Haes FUSION 0832-CPD-1432 Quick Start Manual
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EN54 APPROVED COMBINED ANALOGUE ADDRESSABLE / CONVENTIONAL CONTROL PANEL Quick Start Guide Software version 1.14 and above 810a/01/02 Approved Document UI-FBU-03 Issue 4.1 0832 Haes Systems Ltd, Columbia House, Packet Boat Lane, Cowley Peachey, Uxbridge, UB8 2JP 10 Model Number CPD Number Fusion 1-4 loop / 4-20 zone conventional panel FBUS X-Y-Z series 0832-CPD-1431 Fusion 1-8 loop / 4-36 zone conventional panel FBUL X-Y-Z series 0832-CPD-1432 Note: X = qty of LED indicators. Y = qty of zone circuits. Z = qty of loops European Standard EN54-2 : 1997 + A1 : 2006 Control and indicating equipment for fire detection and fire alarm systems for buildings. Provided Options: Output to fire alarm devices, output to fire alarm routing equipment, delays to outputs, disablement of each address point, test condition European Standard EN54-4 : 1997 + A1 : 2002 + A2 : 2006 Power supply equipment for fire detection and fire alarm systems for buildings. Other technical data is contained in the installation and commissioning manual (Approved Document MFBU-01) Document No. 2578M iss 1 IMPORTANT NOTE PLEASE READ THIS MANUAL BEFORE HANDLING THE EQUIPMENT AND OBSERVE ALL ADVICE GIVEN IN IT THIS PARTICULARLY APPLIES TO THE PRECAUTIONS NECESSARY TO AVOID E.S.D ! IMPORTANT SAFETY NOTES ATTENTION The panel is safe to operate provided it has been installed in compliance with the manufacturer’s instructions and used in accordance with this manual. Hazardous voltages are present inside the panel—DO NOT open it unless you are qualified and authorised to do so. There is no need to open the panel’s enclosure except to carry out commissioning, maintenance and remedial work. This work must only be carried out by competent service personnel who are fully conversant with the contents of the panel’s separate installation manual and have the necessary skills for maintaining this equipment. This fire alarm system requires periodic checks as specified in BS 5839 Part 1 It is the responsibility of the system user to ensure it is regularly serviced and maintained in good working order. Disclaimer No responsibility can be accepted by the manufacturer or distributors of this fire alarm panel for any misinterpretation of an instruction or guidance note or for the compliance of the system as a whole. The manufacturer’s policy is one of continuous improvement and we reserve the right to make changes to product specifications at our discretion and without prior notice. E & O E. CONTENTS Page ABOUT THIS PANEL 2 PRODUCT OVERVIEW 2 CABINET DETAILS 4 CIRCUIT BOARDS 6 TECHNICAL SPECIFICATION 8 POWER SUPPLY MODULE 10 DESIGN CONSIDERATIONS 12 SYSTEM DESIGN & PLANNING 12 GENERAL WIRIING SCHEMATICS 14 INSTALLATION 16 SAFETY 16 ESD PRECAUTIONS 17 GENERAL 17 MOUNTING THE CABINET 17 MAINS CONNECTIONS 19 CONNECTING THE BATTERIES 19 SETUP & PROGRAMMING 20 INITIALISING (AUTOLEARN) 20 OPERATING 24 PANEL CONTROLS & INDICATIONS 24 USER INSTRUCTIONS 27 SERVICE & MAINTENANCE 28 THE NEED FOR MAINTENANCE 28 DUTIES OF THE RESPONSIBLE PERSON 28 ROUTINE MAINTENANCE & TESTING 28 SCHEDULE OF TESTING LOG BOOK 30 FALSE ALARMS, FAULTS & ENGINEER VISIT LOG BOOK 36 Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 1 ABOUT THIS PANEL PRODUCT OVERVIEW Fusion is a combined multi loop, up to 64 zone analogue addressable and/or conventional/Twin Wire control panel with integral power supply and space for standby batteries. Fusion panels are fully approved to European standards EN54-2 & 4, Fire Detection and Alarm Sytems - Control and Indicating Equipment. The control panel comprises a sheet steel enclosure suitable for wall mounting with a hinged, lockable front access door. It can be semi-recessed, if required, by using a suitable recessing bezel. Cable entry is via 20mm ‘knockouts’ provided in the top and rear of the cabinet. Different key types are used for the door lock and the ‘enable’ key switch, to control levels of access. A 2 x 40 character, backlit LCD is fitted to display event information, function and configuration menus. Alarm and status information is provided by LED indicators. There is a 12 button keypad which controls the system and allows access to the function and configuration options. The control panel operates with Apollo, XP95/Discovery analogue addressable protocols. The panel also supports a large range of conventional detectors including Apollo, Hochiki & Nittan. Four, configurable, conventional radial circuits plus four dedicated, conventional sounder circuits are included as standard on the main PCB. Two additional sounder circuits are provided on each modular, analogue addressable loop card. Further, configurable, conventional radial circuits can be provided by the addition of modular, 4 way radial cards, up to 64 circuits. (N.B. panels above 52 radial circuits will require a remote power supply). Each radial circuit is configurable in one of 3 possible ways. The default is for a traditional conventionally wired monitored fire detection circuit. The circuit can be set as ‘Twin Wire’ where detectors, sounders and call points can be connected to the same pair of wires. In this configuration special ‘Twin Wire’ detector bases and call points must be used. The Third possible configuration is as a monitored sounder circuit to activate fire alarm sounder devices. Each circuit is assigned to a detection ‘zone’ by default dependant on the card address. The zone number can be reassigned. Each Radial can have a 40 character location message. The radial circuits integrate seamlessly with the analogue addressable devices and programmed zones. The Radial circuits can be used as inputs or outputs to any cause and effect groups on the panel. Fusion panels are available in two different cabinet sizes. The standard cabinet unit, FBUS, can accomodate up to four additional modular, loop or radial circuit cards. The larger cabinet unit, FBUL, can accomodate up to 12 additional modular loop or radial circuit cards. N.B. Maximum number of loops = 8. The panels are provided with an internal power supply module. The standard FBUS models have a 3 amp module and the FBUL versions have a 5 amp module. These modules comply with the requirements of EN54-4 : 1998 and provide temperature compensated battery management charging and earth fault monitoring. The power supply modules have two independant, current limited, outputs for supplying power to the panel circuits. It is possible to power the panel from a remote power supply, if required, and input terminals are provided to facilitate the remote supply input and also to monitor the unit for mains and battery failure. Access to the panel functions and configuration options is at different levels, enabling restricted access to certain functions. At the user level it is possible to disable parts of the system, set the time and date, put the system into walktest mode and view the system status. Advance options include; configuration, maintenance checks and fault finding mode. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 2 ABOUT THIS PANEL The control panel incorporates a useful ‘auto-learn’ feature which enables the system analogue addressable devices to be recognised on initial power up. The sequence can be selected to only learn new devices or selected parts of the loop and, if required, can unlearn devices from the system. Full configuration of the system operation can be achieved via the panel controls or by downloading data created in a PC software program. (Download kits supplied seperately). The Fusion has networking capabilities as standard, utilising reliable CAN bus technology, with response settings to evacuate 1st alarm, 2nd alarm, precinct and fault signals, with programmable responses for loop sounders, panel sounder circuits, remote relays and loop modules. Up to 15 panels can be networked. In addition to the requirements of EN54-2 the control panel has the following facilities: Test Condition To allow the automatic resetting of zones in alarm for testing purposes. EN54-2 Section 10, option with requirements. Outputs to Fire Alarm Devices To enable an audible warning to be sounded throughout a premises upon the detection of a fire condition or the operation of a manual call point. EN54-2 Section 7.8, option with requirements. Output to Fire Alarm Routing Equipment Monitored signal for use with remote, manned stations etc. EN54-2 Section 7.9.1, option with requirements. Delays to Outputs Programmable delays to outputs can be configured. EN54-2 Section 7.11, option with requirements. Note: If delays are configured, a manual call point must be installed near the panel for the purpose of overriding the delay. Disablements of Addressable Devices EN54-2 Section 9.5, option with requirements. Fault Signals From Points EN54-2 Section 8.3, option with requirements. In addition to the requirements of EN54-2, all control panels have voltage free relay contacts for faults and fire. These are to be used for local control and signalling. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 3 ABOUT THIS PANEL STD CABINET - FBUS Front FIRE DETECTION SYSTEM 335mm 457mm Top 91mm 115mm Back 325mm 450mm Space for up to 2 x Yuasa NP12-12, 12Ah, 12v VRLA batteries Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 4 ABOUT THIS PANEL LARGE CABINET - FBUL Front FIRE DETECTION SYSTEM 759mm Top 478mm Back 111mm 135mm 750mm 465mm Space for up to 2 x Yuasa NP18-12, 18Ah, 12v VRLA batteries Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 5 ABOUT THIS PANEL CIRCUIT BOARDS Fusion panels are made up with a combination of the following main circuit boards: TPCFSB17 - Master PCB KEY 0v 0v 0v 0v SW - - - - RADIAL1 RADIAL2 RADIAL3 RADIAL4 + - + - + - + - INPUTS A E S R P CF CF R LT RS PA RE SC CAN BUS 28v 0v COMMON FLT M F A + - C NO NC B RELAY 1 C NO NC RELAY 2 C NO NC SNDR 1 SNDR 2 SNDR 3 SNDR 4 PSD PSC + - + - + - + - 28v IP1 28v IP2 + - + - S1 1 4 8 16 3 P F 6 ADJ VOL ON 1 2 2 4 5 7 CONTRAST ADJUST 1 3 7 9 MENU TPCFSB11 - Single Loop PCB LOOP OUT LOOP IN SNDR1 SNDR2 + - + - + - + - ON 1 2 H P R O T O A TPCFSB18- 4 Way Radial Circuit PCB • 1 x analogue loop RAD3 RAD4 RAD2 RAD1 + - + - + - + - ON 1 • 4 x configurable, conventional radial circuits • 2 x VFCO relay contacts S1 S1 2 3 ADD ON 1 NC NO RELAY 1 2 P 1 2 ADDR • 2 x monitored sounder circuits • 2 x VFCO relay contacts C 0 C NC NO RELAY 2 C Fusion Quick Start Guide NC NO RELAY 1 C NC NO RELAY 2 Approved Document Ref: UI-FBU-03 Issue 4.1 6 KEY 0v 0v 0v 0v SW - - - - 28v 0v COMMON FLT + - C NO NC C E RELAY 1 NO NC C RELAY 2 NO NC SNDR 1 Fusion Quick Start Guide 7 SNDR 2 SNDR 3 + - + - + - + - SNDR 4 28v input for power supply CF R LT RS RE SC CAN BUS M F A PA Network connection Common fire O/P cancels with silence alarms CF P Programmable remote O/P Common fault O/P Switched -ve inputs O/P operates on reset O/P operates on pre-alarm Common fire O/P R Precint/class change (activates sounders) INPUTS Monitoring data input for remote power supply S Remote reset Remote silence alarms Evavuate (evokes full evauate condition) A Programmable VFCO relay default = common fire Alert (pulses sounders) Configurable conventional radial circuits 0 volt for use with switched -ve inputs + - + - + - + - Conventional monitored sounder circuits RADIAL1 RADIAL2 RADIAL3 RADIAL4 Programmable VFCO relay default = common fire Commmon fault VFCO relay maintained (fail safe) 28v output fused @ 1amp input for activate controls keyswitch ABOUT THIS PANEL MAIN PCB TERMINALS Relay Coil to 28v O/P Switched -ve outputs B PSD PSC 28v IP1 28v IP2 + - + - S1 Approved Document Ref: UI-FBU-03 Issue 4.1 ABOUT THIS PANEL TECHNICAL SPECIFICATION Electrical Specification Inputs & Outputs - TPCFSB17 Suitable cable glands must be used. Cabling Fire resistant screened cable, minimum size 1mm2. Max cable length 1Km (20 Ohm). FireBurn, FP200 or equivalent (max capacitance 1uF, max inductance 1 millihenry). Terminal capacity 0.5mm2 to 2.5mm2 solid or stranded wire. KEY SW, 0v terminals Connection for activate controls keyswitch. Internal use only. Protected via 10K Ohm impedance, 5v1 zener diode. Radial 1 - 4 Configurable fire alarm circuits. Conventionally wired detection circuit, Twin Wire combined detection / sounder circuit or sounder circuit only. 4K7 Ohm 5% 0.25W EOL resistor. Monitoring current limit 50mA, fused @ 500mA. Typical max load 22 alarm devices @ 18mA each per circuit. Ensure I MAX A is not exceeded. Inputs; A, E, S, R, P Switched -ve inputs, connect to 0v to trigger. Max input voltage = 28vdc. Non latching, max resistance 100R Protected via 10K Ohm impedance, 5v1 zener diode. Outputs; CFR, CFLT, RS, PA, REM, SCF Switched -ve voltage outputs for relay control. Programmable via cause and effects. Used with common supply from 28vdc O/P. Overload voltage protected to 52vdc. Max intended load = 100mA each. Protection via 1A fuse on 28vdc output. CAN BUS (A/B) Communications Bus connection for network panels/repeaters, 5vdc. CAN BUS 2.0 special protocol. 120R termination resistor. Short circuit protected, ESD over voltage protected. +/- 8Kv 28v+, 0v- power output 28vdc supply output for fire alarm accessory relays etc. Max continuous use = 800mA Fused @ 1A. Fuse = 1A quick blow Nano Common fault relay Maintained fault relay contact. Clean C/O 30vdc 1A max. Fused @ 1A. Fuse = 1A quick blow Nano Relay 1 & 2 Programmable alarm relay contacts. Clean C/O 30vdc 1A max. Fused @ 1A. Fuse = 1A quick blow Nano SNDR 1 - 4 28vdc polarity reversal monitored sounder outputs to fire alarm devices. 4K7 Ohm 5% 0.25W EOL resistor. Monitoring current limit 28mA, fused @ 500mA. Typical max load 22 devices @ 18mA each per circuit. Ensure I MAX A is not exceeded. PSD / PSC Remote power supply clock & data 5vdc signal inputs. Protected via 10K Ohm impedance 5v1 zener diode. 28vdc IP2 & IP2 28vdc supply inputs. Diode protected for reversal and independent short circuit. Max current 10 amps. Max input current 10 amps. Input voltage 19.2vdc to 32vdc. Download adaptor connector RS232 serial port c/w 5vdc output for plug in adaptor. Use with SW-FSB25 or SWPROG adaptors only. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 8 ABOUT THIS PANEL TECHNICAL SPECIFICATION Electrical Specification Inputs & Outputs - TPCFSB11 Cabling Fire resistant screened cable, minimum size 1mm2. Max cable length 1Km (20 Ohm). FireBurn, FP200 or equivalent (max capacitance 1uF, max inductance 1 millihenry). Suitable cable glands must be used. Cabling specification is subject to loop lengths and loading. Terminal capacity 0.5mm2 to 2.5mm2 solid or stranded wire. Loop In / Out Analogue addressable loop circuit. 126 devices Apollo protocol or 127 devices Hochiki protocol, 28 - 36vdc. Max loop current = 500mA. Short circuit protection via thermal fuse, 500mA. Sounder load subject to cable resistance. SNDR 1 - 4 28vdc polarity reversal monitored sounder outputs to fire alarm devices. 