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Tyco F3200 Installation & Programming Manual

Tyco fire indicator panel installation & programming manual

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INSTALLATION & PROGRAMMING MANUAL

AUSTRALIAN STANDARD AS1603.4 1987 (Incl. Amdt 1 & 2)

AUSTRALIAN STANDARD AS4050(INT) 1992

- SSL Listing Number afp789

AUSTRALIAN STANDARD AS3548 1995 Class A

The F3200 Fire Indicator Panel is manufactured for

Information contained in this document is subject to copyright, and shall not be reproduced

in any form whatsoever, without the written consent of Tyco Services Fire & Safety.

Information contained in this document is believed to be accurate and reliable, however

Tyco Services Fire & Safety reserves the right to change the content without prior notice.

F3200

FIRE INDICATOR PANEL

F3200 PRODUCT MANUAL

Document Number: LT0122

Issue .......... 2.7;

-- A P P R O V A L S --

Tyco Services Fire & Safety

25 Cleeland Road

Oakleigh South

VIC 3167

AUSTRALIA

Tel : +61-3-9543 2220

Fax : +61-3-9543 2155

COPYRIGHT (C) 2001

5 July 2001

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Summary of Contents for Tyco F3200

Page 1 Tyco Services Fire & Safety. Information contained in this document is believed to be accurate and reliable, however Tyco Services Fire & Safety reserves the right to change the content without prior notice. F3200...
Page 2 The F3200 Fire Indicator Panel has 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 F3200 System which is being customised. It is possible for the user to program operational features that prevent the installed FIP from meeting statutory requirements.
Page 3: Table Of Contents
End User Liability Disclaimer ... ii Amendments ... vi CHAPTER 1 INTRODUCTION... 1-1 SCOPE ...1-2 ASSOCIATED DOCUMENTATION...1-3 PRODUCT HISTORY LOG ...1-4 GLOSSARY OF ABBREVIATIONS ...1-6 GLOSSARY OF TERMINOLOGY ...1-7 CHAPTER 2 SYSTEM DESCRIPTION ... 2-1 OVERVIEW ...2-2 PHYSICAL STRUCTURE ...2-7 SYSTEM STRUCTURE...2-10 CHAPTER 3 SYSTEM SPECIFICATIONS...
Page 4 INSTALLATION : NZ DISPLAY EXTENDER BOARD & BRIGADE DISPLAYS ...12-10 CHAPTER 13 TANDEM LCD MODE ... 13-1 13.1 TANDEM LCD MODE ...13-2 APPENDIX A COMPATIBLE ACTUATING DEVICES (DETECTORS)... A-1 APPENDIX B F3200 CONFIGURATION SHEETS... B-1 Page iv 5 July 2001 Issue 2.7...
Page 5: Amendments
PA0443 added to Ordering Info P4-5. 16/04/96 Deleted paragraph headed "C29BEx" in Section 9.4.3.4. 01/12/97 F3200 V2.00 software release. Chapters 6, 7 modified. Network programming Chapter 11 added. Daylight saving, output logic control of zone LEDs, selectable event types for history and printing, database verify, database CRC recall.
Page 6 F3200 Installation & Programming Manual Document No: LT0122 THIS PAGE IS INTENTIONALLY LEFT BLANK Page vi 5 July 2001 Issue 2.7...
Page 7: Chapter 1 Introduction
Document No: LT0122 F3200 Installation & Programming Manual Introduction CHAPTER 1 INTRODUCTION Issue 2.7 5 July 2001 Page 1-1...
Page 8: Scope
This manual provides information for the personnel responsible for planning, ordering, installing and programming an F3200 Fire Alarm System. It is assumed that such staff have been trained to plan/install fire alarm equipment and are familiar with the relevant standards.
Page 9: Associated Documentation
ASSOCIATED DOCUMENTATION 1.2.1 PRODUCT Additional information on the AS1603.4 approved F3200 FIP is found in the following product manuals. F3200 Operator's Manual F3200 Technical Manual F3200 Installation & Programming Manual F3200 Panel-Link Upgrade and Installation Manual Information on the AS4428.1 approved F3200 is found in the following manuals: F3200 AS4428.1 Operator’s Manual...
Page 10: Product History Log
F3200 EPROM SF0164 F3200 EPROM SF0175 NDU EPROM SF0178 F3200 EPROM SF0164 F3200 EPROM SF0175 NDU EPROM SF0178 F3200 EPROM SF0164 F3200 Net EPROM SF0175 NDU EPROM SF0178 F3200 Std EPROM Page 1-4 Date 11/11/93 24/02/94 16/06/94 13/10/93 28/02/94 10/06/94 21/02/95...
Page 11 SOFTWARE HISTORY LOG (CONTINUED) SF0164 F3200 Net EPROM SF0175 NDU EPROM SF0178 F3200 Std EPROM SF0229 F3200, Std Panel, c/w Tandem SF0230 F3200, Networked, c/w Tandem SF0231 NDU, c/w Tandem SF0229 F3200, Std Panel, c/w Tandem SF0230 F3200, Networked, c/w Tandem...
Page 12: Glossary Of Abbreviations
Introduction GLOSSARY OF ABBREVIATIONS The following abbreviations are used throughout this manual: Air Conditioning Alternating Current AEOL Active End of Line Ampere Hour ANC 1 Ancillary Relay 1 Alarm Zone Circuit, or Detection Zone Alarm Zone Facility, or Group Alarm Verification Facility, or Check Alarm Board Control &...
Page 13: Glossary Of Terminology
GLOSSARY OF ABBREVIATIONS (CONTINUED) Volts Amperes Battery Backed Voltage Non Battery Backed Voltage +VBF Fused Battery-Backed Voltage +VNBF Fused Non-Battery-Backed Voltage Zone Number 1 (program abbreviation) Zone Number 1 (text abbreviation) 8 Relay Module 8 Zone Module GLOSSARY OF TERMINOLOGY The following terminology is used throughout this manual: Ancillary Equipment : Ancillary Relay...
Page 14 F3200 Installation & Programming Manual Document No: LT0122 Introduction THIS PAGE INTENTIONALLY LEFT BLANK Page 1-8 5 July 2001 Issue 2.7...
Page 15: Chapter 2 System Description
Document No: LT0122 F3200 Installation & Programming Manual System Description CHAPTER 2 SYSTEM DESCRIPTION Issue 2.7 5 July 2001 Page 2-1...
Page 16: Overview
2.1.3 DISPLAYS The primary display of the F3200 is a 2 line by 40 character LCD on which status messages and prompts are shown. The LCD has backlight illumination which is turned on when there is an alarm or operator interaction.
