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Honeywell Silent Knight IFP-2000 Module 3 Installation Manual

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IFP-2000
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Summary of Contents for Honeywell Silent Knight IFP-2000 Module 3

  • Page 1 IFP-2000 Farenhyt PHD Farenhyt PHD...

  • Page 2: Installation

    IFP-2000 Installation Module 3 Module 3...
  • Page 3 Objectives Objectives At the end of this section you will be able to: Explain environment specifications for the IFP-2000 Explain how to wire various modules to the IFP-2000 Demonstrate basic troubleshooting of the IFP-2000...

  • Page 4: Environmental Considerations

    Environmental Considerations Environmental Considerations Moisture protection: Do not mount directly on exterior walls Especially masonry walls Do not mount directly on exterior walls below grade Protect from plumbing leaks Protect from splash caused by sprinkler system inspection ports ports Do not mount in areas with humidity-generating equipment...
  • Page 5 Environmental Considerations Environmental Considerations Temperature protection 0C - 49C ( 32F - 120F ) Humidity protection 10% - 85% at 30C ( 86F ) non-condensing You work better in dry, comfortable environments, The panel will work better in dry comfortable environments...

  • Page 6: Wiring Specifications

    Wiring Specifications Wiring Specifications All circuits, except battery cables and AC, are power limited Maintain at least 1/4" spacing between power limited and non-power limited circuits Separate high and low voltage circuits Separate high and low voltage circuits Follow National Electrical Code...
  • Page 7 AC Connection AC Connection At installation, connect the AC terminals to 120 VAC source Section 4 of the manual A high voltage electrician may be electrician may be necessary The AC terminals are rated 120 VAC or 240 VAC 60 Hz or 50Hz...

  • Page 8: Battery Connection

    Battery Connection Battery Connection Charge capacity 17.0 to 55.0 AH Use 12V batteries of the same AH rating Determine per your current load calculation Wire batteries in Wire batteries in series, NOT parallel series, NOT parallel to produce a to produce a 24-volt equivalent...

  • Page 9: Charging Circuit

    Charging Circuit Charging Circuit Check battery connections With AC on Batteries hooked up Should read 27.4 VDC With each battery only Should read 13.7 VDC 27.4 VDC Batteries under load (No AC) Batteries under load (No AC) Voltage should hold or slowly drop Starting at 27.4 VDC...