4K7 Ohm 5% 0.25W EOL resistor. Monitoring current limit 28mA, fused @ 500mA. Typical max load 22 devices @ 18mA each per circuit. Ensure I MAX A is not exceeded. Relay 1 & 2 Programmable alarm relay contacts. Clean C/O 30vdc 1A max. Unprotected relay contacts. Protection via 1A fuse on 28vdc output. Recommended usage. Electrical Specification Inputs & Outputs - TPCFSB18 Cabling Fire resistant screened cable, minimum size 1mm2. Max cable length 1Km (20 Ohm). FireBurn, FP200 or equivalent (max capacitance 1uF, max inductance 1 millihenry). Suitable cable glands must be used. Terminal capacity 0.5mm2 to 2.5mm2 solid or stranded wire. Radial 1 - 4 Configurable fire alarm circuits. Conventionally wired detection circuit, Twin Wire combined detection / sounder circuit or sounder circuit only. 4K7 Ohm 5% 0.25W EOL resistor. Monitoring current limit 50mA, fused @ 500mA. Typical max load 22 alarm devices @ 18mA each per circuit. Ensure I MAX A is not exceeded. Relay 1 & 2 Programmable alarm relay contacts. Clean C/O 30vdc 1A max. Unprotected relay contacts. Protection via 1A fuse on 28vdc output. Recommended usage. General Specification Enclosure Steel IP30. Epoxy powder coated Interpon Radon, silver grey Temperature range -5 deg C to +40 deg C max RH 95% Number of fire zone LED indicators 16 (std) or 64 (optional) Maximum number of addressable loops FBUS = 4, FBUL = 8. Max 126 (Apollo) addressable points per loop Maximum conventional detection circuits FBUS = 20, FBUL = 64. (N.B. Panels above 52 radial circuits will require a remote power supply). Max loop current 500mA per loop Analogue addressable detection protocol Apollo: S90, XP95, Discovery. Conventional/Twin Wire detector compatibility Apollo: S65, Orbis. / Hochiki CDX. / Nittan EV Conventional Networking 2 wire comms, CAN 2.0 bus. Up to 15 panels. Max cable length 1Km fire resistant, screened cable PC connection Download configuration only via USB - RS232 serial conversion adaptor SWFSB25 Event log 100 fire events, 100 fault events, 100 user events Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 9 ABOUT THIS PANEL POWER SUPPLY MODULE Power Supply Specification Mains supply 230vac +10% / -15% 50Hz max current 1A Mains supply fuse (FBUS) = 4 Amp (F4A 250V) (FBUL) = 5 Amp (F5A 250V) Not accessible for servicing. Internal to switch mode power unit Internal power supply rating (FBUS) 3 Amps total including battery charging (max load Imax.a = 1.281A) Output current limited to 3A @230vac Imax.b not specified (FBUL) 5Amps total including battery charge (max load Imax.a = 1.580A) Output current limited to 5A @ 230vac Imax.b not specified Minimum current drawn by panel (examples) FBUS64-4-0 I min = 150mA FBUL64-8-7 I min = 297mA Maximum ripple 250 millivolts Supply and charger fault monitored Min/max battery size and type (FBUS) min = 2 x 3.2Ahr 12volt VRLA max = 2 x 12 Ahr 12volt VRLA. Use Yuasa NP range batteries (FBUL) min = 2 x 7Ahr 12volt VRLA max = 2 x 18 Ahr 12volt VRLA. Use Yuasa NP range batteries Battery charging voltage 27.3 vdc nominal at 20 deg C Temperature compensated Battery charging output current (FBUS) 3A PSU 1.3A max Current limited (FBUL) 5A PSU 1.85A max Current limited Battery high impedance fault (Batt Hi Z) Resistance > 0.8 Ohms 1 hour reporting time Max current drawn from batteries (FBUS) 3 Amps with main power source disconnected. Battery fuse 5A LBC 20mm. PSU limits battery current draw to 3A from outputs (FBUL ) 5 Amps with main power source disconnected. Battery fuse 7.5 A auto. PSU limits battery current draw to 5A from outputs Earth fault monitoring < 100K Ohms to 28vdc supply rail or 0vdc supply rail Monitored via earth terminal input to PSU PCB 36vdc input (FBUS) 36vdc +/- 2v input from switch mode unit. 100w max current 3.3A @36v Fused T3.15A L250v 20mm (FBUL) 36vdc +/- 2v input from switch mode unit. 150w max current 4.73A @36v. Fused T5A L250v 20mm 28vdc OP1 & OP2 (FBUS) Monitored supply outputs, short circuit & over-current protection 3.6A shared between outputs. Min Load current 20mA per OP (FBUL) Monitored supply output, short circuit & over-current protection 3.6A shared between outputs. Min Load current 20mA per OP PSD Power supply data output, serial data pulses Open collector current limited via 2K7 Ohm. Receiver pull up to 5vdc PSC Power supply clock output, serial clock pulses Open collector current limited via 2K7 Ohm. Receiver pull up to 5vdc 12vdc output 12vdc supply output, 100mA Limit 100mA thermal fuse Fault relay C/NC/NO Maintained fault relay contacts, unprotected Switching current Max 2A @ 30vdc REM FLT Internal connector for display PCB. 28vdc Open collector Unprotected not for external use. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 10 ABOUT THIS PANEL POWER SUPPLY MODULE + + NC 28V OP1 NO 28V OP1 COM BATT 12V Output connector to display PCB Fault signal contacts (labelled in active condition) +ve, 12v, 80mA supply output Data output to Fusion control panels Clock output to Fusion control panels Power supply load output 2 Power supply load output 1 28v battery charging output only. Use suitable leads, as supplied + -- + -- + -- PSC 28V OP1 28V OP2 PSD BATT + -+ - + - 3 6 ' 3 + C NO NC REM FLT 6 12V FAULT FLT 0V 28V & (ENERGISED) REM FLT FLT 0V 28V BATTERY FUSE F5A L125Vac 5A 20mm LBC PSUFUSION 3A EN54-4 POWER SUPPLY INPUT VOLTAGE [32-36V DC] INPUT CURRENT [5A] NOMINAL OUTPUT VOLTAGE [28V DC] POWER RATING [150W] { { { { SUPPLY ON MAINS FAULT NC NO COM 12V + -+ - + - PSC 28V OP1 28V OP2 PSD BATT REM FLT BATTERY FAULT FLT 0V 28V VOLTAGE FAULT EARTH FAULT OP1 LIMIT BATT 7.5 28V OP1 VOLTAGE ADJUST OP2 LIMIT + -- + -- + -- P + C NO NC REM FLT S 12V FAULT FLT 0V 28V & (ENERGISED) P S ' 28V OP1 27V4 @ 20C BATTERY START BATTERY FUSE F 7.5A 32VDC EM IP CAL B 1234 36V INPUT INPUT FUSE 5A T5A L250 Vac 5A 20mm LBC - ++ 36V DC INPUT T5A L250V 20X5MM - - + + ON 7.5A ATO (BROWN) 1 EN54-4 POWER SUPPLY 2 3 4 EMON 2 1 CAL PSUFUSION 3/5A BATTERY START INPUT VOLTAGE [32-36V DC] INPUT CURRENT [5A] NOMINAL OUTPUT VOLTAGE [28V DC] POWER RATING [150W] Internal Indications & Controls T5A L250V 20X5MM INPUT FUSE 5A T5A L250 Vac 5A 20mm LBC 3 4 - ++ 36V DC INPUT - - + + 27V4 @ 20C 36V INPUT 3 2 1 ON ON 1 EMON 2 1 CAL EMON 2 1 CAL Earth monitoring on / off (default setting is on) Calibration mode settings (default setting is off ) Calibration mode switch (default setting is on) BATTERY START BATTERY START CAL B 1234 4 2 EM IP VOLTAGE ADJUST OP2 LIMIT OP1 LIMIT EARTH FAULT VOLTAGE FAULT BATTERY FAULT MAINS FAULT SUPPLY ON 230V CAUTION!! “WARNING” FOR MAINS INPUT VOLTAGE UNDER 176V AC SWITCH ON POWER PACK BELOW MUST BE SET TO CORRECT VOLTAGE RANGE BEFORE POWER ‘ON’ 115V INPUT VOLTAGE [32-36V DC] INPUT CURRENT [5A] NOMINAL OUTPUT VOLTAGE [28V DC] POWER RATING [150W] EN54-4 POWER SUPPLY PSUFUSION 5A 7.5A ATO (BROWN) BATTERY FUSE F 7.5A 32VDC 28V OP1 28V OP2 BATT + -+ - + - PSD 3 + C NO NC REM FLT 6 12V FAULT FLT 0V 28V & (ENERGISED) PSC 3 6 ' 12V 28V OP1 COM 28V OP1 NO BATT NC + -- + -- + -- FLT 0V 28V REM FLT O/P voltage adjust (default setting 27v4 at 20oC) - 36 36 7.5 3 2 ON 1 EMON 2 1 CAL Calibration mode test pad (+ve) BATTERY START BATTERY START CAL B 1234 4 EM IP LED fault indications Battery startup button Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 11 DESIGN CONSIDERATIONS This guide is intended as an aid to designers and installers of fire detection systems. It is NOT to be used as a substitute to BS5839 which should be read in full. SYSTEM DESIGN & PLANNING What is a detection zone? In order to direct those responding to a fire alarm signal, particularly the fire service, to the area of a fire, all buildings, other than very small buildings, need to be divided into detection zones. Detection zones need to be small enough for a fire to be located quickly. • • • • If the total floor area of the building is greater than 300m2, each zone should be restricted to a single storey If the total floor area of the building is less than 300m2 a zone may cover more than a single storey For voids above or below the floor area of a room, these may be included within the same zone of the room, provided that the void and the room constitute a single fire compartment The floor area of a single zone should not exceed 2000m2. Detectors • • • • • A person searching a zone for a fire in a non- addressable fire system should not have to travel more than 60m to identify the source of a fire The sensing element of a smoke detection device should not be less than 25mm and not more than 600mm below ceiling The sensing element of a heat detector should not be less than 25mm and not more than 150mm below ceiling When mounted on a flat ceiling, smoke detection devices have an individual coverage of 7.5m radius. However these radii must overlap to ensure there are no ‘blind spots’. Therefore individual coverage can be represented by a square measuring 10.6m x 10.6m giving an actual coverage of 112m2 per device When mounted on a flat ceiling, heat detection devices have an individual coverage of 5.3m radius. However these radii must overlap to ensure there are no ‘blind spots’. Therefore