Page 17 Document No: LT0122 F3200 Installation & Programming Manual System Description FIG 2.1.1 F3200, STANDARD CABINET - FRONT VIEW Issue 2.7 5 July 2001 Page 2-3...
Page 18 F3200 Installation & Programming Manual Document No: LT0122 System Description FIG 2.1.2 F3200 OPERATOR DISPLAY PANEL Page 2-4 5 July 2001 Issue 2.7...
Page 19 Document No: LT0122 F3200 Installation & Programming Manual System Description FIG 2.1.3 F3200 - SMALL CABINET Issue 2.7 5 July 2001 Page 2-5...
Page 20: Power Supply
2.1.6 REMOTE DISPLAY & PRINTER A serial port is included in the F3200 to provide a 3 or 4 wire link to a Remote Zone Display Unit (RZDU). Several versions of F3200 remote displays are available, including the small, Remote LCD unit.
Page 21: Physical Structure
System Description 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"...
Page 22 Document No: LT0122 System Description Note: FP0551 and FP0713 have the cardframe as shown. FP0550 and FP0712 have the modules (3 max.) mounted on the rear wall. FIG 2.2.1 F3200 STANDARD CABINET - INTERNAL LAYOUT Page 2-8 5 July 2001 Issue 2.7...
Page 23 Document No: LT0122 F3200 Installation & Programming Manual System Description FIG 2.2.2 F3200, SMALL CABINET, MAXIMUM CONFIGURATIONS Issue 2.7 5 July 2001 Page 2-9...
Page 24: System Structure
System Description 2.3.1 PCB MODULES The 6 printed circuit boards which are used in an F3200 are as follows: Controller/Display Mounts on 4U inner door. Includes: LCD, status LEDs and buzzer keypad connection 5Vdc supply voltage monitors for battery charger microprocessor &...
Page 25 Document No: LT0122 F3200 Installation & Programming Manual System Description RS485 "Panel-Link" Network Board Connects to the Controller/Display Board Includes: RS485 Board used for connection to the Vigilant Network. FIG 2.3.1 SYSTEM STRUCTURE Issue 2.7 5 July 2001 Page 2-11...
Page 26 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.
Page 27 Document No: LT0122 F3200 Installation & Programming Manual System Description INTER-CONNECTION & STRUCTURE (CONTINUED) 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.
Page 28: Display Structure
LAST 8 UNUSED EXAMPLE FOR SYSTEM WITH 3 8ZM & 2 8RM The F3200 can be configured to have a lesser number of Display Bds than required by the default structure, with selective mapping of zones/relays to Display LEDs. Page 2-14...
Page 29: Chapter 3 System Specifications
Document No: LT0122 F3200 Installation & Programming Manual System Specifications CHAPTER 3 SYSTEM SPECIFICATIONS Issue 2.7 5 July 2001 Page 3-1...
Page 30: System Expansion
MAF/PSU (includes 7 relays, 3A PSU) 1 x 8 Zone Module with standard EOLRs Modules fit to cabinet rear wall (up to 4 modules max) FP0712, F3200 FIP, NO CARDFRAME, 24 ZONE MAX, C/W 6 AMP PSU Includes: Full size cabinet (ie. standard cabinet) Controller/Display with FFCIF LCD &...
Page 31: Mechanical Specifications
3.1.3 ENVIRONMENTAL Operating Temperature Relative Humidity 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...
Page 32: Electrical Specifications
System Specifications ELECTRICAL SPECIFICATIONS 3.3.1 MAINS SUPPLY Voltage Current Frequency Termination 3.3.2 BATTERY CHARGER & PSU Input Voltage (Transformer sec) Charger Voltage Temperature Compensation Non-Battery Backed : Voltage Max Total Current Max Bell Current Max. Ancillary Current on VBF1 Max. Ancillary Current on VBF2 Max.
Page 33 STATE Charger High 28.05 Charger Low 26.40 Battery Low 24.15 Standby Off 21.5 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.
Page 34: Current Consumption
System Specifications 3.3.5 CURRENT CONSUMPTION 3.3.5.1 F3200 Quiescent & Alarm Currents At 24Vdc battery supply, nominal currents: FP0550, FP0551, FP0583, FP0712, FP0713 (notes 1-4) 8 Zone Module - all AZCs disabled - all AZCs enabled (notes 2-6) Current per enabled AZC (note 3)
Page 35 3.3.5.2 NDU Quiescent and Alarm Currents Slimline NDU (FP0714/FP0773/FP0774 Operating Voltage Termination Current Consumption : Full cabinet NDU (FP0715) Current Consumption (Aust mode) Current Consumption (NZ mode) Includes controller, MAF/PSU, energised standby relay, PA0773 RS485 Bd, LCD backlight off in quiescent state. Includes controller, MAF/PSU, NZ Display Extender, energised standby and alarm relays, PA0773 RS485 Bd.
Page 36: Input Specifications
System Specifications 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 system. End of Lines (EOLs) Mode 1 Standard 2k7, 5%, 400mW resistor 2 High Current 2k7, 5%, 400mW resistor...
Page 37 AZC SPECIFICATIONS (CONTINUED) AZC current limit (note 1) EOL & detector quiescent EOL, no detectors Fault threshold Detector quiescent Notes 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.
Page 38 System Specifications AZC SPECIFICATIONS (CONTINUED) 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.
Page 39 ICL+R = Current sourced through current limit and pull up resistor IAV = Current available to detectors with EOLR fitted IAV = ICL+R - IEOLR 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.
Page 40: Maf/Psu Inputs
System Specifications AZC SPECIFICATIONS (CONTINUED) Timing Standard Delay (into Alarm, Fault, Normal) AZC Reset AZC Ignore Period 1 (after Reset) AZC Ignore Period 2 (after Start Up or Programming) AZC Time Into Alarm AZC Time Out of Alarm Refer to Section 7.2.4 for detail on other sequences and programmable delays. 3.4.2 MAF/PSU INPUTS Battery Termination...
Page 41 MAF/PSU INPUTS (CONTINUED) End of Line Resistor Supervision Current Circuit Resistance 3.4.3 CONTROLLER/DISPLAY INPUTS Spare DC Input/Output Spare Input Spare Inputs IP0, 1, 2 (not fitted) Serial I/O 3.4.4 8 RELAY MODULE SUPERVISION Form Expects Selected By Default Programming Load Resistance Voltage Threshold Supervision Current 3.4.5...
Page 42: Output Specifications
