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Technical Manual  

FT420 

– Iss 2.4  

 

 

 

23

 

 
 

2.5  Optional 8 Zone Expansion Board SUB883 

The first  4  Zone Input  circuits  are  included in  the  Main  Control  Board  SUB880.  If more Zone  circuits 
are required, an 8 Zone Expansion Board SUB883 is added.  Each Zone Expansion Board provides 8 
x Zone Input circuits.   

Each Zone Input can be used either as a: 

 

Fire Alarm detection input,  

 

Flow Switch input or a  

 

Supervised Trigger input for the OWS Automatic Tone Alert function (Alertcom).  

The Expansion Board has to be connected to the Main Control Board or another Expansion Board via 
ribbon cable. The board address must be selected using the DIP switch SW1 as shown in Table 11. 

The board layout is shown in Figure 5. 

 

 

Figure 5 Zone Expansion Board Layout 

 

The board jumper settings and connections are listed on Table 11 and Table 12 respectively. 

Table 11 Zone Expansion Board Jumper Settings  

Designator 

Description 

Jumper Status 

Function 

Factory Default 

JP1 

Not used 

Out 

Not used 

Out 

SW1 

Select expansion board 
address. Only one bit can 
be turned ON. 

1-7 

Set one address from 1 to 7. 

Based on the system 
configurations. 

Disable the expansion board.  

 

 

Summary of Contents for Firetracker FT420

Page 1: ...TECHNICAL MANUAL Issue 2 4 FT420 Conventional Fire Alarm System MA425 Oct 2018 ...

Page 2: ... 4 Supervised Outputs Expansion Board Zone alarm priority non DBA Zone post alarm delay Zone alarm non latching V1 7 C A A S 2 0 15 7 11 Review manual and update previous revisions to software V2 1 0 Removed PA volume control and High Low Priority Zone Alarm Add 3 minutes delay between alert evac and fix up software issues in SUB886 V2 1 0 25 7 11 E T C A A S Add Gaseous extinguishing system Fix u...

Page 3: ...play Driver Board SUB881 20 2 4 Battery Charger Current Limiting Board SUB945 22 2 5 Optional 8 Zone Expansion Board SUB883 23 2 6 Optional Relay Expansion Board SUB885 25 2 7 Optional Supervised Output Expansion Board SUB886 27 2 8 Optional OWS Plug In Module SUB887 29 2 9 Optional Expansion Display boards 30 2 9 1 Generic display driver board SUB891 30 2 9 2 OWS Display Board SUB888 31 2 9 3 Oth...

Page 4: ...erview 50 3 10 2 DISPLAY Board Decal 51 3 10 3 Control Board SUB928 51 3 10 4 CIE Interface Board SUB943 52 3 10 5 Inputs from FT420 to CIE Interface Board SUB943 52 3 10 6 Outputs from CIE Interface Board SUB943 to FT420 52 3 11 AS1668 Fan Control Module 53 3 12 Power Supply Management 54 3 12 1 Maximum Current Capacity 54 3 12 2 Mains power supply 54 3 12 3 Power supply monitoring 54 3 12 4 Powe...

Page 5: ...ut Expansion Board Layout SUB886 27 Figure 8 OWS Plug in Module Layout 29 Figure 9 Generic Display Driver Board Layout SUB891 30 Figure 10 OWS Front Display Board Layout 31 Figure 11 Typical CIE Front Display boards Layout 33 Figure 12 Typical 8 Zone FT420 with OWS in a small enclosure 34 Figure 13 Typical 8 Zone FT420 CIE with OWS in a small enclosure door opened 34 Figure 14 Typical Zone Input C...

Page 6: ...d Jumper Settings 30 Table 19 Generic Display Driver Board Connectors 30 Table 20 OWS Front Display Board Connections 31 Table 21 Fuse Specifications 32 Table 22 LED Indicating Patterns 35 Table 23 Fault LED Indications 35 Table 24 Buzzer Indicating Patterns 36 Table 25 OWS Tone and Voice Messages 36 Table 26 CIE Signalling Patterns 37 Table 27 End of Line Resistor Specifications 39 Table 28 Zone ...

Page 7: ...according to all the relevant standards and regulations the site emergency plans and the equipment operation instructions Any controls provided by the CIE are for emergency protection and warning purposes only Do not rely on the CIE to operate external equipment for any other purposes The Brooks CIE monitors the wiring conditions by using end of line devices It is however not capable of detecting ...

