass or Resettable Element Hinged protective cover Bezel Loop Loading 200 max Subject to Loop Calculation MCP: CBG370S / MBG813 / FXN501 MCP WP: CBG370WP / MBG817 / FXN503

Addressable Devices Manual Call Point Rear Cable Screen termination point Continuity: Not EARTH connection INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING TAPE BINDING LIVE END MARKING

Addressable Devices Manual Call Point Connections INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING LIVE END MARKING

Addressable Devices Loop powered wall-mount sounders / beacons 3 volume settings (controlled by panel) 3 alarm tones (controlled by panel) Continuous 984Hz Two Tone 644 / 984Hz @ 1Hz cycle Slow whoop 500-1200Hz in 3.5 seconds / 0.5secs gap All tones may be pulsed at 984 / 0Hz pulse 1Hz Options Weatherproof IP65 Loop Loading Low Volume exc beacon = 60 max Subject to Loop Calculation; IMPORTANT Setting Sounder Sounder / Beacon Tolerance Low 87dB 92 dB +/- 3dB Medium 93dB 97 dB High 100dB 100 dB SDR: CAS381 / MAS850LPS / FXN538LPS SDR BCN: CASB383 / MASB860 SDR WP: CAS381WP / MAS850LPSWP / FXN538LPSWP SDR BCN WP: CASB383WP / MASB860WP BCN: CAS382 / MAB870 / FXN338BCN

Addressable Devices Sounder Rear Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG Cable Screen termination point Continuity: Not EARTH connection INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING TAPE BINDING LIVE END MARKING

Addressable Devices Sounder Connections OUTGOING LOOP LOAD CABLE INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING LIVE END MARKING

Addressable Devices Loop powered base mounted sounders / beacons 3 volume settings (controlled by panel) 3 tones (controlled by panel) Continuous 984Hz Two Tone 644 / 984Hz @ 1Hz cycle Slow whoop 500-1200Hz in 3.5 seconds / 0.5secs gap All tones may be pulsed at 984 / 0Hz pulse 1Hz Options Blanking Cover Loop Loading Low Volume exc beacon = 60 max Subject to Loop Calculation: IMPORTANT Setting Sounder Sounder / Beacon Tolerance Low 84dB 77 dB +/- 3dB Medium 92dB 89 dB High 95dB 90 dB SDR: CAS380 / MAS850 / FXN538LBS SDR BCN: CASBB384 / MASB870

Addressable Devices Sounder Base Inbuilt S/C Isolator Shorting switch Software allocated addressing by panel Hardware allocated addressing by CF800PROG Sounder addressed before detector Shorting switch gives loop continuity on detector removal Cable Screen termination point Continuity: Not EARTH connection Keep cable tidy, no room for excess + - + - OUT IN LOOP SCR INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING TAPE BINDING LIVE END MARKING LED -V LOOP CONTINUITY SWITCH

Addressable Devices Sounder Base Connections + - + - SCREEN OUT IN LOOP SCREEN INCOMING LOOP FEED CABLE OUTGOING LOOP LOAD CABLE NOTE: DO NOT CONNECT THE CABLE SCREEN TO AN EXTERNAL EARTH OR METAL BACKBOX, IT IS A THROUGH CONNECTION ONLY. TAPE BINDING LIVE END MARKING LED 0V LOOP CONTINUITY SWITCH

Addressable Devices Miniature Interface Module Range Miniature Input Module MCIM standard 3CH I/O MCIM-C mcp MCIM-NF non-fire MCIM-INPUT I/P Miniature Output Module MCOM standard MCOM-S sounder type MCOM-R pulse on reset Miniature Zone Monitor Module MIU872 standard Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG

Addressable Devices Miniature Input Module 1 x monitored input Options MCIM = Identified as 3 CH I/0 MCIM-C = Identified as MCP MCIM-NF = Non-fire I/P MCIM-(input) = Identified as I/P Loop Loading MCIM = 20 max MCIM-C = 200 max MCIM-NF = 20 max MCIM-(input) = 200 max Subject to Loop Calculation MCIM

Addressable Devices Miniature Input Module Connections Cable Screen termination point Continuity: Not EARTH connection Will require a suitable housing Circuit Spec: Fire = 5K6, EOL = 22K

Addressable Devices Miniature Output Module 1 x output Options SPCO volt free contacts 30v DC 1A Options MCOM = Standard Mini O/P Module MCOM-S = Identified as Sounder device type, relay returns on RESET MCOM-R = 5s pulse on RESET Max 20 O/P Modules per loop MCOM = 20 max MCOM-S = 60 max MCOM-R = 20 max Subject to Loop Calculation MCOM

Addressable Devices Miniature Output Module Cable Screen termination point Continuity: Not EARTH connection Will require a suitable housing Circuit Spec: SPCO volt free contacts 30v DC 1A