System Specifications OUTPUT SPECIFICATIONS 3.5.1 8 ZONE MODULE OUTPUTS Type Voltage Rating Current Rating Transient Protection Terminations Operation Default 3.5.2 8 RELAY MODULE OUTPUTS Form Termination Rating Note The relays are 2 pole, with the second pole terminated on pcb pads. Operation Supervision Looping Terminals...
Page 43: Maf/Psu Outputs
3.5.3 MAF/PSU OUTPUTS Brigade Relays Number Standby Fault, Isolated, Alarm Form Termination Rating Isolation Ancillary & Bells Number Anc 1, Anc 2 Termination Rating (Note: The relays are 2 pole, with second pole terminated on pcb pads). Operation Default Supervision Anc 3/Bells Standard Format Issue 2.7...
Page 44 System Specifications MAF/PSU OUTPUTS (CONTINUED) Option Rating Operation Default Supervision Power Supply Outputs 0Vdc Termination Battery Backed DC Supply Rating +VBF1 Termination +VBF2 Termination Page 3-16 1 Pole changeover contacts Voltage-free Snip Links Lk2, 3, 4. ELV only 30V, 2Adc resistive 30V, 1Adc inductive 24V, 1.5Adc inductive bells Programmable...
Page 45: Controller/Display Outputs
MAF/PSU OUTPUTS (CONTINUED) Non-Battery Backed DC Supply Rating +VNBF Termination RZDU Comms Tx, Rx, 0V Transmission Rate Protocol Termination 3.5.4 CONTROLLER/DISPLAY OUTPUTS Spare Parallel Outputs Number Type Voltage Rating Termination Serial I/O Printer/Programmer Port Form Transient Protection Transmission Rate Protocol Termination Issue 2.7 28Vdc nom...
Page 46: Nz Display Extender Board Outputs
System Specifications CONTROLLER/DISPLAY (CONTINUED) Alternative Function Serial Port 0 Network 1 Network 2 3.5.5 RS485 BOARD CMOS Modem: 10 Way FRC header +12V, RXD- TXD-, RTS-, CTS-, 0V, DCD-, +5V Network: 6 Way demountable screw terminals RS485 standard signals A+, A-, B+, B-, 0V ISOL, Earth 3.5.6 NZ DISPLAY EXTENDER BOARD OUTPUTS This is used in New Zealand mode only.
Page 47: Controls
Number of Keys 34 (plus 5 concealed with no function) FFCIF Keys ACK; RESET; ISOL; BRIG TEST Other Keys Ref F3200 Operator's Manual for description INTERNAL CONTROLS Mains On Switch in cabinet Database Write Protect Function Enables/disables writing to EEPROM...
Page 48: Displays
System Specifications Standard Display Includes LCD; FFCIF LEDs; System Status LEDs Panel Size 19", 4U FFCIF Type 3 (common indicators & common controls) Standard Complies with AS4050 (int) - 1992 LCD Size 2 Lines of 40 characters 5.5mm (H) x 3.2mm (W) per character Site Name 40 Characters max.
Page 49: Chapter 4 Ordering Information
Document No: LT0122 F3200 Installation & Programming Manual Ordering Information CHAPTER 4 ORDERING INFORMATION Issue 2.7 5 July 2001 Page 4-1...
Page 50: Ordering Information
Refer to manuals LT0133 and LT0148. FP0559,F3200 REMOTE LCD,DISPLAY UNIT,SLIMLINE,WALL MOUNT (small, low profile cabinet with F3200 RDU Controller fitted, no MAF or PSU) 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"...
Page 51 (These include bracket and screws, etc, The 1U item is 1U at the front, but larger at the rear, as required for F3200 small cabinet). KT0072,KIT,F3200,CARDFRAME UPGRADE KT0075,KIT,F3200,PSU UPGRADE,3A TO 6A,1931-44 (Factory fitted option only) KT0111 KIT,1945-1-1,AS1668 CONTROL MODULE,TYPE 1 (refer PBG0015) KT0112 KIT,1945-1-2,AS1668 CONTROL MODULE,TYPE 2 (refer PBG0015)
Page 52 ME0063,MECH ASSY,1931-15-1,F3200 4U HINGED CONTROL PANEL (4U hinged door with keypad and Controller/Display pcb mounted on it). ME0064,MECH ASSY,1931-15-1,F3200 4U HINGED RDU CONTROL PANEL (4U hinged door with no-name keypad and RDU Controller/Display mounted on it). ME0065,MECH ASSY,1931-47,1 ZONE GAS CONTROL 7U DOOR...
Page 53 (similar to ME0065 except on a non-hinged, 1U panel) 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) ME0155,MECH ASSY,694-384,19" 4U CFA ASSEMBLY ME0250,MECH ASSY,1919-35,RAC CABINET,IP65,20U X 200 (ie. waterproof)
Page 54 Ordering Information 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 12.8. 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.
Page 55: Chapter 5 Configuring A Fip
Document No: LT0122 F3200 Installation & Programming Manual Configuring a FIP CHAPTER 5 CONFIGURING A FIP Issue 2.7 5 July 2001 Page 5-1...
Page 56: General
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.
Page 57: Battery & Power Supply
5.3.1 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.
Page 58: Battery/Charger Calculations
GENERAL (CONTINUED) 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...
Page 59: Example Battery/Charger Calculations
5.3.3 EXAMPLE BATTERY/CHARGER CALCULATIONS An example FP0551 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.
Page 60: Battery Size
Configuring a FIP Suggest that two 12V, 10 Ahr sealed batteries from list in Section 3.3.3. would be adequate (or next size up, e.g. 17 Ahrs). Note that these require a 68E, 10W battery test resistor to be fitted to the tabs on the MAF/PSU as described in Section 5.3.5.
Page 61 5.3.5 BATTERY TEST RESISTORS The standard battery test resistor is suitable for a battery of capacity of up to 6.5AHr. For larger batteries, additional resistors must be fitted, either directly to the MAF/PSU pcb (in R34 and/or between Battery Test tabs), or within the FIP and wired to the Battery test tabs. Where the additional resistors are carrying a current of greater than 0.7A, a 24Vdc relay must be fitted to switch the load as shown in Fig 5.3.1.
Page 62 Configuring a FIP FOR ADDITIONAL TEST LOAD GREATER THAN 0.7A AND ALARM LOAD/CHARGER CURRENT LESS THAN 3A. FOR ALARM LOAD/CHARGER CURRENT GREATER THAN 3A. CONNECTION OF BATTERY TEST RELAY/RESISTOR Page 5-8 FIG 5.3.1 5 July 2001 Issue 2.7...
Page 63 5.3.7 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 battery backed, or have another form of secondary source to comply with AS1670.1.
