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| f3200/ndu as4428.1 installation & configuration manual f3200 product manual document number: lt0255 issue .......... 1.04; 30 june 2004 -- a p p r o v a l s -- australian standard as4428.1 - ssl listing number .....................???????????????????..afp789 australian standard as3548 1995 class a new zealand standard nzs4512 1997 the f3200 and ndu is manufactured by: tyco safety products 211 maces road christchurch new zealand tel: (03) 389-5096 fax: (03) 389-5938 copyright (c) 2001, 2004 information contained in this document is subject to copyright, and shall not be reproduced in any form whatsoever, without the wri tten consent of tyco safety products. information contained in this document is believed to be accurate and reliable, however tyco safety products reserves the right to change the content without prior notice.
f3200/ndu as4428.1 installation manual document no: lt0255 page ii 30 june 2004 issue 1.04 tyco safety products end user liability disclaimer the f3200 fire indicator panel and ndu have a configuration programming facility which may be accessed from the keypad by using a password. this programming facility allows the user to define detail of the operation of the system is being customised. it is possible for the user to program operational features that prevent the unit from meeting statutory requirements. tyco safety products does not accept responsibility for the suitability of the functions programmed by the user. as3548 note this is a class a product. in a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures. document no: lt0255 f3200/ndu as4428.1 installation manual issue 1.04 30 june 2004 page iii table of contents end user liability disclaimer ................................................................................................. i i amendments .................................................................................................................... ... vi chapter 1 in troduct ion ...............................................................................1-1 1.1 scope.......................................................................................................................... .......... 1-2 1.2 associated documentation........................................................................................ 1-3 1.3 product history log..................................................................................................... 1-4 1.4 glossary of ab breviations ....................................................................................... 1-5 1.5 glossary of te rminology .......................................................................................... 1-6 chapter 2 system descript ion...................................................................2-1 2.1 overview ....................................................................................................................... ...... 2-2 2.2 physical structure....................................................................................................... 2-6 2.3 system structure .......................................................................................................... 2-8 chapter 3 system specificat ions .............................................................3-1 3.1 general........................................................................................................................ ....... 3-2 3.2 mechanical specifications......................................................................................... 3-3 3.3 electrical specifications .......................................................................................... 3-4 3.4 input specifications ...................................................................................................... 3-8 3.5 output specif ications ................................................................................................ 3-15 3.6 controls ....................................................................................................................... ... 3-19 3.7 displays ....................................................................................................................... ..... 3-20 3.8 ordering information ................................................................................................ 3-21 chapter 4 config uring a fip .......................................................................4-1 4.1 general........................................................................................................................ ....... 4-2 4.2 module configuration ................................................................................................. 4-2 4.3 battery & power supply.............................................................................................. 4-3 4.4 links on pcb modules ................................................................................................... 4-9 chapter 5 installa tion & wi ring...............................................................5-1 5.1 installation ................................................................................................................... ... 5-2 5.2 field wiring................................................................................................................... ..... 5-8 5.3 azc wiring..................................................................................................................... .... 5-10 5.4 maf ancillary re lay wiri ng ..................................................................................... 5-12 5.5 warning system wiring .............................................................................................. 5-15 5.6 module relay wiring ................................................................................................... 5-20 5.7 open collector wiring .............................................................................................. 5-22 5.8 ase installation and wiri ng .................................................................................... 5-24 5.9 rdu wiring ..................................................................................................................... ... 5-25 5.10 ndu installation and wiring.................................................................................... 5-27 5.11 nz mode inputs and outputs .................................................................................... 5-28 5.12 installation : nz display extender board & brigade displays 5-30 chapter 6 appl ications ................................................................................6-1 6.1 as1668 air conditioni ng control ............................................................................. 6-2 6.2 gaseous fire exti nguishing ....................................................................................... 6-9 6.3 sub fip moni toring ........................................................................................................ 6-22 6.4 fire detection in hazardous areas (explosive atmospheres)............. 6-24 6.5 use of normally cl osed contacts ...................................................................... 6-33 6.6 special connections to detector s...................................................................... 6-34 f3200/ndu as4428.1 installation manual document no: lt0255 page iv 30 june 2004 issue 1.04 chapter 7 alignment, adjustment & placing into operation.......7-1 7.1 alignment & ad justment.............................................................................................. 7-2 7.2 placing into operation ................................................................................................ 7-3 7.3 error messages for startup ................................................................................... 7-7 appendix a compatible actuating devices (detectors) ...................... a-1 document no: lt0255 f3200/ndu as4428.1 installation manual issue 1.04 30 june 2004 page v amendments issue date comments ecn 1.0 07/02/01 original. split from lt0122 and modified for as4428.1 1.01 02/07/01 pages 5-20, 6-21, 6-23, 6-25 and appendices a-1, a-2 revised. 3190 1.02 15/08/01 chapter 5 installation revised and section 6.2 gas flood revised. added section 5.12, section 3.3.5.2. 3154 1.04 30/06/04 preface, pages 5-6, 5-15, 5-16, 5-19, section 6.2 and appendix a revised 3322 document no: lt0255 f3200/ndu as4428.1 installation manual introduction issue 1.04 30 june 2004 page 1-1 chapter 1 introduction f3200/ndu as4428.1 installation manual document no: lt0255 introduction page 1-2 30 june 2004 issue 1.04 1.1 scope this manual provides information for the personnel responsible for planning, ordering, installing and configuring an f3200 fire alarm sy stem or an ndu. it is assumed that such staff have been trained to plan/install fire alarm equipment and are familiar with the relevant standards. the manual is divided into the following chapters: chapter 1 introduction: information on this and other manuals. chapter 2 system description: a description of the structure of the f3200 fip. chapter 3 specifications: a detailed specification and list of part numbers for the f3200. chapter 4 configuring a fip: information on configuring a system, in particular battery and charger calculations. chapter 5 installation & wiring: detail of installation and field wiring. chapter 6 applications: detail of configuration and wiring for specific applications. chapter 7 alignment, adjustment & placing into operation: detail on how to adjust an f3200 in the field and place it into operation. appendix a 1. compatible detectors: a list of detectors which are approved for use with f3200. 2. detector configuration: detail on azc and zone configuration for specific detector types. document no: lt0255 f3200/ndu as4428.1 installation manual introduction issue 1.04 30 june 2004 page 1-3 1.2 associated documentation 1.2.1 product the following manuals for the as4428.1-approved f3200 are available: f3200 as4428.1 operator's manual for panels that comply with as4428.1 lt0251 is in a4, loose leaf form. lt0250 is in a5, bound form. f3200 technical manual provides technical information for system designers and service staff. part number lt0121. f3200 as4428.1 installation & this manual. provides information for configuration manual personnel responsible for system design, installation and commissioning. part number lt0255. f3200 as4428.1 programming manual provides information for programming an f3200 and ndu. part number lt0256. 1.2.2 standards related this manual makes reference to the following australian and combined standards: as1603.4 automatic fire detection and alarm systems (obsolete) part 1 - control and indicating equipment. as4428.1 automatic fire detection and alarm systems part 1 - control and indicating equipment. as/nz1668.1 the use of ventilation and air-conditioning in buildings. part 1 - fire and smoke control in multi-compartment buildings. as1670.1 automatic fire detection and alarm systems- system design, installation and commissioning. as1851.8 maintenance of fire protection equipment part 8 - automatic fire detection and alarm systems. as/nz3548 radio interference characteristics. as4214 gaseous fire extinguishing systems. this manual makes reference to the following new zealand standards. nzs4512 automatic fire alarm systems in buildings. f3200/ndu as4428.1 installation manual document no: lt0255 introduction page 1-4 30 june 2004 issue 1.04 1.3 product history log 1.3.1 hardware part no. description iss rev date comments pa0492 8 zone module a 1 27/09/93 original a 2 24/04/99 c31-38 pa0493 8 relay module a 1 10/09/93 original a 2 22/09/99 c17, c18 pa0773 rs485 comms bd c 4 10/04/01 component changes pa0870 controller/display a 1 30/01/01 original b 2 nov. 2001 board changed, now supports flash b 3 oct. 2002 minor change b 4 feb. 2003 circuit correction b 5 april 2003 dfm applied pa0873 maf/psu 3a d 9 20/04/01 original as4428.1 version pa0874 maf/psu 6a d 9 20/04/01 original as4428.1 version 1.3.2 software part no. description revision date comments sf0221 f3200 as4428 v3.00 feb 2001 sf0222 f3200 as4428 net v3.00 feb 2001 sf0224 ndu as4428 v3.00 feb 2001 sf0286 f3200/ndu as4428 v4.00 march 2003 used in standard f3200, networked f3200, and ndus that have an issue b or higher 1931-111 controller. sf0286 f3200/ndu as4428 v4.01 june 2003 fixes a problem with isolated zones. sf0286 f3200/ndu as4428 v4.02 july 2003 stops charger led flashing during battery test. document no: lt0255 f3200/ndu as4428.1 installation manual introduction issue 1.04 30 june 2004 page 1-5 1.4 glossary of abbreviations the following abbreviations are used throughout this manual: a/c : air conditioning ac : alternating current aeol : active end of line ahr : ampere hour anc 1 : ancillary relay 1 ase : alarm signalling equipment azc : alarm zone circuit, or detection zone azf : alarm zone facility, or group (as1603.4 terminology) avf : alarm verification facility, or check alarm bd : board cie : control & indicating equipment char : character cct : circuit com : common relay contact dc : direct current eb : external bell eeprom : electrically erasable programmable read only memory elv : extra low voltage eol : end of line (device) eolr : end of line resistor expn : expansion e2 : electrically erasable programmable read only memory ff : firefighter facility (part of display/keyboard) fip : fire indicator panel frc : flat ribbon cable i/o : input/output lcd : liquid crystal display led : light emitting diode maf : master alarm facility max : maximum min : minimum mcp : manual call point (break glass switch) mov : metal oxide varistor (used for electrical surge protection) msec : millisecond nc : normally closed ndu : network display unit no : normally open no : number nom : nominal pc : personal computer (small computer) pcb : printed circuit board psu : power supply unit ptc : positive temperature co-efficient (thermistor) r1 : module relay number 1 (program abbreviation) rl1 : module relay number 1 (text abbreviation) rad : return air duct (air conditioning plant) rdu : remote display unit rms : root mean square reqd : required rtc : real time clock sad : supply air duct (air conditioning plant) sid : system identification number (network device) sq mm : square millimetre f3200/ndu as4428.1 installation manual document no: lt0255 introduction page 1-6 30 june 2004 issue 1.04 glossary of abbreviations (continued) t1 : programmable timer number 1 (program abbreviation) tmnl : terminal v1 : programmable variable number 1 va : volts amperes vb : battery backed voltage vnb : non battery backed voltage +vbf : fused battery-backed voltage +vnbf : fused non-battery-backed voltage ws : warning system z1 : zone number 1 (program abbreviation) zn1 : zone number 1 (text abbreviation) 8rm : 8 relay module 8zm : 8 zone module 1.5 glossary of terminology the following terminology is used throughout this manual: ancillary equipment : equipment external to fire alarm system ancillary relay : relay to switch external equipment auxiliary output : output for driving additional leds/relays baud : bits per second control output : output from fip to other equipment default : pre-programming option or logic equation i.e. one that exists without the user configuring or programming it. detector : alarm detection device (electrical transducer) in situ test : mode allowing one person to test detectors monitoring service : fire brigade authority, or any other authority which receives the fip alarm signals. mapping : programmable causal relationship between inputs and outputs zone : fire searchable area of building represented by a unique number and name in the fip, and associated with the azc of the same number. document no: lt0255 f3200/ndu as4428.1 installation manual system description issue 1.04 30 june 2004 page 2-1 chapter 2 system description f3200/ndu as4428.1 installation manual document no: lt0255 system description page 2-2 30 june 2004 issue 1.04 2.1 overview 2.1.1 general the f3200 is a self-contained, modular, intelligent fire indicator panel (fip) which performs the functions of the control and indicating equipment (cie) as specified by the australian standard as4428.1. it has a high degree of flexibility and expandability, catering for medium to very large buildings from 8 zones or less, to 64 zones maximum. refer to the constraints specified in section 3.1.3. more panels and zones can be added through the use of the panel-link network and the appropriate networkable f3200s. an ndu (network display unit) is essentia lly a networked f3200 that doesn?t have any alarm zone or relay modules, but displays information received from other fips on the network. a number of versions are available. some in larger cabinets have their own maf/psu and battery, while other slim-line versions have just the operator display (and controller) and require power from a fip (or similarly monitored and battery backed source). an ndu may be programmed to operate in either australian (default) or new zealand mode. 2.1.2 detector circuits the f3200 detector interface electronics caters for a wide range of detectors, including various types which have high alarm current requirements. a full range of compatible detectors is listed in appendix a. f3200 also caters for interfacing to: intrinsically safe circuit barriers/isolators (hazardous areas); long line circuits e.g. from a sub-indicator fip; tamper-proof circuits e.g. for water valve supervision. 2.1.3 displays the primary display of the f3200 is a 2 line by 40 character lcd on which the status messages and prompts are shown. the lcd has backlight illumination which is turned on when there is an alarm or operator interaction. common conditions are displayed on 9 leds adjacent to the lcd. the display panel composed of the lcd, common leds and keypad is called the operator display panel. the portion within the red border is called the firefighter's facility (ff). it includes the common status leds for alarm, isolated and fault. as an optional extra, individual zone status (alarm, isol ate and fault) can be displayed on leds by fitting the appropriate number of 16 zone led display boards. by default zone 1 corresponds to the top row of leds (3) on the left most display, zone 2 to the row below it, etc, (top to bottom, left to right). display bds may also annunciate relay status. alarm led on = relay energised, isolated led on = relay isolated, fault led on = relay wiring fault (i.e. supervision fault). the relay leds simply follow the zone leds in the same order that they occur in the fip. for example, a system with 3 x 8 zone modules, 2 x 8 relay modules, would require 3 display bds. relay 1 will be annunciated on the 25th row of leds and the last 8 rows will be unused. mapping zones and relays to leds in other patterns is programmable. the f3200 electronics includes, as standard, an open collector transistor output for each zone which can be used to drive an internal or remote mimic display. an ndu in new zealand mode may have an additional 3 system status indicators on the nz display extender board fitted. this provides the fire, defect, normal leds, and also connects to a termination bd which accepts the nz specific inputs and outputs including the trail evac and silence alarms key-switches. document no: lt0255 f3200/ndu as4428.1 installation manual system description issue 1.04 30 june 2004 page 2-3 fig 2.1.1 f3200 standard cabinet - front view f3200/ndu as4428.1 installation manual document no: lt0255 system description page 2-4 30 june 2004 issue 1.04 2.1.4 outputs the f3200 maf/psu module provides 7 relays as standard. these are used for signalling to the brigade (monitoring service) and for switching the external bell, warning system and ancillary equipment such as door holders, air-conditioning shutdown, etc. when more than 7 relays are required, additional sets of 8 can be added by fitting 8 relay modules. all outputs, including the open collectors on the 8 zone modules, are individually programmable by a logic equation of zone and fip status. the default configuration (link setting and programming) dedicates 4 of the 7 relays (alarm, isolated, fault and standby, commonly called the maf relays) to interface to the ase (alarm signalling equipment), 1 (labelled anc2) to drive the external bell (eb), and 1 (labelled anc3/bells) to drive the warning system (ws). the maf standby relay has electronics which forces it to de- energise at the battery very low voltage, and this must be considered if using if for any function other than its default one. 2.1.5 power supply the f3200 has a 3 amp battery charger/power supply as standard. there is adequate room for large batteries. versions are available that have a 6 amp psu. 2.1.6 remote displays & printer a serial port is included in the f3200 and ndu to provide a 3 or 4 wire link to up to 8 remote display units (rdu). several versions of rdu are available. the most commonly used versions have small, slimline cabinets (flush and surface mounting) not much larger than the f3200 disp lay-keyboard which is fitted on them. they receive power from the f3200 fip or ndu. other versions look like an f3200 fip, have their own power supply, and may have led display boards fitted to them. additional mimic-only devices can be connect ed to the rdu output to monitor the f3200 zone status. for example, io-net can be used to provide floor mimic panels, as1668 interfaces or remote outputs for evacuation panels. for a networked system, an rdu can display (and control) only the zones and relays of the fip to which the rdu is connected. with appropriate programming, such an rdu could be used to isolate the warning system of that fip, and hence isolate the warning system across the entire network. 2.1.7 logging printer a serial printer may be connected to the f3200 or ndu to provide a log of events and operator actions, and also to print the programmed database. events which are printed include: (i) zone events, e.g. alarm, fault; (ii) zone commands, e.g. reset, isolate; (iii) system events, e.g. communica tion failures, battery faults, etc. the printout includes the time and date, the cause of the event (e.g. zone, relay, rdu or fip), and the event type. events and commands for zones and relays that have a text name programmed also have the name printed. f3200 is able to store at least 100 events for printing, being the first 100 events to occur. as events are printed, more events are able to be put into the list. if events cannot be put into the list because it is full, the fip keeps a count of those events it has had to discard. document no: lt0255 f3200/ndu as4428.1 installation manual system description issue 1.04 30 june 2004 page 2-5 logging printer (continued) when the fip is next able to put more events into the list, it prints out the number of events it had to discard. for a networked system, with appropriate programming, an f3200 panel (or ndu) may print events and accumulate history for some or all of the other panels on the network. 