individual coverage can be represented by a square measuring 7.5m x 7.5m giving an actual coverage of 56.3m2 per device. Call Points • • A person should not have to travel more than 45m along an escape route to reach a Manual Call Point (25m if disabled person to operate, or rapid fire development is likely). Manual Call Points should be sited at all stair wells and exits from the building. The frangible element of the manual call point should be positioned 1.4m (+/- 200mm) from the floor level. (Unless a wheelchair user is likely to be the first person to raise the alarm). Sounders • • • Sounder device cabling should be arranged so that in the event of a fault, at least one sounder will remain operational during a fire condition. The minimum sound level should be 65dB(A) or 5dB(A) above a background noise which is louder than 60dB(A) (if lasting more than 30 seconds) and at a frequency of between 500Hz and 1000Hz. The maximum sound level should not be greater than 120dB(A) at any normally accessible point. This may be reduced to 60dB(A) in stairways, enclosures up to 60m2 and specific points of limited extent. For areas where people are sleeping, sounder devices should produce a minimum 75dB(A) at the bed-head with all doors shut. In buildings providing sleeping accomodation for a significant number of people, all bedrooms should have both audible and visual alarms. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 12 DESIGN CONSIDERATIONS Beacons • Visual alarms such as beacons, should always be mounted at a minimum height of 2.1m from floor level. General • • • • • • Fire Alarm Control Panels should be installed at a location appropriate for staff and fire fighters All mains supply isolators must be double pole and suitably marked All joints to be fire resisting, junction boxes to be labelled ‘FIRE ALARM’. All cables to be fire resisting with a minimum cross-sectional area of 1mm2. Cable using trunking as a means of containment must be clipped using fire resistant supports WITHIN THE TRUNKING. Zone charts should be fitted in all appropriate locations (adjacent to control equipment and repeaters). CABLE TYPES & LIMITATIONS To comply with EMC (Electro Magnetic Compatibility) regulations and to reduce the risk of electrical interference in the system wiring, we recommend the use of screened cables throughout the installation. Acceptable, commonly available, screened cables, which can be used on both the sounder and detector circuits include, NoBurn™ FP200™, Firetuff™, Firecel™, MICC (Pyro™) or any other cable complying with BS 6387 categories C, W, Z.. Refer to BS 5839 pt1 clause 26 for detailed information on cables wiring and interconnections. CABLING Suitable cables should be brought into the cabinet using the knockouts provided via a suitable cable gland recommended for use with that cable. The screen or drain wire of loop circuits should be bonded to earth at one location only, and should be continuous throughout the circuit. Drain wires should be terminated in the cabinet using the 4 way brass earthing terminal block provided. CABLE LENGTHS The maximum recommended cable length for a loop or radial circuit is 1Km. This, however, is highly dependant on the number and type of devices connected. We recommend the use of the Apollo or Hochiki loop calculator tools when planning cable layouts. MAINS PROVISION The mains supply to the fire alarm panel should be hard wired, using suitable three core cable (no less than 1.0 mm² and no more than 2.5mm²) or a suitable three conductor system that meets the appropriate national wiring regulations. The panel should be fed from an isolating switched fused spur, supplied directly from the Main Distribution Board, fused at 3A. This should be secure from unauthorised operation and be marked ‘FIRE ALARM’. The mains supply must be exclusive to the fire panel. As an alternative to a switched fused spur, an appropriately fused double pole isolating device may be used providing it meets the appropriate national wiring regulations. All system wiring should be installed to meet BS5839 Pt 1 : 2002 and BS7671 (Wiring Regulations). Other national standards of installation should be used where applicable. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 13 DESIGN CONSIDERATIONS GENERAL SYSTEM SCHEMATIC Twin Wire Zone SD EOL (supplied with panel) Twin Wire Call Point Apollo Hochiki (Twin Wire base req’d) INT SD Conventionally Wired Zone HD EOL (supplied with panel) SD SD SD Apollo Hochiki Nittan Apollo Protocol SD Loop 1 Conventional Sounder Circuit Loop 2 FIRE DETECTION SYSTEM Conventional Sounder Circuit SD HD Apollo Protocol 2 core INT FIRE DETECTION SYSTEM SD EOL (supplied with panel) EOL (supplied with panel) Full networking capabilities up to 15 panels/repeaters GENERAL LOOP SCHEMATIC Isolator device Isolator device Field devices Field devices Isolator device LOOP OUT LOOP IN + - + - Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 14 DESIGN CONSIDERATIONS GENERAL RADIAL SCHEMATIC Typical Twin Wire Circuit Wiring 4K7 OHM END OF LINE RESISTOR Typical Conventional Circuit Wiring Note: On a Twin Wire circuit the sounders are connected in reverse polarity to the detectors and call points TWIN WIRE CALL POINT MCP1B-R-TW 4K7 OHM END OF LINE RESISTOR 470 _ _ + + 1 2 3 4 IN OUT L1 L1 MOTORISED BELL POLARISED Typical Sounder Circuit Wiring +VE -VE 4K7 OHM END OF LINE RESISTOR APOLLO TWIN WIRE BASE 45681-206 + R+ + R- MANUAL CALL POINT MCP1A-R-470 _ 470 +VE -VE REMOTE INDICATOR RIL58 L2 _ -R REMOTE INDICATOR RIL58 APOLLO S65 BASE 45681-201 MOTORISED BELL POLARISED _ _ + + 1 2 3 4 -VE +VE TWIN WIRE CALL POINT MCP1B-R-TW 470 MOTORISED BELL POLARISED _ _ + + 1 2 3 4 APOLLO S65 BASE 45681-201 -VE +VE -R L2 IN OUT L1 L1 APOLLO TWIN WIRE BASE 45681-206 R+ R- +VE ELECTRONIC SOUNDER POLARISED -VE +VE -VE E APOLLO S65 BASE 45681-201 -R L2 IN OUT L1 L1 ELECTRONIC SOUNDER POLARISED ELECTRONIC SOUNDER POLARISED +VE -VE Note: Radial circuit configuration is set to ‘Conventional’ by default. Twin Wire or Sounder circuit function must be set in engineering programming. +VE -VE End of Line Resistor RADIAL1 RADIAL2 RADIAL3 RADIAL4 + - + - + - + - Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 15 INSTALLATION SAFETY Suppliers of articles for use at work are required under section 6 of the Health and Safety at Work Act 1974 to ensure as reasonably as is practical that the article will be safe and without risk to health when properly used. An article is not regarded as properly used if it is used “without regard to any relevant information or advice” relating to its use made available by the supplier. It is assumed that the system, of which this control panel is a part, has been designed by a competent fire alarm system designer in accordance with BS 5839 Part 1 and with regard to BS EN 54 parts 2 and 4 in the case of control equipment and power supplies. Design drawings should be provided to clearly show the position of any field devices and ancillary equipment. This product should be installed, commissioned and maintained by, or under the supervision of, competent persons according to good engineering practice and, (i) (ii) (iii) (iv) BS 7671 (IEE wiring regulations for electrical installations) Codes of Practice Statutory requirements Any instructions specifically advised by the manufacturer According to the provisions of the Act you are therefore requested to take such steps as are necessary to ensure that any appropriate information about this product is made available by you to anyone concerned with its use. This equipment is designed to be operated from 230V AC 50/60 Hz mains supplies and is of Class I construction. As such it must be connected to a protective earthing conductor in the fixed wiring of the installation. Failure to ensure that all conductive accessible parts of this equipment are adequately bonded to the protective earth will render the equipment unsafe. This equipment must only be installed and maintained by a suitably skilled and technically competent