Page 64: Current Calculations
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 (the connection to J3/1 is optional). PROGRAMMING If battery low monitoring is enabled, a Battery Low Fault will occur if the supply voltage falls below a specified threshold.
Page 65: Links On Pcb Modules
LINKS ON PCB MODULES 5.4.1 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 RZDU Controller). SW1 and Lk7 are described in Section 6.3.1.
Page 66: Error Messages During Fip Configuration
"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.
Page 67: Chapter 6 Programming
Document No: LT0122 F3200 Installation & Programming Manual Programming CHAPTER 6 PROGRAMMING Issue 2.7 5 July 2001 Page 6-1...
Page 68: Introduction
6.1.1 GENERAL The F3200 has two main levels of programming. The first level is accessible to the Operator (via the keypad) and does not require entry of an access code. It allows the setting of parameters, such as time and date, which do not affect the basic structure of the system.
Page 69: Base Display
Document No: LT0122 F3200 Installation & Programming Manual Programming GENERAL (CONTINUED) If "CLEAR ESC" is pressed enough times, the programming mode display is exited and the database checksum is calculated. BASE DISPLAY PRESS “SET” KEY TO ENTER FIG 6.1.1 MENU STRUCTURE Details of the programming menu are shown in Figures 6.1.2A-C.
Page 70 F3200 Installation & Programming Manual Document No: LT0122 Programming THIS PAGE LEFT INTENTIONALLY BLANK Page 6-4 5 July 2001 Issue 2.7...
Page 76 Programming 6.1.3 PROGRAMMING KEYS Looking at the keypad (or picture in Fig 2.1.2) the user will observe a 4x4 "numeric" keypad, and a row of function keys across the bottom. The function keys from "RECALL" to "BELLS ISOL" all have two functions e.g. "BELLS ISOL/DELETE". In programming mode, these keys operate the bottom functions i.e.
Page 77 Re-access database and correct mistakes. Update RDU Programming Update the programming (including zone names) of any connected RDUs. F3200 V2.03 (or later) software allows the sending of zone names to an RDU through the RDU comms link. This is initiated with a command at the FIP and requires the RDU to have its database link (Lk7) in the write enable position.
Page 78: Set Menu & Operator Programming Functions
Programming SET MENU & OPERATOR PROGRAMMING 6.2.1 GENERAL From the base display, pressing the "SET" key enters the programming menu as shown in Fig 6.1.2. This gives the Operator programming options as follows: 1 Set Time; 2 Set Date; 3 View Data; 4 Program Data; 5 Bds Present; 6 More Operator Accessible Options Options 1,2 and 5 are Operator accessible and do not affect the database.
Page 79: Initialising, Accessing, De-Accessing, Printing, Saving, Loading & Verifying The Database
INITIALISING, ACCESSING, DE-ACCESSING, PRINTING, SAVING, LOADING & VERIFYING THE DATABASE 6.3.1 INITIALISING THE DATABASE The E2 INIT (initialisation) sequence causes the FIP to accept the module configuration found and store this in its database. Note that this also sets all other parameters to the default option and erases all other programmable data in the database e.g.
Page 80 Programming ACCESSING THE DATABASE (CONTINUED) 1. When the database is accessed the Controller de-energises the Standby relay (i.e. transmits Standby) and stops processing. If this signals "Alarm" to the Brigade the appropriate arrangements should be made. 2. On a FIP that has been commissioned, if there is concern that changes made to the database (e.g.
Page 81 The FIP database may be saved (in binary format) on a computer (e.g. a laptop PC). The saved database can then be reloaded into the FIP (or another F3200) at some future time and this is much faster than reprogramming the entire database from the FIP keypad.
Page 82 An F3200 database in EEPROM created with F3200 V1.10 software (or earlier) is not directly usable in F3200 V2.00 (onwards) software, but may be made usable by running a conversion process. The conversion may be done either on powerup, or after loading a V1.10 format database.
Page 83: Program Data Menu, Text & Global Parameters
The initials remain but can be edited as in 2 above. Note that no two users should have the same code. Access code 000000 should not be used for any user as it will be known by all service people familiar with F3200. Issue 2.7...
Page 84: Text Entry
Programming 6.4.3 TEXT ENTRY The Text option allows entry of the following: a 40 character name for the site a 30 character name for each zone a 30 character name for each module relay a 30 character name for each ancillary relay a 6 character name for each of the 9 programmable alarm text messages.
Page 85 Document No: LT0122 F3200 Installation & Programming Manual Programming PROGRAMMING TEXT WITH THE KEYPAD (CONTINUED) Example of Entry of Site Name Enter the site name "Penrose No 1 Store". From the Text Entry menu select option 1, Site. The LCD has the inactive cursor in the first position of the top field and the active cursor on A in the bottom field.
Page 86 6.4.3.2 TEXT PROGRAMMING WITH A PC F3200 allows the text names for zones, relays, etc, to be entered from a PC using the F3200 printer port. F3200 software V1.00 does not support this feature at all. Software V1.10 and V2.00 support all the commands with the exception of the fault action text (F command).
Page 87 EEPROM. To load a file of text names from the PC into the F3200 panel, the file should be set up as shown in the following example. The names may actually be in any order, and it is not necessary to have a name for every zone or relay, etc.
Page 88: Global Data