Page 8: ...mple and Clear User Interface The CIE modular and intuitive user interface significantly simplifies the system operations All the system conditions are indicated by well grouped LED indicators All the system operations are available via momentary push button switches As there are no LCD menus to navigate through the CIE is easy to use and minimises confusion and hence reduces the response time in ...

Page 9: ...Visual alarm indications The Alertcom is capable of providing both audible and visual warnings in alarm and manual conditions Its monitored dual strobe output controls the visual indications for both alert and evacuation conditions separately Automatic Alertcom system with manual tone selections Up to eight tones can be broadcasted based on the associated monitored trigger inputs or the manual sel...

Page 10: ... special hardware and PC software No configuration is available during normal operations Access Level 1 2 Operating Temperature 0 C to 40 C Operating Humidity 5 95 non condensing IP Rating IP31 Enclosue Material Zinc anneal steel powder coated oyster with a tinted lockable acrylic front door Enclosure Small 480 High X 450 Wide X 220 Deep mm Medium 630 High X 450 Wide X 220 Deep mm Large 920 High X...

Page 11: ...em Architecture Every front display option except AS1668 FFC comprises a Front Display Board that contains LEDs and push button switches and a Generic Display Driver Board SUB891 which contains the driving Main Control Board Optional OWS plug in module Main Display Driver Board Zone Input Board Supervised Output Board Generic Display Driver Board Up to seven control expansion boards Up to ten disp...

Page 12: ...trol Board SUB881 Main Display Driver Board SUB882 Main Front Display board SUB945 Current Limiting Battery Charger Board SUB883 Expansion Board 8 Zone Expansion Board SUB884 Expansion Display Board 4 Zone Expansion Front Display Board SUB885 Expansion Board 8 Relay Output Expansion Board SUB886 Expansion Board 4 Supervised Voltage Output Expansion Board SUB887 Expansion Plug in Module OWS Plug In...

Page 13: ...trol the external fire brigade strobes Separate manual control to disable external strobe output Alarm Devices Output 1 Supervised 24V output 24VDC 2 A JP1 JP2 fitted to control electronic sounders or Supervised speaker circuit 100V RMS 5A JP1 JP2 not fitted to control main OWS speaker circuit Separate manual control to disable all alarm devices Common Alarm Relay Output 1 Dry contact 30V 2A Used ...

Page 14: ... zone inputs Supervised Outputs Expansion Board SUB886 Optional 4 Supervised Outputs 1 2 3 4 5 or 6 Up to 24 outputs can be configured as any combination of 24VDC supervised outputs or supervised speaker circuits depending on the input feed All outputs are activated by all zone inputs Can be used as OWS Speaker Zone Splitter 100V RMS or generic Supervised 24VDC Alarm Outputs Optional OWS Expansion...

Page 15: ...splay Board 1 Only one board 8 tone selections 8 PA Zone Control Display Board 3 24 PA Zone control buttons Total number of expansion display boards on each display board expansion bus 5 Maximum number of Expansion Display Boards 10 Fan Control Expansion Board Space limitation impact only 2 Fan terminations Fan Control Display Board Space limitation impact only 2 Fan status and control 2 1 4 Contr...

Page 16: ...r to Table 18 page 30 for jumper setting The bus address setting is determined by the shunted status the IDC 2X5 jumper JP1 There are no Bus Directional Controls for the Expansion Display Driver Boards The top bus connector will always be for incoming bus while the bottom connector is for out going bus to the next Expansion Display Driver Board below it The Main Display Driver Board manages the Di...

Page 17: ... layout is shown in Figure 2 Figure 2 Main Control Board Layout SUB880 The board jumper settings and ancillary terminations are listed on Table 5 and Table 6 respectively Table 5 Main Control Board Jumper Settings Designator Description Jumper Status Function Factory Default JP1 JP2 Alarm device selection ON 24V output to control the electronic sounders Default OFF Dry contact output to control th...

Page 18: ...rs or speaker lines Sounder output 24VDC 2 A or Speaker output Dry contact 100V RMS 5A 2 3 Audio Line Input 100V RMS 5A Connected to the audio amplifier output if using OWS 4 5 Audio Amplifier Control N A Connect to Brooks audio amplifier Standby input TB4 Removable screw terminal block 1 Built In MCP Input The MCP is normally installed to the CIE front plate The MCP wiring is inside the CIE cabin...