2.1.8 networking capabilities a number of f3200 fire panels, ndus and other panel-link compatible devices may be connected together to form a large distributed system. with suitable programming events may be annunciated at, and controlled from, other panels on the network. a panel (or ndu) may be set up as a main panel to provide a common monitoring service connection point with display and control of all facilities on the network. the f3200 system supports the addition of colour graphics display and control terminals on the network. these units can be programmed to show graphical displays on zone alarm or fault conditions. the operator can use function keys or an optional touch screen to generate commands to the f3200 and thus have remote control of it. 2.1.9 gaseous fire extinguishing panels a range of f3200 panels are available specially assembled and programmed for gaseous fire extinguishing applications complying with as4214. f3200/ndu as4428.1 installation manual document no: lt0255 system description page 2-6 30 june 2004 issue 1.04 2.2 physical structure the f3200 has a rugged, lockable painted steel cabinet, which houses 19 inch rack-mount equipment and comes in two height options (both have the same width and depth). the standard cabinet accommodates 15u total and the small cabinet accommodates 8u (where 1u = 1 3/4" = 44.5mm). the operator display has a screened, polyester overlay mounted on a hinged inner door fitted to the top 4u position. the controller/display pcb mounts directly to the rear of this door. standard cabinet in the standard cabinet the space below the 4u operator display panel is covered by a blanking plate, but there is provision for mounting other equipment (e.g. a 7u hinged inner door for a mimic, or 16 zone led display bds), in place of this blanking plate. there is provision for mounting additional equipment in the bottom 4u (e.g. an ase rack), but this might encroach on battery space. the outer door has a large acrylic window to allow viewing of the equipment inside. four versions of fip are available in this cabinet. the fp0781 and fp0783, which cater for up to 64 zones, have a cardframe fitted to the rear wall as shown in fig 2.2.1. the fp0780 and fp0782 have provision (pcb stand-offs) for mounting up to three 8 way modules (i.e. 3 x 8 zone or 8 relay modules) on the rear wall. all of these panels are supplied with 1 8 zone module fitted. small cabinet in the small cabinet, only 1u (of the 4u) below the 4u operator display is visible through the outer window. the gap is covered by a blanking plate (2u), which can be replaced by a bracket for mounting a limited range of equipment, e.g. a 1u ase bracket, or a 1u 1 zone gas control panel. a 6a psu or a 7u led display door cannot be fitted. up to four 8 way modules can be mounted on the rear wall, but the bottom two of these share space with the batteries. mounting arrangement and maximum capacity are shown in fig 2.2.2. only one fip is available (fp0784), and this comes with one 8 zone module fitted (in the top left position). document no: lt0255 f3200/ndu as4428.1 installation manual system description issue 1.04 30 june 2004 page 2-7 fig 2.2.1 f3200 standard cabinet with cardframe - internal layout fig 2.2.2 f3200 small cabinet, maximum configuration fp0781 and fp0783 have the cardframe as shown. fp0780 and fp0782 have the modules on the rear wall (3 max). f3200/ndu as4428.1 installation manual document no: lt0255 system description page 2-8 30 june 2004 issue 1.04 2.3 system structure 2.3.1 pcb modules the printed circuit boards which may be used in an f3200 include: controller/display mounts on 4u inner door. includes: lcd, status leds, buzzer, and keypad connection 5vdc supply voltage monitors for battery charger microprocessor & memory serial i/o bus control for all other modules reference voltage generation for i/o modules uarts and serial port electronics real time clock calendar integrated circuit frc connection to other modules. maf/psu mounts on cabinet rear wall. includes: battery charger/psu 22v regulator for detector circuits brigade & ancillary relays and supervision circuitry mcp & door switch inputs screw terminals (most demountable) for field wiring frc connection to other modules. 8 zone module mounts on cabinet rear or in cardframe. includes: electronics to i/f to 8 alarm zone circuits (azcs) 8 open collector auxiliary outputs demountable screw terminals for field wiring frc connection to other modules. 8 relay module mounts on cabinet rear or in cardframe. includes: 8 relays and supervision circuitry demountable screw terminals for field wiring frc connection to other modules. 16 zone led display mounts on 7u inner door. includes: 16 sets of 3 leds; electronics to control the leds (serial bus). rs485 communications bd mounts on rhs of cabinet. includes: connecting frc and mounting parts. i-hub communications bd mounts on rhs of cabinet. includes: connecting frc and mounting parts. document no: lt0255 f3200/ndu as4428.1 installation manual system description issue 1.04 30 june 2004 page 2-9 fig 2.3.1 system structure f3200/ndu as4428.1 installation manual document no: lt0255 system description page 2-10 30 june 2004 issue 1.04 2.3.2 inter-connection & structure a basic f3200 system has one controller/display, one maf/psu, and one 8 zone module, all connected by flat ribbon cable (frc) on a common input/output (i/o) bus. additional 8 zone modules and/or 8 relay modules can be fitted to the i/o bus, with a maximum of eight 8 way modules. this is shown in the block diagram of fig 2.3.1. the physical maximums are: three 8 way modules in an fp0780 or fp0782. four 8 way modules in an fp0784 (with restrictions) eight 8 way modules in an fp0781 or fp0783. expansion is from top to bottom. the i/o bus out of one module connects to the i/o bus in of the next module via the 20 way frc provided (lm0053). no link or "end of bus" is required on the last module. to further extend these capabilities, up to 64 f3200s may be networked together, with full sharing of information and remote control of each panel by a master panel. 16 zone led display bds are driven from a separate serial bus on the controller/display. they receive power from the maf/psu via two power leads. where more than one is required they are connected in series (up to 4 maximum) from right to left (as viewed from the front) on the fip. the 26 way frc from j13 of the controller goes to j1 ("from previous") of the right hand display bd. zone 1 (default) corresponds to the top leds on the left hand display bd. the last board requires the "end of bus" minijump connector to be fitted. note that a special frc cable is required to connect the controller board to the first display board (lm0092). where led display bds are fitted, the default programming requires one display bd (16 zones) for every two 8 zone or 8 relay modules, i.e. one for 1-16 zones, two for 17-32 zones, etc. zone 1 corresponds to the top row of 3 leds on the left most display. zone 2 to the row below it, etc, (top to bottom, left to right). led display bds may also annunciate relay status, i.e. alarm = relay energised, isolated = relay isolated, fault = relay wiring fault (i.e. s upervision fault). the relay leds simply follow the zone leds in the same order that they occur in the modules. e.g. a system with three 8 zone modules and two 8 relay modules would require 3 display bds. relay 1 would be annunciated on the 25th row of leds and the last 8 rows would be unused. mapping zones and relays to leds in other patterns is programmable. document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-1 chapter 3 system specifications f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-2 30 june 2004 issue 1.04 3.1 general 3.1.1 fip part numbers & description (refer also to 3.8 following). fp0780, f3200 as4428 fip, no cardframe, 24 zone max, 1931-95 fp0782, f3200 as4428 fip, no cardframe, 24 zone max, 1931-95, 6a psu includes: full size cabinet controller/display with operator display & keypad maf/psu (includes 7 relays, 3a/6a battery charger) 1 x 8 zone module with standard eolrs modules fit to cabinet rear wall (up to 3 modules max) fp0781, f3200 as4428 fip, c/w cardframe, 64 zone max, 1931-95 fp0783, f3200 as4428 fip, c/w cardframe, 64 zone max, 1931-95, 6a psu includes: full size cabinet controller/display with operator display & keypad maf/psu (includes 7 relays, 3a/6a battery charger) cardframe (can house up to 8 modules) 1 x 8 zone module fitted in cardframe includes standard eolrs fp0784, f3200 as4428 fip, small cabinet, 1931-71, 8 zone includes: small size cabinet controller/display with operator display & keypad maf/psu (includes 7 relays, 3a battery charger) 1 x 8 zone module with standard eolrs modules fit to cabinet rear wall (up to 4 modules max) fp0876, f3200 as4428, 8u cab, 3a, 1u gas ctl, pre-prog includes: fp0784 with 1 x 8 relay module and me0442 fitted, wired and programmed as a gas release panel. fp0877, f3200 as4428, std cab, 6a, 1u gas ctl, pre-prog includes: fp0782 with 1 x 8 relay module and me0442 fitted, wired and programmed as a gas release panel. 3.1.2 system expansion expansion to the base panels is by adding 8 way zone or relay modules, or by networking multiple panels together. fp0553, f3200 8 zone input expansion kit includes: 8 zone module, frc, 8 x eolr (std). fp0554, f3200 8 relay expansion kit includes: 8 relay module, frc, 8 x minijump links (for supervision selection). 3.1.3 environmental operating temperature : -5 c to 45 c (ambient) relative humidity : 95% maximum @ 40 c (non-condensing) document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-3 3.2 mechanical specifications cabinets style : wall mounting hinged outer door with large window (hinges to left) accepts 19" rack mounting equipment 4u display on hinged inner door (hinges to right) construction : welded steel material : 1.2mm and 1.6mm mild steel size : - standard : 750mm (h) x 550mm (w) x 210mm (d) * (iss b cabinet) - small : 410mm (h) x 550mm (w) x 210mm (d) * * mcp is an additional 20mm. finish : powdercoat bff-998-cw cream wrinkle (iron phosphate pre-treat) weight : unpackaged packaged fp0780 21kg 24kg fp0781 25kg 28kg fp0782 23kg 26kg fp0783 25kg 29kg fp0784 17kg 19kg fp0876 19kg 21kg fp0877 25kg 28kg f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-4 30 june 2004 issue 1.04 3.3 electrical specifications 3.3.1 mains supply voltage : 240vac +6% -10% current : 0.5a frequency : 50hz termination : for up to 2.5sq mm tps 3 way block with wire protectors 3.3.2 battery charger & psu input voltage : 31vac rms (transformer sec) charger voltage : 27.3vdc (nominal at 20 c) temperature : -36mv per c nominal compensation non-battery backed : 28.0 nominal voltage max total current : 3adc for std psu (charger, quiescent & alarm) 6adc (for 6a psu only) max warning system : 2adc current max. ancillary : 2adc current on vbf1 max. ancillary : 2adc (allows 3a max led display) current on vbf2 max. ancillary : 2adc (e.g. for door holders) current on vnbf (vbf <-> battery backed, fused. vnbf <-> non-battery backed, fused) current limit standard psu 6a psu battery to maf/psu : ptc, 6a nom, 3.6a min (see notes below) psu/charger : 3.3a nom, 3.0a min 6.7a nom, 6.0a min notes 1) : the 6a psu is factory fitted in the fp0782 and fp0783. it is not available in the fp0784. 2) : for the 6a psu, the ptcs on the maf are shorted out and a derwent 10a thermal cut-out is wired between the battery + terminal and the maf/psu. document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-5 battery charger & psu (continued) state min nom max comments charger high 28.05 28.125 28.20 adjust with pot charger low 26.40 26.57 26.75 battery low 24.15 24.33 24.55 standby off 21.5 22.0 22.5 for voltage falling notes: 1. all voltages stated in vdc at temperature of 20 c. 2. apply temperature compensation of -36 mv/ c for temperature deviation from 20 c. 3. this applies also to charger voltage 27.3 vdc. 4. there are thermal delays, therefore if checking or adjusting in field ensure unit has been running for some hours. 5. standby relay is normally energised (on), and turns off for battery fail. table 3.3.2 battery and charger monitoring voltage specifications 3.3.3 battery battery voltage : 24vdc nominal (2 x 12vdc) compatible makes century yuasa ps series irh bb battery bp series panasonic lc-l, lc-r and lc-x series yhi power csb gp series yuasa np series capacity : 6 to 50 ahr (dependent on configuration) space (mm) : - standard cabinet up to 220h, 440w, 175d (iss b cabinet) - small cabinet up to 200h, 185w, 175d (3 modules fitted) up to 200h, 370w, 125d (4 modules fitted) (refer to fig 2.2.2) 3.3.4 fuses location : maf/psu pcb number name size rating type f1 +vbf1 5 x 20mm 2a glass cartridge, std f2 +vbf2 5 x 20mm 6a glass cartridge, std f3 +vnbf 5 x 20mm 2a glass cartridge, std f4 +ve 5 x 20mm 2a glass cartridge, std f5 mains in 5 x 20mm 6a glass cartridge, std f7 +vbells 5 x 20mm 2a glass cartridge, std f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-6 30 june 2004 issue 1.04 3.3.5 current consumption 3.3.5.1 f3200 quiescent & alarm currents at 24vdc battery supply, nominal currents: quiescent alarm (2 zone) base panel (notes 1-4) 130ma 275ma 8 zone module - all azcs disabled 4ma - all azcs enabled (notes 2-6) 82ma 97ma current per enabled azc (note 3) 10ma 8 relay module - all supervision disabled 4ma - all supervision enabled 6ma current per relay on 11ma maf/psu - all relays off 9ma current per ancillary relay (includes bells) 11ma 11ma current per brigade relay 16ma 16ma 22v supply (supplies 8 zones) max rating 800ma controller/display - lcd backlight off, status leds off 19ma - lcd backlight on, status leds off 75ma current per status led on 3ma 16 zone led display 0ma 16ma/led (steady) rs485 network interface board pa0773 7.5ma total electronics and detector max rating 2000ma notes 1. the base panel includes controller/display, maf/psu and 1 x 8zm with all aczs enabled and with eolrs (2k7 for mode 1 or 2). 2. quiescent current for an enabled azc is for modes 1 or 2 (standard or high current) and includes the 2k7 eol, but not the detector current (up to 4ma detector current per azc). 3. quiescent current is only 2.5ma per azc for mode 3 and 1ma for mode 4. 4. alarm current is for azc mode 1, refer azc specifications for other modes. 5. the 8 zone modules (8zms) are supplied from the fused battery supply via the 22v regulator which has a maximum rating. the 8 relay modules (8rms) are supplied directly from the fused battery supply. 6. quiescent and alarm currents do not include external loads e.g. door holders, bell, sounders etc. document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-7 3.3.5.2 ndu quiescent and alarm currents slimline ndu (fp0791/fp0792/fp0793/fp0794) operating voltage : 24vdc (18-28v) termination : for up to 2.5sqmm tps quiescent alarm current consumption : 25ma 80ma full cabinet ndu (fp0790) quiescent alarm current consumption (aust mode) 1 70ma 165ma current consumption (nz mode) 2 85ma 150ma 1. includes controller, maf/psu, energised standby relay, pa0773 rs485 bd, lcd backlight off in quiescent state. 2. includes controller, maf/psu, nz display extender, energised standby and alarm relays, pa0773 rs485 bd. lcd backlight off in quiescent state. 3. refer to section 3.3.5.1 for additional module currents. 4. for fp0793 the i-hub current needs to be added. f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-8 30 june 2004 issue 1.04 3.4 input specifications 3.4.1 azc specifications general terminations on 8 zone module, 2 per azc. demountable screw terminal 1.5sq mm cable max. number 8 azcs per 8 zone module. 64 max per panel. end of lines (eols) mode eol 1 standard 2k7, 5%, 400mw resistor 2 high current 2k7, 5%, 400mw resistor 3 low current 10k, 5%, 400mw resistor 4 tamper eol002b active eol 5 disabled none circuit resistance & capacitance mode capacitance resistance 1, 2 & 4 500nf 50 ohm max 3 1000nf 800 ohm max for b2 alarm 2k ohm max for b3 alarm voltages min typ max detector supply on maf/psu (note 1) 21.2v 22.0v 22.2v (21.8v) at azc terminals 18.75v 20.3v 22.1v at end of circuit 18.0v 20.3v 22.1v alarm voltage thresholds band b3 upper threshold 17.2v 17.5v 17.8v band b3 lower threshold 12.75v 13.1v 13.45v band b2 upper threshold band b2 lower threshold 2.7v 2.9v 3.1v band b1 upper threshold band b1 lower threshold 0v 0v 0v document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-9 azc specifications (continued) min typ max azc current limit (note 1) 13.5ma 15.5ma 16.5ma (14.5ma) eol & detector quiescent 11.95ma eol, no detectors 7.0ma 7.8ma 8.2ma (7.2ma) fault threshold 4.4ma 5.75ma 6.8ma detector quiescent 0ma 4.0ma notes 1. the minimum figures shown are for battery voltage greater than the minimum standby (battery fail) level i.e. 21.5v. the figures shown in brackets are for a battery voltage greater than 22.5v. 2. modes 1 & 2 have the same thresholds before the alarm state is latched. for mode 2 additional current is turned on once the alarm state is latched (refer to graph 3.4.2). min typ max mode 3 only current into short circuit 34.3ma current into 800 ohm (note 3) 14.2ma 14.8ma 15.3ma current into 2000 ohm (note 4) 8.0ma 8.2ma 8.4ma eolr current 2ma minimum current for eolr & 2k circuit 1.64ma modes 3 & 4 fault thresholds 0.85ma 1.28ma 1.59ma maximum allowable load or circuit leakage 0.5ma notes 3. i.e. short at end of an 800 ohm circuit (gives voltage band b2 alarm, ref. graph 3.4.1). 4. i.e. short at end of a 2000 ohm circuit (gives voltage band b3 alarm, ref. graph 3.4.1). mcp zener diode for voltage band b3 operation bzt03c15 3w, 15v. detector alarm currents the current available to a latched detector is the azc supply current at the detector "alarm" voltage minus the eolr current and the remaining quiescent current at that voltage. the following graphs show current/voltage characteristics for the various modes of operation. f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-10 30 june 2004 issue 1.04 graph 3.4.1 azc current limit characteristics (modes 1 & 2) icl = current limit iav = current available to detectors with eolr fitted iav = icl - ieolr graph 3.4.2 azc current vs voltage : mode 1 (standard) document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-11 icl+r = current sourced through current limit and pull up resistor iav = current available to detectors with eolr fitted iav = icl+r - ieolr graph 3.4.3 azc current vs voltage mode 2 (high current) a short circuit at the end of an 800 ohm line will give a b2 (detector operated) alarm. a short circuit at the end of a 2k ohm line will give a b3 (programmable) condition. graph 3.4.4 acz current vs voltage modes 3 & 4 (low current & tamper) f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-12 30 june 2004 issue 1.04 azc specifications (continued) timing standard delay 2.3 sec (2.0 - 2.6 sec) (into alarm, fault, normal) azc reset 5.3 sec (5.0 - 5.6 sec) azc ignore period 1 2 sec nom (plus std 2.3 sec delay) (after reset) azc ignore period 2 1 sec nom (plus std 2.3 sec delay) (after start up or programming) azc time into alarm programmable 0-250 sec azc time out of alarm programmable 0-250 sec 3.4.2 maf/psu inputs battery termination one pair screw terminals; 4sq mm max cable ac input 31v rms; 3.6a rms; 2.8mm tab terminals door switch 5v, 0.5ma, unsupervised, 4 way .1" pcb header, j6 mcp 5v, 1ma, 2k7 eolr, 4 way .1" pcb header, j6 spare inputs (not fitted) 5v, 0.5ma, unsupervised, cabinet internal use only, 4 way .1" pcb header, j5 relay supervision anc 1 sup/anc 2 sup one screw terminal each modes of operation 1 door holder 2 load relay off relay on 1. door holder mode expects voltage no voltage present present 2. load mode expects resistive open circuit or to 0v voltage present default modes anc 1 door holder, disabled anc 2 load, disabled voltage threshold 3.65v nom (door holder mode) supervision current 0ma @ +5v, 1ma @ 0v document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-13 maf/psu inputs (continued) load resistance 400 ohm - 10k ohm (load mode) less than 400 ohm with series diode at load. 14 ohm absolute minimum. anc 3 supervision input termination output terminals bells +, - form reverse polarity - requires series diode at each device resistor eol end of line no. of circuits type 1 3k3, 5%, 250mw resistor 2 6k8, 5%, 250mw resistor 3 10k, 5%, 250mw resistor supervision current 0ma @ +5v, 1.5ma @ 0v, +ve to bells- terminal circuit resistance 100 ohm max. 3.4.3 controller/display inputs spare dc input/output 24vdc nom demountable screw terminal, 4 way, j5 spare input 22v, 10k ohm pull up resistor provision for supervision (up to 5 band) spare inputs ip0, 1, 2 unsupervised (not fitted) cabinet internal use only +5v, 100k pull up resistor 10 way frc header, j10 serial i/o rzdu refer section 3.5.3; others 3.5.2 3.4.4 8 relay module supervision form load monitoring relay off relay on expects resistance to 0v voltage present selected by minijump link on pcb & programming of fip default programming supervised load resistance 400 ohm - 10k ohm less than 400 ohm with series diode at load 14 ohm absolute minimum voltage threshold 3.65v nom. supervision current 0ma @ +5v, 1ma @ 0v f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-14 30 june 2004 issue 1.04 3.4.5 nz mode display extender board inputs the display extender board is used with new zealand operation only. the inputs it provides are: silence alarms, trial evac, bu ilding services restore, lamp test and external defect. all inputs have closure to zero volts to assert the input. an input may be left open or unconnected if not used. refer to section 5.11 for wiring. all inputs closure below 1.5v @ 0.35ma required to activate. open voltage = 5v document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-15 3.5 output specifications 3.5.1 8 zone module outputs type darlington open collector, switch to 0v voltage rating 28.5v max, "off" state 1.1v max at 100ma ?on? state current rating 100ma max per o/p, 0.6a max per module, 1a max per fip. transient protection allows external wiring terminations 8 way demountable screw terminal, 1.5sq mm max. cable operation programmable default o/c 1 = zone 1 alarm o/c 2 = zone 2 alarm, etc. 3.5.2 8 relay module outputs form 1 pole changeover contacts voltage-free when unsupervised termination demountable screw terminals, 1.5sq mm max cable rating 30v, 1adc inductive , 30v, 2adc resistive note the relays are 2 pole, with the second pole terminated on pcb pads. operation programmable supervision ref. 3.4.4. looping terminals 2 sets of 4 joined voltage-free terminals per module 3.5.3 maf/psu outputs brigade relays standby normally energised, de-energises on battery fail or panel fail fault, isolated, alarm normally de-energised, energise on active state form 1 pole voltage-free changeover contacts termination demountable screw terminals 1.5sq mm max cable rating 30v, 3adc inductive, 30v, 5adc resistive isolation 1500v rms contact to coil f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-16 30 june 2004 issue 1.04 maf/psu outputs (continued) ancillary & bells anc 1, anc 2 1 pole voltage-free changeover contacts termination demountable screw terminals, 1.5sq mm max cable rating 30v, 1adc inductive, 30v, 2adc resistive (note: the relays are 2 pole, with second pole terminated on pcb pads). operation programmable (refer programming manual) default (anc 2 is external bell) supervision separate terminal (ref 3.4.2) anc 3/bells 2 pole relay link selectable function standard format polarity reversal, switched 24vdc output 2 terminals, bells +, - demountable screw terminals, 1.5sq mm max cable option 1 pole voltage-free changeover contacts snip links lk2, 3, 4. rating 30v, 2adc resistive, 30v, 1adc inductive operation programmable (refer programming manual) default warning system supervision on bells +, - terminals only (ref section 3.4.2) power supply outputs 0vdc termination 1 non-demountable screw terminal, 4sq mm max cable 2 demountable screw terminals, 1.5sq mm max cable 1 2.8mm tab terminal (led display) battery backed dc supply rating 27.3vdc (24v battery nom), 2adc, fused. +vbf1 1 non-demountable screw terminal, 4sq mm max cable 1 demountable screw terminal, 1.5sq mm max cable +vbf2 1 non-demountable screw terminal, 4sq mm max cable 1 demountable screw terminal, 1.5sq mm max cable 1 2.8mm tab terminal (led display) non-battery backed dc supply rating 28vdc nom, 2adc, fused document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-17 maf/psu outputs (continued) +vnbf 1 non-demountable screw terminal, 4sq mm max cable 1 demountable screw terminal, 1.5sq mm max cable rzdu comms tx, rx, 0v 3 wire (+vbf2 available for 4 th wire) transmission rate 1200 baud protocol vigilant f4000 termination demountable screw terminals, 1.5sq mm max cable 3.5.4 controller/display outputs spare parallel outputs (not fitted) number, rating 6, cmos 0-5v termination 10 way frc pcb header, j10 serial i/o printer/programmer port (this is same port as serial port 0) form pseudo rs232, rx, tx, 0v signals only transient protection allows external wiring transmission rate 9600 baud protocol ascii xon, xoff termination 4 way .156" male molex (j1), 9 way miniature d available via lm0041. female pins (socket) pin 2 3 5 1 4 6 7 8 tx rx 0v ? 25 way miniature d available via lm0042 female pins (socket) pin 2 3 7 6 8 20 rx tx 0v ? also available as 9 way male d connector (j27) serial port 0 10 way frc header, j2 uart signals: rxd, txd, rts-, cts-, dcd- 5v levels; 0v, +5v, +24v also available network 1 10 way frc header, j7 network 2 10 way frc header, j9 uart signals for network 1/2 rxd, txd, rts-, cts-, dcd- 5v levels; 0v, +5v, +24v also available f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-18 30 june 2004 issue 1.04 3.5.5 nz display extender board outputs this is used in new zealand mode only. refer to section 5.11 for wiring of the outputs on the unprotected termination board. the display extender board already has common normal, defect and fire status leds fitted to it, but these may be replicated externally if necessary. there are also ancillary defec t and fire outputs which are active low open collector, and an output to drive an index lamp. all outputs (except lamp) open collector pulldown to 0v off voltage = 30vmax on voltage = 1.1v @ 100ma (max) on current = 100ma max lamp + open collector pull up to vbatt off voltage = 0v on voltage = vbatt-1v on current = 400ma max lamp - connected to battery ? document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-19 3.6 controls keypad type : polyester membrane keypress : buzzer gives short "beep" for valid keypress ff keys : external bell isolate; warning system isolate; prev; next; ack; reset; isolate 4x4 keypad : digits 0-9; clear/esc; enter; 4 x logic keys zone functions - alarm, fault and in-situ test; isolate, reset, recall ancillary functions - test, isolate, reset, recall relay functions - test, isolate, reset, recall system functions - battery test, buzzer test, display test, system test - bell test, external bell isolate, warning system isolate - recall : alarms, faults, isolates, system faults, history - set time and date - program and view parameters - print and save database brigade functions - acknowledge alarms - view alarms (next & prev) - reset acknowledged zone in alarm - isolate acknowledged zone in alarm - brigade test (via menu) buzzer (internal sounder) tone steady : fault, system fault unisolated zone (note 1) or relay supervision fault (note 2) sounder re-sounds 8 hours after silence. pulsing 2hz : unisolated zone alarm (note 1) slow pulse : door closed with database write enabled (lk7) or in program mode. cadence : zone or in-situ test failed (note 3) short pulse : valid keypress long pulse : invalid keypress notes: 1) for zones not mapped to maf (status only) the buzzer does not turn on (dependent also on programming of ff). 