TEXT PROGRAMMING WITH A PC (CONTINUED) Phone VIGILANT FIRE 7903600 To initiate the loading of the file into the F3200 panel, enable remote text entry as described above. Run a terminal emulation program on the PC and press ENTER on the PC.
Page 89 GLOBAL DATA (CONTINUED) For V2.07 and later software 1:Auto test; 2:FIP MCP; 3:FFCIF options; 4:All zones isolated; 5:More 3:FFCIF options provides the following: FFCIF zones (MAF only, all, none) Auto Ack enable/disable FFCIF type 2/3 Remote Ack enable/disable FFCIF alarm = bells on enable/disable Display cause by default enable/disable Always flash non-MAF alarm LEDs –...
Page 90 FFCIF Display cause by default As standard, the first line of the F3200 FFCIF Alarm display shows: Alarm Time, Alarm Type, Acknowledge State, Number of Alarms.
Page 91 In V2.06 or earlier software, a displayable FF alarm was sent to an RDU only if the alarm was entered into the F3200’s FF alarm list. All zones isolated (Standby Operation) AS1603.4 suggests that the Standby relay should de-energise if all zones are isolated.
Page 92 Programming GLOBAL DATA (CONTINUED) Country Coder (alarm signalling) This is only required for FIPs connected to Brigades with NSW Country Coder equipment. It allows the selection of a code of 1 to 6 pulses to be signalled on the FIP Brigade Alarm relay.
Page 93 Document No: LT0122 F3200 Installation & Programming Manual Programming GLOBAL DATA (CONTINUED) Daylight saving start/end This allows the selection of a date and time and a time difference for the start and end of daylight saving to allow the panel to automatically set the time forward or back. The programming of the start and end is identical and is described jointly here.
Page 94 Daily battery capacity test – if enabled, a 40 minute battery test will be done automatically at the start of the daily auto test or at 9am if there is no auto test. WARNING: older versions of F3200 must have the battery test resistors R52, R53 removed from the MAF board if this test is enabled.
Page 95 GLOBAL DATA (CONTINUED) V2.07 or later software Enablement of Keys in 4 Operating States V2.07 or later software allows each keyboard key to be enabled or disabled in each of 4 operating states. This allows the keyboard functionality to be configured for each different installation.
Page 96 F3200 Installation & Programming Manual Document No: LT0122 Programming GLOBAL DATA (CONTINUED) Remote Sounder Silence This option is available in V2.07 or later software. Selecting this option shows a menu of: 1:sysflt reset [Y/N] 2:ffcif actions [Y/N] 3:all commands [Y/N] These options determine whether a remote networked panel or RDU can silence the buzzer at this panel.
Page 97 The AS4428.1 Standard requires this to be enabled. New Zealand Mode This option is available with V2.08 or later software and only for an NDU (not for F3200). The programmable options that are specifically for New Zealand mode are described in...
Page 98 Programming The following table lists all of the programmable non-network parameters. The defaults listed are for Australian operation. The previous section lists items that have defaults specific to New Zealand operation. Item Access Codes Autotest Time Autotest Inhibit Autotest Alarm FIP MCP FFCIF Type FFCIF Mode...
Page 99 Item Bells Isol Key (V2.06 or earlier) Ancil Isol Key (V2.06 or earlier) Keys enable Remote sounder silence options Global network sounder silence MAF board (NDU only) 8 Zone Modules 8 Relay Modules 16 LED Display Display LEDs Alarm Text (Detector Type) Inst Alarm Text AZC Mode...
Page 100 Programming Item AZC Time Delay Delay (4) Cct B1 (0-3V) Cct B3 (13-17.5V) Zones MAF Brig Relays Open collector 1-64 Variables Timers Module relays 1-64 Anc 1 Relay Anc 2 Relay PROGRAMMABLE PARAMETERS (CONTINUED) Page 6-34 Options 1 (Std) 2 (AVF/RAD) 3 (SAD) 4 (Delay) T1 into Alarm...
Page 101 Item Anc 3 Relay RDU Protocol RDU 1-8 PROGRAMMABLE PARAMETERS (CONTINUED) New Zealand mode Display extender board Battery very low alarm Evac defect fault External defect fault PROGRAMMABLE PARAMETERS (NEW ZEALAND ONLY) Issue 2.7 Options Configuration, logic equation, Text name LCD/non-LCD Enabled/Disabled Protocol A/B...
Page 102 F3200 Installation & Programming Manual Document No: LT0122 Programming THIS PAGE LEFT INTENTIONALLY BLANK Page 6-36 5 July 2001 Issue 2.7...
Page 103: Chapter 7 Programming System Configuration
Document No: LT0122 F3200 Installation & Programming Manual Programming System Configuration CHAPTER 7 PROGRAMMING SYSTEM CONFIGURATION Issue 2.7 5 July 2001 Page 7-1...
Page 104: System Configuration Menu
SYSTEM CONFIGURATION MENU The System Configuration menu is Option 4 in the Program Data menu (as shown in Fig 6.1.2). It allows programming of the parameters which determine the way the F3200 hardware operates. The menu includes the following: 1 Circuits (AZCs); 2 Zones; 3 Modules; 4 Output Logic; 5 Relay (Supervision); 6 RZDUs and will also include option 7:Network for a networked system.
Page 108: Configuring Circuits (Azcs)
Programming System Configuration CONFIGURING CIRCUITS (AZCS) 7.2.1 GENERAL When the configure circuits option is selected, the LCD displays a message, and then automatically selects AZC 01, or the last AZC programmed. For the selected AZC it displays a list of attributes which can be programmed, and the option that is currently selected for that attribute.
Page 109: Time Delays
MODE (CONTINUED) Switches in additional pull up resistor to +22V in Alarm. Suits detectors with high alarm current requirement or remote LED indicators. (Refer to Appendix A2). Mode 3 Low Current 680 Ohm pull up resistor to +22V supply. 10k EOL. Suits high resistance, low current circuit e.g.