Page 19: ...ovable screw terminal block 1 ACF Power Output 24VDC 500mA 2 3 External Strobe Power Output 24VDC 1A 4 TB9 Removable screw terminal block 1 MDH Dry Contact Relay Input 30V 5A Connected to a non battery backup AC DC power supply The MDH circuit is N C 2 3 MDH Dry Contact Relay Output 30V 5A Connected to the MDH circuit 4 CON1 IDC20 cable connector Expansion Board Connection N A Connected to up to s...

Page 20: ...nicates with SUB880 via its own local microcontroller The Main Display Driver board layout is shown in Figure 3 Figure 3 Main Display Diver Board Layout SUB881 The Main Display Driver board jumper settings and connections are shown on Table 7 and Table 8 respectively Table 7 Main Display Driver Board Jumper Settings Designator Description Jumper Status Function Factory Default JP1 Microprocessor r...

Page 21: ...26 PCB header Main Front Display Board Switch Input Connection N A Plug into the IDC socket on the main Front Display board CON2 IDC40 PCB header Main Front Display Board LED Output Connection N A Plug into the IDC socket on the main Front Display board CON3 IDC16 cable connector Right Display Board Expansion Bus N A Support up to five expansion display boards cascaded together CON4 IDC16 cable co...

Page 22: ...ng Connection Designator Type Pin Usage Lab Description TB1 Removable Screw Terminals 1 Connection from the Battery terminals on the main control board TB1 V Battery output on the main control board is connected to current limiting board to limit the maximum charging current 2 V 3 Connection to Batteries B 4 B The two resistors R5 and R6 control the maximum charging current versus the battery capa...

Page 23: ... The Expansion Board has to be connected to the Main Control Board or another Expansion Board via ribbon cable The board address must be selected using the DIP switch SW1 as shown in Table 11 The board layout is shown in Figure 5 Figure 5 Zone Expansion Board Layout The board jumper settings and connections are listed on Table 11 and Table 12 respectively Table 11 Zone Expansion Board Jumper Setti...

Page 24: ...ed as the monitored inputs for flow switches AS1668 duct detectors for fan control or the OWS automatic tone alert functions Alertcom 2 3 2nd expanded Zone input connection 4 5 3rd expanded Zone input connection 6 7 4th expanded Zone input connection 8 TB3 Removable screw terminal block 1 5th expanded Zone input connection 2 3 6th expanded Zone input connection 4 5 7th expanded Zone input connecti...

Page 25: ...her expansion board via ribbon cable The board address must be selected using the DIP switch SW1 as per Table 13 Figure 6 Relay Expansion Board Layout The board jumper settings and connections are listed on Table 13 and Table 14 Table 13 Relay Expansion Board Jumper Settings Designator Description Jumper Status Function Factory Default JP9 Not used Out Not used Out JP1 JP2 JP3 JP4 JP5 JP6 JP7 JP8 ...

Page 26: ...her N C or N O depending on jumper setting COM common Maximum carry current 2A 30V 2 COM 3 Relay 2 output connection ACT 4 COM 5 Relay 3 output connection ACT 6 COM 7 Relay 4 output connection ACT 8 COM TB3 Removable screw terminal block 1 Relay 5 output connection ACT 2 COM 3 Relay 6 output connection ACT 4 COM 5 Relay 7 output connection ACT 6 COM 7 Relay 8 output connection ACT 8 COM CON1 IDC20...

Page 27: ...ault JP1 JP2 JP3 Not used 1 2 Not used 1 2 SW1 Select expansion board address Only one bit can be turned ON 1 7 Set address from 1 to 7 Based on the system configurations 8 Disable the expansion board JP4 JP5 OUTPUT 1 Select 24V alarm output or 100V speaker output ON Set Output 1 to be 24VDC output Set to suit the specified application OWS Zone splitter uses dry contact and normal supervision Soun...

Page 28: ...ction I Input terminals can be used as an external source 24 12 VDC or 100V RMS speaker input 4 I 5 Output 2 connection O Used as 24DCV supervised output max 2A or 100V supervised speaker Can be utilised for splitting OWS into multiple speaker outputs or PA zoning controls 6 O 7 Input 2 connection I Input terminals can be used as an external source 24 12 VDC or 100V RMS speaker input 8 I TB3 Remov...