  • Page 10: Battery Calculations

    Battery Calculations Battery Calculations Use Table 3-1 to determine current requirements during alarm / battery standby operation Visit www.farenhyt.com Get the Excel file for battery calculations calculations...
  • Page 11 Battery Standby Mode Battery Standby Mode IFP-2000 charges 17 – 55AH batteries 18AH battery is largest that can fit in the FACP cabinet...
  • Page 12 Batteries Batteries 35AH batteries Require a Remote Battery Box (RBB) 40 & 55AH batteries Require AB-55 Remote Battery Box Must be mounted next to FACP cabinet * Standby in an unoccupied building...
  • Page 13 Battery Calculations Battery Calculations What makes up a standby current? Smoke detectors Fire Alarm Control Unit Zone modules, relays, etc. Annunciators Monitor modules Control modules Supervisory modules...
  • Page 14 Battery Calculations Battery Calculations What makes up alarm current? Notification Appliances Modules that change status in alarm Devices in alarm Smoke detectors Control modules Relays Relays Etc.
  • Page 15 Battery Calculations Battery Calculations Sum the currents of all devices that draw current in : Standby: 0.5 Amps Multiply by 24 hours: 12.0 Amp-Hours Multiply MAX supply capability (say 6 0.5 Amp-Hours amps) by 5/60 (0.084): Sum Standby & Alarm: 12.5 Amp-Hours Safety / De-Rating Factor built-into numbers in manual...
  • Page 16 Battery Calculations Battery Calculations “Safety / De-Rating Factor” Environmental Effects Temperature, etc. System Modifications Recalculate!! Recalculate!!
  • Page 17 Review Review What size batteries will an IFP-2000 charge? 17-55AH What is the largest battery you can install in the IFP-2000 cabinet? 18AH...
  • Page 18 Calculating SBUS Calculating SBUS Need two things: Current draw / wire distance Based on max current on SBUS & wire gauge Capacity No. of SBUS modules you can have on the system Measured in % of bandwidth Each SBUS is calculated separately...
  • Page 19 SBUS Wiring Distance SBUS Wiring Distance Calculate the total worst case current draw for all modules on a single 4-conductor bus Add the individual worst case currents for each module Model Number Worst Case Draw RA-2000 Fire Annunciator .120 amps 5815XL .150 amps 5824 Serial/Parallel Printer Interface Module...
  • Page 20 SBUS Wiring Distance Example SBUS Wiring Distance Example Suppose a system is configured with the following SBUS modules: 2 - Module RA-2000 Fire Annunciator 1 – RPS-1000 Intelligent Power Expander 1 - 5865 LED Fire Annunciator 1 - 5824 Serial / Parallel Interface Module 1 - 5824 Serial / Parallel Interface Module The total worst case current is calculated as follows: RA-2000 Current Draw...
  • Page 21 SBUS Wiring Distance SBUS Wiring Distance Wiring Distance SBUS Modules to Panel Total worst case 22 Gauge 18 Gauge 16 Gauge 14 Gauge Current Draw (amps) 0.100 1852 ft 4688 ft 6000 ft 6000 ft 0.200 2344 3731 5906 0.300 1563 2488 3937...
  • Page 22 SBUS Bandwidth SBUS Bandwidth Determines how many SBUS devices you can have on the system Example = 4 lane highway 3 lanes full = 25% bandwidth remaining remaining 1 lane full = 75% bandwidth remaining...
  • Page 23 SBUS Bandwidth SBUS Bandwidth Visit www.farenhyt.com for bandwidth calculator When designing a system Be sure to calculate the bandwidth to determine the correct number of SBUS modules...
  • Page 24 Additional Amps Additional Amps Modules can be distributed among the 2 FACP SBUS circuits and RPS-1000 SBUS in virtually any combination Each additional RPS-1000 provides an additional SBUS with 1A Each additional SBUS has a max distance of 6000 ft...
  • Page 25 Review Review What is the max current draw for an individual SBUS? 1 Amp If we are drawing .100 amps on the SBUS what is the maximum wire distance you can have? 6000 ft. using 14-16 gauge wire...
  • Page 26 SBUS Class B Wiring SBUS Class B Wiring Supervised communication path Most common Default Multiple wiring combinations combinations T-tapping Daisy Chain Homerun Etc.
  • Page 27 SBUS Class B Wiring SBUS Class B Wiring Minus to minus (-) Plus to plus (+) A to A B to B...
  • Page 28 SBUS Class A Wiring SBUS Class A Wiring Gives the modules a second supervised communication path Class A must be wired in a loop NO T-TAPS To select Class A Program the Internal Power Program the Internal Power Supply ( Module 98 ) to Class A The SBUS on the RPS- 1000's can also be...
  • Page 29 SBUS Troubleshooting SBUS Troubleshooting SBUS (-) to SBUS (+) terminals 24-27VDC SBUS A to SBUS B terminals Alternating between 2 - 5 VDC when communicating Data Any incorrect wiring will cause SBUS Comm troubles...
  • Page 30 SBUS Troubleshooting SBUS Troubleshooting Let’s Practice Hook up your meters to SBUS (+) and SBUS (-) What do you read? Hook up your meters to SBUS A and SBUS B What do you read?
  • Page 31 SBUS Troubleshooting SBUS Troubleshooting Remove from the panel & short two wires together Verify that there are no open circuits...
  • Page 32 SBUS Addressing SBUS Addressing 6 switches Be sure your addresses match your 1 = 1 programming 2 = 2 or you will get a SBUS Dipswitches 3 = 4 for setting IDs Comm trouble 4 = 8 5 = 16 6 = 32 Set with power off Add together...
  • Page 33 SBUS Addressing SBUS Addressing Can assign number 1-63 to any SBUS module Module #97 Internal SLC Module #98 Programmable NAC or I/O circuits Relay 1 & 2 Relay 1 & 2 Module #99 Onboard annunciator...
  • Page 34 Review Review What should the voltage between SBUS A & SBUS B read? 2-5 VDC because of Data True or False: You can T-tap Class A wiring? False, Class A needs to be in loop...
  • Page 35 RPS- - 1000 Board Description 1000 Board Description NOTE Only module to provide additional additional SBUS power SBUS SBUS Conventional I/O Flexput™ Circuits module module Relay Circuits connection to connection connection FACP or to Provides 6A power for both for Class A RPS-1000, if 3A per circuit Class A and...
  • Page 36 5496 Board Description 5496 Board Description 3A per circuit 4 output circuits Aux power Individually Individually programmed Best value for addressable output circuits...
  • Page 37 Troubleshooting Ground Faults Troubleshooting Ground Faults Works for all addressable panels and power supplies Normal: Alternates between 0VDC and 16VDC 0VDC and 16VDC In Ground Fault: Measures the voltage of the terminal that is shorted to earth ground...
  • Page 38 Troubleshooting Ground Faults Troubleshooting Ground Faults Let’s Practice Leads Black to SBUS (-) Check VDC from circuit ground to Red to check Earth ground voltage SBUS (-) to metal bracket Switch from 0VDC to 16 VDC Short a I/O circuit to Earth ground Short a I/O circuit to Earth ground SBUS (-) to metal bracket Same voltage as I/O circuit...
  • Page 39 RA- - 2000 Installation 2000 Installation...
  • Page 40 5815XL Installation 5815XL Installation Make sure power is off at the panel Connect the 5815XL to the control panel Use on-board dipswitches to select an ID# Add module through programming Jumpstarting will Jumpstarting will automatically add the module...