Page 110 Programming System Configuration TIME DELAYS (CONTINUED) 4 Delay Depends on "into alarm time" For D1 > 0 Inst Alarm 2.3 Alarm 2.3 + D1 For D1 = 0 Inst alarm .2-.8 seconds Alarm .2-.8 seconds Default Settings for Delays Delay Type 2 AVF/RAD 3 SAD 11 (V2.08 or earlier)
Page 111 7.2.5 VOLTAGE BANDS The F3200 monitors the AZC voltage and decides the circuit status on the basis of which one of 5 voltage bands it is in, as shown in Table 7.2.1. Voltage band B2 (3V to 13V) always generates Alarm (detector operated). B1 (0V to 3V) and B2 (13V to 17.5V) are programmable as to whether they generate Instant Alarm (MCP...
Page 112 Programming System Configuration VOLTAGE BANDS (CONTINUED) Voltage bands and their interpretation for modes 1, 2 and 3 are shown in Table 7.2.1 following. Band Voltage Status 21-22VFault (Open Circuit) 17.5-21V Normal 13-17.5V Programmable 3-13V Alarm (Detector Operated) (Detector Operated) 0-3V Programmable AZC VOLTAGE BANDS FOR MODES 1-3 In Mode 4, for AZC normal the voltage is in B5 with pulses into B4 due to the active end-of-...
Page 113: Configuring Zones
7.3.1 GENERAL The programmable options for each zone as shown in Fig 7.1.1 are: Latch/Non-Latch; Map/Non Map to MAF/Status Only; Map/Non-Map to Anc1; Map/Non-Map to Anc2; Map/Non-Map to Bells; Map to LED. Mapping a zone to an output e.g. to ANC1 (Ancillary Relay 1) causes the output to operate when that zone goes into alarm.
Page 114 F3200 Installation & Programming Manual Document No: LT0122 Programming System Configuration MAPPING ZONES TO LEDS (CONTINUED) For this reason, when changing zone to LED mapping it is necessary to disable the LED mapping of the zone/relays (by selecting LED 0) which have a default mapping to the LEDs which other zones are to be mapped to.
Page 115: Programming Outputs
7.4.1 GENERAL The F3200 outputs (Ancillary Relays, MAF Brigade Relays, 8 Zone Module open collectors and 8 Relay Module relays) may be programmed to operate on a logic equation of zone and FIP status. Zone LEDs may also be controlled by an output logic equation. Output logic equations may also be used to isolate, de-isolate or reset zones.
Page 116: Logic Operators
Programming System Configuration GENERAL (CONT’D) When programming logic equations, the amount of programming memory left can be viewed by using the "free space" option of the OUTPUT LOGIC menu. 7.4.2 LOGIC OPERATORS The logic operators allowed are as follows: OR (+) logical or C = A + B C is active if A is active or B is active.
Page 117 7.4.3 LOGIC OPERANDS Two types of operand exist. (Operands are items that can be used within an equation i.e. as inputs). The first is an item which requires a further qualifier e.g. Zone requires a zone number (1-64) and a condition e.g. Alarm. (The zone item and alarm condition are abbreviated to ZN and Alm in the LCD option menu, but become Z and A when entered into an equation).
Page 118 Programming System Configuration OPERANDS TYPE 1 (CONTINUED) Notes: When entering numbers, leading zeros need not be entered. Alarm and Fault refer to the latched status for a latching zone and the current status for a non-latching zone. None of these zone tokens are affected by the programming of a zone as MAF mapped, non-MAF or status only.
Page 119 OPERANDS TYPE 1 (CONTINUED) Zone Range (ZR) Zxx:yy(zz)q where xx, yy, zz = 1 - 64, yy > xx , (yy - xx) + 1 > zz q can be A,F,I,N,D,M,R as above. The operand returns true if the number of zones in the range xx to yy in the specified condition is zz or greater.
Page 120 NVsss:nnn where sss = SID number 1-254 and nnn = variable number 0-127. A networked F3200 or NDU has 128 network variables of its own that it may assign values to with an equation e.g. NV5=Z1A+Z2A The state of the 128 local network variables is transmitted onto the network for use by other systems.
Page 121 OPERANDS TYPE 1 (CONTINUED) Timers where xx = 1 - 64 for seconds timers and 65-72 for minutes timers. Timers allow outputs to be timed from inputs. They all have two time delays associated with them and can be "stretch" timers or "pulse" timers, and the default configuration sets both delays to zero, and all timers are set to "false"...
Page 122 Programming System Configuration 7.4.3.2 Operands Type 2 When the "ACK" key is pressed with the base display selected this returns true for between 1 and 2 complete passes of all output logic equations. True if 1 or more local MAF zones is in alarm, or true in New Zealand mode if a latched battery very low alarm is present.
Page 123 OPERANDS TYPE 2 (CONTINUED) New Zealand mode evac defect input true. True if 1 or more non MAF-mapped zones are in alarm. True if 1 or more non MAF-mapped zones or non MAF-mapped module/ancillary relays are in fault. For Australian operation, the NML token is false if any of the conditions (including network states) which cause either the Brigade Alarm or Brigade Fault relay to operate (if not controlled by output logic) are true.
Page 124 F3200 Installation & Programming Manual Document No: LT0122 Programming System Configuration 7.4.4 EXAMPLES OF LOGIC EQUATIONS Example 1 - Use of Variables Assume that two relays are required with similar logic equations, as follows: R1 = (Z1A + Z2A + Z9A + Z10A) .^ Z3A R9 = (Z1A + Z2A + Z9A + Z10A) .^ Z11A...
Page 125 Document No: LT0122 F3200 Installation & Programming Manual Programming System Configuration EXAMPLES OF LOGIC EQUATIONS (CONTINUED) The logic may be entered using the zone range (ZR) option as follows: R4 = Z9:12(1)A (i.e. alert on any of zones 9-12 in alarm) V1 = (Z9:11(2)A.^Z13A)+Z12A (i.e.
Page 126 Programming System Configuration EXAMPLES OF LOGIC EQUATIONS (CONTINUED) Example 4 - Use of Timer To Make Continuous Pulsing A building has a loud "hooter" to attract the operator to the FIP. The hooter is relay driven and must pulse 1 second on, 1 second off, on occurrence of any alarm until it is acknowledged.