Page 29: ...ft in Isolate or Manual mode in excess of 5 minutes a fault will be generated In software V2 18 or higher a new feature has been added to allow for 3 minutes delay between alert and evacuation tone This time delay can be configured using the PC configuration tool software V2 1 or higher depending on the firmware in SUB880 and SUB881 There are no jumper settings for the OWS Plug In Module The board...

Page 30: ...eric Display Driver board SUB891 shown in Figure 9 must be used with every Optional Expansion Display board Figure 9 Generic Display Driver Board Layout SUB891 The board jumper settings and connections are listed on Table 18 and Table 19 Table 18 Generic Display Driver Board Jumper Settings Designator Description Jumper Shunt Status Function Factory Default JP1 Select expansion display board addre...

Page 31: ... connections The two boards shall be fastened with four metal spacers CON2 IDC26 socket N A CON3 Low profile screw terminal block on the back of the board 1 Electret microphone connection Connects to the MIC input of the Main Display Driver board if built in MIC is used 2 3 Microphone shielding connection G The MIC cable two core audio cable should be shielded The shielding should be connected to ...

Page 32: ...or very fast blow Backup 24V Power Output F4 M205 5A fast blow or very fast blow MDH Control F5 Poly resettable 500mA ACF 24V Power Output F6 Poly resettable 1A External Strobe 24V output F7 Poly resettable 2A Warning Speaker 24V output BREAKER 7A External Miniature Circuit Breaker Batteries Over Current Protection Main Display Board F1 M205 2A fast blow 5V Power Input Four Monitored Relay Board F...

Page 33: ...boards The maximum number of zones for FT420 CIE is 20 Fire Brigade Tx Alarm Test Reset Disable ExternalStrobe Silence AlarmDevices Disablement Ext Strobe CPU System PSU AlarmDevices Earth Silence Buzzer Fault Active Active FUNCTIONS ACF Walk Test FAULTS Output Test Output Test Output Test Output Test Output Test Output Test Output Test Output Test Disable Disable D isabled Panel MC P Disable Alar...

Page 34: ...ch The LED indicators and momentary switches are grouped based on their functionality as shown in Figure 11 The Main Front Display Board which includes the first four zones is located on the top section as shown in Figure 12 All other display boards are optional Figure 12 Typical 8 Zone FT420 with OWS in a small enclosure Figure 13 Typical 8 Zone FT420 CIE with OWS in a small enclosure door opened...

Page 35: ...Indications Location LED Indicator LED Pattern10 Description Main Display Board and Zone Expansion Display board Zone Fault Flash 1 Zone open circuit fault Flash 2 Zone short circuit fault Main Display Board Common Fault Steady ON Common fault condition detected ACF Fault Flash 1 An open circuit fault is detected in the ACF connection Flash 2 A short circuit fault is detected in the ACF connection...

Page 36: ...igured to activate for 3 minutes followed by the T3 evacuation tone message until the alarm resets11 This function has to be configured via the PC configuration tool V3 2 or higher Table 25 OWS Tone and Voice Messages Audio Indication Type Active conditions Description Evacuation T3 T3 Tone and voice message Alarm condition or manual activation via the front display Repeat the tone below for 4 tim...

Page 37: ... message to all speakers refer to Table 25 Fire Brigade Tx Zone Alarm Non DBA alarm Common Alarm Emergency Alarm Alert message to all PA zones with auto timer to evac Zone Alarm Alarm Test Zone alarm test Zone Alarm Test Red Steady ON N A Alarm test message Testing No zone alarm has been detected during the zone walk test conditions Steady ON N A N A Zone alarm has been detected during the zone wa...

Page 38: ...Fault LED Red Yellow Green Steady ON Steady ON OFF Reset System reset is in progress Reset Green Steady ON N A N A OWS OWS is active Auto Green Alert N A Audio to all speakers OWS is active Man Red OWS is broadcasting Evacuation tone message Evac Red Emergency N A Evacuation tone message to all speakers OWS is broadcasting Alert tone message manual Alert Green Emergency N A Alert tone message to a...

Page 39: ...ne relay 3 5 2 EOL End Of Line Resistors To perform line supervision the CIE requires one EOL resistor to be installed to the end of each supervised input or output If a supervised input or output is not used the EOL resistor needs to be installed to the related terminals in the CIE The EOL resistor values required for each module input output are listed on Table 27 Table 27 End of Line Resistor S...