person. ! THIS IS A PIECE OF CLASS 1 EQUIPMENT AND MUST BE EARTHED These panels are designed to comply with the requirements of EN 54 part 2 , but include integral facilities to enable connection to older systems, which may not comply with current standards. Installation of the panel should only be carried out by qualified personnel. The electronic components within the panel can be damaged by static charge. Suitable precautions must be taken when handling circuit boards. Never insert or remove boards or components, or connect cables, with the mains power on or batteries connected. Equipment Guarantee This equipment is not guaranteed unless the complete system is installed and commissioned in accordance with the laid down national standards by an approved and competent person or organisation. This product has been manufactured in conformance with the requirements of all applicable EU Council Directives Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 16 INSTALLATION ESD PRECAUTION Electronic components are vulnerable to damage by Electrostatic Discharges (ESD). An ESD wrist strap, suitably grounded, should be worn at all times when handling pcbs. These wrist straps are designed to prevent the build up of static charges, not only within a persons body, but on many other materials. ESD damage is not always evident immediately, faults can manifest themselves at anytime in the future. All pcbs should be stored in static shielded bags (silvered) for safe keeping, when not mounted in the control panel. GENERAL Care should be taken with regards to avoiding the close proximity of high voltage cables or areas likely to induce electrical interference. Earth links should be maintained on all system cables and grounded in the control panel. The detection and sounder circuit cabling is classed as extra low voltage and must be segregated away from mains voltage. • • • Any junction boxes used should be clearly labelled FIRE ALARM. Any ancillary devices, e.g. door retaining magnets, must be powered from a separate power source. Any coils or solenoids used in the system must be suppressed, to avoid damage to the control equipment. MOUNTING THE CABINET The site chosen for the location of the panel should be clean, dry and not subject to shock or vibration. Damp, salt air or environments where water ingress or extremes of temperature may affect the panel must be avoided. The temperature should be in the range -5° to +40°C, and the relative humidity should not exceed 95%. Before mounting the cabinet remove the main PCB and any additional loop or radial circuit cards. The circuit boards are all mounted on a single chassis frame and can easily be removed by unscrewing the four cross headed screws located in the corners of the chassis frame. Remove the power supply module connecting wires from the main PCB and the loop power PCB before unscrewing the chassis, taking care to note where to re-connect them. The two white wires from the activate controls keyswitch will also need to be removed from the main PCB. Secure the cabinet to the wall using the four indented holes in the back box. Ensure the box is mounted level and in a convenient location where it may be easily operated and serviced. External cables should be glanded via preformed knockouts at the top and rear of the cabinet. Remove any knockouts and ensure the cabinet is clear of swarf etc prior to refitting the PCBs. Always ensure that if a knockout is removed, the hole is filled with a good quality cable gland. Any unused knockouts must be securely blanked off. Knockouts should be removed with a sharp tap at the rim of the knockout using a flat 6mm broad bladed screwdriver. Use of excessive force will damage the enclosure around the knockout. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 17 INSTALLATION Typical panel layout Low voltage loop/radial circuit wiring Drawing shows typical internal layout of the std cabinet panel with two loop cards fitted LOOP OUT LOOP IN SNDR1 SNDR2 + - + - + - + - ON 1 RADIAL1 RADIAL2 RADIAL3 RADIAL4 + - + - + - + - INPUTS A E S R P CF CF R LT RS PA RE SC CAN BUS M F A B H P R O T O SNDR 1 + -A 28V + - ON 1 IP1 + - T2.5A 250V LBC 2 SNDR 2 SNDR 3 SNDR 4 28v IP1 28v IP2 PSD PSC + - + - + - + - + S1 1 ON 2 KEY 0v 0v 0v 0v SW - - - - SNDR2 LOOP OUT LOOP IN SNDR1 H + - + - + - + P R O T O 28v 0v COMMON FLT RELAY 1 RELAY 2 + A - C NO NC C NO NC C NO NC 2 NC NO 28V OP1 COM 28V OP1 12V BATT PSC 28V OP1 28V OP2 + -- + -- + -- PSD BATT + -+ - + - S1 3 6 ' 3 + C NO NC REM FLT 6 12V FAULT FLT 0V 28V & (ENERGISED) REM FLT FLT 0V 28V BATTERY FUSE F5A L125Vac 5A 20mm LBC PSUFUSION 3A 1 4 8 16 3 INPUT VOLTAGE [32-36V DC] INPUT CURRENT [5A] NOMINAL OUTPUT VOLTAGE [28V DC] POWER RATING [150W] EN54-4 POWER SUPPLY 2 4 SUPPLY ON 5 MAINS FAULT 6 7 2 ON 1 ADD 1 ON 2 BATTERY FAULT ADD P F ADJ VOL ON 1 2 VOLTAGE FAULT EARTH FAULT OP1 LIMIT 3 1 VOLTAGE ADJUST OP2 LIMIT 27V4 @ 20C BATTERY START CONTRAST ADJUST NC NO RELAY 1 S1 C NC NO RELAY 2 12V 12Ah VRLA Battery C NC NO RELAY 1 36V INPUT INPUT FUSE 5A T5A L250 Vac 5A 20mm LBC - ++ 36V DC INPUT T5A L250V 20X5MM - - + + ON 1 BATTERY START MENU C 9 2 3 4 EMON 2 1 CAL S1 7 EM IP CAL B 1234 0 C NC NO RELAY 2 12V 12Ah VRLA Battery Incoming mains wiring Typical circuit board assembly Drawing shows a typical circuit board assembly with two loop cards and one radial card fitted. Chassis frame fixing screws RAD4 RAD3 RAD2 RAD1 LOOP OUT LOOP IN + - + - + - + - SNDR2 + - + - + - + - ON 1 SNDR1 2 ON 1 3 2 H P R O T O A SNDR1 SNDR2 + - + - + - + - ON 1 2 H P R O T O A 28V + - IP1 + - T2.5A 250V LBC R P CF CF R LT RS PA RE SC CAN BUS 28v 0v COMMON FLT M F A + - C NO NC B RELAY 1 C RELAY 2 NO NC ON 1 C NO NC SNDR 1 SNDR 2 SNDR 3 SNDR 4 PSD PSC + - + - + - + 2 S ON E 1 INPUTS A 2 + - + - + - + - 28v IP1 28v IP2 + - + - The loop and radial cards are fitted to the frame behind the main circuit board. The loop power PCB (TPCFSB10) is factory fitted as standard. 1 3 P F 6 S1 ADJ VOL ON 1 2 S1 S1 S1 4 8 16 2 4 5 7 C NC NO RELAY 1 CONTRAST ADJUST C NC NO RELAY 2 C NC NO RELAY 1 C NC NO RELAY 2 C NC NO RELAY 1 C NC NO RELAY 2 1 3 7 9 MENU TPCFSB10 Loop Power PCB All circuit boards are mounted to a chassis frame which can be easily removed by undoing the four fixing screws. ADD RADIAL1 RADIAL2 RADIAL3 RADIAL4 ADD KEY 0v 0v 0v 0v SW - - - - 1 S1 ON 2 P 0 1 ADDR LOOP OUT LOOP IN The frame can hold up to four loop or radial cards. Large cabinet panels have space for an additional two, loop and radial card, mounting chassis frames. 0 Note: Any additional loop or radial cards that have not been supplied factory fitted will require addressing and initialising. Please refer to the full installation and commissioning manual for further details. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 18 INSTALLATION MAINS CONNECTIONS Do not connect the mains supply to the panel until you are fully conversant with the layout and features of the equipment. 27V4 @ 20C CAL B 1234 BATTERY START 36V INPUT - - + + INPUT FUSE 5A T5A L250 Vac 5A 20mm LBC ON 1 2 3 4 L N BATTERY START -V- -V + +V +V + T5A L250V 36V DC INPUT EMON 2 1 CAL A rating plate is fitted in the bottom right hand corner of the panel describing the nature of the supply permitted. EM IP 20X5MM The incoming mains supply should be brought into the panel in the bottom right hand corner, via the knockout provided. A suitable cable gland must be used to secure the outer sheath of the cable used. The earth must first be connected to the primary earth stud (peg) marked with a symbol, using the ring crimp provided. Sufficient earth lead should be left to allow Live and Neutral connections to be accidentally pulled from the terminal block while leaving the earth connection intact. Secondary earths may be connected to the brass earthing block. CONNECTING THE BATTERIES Batteries of even very small capacity are capable of delivering very high currents which can cause fire or injury, therefore battery connections should be done with caution. The panel is supplied with battery leads already connected to the battery terminals on the power supply module. These leads are coloured red for +ve and black for -ve. 3 + C NO 6 12V FAUL & (ENERG INPUT VOLTAG INPUT CURREN 2 x 12v batteries should be connected in series using the white jumper lead provided. See diagram. 