Page 127 ENTERING EQUATIONS (CONTINUED) When an equation has been entered, check it, and count the number of "(" and the number of ")" to ensure they are the same. It is recommended that all equations be written on forms (such as in Appendix B) before they are entered, and then checked against the forms after they have been entered).
Page 128 Programming System Configuration ENTERING EQUATIONS (CONTINUED) The next relay can be selected. Note that Z9A and Z10A could have been entered as zone range ZR9:10(1)A. Entering an NA Operand To enter an NA operand, do the following: Select NA with the █ in the bottom line and press "ENTER". Select the first token in the "RESET"...
Page 129: Programming Relays
PROGRAMMING RELAYS When programming relays, the following points should be observed: The default operation of the F3200 MAF Brigade relays conform to AS1603.4. Programming relays for operation, other than default, may contravene the standard. If programming the Alarm relay with a logic equation and it is desired to have it operate during Brigade Test, then the equation entered should include the BGT token.
Page 130 An output logic equation controlling a "module relay" where the relay number is in the range 65 to 256 is used to control a zone LED. F3200 allows a maximum of four 16 zone LED display boards corresponding to 64 zones. Relay equations with relay numbers 65-128 are used to control the alarm LEDs 1 to 64.
Page 131 F3200 controller had an unisolated alarm, and similarly for fault and isolate. NOTE At the F3200 controller, zones 129 to 192 actually correspond to open collector outputs and are NOT the same as zones 129 to 192 at an RZDU.
Page 132 Programming System Configuration ENTERING OUTPUT LOGIC ZONE COMMANDS (CONTINUED) When an existing equation (call it "E1") is shown, the first and/or last zone may be modified and if an equation with the new first and last zone does not already exist then the "right hand side"...
Page 133 7.4.9.2 OPERATION OF OUTPUT LOGIC ZONE COMMANDS Reset Command A single zone or a range of zones may be reset. All zones in the specified range will be reset, regardless of whether they are in alarm or not, as if the zones had been reset by an operator from the keypad.
Page 134 Programming System Configuration EXAMPLE EQUATIONS (CONTINUED) (iii) To reset a zone after it has been in alarm for 30 seconds. T1[S30:0]=Z1A ZR1:1=T1 After zone 1 alarm (Z1A) has been true for 30 seconds, timer T1 will become true and a reset command will be issued to zone 1. This will immediately cause Z1A to become false, resulting in timer T1 becoming false and removing the reset command initiation.
Page 135: Relay Supervision
"short" or "open" circuited). In F3200, the supervision also includes a "confirmation" function i.e. it expects to "see" a different state after a relay has been activated. If an incorrect state is "seen" by the supervision, before or after relay activation, then it generates a "fault"...
Page 136 F3200 Installation & Programming Manual Document No: LT0122 Programming System Configuration 7.5.3 MODULE RELAY SUPERVISION This is option 2 of the Relay Supervision menu. To program module relay supervision the desired relay number is selected by use of the "NEXT" and "PREV" keys.
Page 137: Rdu
RZDU. i.e. at an RDU, a recall of zone 65 on the LCD will show the status of the first module relay in the F3200 panel and a recall of zone 1 on the LCD at an RDU will show the status of the first alarm zone in the F3200 panel.
Page 138 The FIP will send the names of up to 64 alarm zones and 64 module relays. The F3200 FIP (all software versions) will also send the name of a zone to an RDU whenever an FFCIF alarm is generated for that zone. If programmed to, the RDU will save the zone name received with an FFCIF alarm event into its database.
Page 139: Chapter 8 Installation & Wiring
Document No: LT0122 F3200 Installation & Programming Manual Installation & Wiring CHAPTER 8 INSTALLATION & WIRING Issue 2.7 5 July 2001 Page 8-1...
Page 140: Installation
Installation & Wiring 8.1.1 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.
Page 141 │<───────────────────────────────>│ │ ┌─────────────────────────────────────────┐ ─── │ │ │ │ ───────────────│── o ─────────────────────────────── o ──│──── │ │o / 6.0 │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │...
Page 142: Cardframe Installation
8.1.2 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. In older versions, the cardframe mounts directly to the rear of the cabinet. In newer versions, the cardframe is fitted to a gear plate that may be removed when the cabinet is mounted to the wall.
Page 143: Module Installation
8.1.3 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 8.1.2).
Page 144: Led Display Installation
Installation & Wiring 8.1.4 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).
Page 145 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.
Page 146: Field Wiring
Installation & Wiring 8.2.1 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.
Page 147: Mains Wiring
8.2.2 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.
Page 148: Azc Wiring
└──────┘ 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 8.3.2. The zone must be programmed with B3 = Instant Alarm.
Page 149 ┌─┐ ┌──────┐ ┌──────┐ │E├───┼o+ +o┼──┼o+ │O│ │OUT IN│ │OUT IN│ │L├───┼o- -o┼──┼o- └─┘ └──────┘ └──────┘ ┌─┐ ┌──────┐ ┌──────┐ │E├───┼o+ +o┼──┼o+ │O│ │OUT IN│ │OUT IN│ │L├───┼o- -o┼──┼o- └─┘ └──────┘ └──────┘ ┌─┐ ┌──────┐ ┌──────┐ │E├───┼o+ +o┼──┼o+ │O│ │OUT IN│ │OUT IN│ │L├───┼o- -o┼──┼o- └─┘...
Page 150: Maf Ancillary Relay Wiring