Addressable Devices Miniature Zone Monitor Module 1 x zone of conventional detectors / Manual Call Points FXN520 conventional base with schottky diode Max 20 detectors, suggested 10 per unit to spread load Standard response time Monitored Circuit Loop Loading 30 max Subject to Loop Calculation MIU872

Addressable Devices Miniature Zone Monitor Module Connections Cable Screen termination point Continuity: Not EARTH connection Will require a suitable housing Circuit Spec: Fire = 680, EOL = EOLM-1 active module

Addressable Devices Double Gang Interface Module Range Spur Isolator Module MSI850 standard Shop Unit Monitor Module MSU840 standard Zone Monitor Module MIU871 standard Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG

Addressable Devices Spur Isolator Module Interface a spur of addressable devices to the Loop 1 zone of devices max Inbuilt S/C isolator Allows connection of a radial circuit to the loop Does not take an address Good engineering practice to limit quantity CSI350 / MSI850 / FXN513

Addressable Devices Spur Isolator Module Connections Cable Screen termination point Continuity: Not EARTH connection Double Gang housing No ‘End of Line’ device required Max 1 zone of protection

Addressable Devices Shop Unit Monitor Module 1 x zone of conventional detectors / Manual call points FXN520 conventional base with schottky diode Max 20 detectors, suggested 10 per unit to spread load Standard response time 1 x zone of conventional Manual Call Points Fast response <3 seconds Monitored Circuits 2 x Conventional sounder circuits Loop Loading 20 max Subject to Loop Calculation Remotely 24V DC powered to reduce loop load CSUM355 / MSU840 / FXN516

Addressable Devices Shop Unit Monitor Module Connections Cable Screen termination point Continuity: Not EARTH connection Double Gang housing Circuit Monitoring MCP Zone: Fire = 680, EOL = 6.8k Det Zone: Fire = 680, EOL = EOLM-1 active module Fire relay: SPCO, 30V 1A max Sounders: 300mA per circuit, EOL = 12k  PSU Mon: EOL = 12k  PSU required: 24V DC 1A max

Addressable Devices Shop Unit Monitor Module Connections

Addressable Devices Zone Monitor Module 1 x zone of conventional detectors / Manual Call Points FXN520 conventional base with schottky diode Max 20 detectors, suggested 10 per unit to spread load Standard response time 1 x zone of conventional Manual Call Points Fast response <3s. Monitored Circuits Loop Loading 30 max Subject to Loop Calculation CZMU352 / MIU871 / FXN512

Addressable Devices Zone Monitor Module Connections Cable Screen termination point Continuity: Not EARTH connection Double Gang housing Circuit Spec: MCP Zone: Fire = 680, EOL = 12k Det Zone: Fire = 680, EOL = EOLM-1 active module

Addressable Devices Zone Monitor Module Connections

Addressable Devices Large Interface Module Range 3 Channel Input / Output Module MIO324 standard MIO324S relay returns on silence MIO324T Indepent Input & Output operation, 3 addresses Mains Rated Input / Output Module MIO1240 standard 4 Channel Sounder Controller Module MPU424 standard Inbuilt S/C Isolator Software allocated addressing by panel Hardware allocated addressing by CF800PROG

Addressable Devices Large 3 Channel I/O Module 3 x output relay Volt free contacts 30v DC 1A 3 x monitored input Fire = 5K6 EOL = 22K Options MIO324 = Standard 3 Channel I/O MIO324S = Relay returns on SILENCE command MIO324T = Independent I/Ps & O/Ps, requires 3 addresses Loop Loading MIO324 = 20 max MIO324S = 20 max MIO324T = 6 max (ie 20 x I/O) Subject to Loop Calculation CIO351 / MIO324 / FXN510

Addressable Devices Large 3 Channel I/O Module Connections Cable Screen termination point Continuity: Not EARTH connection Surface housing Circuit Spec Relays: SPCO, 30V 1A max I/Ps: Fire = 5.6k , EOL = 22k 

Addressable Devices Large 3 Channel I/O Module Connections

Addressable Devices Large Mains Rated I/O Module 1 x output relay SPCO volt free contacts 230V AC 30V DC 8A Monitored input circuit Loop Loading 20 max Subject to Loop Calculation CMIO353 / MIO1240 / FXN511

Addressable Devices Large Mains Rated I/O Module Connections Cable Screen termination point Continuity: Not EARTH connection Surface housing Circuit Spec Relay: SPCO, 230V AC 8A max Input: Fire = 5.6k , EOL = 22k 

Addressable Devices Large Mains Rated I/O Module Connections

Addressable Devices Large 4 Channel Sounder Controller Module 4 x Conventional sounder circuits Programmable Optional delay on circuit 1 Separately programmable with Cause & Effect Inbuilt 24V DC PSU 2 x 12V 4Ah batteries Loop Loading 20 max Subject to Loop Calculation Remotely 230V AC powered to reduce loop load CSC354 / MPU424 / FXN515