7.5A ATO (BROWN) PSUFUSION 5A 3 6 ' 28V OP1 28V OP1 28V OP2 BATT + -+ - + - PSD 28V OP1 PSC BATT 12V BATTERY FUSE F 7.5A 32VDC COM + -- + -- + -- NO To optimise the service life of the batteries, the battery charger output voltage varies with temperature. 7.5 -ve +ve 12v SLA Battery N.B. In the event of mains failure, the battery charger circuit will protect the batteries from full discharge by disconnecting them when they reach below 19v. When the mains supply is restored the batteries will be automatically reconnected. 12v SLA Battery OP1 LIMIT VOLTAGE ADJUST OP2 LIMIT 27V4 @ 20C BATTERY START EM IP CAL B 1234 36V INPUT - - + + INPUT FUSE 5A T5A L250 Vac 5A 20mm LBC - ++ 36V DC INPUT T5A L250V 20X5MM ON 1 To power up the panel without a mains supply, connect the batteries as shown above and press the battery startup button on the power supply module. BATTERY START EM IP CAL B 1234 2 3 4 EMON 2 1 CAL BATTERY START 3 - ON 1 Fusion Quick Start Guide 2 3 4 EMON 2 1 CAL BATTERY START 3 Approved Document Ref: UI-FBU-03 Issue 4.1 19 SETUP & PROGRAMMING INITIALISING The following section is a quick guide for initialising the control panel and running the auto-learn facility for analogue addressable devices. The auto-learn is a useful feature when the system needs to be up and running prior to any programming being applied. Once auto-learn has been run, the data can be uploaded to the Fusion configuration software which can save a lot of time and keystrokes when programming. For full details on commissioning and programming please refer to the full Installation, Commissioning and Operating manuals whch can be downloaded from www.haes-systems.co.uk. It is also highly recommended that you attend one of our training courses before attempting to commission a Fusion analogue addressable system. Note - this guide assumes the following have been carried out : • • • Loop cables are installed correctly and are clear of any earth faults. All loop devices are installed and addressed correctly as required. Panel is correctly mounted and mains 230vac supply is available. STEP 1 - Initial Power Up Before connecting any of the loop cables and with all the loop terminal links still in the panel, connect the mains 230v ac supply and the batteries to the panel as per instructions in the INSTALLATION section. The panel will power up and the fault buzzer will bleep momentarily, the ‘Supply Present’ LED will stay illuminated while the LCD display will show as below. FUSION PANEL * SYSTEM INITIALISING * After a short delay of approximately two minutes the panel LCD will display message as below. SYSTEM NORMAL FUSION PANEL WED 15:56 27/07/11 Turn the ‘ACTIVATE CONTROLS’ key-switch to the ‘ON’ position and press the RESET button. DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS All LEDs will illuminate momentarily. Any faults displayed at this stage should be rectified before proceding. Please call our Technical Support department if required. MENU MENU 0 CONTROL PANEL RESET STEP 2 - Connect the Cables Disconnect the mains supply and the batteries to power down the panel completely. Remove the loop terminal links, connnect the loop circuit, and then power up the panel as described above. We stongly recommend that loops are connected and auto-learned one at a time. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 20 SETUP & PROGRAMMING After a few minutes the panel will start to detect any addressable devices attached to the loop cables and will display the following typical message: 0008 UNASSIGNED DEVICES PRESS [1] FOR DETAILS 02 OF 02 Note - the first four figures on the LCD display indicate the amount of addressable devices found by the panel. This figure should coincide with the number of devices actually installed. Any differences at this stage should be corrected before moving on to the next section. STEP 3 - Auto-Learn Procedure The ‘auto-learn’ procedure will allow the panel to detect and self program all addressable devices into its memory. Once complete all detectors, call points, sounders and outputs will operate as normal, if activated. All devices will be placed in zone 1 until full configuration programming has been applied. Start by pressing the MENU button on the keypad DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS MENU MENU CONTROL PANEL RESET 0 The LCD will display a message as shown below: * SELECT MENU OPTION * 1. VIEW ACTIVE FAULTS Press the ARROW DOWN button [8] until menu option 12 is shown DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS The LCD will display as shown below: MENU MENU CONTROL PANEL RESET 0 * SELECT MENU OPTION * 12. ENTER ACCESS LEVEL 3 Press the ENTER button [5] DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS The LCD will ask for a 4 digit code as shown below: MENU MENU 0 CONTROL PANEL RESET * ENTER ACCESS LEVEL 3 CODE * 0000 Enter the engineers code 1-9-5-0, using the corresponding buttons on the keypad. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 21 SETUP & PROGRAMMING Once the [0] button has been pushed the LCD will display as per below: * SELECT ENGINEER OPTION * 5. MONITOR DEVICE RESPONSE At this point it is necessary to turn on the programming switch on the main PCB. This is the DIL switch marked ‘P’ which can be found in the centre left of the main circuit board (near the LCD) 1 2 2 4 3 8 4 16 5 P 6 F ON 1 7 Swith P (6) to ON position DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS With the programming switches ON it is now possible to gain access to engineers options, 1, 2, 3 & 4. Press the ARROW UP button [2] on the keypad until the LCD displays mesage as shown below: MENU MENU CONTROL PANEL RESET 0 * SELECT ENGINEER OPTION * 1. AUTO LEARN LOOP DEVICES Now press the ENTER button [5]. The panel will scan and auto-learn the addressable devices on loop 1. If the system consists of more than one loop you will be prompted to enter the loop number before proceeding. After the inital auto-learn scan the LCD will display three options as shown below: Use the ARROW UP [2] and ARROW DOWN [8] buttons to toggle between the options. DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS MENU 1 * SELECT ENGINEER OPTION * OVERWRITE ALL DEVICES FOUND 2 * SELECT ENGINEER OPTION * UPDATE NEW/REMOVED DEVICES ONLY • • MENU 0 CONTROL PANEL RESET Option 1 will overwrite all the devices in the memory to zone 1. Option 2 only updates added or removed devices without affecting existing programming. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 22 SETUP & PROGRAMMING With the chosen option selected, press the ENTER button [5]. DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS The LCD will typically display as shown below: MENU MENU 0 CONTROL PANEL RESET 0008 DEVICES FOUND EDIT NEW DEVICES YES NO The LCD display now reports the amount of devices found on the selected loop. Choosing ‘YES’ at this point enables manual editing of devices for zone number and text etc. This process can be time consuming and so we recommend it is only used for small systems. Selecting ‘NO’ will default all the devices to zone 1 and is the faster option. Use the ARROW LEFT [2] and ARROW RIGHT [6] buttons to select and then press the ENTER button [5] to proceed. The LCD will typically display as shown below: ADD 001 TYPE ION ZONE 01 GROUPS ** The display is now showing the first addressable device it has found on the loop, starting with the lowest address first. You can scroll through all the devices found by using the ARROW UP [2] and ARROW DOWN [8] buttons. Any missing devices can be investigated at this point and corrected as needed. After correcting any missing addresses the auto-learn procedure can be re-run by using the MENU button and following the procedure as described