2) for relay supervision not mapped to maf the buzzer does not turn on. 3) cadence is repeated fast pulses with a pause. ndu nz mode keyswitches brigade functions - trial evacuation, silence alarms, services restore f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-20 30 june 2004 issue 1.04 3.7 displays standard display includes : lcd; ff leds; system status leds panel size : 19", 4u lcd size : 2 lines of 40 characters, 5.5mm (h) x 3.2mm (w) per character site name : 40 characters max. zone name : 30 characters max. relay name : 30 characters max. ff leds : alarm (red); isolated (yellow); fault (yellow); external bell isolate (yellow); warning system isolate (yellow) system status leds : mains on (green); chgr/batt fault (yellow); system fault (yellow); aif attended (yellow) internal : mains on (green), fuse blown (yellow) on maf/psu pcb. status leds optional additional led display requires 1 x me0060 plus 1 x fz3031 plus 1-3 x fp0475 as required. me0060, mech assy, 1901-79, f4000 rac, ext inner door (19", 7u, mounts up to 4 of 16 led display bd) fz3031 kit, f3200, 16 zone led display, lhs position fp0475, fp, f4000 display extender kit, 1901-26 includes : 1 x 16 led display bd (16 zone parallel led display); frc; power leads; zone name label. format : 7u parallel led display mounts directly below the standard 4u lcd. zone leds : alarm (red); fault (yellow); isolated (yellow) name space : 10mm x 60mm per zone on paper label. e.g. 2 lines of 23 characters at 10 per inch. new zealand mode display extender board (applicable to ndu only) status leds: normal (green), defect (yellow), fire (red) pa0499,pcb assy,1901-119-1,f4000 nz display extender document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-21 3.8 ordering information the following lists the part numbers for the range of products and spares associated with an as4428 f3200. it includes a brief description where considered necessary. fa1227,fab,1931-24,f3200 blank panel,plastic,9.5u fa1235,fab,1919-27-5,f3200,flush surround (p) (std cabinet) fa1298,fab,1919-27-6,f3200,small flush surround (p) fa1299,fab,1919-27-7,f3200,std + batt box,flush surround (p) fp0475,16 zone led display extender kit,1901-26 (includes display bd, 0.5m frc, power leads and label master. cannot be used for first led display. see fz3031) fp0553,f3200 8 zone input expansion kit (ref section 3.1.2) fp0554,f3200 8 relay expansion kit (ref section 3.1.2) fp0556,f3200 cabinet,empty,c/w door,window,lock fp0557,f3200 cabinet,empty,c/w blank outer door fp0570,fp,1937-3-1,local gas control station,auto (wall mounting box with flip cover break glass "gas start" switch and double action toggle "gas inhibit" switch, includes buzzer and leds) fp0572,fp,1937-3-2,local gas control station,manual (as per above, but without "gas inhibit" switch, led and buzzer) fp0576,fp,f3200,battery box fp0584,fp,f3200,small empty cabinet,full window fp0780,fp,f3200 as4428 fip,no cardframe, 24 zone max,3a fp0781,fp,f3200 as4428 fip,c/w cardframe,64 zone max,3a fp0782,fp,f3200 as4428 fip,no cardframe,24 zone max,6a fp0783,fp,f3200 as4428 fip,c/w cardframe,64 zone max,6a fp0784,fp,f3200 as4428 fip,small cabinet,maf/psu,3a, 8 zone fp0790,fp,ndu as4428,network display,full cab,maf/psu,3a fp0791,fp,ndu as4428,network display,slimline,surface fp0792,fp,ndu as4428,network display,slimline,flush fp0793,fp,ndu as4428,network display,deep slimline,c/w i-hub fp0794,fp,ndu as4428,network display,4u 19? module fp0795,fp,f3200 as4428 network upgrade kit,v3.xx fp0876,fp,f3200 as4428 fip,8u cab,3a,1u gas ctl,pre prog fp0877,fp,f3200 as4428 fip,15u cab,6a,1u gas ctl,pre prog fz3031,kit,f3200,16 zone led display,lhs position (fp0475, but with 1.2m frc, allows mtg of first display bd in furthest left position). fz9002,fp,19" rac,7u blank inner door f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-22 30 june 2004 issue 1.04 ordering information (continued) kt0072,kit,f3200,cardframe upgrade kt0111,kit,1945-1-1,as1668 control module,type 1 kt0112,kit,1945-1-2,as1668 control module,type 2 kt0113,kit,1945-1-3,as1668 control module,type 3 kt0199,kit,ase,3u 19? rack mounting front panel kt0212,kit,v-modem,2 up,3u 19? rack mtg front panel kt0271,kit,f3200,as1603.4 v2.xx to v3.xx std upgrade kt0272,kit,f3200 as1603.4 v2.xx net to v3.xx net upgrade kt0273,kit,ndu as1603.4 v2.xx to v3.xx s/w upgrade kt0274,kit,f3200 fip,as1603.4 to as4428.1 conversion lm0041,loom,1888-58,prog port to 9 pin serial (cable to connect printer/computer to controller, has 9 pin min d) lm0042,loom,1888-62,prog port to 25 pin serial (cable to connect printer/computer to controller, has 25 pin min d) lm0044,loom,1901-81-1,display extender frc,2m lm0045,loom,1901-81-2,display extender frc,5m lm0046,loom,1901-81-3,display extender frc,0.5m lm0049,loom,1901-81-4,display extender frc,0.25m lm0053,loom,1931-28-1,f3200 20 way frc,300mm (standard frc for interconnecting 8 way modules, included in fp0553, 554) lm0092,loom 1901-88 controller to 1st display, frc, 1.2m (display bd to controller, for display bd in furthest left position, included with fz3031). lt0121,literature,1931-19,f3200 technical manual lt0250,literature,f3200 as4428,operator?s manual,a5 lt0254,literature,f3200 as1603.4 to as4428 conversion lt0255,literature,f3200 as4428,installation and config lt0256,literature,f3200 as4428,programming manual lt0263,literature,f3200 as4428 replacment controller install lt0264,literature,f3200 as1603.4 v2.xx to v3.xx upgrade lt0266,literature,install v3.xx as4428 s/w in as1603 f3200/ndu document no: lt0255 f3200/ndu as4428.1 installation manual system specifications issue 1.04 30 june 2004 page 3-23 ordering information (continued) me0060,mech assy,1901-79,rac cabinet,ext inner door (hinged 7u inner door for mounting display bds on, includes screws, perspex window, cage nuts and pcb stand-offs) me0072,mech assy,1931-70,f3200 rack mtg gearplate (allows f3200 internals to be fitted to a rac cabinet. factory fit option only. see note 1) me0098,mech assy,1931-116,f3200 as4428.1 control,4u hinged me0250,mech assy,1919-35,rac cabinet,ip65,20u x 200 (i.e. waterproof) me0258,mech assy,1919-21-2,rac ca binet,1u shelf,135 deep (includes screws and cage nuts for mounting to fip) me0438 mech assy,1931-123,as4428 1 zone gas cntrl 7u door me0439 mech assy,1931-123,as4428 2 zone gas cntrl 7u door me0440 mech assy,1931-123,as4428 3 zone gas cntrl 7u door me0441 mech assy,1931-123,as4428 4 zone gas cntrl 7u door me0442 mech assy,1931-124,as4428 1u 1 zone gas cntrl pnl (me0438-me0441 are 7u screened doors with 1-4 zones of gas controls and indicators wired ready for connection to as44428.1 f3200. me0442 is a 1u bracket with 1 gas zone control/indication) pa0443,pcb assy,1841-18,contact conversion module pa0703,pcb assy,1931-27,f3200 remote i/f bd pa0707,pcb assy,1931-39,f3200 3a rectifier bd pa0773,pcb assy,1901-139-3,rs485 comms bd,cmos;frc only pa0873,pcb assy,1931-3-3,f3200 as4428 maf/psu,3a pa0874,pcb assy,1931-3-4,f3200 as4428 maf/psu,6a pa0909,pcb assy,1931-111-1,f3200 as4428 controller, no s/w rr0917,resistor,ptc,overload protect,30v,6a sf0221,software,f3200 as4428 controller,v3.00,eprom sf0222,software,f3200 as4428 networked,v3.00,eprom sf0224,software,ndu as4428 network display,v3.00,eprom sf0286, software,f3200/networked/ndu as4428 ctrlr,v4.02 (standard, networked and ndu software for as4428.1 panels with issue b or higher 1931-111 controller) note 1 : items mexxxx are intended as factory fit options, but some can be ordered as a standalone item. f3200/ndu as4428.1 installation manual document no: lt0255 system specifications page 3-24 30 june 2004 issue 1.04 ordering information (continued) new zealand operation only a variety of display options are available to satisfy varying nz requirements. these are covered in detail in section 5.12. ordering codes are included for the various components for each option. major items are as follows: pa0499 pcb assy, nz display extender board nz display extender board in standard 16 zone led board format. pa0741 pcb assy, pfd 16 alarm led display, 24v ?picture frame? format 16 zone display board (alarm leds only). pa0753 pcb assy, picture frame display, 16 led mimic, 24v ?picture frame? cabinet format board for mimicking 16 fire leds from display board. pa0483 pcb, unprotected termination board with a 26 way frc gives access display extender board inputs and outputs. pa0769 pcb, unprotected termination board, c/w resistors version of pa0483 with 3k3 resistor per output for led current limit. document no: lt0255 f3200/ndu as4428.1 installation manual configuring a fip issue 1.04 30 june 2004 page 4-1 chapter 4 configuring a fip f3200/ndu as4428.1 installation manual document no: lt0255 configuring a fip page 4-2 30 june 2004 issue 1.04 4.1 general an f3200 fip is configured to suit a particular customer's requirements by: fitting and connecting the required pcb modules; adjusting or removing links on the pcbs; programming the fip. the detectors, manual call points (mcps), warning devices, ancillary equipment and field wiring that are connected to the fip must match the fip configuration. the fip configuration data, which is entered during programming, is stored in the non- volatile memory database. the database may be saved to a computer for backup storage, and reloaded from the computer. all programmable options have a default option for the most likely usage. that is, for many applications, no programming other than entry of site and zone names will be necessary. programming is described in detail in the f3200 as4428.1 programming manual lt0256. 4.2 module configuration the required modules are fitted to the f3200 as described in section 2.3.2. note that 8 way modules are connected bus out to bus in, with all 8 zone modules preceding any 8 relay modules. where it is desired to add a module to an existing system this can be done by programming the module configuration through the keyboard (refer to lt0256 programming manual). the f3200 does various self-tests on start up and includes checking to see what modules are present (including 16 zone led display bds). it displays the results on the lcd. if the modules present do not agree with the programmed database then the fip annunciates this and remains inactive. e2 initialisation causes the controller/display to accept the modules found as present and stores this configuration in the database. e2 initialisation also clears all other data programmed in the database. for servicing, modules can be temporarily re moved as detailed in section 10.2 of the operator's manual. this temporary configuration is not stored in the database. document no: lt0255 f3200/ndu as4428.1 installation manual configuring a fip issue 1.04 30 june 2004 page 4-3 4.3 battery & power supply 4.3.1 general the f3200 fip has a dc power supply, which also serves as battery charger and requires a 24v sealed lead acid battery (i.e. 2 x 12v batteries in series) to be fitted. (see section 3.3.3 for compatible batteries). battery leads with 4.8mm quick connect receptacles (for connecting to the battery tabs) are included. charger rating (refer to as1670.1 section 8.2). the standard f3200 has a 3a power supply. versions are also available with a 6a psu. this has a second mains transformer, a 3a rectifier pcb and a larger heatsink connected to the maf/psu. several components on the pcb are also upgraded. when a 6a power supply is fitted, the standard ptc on the maf/psu are shorted out and additional battery protection must be fitted (see section 4.3.5). to comply with as1670.1 the power supply rating must be sufficient to charge the batteries while powering the panel with 2 zones in alarm. this includes all remaining quiescent loads, common alarm load, plus 2 (or 20%, which ever is greater) of all connected fire suppression systems in the active state (i.e. solenoids, warning signs, etc). the definition of charging the batteries is supplying enough current to charge them within 24 hours to provide a capacity that will support 5 hours of fip quiescent load (i.e. with mains off) followed by 0.5 hour of alarm load for two, worst case zones. the recommended order of performing calculations is listed in section 4.3.2. battery rating (refer to as1670.1 section 8.2). the battery capacity must be sufficient to support 24 hours of quiescent load (i.e. with mains off), followed by 0.5 hour of alarm load for two worse case zones. notes 1. the quiescent load includes the fip electronics (in normal state) plus any external normally energised loads that operate from the battery backed supply. hence door holders are normally supplied from a non-battery backed supply. 2. alarm load includes fip electronics (in alarm state) plus any external loads such as common warning system, air conditioning shutdown relays, etc, plus the 2 (or 20%) fire suppression zones. 3. the capacity of a battery depends on the rate (i.e. current) at which it is discharged. most batteries are quoted at a 20 hour discharge e.g. a 10ahr battery will supply 0.5a for 20 hours. at 3 times the current (i.e. 1.5a) the same battery will discharge in typically 5.6 hours, i.e. the capacity is only 8.5ahr. at 10 times the rate the capacity is approximately 75% of the 20 hour rate capacity (i.e. 7.5ahr). hence for alarm loads it is safest to derate the capacity to 75%. f3200/ndu as4428.1 installation manual document no: lt0255 configuring a fip page 4-4 30 june 2004 issue 1.04 general (continued) 4. the approvals laboratory recommends using 90% derating of batteries used on f3200 because the battery fail voltage (standby) is 22v instead of 21v (as used on some other fips). the local approval body may not require this, however, because although the f3200 will not generate new alarms below the battery fail voltage, it will maintain any alarms and outputs that occurred when the voltage was higher than the battery fail voltage. as1670.1 does, however, recommend 80% derating of batteries for the effect of ageing, i.e. multiply the required battery capacity (at end of life) by 1.25 when calculating the required capacity for a new battery. 5. for maximum physical battery sizes refer to "battery size". (refer to section 4.3.4). 4.3.2 battery/charger calculations the recommended order of calculations is as follows: 1. calculate the fip quiescent load (iq) from the figures given in section 3.3.5. note that the detector load for each azc has to be added to the quiescent current per azc. calculate in separately, where in is the external non-alarm, non-battery backed load on the fip psu (e.g. door holders). 2. calculate the fip alarm load (ia) for 2 zones in alarm from section 3.3.5. (include all external loads e.g. warning system, relays). 3. calculate the 5 hour/0.5 hour battery capacity for the charger requirement as follows: cap (5 hr) = (5 x iq) + (0.5 ia x 1.33) ahr = 5iq + 0.66ia where iq = quiescent current ia = alarm current note that the 1.33 multiplier increases the required capacity to allow for an alarm load of up to 10 times the quiescent load (i.e. 75% derating of capacity). 4. find the greater of iq + in, or ia. calculate the power supply/charger requirement (ic) as follows and check that it is less than 3a. (if greater, a 6a charger is required). ic = i + cap (5 hr) 24e where i is the greater of iq + in, or ia, and e is the charging efficiency of the particular battery being used, at the current being used (typically 80%, i.e. (cap/24) x 1.25). 5. calculate the battery capacity as follows: cap (24 hr) = (24 x iq + 0.66 ia) x 1.25 (see note 4 of section 4.3.1 regarding the x 1.25 multiplier). select a battery which has a rated capacity (i.e. 20 hr rating) equal to or above that just calculated. (refer to sections 3.3.3 and 4.3.4 for approved types). 4.3.3 example battery/charger calculations an example fp0781 fip has the following configuration: 3 8zms total (i.e. 2 x fp0553 expansion modules fitted) 1 8rm fitted 20 azcs enabled, 4 disabled 42ma total detector current on the 20 azcs 350ma of door holders off +vnbf 5 relays on the 8rm used, with supervision enabled, all switching 24v, 50ma relays, normally de-energised. ancillary relay 1 (on the maf) switching a 24v, 100ma load document no: lt0255 f3200/ndu as4428.1 installation manual configuring a fip issue 1.04 30 june 2004 page 4-5 example battery/charger calculations (continued) an external 24v bell drawing 30ma. a pa0765 t-gen50 (tones and fault monitoring) with a 16w speaker load. calculate the required battery capacity and check the power supply capacity. steps 1. the quiescent load (iq) for the mains fail situation is: 130ma (fip including one 8zm) + 82ma (second 8zm, all azcs enabled) + 4ma (third 8zm, basic current only) + 4 x 10ma (third 8zm, current for 4 azcs) + 42ma (detector current) + 6ma (8rm, supervision enabled) + 42ma (pa0765 t-gen with fault relay enabled) 346ma say iq = 0.35a for mains off. the quiescent load for mains on is iq plus the door holders (in = 0.35a) i.e. 0.70a. (it was purely coincidence that iq = in). 2. say, for example, that the 2 zones in alarm can, at most, turn on 3 of the 5 module relays plus the external bell, the t-gen warning system and the anc 1 load. the alarm load for 2 zones in alarm is therefore: 275ma (fip including 1 8zm, 2 zone alarm, maf relays) + 82ma (second 8zm, quiescent only) + 44ma (third 8zm, quiescent only) + 42ma (detector current) + 6ma (basic 8rm current) + 3 x 11ma (3 relays on 8rm) + 3 x 50ma (loads on 3 relays) + 100ma (ancillary 1 relay load) + 30ma (bell load) + 704ma (t-gen50 alarm load of 16/50 x 2.2a). 1466ma say ia = 1.47a (the door holders are switched off in alarm). 3. cap (5 hr) = 5 x 0.35 + 0.66 x 1.47 ahr = 2.72 ahr 4. battery charger current required is: ia (1.47a) is greater than iq + in, (0.70a), therefore: ic = 1.47a + (2.72/24) x 1.25 = 1.61a (where the 1.25 allows for charging efficiency e of 0.8) i.e. 3a is sufficient. 5. battery capacity cap (24 hr) = [(24 x 0.35) + 0.66 x 1.47] x 1.25 = 11.7ah. (where the 1.25 allows for battery deterioration over lifetime to 80% of new value). two 12v, 12 ahr sealed batteries from the list in section 3.3.3. are the smallest batteries that are suitable. f3200/ndu as4428.1 installation manual document no: lt0255 configuring a fip page 4-6 30 june 2004 issue 1.04 4.3.4 battery size the maximum battery size given in the specification, section 3.3.3, of 220mm x 220mm x 175mm, is imposed by the cardframe, which obstructs insertion and removal of batteries in the bottom of the cabinet. the maximum sizes which fit within this restriction are: century yuasa ps-12400 40 ahr irh bb battery bp 40-12 40 ahr panasonic lc-x1242p (ap) 42 ahr yhz power gp12400 40 ahr yuasa np38-12 38 ahr if batteries larger than this are required, then the cardframe can be made removable by replacing the 3 pop rivets with m4 or m5 screws and nuts. for an fp0780/782, or an fp0781/783 with a removable cardframe, the maximum allowable size is 220h x 260w x 175d. fitting and removing batteries of this maximum si ze is difficult, and may require the removal of any modules or brackets fitted in the bottom of the cabinet. these very large size batteries may also impede the plugging in and removal of modules fitted to the bottom position of the cardframe. battery combinations large capacity batteries can be made up of two parallel sets of 24v batteries of smaller capacities. this allows easier fitting, and allows larger capacities, and a greater range of capacity to be achieved than is possible with a single pair (as indicated above). 4.3.5 battery overcurrent protection the maf/psu has two parallel ptcs, rated to carry over 3a, for battery overcurrent protection. where the alarm load from the battery to the fip is greater than 3a (i.e. with mains failed), or where a 6a power supply is used, an external, self-resetting, overcurrent device of suitable rating (greater than 6a, less than 35a e.g. derwent, 10a type d (connected to pins 1 and 3)) must be wired between the battery terminals on the maf/psu and the battery (see fig 4.3.2). for this option the ptcs must be shorted by soldering a suitable copper wire between the two adjacent test points +vb and batt+ (tp11 and tp16 on the maf/psu). for a fip supplied with a 6a psu, this is done in the factory and the derwent cut-out is included. document no: lt0255 f3200/ndu as4428.1 installation manual configuring a fip issue 1.04 30 june 2004 page 4-7 fig 4.3.2 battery overcurrent protection for loads greater than 3a f3200/ndu as4428.1 installation manual document no: lt0255 configuring a fip page 4-8 30 june 2004 issue 1.04 4.3.6 powering an f3200 from an external dc supply to comply with as1670.1 f3200 uses a 240vac supply as the primary power source and back-up batteries as the secondary power source. however the f3200 may be powered from an external dc supply. this must be ba ttery backed, or have another form of secondary source to comply with as1670.1. the supply must provide a voltage and current within f3200?s operating range (preferably 25-27vdc). the following wiring instruction connects the dc supply voltage onto the ac (low voltage) input so that the mains on leds on both the maf/psu and controller pcbs are illuminated. because this signal is not ac, the controller interprets that as a ?mains fail? condition and automatically disables the charger monitoring and automatic battery test, so that the latter does not have to be disabled by programming (but can be if desired). with no mains (ac) present the real time clock (rtc) on the controller display will use the crystal time base instead of mains 50hz and will therefore not be as accurate. wiring disconnect the secondary wires of the transformer from the ac in tabs on the maf/psu. cable tie them safely out of the way (if the mains is not connected they will not be live). connect the dc supply ?ve to the battery ? terminal, and the +ve to the battery + and, if the mains power on led is to be lit to the j3/1 ac in tab on the maf/psu. this requires a 2mm crimp receptacle (or alternatively may be soldered and preferably covered with sleeving). if the maximum alarm load can be greater than 3.5adc, but less than 7a, fit a second ptc (vigilant part rr0917) to the r43 position on the maf/psu (adjacent to the existing ptc, r42). if the alarm load can be greater than 7a then short out the ptcs (connect tp16 to tp11) and fuse the external supply with a suffi cient rating to meet the maximum alarm load, but not so high as to not blow on a short circuit or wiring fault. the +vnbf output (j7a) must not be used. current calculations add an extra 80ma to the stated f3200 quiescent and alarm currents if the connection to the j3/1 ac in terminal is made. programming with a external dc supply the f3200 should be programmed with mains disabled and ?fault after 8 hours of mains fail? also disabled. with default programming, a battery low fault will occur if the supply voltage falls below the specified threshold. this may be disabled by programming. (the installer must consider the requirements for a fault warning at 50% of battery capacity). document no: lt0255 f3200/ndu as4428.1 installation manual configuring a fip issue 1.04 30 june 2004 page 4-9 4.4 links on pcb modules 4.4.1 controller/display apart from e2init (sw1) and database write protect/enable (lk7) all links on the controller display are factory set. (these configure the pcb for memory chips used, other functions, and type e.g. as a fip controller or an rdu controller). sw1 and lk7 are described in lt0256. 4.4.2 maf/psu of the 4 links on the maf/psu, 3 are for field adjustment as follows: lk2-lk4 bells/anc 3 - fitted in factory to provide switched 24v output. (bells+, bells-) to drive the warning system. - snip all 3 for clean changeover contacts (no, com, nc). note that lk2-lk4 must remain fitted to provide the required supervision of the warning system. no links are required for ancillary relay 1 and 2 supervision as these have a separate ?sup? terminal. one is for factory configuration as follows: lk1 master/rzdu - fitted for master. - snipped for rdu (3-wire isolated connection to fip). 