Addressable Devices Large 4 Channel Sounder Control Module Connections Cable Screen termination point Continuity: Not EARTH connection Surface housing Circuit Monitoring Fire relay: SPCO, 30V 1A max Sounders: 400mA per circuit, EOL = 6K8

Addressable Devices Large 4 Channel Sounder Control Module Connections

Network Network Schematic Max 126 nodes Topology Control Panels Network Repeaters Network Modules Topology Fire rated RS485 screened twisted pair, ie, Draka 910243 1000m cable max ~ LON-FO NC EC200 FIBRE OPTIC LOCAL AREA NETWORK UP TO MAX 126 NETWORK NODES EXT 24V MODBUS OUTPUT TO BMS SYSTEM BACNET OUTPUT TO BMS SYSTEM ECO232 SITE MONITOR SYSTEM SITE GRAPHICS SYSTEM EC540 EC400 CFSFL01 CF3000 CW9000 CTPR3000 CF1100/1200 EC650 EC700

NETWORK CONNECTIONS A-X, B-Y Termination resistors Standard Network Connections Cable Enhanced fire rated data cable, Max 1000m length Draka 910234 2 core twisted pair with screen Screening Connect screen to ground at one end only Termination Resistor termination 102  (2 x 51 ) per card Radial Network Remove resistors at all network cards except the two ends 102  at each end = 51  across network Ring Network Remove resistors at all network cards except one Link out 1 resistor leaving 51 across network EC540 Booster: treat the network either side as separate networks Y X B A ribbon cable to control panel NETWORK CONNECTIONS A-X, B-Y Termination resistors out in

Network Standard Network Setup At each control panel Number of panels on network Panel Address E.g., Panel 1 of 4 Network Response (to commands received) Silence Reset Evacuate Fire Fault Pre Alarm Network Filter Select Panels to respond to Programming Each panel Config downloaded to master site file.

Operation User Menus Touch option to select Example below:

Introduction Engineer Menus Intuitive operation Test, configuration and diagnostic

Operation 1. Cable Testing Before device installation Insulation and Continuity tester: 500V DC Continuity resistance: positive, negative and screen conductors Typically 12  per 1000m fof1.5mm2 cable Insulation resistance: pos-neg, neg-screen, pos-screen All insulation readings must be greater than 20 M Verify Mains Supply Earth connection After device installation Low voltage Multi-Meter testing only Typically 12  per 1000m for 1.5mm2 cable Negative continuity aprox 2.5K per device isolator being measured Insulation resistance: positive-negative, negative-screen, positive-screen All insulation readings must be greater than 1 M Accuracy will be low, but will give a good indicative reading Induced Voltages: positive-negative All induced voltage readings must be less than 1V AC Take ‘Volt-Drop’ readings at Start and Finish

Operation 2. Information required for commissioning Cable Readings Insulation and Continuity ‘As-Wired’ drawings Devices and cable routes Device Data Quantity and type per loop Required settings and descriptions Configuration Programming settings Cause & Effect requirements

Operation 3. Starting the Loops Ensure panel is fault free without any devices Sounder circuit and other EOLS must be fitted. Auto-Learn updates the panel configuration Save it to PC if required to avoid losing Text etc. Auto-Learn Loops Connect Loop 1 circuit cables: outgoing end only Auto-Learn and verify all devices identified correctly (ignore O/C fault) Disconnect Loop circuit cables Repeat with remaining loops temporarily in loop 1 connections When all complete, reinstate cable to correct circuits and Auto-Learn complete system Final Checks Reset System: ensure all faults are cleared Check Auto Config: investigate any issues Intermittent Fault Search: run for 30 minutes

Operation 4. Configuring the System Verify Device Locations Using the Test Device function verify all device locations as expected Heat Detectors Default is ‘Rate of Rise’ Configure the detection settings using the panel menus PRIOR to PC upload Site Installer Send CDR to PC, configure as required and return it to panel Optionally, some configuration may be carried out at the panel display Commission System Test all devices and all programmed operation

Operation Fault Finding during Auto-Learn Will not identify all devices during Auto-Learn Faulty base/device, connections or cable At last device identified or the one immediately following Dual Address Misc connection problems Incorrect device type response Continual resetting of system Random Fire Activations Screen connected to earth / + / - in the field or with broken continuity Verify Mains supply Earth integrity Induced AC voltage Contaminated devices or activated Manual Call Points Incorrect configuration program Miscellaneous Loop circuits reversed or swapped after configuration Screen connected to earth in the field or with broken continuity Interface module connection problems Try splitting the loop and Auto-Learning one section at a time to locate unusual faults Try Auto-Learning 1 temporary device to verify panel operation Water leakage will often cause random fire activations

Thank you!