above. When finished with the auto-learn function press the MENU button twice to exit the programming mode. The display will show a warning that the programming switch is still ON. PROGRAMMING SWITCH(ES) ON 01 OF 01 WED 15:56 27/07/11 Return the programming DIL switch (P) on the main circuit board back to the OFF position. The panel will save any updated information and the display should return to normal mode as shown below: SYSTEM NORMAL FUSION PANEL WED 15:56 27/07/11 Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 23 OPERATING PANEL CONTROLS & INDICATIONS LCD Display FIRE DETECTION SYSTEM Zonal Fire Indicator LEDs Keypad Activate Controls Keyswitch Door Lock Activate Controls In normal mode the keypad controls are inactive to protect from unauthorised operation. Controls can be activated by turning the ‘Activate Controls’ keyswitch to the ‘ON’ position or by entering a four digit code, 5-8-3-9, using the keypad. The use of the code entry to activate controls is on by default but can be disabled in the engineering functions. Code entry activation will automatically time out after 2 minutes and the panel will return to normal. Limited MENU options are available for viewing status information without the need to ‘activate controls’. If the keyswitch is in the ‘ON’ position then the keypad becomes fully functional. NOTE : It is not possible to remove the key in the ‘ON’ position. Door Lock This allows authorised engineering personnel access to the inside of the control unit. WARNING : The power to the control panel should be isolated before gaining access. The voltages are high enough to cause severe injury. Keypad DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS MENU MENU 0 CONTROL PANEL RESET [1.] Press for more information about an active device [2.] Scroll up [3.] Generate full alarm (evacuate). Override active delay (if a delay is running) [4.] Scroll left [5.] Select to view option or ENTER [6.] Scroll right [7.] Mute internal fire/fault buzzer [8.] Scroll down [9.] Toggle: Silence/re-sound alarm. Halt/restart active delay (if a delay is running) [0 ] MENU Access to menu functions [ ] (Bottom right) Control panel reset Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 24 OPERATING LED Indicators TEST MODE GENERAL DISABLEMENT SUPPLY PRESENT FIRE GENERAL FAULT PREDELAYED ALARM SNDR FIRE ALARM ROUTING FAULT/ OUTPUT DISABLED DISABLED ACTIVE /FAULTY SYSTEM FAULT MORE EVENTS POWER FAULT FIRE Indicates the presence of a fire alarm signal or an evacuate command. Flashes red when there is a fire and goes steady when alarm is silenced. Subsequent alarms will re-start the flashing. TEST MODE Indicates the system is in the engineers test mode. GENERAL DISABLEMENT Indicates that part of the system has been disabled (isolated). SUPPLY PRESENT Indicates that the mains or battery supply is present. GENERAL FAULT Indicates that a fault is present on the system. The LCD will display the details. PRE-ALARM Indicates that a detector has recorded a higher than normal analogue value which could signal an impending fire condition. DELAYED Lit when one or more output delays have been programmed. Flashes when one or more output delays are running. SNDR FAULT/DISABLED Indicates a fault on the alarm system sounder circuit. Sounder devices/circuits may be faulty or disabled. FIRE ALARM ROUTING OUTPUT ACTIVE Indicates that the (remote output) signal has been activated. FIRE ALARM ROUTING OUTPUT DISABLED/FAULTY Indicates that the (remote output) signal has been isolated for maintenance or testing or is faulty, open or short circuit. SYSTEM FAULT Indicates that the processor has halted. This can only be reset by an engineer. The lamp will remain on even if the system has automatically re-started. MORE EVENTS Indicates that there are more events. Scroll to view them. POWER FAULT Indicates power supply failures. The LCD will display details Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 25 OPERATING LCD Display The LCD displays event information, status information, and the option menus. It has two lines of text, each with 40 characters , and is backlit when there is an active event on the system or the menu options are accessed. In the normal operating mode the backlight is dim and the top line displays a default text message or user-defined text. The second line displays the current time and date, e.g. SYSTEM NORMAL FUSION PANEL WED 15:56 27/07/11 When an event occurs, the backlight is activated and the LCD displays the event details, e.g. FIRE PANEL 01 ZONE 003 STAFF ROOM 01 OF 01 The display shows the event type, i.e. Fire, the zone that the activated device is in, i.e. zone 3, the number of events and event number, i.e. 01 of 01 and the device location text Pressing button [1] reveals further device information such as type, i.e manual call point, address number and time and date of the event. This button will function without the need to activate controls. DEVICE INFO 1 3 EVACUATE NOTE : Fault conditions on the system are suppressed when Fire events are present, except sounder or remote faults. The GENERAL FAULT LED is illuminated and faults can be viewed if required via the ‘View Active Faults’ option - when button [1] is pressed. MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS MENU MENU 0 CONTROL PANEL RESET In the normal operating mode only the green Supply Present LED should be illuminated. The LCD should be displaying the company name (if programmed) and the current time and date. Other messages that may be displayed on the LCD during normal operation are: CONTROLS ACTIVE If the keyswitch is in the ON position or the activate code has been entered on the keypad. The code entry activation will time out after two minutes and the panel will return to normal mode. DELAYED Is displayed if any output delays have been programmed. GENERAL DISABLEMENTS Is displayed if any zones or devices have been disabled or isolated. Details of disablements can be viewed in MENU item: View Active Disablements. TEST MODE Will show if the engineers test mode has been set to areas on the system. Test mode should only be used by authorised personnel. PRECINCT ACTIVE Remote input to sound alarms is active. ALERT ACTIVE Remote input to pulse alarms is active. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 26 OPERATING USER INSTRUCTIONS If an alarm condition is present YOU MUST FOLLOW YOUR NORMAL FIRE DRILL PROCEDURES. A responsible person should then:1. Check the control panel to see which area or zone has caused the system to go into alarm. This will be indicated by a red LED and the LCD display on the front of the control panel. 2. Go to the area which has caused the alarm to check if a fire exists. 3. Only when it is safe to do so should the alarms be silenced. Turn the “activate controls” keyswitch to the ON position (fig.1). The LCD display will change to show that the controls are now active. Now press SILENCE/RESOUND ALARMS, (fig.2). Pressing this button again will cause the alarms to resound. 4. In the event of a false alarm look for the device that has caused the alarm. A detector will have a red LED lit, or check to see if a call point glass is broken (if so replace the glass or call an engineer). If using addressable devices the LCD display on the control panel will indicate the exact location and address number of the device. 5. When fully satisfied that there is no fire, return to the control panel and press the RESET button, (fig 3). The panel display should return to normal and only the green SUPPLY PRESENT lamp should be lit on the control panel. DEVICE INFO 1 3 EVACUATE DEVICE INFO 1 3 EVACUATE MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS MUTE BUZZER 7 9 SILENCE/ RESOUND ALARMS CONTROL PANEL RESET MENU OFF ON MENU MENU 0 Insert key and turn switch to ON position fig. 1 fig. 2 MENU 0 CONTROL PANEL RESET fig. 3 If the system continues to false alarm, call an engineer Fault Condition If a buzzer is sounding in the control panel but the sounders or bells are not ringing, then there is either a fault on the system, or zones / sounders have been disabled. CALL AN ENGINEER The internal fault buzzer can be silenced by pressing MUTE BUZZER (button 7 on the keypad). DO NOT RESET THE SYSTEM UNTIL AN ENGINEER HAS INVESTIGATED THE FAULT. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 27 SERVICE & MAINTENANCE The following section is a summary of the requirements in BS5839 Part 1 For comprehensive information a copy of BS5839 Part 1 can be purchased from the British Standards Institution via their web site at www.bsi-global.com. THE NEED FOR MAINTENANCE Your Fire Alarm System is working 24 hours a day, 365 days a year. The detectors and control & indicating panel are operating continuously and the fire alarm circuits are constantly monitored. Legislation such as the Regulatory Reform (Fire Safety) Order 2005 and other legislation protecting both employees and the public require premises operators to conform with standards for Fire Alarm Systems. It is a requirement of BS 5839 Part 1 that the system is subject to periodic inspection and servicing so that faults are identified, preventive measures can be taken to ensure the continued reliability of the system, false alarm problems are identified and suitably addressed, and the user is made aware of any changes to the building that affect the protection afforded by the system. The inspection and servicing recommendations in this clause should be carried out by a competent person. A ‘Competent Person’ is a person or fire alarm servicing organisation with specialist knowledge of fire detection and fire alarm systems, including knowledge of the causes of false alarms, sufficient information regarding the system, and adequate access to spares. The period between successive inspection and servicing visits should be based upon a risk assessment, taking into account the type of system installed, the environment in which it operates and other factors that may affect the long term operation of the system. The recommended period between successive inspection and servicing visits should not exceed six months. If this recommendation is not implemented, it should be considered that the system is no longer compliant with this part of BS 5839 DUTIES OF THE RESPONSIBLE PERSON The system user needs to appoint a single, named member of the premises management to supervise all matters pertaining to the fire detection and fire alarm system. The role of this person is to ensure that the system is tested and maintained in accordance with the recommendations of BS 5839 Part 1, that appropriate records are kept and that relevant occupants in the protected premises are aware of their roles and responsibilities in connection with the fire detection and fire alarm system. This person also needs to ensure that necessary steps are taken to avoid situations that are detrimental to the standard of protection afforded by the system and to ensure that the level of false alarms is minimized. ROUTINE MAINTENANCE & TESTING DAILY The ‘Responsible Person’ should check the control panel to make sure no faults or pre-alarm conditions are indicated and that the green ‘Supply Healthy’ lamp is lit. WEEKLY The Fire Alarm System should be tested on a weekly basis as recommended in BS5839 Part 1 clause 44.2. Every week a manual call point should be operated during normal working hours. The weekly test should be carried out at approximately the same time each week. Instructions to the occupants should be that they report any instance of poor audibility of the fire alarm signal. A different manual call point should be used at the time of every weekly test so that all manual call points in the building are tested in rotation over a prolonged period. The result of the weekly test and the identity or location of the manual call point used should be recorded in the system log book. Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 28 SERVICE & MAINTENANCE WEEKLY TEST The call point test key should be inserted firmly and deliberately into the bottom of the manual call point. Once activated it may be necessary to wait up to four seconds before the alarms sound. Your manual call points may not be the same as the ones described above. If not please refer to your service and maintenance company for instructions. Note: Before testing the fire alarm system it may be necessary to isolate ancillary outputs. It is essential that any alarm receiving centre is contacted immediately before and immediately after, the weekly test to ensure that unwanted alarms are avoided and that fire alarm signals are correctly received at the alarm receiving centre. PERIODIC INSPECTION & SERVICING Inspection & servicing should only be carried out by a ‘Competent Person’ who has sufficient knowledge to check the whole system. This would normally be a qualified electrical contractor or fire alarm specialist. Inspection & servicing visits are normally conducted on a quarterly basis unless such factors as a dirty environment warrant servicing on a more regular basis. The maximum period between inspections must not exceed six months. Recommendations of BS5839-1 for periodic service visits include: • • • • • Every device on the system should be tested annually. The testing of each device can be split between periodic visits but with a minimum of one detector or call point tested on each circuit, per visit. On each visit the ‘Competent Person’ should check the record of false alarms. Any persistent occurrence should be investigated and corrective action taken as appropriate. Battery and connections should be examined and load tested to check serviceable condition and that they are not likely to fail before the next service visit. All other devices and control & indicating equipment should be checked for correct operation and any faults should be recorded and rectified. Details of the service visit must be recorded in the log book EVERY FOUR YEARS Renew the sealed lead acid batteries and record the fact in the log book Fusion Quick Start Guide Approved Document Ref: UI-FBU-03 Issue 4.1 29 SCHEDULE OF TESTING This Section To Be Used To Record ALL Weekly Tests Of The Fire Alarm System DDATE & TIME OF TEST DEVICE TESTED & LOCATION COMMENTS (IF ANY) Fusion Quick Start Guide INITIALS OF TESTER Approved Document Ref: UI-FBU-03 Issue 4.1 30 SCHEDULE OF TESTING This Section To Be Used To Record ALL Weekly Tests Of The Fire Alarm System DDATE & TIME OF TEST DEVICE TESTED & LOCATION COMMENTS (IF ANY) Fusion Quick Start Guide INITIALS OF TESTER Approved Document Ref: UI-FBU-03 Issue 4.1 31 SCHEDULE OF TESTING This Section To Be Used To Record ALL Weekly Tests Of The Fire Alarm System DDATE & TIME OF TEST DEVICE TESTED & LOCATION COMMENTS (IF ANY) Fusion Quick Start Guide INITIALS OF TESTER Approved Document Ref: UI-FBU-03 Issue 4.1 32 SCHEDULE OF TESTING This Section To Be Used To Record ALL Weekly Tests Of The Fire Alarm System DDATE & TIME OF TEST DEVICE TESTED & LOCATION COMMENTS (IF ANY) Fusion Quick Start Guide INITIALS OF TESTER Approved Document Ref: UI-FBU-03 Issue 4.1 33 SCHEDULE OF TESTING This Section To Be Used To Record ALL Weekly Tests Of The Fire Alarm System DDATE & TIME OF TEST DEVICE TESTED & LOCATION COMMENTS (IF ANY) Fusion Quick Start Guide INITIALS OF TESTER Approved Document Ref: UI-FBU-03 Issue 4.1 34 SCHEDULE OF TESTING This Section To Be Used To Record ALL Weekly Tests Of The Fire Alarm System DDATE & TIME OF TEST DEVICE TESTED & LOCATION COMMENTS (IF ANY) Fusion Quick Start Guide INITIALS OF TESTER Approved Document Ref: UI-FBU-03 Issue 4.1 35 FALSE ALARMS, FAULTS & ENGINEERS VISITS Fault/Reason For Call-Out Action Taken Date Fusion Quick Start Guide Work Completed Engineer’s Details Approved Document Ref: UI-FBU-03 Issue 4.1 36 FALSE ALARMS, FAULTS & ENGINEERS VISITS Fault/Reason For Call-Out Action Taken Date Fusion Quick Start Guide Work Completed Engineer’s Details Approved Document Ref: UI-FBU-03 Issue 4.1 37 www.haes-systems.com ">

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