4.4.3 8 relay module the 8 three position links (lk1-lk8) select load supervision for each relay. u <-> unsupervised (voltage free) s <-> supervised note that in addition to setting the minijump for supervision, supervision must be enabled during programming (default). 4.4.4 16 zone led display the last display bd in the chain (i.e. in furthest left position as viewed from the front) requires the minijump provided to be fitted to lk1. document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-1 chapter 5 installation & wiring f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-2 30 june 2004 issue 1.04 5.1 installation 5.1.1 cabinet installation the location of the f3200 fip is chosen by the fire authority and building owner (or owner?s representative) in accordance with the australian standard as1670.1. if the cardframe needs to be made removable to allow fitting/removing of large batteries, this should be done prior to cabinet installation. (refer to section 5.1.2). the cabinet is normally fixed to a wall with four 6 mm screws or bolts. the drilling details are shown in fig 5.1.1. the following conditions are required: 1. dry area, moderate ambient temperature, 45 c absolute maximum. 2. not exposed to direct sunlight. 3. not subject to outdoor conditions without suitable protection. 4. the lcd should be at average eye level and must not be higher than1850 mm or lower than 750 mm above floor level (see fig 5.1.1). 5. clear access and viewing for firefighters and operators. 6. at least 1 metre free space should be provided in front of and on sides of the fip for installation and maintenance. 7. must not be installed in hazardous areas as defined in as3000. 8. if recessed into a wall: i. allow for the door to open at least 145 . ii. prevent water entering the cabinet - seal unused knockouts and any top cable entries. preferably use bottom cable entry, with cables going down 100 mm below cabinet before rising. it should not be necessary to drill within the cabinet, but if drilling or filing is required, remove the pcbs first. clean out all swarf before replacing the pcbs. use antistatic precautions when handling the pcbs. warning the f3200 is a class a product. in a domestic environment it may cause radio interference in which case the user may be required to take adequate measures. document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-3 430 (8u cabinet) 415 (15u cabinet) < > 102 (8u cab) 150 (15u cab) o o o /6.0 o /6.0 280 8u cabinet 450 15u cabinet o o o /6.0 o /6.0 1750 (max) 1220 (min) all dimensions in millimetres finished floor level {{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{ {{{{{{{{{ / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / fig 5.1.1 fip cabinet mounting details f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-4 30 june 2004 issue 1.04 5.1.2 cardframe installation a kt0072 cardframe upgrade kit can be fitted to a 15u f3200 to allow it to take more than three 8 way modules. 1. if the system does not require large batteries (refer to section 4.3.4) it may be fitted as follows, using a pop rivet gun and m4 nut driver. with fip power not connected, batteries not fitted. 1. remove the gear plate. 2. remove all 8 way modules. 3. remove the 3 sets of pcb standoffs on the left side rear of the plate. 3. remove the m4 nuts, washers and pcb spacers from the 3 m4 studs on the left side of the plate. 4. fit the cardframe over the studs with the m3 bushes on the right hand side. 5. refit the 3 pcb spacers, washers and nuts on the inside (do not yet fully tighten). 6. from the plate rear, with the cardframe firmly against it, insert the 3 pop rivets provided into the holes in the cardframe, and rivet. 7. tighten the m4 nuts on the studs. 8. refit the gear plate to the cabinet 2. if a system requires the cardframe to be removable to allow the fitting/removing of larger batteries, then the procedure is similar to that described in 1a above, but, instead of pop rivets, m4 screws should be used as follows: 1. use three m4 x 10 or m4 x 12 screws, with nuts, and shakeproof washers. 2. fit the screws with the heads to the rear of the gear plate, washers and nuts inside the cardframe. 3. put some locktite (or equivalent power glue) under the heads of the screws (but not on the threads). 4. tighten the nuts on the screws initially holding the heads of screws. 5. subsequent removal of the nuts (after the locktite has dried) should be possible without removing the gear plate. document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-5 5.1.3 module installation the 8 zone modules and any 8 relay modules are fitted in order, from top to bottom. the frcs fit under each pcb, from bus out of the top one to bus in of the next one (see fig 5.1.2). observe the following: (a) when mounting to the cabinet the m3 mounting screw per module should be tightened firmly to earth the module. (b) modules and frcs need to be fitted one at a time in the cardframe. it is easier to start from the bottom module and work up. (c) care should be taken not to scrape an frc against the bottom of the pcb above it. (d) there are redundant slots in the cardframe to allow for either 6 module even spacing or 8 module even spacing. choose the correct slots. (e) on the cardframe finger tighten the single m3 screw firmly into the notch in each pcb as this earths the module. fig 5.1.2 module connection within a cardframe f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-6 30 june 2004 issue 1.04 5.1.4 led display installation when led displays are required, the 7u inner door (me0060) is fitted to the standard cabinet directly below the 4u operator display with the m6 screws, washers and cage nuts provided. the hinge is on the right hand side. click the cage nuts in from the inside. (7u doors cannot be fitted to a small cabinet). the flat m6 washers have a sharp edge and a rounded edge. fit washers to the screws with the rounded edge facing the metalwork (to avoid damaging the paint). the display bds mount to the inner door on the standoffs supplied. (fz3031 for lh position, fp0475 for others, both include the pcb, standoffs, frc, power leads, diffuser and label master). fit the frcs and minijump link as shown in fig 5.1.3. it is recommended that the led display power leads from the maf/psu be fitted. 5.1.5 zone labelling zone labelling for the led displays can be done simply on a typewriter or word processor. note: for a typewriter use a photocopy of the label supplied with the display bd. the type format is: (a) 6 lines per inch. (b) 20 characters at 10 cpi or 24 characters at 12 cpi. (c) 2 lines per zone window. (d) 1 line between each zone window. to install the zone naming label: (a) cut the typed label around the border, or cut the word processor sheet to 3mm to the left of the text then 60mm wide and 220mm long. (b) loosen the 4 phillips-head screws holding the display window. (c) align zone text with windows. (d) tape top and bottom of zone label. (e) align clear, matt finish, light diffuser with the 3 columns of led holes (next to the label) with matt side in. tape in place. (f) tape blank sheets to unused zone window(s). (g) replace display window and fasten the 4 screws. document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-7 TTTTTTTTTTTTTTTT[ XTTTTTTTTTT[ XTTTTTTTTTT[ XTTTTTTTTTT[ j13 U U U U U U U U lm0092 U U U U U U controller l U U U U U U i frc U U U U U U U U U U U U U U U zones U U zones U U zones U TTTTTTTTTTTTTTTTa U 48 to 64 U U 17 to 32 U U 1 to 16 U U U U U U U U ext+ U red U ext+ U U ext U red ??o o o oo o o oo o lk1 U ??o o o oo o o oo o fitted U U - U black U - U U U TTTTTTTTTTTTT[ U j1 j2 U U j1 j2 U U j1 j2 U U ^ThThTThThTa ^ThThTThThTa ^ThThTTTTTTa j15 U led +o o display -o o display frc U black U U the order of the display boards is as viewed maf/psu U from the rear (i.e. inside). U U TTTTTTTTTTTTTa fig 5.1.3 display board connection note that a special loom (lm0092) is required to connect the first display board to the controller board. this is included in the f3200 led display kit (fz3031). for an ndu in new zealand mode, if a nz display extender board is fitted then it is added to the end of the display board chain after the last 16 zone display board (if any) and link lk1 on the last 16 zone display board must be not fitted. the nz display extender does not need a link fitted to it, its presence indicates to the ndu that it is the last board in the chain. when programming the number of display bd, the display extender is not counted, but is individually programmed as fitted/not fitted. the unprotected termination board, pa0483, connects to the nz display extender via frc. the nz specific wiring connects to this termination board. f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-8 30 june 2004 issue 1.04 5.2 field wiring 5.2.1 general cabling should comply with all the points in as1670.1, section 8.17. note the requirements for segregation and identification. the cabling should, in general, be of not less than 0.75mm2 cross sectional area, insulated and have red pvc sheathing. joins should only occur in enclosed terminal boxes, and it is important that all terminations be good. i.e. no bare wire protruding from the terminal; no insulation inside the clamp part of the terminal; wire not cut or "nicked" during stripping; wire not soldered; wire not "doubled back" in the demountable terminals with leaf type strain relief clamps; all terminals firmly tightened; neat service loop; goose neck where servicing requires cable movement; coil of spare cable in wall/ceiling to allow for mistake/alteration. note that it is best to carry out parts of the initial survey during installation, in particular, resistance and insulation testing. w a r n i n g apart from the mains supply to the fip, only elv cabling should enter the cabinet. fig 5.2.1 screw terminal cable connection document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-9 fig 5.2.2 gooseneck cabling 5.2.2 mains wiring the mains (240vac) supply must be connected in accordance with as1670.1 and as3000 regulations. ensure the mains cables to the fip are isolated at the distribution board before connecting to the fip. the mains cable connects to the 3 way terminal block mounted to the cabinet rear behind the mains cover. (a) remove the mains cover with a pozi screw-driver. (b) shape the mains cable to fit through the grommet in the slot in the top of the cover, cut to length and strip only 20mm of the pvc cable sheath. (c) connect the wires: blue (black) to n brown (red) to a green/yellow (green) to e take care when stripping not to "nick" wires. (d) cable tie the cable to the cabinet. (e) refit the mains cover . f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-10 30 june 2004 issue 1.04 5.3 azc wiring detectors must be installed and wired as per as1670.1. observe the requirements for conductor type and size. connection to the particular mcps, detectors or bases must be as specified by the manufacturer. similarly for remote led connection. azcs must be wired as per fig 5.3.1 with "in" of the first detector connected to the 8zm, and the eolr to the "out" of the furthest detector. examples of illegal wiring are shown in fig 5.3.3. 8zm o+ +o ? o+ +o ? o+ +o ??? o + ? cctn eol out in out in out in ?? o - o- -o ? o- -o ? o- -o ? o fig 5.3.1 correct azc detector wiring the tyco su0600 mcp may be used on a circuit that has detectors on it, so that activation of the mcp does not reset the indication on any already activated detector. wiring of the su0600 is shown in fig 5.3.2. the zone must be programmed with b3 = instant alarm. fig 5.3.2 tyco su0600 connection note that a 47 ohm resistor is required between the f3200?s azc +ve terminal and the detector circuit when any t614 (mk1), 4098-9618ea, 4098-9619ea or 4098-9621ea heat detectors are present on the circuit (refer pbg0116). su0600 document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-11 e o+ +o ? o+ +o ? o+ +o ? _ _ o + o out in out in out in azc l o- -o ? o- -o ? o- -o ?? _ _ o - x x e o+ +o ? o+ +o ? o+ +o ? x x o out in out in out in x l o- -o ? o- -o ? o- -o ? x x x x e o+ +o ? o+ +o ? _ _ o+ +o ? o + o out in out in out in azc l o- -o ? o- -o ?? _ _ o- -o ? o - x x o+ +o ? x x out in x o- -o ? x x x x e o+ +o ? _ _ o+ +o ? o+ +o ? o + o out in out in out in azc l o- -o ?? _ _ o- -o ? o- -o ? o - x x e o+ +o ? x x o out in x l o- -o ? x x x x o+ +o ? e o+ +o ? o+ +o ? o+ +o ? o + out in o out in out in out in cct o- -o ? l o- -o ? o- -o ? o- -o ? o - x x x x x x x x x fig 5.3.3 examples of incorrect azc wiring f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-12 30 june 2004 issue 1.04 5.4 maf ancillary relay wiring the original (as1603.4) f3200 has a single warning system output and isolate switch, namely the anc3/bells relay, configured as bell+/-, and the ?bells isolate? key. it is now typical for fips to control two outputs, i.e. a single external bell (or strobe), and a separate building warning system that produces tones to as2220 or iso8201. the maf module has 3 ancillary relays. typically, anc 1 is used for door holders, air- conditioning shutdown etc; anc 2 is used for the external bell; and anc 3/bells is used for the warning system. wiring of the external bell should be as per fig 5.4.2 using anc 2. the warning system is covered in section 5.5. anc 1 and anc 2 each have 1 set of voltage free contacts available on screw terminals, and a second set to which the screw terminals are not fitted as standard. where supervision of wiring is required, the supervision (sup) input is used as shown in the following figures. door holder wiring door holders are typically powered through norma lly closed contacts from the non-battery backed supply (+vnbf). as door holders are inductive, a suppression diode should be fitted between 0v and the door holder positive line. where door holders have individual manual release buttons, suppression should be fitted at each device. observe polarity, the cathode of the suppression diode is connected to the positive line. where supervision is required, the recommended connection is as shown in fig 5.4.1 a or b with a return from the furthest door holder. the alternative shown in fig 5.4.1 a does not supervise the loop. the 24v relay used at the end of the loop in fig 5.4.1 b only needs to switch low current. "door holder" mode supervision "looks for" the presence of voltage when the ancillary relay is de-energised. plant relay/solenoid wiring where a plant relay is to be energised on ancillary relay operation it would typically be powered through normally open contacts from a battery-backed supply. if wiring supervision is required, it is connected as shown in fig 5.4.2. "load" mode supervision looks for a resistance to 0v when the ancillary relay is de-energised. for a very low resistance load (ref specifications section 3.4.2) a series diode must be fitted as shown. heavy load wiring if a load greater than 2a resistive (1a dc inductive) needs to be controlled by f3200 then this can be achieved with the addition of a 24v bell monitor board (pa0494). this can switch up to 5a dc (resistive) and supervises the load wiring for open and short circuit faults. further details for the bell monitor board are contained in lt0190. a representative wiring diagram is shown in figure 5.4.3. if the load exceeds 2a dc then the power connection must be taken off +vbf2 or directly off the battery terminals via a suitable fuse (but not the +vbf1 terminal). the fuse and wiring are supervised by the bell monitor board, as it will generate a fault if power to it fails. document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-13 w a r n i n g apart from the mains supply to the fip only elv wiring may enter the cabinet. relays must not be used to directly switch medium or high voltage. +vnbf o supervision return | sup o ? | ancil| nc o <- alternative 1 | | com o ? VkY ? ? ? ? 1n4004 0v o ???? suppression door holders diode a. with supervision of loop positive wiring only +vnbf o supervision return | sup o ? | ancil| nc o 1 | | com o VkY ? ? ? VkY ? o no * * / o com 0v o ????? * suppression door holders +24v relay diode b. with supervision of loop positive and negative wiring fig 5.4.1 example of door holder wiring with supervision f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-14 30 june 2004 issue 1.04 +vbf1 o | sup o | ancil| nc o 1a | | no o load | (see note) | com o ? VkY 0v o ? suppression diode note: for a load of less than 400 ohms a diode of suitable current rating must be added in series with the load at the load as shown below. ?VkY ? load diode diode \h_ or ? ?VkY diode load diode \h_ 0v 0v ? fig 5.4.2 example of plant relay wiring with supervision figure 5.4.3 example of supervising multipl e branches of multiple loads vbf no c nc sup 0v eolr evac +v ext def- 0v ancil relay evac- eolr bell monitor rev 3 up to 3 branches of load. evac+ document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-15 5.5 warning system wiring the typical configuration allocates the ancil 3/bells relay to drive the warning system, and has links lk2-4 fitted so that a switched 24v output is available at the +/- terminals. the supervision allows for up to 3 branches of wiring, with each requiring its own end of line resistor (eolr). the value of the eolr varies with the number of branches such that the combined total is always 3k3. the eolr must be fitted at the end of each branch. branches eolr 1 3k3 2 6k8 3 10k the ancil 3/bells output can be used to directly control alerting devices such as sounders (that generate tones to as2220 or iso8201), avis, strobes etc. if each device does not have an internal series diode then a series diode must be fitted at each device, as shown in fig 5.5.1. the diode must be rated to carry the current of the device. the avi mk2 includes a series diode and multiple units can be connected to a common line, be supervised, and have the synchronisation wire inter-connected. note the original avi (fp0628) requires an external series diode to be fitted at each device for a supervised circuit. multiple original avis cannot be synchronised because the sync line carries the signal and is not supervised. the bells +/- output is limited to 2a dc resistive max. (note that loads such as avis, mini- gens are considered resistive, whereas loads su ch as solenoids and bells are inductive). a load of up to 5a dc resistive can be accommodated by use of a bell monitor board and a separate, 6a dc, inline fuse. see fig 5.5.6. a relay on an 8 relay module can also be used to control and supervise a circuit of evacuation devices. this is shown in figure 5.5.3. note that both poles of the relay are needed and the relay needs to be programmed so that it doesn?t supervise the wiring when it is activated (requires v2.09 or greater software). although shown with only 1 circuit of evacuation wiring, it can actually support two branches, using a 27k eol resistor on each. the ancil 3/bells relay can also be used to activate (and supervise) external tone generation devices such as mini-gen, t-gen, microvac and qe90 this is covered in following sections. mini-gen the mini-gen has an internal diode and can be connected with up to three branches of speakers as per the instructions included with each unit. the 10k eolr fitted to each speaker line must be rated at 2w and is supplied with the unit. refer fig 5.5.2. if less than 3 branches are required, 10k 2w is still fitted to the end of each branch, with the other eolrs being fitted to the +/- dc input terminals of the furthest mini-gen. refer to the instructions. the mini-gen can be link selected to produce an alert tone, an evac tone, an automatic change from alert to evac after 1 minute, or an automatic change after 3 minutes. if desired, it can be configured to produce evac, with a relay switching the tone to alert. for this, a mini- jumper is fitted to link v, and the supplied 3 way connector fitted to link a/b with normally closed relay contacts shorting pin 2 to 3 (position b) to produce alert. when the contacts open, the tone will change to evac. note that this applies only to mini-gen rev 3 bds with v2.00 or greater software, and for internal wiring of the relay to the mini-gen (i.e. the mini- gen must be mounted within, or adjacent to the fip.) f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-16 30 june 2004 issue 1.04 t-gen 50 the t-gen 50 is permanently powered, requiring a supervised alarm- signal from the fip rather than switched power. the bells- terminal can be used for this, refer figure 5.5.7. alternatively, an ancil relay on the maf, or an 8rm relay can be used as per sections 3.4 and 3.5 of the t-gen installation instructions, lt0186. note that a 2k5 eld (3k3 and 10k 1% in parallel) must be used for the bells relay, when connecting to the alm- input on t-gen. configure the t-gen to not supervise its alm- input (sw4 off). alternatively, an open collector output could be used, but the t-gen will need to supervise its alm input and be fault supervised via an unused f3200 circuit input. microvac and qe90 the anc 3/bells output can be used to activate a microvac/qe90 and to supervise the link for a fault condition. a 24v relay (e.g. pa0730 general purpose relay bd) is required to be mounted within the microvac/qe90, and the wiring as shown in fig 5.5.4. alternatively the anc 3/bells output can be made voltage-free (remove lks 2, 3, 4 on the maf) and a spare 8 zone input can be used to supervise the microvac/qe90. this arrangement, shown in fig 5.5.5, does away with the relay, but requires a 4-wire connection and one spare input. the input should be programmed as a status-only zone and the fault state included in the logic equation to generate a warning system fault. e.g. for zone 16 wsf = z16f. a high level link can be achieved between the f3200 and qe90 using the rzdu communications output. this is only suitable for when the f3200 and qe90 are co-located, as there is no duplication of the cable. details for this wiring are contained in the qe90 installation and commissioning manual lt0088. in addition, the qe90 needs to be supervised for a fault condition. this can be done as shown in fig 5.5.5 using a spare zone input or as in 5.5.4 using the ancil 3/bells output supervision. ? ? \h_ \h_ ? ? ? 6k8 ?? + o ?? ? ? ? diode \h_ \h_ \h_ ancil 3 ? ? ? ? bells 6k8 - o ???? fig 5.5.1 example of wiring with 2 supervised branches for devices with no internal series diode document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-17 fig 5.5.2 example of multiple mini-gens with 3 branches of speakers note that this configuration requires that the relay confirmation (act) be disabled. fig 5.5.3 example of a supervised evac cct using 2 poles of an 8rm relay f3200 + 24v mini- gen (pa0895) - + - + - s + - + - s + - fire panel dc in dc in line out line out 2-w link fitted 2-w link fitted 24v mini- gen (pa0895) bells + bells - eolr 10k 2w eolr 10k 2w eolr 10k 2w +vbf no pole 2 nc c pole 1 no nc c s 0v 4k7 eolr (27k for dual branch) f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-18 30 june 2004 issue 1.04 fig 5.5.4 wiring ancil 3 to microvac/qe90 fig 5.5.5 wiring ancil 3 and 8zm input to microvac/qe90 microvac/ qe90 fip i/p normally - closed fault relay microvac or qe90 (* = eolr for f3200 azc) no microvac a ncil 3 qe90 eol c remove lk2, 3, 4 on maf + f3200 azc - * document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-19 notes 1. wire an in-line fuse holder with 6a fuse from batt+. 