Page 40: ...ional detector base 4350 Panasonic Conventional multi detector12 4352 Panasonic Conventional photoelectric smoke detector12 4452 Panasonic Conventional photoelectric smoke detector new 4375 Panasonic Heat detector fixed temperature 60 4376 Panasonic Heat detector fixed temperature 80 6295 Panasonic Conventional enclosed heat detector 60 degrees 6296 Panasonic Conventional enclosed heat detector 80...

Page 41: ...ntact 30V 2A No Common Disablement Relay Output 1 Dry contact 30V 2A No Power Fail Relay Output 1 Dry contact 30V 2A No 4 Supervised Output Expansion Board SUB886 Optional Supervised Outputs 4 Dry contact 30V 2A No 24V output 24V 2A Poly resettable 2A Eight Relay Expansion Board SUB885 Optional Dry Contact Relay Output 8 Dry contact 30V 2A No OWS Plug in Module SUB888 Optional Dual Strobe Output 1...

Page 42: ...the SUB880 as shown in the connection diagram in Figure 15 CIE WARNING OUTPUT EOL 47K 22uFNon Polaroized JP1 JP2 MUST BE REMOVEDONSUB880 Figure 15 Typical Speaker Output Circuit If the optional 4 Supervised Output Expansion Board SUB886 is used as a Speaker Zone Splitter the speakers must be connected to SUB886 outputs while the input is connected to the warning output on the SUB880 A typical conn...

Page 43: ...hown in Figure 18 CIE R E LA Y ACF OUTPUT 24V 0V EOL 47K Figure 18 Typical ACF Connection Diagram 3 7 5 Supervised External Strobe The external 24V strobe output is a fully supervised output used to drive a red strobe outside the building to assist the fire brigade personnel in locating the fire panel 24V 0V EXTERNAL STROBE OUTPUT CIE EOL 47K STROBE Figure 19 Typical External Strobe Connection Dia...

Page 44: ...e batteries from back feeding power to the door holders 3 8 Internal Connections 3 8 1 Panel Mounted MCP Every FT420 CIE is supplied with a panel mounted manual call point MCP The MCP is connected to the main control board via dedicated MCP terminals This MCP input is fully supervised and requires 3 9KΩ EOL resistor as shown in Figure 21 CIE MCP EOL 3K9 Figure 21 MCP Circuit 3 8 2 Optional Externa...

Page 45: ... emergency conditions The OWS can also be used in non alarm conditions for general PA background music or Brooks Alercom OWS Features High power efficient Class D audio amplifiers with standby input to maximize power conservation Optional 3 minutes time delay between alert tone message and evacuation tone message Configurable audio warnings with pre recorded digital voice messages Meets the requir...

Page 46: ...U B 866 TX SEC VOL UM E 24Vdc D12 R16 C13 R10 R8 R3 Q 20 Z1 VR2 VR1 U6 U4 U3 U2 U1 R60 R59 R58 R57 R56 R55 R54 R53 R51 R49 R48 R45 R43 R42 R41 R40 R38 R37 R34 R33 R32 R31 R15 R13 R9 R7 R6 R5 R4 R2 R1 Q 19 Q 18 Q 17 Q 16 Q 15 Q 14 Q 13 Q 12 Q 11 Q 9 Q 8 Q 7 Q 6 Q 4 Q 3 Q 2 Q 1 L2 L1 F1 D5 D4 D3 D2 D1 CON3 CON2 CON1 C34 C33 C31 C30 C29 C25 C24 C23 C22 C21 C20 C19 C18 C17 C15 C12 C11 C10 C9 C8 C6 C5 ...

Page 47: ...R 2 8 R 2 7 R 2 6 R 2 5 R 2 4 R 2 3 R 2 2 R 2 1 R 2 0 R 1 9 Q 2 6 Q 2 5 Q 2 4 Q 2 3 L E D 1 D 1 9 D 1 8 C 2 6 C 1 6 C 1 4 D 1 2 R 1 6 C 1 3 R 1 0 R 8 R 3 Q 2 0 Z 1 V R 2 V R 1 U 6 U 4 U 3 U 2 U 1 R 6 0 R 5 9 R 5 8 R 5 7 R 5 6 R 5 5 R 5 4 R 5 3 R 5 1 R 4 9 R 4 8 R 4 5 R 4 3 R 4 2 R 4 1 R 4 0 R 3 8 R 3 7 R 3 4 R 3 3 R 3 2 R 3 1 R 1 5 R 1 3 R 9 R 7 R 6 R 5 R 4 R 2 R 1 Q 1 9 Q 1 8 Q 1 7 Q 1 6 Q 1 5 Q ...