  • Page 41: 5824 Serial / Parallel Interface Installation

    5824 Serial / Parallel Interface Installation 5824 Serial / Parallel Interface Installation...
  • Page 42 5880 Installation 5880 Installation Address via dipswitches Add module via programming...
  • Page 43 5880 Dry Contact Wiring 5880 Dry Contact Wiring Normal voltage IN to C+ Normal 6 – 9 VDC Alarm 0 Open 27 VDC SBUS (-) to C+ 27 VDC 27 VDC 4.7K Ohm EOL Resistor...
  • Page 44 5880 Addresses 5880 Addresses The 5880 adds 48 points 1- 40 will be output circuits (points) 41- 48 will be input points 4.7K Ohm EOL Resistor...
  • Page 45 5880 LED Wiring 5880 LED Wiring There are four 12-pin connectors on the 5880 board for connecting LEDs Each LED gets its power from Pin 11 10mA of current for each LED No series resistors are required Voltage on Pin 11 Voltage on Pin 11 5VDC Measured from SBUS (-) to Pin 11...
  • Page 46 5880 LED Wiring 5880 LED Wiring LED outputs can be mapped to output circuits, the same as notification circuits On connector P1, Pin 12 is an open collector output for controlling a PZT controlling a PZT If used, the 5880 PZT will match the PZT pattern of the on-board ( or RA-2000 ) annunciator...
  • Page 47 5883 Relay Wiring 5883 Relay Wiring The 4 connectors on the 5880 can be used to connect to the 5883 Relay outputs are mapped (programmed through the 5880) just like all the notification outputs...
  • Page 48 5883 Relay Wiring 5883 Relay Wiring Up to 4 per 5880 Relays rated up to 5A at 30VDC 5A at 240VAC Must supply 24 VDC, 400 mA...