2. the bell monitor must be rev 3 or greater and is supplied with instructions, adhesive based stand-offs, and eolrs. figure 5.5.6 using bell monitor board on ancil 3/bells relay figure 5.5.7 wiring t-gen to f3200 bells/anc 3 relay 2k5 eld 56k dual line 50w max total t-gen 50 master +24v +24v + 0v 0v line a lm- - sig no fault com t-gen 50 slave +24v +24v + 0v 0v line sig - no fault com +24v 0v bells -/c single line 50w max (see note 2) eld 100k eld 100k (see note 2) (see note 2) f3200 maf see text batt + no nc bells + 0v eolr +v evac 0v anc 3 evac - eolr bell monitor rev 3 up to 3 branches of load. evac + 2k7 6adc fuse ext def - bells - lk2 lk3 lk4 f3200 f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-20 30 june 2004 issue 1.04 5.6 module relay wiring the 8 relay module relays each have one set of voltage free change-over contacts (ie one pole) accessible via screw terminals, to switch plant equipment. the second pole of each relay can be accessed by fitting a 3-way de-mountable connector block pair cn0488 and cn0206. there are two sets of four inter-connected, voltage free, looping terminals per module that can be used for looping supplies onto relays or loads. if the load switched is inductive e.g. a solenoid coil, a suppression diode must be fitted as shown in fig 5.6.1. supervision supervision of the field wiring from the fip to the load is shown in fig 5.6.1. this only works for a single load, or multiple co-located loads wired in parallel (though for multiple co-located loads, the supervision will not detect a fault if one load becomes disconnected). it requires the load or an eolr to be connected between the relay com terminal and the fip 0v, and the supervision link on the module to be fitted in the "s" position. if the com output does not ?see? a supply voltage or open circuit when the relay is activated (requires v2.09 or greater software, then the relay must be programmed to not supervise the load when activated. an example of supervising a circuit of multiple, separately located loads using 2 poles of one relay is shown in fig 5.5.3. +vbf o | no o | rln | nc o inductive load | (see note) | com o ? VkY s o o 0v o ? suppression a . diode note: for a load of less than 400 ohms a diode of suitable current rating must be wired in series with the load at the load as shown in b. below. inductive ?VkY ? load diode diode \h_ or ? inductive ?VkY diode load diode \h_ 0v 0v ? b. fig 5.6.1 examples of module relay wiring with supervision document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-21 5.6.1 dual pole ? polarity reversal output two relays; or 1 relay, an open collector output and an external 2 pole relay (e.g. pa0730); can be arranged to provide a supervised dual-polarity output suitable for driving dual strobes (alert and evacuate) or some visual warning devices (e.g. an avi). the output is normally off (supervising voltage only), but can turn on with 24v in one polarity or in the other polarity. this is shown in figure 5.6.2. if the dual pole relay is a second 8rm relay then the additional connector blocks need to be fitted (cn0260 and cn0488). supervision is not enabled on this relay. the supervision on the other relay will detect any short circuit, but may not detect an open circuit with multiple sets of strobes/avis. this will depend on the type of strobe/avi and the quantity remaining connected. the relay should be programmed to operate when either strobe is required, and the open collector output (or 2 nd relay) is programmed to operate for evacuate. note that many strobes have a large capacitor inside them that causes a large in-rush current at power on. therefore it may be necessary to add some series resistance if the cable length to the first set of strobes is not enough to limit the current. add 10-20 ohms for a total strobe current of <100ma, 8-10 ohms for 100ma, and 2 x rr1007 ntcs in series for 300ma-1a. further details are contained in pbg0072a for using this to control a t-gen as well, or to include an auto/isolate switch that can activate the strobes as well as the t-gen. figure 5.6.2 dual polarity output for strobes/avi +24v no nc c relay 1 supervision input + - alert + nc no nc no c c evac + 4k7 strobes dual pole relay (pa0730 or 8rm) 0v open collector evac- avi a lert- f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-22 30 june 2004 issue 1.04 5.7 open collector wiring 5.7.1 led mimic displays it is expected that the most common use the open collector outputs will be to switch leds on "mimic" displays. these outputs are approved for field connection, so may be used to "drive" remote mimics. typical connection is shown in fig 5.7.1. 5.7.2 interfacing to other equipment where the open collector outputs are used to switch inputs to other systems, such as an evacuation system or plant computer, t here are two main options as follows: 1. direct coupling the open collector output switches the equipment input to less than 1v (typically 0.6v at 1ma). e.g. it may be used to switch a 5v cmos input, or monitored 5v, 12v or 20v input. refer to fig 5.7.2. note that for this to work, the 0v supply of the equipment must be connected to the 0v supply of the fip. this may not be desired, especially if the equipment has a power supply connection to earth. note also that the open collector output has protection diodes to the fip positive and negative supplies and should not connected to inputs that could be "pulled" to a voltage above or below these supplies, even with mains failed and battery voltage low. 2. isolated coupling the open collector output can be used to switch a relay, or an optocoupler as shown in fig 5.7.3. when the open collector is "on", the optocoupler transistor is also "on". +vbf ? ? resistor e.g. 4k7 ? ? led ocn ocm fig 5.7.1 example of led mimic wiring further details are contained in pbg0072a for using this to control a t-gen as well, or to include an auto/isolate switch that can activate the strobes as well as the t-gen. document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-23 ? ? + ? ocn ? cct n eolr ? ? 0v 0v f3200 other equipment fig 5.7.2 example of interfacing to other equipment, direct coupling +vbf optocoupler ? resistor + e.g. 4k7 / c cct n ? > \ e ocn - f3200 other equipment fig 5.7.3 example of interfacing to othe r equipment, optical isolation f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-24 30 june 2004 issue 1.04 5.8 ase installation and wiring a centaur ase may be mounted in an f3200 panel or an ndu in a large cabinet. two kits are available, namely kt0199 and kt0212. both are 3u hinged front panels accommodating 1 or 2 ase or v-modem units (or a combination) respectively. the kits include mounting parts and fitting instructions. the ase should be wired directly off the battery via its own fuse. wiring of the ase fp0740 eol unit is as per the ase installation instructions. the red wires are wired across the maf alarm relay nc and c terminals, the yellow wires across the maf fault relay nc and c terminals, and the blue wires across the maf isolate relay nc and c terminals. no other connections to these relays are permitted when the ase eol unit is used. locating the ase remote from the panel has additional requirements under as4428.1 (clause 2.10) that currently cannot be met. document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-25 5.9 rdu wiring a fip may drive up to 8 remote display units (rdus) that are programmed to send information back to the fip. more "monitoring only" devices may be connected to the fip rzdu tx line. some rdus have their own power, but others require their power (24vdc) to be supplied from the fip or an approved psu with battery backup. the rdus are all connected in parallel on common tx and rx circuits. star and bus wiring connections are permitted as shown in fig 5.8.1. note: tx from the fip goes to rx on all rdus rx from the fip goes to tx on all rdus fig 5.8.1 shows an example of interconnection between both maf and non-maf configured rdu(s) and the fip. notes: to maintain electrical isolation: (1) lk1 on the maf/psu board should be cut for rdus with their own maf/psu module. (2) non-maf configured rdus that are powered by a psu other than the fip must have lk3 on the remote termination board cut and lk14 on the controller in the ?r? position. cable limitations the maximum distance to the furthest rdu is determined by the cable type used and the wiring arrangement. (1) the maximum line resistance loop (fip tx out, 0v return must not be greater than 150 ? . (2) the maximum inter-wire capacitance at the fip rzdu terminals must not exceed 100 nf. this must be the total of all cables used - not just the length to the furthest rdu. typically this is 1km of tps cabling. (3) the +v and 0v cables must be of sufficient size to avoid excessive voltage drops to rdus when they are drawing maximum current (e.g. lamp test). f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-26 30 june 2004 issue 1.04 fip maf configured rdu j11 maf bd connector j11 (cut lk1 on maf/psu) XTTTTTTTTTTTTTTe o +vbf2 o +vbf2 U U XTTTTTTe o tx XTTTTTTTTTTTTTTTTTTe o tx rzdu U U U comms XTTTpTTTTTTTpTTTTTTe o 0v U XTTTTTTTTTTTTTe o 0v U U U U U U U XTTTTpTTTTTTe o rx U U XTTTTTTTTe o rx U U U U U U U U U U U U U U U U U U U U U U U TTTTgTTTTTTTTTTTTTTTTTTTTa U U U U U U U U TTTpTTpTTTTpTTTTTTTTTTTTTTTTTTTTTTTTTa U U U U U U U U U TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTa U U U U U U U U g U U U U U U U U U U U U U U U U U U U fip powered U U U U non-maf configured rdu non-maf configured rdu U U U U externally powered U U U U ext 24v psu (cut lk3 on remote term) U U U U +24v U U U ^TTpTTTTpTTTTTTe o U ^TTTTTTTTTTTe o +24v U U U 0v U U U U o ^TTTTTTTTTTTTTTe o 0v U U U 0v ^TTTTTTUTTTTUTTTTTTe o bTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTe o 0v U U rx rzdu U ^TTTTTTe o bTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTe o rx comms U tx ^TTTTTTTTTTTe o bTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTe o tx connectors j1 & 2, remote termination bd fig 5.8.1 example of rdu coms wiring document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-27 5.10 ndu installation and wiring 5.10.1 installation of 19" ndu the ndu is available as a 19" rack mount kit (fp 0794). this must be installed as follows to meet the emc requirements. using the rs485 board as a template, drill 4 x ? 3.5mm holes and deburr. scrape away any paint on the inside face and mount the metal standoffs using 4 m3 x 6 screws and shakeproof washers. mount the rs485 board onto the standoffs using m3 x 6 screws and m3 crinkle washers. mount the 4u inner door onto the 19" rack and earth to the cabinet using the earth lead supplied. run the 10 way frc from j7 (network 1) on the controller to j1 on the rs485 board, keeping it tight against the cabinet metalwork by using frc clamps. run +24v to the j5 terminals on the controller, and the network cables to j3 on the rs485 board. connect any screen on the network cables to the 0v iso terminal on the rs485 board. 5.10.2 mcp connection an ndu with a maf/psu board has an mcp connected to pins 3 and 4 of j6 on the maf/psu board as standard. a slimline ndu has the facility for connection of an mcp, but the mcp has to be mounted on the wall, immediately adjacent to the ndu. connection is made to pins 3 & 4 of j5, the 4 way "spare input connector" on the ndu controller/display bd. the wiring to the mcp is detailed in fig 5.10.1 fig 5.10.1 mcp connection for ndu, australian mode fig 5.10.2 mcp connection for ndu, new zeland mode resistor 2k7 for maf 10k for controller to ndu connector j5 on controller for slimline or j6 on maf/psu eolr 2k7 for maf, 10k for controller 4 3 c nc mcp ?standalone? connector j5 on the controller or to connector j6 on the maf/psu board f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-28 30 june 2004 issue 1.04 5.11 nz mode inputs and outputs 5.11.1 general new zealand mode operation may be enabled on an ndu but not on an f3200 fire panel. an ndu with new zealand mode enabled may be connected to a panel-link network of panels which also have ?new zealand? mode enabled. the ndu may be used with or without a maf board, and optionally with a nz display extender board. if a maf board is used, the ndu may be used as the main brigade connection point of the network. the maf board has relays for signalling alarm (normally energised), fault (normally de-energised) and standby (normally energised and normally wire-ored with fault). the maf board also provides a supervised bell re lay, two supervised ancillary relays, and an ?isolate? relay; all of which can be controlled by output logic if desired. 5.11.2 nz display extender board the nz display extender board, if fitted, is positioned at the end of the led display board chain (the last led display board should have lk1 removed), or connected directly to the controller j13 via an frc (lm0092) if there are no led display boards. the new zealand display extender board has the following inputs and outputs, accessible on the pa0483 termination board, as shown in fig 5.11.1. inputs (all active low) trial evac/sprinkler operated (separate terminals, but internally connected) silence alarms external defect lamp test building services restore brigade test/brigade isolate (shared) evac defect outputs fire led defect led normal led ancil defect ancil fire lamp evac defect/external defect the defect and external defect inputs may be programmed as to whether a defect is signalled for them or not. if defect is not signalled then they can be used as general purpose inputs accessible in output logic. building services restore when the building services restore input is activated, the bsr logic token is set true and this can be used in output logic to turn outputs off or on if necessary. document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-29 display extender board (continued) trial evac when the trial evac input is activated, the bell relay is energised and the bel logic token is set true regardless of any silence alarms or bells isolate condition. silence alarms when the silence alarms input is activated, the bell relay is de-energised and the bel logic token is set false unless trial evac is asserted. brigade test/brigade isolate these conditions share the same input and when true, result in an ?abnormal? system state (but defect is not signalled) that can be recalled with a system fault recall. lamp test this input can be used to test all the leds including the front panel leds, the leds on the new zealand display extender board, the index lamp and any 16 zone led display boards. fig 5.11.1 new zealand extender termination board i/o 01 i/o 02 i/o 03 i/o 04 i/o 05 i/o 06 i/o 07 spare- a nc def- a nc fire- fire- defect- normal- lamp- lamp+ i/o 08 i/o 16 i/o 15 i/o 14 i/o 13 i/o 12 i/o 11 i/o 10 spklr op- trial evac- sil alms- ext def- lamp test- brig isol/test- bsr- evac def- i/o 09 pa0483 0v +v f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-30 30 june 2004 issue 1.04 5.12 installation : nz display extender board & brigade displays 5.12.1 general an ndu is not normally used as a brigade connection point. if an ndu is used as a brigade connection point then, in general, a separate display panel must be provided if there needs to be zone alarm indication to the attending fire brigade staff. the common maf status display is provided by mounting an nz display extender board (pa0499) in the ndu cabinet and wiring to a display in a separate cabinet in one of the ways shown in fig 5.12.1 and 5.12.2. sixteen-zone display boards are not normally connected to an ndu, but the two diagrams show how they can be connected if necessary. an ndu allows a maximum of four 16-zone display boards and each individual led (48 leds per board) must be controlled using output logic which is generally too cumbersome for normal use. the second cabinet is necessary because the leds mounted inside the ndu cabinet do not meet the requirements of nz4512 with regard to visibility and viewing access. an nldu (network led display unit), can often be used to more conveniently drive 16-zone display boards and show individual zone information as part of the brigade mimic display. any ancillary control zone indicators on this external display must be coloured differently or be segregated from the zone alarm and common indicators, and be clearly labelled. there are several methods for providing a separate display panel. two approaches are detailed below. note 1: the information provided here is ve ry similar to the information in the rdu installation manual lt0148 which may be useful to refer to. note 2: as stated above, 16 zone display boards are not normally connected to an ndu, nevertheless, the following sections describe how to do it if necessary. if an nldu is used to drive 16 zone display boards, then the nldu user manual lt0188 must also be referred to. 5.12.2 mimic display a mimic display uses the mimic outputs from the ndu?s internal 16 zone led indicator boards to drive alarm leds in an external display. each group of 16 zone alarms and the common indicators are extended in a separate 26 way frc to the external display. the number of frcs between the ndu and the external display limit the practical separation distance. since the cabling is not supervis ed in any way, the fire service or approving authority may place restrictions on this distance. the cable must be well protected mechanically by conduit, trunking or equivalent. these parts are available for constructing displays of this type: fp0475 fp,16 zone led display extender kit (c/w loom) fz3031 16 zone led display extender kit, rhs position lm0044 loom, display extender frc,2m,26 way lm0045 loom, display extender frc,5m,26 way (longer and 3-way looms can be made to special order) document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-31 mimic display (continued) lm0092 loom, controller to first display, 1.2m pa0483 pcb assy, ior unprotected termination board pa0499 pcb assy, nz display extender board pa0769 pcb assy,16 o/p mimic term ination board,c/w resistors (as for pa0483 but 3k3 resister per output) pa0753 pcb assy,picture frame display,16 led mimic,24v specially designed cabinets for mimic displays are no longer available. various fp1600 empty cabinets and the pa0787 fp1600 mimic display board provide an alternative format. at the display panel there are two possibilities: (i) geographic plan mimic - the frcs from the ndu are connected to termination boards (pa0483). individual leds with series resistors are mounted on the display panel and wired to these termination boards. figure 5.12.1 shows this arrangement. alternatively, the pa0769 termination board has 3k3 resistors already fitted (gives 7ma led current which is adequate for interior use). (ii) column format - where arrangement of zone alarms into columns is acceptable, led mimic display boards can be used. this simplifies the wiring considerably. figure 5.12.2 shows this arrangement. note that a special 3-way frc is required for the display extender board, so that the miscellaneous inputs are accessible in t he ndu cabinet. this is not a standard part, and will need to be made up to suit the application. 5.12.3 display extender board miscellaneous termination the miscellaneous signals available through a nz display extender board are accessible via a 26 way frc and pa0483 unprotected termination board. a termination pin out diagram is given in fig 5.12.3. refer to section 3 for electrical specifications of these signals, and to section 5.11 for their logical functions. f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-32 30 june 2004 issue 1.04 nz display extender board pa0499 16 zone display board pa0454 termination board pa0483 termination board pa0483 26 way frc termination board pa0483 16 zone display board pa0454 26 way frc 6-way cable miscellaneous inputs wiring to individual common leds with series resistors ndu cabinet external mimic display cabinet note: pa0769 termination board can be used instead of pa0483 pa0769 has resistors for leds already fitted to the pcb. wiring to individual common leds with series resistors, and optional index lamp (24v) to ndu controller bd j13 note: 16 zone display boards are not normally connected to an ndu. all shaded cables 26 way frc. the first cable from the ndu controller must be lm0092 (fz3031 kit) fig 5.12.1 remote plan mimic display document no: lt0255 f3200/ndu as4428.1 installation manual installation & wiring issue 1.04 30 june 2004 page 5-33 nz display extender board pa0499 termination board pa0483 16 zone led mimic pa0753 26 way frc 16 zone display board pa0454 (fp0475 including frc) 26 way frc 6-way cable miscellaneous inputs ndu cabinet external mimic display cabinet wiring to individual common leds with series resistors, and optional index lamp (24v) note: 16 zone display boards are not normally connected to an ndu to ndu controller bd j13 16 zone display board pa0454 (fp0475 including frc) 16 zone led mimic pa0753 all shaded cables 26 way frc. the first cable from the ndu controller must be lm0092 (fz3031 kit). fig 5.12.2 remote mimic using led mimic boards f3200/ndu as4428.1 installation manual document no: lt0255 installation & wiring page 5-34 30 june 2004 issue 1.04 outputs ??? spare 1 0 volt anc defect 2 anc fire 3 26 way frc fire led 4 defect led 5 normal led 6 lamp- 7 lamp+ 8 +24 volt ????? fig 5.12.3 terminations from nz mode display extender board on unprotected termination board (pa0483). note: sprinkler operated and trial evac share the same input and are electrically connected on the display extender board. on an f4000/mx4428, input 10 is used as brigade test, and services restore (bsr) is not provided. inputs 16 sprinkler operated 15 trial evac 14 silence alarms 13 ext defect 12 lamp test 11 brigade isol/test 10 bsr 9 evac defect document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-1 chapter 6 applications f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-2 30 june 2004 issue 1.04 6.1 as1668 air conditioning control 6.1.1 general the following features of f3200 allow it to be easily adapted to make a fire fan control and indication panel (ffcp) (referred to as as1668 which is the relevant australian and nz standard): ? 19" rack mounting cabinet with standar d light grey blank panels available, including 9?u (plastic), 7u metal (hinged), 4u metal, 3u metal; ? standard modules available which include a pcb module (3 options) with switch and leds, a connector block for field wiring, and labels (see fig 6.1.1). ? programmable open collector output for driving leds (can enter logic equations for run, fault, stopped); ? programmable relays for fan controls; ? programmable time delays on duct sampling azcs, with rad and sad options; ? programmable azcs for control inputs with two useable alarm states plus normal (plus faults) per azc (i.e. logic equations can differentiate "manual" alarm (instant) from "detector" alarm (alarm); ? programmable zones, allows non-latching, non-maf (non-ff), non- bells/ancillaries, status only (i.e. fan control panel output relays can switch azcs and the corresponding zones can be programmed as "non-fire" zones with optional levels of "transparency" within the fire alarm system e.g. faults, alarms can be included/not included in the "totals" display and the "recalls"). the standard as1668 pcb modules are held to the front panel (rear) by a nut on the threaded shaft of the rotary switch which is attached to the pcb. the leds mount in black plastic bushes and are soldered to the pcb (chrome bezel leds are available and can also be accommodated by the pcb). the adhesive label is black on clear, and the standard panels are light grey. the standard colours for run, fault and stop (stopped) are red, yellow and green, respectively. kits kt0111-113 comes complete with an assembly instruction (lt0159) which includes the circuit diagrams 1945-1-1 to 1945-1-4 also included in this section. fig 6.1.1 standard as1668 module panel layout document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-3 fig 6.1.2 f3200 with typical as1668 panel (10 units) 6.1.2 circuits & zones fip end inputs the "off", "auto" and "on" inputs from the as1668 control module can be connected to 0, 1 or 2 azcs as desired. one azc per fan control is cheaper, but does not allow the lcd zone text to display "fan off" and "fan on", though the fan name can be put in the zone text, and for options a and c following, the word "off" could be programmed as zone text so that "manual" alarm is "on" and "off" alarm is "off". for option b, the text lcd would display "fault" for "off". zone text would normally only be viewed by a zone status recall as as1668 control inputs will (generally) be programmed as "status" zones (i.e. non-ffcif). figs 6.1.3 and 6.1.4 show both options. option 1 requires a zener diode or a resistor (e.g. 560e) to give b2 voltage. note that the option shown in fig 6.1.3 b ("off" <-> "fault") corresponds to the standard as1668 module circuits 2, 3 & 4 (see drawings 1945-1-1/4 following) and so is the "preferred" option for configuring with standard hardware. f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-4 30 june 2004 issue 1.04 circuits & zones (continued) the option in fig 6.1.3 a could be implemented by "tacking" the 560e resistor (or 6v8 zener) onto the pcb. the 2 azc option (fig 6.1.4) could also be implemented by soldering the extra resistor and wires onto the unused contact of the rotary switch on the pcb. in all cases, "auto" is zone "normal". off o auto o o + VkY 6v8 ? on o azc or 2k7 560e ?? - a. with a rotary switch, "on" is b1 (instant), "off" is b2 (alarm). off o auto o o + ? 