Page 48: ... the associated different transformer 2 Note If Brooks OWS standby feature is not used then the higher current must be used in quiescent power calculations 3 9 4 OWS volume adjustment All volume adjustments are made on the Audio Amplifier Module via the trimpot VR1 only This volume adjustment is given a reference designator VR1 and named VOLUME on all amplifier boards This trimpot VR1 is located i...

Page 49: ...CIE EARTH terminal The auxiliary input requires a 47KΩ End of Line resistor connected across the auxiliary switch input and a second 47KΩ resistor in series with the enable switch as shown in Figure 26 EOL 47K ACTIVE 47K FROM AUDIO EQUIPMENT AUXILIARY AUDIO INPUT AUXILIARY SWITCH INPUT Figure 26 OWS Auxiliary Input Circuit 3 9 6 OWS Dual Strobe Output The OWS Dual Strobe output circuit is shown in...

Page 50: ...rvised external input circuits Gas Lock Off Valve input Manual Release input and Gas Discharged Sensor input Fully Supervised System Inoperative Warning Sign 24VDC output rated 0 5A maximum Fully supervised 2 wire system 24VDC output for level 1 and level 2 alarm to Brooks Warning Signs alarm 1 alarm 2 rated 3A maximum Fully Supervised 24VDC Gas Release output rated 5A maximum Gas Release Clean Co...

Page 51: ...ternal Gas Release control activated Gas Discharged Gas discharged sensor input activated Fault Gas Fault Fault in any of the supervised inputs or outputs Steady ON Disable Gas Discharge Inhibited Gas discharge inhibited via LCS isolate switch Steady ON Gas Discharge Disabled Gas discharge disabled by the service Master Abort Switch or the gas lock off valve controls Service Switch Active Illumina...

Page 52: ...tive sign is active Ensure you configure the system to suit the application Figure 29 Assembled Control Interface Boards 3 10 5 Inputs from FT420 to CIE Interface Board SUB943 The following inputs are provided in the gas interface board 24VDC Supply 22 30V 200mA to 3A Zone 1 Zone 2 alarm open alarm contact for each zone Fault input zone 1or zone 2 may activate the system inoperative sign Fault inp...

Page 53: ...ard The display board SUB953 is mounted on the front face plate behind a decal label that includes the fan status indicators Stopped Running and Fault in addition to 3 position switch On Auto OFF for fan operation manual override A Fire trip reset switch is also included to reset the smoke control system independently of the fire mode condition The second board is the termination and control board...

Page 54: ...ons The calibration procedure is as follows Use a calibrated and certified multimeter to measure the voltage of the battery terminals At the same time adjust the AC DC power supply potentiometer until the multimeter reading stabilises between 27 3 27 5VDC on the battery terminals without connecting the batteries WARNING Care must be taken when adjusting the AC DC power supply Do not to touch the c...

Page 55: ...ernal Strobe output OWS Audio Amplifier if used Warning output to electronic sounders if OWS is not used OWS Dual Strobe output MDH power if supplied from CIE Backup power outputs Routing equipment current requirements ASE Any other backup power supply outputs 3 12 5 System Current Consumption The current in alarm state is measured when two zones are in alarm condition all the outputs are activate...

Page 56: ...2 4 Date 26 Oct 18 Project mA Total mA mA Total mA FT420 Basic 4 Zone CIE FT420 4 1 90 0 90 0 231 0 231 0 No of units must 1 4 Zones 8 Zone Expansion Board SUB883 0 72 0 0 0 73 0 0 0 Max No of Units 2 16 Zone 4 Zone Display Board SUB884 SUB891 0 1 0 0 0 2 1 0 0 Add 1 for every 4 zones max 4 8 Relay Expansion Board SUB885 0 14 0 0 0 138 0 0 0 Max No of Units 3 4 Supervised Output expansion Board SU...

