Fire-Lite Sensiscan s1000

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firealarmresources com A or Class 8 for MCB 108 MZB 4 MZB 8 MZB12 and Class 8 only on MCB 114 MZB 22 standby 23VDC 60 mV p p Detection loop specifications required to ensure alarm 15mA minimum circuit current 55 ma msx current 5ma of line resistor 4.7K 5 resistance per side 100 Ohms total zone resistance 100 Ohms Compatible U L listed 2 wire detector available fire Lite include the following series appendix A Initiating Devices include Manual itation heat detectors smoke detectors ionization detectors waterf low devices coded manual stations Inhibit latching circuit by removing diode marked with a 0 from zone card if coded manual stations are con to it zone Use model WFC If the local authority having jurisdiction requires waterflow service without a disable capabil Smoke and Ionization detectors requiring separate 24VDC power can be powered from master control board 24 and Terminal 35 See table I for current limitations Use end of line relay SDLR 8 to super power circuit wiring Caution is advised when using 2 wire detector containing supplementary relays or Indicators since their opera canr be ensured Example activation of a manual station heat detector or other shorting type detector will operating current from the 2 wire detectors on the same zone thereby preventing their operation Detector loop current is sufficient to ensure the alarming of one detector per zone Detector loop is Power limited circuit which may be connected to limited energy cable Compatible four wire detectos available from Fire Lite include SD34 24 CP 715 8 SHUNT TYPE MUNICIPAL BOX CONNECTIONS The shunt connection is recognized only as a supplementary signalling unit as part of a local control un t and is recognized as an auxiliary control unit connection per NFPA Number 728 Connect master control board terminal 20 21 in shunt parallel with municipal box trip coil If box is equipped with a reset supervisory switch connect switch as follows Coffnon to TMM 3 Terminal 1 Normally closed to TMM 3 Terminal 3 Normally open to TMM 3 Terminal 4 9 TRANSMITTER MODULE TMM 3 Local Energy Municipal Box Circuit a local energy municipal box is to be employed remove the lk 1 2W resistor from terminals 1 and 2 If the box is equipped with a reset supervisory switch remove the jumper between terminals 1 and 3 the auxiliary trip coil to terminals 1 and 2 trip coil characteristics should be Trip current 0.25 Amperes Coil voltage 3.65VDC Coil resistance 14.6 OHMS the total interconnecting wire resistance between panel and trip coil to 5 OHMS E Connect the reset supervisory switch as follows Switch common to Terminal 1 Normally closed contact to Terminal 3 Normally open contact to Terminal 4 Wiring must comply with N F P A 728 Auxiliary 2 Remote Station Connection Remove jumper J1 unless local regulations specifically prohibits the transmission of a trouble signal A U L Listed polarity sensitive remote station rated for 18 to 28 VDC operation may be connected to terminals 5 and 6 Nominal remote station output levels 1 Alarm 24VDC with Terminal S Positive Normal 24VDC with Terminal 6 Positive Trouble 0 VDC if jumper J1 has been removed Trouble is not if jumper J1 is installed Do not short output if a remote station is not employed leave Terminal 5 and 6 Alarm Contacts Non Supervised Two sets of form C Contacts are provided at Terminals 7 to 12 These contacts are activated by an alarm Contacts are rated at 10 AMP 28VDC 115VAC resistive 10 BELL CIRCUIT BCM 2 of Operation non disconnectable bells remove jumper J3 but leave jumper J2 disconnectable bell remove jumper but leave jumper J3 convert from a steady bell signal to a March Time MIC bell signal remove jumper diode Jl normally open or normally closed trouble contacts by removing jumper J4 or jumper J5 Re J4 to obtain an open contact during normal system operation or remove J5 to obtain a close con during normal operation output non supervised open or normally closed trouble contact is provided at terminals 1 and 2 This contact activated by a system trouble and is rated 2Amps 28VDC resistive limited Indicating circuits supervised signalling circuits as shown table for maximum signalling current wire for a maximum voltage drop of 2VDC polarized U L listed signalling devices with a minimum rated voltage range of 18 to 30VDC fire Lite model include BDP 24 Bell HDP 24 Horn and STH 72 24D Strobe Horn are outlined in the following table power is connected to the bell module via terminal 7 positive input CKT A terminal 8 and USED LIMITATION CIRCUIT OF BOTH A BCM Termainal 7 MCB Terminal 22 BCM Terminal 8 to Terminal 23 Com Internally Connected A BCM Terminal 7 PSM 104A Terminal 6 B BCM Terminal 8 PSM 104A Terminal 6 MCB Terminal to PSM 104A 5 A BCM Terminal 7 PSM 204A Terminal 10 B BCM Terminal 8 PSM 204A Terminal 6 MCB Terminal to PSM 204A Terminals and 9 Class A Class B PSM 104 mounts to of all optional chas A 3 wire cable normally connected to P4 lower left plug on last closest master board If zone bell modules employed see figure 16 for additional Information Standard system no optional chassis A 7 wire cable connected to P3 lower left side on last closest master System with optional chassis A 13 wire jumper cable connected to adjacent plug P13B on optional chas A 12 wire cable connected to P11 right side on master control board A 24V standby battery connects to terminals 3 negative and terminal 4 positive Battery is float charged to volts Charger has a typical current limit of 1.5 amperes Battery circuit must be capable of supplying 4 am to PSM 104 during a power failure A C power connects to terminals 1 and 2 Standard A C input is 120V 60 HZ Current consumption at rated is 1.2 amperes See Instruction Manual section 3.4 Install protective cover over terminal block before energizing system 11 PSM 102 AR auxiliary PS two amperes of regulated adjustable 24VDC smoke power It also increases the system s zone carrying ca Overload protection is provided by means of circuit breaker s and or fuse at input and output of the sup The green LED lights when AC power is applied If AC Power indicator fails to light service system immedi Loss of AC power will activate system s visual and an audible device sup pro Install PSM 102AR to extreme left of all the power supplies Connect three plug cable as shown Remove jumper from terminal 35 of the master control board MCB but maintain term 30 to 34 jumpered as shown In the table below KCS 9 8 CONTROL BOARD 19 31 Connect 120VAC 60HZ across terminal 1 and 2 Connect battery 24VDC across terminal 3 And 4 Check the polarity when connecting the batteries If Remote Control Panel RCP is employed then avoid step 5 Connect term 35 of MCB to term 16 of Remote Control Panel term 8 of PSM 102AR to term 2 of RCP more Information on IRCPI see dwg 110000 3035 REQUIREMENTS Input 120VAC 60HZ 1.2AMP 24VDC at 2 OAMP 24 11 PSM 108 SYSTEM POWER SUPPLY is in optional system power supply without battery charger It provides two amps of regulated alarm cur in addition to 3.5 amps of unfiltered bell power The PSM 108 with an external battery charger shall be used of when 1 alarm current load In table 1 exceeds 750 amp and calculation In part 3 of table 3 requires greater than 28 ampere hour battery brownout circuit will engage the secondary source 24v battery when Insufficient A C voltage is detected outputs 1 Reguated 24VDC 2 ampere maximum 2 Two unfiltered unregulated 24 volt nominal full wave d c outputs used to power bell circuits Total output current is 3.5 amperes protection A C power two breakers each 1.2 amperes Bell power two PTC 3.75 amperes 3 amperes charger R45 24 1 Float type with current limiting and voltage foldback circu

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