2k7 on o azc ? - b. with a rotary switch, "on" is b1 (instant), "off" is fault. off o auto o + VkY 6v8 on o ? azc or 2k7 560e ?? - c. with a centre-off toggle switch, "on" is b1 (instant), "off" is b2 (alarm). fig 6.1.3 fan control switch wiring with single azc document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-5 circuits & zones (continued) for options a and c in fig 6.1.3, configure circuit alarm text as "manual" and voltage band b1 as "instant alarm" (refer to table below). voltage default program fan band state state control b5 fault switch wiring open circuit b4 normal "auto" b3 normal "auto" b2 alarm "off" b1 inst alarm "on" configure the zone as non-latch, status, non-anc1/warning system/external bell. in output logic, "off" is znd, "on" is znm, (for azc number n). for option b in fig 6.1.3, configuration is similar but in the output logic, "off" is znf and "on" is zna. for two azc inputs: ?? + ? off o 2k7 azc 1 auto o o ?? - ? on o 2k7 ?? + azc 2 - fig 6.1.4 fan control with two azcs & rotary (or centre-off) switch program b1 for both azcs as "instant alarm", alarm text as "manual". zone 1 alarm "fan control off" zone 2 alarm "fan control on" both normal "fan control auto" configure both zones as non-latch, status, non-anc1/warning system/external bell. fan inputs the exact requirement depends on the particular fan motor controller, and the contacts available (e.g. "run", "fault"). commonly "run" is provided by an air flow switch (afs), and is required to connect to an azc so that it can become part of a logic equation (as per circuits 3 & 4 of standard module 1945-1-1/4 following). f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-6 30 june 2004 issue 1.04 circuits & zones (continued) where a "fault" contact is available, along with "run", both can be put onto a single azc with the no "fault" contact shorting the azc and voltage band b1 programmed as "fault" (refer to fig 6.1.5 a). alternatively, the nc "fault" contact can be put in series for open circuit fault, and the no "run" contact can shor t the azc, with b1 programmed as "alarm" (znd). (refer to fig 6.1.5 b). note that in a, fault overrides run, and in b, run overrides fault. the priority in b can be reversed, but not in a. the zone should be configured as non-latching. if a "run" contact is used to short a zener across the azc (i.e. run is b2 = alarm) and the normal state of the fan is "run", then the zone mapping to maf should be configured as "status only" so that the fan "run" state is not shown in the "totals" or "alarm recalls". nc + o o + run o fault o fault o run ? no / no / ? / no 2k7 o o azc 2k7 o azc VkY 6v8 run or 560e ?? - ? - a. b. fig 6.1.5 example of fan run & fault wiring to azc 6.1.3 relays the exact number of relays per fan control and the logic required depends on the particular building and air conditioning plant. typically, one relay is required per fan to switch an interposing relay in the fan control equipment, with a possible logic equation as follows: r5 = z15d + z15n.z5a i.e. ("off") or ("auto" and duct alarm) (ie. the relay turns on to turn the fan off). where: relay 5 is the fan control relay for a normally running fan zone 5 is the associated air duct smoke circuit zone 15 is the associated fan control switch circuit with ... z15d (band b2) = "fan off" z15m (band b1) = "fan on" z15n (bands b3, b4) = "auto" note that the zone range facility is useful in programming controls where selective, automatic switching is required. e.g. if zones 1-10 correspond to ducts in levels 1-10 of a building, and the logic requires relay 5 to operate if zone 5 is in alarm but zones 1-4 and 6- 10 are not, the equation for r5 above would become: r5 = z15d + z15n.z5a.^ (z1:4(1)a+z6:10(1)a) note also, that if the interposing relay (fan control input) is 24v at less than 100ma then an open collector (o/c) may be used as per circuit 1 of 1945-1-1/4 following. document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-7 6.1.4 leds the 3 leds may be: switched directly as per circuits 1 and 2 of 1945-1; driven off 3 open collector (o/c) outputs or driven off 2 o/cs with a zener diode as shown in fig 9.1.6 and 1945-1-3. note that where the fip has a number of detector circuits, the open collector outputs associated with these azcs may be used for driving the as1668 leds and so it doesn't matter if the as1668 panel requires more open collectors than circuits. +vbf 3k3 run > oc1 red 3k3 fault > oc2 yellow 3k3 stop > oc3 green a. three open collector o/ps per fan (ref 1945-1-4). +vbf 3k3 run > oc1 red stop ? green VkY 3v9 zener ? 3k3 0v fault > oc2 yellow b. two open collector o/ps per fan (ref 1945-1-3). for other leds (e.g. chrome bezel leds) a lower value (higher current) resistor may be required. fig 6.1.6 wiring of fan control leds note that the logic required for the leds in option b is as follows: leds outputs run fault stopped oc1 oc2 off off on off off on x off on x x on x x on where x = off or on (don't care). f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-8 30 june 2004 issue 1.04 6.1.5 as1668 control module & drawings the following drawings are of 4 typical configurations using the as1688 control module, 1945-1. circuit 1 uses module type 1 (kt0111) circuit 2 uses module type 2 (kt0112) circuits 3 and 4 both use module type 3 (kt0113), with selective "snipping" out of components as required. 1945-1-1, as1668 control module, circuit 1 1945-1-2, as1668 control module, circuit 2 1945-1-3, as1668 control module, circuit 3 1945-1-4, as1668 control module, circuit 4 document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-9 6.2 gaseous fire extinguishing 6.2.1 general the following features of the f3200 make it well suited to gaseous fire extinguishing applications as required by as4214:2002. ? azc alarm text for "pressure switch", "manual", can be used for the various inputs; ? zones can be programmed as latch/non-latch, maf/non-maf as required, e.g. non-latch, non-maf, for "gas inhibit" input; ? zone range operand allows easy programming of "voting systems" on detector circuits e.g. 2 out of 3; ? open collector o/ps can be programmed to drive leds such as "gas initiated", "gas inhibited", etc; ? programmable timers included as standard (0-250 sec); ? programmable relays, with supervision option; ? operation not fixed by hardware, as virt ually any required logic equation for outputs (using and, or, not, xor) can be entered; ? fuse protected battery-backed supplies available via 2a fuse and 6a fuse; ? standard hinged, screened 7u gas control doors available complete with leds, switches and looms for 1, 2, 3, 4 gas zones (part number me0438 to me0441 respectively); ? standard non-hinged, screened 1u panel as per above for 1 gas zone (part number me0442); ? standard local control stations (lcss) and avi warning signs available. (lcs includes "gas start", "gas inhibit" switches, status leds). avis include selectable alert and evac tones and can be ordered with lettering such as fire alarm / do not enter, etc. two standard f3200 panels are available factory-fitted and programmed for gaseous fire extinguishing applications. fp0876 fp,f3200 as4428 fip,8u cab,3a,1u gas ctrl,pre prog fp0877 fp,f3200 as4428 fip,std cab,6a,1u gas ctl,pre prog fp0876 is an f3200 assembled into the 8u cabinet (fp0784). it comes complete with the me0442 1 zone 1u gas control module and an 8 relay module. it has a 3a power supply. fp0877 is based on a 6a (psu) f3200 assembled in the standard 15u cabinet (fp0782). it comes complete with an me0442 1 zone 1u gas control module pre-wired to the 8 zone module and an 8 relay module. the gas control doors (me0438-me0442) are wired to provide 2-wire connections to the avi mk2s. drawings 1931-123 and 1931-124 show how these are wired to f3200 and the external devices: avi mk2, lcs, etc. special factory-assembled panels can be made to or der to meet the specific requirements of jobs. 6.2.2 logic & configuration a commonly used logic diagram for a dual ci rcuit (single gas zone) gaseous fire extinguishing system is shown in fig 6. 2.1. this can be used with an f3200, me0438- me0442 gas control door, one or more local control stations (fp0570), and multiple avi mk2. the configuration and programming of f3200 is as follows. f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-10 30 june 2004 issue 1.04 figure 6.2.1 gas release logic diagram document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-11 logic & configuration (continued) the logic equations for f3200 to match fig 6.2.1 are as follows. where: oc1 = gas initiated led (i.e. timer running) oc2 = manual release activated led (i.e. lcs gas start) oc3 = gas discharged led oc4 = system inoperative (i.e. any isol ate or fault in gas control system) oc5 = gas inhibited led zone 1 = detector cct 1 zone 2 = detector cct 2 zone 3 = gas start (lcs) zone 4 = gas released (pressure switch) zone 5 = gas inhibit (lcs) zone 6 = gas isolated (i.e. gas discharge isolate switch operated, see note 3) zone 7 = lock-off valve (if required, see note 9) relay 1 = alert or evac o/p (1st stage sign fire alarm) relay 2 = evac o/p (2nd stage sign evacuate and do not enter) relay 3 = gas release solenoid relay 4 = system inoperative sign isolate = guard relay (see note 2) timer t1 [s30:0] = v1 30 second time delay from "gas initiated" (second stage). variables v1 = z1a . z2a . ^z5a + z3a open collector leds oc1 = v1 oc2 = z3a oc3 = z4a oc4 = z5a + z6a + oc5 + z7a + z3:7(1)i + z1:7(1)f + r1f + r2f + r3f + r4f + r1i+ r2i + r3i + r4i + guard i (see notes 2,9) oc5 =z1:2(1)i relays r1 = z1a + z2a + z3a + z4a (alert or evac : stage 1 or stage 2) r2 = z4a + v1 (evac stage 2) r3 = t1 (gas release) r4 = oc4 (system inoperative) iso (or rn) = v1 (guard) (see note 2) configure circuits azc alarm text b1 circuit 1 smoke (1) - circuit 2 smoke (1) - gas start mcp/manual (4) - gas released fsw (3) or psw (6) alarm (2) gas inhibit mcp/manual (4) - gas isolated mcp/manual (4) if required (see note 3) lock-off valve vmd/valve (5) if required (see note 9) (circuits 1 and 2 use all default settings). f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-12 30 june 2004 issue 1.04 logic & configuration (continued) configure zones zone latch maf anc1 anc2 bells circuit 1 - - - - - circuit 2 - - - - - gas start y - - - - (see note 10) gas released - - - - - gas inhibit n n n n n gas isolated n n n n n if required (see note 3) lock-off value n n n n n if required (see note 9) (zones 1-4 use all default settings. zone 3 may be required to be non-latching. see note 10.) configure relay supervision relay enable latch maf led isolate test sup.act 1 alert y y y - - - - 2 evac n y y - - - - (see note 11) 3 gas release y y y - - - - 4 sys inoperative y y y - - - - 6.2.3 notes 1. the variable v1 is used to initiate the timer rather than oc1 because outputs (including oc) can be tested from the keypad. it is not desirable to have a "test" function initiating the timer which releases gas. 2. the guard relay is used to reduce the chances of accidental gas release (e.g. by someone performing a "test " on the gas release relay). (the test function may be inhibited, as may isolate.) it uses a normally open set of contacts and is inserted between +vbf2 and the no terminal of the gas release relay (r3). it is preferable to use an unused brigade relay (rated at 5a dc resistive) e.g. isolate, if available (not standby), else an ancillary relay, or a module relay (each rated at 2adc resistive) on a separate 8rm to gas release. for multiple zones, a module relay "guard" relay can be common for 2 gas zones, or brigade relay "guard" relay can be common to up to 5 gas zones for 1a actuator loads. the common guard relay should be programmed to operate off the or of the variables. for example: iso = v1 + v2 + v3 for a 3 risk fip which used iso as the guard relay. if an ancillary module relay is used as the guard relay, then +arni or +rni should be added to the equation for oc4. 3. the gas discharge isolate switch turns on the gas isolated leds on the gas control doors and lcss directly, and causes a gas release relay supervision fault. the third set of contacts on the gas discharge isolate switch is connected to azc 6 (gas isolated) as shown on drawings 1931-123, 124 so that "gas isolated" status can show on the lcd, be logged, and repeat from the fip to an rzdu or remote fip via a network. a suitable eolr has to be soldered across the switch contacts (yellow and black remit wires) at time of building. 4. snub (suppress) inductive loads (e.g. solenoids) with a suitably rated reverse diode. 5. the gas discharge isolate switch disconnects both wires to the solenoid. when not isolated, however, the -ve wire is connected to 0v and only the positive supply is switched by the relay. this allows the relay supervision to check for resistance from the relay "common" contact to 0v. document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-13 notes (continued) 7. see section 6.2.4 re use of actuators. 8. solenoids are typically less than 400 ohms and require a diode (of sufficient rating) to be wired in series at the solenoid to allow supervision. if two solenoids are connected in parallel on one circuit the supervision will not detect one being disconnected. where multiple release circuits are diode connected (+ve & -ve legs) onto a common solenoid, the supervision will detect shorts, but not all opens. 9. if a lock-off valve is not required, then z7 is not required and can be left out of the equations (standard programming of fp0876 and fp0877). note that as4214 requires the lock-off valve to isolate both poles of the gas release solenoid / actuator. this is not done within the standard wiring and therefore needs to be done externally with microswitches (or a relay). 10. the standard lcs gas start switch automatically turns on when the glass is broken. some customers may require a different switch that can be turned off after the glass is broken, and hence cancel the timer and prevent gas release. 11. enable supervision on relay 2 if using a 3-wire connection to the alert/evacuate warning signs. 6.2.4 use of actuators where a cv-98 actuator is used it must be connected in series with the 427354 current regulator, fitted at the furthest point to act as the eol. a single actuator should be connected in reverse, i.e. with the black wire to the incoming +ve voltage, so that the supervision can detect that the element has been fired. see figure 6.2.2(a). multiple actuators may be connected in series on one circuit, but each must have the red wire to the incoming +ve voltage. see figure 6.2.2(b). note the f3200 supervision cannot detect the difference between an unfired element (<2 ohm) and a fired one. the actuator has 3 series forward diodes across the element so that current will continue to flow through it after the element has fired. with f3200 if both actuators fire, a supervision fault may or may not be generated. where series resistors have been used (in existing circuits) to limit the current, a series diode must be fitted as the eol. it must be a silicon diode (not schottky) rated at 2adc or higher, e.g. 1n5404. see fig 6.2.2(c). the series resistor(s) must be located in the f3200 panel. the maximum number of actuators connected in series in one circuit appears to be quoted by the manufacturer as 2. the following estimates for the metron protractor and 427354 current limiter (not confirmed by the manufacturer, consult the manufacturer) suggest that up to 4 actuators may be fitted to a circuit with a current regulator and up to 4 ohms cable resistance. allow: 21v as worst case battery voltage; 6.5v drop for regulator; 2.5v drop per actuator; 1v per ohm of cable resistance. f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-14 30 june 2004 issue 1.04 a) single device with regulator at furthest point b) multiple devices with current regulator at furthest point (eol) c) multiple devices with limiting resistor (not recommended method). figure 6.2.2 connecting cv98 actuators document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-15 6.2.5 avi signs the avi is an illuminated, 24vdc warning sign with an internal sounder that produces as2220 alert and evacuate warning tones or the iso 8201 evacuate signal (requires v1.20 or later software for iso signal). it has two independent sets of indication (i.e. top and bottom), two signal inputs, and can be configured to provide the combinations of tone and illumination required for gas release warning signs. it can be ordered with one of a number of standard faceplates with wording such as fire alarm / evacuate area. two models of avi have been produced. ? the original avi (fp0628) which uses incandescent lamps and produces only as2220 tones; ? the avi mk2 (fp0853/4) which uses leds. the wiring and set up for these avis are different. 6.2.5.1 avi mk2 two standard versions of avi mk2 are availabl e, with the faceplates (such as fire alarm/do not enter) ordered separately. fp0853 has two rows of red leds (i.e. to illuminate the top and bottom rows of lettering). fp0854 has 3 rows of yellow leds as required for the 3 line xxxx system inoperative signs. avi mk2s have 3 pairs of terminals that provide connection to the fip, namely ?com?, ?in-t? and ?in-b?. pairs are provided to allow ?daisy chaining? of multiple avis off one fip output circuit. a fourth pair ?sync? allows for synchronisation of tone and led flashing on daisy-chained avis. in-t operates the top leds, for which the default tone is alert. in-b operates the bottom leds for which the default tone is evac. com is the power supply common in a 3-wire arrangement and may be position or negative. n egative is generally used as that is required for the fip relay supervision. with a 2-wire connection from the fip to the first avi (3-wires to further avis if synchronised) when in-t is positive and in-b is negative the top leds flash, when in-b is positive and in-t is negative the bottom leds flash. with a 3-wire connection from the fip to the first avi (4 wires to further avis if synchronised), a common negative is used and a positive voltage applied to in-t/in-b activates the top/ bottom leds. note the bottom indication/tone overrides if both in-t and in-b are applied. the wiring diagram 1931-124 for the gas control doors me0438-442 shows a 2-wire connection, but can be used for a 3-wire connection (see below). both facilitate supervision of the avis by the fip relays for which a 2k7 resistor is a suitable eol. refer to figures 6.2.3 and 6.2.4. the logic equations in 6.2.2 for rl1 and rl2 work for both 2-wire and 3-wire because evac overrides alert and the default setting for in-b turns on the top leds with the bottom. however for 3-wire connections rl2 must be re-wired and configured as supervised (program supervision as enabled and fit lk2 to s on the 8 relay bd). note the system inoperative sign requires only one relay to switch 24v to in-b, with in-t (or com) wired to 0v. refer to figure 6.2.5. refer to the appropriate avi instructions to disable the evacuate tone. f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-16 30 june 2004 issue 1.04 avi mk2 (continued) the configuration of some commonly used signs is as follows. function illuminate tone polarity links +/- fitted top: fire alarm top alert in-t/in-b - bottom: evacuate area both evac in-b/in-t - top: fire alarm top alert in-t/in-b - bottom: do not enter both evac in-b/in-t - top: do not enter top evac in-t/in-b 3 bottom: xxxx gas discharge both evac* 1 in-b/in-t 3 both: xxxx system inoperative both none in-b/in-t 1, 2 *1 the avi mk2 has a third tone (rh3), which could be generated on gas discharged. refer to the particular avi instructions for setting the links as the function of the links depends on the software version fitted. options for xxxx include: co2; inergen; fm-200. document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-17 for fire alarm / do not ente r, fire alarm / evacuate area rl1 = stage 1 or stage 2 s = supervised u = unsupervised rl2a = rl2b = stage 2 rl2a, rl2b can be two separate relays driven together. lk1-lk6 not fitted. eol = 2k7 for do not enter / xxxx gas discharged with the bottom lines having rh3 tone and operating off gas discharged. rl1 = stage 2 or gas discharged. s = supervised u = unsupervised rl2a = rl2b = gas discharged rl2a, rl2b can be two separate relays driven together. lk3, lk6 fitted. figure 6.2.3 avi mk2 wiring using 2 wires for fire alarm / do not ente r, fire alarm / evacuate area rl1 = stage 1 s = supervised eol = 2k7 rl2 = stage 2 lk1?lk6 not fitted. for do not enter / xxxx gas discharged with the bottom lines having rh3 tone and operating off gas discharged rl1 = stage 2 lk3, lk6 fitted. rl2 = gas discharged s = supervised figure 6.2.4 avi mk2 wiring using 3 wires for xxxx system inoperative rl1 = system inoperative s = supervised lk5 and lk6 fitted (tone disabled). alternatively 0v could be connected to com. only one unit is typically required, but mo re could be added as per the diagrams above. figure 6.2.5 avi mk2 system inoperative f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-18 30 june 2004 issue 1.04 6.2.5.2 original avi original avis (fp0628) have three pairs of terminals that accept signals from the fip, namely '+24v', 'alert-', and 'evac-'. they can be connected and operated in two modes, namely 2-wire and 3-wire. the typical connection for 3-wire mode has the +vbf supply connected to +24v, with switched 0v signals to alert- and evac- respectively, as was used on the original gas control doors (me0005 ? me0069 see drawing 1931-47). in 2-wire mode, the +24v terminals are not used. for an evac input, the +ve supply is connected to alert- (i.e evac+) and the -ve supply (0v) is switched to evac-, and vice versa for alert. note the system inoperative sign is configured for 3 wire special mode, but only two wires are required. however these arrangements do not support supervision of the wiring to the avis. for supervised outputs the recommended method is to use only avi mk2s and convert the me0065 ? me0069 gas control door to a common 0v and switched 24v outputs ? refer section 6.2.6. all signs should be configured for flashing illumination as that attracts attention and saves power. note the original avi has incandescent lamps that draw a large current. the configuration of some commonly used signs is as follows. function illuminate tone note 1 top: fire alarm top alert bottom: evacuate area both evac 2 top: fire alarm top alert bottom: do not enter both evac 3 top: do not enter top evac a. bottom: xxxx gas discharge both evac a. 4 both: xxxx system inoperative both none function input lamps tone mode dil sw on dil sw off lk1,2 lk3 lk6 notes 1 alert- both top both alert evac 3-wire std 1,3,5,6 2,4,7,8 1-2 1-2 on 2 alert- both top both alert evac 3-wire std 1,3,5,6 2,4,7,8 1-2 1-2 on 3 evac- both evac 2-wire 2,3,5,6 1,4,7,8 2-3 1.2 off b. 4 alert- both none 3-wire spcl 1,3,5,6, 8 2,4,7 1-2 2-3 on notes a. the option of top lamps with evac tone for one input, and both lamps with evac tone for the other, is not directly supported. but it can be arranged by mounting the avi upside down. b. for this configuration the +ve supply is wired into alert-, not +24v. document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-19 6.2.6 using old me0065 ? me0069 gas control doors older f3200 gas panels were supplied with the me0065-69 gas control doors (refer drawing 1931-47). these provide a common +24v supply and switched 0v outputs to activate the warning signs. they were designed for the original fp0628 avi, but do support the mk2 avi. however, as wired these outputs are not suitable for supervising the wiring to the warning signs, as is now required. these gas control doors can be modified to common 0v, switched 24v outputs to enable supervision of the warning signs. but in this case the original fp0628 avis cannot be used. two options exist for this ? replace the gas control door with the equivalent 2-wire version (me0438-me0442), or modify it as shown in drawing 1931-132 and in the steps as follows: 1. turn power to the panel off and physically isolate the actuating device (operate the gas discharge isolate switch). as a further precaution when working on gas extinguishing systems, disconnect the actuat or or remove it from the gas release valve. identify the thick black wire that runs from the relay 1, 2 and 4 no terminals to 0v on the maf/psu. disconnect it from the maf/psu 0v terminal and connect to +vbf2 (or similar) instead. place some red insulation tape around each end of the insulation to indicate it is now a positive wire, not negative. 2. disconnect the two thick red wires that connect to the sign+ screw terminal. discard the one that runs to the +24v screw terminal, and reconnect the one that runs to the maf/psu to the +24v screw terminal. 3. run a thick black wire from the sign+ screw terminal to 0v on the maf/psu. 4. re-label the following screw terminals: sign+ as sign- alert- as alert+ evac- as evac+ sio- as sio+ 5. run 3 wires to the alert/evac (stage 1/stage 2) sign(s) and 2 wires to the sio sign. connect sign- to com, alert+ to in-t, evac+ to in-b on the alert/evac signs. connect sign- to com (or in-t) and sio+ to in-b on system inoperative sign (set the links to disable tones). fit a 2k7 eld from each of alert+, evac+, and sio+, to sign- (0v) at the last avi. 6. configure relays 1, 2, 3, and 4 for supervision (fit lk 1-4 to the s position) on the 8 relay board. f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-20 30 june 2004 issue 1.04 using old me0065 ? me0069 gas co ntrol doors (continued) 7. enable supervision on relay 2 (evacuate relay) and use the following logic in the programming. relay 1 (alert) : supervision enabled, latching, maf mapped. relay 2 (evac) : supervision enabled, latching, maf mapped. relay 1 = z1a + z2a + z3a + z4a relay 2 = z4a + v1 v1 = z1a . z2a . ^z5a + z3a where: z1 = detection circuit 1 z2 = detection circuit 2 z3 = gas start (lgcs) z4 = gas released (pressure switch) z5 = gas inhibited program the panel as otherwise described in section 6.2.2. 