Page 57: ...al system alarm current in Ampere TA Alarm load standby power source time normally 0 5 hour C20 Required Battery Capacity 8 78 Ah Battery Charger Calculations Battery charger Ah required for 96 hours 5xIQ Fc 0 5xIA 5x0 162 2 0 5x3 137 3 95 Ah Battery charging current required w here h is efficiency of battery manufacturer typically 75 85 BB Battery 3 95 24x0 75 2 19 Amp 1 25 0 162x24 2 3 137x0 5 h...

Page 58: ...ms per meter If the cable length is 100 meters the cable cumulated resistance is 0 2 X 100 20 Ohms Some common used cable parameters are listed in the following table Table 39 Cable Resistance of the Reference Cables Cable Type Copper Area Insulation Manufacturer specified cable resistance Real cable resistance Electra Cables FC7402LD 1mm2 250 250 V 0 02 Ohms m 0 04 Ohms m Electra Cables FC7502LD ...

Page 59: ...ivalent or better type of the cables shall be used Table 40 Cable Types for Different Connections Connection Requirement Reference Cable Specifications Maximum Cable Length Zone Circuits Use Equation 1 Two core Red 1mm2 conductive area Specified cable resistance 0 02 Ohms m Real cable Resistance 0 04 Ohms m 1250 meters Power Outputs Use Equation 2 Two core Red 1 5mm2 conductive area Specified cabl...

Page 60: ...d SUB881 V2 3 3 has been modified to include the new features in FT420 configuration software V2 3 2 Note The PC configuration software V2 3 2 must be used with firmware V2 3 2 or V2 3 3 in SUB880 and SUB881 i e the firmware revision number must be identical in SUB880 and SUB881 To upgrade an existing FT420 CIE to V2 3 2 PC configuration software please request the latest microprocessor chips from...

Page 61: ... PC 9 To launch the software go to START Brooks FT420 FT420 Configuration Tool V2 3 2 B New Installation of config software V2 3 2 To install V2 3 2 from either a CD or memory stick 1 Look for the file named FT420 Config zip on the CD or memory stick and 2 unzip it to a folder named FT420_Config on the PC 3 then run the Setup exe file from the FT420_Config folder This will automatically install th...

Page 62: ...e CIE 11 Power up the system Wait until the system Common Fault LED turns ON and buzzer starts to beep 12 Press the CIE system reset and ensure no faults exist 4 2 5 Logic number Logic numbers are used in system configurations The logic number of the zone inputs and the control outputs are used to specify the configuration data They are shown in Table 41 below Table 41 CIE I O Logic Numbers Logic ...

Page 63: ...zones can be configured by this software in groups of eight expansion termination 2 x SUB883 and four of expansion display 4 x SUB884 in addition to the first 4 standard zones 4 3 2 OWS Expansion If an OWS is fitted in FT420 two options in the automatic mode are available Evac Only Any zone alarm activates the evacuation tone T3 and evacuation message Auto Alert to Evac 3min Any zone alarm activat...

Page 64: ...one or all zones Up to 24 supervised outputs can be added in a group of four outputs depending on the number of other expansion boards fitted and space availability inside FT420 cabinet Figure 34 Supervised Relay Outputs 4 3 4 Dry Contact Relay Expansion Dry Contact relay output expansion is achieved by adding one or more of the Dry Contact Relay Expansion boards SUB885 refer to Section 2 6 page 2...

Page 65: ...ering17 8 Manual Select Display Board SUB889 if manual control is required The Alertcom enables Emergency Control Organisation flexibility when implementing procedures for buildings or work places by providing a range of tones messages for different responses required by the emergency plan The Alertcom system provides up to 8 separate tones initiated either automatically or via manual control in a...

Page 66: ...activated by any other zone inputs 4 3 7 Mains Failure Detection A new option is added to V2 3 2 to delay mains fail fault for approximately one hour AS7240 requires any fault to be detected within 100 seconds this is the default setting When the FT420 is installed in a remote location or in an installation where blackout occurs for longer period of time the 60 minutes delayed mains fail detection...

Page 67: ...ection on that detector within the next verification cycle This causes the zone alarm condition to remain on If no further alarm input was detected during the reset cycle no alarm conditions will be generated AVF disabled If the AVF is disabled an alarm condition will be generated as soon as an alarm input is detected To select AVF Check the Alarm Verification check boxes for each zone required fo...