  • Page 49: Installation

    5865 5865- - 3 / 5865 3 / 5865- - 4 Installation 4 Installation The 5865 connects to the panel via the SBUS Address via dipswitches Add via programming Includes zone labels that can be inserted into the 5865 board assembly The LEDs will show through the label when The LEDs will show through the label when illuminated...
  • Page 50 5865 5865- - 3 / 5865 3 / 5865- - 4 Installation 4 Installation LEDs are numbered in columns Reds are odd Yellows are even...
  • Page 51 Flexput Flexput™ I/O Circuits ™ I/O Circuits The 8 Flexput™ I/O Circuits can be used as: Class A or B notification circuits Class A or Class B initiation circuits 2 or 4 wire detectors Auxiliary power See appendix A for compatible devices for compatible devices for compatible devices Resettable, continuous, or door holder...
  • Page 52 Flexput Flexput™ I/O Circuits ™ I/O Circuits The polarity of the Flexput™ terminals differs depending on whether the circuit is programmed as an input or an output circuit Input circuit Detector or normally open contact X terminal is negative X terminal is negative O terminal is positive Output circuit Aux power or NAC...
  • Page 53 Flexput Flexput™ I/O Circuits ™ I/O Circuits Default Class B wiring Notification output Constant pattern Built-in synchronization Amseco Gentex Systems Sensor Wheelock Programmable per manufacture’s Sync module...
  • Page 54 Flexput Flexput™ I/O Circuits Class A Wiring ™ I/O Circuits Class A Wiring Combine 2 adjacent I/O circuits 1&2 (circuit 3&4 (circuit 5&6 (circuit 7&8 7&8 (circuit (circuit Configure as Class A in programming...
  • Page 55 Flexput Flexput™ I/O Circuits ™ I/O Circuits Conventional Class B Wiring Conventional Class B Wiring Program as Class B contact input Example = waterflow, tamper...
  • Page 56 Flexput Flexput™ I/O Circuits ™ I/O Circuits Conventional Class A Wiring Conventional Class A Wiring Program as Class A contact input Example = waterflow, tamper...
  • Page 57 Flexput Flexput™ I/O Circuits ™ I/O Circuits 2 Wire Smoke Class B Wiring 2 Wire Smoke Class B Wiring Any compatible U.L. listed two-wire smoke detector can be used with the control panel See appendix A for compatible devices for compatible devices 2 wire smoke detectors NOTE: O is positive,...
  • Page 58 Flexput Flexput™ I/O Circuits ™ I/O Circuits 2 Wire Smoke Class A Wiring 2 Wire Smoke Class A Wiring 2 wire smoke detectors NOTE: O is positive, X is negative...
  • Page 59 Flexput Flexput™ I/O Circuits ™ I/O Circuits 4 Wire Smoke Class B Wiring 4 Wire Smoke Class B Wiring Up to four Class B 4-wire smoke detector loops can be connected to the control panel at once Each Class B loop input is paired with a unique power source Each loop gets smoke power from the even...
  • Page 60 Flexput Flexput™ I/O Circuits ™ I/O Circuits 4 Wire Smoke Class A Wiring 4 Wire Smoke Class A Wiring Up to two Class A 4-wire loops can be connected to the control panel at once Smoke power is supplied to each Class A loop...
  • Page 61 Flexput Flexput™ Aux Power Circuits ™ Aux Power Circuits Flexput™ Circuits 1-8 on the control panel can be used as auxiliary power circuits Door holder Constant Resettable power Auxiliary power circuits are power limited Auxiliary power circuits are power limited Each circuit can source up to 3A Total current for all Flexput™...
  • Page 62 Door Holder Door Holder Intended for fire door applications When there are no alarms in the system and the panel has AC power, door holder circuits have 24-volt power present at their terminals Any alarm will cause power to disconnect Power will be re-applied when the system is reset If AC power is off for more than 15 seconds Door holder power will be disconnected to conserve the...

  • Page 63: Constant Power

    Constant Power Constant Power Device power Constant 24VDC All SLC devices that need aux power need constant power IDP-Control IDP-Pduct-R Use constant power for applications that require a Use constant power for applications that require a constant auxiliary power source...

  • Page 64: Resettable Power

    Resettable Power Resettable Power Typically used to power Conventional beam detectors Flame detectors Conventional 4-wire smoke detectors 24-volt power is always present at the terminals Unless a system reset occurs Unless a system reset occurs If a system reset occurs Power is disconnected from the terminals for 10 seconds, then re-applied...
  • Page 65 Onboard Relays Onboard Relays The control panel has two built-in programmable relays and a built-in trouble relay Relays are form C 2.5A @ 27.4VDC...
  • Page 66 Review Review What is the polarity of a Flexput™ I/O terminals being used for output? X is positive, O is negative The total current for all Flexput™ circuits must not exceed?
  • Page 67 Objectives Objectives At the end of this section you will be able to: Explain environment specifications for the IFP-2000 Explain how to wire various modules to the IFP-2000 Demonstrate basic troubleshooting of the IFP-2000...
  • Page 68 Panel Features & Benefits Module 2 Module 2...

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