6.2.7 drawings the following drawings are included: 1931-47 1 zone gas flood door (me0065-69), circuit diagram 1937-2 local gas control station, circuit diagram 1931-123 f3200 as4428 7u 1 zone gas flood door loom/wiring diagram 1931-124 f3200 as4428 1u 1 zone gas flood panel loom/wiring diagram 1931-132 me0065-69 gas door mods for avi mk2 3-wire connections document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-21 fig 6.2.6 local gas control station, front view f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-22 30 june 2004 issue 1.04 6.3 sub fip monitoring 6.3.1 general a sub-fip is a fire indicator panel (e.g. a gas flood panel) which may not be connected directly to the brigade, but repeats its common conditions (e.g. fire, fault) to another fip. as1670.1 allows for the cabling from fip to sub-fip to be less than 0.75sqmm, and the resistance may be considerably greater than that used in standard detector circuits. the "low current mode" for an f3200 azc allows supervision of sub-fips on circuits with high resistance. the limitations caused by the resistance in sub-fip monitoring circuits are shown in the following 3 cases. 1. loop resistance less than 150 ohms for a detector circuit programmed for standard mode the maximum loop resistance is 50 ohms, but where there is no detector load (i.e. clean contacts are used) the resistance may be up to 150 ohms. therefore it is recommended that for loop circuits of less than 150 ohms, "standard mode" be used for sub-fip monitoring. all voltage bands are potentially usable, but it is recommended that b3 not be used for any condition as the circuit voltage drop of up to 2.5v needs to be allowed for. b2 can be used with a 5v6 or 6v8 zener diode to detect alarm i.e. zna, and b1 can be used to detect alarm (znd) or instant alarm (znm). 2. loop resistance of 150 ohm to 800 ohm for this resistance range the azc has to be programmed into "low current mode", and voltage band b1 should be programmed as fault or alarm but must not be used to detect the fault signal from the sub-fip (i.e. by shorting the circuit with the fault contacts). shorting the circuit at the sub-fip will cause b2 alarm. because the voltage drop in the circuit wiring is between 3.8v and 12v, depending on loop resistance, it is recommended that b3 not be used to detect a signal (for safety sake it is advisable to program b3 as alarm and b1 as alarm or fault. note that only a short somewhere within the circuit wiring can cause b1). 3. loop resistance of 800 ohm to 2000 ohm for this resistance range the azc has to be programmed into "low current mode", and the voltage band b3 has to be programmed as alarm. shorting the circuit at the sub-fip will cause either a b2 or b3 alarm depending on the loop resistance (nominal b2/b3 threshold is 1100 ohm). b1 may be programmed as fault or alarm, but must not be used to detect the fault signal from the sub-fip. 6.3.2 connection there are various connection possibilities depending on the particular local requirements for standby and isolate, and the loop resistance. one or two azcs may be required. where standby is required as a separate signal at the main fip it can be signalled as alarm on a second azc and the corresponding zone programmed as non-maf, non-anc1, etc. isolate could be signalled as "fault" on the same azc (ref fig 6.3.1 and fig 6.3.2). document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-23 connection (continued) the main fip brigade standby and isolate relays could be reprogrammed to include the "standby" zone "alarm" and "fault" conditions, or separate module relays could be programmed to operate on the zone "alarm" and "fault" conditions. these would then be connected to the brigade transmitting device in series/parallel with the standby and isolate contacts of the maf brigade relays as appropriate. note that the eol required depends on the mode programmed for the azc. fault (nc) o o + ? o eol / alarm azc1 o (no) ? - isolate (nc) o o + ? o eol / standby azc2 o (nc) ? - fig 6.3.1 example of sub-fip monitoring using 2 azcs fault isolate standby o o o o o o + ? (nc) (nc) (no) o eol / alarm azcn o (no) ? - fault, isolate and standby are all represented by znf in the main fip. fig 6.3.2 example of sub-fip monitoring using 1 azc fault isolate o o o o + (nc) (nc) ? o stdby o alarm 2k7 / (nc) / (no) azcn o o VkY 5v6 or 470e ?? - program b1 as instant, znm represents "alarm" znd represents "standby" znf represents "fault" or "isolate" fig 6.3.3 example of sub-fip monitoring for resistance case 1 only f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-24 30 june 2004 issue 1.04 6.4 fire detection in hazardous areas (explosive atmospheres) 6.4.1 references as 2380 electrical equipment for explosiv e atmospheres - explosion-protection techniques. as 2381 electrical equipment for explosive atmospheres - selection, installation & maintenance. as 2430 classification of hazardous areas. iec79 electrical apparatus for explosive atmospheres. saa hb13 electrical equipment for hazardous areas (handbook). 6.4.2 general a hazardous area is one which has a potentially explosive atmosphere due to combustible gases, liquids or dusts. in such an area there has to be a constraint to prevent an electrical fault from causing an explosion. for fire detection in hazardous areas there are two main options: 1) use approved is (intrinsically safe) detectors and bases with is isolators or zener barriers and approved cabling. 2) use approved detectors with explosion proof housings and compatible cabling. (e.g. olsen v41b, (v42b), v44b, t54b). these are not discussed further in this section as the constraints are primarily mechanical. note that in addition to equipment selection and inter-connection, there are other requirements for wiring in hazardous areas that must be satisfied. these include (but are not limited to): ? matching ?ex? rating of equipment chosen with hazardous area classification. ? ensuring cable capacitance and inductance is within the limits of the repeaters used (see tables 6.4.3, 6.4.4, 6.4.5 for more details). ? providing adequate physical protection for equipment according to local hazardous area wiring regulations. ? using cable of the correct insulation and physical strength according to local hazardous area wiring regulations. ? complying with manufacturer?s instructions for mounting of ?ex? rated devices. ? inspection and certification of the finished installation. document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-25 6.4.3 intrinsically safe detection there are two types of device which may be inserted in a detector circuit between the fip and the detectors to limit the electrical energy flow into the area and provide is detection: 1) galvanically (transformer) isolated repeaters (isolators). 2) zener barriers (shunt barriers with fuses). these limit the circuit voltage relative to earth, and the circuit current. although zener barriers are cheaper than isolators they require a special intrinsic safety earth, and precautions, and are therefore not recommended . 6.4.3.1 isolated repeaters there are several options for using isolated repeaters, each with differing limitations and expense. the options are: 1. use a 6 terminal isolating repeater where large numbers of smoke and/or flame detectors are required (see section 6.4.3.2). 2. use a lower-cost 4 terminal isolating repeater and a zau401 (rev 2) where lower numbers of smoke and/or flame detectors are required (see section 6.4.3.3). 3. use a 4 terminal isolating repeater where all detectors generate a short circuit alarm condition (see section 6.4.3.4). for these the total capacitance and inductance of the detectors and cables on the is circuit must be less than that specified in table 6.4.1. the gases and vapours in each gas group are listed in iec 79-12. gas group max. capacitance max. inductance class iia or group d class iib or group c class iic or group a or b 1.04uf 0.39uf 0.13uf 31.9mh 12.6mh 3.6mh table 6.4.1 maximum capacitance & inductance per is circuit for isolated repeaters, the cable core to core capacitance can be used, rather than core to earth which, for bunched conductors on metal trays, may be higher. (note that for zener barriers, the core to earth capacitance is relevant). the values used in this section for a typical tps pair, or multicore cable (unshielded) are: tps c = 100nf/km (i.e. 100 pf/m), l = 0.8mh/km cable manufacturers may quote differing values for specific cables. it is the responsibility of the system engineer to check that the cable used has values less than or equal to the above values, and that the total capacitance and inductance for each circuit meet the requirements. the values specified for the detectors are shown in table 6.4.2. f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-26 30 june 2004 issue 1.04 isolated repeaters (continued) detector capacitance inductance resistance (fw only) c29bex/z94c r24bex fw68 fw105 fw180 s231i+ s121 ms302ex mf301ex mr301ex (photo) mr301tex (hpo) t56b (heat) (z500n base) t54b (heat) 1nf 3.3nf 84nf/km 66nf/km 57nf/km 1.5nf 4nf 1.5nf 1.5nf 1.5nf 1.5nf 0 0 0 1uh (0.001mh) 1.5mh 0.62mh/km 0.83mh/km 0.89mh/km 0 0 0 0 0 0 0 0 0 100 ? /km 100 ? /km 100 ? /km table 6.4.2 capacitance & inductance per i.s. detector notes 1. the khd0-ics/ex 251 or kfd0-cs-ex 2.51p is effectively two khd0-ics/ex 151 or kfd0-cs-ex 1.51p isolators (respectively) in one package. 2. the resistance quoted in table 6.4.2 for fire wire is per wire, thus the circuit resistance of the pair is twice that amount. 3. the fw68 and fw105 fire wires are not currently listed as is. 4. the ms302ex, mf301ex, mr301ex, mr301tex, s121 and s231i+ detectors are currently not ssl approved. for each of the following configuration options a table is included showing the limits of detector quantity and cable length. 6.4.3.2 6 terminal isolated repeater the following 6 terminal isolating repeaters can connect an f3200 zone to an is detection circuit using the circuit of fig 6.4.3.2. detector quantities and circuit lengths as shown in table 6.4.3. pepperl & fuchs khd3-icr/ex130 200 pepperl & fuchs kfd2-cr-ex1.30 200 document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-27 or fig 6.4.3.2 f3200 is circuit using 6-terminal repeaters relay or open collector for each azc there must be either: a corresponding relay (e.g. module relay rln) with normally closed contacts breaking the supply to the isolator as shown; or an open collector output switching the supply 0v as shown. as the open collector is standard with an 8zm it is the cheapest alternative. programming & limitations all detector types require the circuit to be programmed for mode 1 (std) with voltage band b1 programmed as alarm. the open collector must be programmed as ocn = ^znr, or the relay must be programmed as rn = znr (i.e. zone n not in reset or zone n in reset respectively). there is no differentiation of voltage bands (b1, b2, b3), i.e. the fip cannot differentiate between short-circuiting mcp and detector operation on the same circuit. f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-28 30 june 2004 issue 1.04 6 terminal isolated repeater (continued) any alarm on the detector circuit (either a short circuit or detector operation) will cause a b1 or a b2 voltage level on the fip azc, depending on the battery voltage. gas group 11a or 11b gas group 11c detector cct length cct length type part base qty 1.0mm2 0.75mm2 qty 1.00mm2 0.75mm2 smoke c29bex z94c 40(m) 3km(r) 2.2km(r) 40(m) 0.9km(c) 0.9km(c) (100 ? ) (100 ? ) (90nf) (90nf) 33 0.97km(c) 0.97km(c) (97nf) (97nf) 20 1.1km(c) 1.1km(c) (110nf) (110nf) 1 1.3km(c) 1.3km(c) (130nf) (130nf) flame r24bex - 7(m) 1.5km(r) 1.1km(r) 2(m) 1.2km(c) 1.1km(r) (50 ? ) (50 ? ) (120nf) (50 ? ) heat fw105 - - - - - 1.3km tot 1.3km tot (100 ? tot) (100 ? tot) (130nf) (130nf) 40(m) 3km(r) 2.2km(r) 40(m) 1.3km(c) 1.3km(c) heat t54b - (100 ? ) (100 ? ) (130nf) (130nf) heat t56b z500n 40(m) 3km(r) 2.2km(r) 40(m) 1.13km(c) 1.3km(c) (100 ? ) (100 ? ) (130nf) (130nf) heat s231i+ - 11(m) 3km (r) 2.2km (r) 11(m) 1.13km(c) 1.13km(c) (100 ? ) (100 ? ) (113nf) (113nf) 5 1.22km(c) 1.22km(c) (122nf) (122nf) 1 1.28km(c) 1.28km(c) (128nf) (128nf) flame s121 - 40(m) 3km(r) 2.2km(r) 32(m) 0.02km(c) 0.02km(c) (100 ? ) (100 ? ) (2nf) (2nf) 20 0.5km(c) 0.5km(c) (50nf) (50nf) 10 0.9km(c) 0.9km(c) (90nf) (90nf) 1 1.26km(c) 1.26km(c) (126nf) (126nf) flame ms302ex m300 40(m) 3km(r) 2.2km(r) 40(m) 0.7km(c) 0.7km(c) (100 ? ) (100 ? ) (70nf) (70nf) 20 1km(c) 1km(c) (100nf) (100nf) 1 1.28km(c) 1.28km(c) (128nf) (128nf) ion mf301ex m300 40(m) (same as ms302ex) photo mr301ex m300 40(m) (same as ms302ex) hpo mr301tex m300 40(m) (same as ms302ex) table 6.4.3 maximum detector quantity & cable length for 6-terminal repeater notes 1. circuit lengths quoted are from the isolator to the eol. an extra 50 ohms of cable from the fip to the isolator is also allowed (1.5km of 1.0mm2, 1.1km of 0.75mm2). the length quoted is the maximum for the corresponding quantity of detectors. 2. cable resistance shown is for the circuit, i.e. both cables in the pair. the value of 34 ? per km (return) is used for 1 mm2. 3. the maximum resistances shown for the fire wire circuits must include both cable and fire wire (see table 6.4.2 and associated note 2). 4. the letter in ( ) after the cable length, and the value in ( ) under the cable length specify which parameter out of capacitance (c), inductance (l) and resistance (r) provides the limitation, and what the maximum value is. document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-29 terminal isolated repeater (continued) 5. the (m) after a detector quantity indicates the maximum quantity allowed per circuit. 6. the maximum allowable detector quiescent (or 2 second switch on) current is 3.5ma (only relevant to r24bex). 6.4.3.3 4 terminal isolated repeater with zone adaptor unit zau401 with the addition of the zau401 zone adaptor unit (pa0838), lower-cost 4-terminal isolating repeaters can be used with the f3200 panel. the zau401 can be thought of as a single zone circuit module that can be added to a panel to make it compatible with a wider range of detectors ? in particular when using is repeaters. it can support up to 2ma of quiescent detector current and uses a 3k9 5% eol resistor. wiring of the zau401 and the isolating repeater to the panel is shown in fig 6.4.3.3. note that only one zau401 can be connected to each of the panel?s zone circuits. the following 4-terminal isolating repeaters can be used to connect the zau401 to an is detection circuit. (note that dual channel repeaters have two separate repeaters, and can connect two circuits with two zau401s). detector quantity and circuit lengths are 6 shown in table 6.4.4. pepperl & fuchs khd0-ics/ex 1.51 (single channel) pepperl & fuchs khd0-ics/ex 2.51 (dual channel) pepperl & fuchs kfd0-cs-ex 1.51p (single channel) pepperl & fuchs kfd0-cs-ex 2.51p (dual channel) measurement technology ltd mtl5061 (dual channel) fig 6.4.3.3 f3200 with zau401 & 4 terminal is repeater programming & limitations the circuit should be programmed as mode 1 (standard). voltage bands b1 and b3 can be left at default, though it is better to program b1 as fault. note that all alarms from the zau401 will give voltage band b2 i.e. the fip cannot differentiate between short-circuiting mcp and detector operation, and voltage b1 represents a short on the circuit between the fip and the zau401 (i.e. internal wiring fault). 1 batt+ 2 zone+ 3 eol+ 4 eol- 5 zone- 6 batt- t+ 3 tc 2 t- 1 zau401 (rev 2) (pa0838) eol* to p an el zone circuit + - + - panel 24v { khd0_ or kfd0_ or mtl5061 + - ex detector eol 3k9 5% * eol to suit panel safe area hazardous area 4-terminal isolatin g repeater ex detector f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-30 30 june 2004 issue 1.04 4 terminal isolated repeater with zone adaptor unit zau401 (rev 2) (continued) gas group 11a or 11b gas group 11c detector cct length cct length type part base qty 1.0mm2 0.75mm2 qty 1.00mm2 0.75mm2 smoke c29bex z94c 40(m) 3km(r) 2.2km(r) 40(m) 0.9km(c) 0.9km(c) (100 ? ) (100 ? ) (90nf) (90nf) 33 0.97km(c) 0.97km(c) (97nf) (97nf) 20 1.1km(c) 1.1km(c) (110nf) (110nf) 1 1.3km(c) 1.3km(c) (130nf) (130nf) flame r24bex - 2(m) 0.5km(r) .37km(r) 2(m) 0.5km(c) 0.37km(r) (17 ? ) (17 ? ) (17 ? ) (17 ? ) heat fw105 - - - - - 1.3km tot 1.3km tot (100 ? tot) (100 ? tot) (130nf) (130nf) 40(m) 3km(r) 2.2km(r) 40(m) 1.3km(c) 1.3km(c) heat t54b - (100 ? ) (100 ? ) (130nf) (130nf) heat t56b z500n 40(m) 3km(r) 2.2km(r) 40(m) 1.13km(c) 1.3km(c) (100 ? ) (100 ? ) (130nf) (130nf) heat s231i+ - 4(m) 3km (r) 2.2km (r) 4(m) 1.24km(c) 1.24km(c) (100 ? ) (100 ? ) (124nf) (124nf) 1 1.28km(c) 1.28km(c) (128nf) (128nf) flame s121 - 16(m) 3km(r) 2.2km(r) 16(m) 0.66km(c) 0.66km(c) (100 ? ) (100 ? ) (66nf) (66nf) 10 0.9km(c) 0.9km(c) (90nf) (90nf) 1 126km(c) 1.26km(c) (126nf) (126nf) flame ms302ex m300 16(m) 3km(r) 2.2km(r) 16(m) 1.06km(c) 1.06km(c) (100 ? ) (100 ? ) (106nf) (106nf) 10 1.15km(c) 1.15km(c) (115nf) (115nf) 1 1.28km(c) 1.28km(c) (128nf) (128nf) ion mf301ex m300 16(m) (same as ms302ex) photo mr301ex m300 16(m) (same as ms302ex) hpo mr301tex m300 16(m) (same as ms302ex) table 6.4.4 maximum detector quantity & cable length for zau401 (rev 2) & 4-terminal repeater notes 1. circuit lengths quoted are total from the fip to the eol. the length quoted is the maximum for the corresponding quantity of detectors. 2. cable resistance shown is for the circuit, i.e. both cables in the pair. the value of 34 ? per km (return) is used for 1 mm2. 3. the maximum resistances shown for the fire wire circuits must include both cable and fire wire (see table 6.4.2 and associated note 2). 4. the letter in ( ) after the cable length, and the value in ( ) under the cable length specify which parameter out of capacitance (c), inductance (l) and resistance (r) provides the limitation, and what the maximum value is. 5. the (m) after a detector quantity indicates the maximum quantity allowed per circuit. 6. the maximum allowable detector quantity corresponds to a quiescent current of 1.8ma for c29bex, 0.3ma for r24bex. document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-31 6.4.3.4 4 terminal isolated repeater alone when all the detectors on the is circuit will generate a short circuit alarm condition it is possible to use the lower-cost, 4-terminal isolating repeater without a zau401. this is shown in fig 6.4.3.4. the following 4-terminal isolating repeaters can be used. (note that dual channel repeaters have two separate repeaters, and can connect two circuits to the panel). pepperl & fuchs khd0-ics/ex 1.51 (single channel) pepperl & fuchs khd0-ics/ex 2.51 (dual channel) pepperl & fuchs kfd0-cs-ex 1.51p (single channel) pepperl & fuchs kfd0-cs-ex 2.51p (dual channel) measurement technology ltd mtl5061 (dual channel) fig 6.4.3.4 short-circuiting detectors with 4 terminal repeater programming & limitations the required eol resistance is lower than the standard 2k7. two methods for obtaining the correct eol value are: 1. place a 22k 5% resistor in parallel with the supplied 2k7 eol. this achieves the required value. 2. or just use a 2k2 5% resistor as the eol. the circuit should be programmed as mode 1, b3 as normal, and b1 should be programmed as fault. there can be no differentiation between short-circuiting mcp and detector operation on the same circuit. detector quantity and circuit length limits are shown in table 6.4.5. see text f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-32 30 june 2004 issue 1.04 4 terminal isolated repeater alone (continued) gas group 11a or 11b gas group 11c detector cct length cct length type part base qty 1.0mm2 0.75mm2 qty 1.00mm2 0.75mm2 heat heat heat fw105 t54b t56b - - z500n - 40(m) 40(m) note 2 & 3 (68 ? tot) 2km(r) (68 ? tot) 2km(r) (100 ? ) note 2 & 3 (68 ? tot) 1.5km(r) (68 ? ) 1.5km(r) (68 ? ) - 40(m) 40(m) 1.3km tot (130nf) 1.3km(c) (130nf) 1.3km(c) (130nf) 1.3km tot (130nf) 1.3km(c) (130nf) 1.3km(c) (130nf) table 6.4.5 maximum detector quantity & cable length for 4 terminal repeater alone notes 1. circuit lengths quoted are from the isolator to the eol. the length quoted is the maximum for the corresponding quantity of detectors. 2. cable resistance shown is for the circuit, i.e. both cables in the pair. the value of 34 ? per km (return) is used for 1 mm2. 3. the maximum resistances shown for the fire wire circuits must include both cable and fire wire (see table 6.4.2 and associated note 2). 4. the letter in ( ) after the cable length, and the value in ( ) under the cable length specify which parameter out of capacitance (c), inductance (l) and resistance (r) provides the limitation, and what the limiting value is. 5. the (m) after a detector quantity indicates the maximum quantity allowed per circuit. document no: lt0255 f3200/ndu as4428.1 installation manual applications issue 1.04 30 june 2004 page 6-33 6.5 use of normally closed contacts there may be some situations where it is necessary to monitor a set of normally-closed contacts which open on "alarm". as standard these cannot be wired directly to the f3200 azc terminals. the vigilant contact conversion module (part number pa0443) may be used as a conversion interface between the contacts and an f3200 azc. this small, encapsulated module has three wires protruding from it. these must be connected between the normally closed contact and the azc as shown in fig 6.5.1, using suitable screw terminal blocks. the module applies a low impedance to the azc when the alarm contacts open, and so the circuit must be programmed as b1 = alarm. fig 6.5.1 normally closed contact wiring to f3200 azc f3200/ndu as4428.1 installation manual document no: lt0255 applications page 6-34 30 june 2004 issue 1.04 6.6 special connections to detectors 6.6.1 connecting the s231i+ or s231f+ (using zau401 rev 2) * * w a r n i n g * * even though the s231i+ is listed as hazardous area rated, this compatibility is for a direct connection ? not through an intrinsically-safe isolator, and thus cannot be used in hazardous area applications. for is applications refer to section 6.4. the s231i+ and s231f+ detectors are not directly compatible with the f3200. however, compatibility can be achieved by using t he pa0838 zau401 (rev 2) zone adaptor unit between the panel and the detectors. the zau401 can be thought of as a single zone circuit module that can be added to a panel to make it compatible with a wider range of detectors. the zau401 supports up to 2ma of quiescent detector current, thus only 5 s231i+ or s231f+ detectors can be used on each zau401. it operates off the panel?s 24v supply and consumes 20ma in the normal state. only one zau401 can be connected to each circuit on the panel. also, do not use a rev 1 or non-vigilant manufactured zau401 as these have different characteristics. a 220e 5w resistor (vigilant part number rr0415) must be placed in series with the detector circuit at the zau401 to limit the maximum current to any detectors in alarm. wiring of the zau401 to the panel and s231i+ or s231f+ detectors is shown in fig 6.6.1.1. * eol to suit panel used. fig 6.6.1.1 zau401 (rev 2) and s231i+ or s231f+ 1 batt+ 2 zone+ 3 eol+ 4 eol- 5 zone- 6 batt- t+ 3 tc 2 t- 1 zau401 (rev 2) (pa0838) eol* to panel zone circuit + - + - panel 24v { panel detectors 220e 5w eol 3k9 5% s231i+ detectors qty 5 maximum document no: lt0255 f3200/ndu as4428.1 installation manual alignment, adjustment & placing into operation issue 1.04 30 june 2004 page 7-1 chapter 7 alignment, adjustment & placing into operation f3200/ndu as4428.1 installation manual document no: lt0255 alignment, adjustment & placing into operation page 7-2 30 june 2004 issue 1.04 7.1 alignment & adjustment all the f3200 modules (pcbs) are tested and aligned in the factory before being supplied to the customer or fitted to a fip. the only field adjustments that may be necessary are to set the lcd contrast and the battery charger voltage. controller/display vr2 lcd contrast adjust for best readability of the lcd when viewed from the front of an installed panel. factory adjustments include: vr1 set 1.2v ref adjust for charger high voltage of 28.1v to 28.15v. vr3 adjust 15.9v adjust until the 15.9v reference on tp15 is 15.90vdc. r94, fault threshold snip as required to set fault threshold to r105 nominal 19.03v. maf/psu pt1 battery charger voltage should the battery charger voltage need adjusting, the method is as follows: 1. run the system with the door closed for at least 30 minutes to allow components to "warm up" (the longer the better). 2. calculate the required no-load battery charging voltage by taking 27.3v for 20 c and subtracting approximately 0.1v for every 3 c above 20 c, or adding approximately 0.1v for every 3 c below 20 c. 3. with the system not in alarm, disconnect the batteries. 4. measure the voltage at the battery terminals and adjust to the voltage calculated in step 2 by turning pt1. 