Page 68: ...Feature to All to uncheck all boxes A non latching zone is normally used as a tone alert trigger input in Alertcom or a fan control duct probe input The Alarm Non Latching feature has precedence over the Alarm Post Delay and the two are interlocked Therefore if any check box under the Alarm Non Latching has a tick the corresponding Alarm Post Delay check box for that zone will automatically be dis...

Page 69: ...ted permanently to the line side of the mains fuses at the main distribution board The mains cable should be separated from other cables entering the cabinet It should be wired straight into the termination box situated in the top left hand corner of the cabinet The mains earth wire must be terminated at the main earth stud near the mains termination block Ensure the mains isolate switch in FT420 ...

Page 70: ...ctions for correct polarity The detectors and voltage outputs are polarity conscious Therefore care must be taken to ensure correct termination of all wires Check that End of Line resistors are fitted to the last detector base in the zone circuit and the last device of each supervised input output circuit If the OWS is fitted install the EOL resistor in the last speaker in the speaker circuit Carr...

Page 71: ...OUT 30K 100K ACF output TB8 4 ACF TB8 3 ACF 10K 54K TB8 3 ACF TB8 4 ACF 28K External strobe output TB8 2 STROBE TB8 1 STROBE 10K 54K TB8 2 STROBE TB8 1 STROBE 28K Speaker Warning output TB3 2 WARNING TB3 1 WARNING Speaker Line 40K 54K 24V output 40K 54K TB3 1 WARNING TB3 2 WARNING Speaker Line 40K 54K 24V output 14 Common alarm relay TB7 1 ALARM TB7 3 ALARM Follow the requirements of the equipment...

Page 72: ...nsion Board 1 Optional Supervised output 1 TB2 1 O TB2 2 O Speaker 40K 54K 24V output 14 TB2 2 O TB2 1 O 24V output 40K 54K Optional Supervised output 2 TB2 3 O TB2 4 O Speaker 40K 54K 24V output 14 TB2 4 O TB2 3 O 24V output 40K 54K Optional Supervised output 3 TB2 5 O TB2 6 O Speaker 40K 54K 24V output 14 TB2 6 O TB2 5 O 24V output 40K 54K Optional Supervised output 4 TB2 7 O TB2 8 O Speaker 40K...

Page 73: ...O Speaker 40K 54K 24V output 14 TB2 4 O TB2 3 O 24V output 40K 54K Optional Supervised output 3 TB2 5 O TB2 6 O Speaker 40K 54K 24V output 14 TB2 6 O TB2 5 O 24V output 40K 54K Optional Supervised output 4 TB2 7 O TB2 8 O Speaker 40K 54K 24V output 14 TB2 8 O TB2 7 O 24V output 40K 54K Table 44 Pre Commissioning Battery Voltage Measurement Record Battery Multimeter Probe Multimeter Probe Expected ...

Page 74: ...d SUB881 Serial No Firmware version Table 47 CIE Expansion Board Record Type Module No Bus Address Bus Direction Serial Number Expansion Control Board 8 Zone Expansion Board SUB883 1 2 4 Supervised Output Expansion board SUB886 1 2 3 4 5 6 8 Dry Contact Relay Expansion board SUB885 1 2 3 Expansion Display Board Zone Display Board SUB884 1 N A 2 N A 3 N A 4 N A OWS Main Display Board SUB887 1 N A O...

Page 75: ...Technical Manual FT420 Iss 2 4 75 Table 48 CIE Maintenance Record No Description Technician Name Signature Date 1 2 3 4 5 6 7 8 9 10 11 ...

Page 76: ...Technical Manual FT420 Iss 2 4 76 6 3 FT420 Block Wiring Diagram Figure 39 FT420 with All Options ...

Page 77: ...Technical Manual FT420 Iss 2 4 77 Figure 40 FT420 with Gas Kit Interface ...

Page 78: ...ille SA 5011 729A Port Road Woodville SA 5011 Ph 08 8347 0000 QLD P O Box 511 Archerfield QLD 4108 2 49 Boyland Ave Coopers Plains QLD 4108 Ph 07 3373 8222 WA P O Box 2114 Midland DC W A 6936 6 91 Leach Highway Kewdale WA 6105 Ph 08 6262 8095 New Zealand Unit 106 The Zone 23 Edwin St Mt Eden Auckland 1024 Ph 64 9 638 4644 Toll Free 0800 220 007 NZ only Or National Australian Sales Number 1300 78 F...

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