1. Addressable Fire Detection System
CF3000
Addressable Fire Detection System

2. 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

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

4. 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 / FX LP: CF1100 / DF6100 / FX LP: CF1200 / DF6200 / FX6200

5. 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

6. 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

7. 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

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

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

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

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

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

13. 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

14. 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

15. 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

16. 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

17. 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

18. 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

19. 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

20. 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

21. 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

22. 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

23. 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

24. 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

25. 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

26. Concept of Operation
Repeated for next device, 3 2 1

27. Concept of Operation
Etc, 3 4 2 1

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

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

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

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

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

33. 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

34. 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

35. 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

36. 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

37. 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

38. 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

39. 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

40. 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

41. 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

42. 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

43. 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

44. 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

45. 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

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

47. Control Panels
Circuit Connections
CF3000
12V
24V

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

49. 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

50. 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

51. 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

52. 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

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

54. 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

55. 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

56. 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

57. 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

58. 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 x MIO324T
= 20 x 3/10
= 60 x Sdr Lo

59. 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 / FXN OPT TH SM: CAPT340 / MAOH850 / FXN HT: CAH330 / MAH830 / FXN BASE: CAB300 / MAB800 / FXN720

60. 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

61. 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

62. 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

63. 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

64. 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

65. 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 / FXN MCP WP: CBG370WP / MBG817 / FXN503

66. 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 / FXN MCP WP: CBG370WP / MBG817 / FXN503

67. 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

68. 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

69. 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 / 1Hz cycle
Slow whoop Hz 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 / MASB SDR WP: CAS381WP / MAS850LPSWP / FXN538LPSWP
SDR BCN WP: CASB383WP / MASB860WP BCN: CAS382 / MAB870 / FXN338BCN

70. 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

71. 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

72. Addressable Devices Loop powered base mounted sounders / beacons
3 volume settings (controlled by panel)
3 tones (controlled by panel)
Continuous 984Hz
Two Tone 644 / 1Hz cycle
Slow whoop Hz 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

73. 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

74. 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

75. 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

76. 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

77. 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

78. 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

79. 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

80. 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

81. 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

82. 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

83. 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

84. 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

85. 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

86. 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

87. Addressable Devices
Shop Unit Monitor Module Connections

88. 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

89. 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

90. Addressable Devices
Zone Monitor Module Connections

91. 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

92. 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

93. 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 

94. Addressable Devices
Large 3 Channel I/O Module Connections

95. 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

96. 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 

97. Addressable Devices
Large Mains Rated I/O Module Connections

98. 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

99. 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

100. Addressable Devices
Large 4 Channel Sounder Control Module Connections

101. Network Network Schematic Max 126 nodes Topology Control Panels
Network Repeaters
Network Modules
Topology
Fire rated RS485 screened twisted pair, ie, Draka
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

102. NETWORK CONNECTIONS A-X, B-Y Termination resistors
Standard Network Connections
Cable
Enhanced fire rated data cable, Max 1000m length
Draka 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

103. 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.

104. Operation
User Menus
Touch option to select
Example below:

105. Introduction Engineer Menus Intuitive operation
Test, configuration and diagnostic

106. 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

107. 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

108. 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

109. 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

110. 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

111. Thank you!