5. re-connect the batteries. pt2 +22v supply is factory set and should not need field adjustment. document no: lt0255 f3200/ndu as4428.1 installation manual alignment, adjustment & placing into operation issue 1.04 30 june 2004 page 7-3 7.2 placing into operation 7.2.1 general this chapter describes the procedure to place an f3200 fip into operation. it assumes that the mains and other field wiring has been connected, but that the battery has not and the mains is not yet switched on. note that all electronic modules were tested and adjusted in the factory and should need no further adjustment. before switching on power (mains), inspect the cabinet and internals. check as follows: 1. check that all equipment is securely mounted, and that all cables are connected at the appropriate points. the factory checklist is included. 2. check that the 8 way modules and (if required) the 16 zone led displays are fitted and connected correctly. (see sections 2.3.2, 4.2 and 5.11). 3. check that any additional overcurrent protec tion device is fitted as per chapter 4. note that batteries are not yet connected. 4. check that links lk2-4 on the maf are fitted (unless anc3, clean contacts is being used), and module relay supervision links are fitted in the s position for relays which require supervision. 5. check that the field wiring of azc and relays is as per the "as built" wiring diagrams and corresponds to the configuration of modules and links. the "mains isolate switch" is located at the top right hand side of the cabinet rear, to the left of the mains transformer, behind the inner display door. this controls the mains power to the fip, charger and power supply, and should be left on once the fip is operational. note: the battery is not disconnected by the "mains isolate switch". f3200/ndu as4428.1 installation manual document no: lt0255 alignment, adjustment & placing into operation page 7-4 30 june 2004 issue 1.04 7.2.2 power up to place the f3200 fip into operation, perform the following steps: step 1 ensure that the mains isolate switch is off. step 2 ensure that 240 vac is connected to the panel from the mains distribution switchboard. step 3 ensure that lk7 on the controller is set to the database write protect position before powering on the panel. if an e2init is required before programming, fit minijump sw1. (refer to the programming manual). turn the mains isolate switch on. step 4 check that the buzzer sounds and all leds on the operator display panel flash for 2 seconds (except mains on). step 5 check that the green "mains on" led indicator is on. the controller performs tests on its memory, electronics, and the lcd. step 6 check that the lcd has good visibility. the lcd displays the fip pcb configuration before showing the base display. step 7 if doing an e2init, set lk7 to the database write position, remove minijump sw1 and press "ack" to complete the sequence. step 8 install and connect the batteries. take care not to short the battery leads or connect in reverse polarity when connecting. step 9 if required, complete programming as per the programming manual and then fit lk7 on the controller to the database protect position. step 10 perform a battery test. - if this fails check the battery connections, leave for 24 hours and then retest. step 11 perform a system test (de-isolate all zones first), and a test of the external bell and warning system (if fitted). a full commissioning test should be carried out as per as1670.1. document no: lt0255 f3200/ndu as4428.1 installation manual alignment, adjustment & placing into operation issue 1.04 30 june 2004 page 7-5 7.2.3 commissioning checklist the following checklist should have been completed and supplied by the manufacturer. it should be placed with other system configurat ion information. commissioning staff should check the installed fip against it. (note that all pcbs are electronically tested and adjusted before being fitted to the fip). 1. cabinet & general a) cabinet colour - standard cream wrinkle (bff 998 cw) - other: ____________________________________ b) cabinet undamaged (paint ok) c) door aligned correctly d) window undamaged and fitted correctly e) mcp fitted and undamaged f) cabinet door locks firmly, operates microswitch g) lock - 003 type & two keys supplied h) door seals fitted to top and sides i) display keypad and 4u door fitted & aligned correctly j) cardframe fitted, card fits frame correctly ..(fp0551 only) k) standoffs fitted to cabinet rear (none missing) l) operator manual and battery leads included m) manufacturer?s label completed, fitted 2. pcbs & wiring a) maf/psu fitted securely on standoffs b) controller/display fitted securely c) 8zm fitted securely, earth screw fitted d) frc looms fitted correctly e) mcp & door switch wires fitted to j6 of maf/psu, secured f) earth wire fitted to display door g) all 3 modules earth to cabinet metal f3200/ndu as4428.1 installation manual document no: lt0255 alignment, adjustment & placing into operation page 7-6 30 june 2004 issue 1.04 commissioning checklist (continued) 3. power supply a) mains wired correctly, mov, cap fitted b) "mains isolate switch" and "nae" label fitted c) mains earth wired to stud, good contact d) mains switch neon off/on for switch off/on e) maf/psu mains on led on, fuse blown led off f) vrect at dc in tab 40-42vdc g) charger voltage 27.25-27.4v warm, 27.5-27.75v cold 4. operation a) leds flash, aligned with windows, "mains on" led on b) buzzer pulses with microswitch operated, lk7 in write c) controller lk7 in "protect" position d) lcd contrast correct for front view e) de-isolate zones, system test pass on all (8) circuits f) fip mcp programmed to zone 1; other: ___________ ok g) "alm" led flashes & buzzer pulses for mcp operation h) acknowledge silences buzzer, zone resets i) controller lk2 fitted (not in service mode) serial number test passed date : ???............. signature : ??????....................... document no: lt0255 f3200/ndu as4428.1 installation manual alignment, adjustment & placing into operation issue 1.04 30 june 2004 page 7-7 7.3 error messages for startup listed below are some error messages that can appear on the lcd during installation. refer also to section 6.16 system faults in the operator manual lt0250. error messages that can occur on startup or exit from program mode "shift reg clocking fault" "invalid # shift regs.total # regs=xxx # input regs=xxx" these messages indicate a hardware fault with the shift register bus that connects the controller, maf/psu, 8 zone, and 8 relay modules. the fault could be on the controller, the interconnecting frcs or any of the connected boards. try connecting just the maf/psu on its own and with different cables to isolate the problem. "shift reg driver fault" this message indicates a problem with the software driver for the shift register bus. "clock crystal timebase check fail" this message indicates a hardware fault on the controller. "clock chip ram write read fail" "clock register write read fail" "clock startup fault" these messages indicate a hardware fault on the controller. "eprom crc fail" this message indicates the checksum of the software program code is incorrect. this can be caused by a damaged eprom or some other hardware fault on the controller. error messages that can occur on entry to program mode "this database is invalid and should be reinitialised-net dbase in non net panel" this message is produced on entry to program mode when a database created with networked f3200 or ndu software is used with non-networked software. this is unusable and the database should be re-initialised and reprogrammed. document no: lt0255 f3200/ndu as4428.1 installation manual appendix a issue 1.04 30 june 2004 page a-1 appendix a1 compatible actuating devices (detectors) the following detectors are compatible with the f3200 system. the maximum number of detectors per circuit is indicated by the columns 4ma and is, for standard and intrinsically safe applications. for is application refer to section 6.4. detectors certified with f3200 fip max no. type description base 4ma is md614a heat detector type a m614 40 - md614c heat detector type c m614 40 - mf614 ionisation smoke detector m614 40 - mr614 photoelectric smoke detector m614 40 - mr614t photoelectric smoke detector m614 40* 1 - mu614 co fire detector m614 40 - t614a heat detector type a m614 40* 2 - t614b heat detector type b m614 40* 2 - t614c heat detector type c m614 40* 2 - t614d heat detector type d m614 40* 2 - mf301ex x ionisation smoke detector m300 40 40 mr301ex x photoelectric smoke detector m300 40 40 mr301tex x photoelectric smoke detector m300 40 40 ms302ex x infra-red flame detector m300 40 40 s111 x infra-red flame detector (is) - 40 35 s121 x infra-red flame detector (is) - 40 35 s131 x infra-red flame detector (is) - 40 35 s231i+ x infra-red flame detector (is) - - 11 s231i+ infra-red flame detector and zau401 - 5 5 s231f+ infra-red flame detector and zau401 - 5 - s261f+ infra-red flame detector - 40 - su0600 15v mcp - 40 - * 1 for ambient temp < 30c. max qty is 34 otherwise * 2 47e resistor required between azc+ and detector +ve. see pbg0116. table i minerva/thorn detectors detectors certified with f3200 fip max no. type description 4ma dca-b-60r heat detector type a 40 dca-b-90r heat detector type c 40 dcd-a heat detector type a with ybo ? r/4a base 40 dcd-c heat detector type c with ybo ? r/4a base 40 dfe-60b (dfb-60b) heat detector type b 40 dfe-90d (dfb-90b) heat detector type d 40 dfj-60b heat detector type b with ybo ? r/4a base 40 dfj-90d heat detector type d with ybo ? r/4a base 40 sij-asn ionisation smoke detector with ybo ? r/4a base 40 slr-as photoelectric smoke detector with ybo ? r/4a base 40 sif-am ionisation smoke detector 40 sih-am ionisation smoke detector 40 slk-a photoelectric smoke detector 40 slg-am photoelectric smoke detector 40 hf-24a ultraviolet flame detector 18 with ybc-rl/4ah4, ybf-rl/4ah4 or ybf-rl/4ah4m bases table ii hochiki detector range f3200/ndu as4428.1 installation manual document no: lt0255 appendix a page a-2 30 june 2004 issue 1.04 detectors certified with f3200 fip max no. type description base 4ma is b111b # beam smoke detector (note 7) - 40 0 b21b beam smoke detector - 1 0 c23b *& ionisation smoke detector z23 40 0 c23bex *x ionisation smoke detector (is) z23 40 35 c24b ionisation smoke detector *1 40 0 c29b ionisation smoke detector *1 40 0 c29bex x ionisation smoke detector (is) z94c 40 40 dl01191a beam detector - 1 - fw81b heat detector cable fw68, fw105 (is) - 1000m 1000m p24b photoelectric smoke detector *1 40 0 p29b photoelectric smoke detector *1 36 0 p61b * photoelectric smoke detector (rev j) - 40 0 p76b photoelectric smoke detector non- latching z72 10 0 p136 duct sampling unit - 8 - r23b & infrared flame detector - 36 0 r24b dual spectrum infrared flame detector - 8 0 r24bex +x dual spectrum infrared flame detector (is) - 8 7 t54b +x# probe type e heat detector (is or flameproof) - 40 40 t56b x heat detector types a, b, c, d (is with z55, z56n or z500n base) *1 40 40 v41b +x# ultraviolet flame detector - 40 40 v42b +x# ultraviolet flame detector slave - n/a n/a v44b +x# ultraviolet flame detector - 40 40 - short circuit device - 40 40 zau401 zone adaptor unit - 1 - *1 = z54, z54 mk2, z55b, z56, z500 bases table iii olsen detector range detectors certified with f3200 fip max no. type description 4ma series 60 apollo heat detector types a, b, c, d 40 series 60 apollo photoelectric smoke detector 40 series 60 apollo ionisation smoke detector 40 all with 45681-200 bases mk viii * flameguard heat detector type a 22 mk viii * flameguard heat detector type c 11 mk5, mk6 * intertec heat detector types a, b, c, d 22 (note 9) detector has integral led & terminals table iv other detectors document no: lt0255 f3200/ndu as4428.1 installation manual appendix a issue 1.04 30 june 2004 page a-3 simplex range max number type description iq ua with eol 4098-9618ea type a heat detector 100 40* 2 4098-9619ea type b heat detector 100 40* 2 4098-9621ea type d heat detector 100 40* 2 4098-9601ea photoelectric smoke detector 100 40 4098-9603ea ionisation smoke detector 100 40 * 1 all with simplex 4098-9788ea base. * 2 47e resistor required between azc+ and detector +ve. see pbg0116. table v simplex detectors remote indicators (leds) with compatible detectors/bases rem ind/ base z51 b z52b z54b z54b mk2 z55b z56 z500 z91c z94c mub e500 �9 �9 �9 �9 e500 mk2 �9 �9 �9 �9 �9 �9 det/rem ind e500 e500 mk2 c23b �9 r23b �9 �9 r24b �9 �9 p76b �9 �9 table vi tyco detector/base & remote led range the e500 remote indicators are designed to operate across typically 5v. e500 r = 180 ? , v f led = 2.2v typical e500 mk2 r = 1.2k ? , v f led = 1.75v typical f3200/ndu as4428.1 installation manual document no: lt0255 appendix a page a-4 30 june 2004 issue 1.04 actuating device compatibility notes 1) the maximum number of detectors per azc allowed by the standard is 40. 2) those detectors shown in brackets are old models and have the same characteristics as the current models. 3) detectors indicated by a "x" may be used in intrinsically safe areas in conjunction with approved and compatible, intrinsically safe adaptors. the number allowed in a particular circuit may be less than the maximum shown. see section 6.4. v41/42/44b detectors have flameproof enclosures. 4) detectors indicated by a "+", which are used in hostile climatic environments, may be directly connected to the panel, if they are not required to be intrinsically safe. 5) detectors indicated by a "*", are not current models and should not be used for new installations. 6) detectors indicated by an "&", normally use an incandescent lamp which will have a low intensity when used in mode 1. the lamp can be replaced with an led kit. 7) the b111b beam and v41b/v42b/v44b flam e detectors require power from the fused +24 vdc supply. 8) hard contact devices are indicated by a "#". where an azc has only hard contact detectors the circuit resistance may be up to 150 ohms maximum to guarantee voltage band b1 operation. 9) there is a 12v version of flameguard which may be used by adding a zener diode. the intertec detectors require a series diode to be fitted for compatibility. both of these are detailed in product bulletin pbf0080. 10) the olsen fw81b code for fire wire has been replaced by fw followed by the temperature rating in c, e.g. fw68, fw105. only fw68 is currently approved and listed. document no: lt0255 f3200/ndu as4428.1 installation manual appendix a issue 1.04 30 june 2004 page a-5 appendix a2 programming for detector type 1. general the default programming (i.e. by e2-init) for azcs (circuits) and zones is: circuits alarm mode delay voltage band voltage band text (type) b1 (0-3v) b3 (13-17.5v) ???? 1 smoke 1 standard 1 standard 1 instant alarm 1 instant alarm ???? zones latch/ non- latch mapped/not to maf mapped/not to anc 1 mapped/not to warning system mapped/not to ext bell led map (zone n) latch mapped mapped mapped mapped led n the default "circuit" programming suits most of the common "electronic" (as opposed to "hard contact") smoke detectors and hard contact detectors in electronic bases, where these are not used with external (remote) led indicators. where other types of detector are used, or detectors are used to switch remote led indicators directly so that the alarm voltage is out of the b2 range (approx. 3v-13v), the circuit will have to be programmed accordingly. in some cases constraints are also applied to zone programming. for example, where a non-latching detector (e.g. olsen p76b) is used for air duct sampling, then as well as programming the circuit for the appropriate rad or sad time delay sequence, the zone should be programmed as non-latching. 2. alarm text choose the appropriate text for each detector type e.g. smoke (default) for smoke detectors, heat for thermal detectors, etc. there is provision for creating new names if the standard ones are not sufficient. the instant alarm text may also be changed if required (default is manual). 3. mode mode 1 (standard) suits most detectors where remote leds are not used. high current detectors the following detectors require the f3200 circuit to be programmed into high current mode (mode 2) to give sufficient led (lamp) illumination current. olsen c23b, c23bex, r23b, r24b (and ex w here applicable), flameguard, intertec, apollo series 60. f3200/ndu as4428.1 installation manual document no: lt0255 appendix a page a-6 30 june 2004 issue 1.04 appendix a2 (continued) remote leds where remote leds are used, mode 2 may have to be selected to give sufficient current for illumination, depending on the particular led kit used. where mode 2 is selected, some detectors require voltage band b3 to be programmed as alarm. see tables i-v. 4. delay type delay types 2 and 3 with a delay out of alarm (delay 2 greater than 0) require a non-latching detector (e.g. olsen p76b). 5. voltage bands the following tables i-v show the expected alarm voltage band for each type of detector in mode 1 (standard) and mode 2 (high current). a ?-? means there is no need to use mode 2 (and it should not be used). where a value other than b2 is shown (e.g. b1 or b3), then that voltage band must be programmed as alarm, as well as b2. hard contact detectors hard contact detectors that are not fitted to an electronic base may also be connected directly across the circuit. program the detector type as appropriate (e.g. heat, flowswitch) and voltage band b1 as alarm (detector operated). if detectors and mcps are to be used on the same circuit, with differentiation between them (e.g. for avf), then it is necessary to use 15v mcps and program b3 = instant alarm. this means that 15v mcps cannot be used on the same circuit as any detector that requires b3 = alarm. XTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTThTTTTTTTTT TTTTTTTT[ U detectors compatible with f3200 fip voltage bands U U for modes 1 & 2 U c? f U type description mode 1 mode 2 U dTTTTTTTTTnTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTnTTTTTTTTn TTTTTTTTg U dcd-a (dca-b-60r & dcc-a) heat detector type a b2 b3 U c?? f U dcd-c (dca-b-90r & dcc-c) heat detector type c b2 b3 U c?? f U dfj-60b (dfb-60b & dfe-60b) heat detector type b b2 b3 U c?? f U dfj-90d (dfb-90d & dfe-90d) heat detector type d b2 b3 U c?? f U sij-asn (sif-a & sih-am) ionisation smoke detector b2 b3 U c?? f U slr-as (slk-a & slg-am) photoelectric smoke b2 b3 U U detector U c?? f U hf-24a ultraviolet flame detector b2 b3 U ^TTTTTTTTTkTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTkTTTTTTTTk TTTTTTTTa table i hochiki detector range document no: lt0255 f3200/ndu as4428.1 installation manual appendix a issue 1.04 30 june 2004 page a-7 XTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTThTTTTTT TTTTTTTT[ U detectors compatible with f3200 fip voltage band U U for modes 1&2 U c? f U type description mode 1 mode 2 U c?? ?f U md614a heat detector type a b2 - U c?? ?f U md614c heat detector type c b2 - U c?? ?f U mf614 ionisation smoke detector b2 - U c?? ?f U mr614 photoelectric smoke detector b2 - U c?? ?f U mr614t high performance optical smoke detector b2 - U c?? ?f U mu614 carbon monoxide detector b2 - U c?? ?f U t614a heat detector type a b2 - U c?? ?f U t614b heat detector type b b2 - U c?? ?f U t614c heat detector type c b2 - U c?? ?f U t614d heat detector type d b2 - U c?? ?f U ms302ex infra-red flame detector b2 - U c?? ?f U s111 infra-red flame detectors (is) b2 - U c?? ?f U s121 infra-red flame detectors (is) b2 - U c?? ?f U s131 infra-red flame detectors (is) b2 - U c?? ?f U s231i+/f+ infra-red flame detector(is)(refer 6.6.1) b2 - U c?? ?f U s261f+ infra-red flame detector b1 - U c?? ?f U mf301ex ionisation smoke detector b2 - U c?? ?f U mr301ex photoelectric smoke detector b2 - U c?? ?f U mr301tex high performance optical smoke detector b2 - U ^TTTTTTTTTTTTTkTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTkTTTTTT TkTTTTTTa table ii tyco detectors f3200/ndu as4428.1 installation manual document no: lt0255 appendix a page a-8 30 june 2004 issue 1.04 XTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTThTTTTTT TTTTTTTT[ U detectors compatible with f3200 fip voltage band U U for modes 1&2 U c? f U type description mode 1 mode 2 U c?? ?f U 4098-9618ea heat detector ? type a b2 - U c?? ?f U 4098-9619ea heat detector ? type b b2 - U c?? ?f U 4098-9621ea heat detector ? type d b2 - U c?? ?f U 4098-9603ea ionisation detector b2 - U c?? ?f U 4098-9601ea photoelectric detector b2 - U ^TTTTTTTTTTTTTkTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTkTTTTTT TkTTTTTTa table iii simplex detectors document no: lt0255 f3200/ndu as4428.1 installation manual appendix a issue 1.04 30 june 2004 page a-9 XTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTThTTTTTTT TTTTTTTT[ U detectors certified with f3200 fip voltage bands U U (ssl # 336) for modes 1 & 2 U c? f U type description mode 1 mode 2 U dTTTTTTTTTTTTTnTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTnTTTTTTT TnTTTTTTg U b111b beam type smoke detector see note 1 b1 - U c?? ?f U b21b beam type smoke detector b3 - U c?? ?f U c23b ionisation smoke detector see note 3 b2 * b3 U c?? ?f U c23bex ionisation smoke detector see note 3 b2 * b3 U c?? ?f U c24b ionisation smoke detector b2 b2 U c?? ?f U c29b ionisation smoke detector b2 b2 U c?? ?f U c29bex ionisation smoke detector (is) b2 * b2 U c?? ?f U dlo1191a beam smoke detector b3 b3 U c?? ?f U fw81b heat detector cable fw68, fw105 (is) b1, b2 - U c?? ?f U p24b photoelectric smoke detector b2 b2 U c?? ?f U p29b photoelectric smoke detector b2 b2 U c?? ?f U p61b photoelectric smoke detector (rev j) b2 - U c?? ?f U p76b photoelectric smoke detector (note 2) b3 b3 U c?? ?f U p136 photoelectric smoke detector (note 2) b2 - U c?? ?f U r23b infrared flame detector b2 * b2 U c?? ?f U r24b dual spectrum infrared flame detector b2 * b3 U c?? ?f U r24bex dual spectrum infrared flame detector U U (is) b2 * b3 U c?? ?f U t54b probe type e heat detector U U (is or flameproof) b1 - U c?? ?f U t56b heat detector types a, b, c, d U U (is with z55 base) see note 1 b2 b2 U c?? ?f U v41b ultraviolet flame detector U U see note 1 b1 - U c?? ?f U v42b ultraviolet flame detector slave - - U c?? ?f U v44b ultraviolet flame detector U U see note 1 b1 - U c?? ?f U su0600 15v mcp b3 b3 U c?? ?f U detectors with bases as applicable U ^TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT TTTTTTTTa table iv tyco detector range f3200/ndu as4428.1 installation manual document no: lt0255 appendix a page a-10 30 june 2004 issue 1.04 XTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTThTTTTTTTTT TTTTTTTT[ U detectors certified with f3200 fip voltage bands U U (ssl # 336) for modes 1 & 2 U c? f U type description mode 1 mode 2 U dTTTTTTTTTTTTTnTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTnTTTTTTTTn TTTTTTTTg U series 60 apollo heat detector types a, b, c, d b2 * b3 U c?? f U series 60 apollo photoelectric smoke detector b2 * b3 U c?? f U series 60 apollo ionisation smoke detector b2 * b3 U dTTTTTTTTTTTTTkTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTkTTTTTTTTk TTTTTTTTg U all with 45681-200 bases U dTTTTTTTTTTTTThTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTThTTTTTTTTh TTTTTTTTg U mkviii flameguard heat detector type a, 24v - * b3 U c?? f U mkviii flameguard heat detector type c, 24v - * b3 U dTTTTTTTTTTTTTnTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTnTTTTTTTTn TTTTTTTTg U mk5, mk6 intertec heat detector types a,b,c,d b2 * b2 U c?? f U zau401 zone adaptor unit (rev 2) b2 b2 U ^TTTTTTTTTTTTTkTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTkTTTTTTTTk TTTTTTTTa table v other detectors notes 1. hard contact devices without "electronic" bases give voltage band b1 unless a 6v8 zener diode is wired in series with the contacts which gives b2 alarm. 2. the p76b requires band b3 to be programmed as alarm (detector operated) though typical operation for both modes 1 and 2 will give b2 voltage (just less than 12v). for non-latching operation the zone must be programmed as non-latching. 3. the c23b and c23bex (old types of detectors) may have a nominal 6v/30ma bulb in them which require mode 2 for illumination. the bulbs may have been replaced with leds. although the bulb would typically give b2 operation, it is safest to program b3 as alarm. the r23b with an led needs only b2 in mode 2. (note that the incandescent lamps do not meet the ssl005 standard). 4. detectors shown with an "*" need to be programmed for mode 2 to give sufficient lamp illumination. the flameguard detectors require mode 2 for latching and require an extra resistor (270e, 5w) to be switched in from +vbf to the azc+ terminal for led illumination. if relay n is used to boost azcm, the logic for the relay is rn = zma.^zmr. 5. for is applications refer to section 6.4. warning detectors which require voltage band b3 to be programmed as alarm (detector operated) cannot have an mcp with a 15v zener diode (e.g. su0600) connected to the same circuit. |
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