(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.
Page 151 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─────┐ ┌─ │ | SUP o─────┼─────────┬───────────────────────────────────────┐ │ ANCIL| NC o─────┘ | COM o───────┬───────┴───┬───────────┬───────────┬───────────┤...
Page 152 Installation & Wiring +VBF1 o─────┐ ┌─ │ │ | SUP o──┐ │ │ │ ANCIL| NC o──┘ │ 1A | | NO o─────┘ | COM o───────────────────────────────────────────┬───────────┐ └─ o───────────────────────────────────────────┴───────────┘ 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.
Page 153: Warning System Wiring
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).
Page 154 FIP rather than switched power. The BELLS- terminal can be used for this unchanged. Alternatively, an open collector output (if the T-GEN is in or adjacent to the F3200 panel), another Ancil relay on the MAF, or an 8RM relay can be used as per Section 3.5 of the T- GEN Installation Instructions, LT0186.
Page 155 FIRE PANEL DC IN Bells + Bells - F3200 2-W LINK FITTED DC IN 2-W LINK FITTED EXAMPLE OF MULTIPLE MINI-GENS WITH 3 BRANCHES OF SPEAKERS +VBF Pole 2 Pole 1 Note that this configuration requires that the relay confirmation (ACT) be disabled, which requires V2.09 or greater software.
Page 156 FIG 5.5.3 MICROVAC OR QE90 (* = EOL for QE90/MICROVAC) FIG 8.5.4 MICROVAC/ QE90 FIP I/P MICROVAC OR QE90 (* = EOLR for F3200 AZC) FIG 8.5.5 5 July 2001 F3200 Normally - closed Fault relay FIP I/P Normally -...
Page 157 6Adc Batt - Fuse BELLS + BELLS - Anc 3 Notes Wire an in-line fuse holder with 6A fuse from Batt+. The Bell Monitor must be Rev 3 or greater and is supplied with instructions, adhesive based stand-offs, and EOLRs. USING BELL MONITOR BOARD ON ANCIL 3/BELLS RELAY Issue 2.7 Bell Monitor Rev 3...
Page 158: Module Relay Wiring
Installation & Wiring 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.
Page 159: Dual Pole - Polarity Reversal Output
8.6.1 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.
Page 160: Open Collector Wiring
Installation & Wiring OPEN COLLECTOR WIRING 8.7.1 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"...
Page 161: Ase Installation And Wiring
EXAMPLE OF INTERFACING TO OTHER EQUIPMENT, OPTICAL ISOLATION ASE INSTALLATION AND WIRING A Vigilant 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.
Page 162: Rdu Wiring
Installation & 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.
Page 163 ┌─┐ ╔══════════════╡O│+VBF2 ║ ├─┤ ║ ╔══════╡O│TX ║ ║ ├─┤ ╔═══╬═══════╬══════╡O│0V ║ ║ ║ ├─┤ ║ ║ ╔════╬══════╡O│RX ║ ║ ║ ║ └─┘ ║ ║ ║ ║ ║ ║ ║ ║ ║ ║ █════╣════════════════════╝ ║ ║ ║ ║ █═══╬══╬════╬═════════════════════════╝ ║ ║ ║...
Page 164: Slimline Ndu (Fp0714) Wiring
F3200 Installation & Programming Manual Document No: LT0122 Installation & Wiring 8.10 SLIMLINE NDU (FP0714) WIRING MCP Connection 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.
Page 165: Chapter 9 Applications
Document No: LT0122 F3200 Installation & Programming Manual Applications CHAPTER 9 APPLICATIONS Issue 2.7 5 July 2001 Page 9-1...
Page 166: As1668 Air Conditioning Control
AS1668 AIR CONDITIONING CONTROL 9.1.1 GENERAL The following features of F3200 allow it to be easily adapted to Air Conditioning Plant Control (referred to as AS1668 which is the relevant Australian Standard): 19" Rack mounting cabinet with standard light grey blank panels available, including 9½U (plastic), 7U metal (hinged), 4U metal, 3U metal;...
Page 167 Document No: LT0122 F3200 Installation & Programming Manual Applications FIG 9.1.2 F3200 WITH TYPICAL AS1668 PANEL (10 UNITS) 9.1.2 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.
Page 168 Applications CIRCUITS & ZONES (CONTINUED) The option in Fig 9.1.3 A could be implemented by "tacking" the 560E resistor (or 6V8 Zener) onto the pcb. The 2 AZC option (Fig 9.1.4) 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"...
Page 169 CIRCUITS & ZONES (CONTINUED) For options A and C in Fig 9.1.3, configure circuit Alarm Text as "manual" and voltage band B1 as "Instant Alarm" (refer to table below). Voltage Default Band State Fault Normal Alarm Configure the zone as non-latch, Status, non Anc1/Anc2/Bells. In output logic, "off"...
Page 170 Applications 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 9.1.5 A). Alternatively, the NC "Fault" contact can be put in series for open circuit Fault, and the NO "Run"...
Page 171 CIRCUITS & ZONES (CONTINUED) 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. 9.1.4 LEDS The 3 LEDs may be: switched directly as per circuits 1 and 2 of 1945-1;...
Page 172 Applications CIRCUITS & ZONES (CONTINUED) Note that the logic requested for the LEDs in Option B is as follows: LEDs FAULT Where x = off or on (don't care). 9.1.5 AS1668 CONTROL MODULE & DRAWINGS The following drawings are of 4 typical configurations using the AS1688 Control Module, 1945-1.
Page 173 +24V (RED) +24V TO OTHER AS1668 +24V CONTROL/INDICATORS (RED) TO OTHER AS1668 CONTROL/INDICATORS (BLACK) 0V (BLACK) AUTO CONTROL (BROWN) FIRE SYSTEM ON FOR RUN RELAY OPEN COLLECTOR CONTACT OUTPUT THIS DOCUMENT MUST NOT BE COPIED NOR THE CONTENTS PASSED ON TO CONFIDENTIAL: ANY THIRD PARTY WITHOUT THE CONSENT OF THE COMPANY.
Page 174 +24V SWITCHED RLY (COM) SUPERVISED RELAY OUTPUT RLY (NO) +24V +24V TO OTHER AS1668 +24V CONTROL/INDICATORS (RED) (BROWN) UNLESS OTHERWISE STATED: (BLACK) ALL RESISTANCE IN OHMS ALL RESISTORS 1/4W, 5% ALL CAPACITANCE IN FARADS 0V (BLACK) FIRE SYSTEM TO OTHER AS1668 CONTROL/INDICATORS (BLACK) THIS DOCUMENT MUST NOT BE COPIED NOR THE CONTENTS PASSED ON TO...
Page 175 RLY (COM) SUPERVISED RELAY OUTPUT RLY (NO) +24V TO OTHER AS1668 +24V CONTROL/INDICATORS (RED) OPEN COLLECTOR 1 OPEN COLLECTOR 2 AZC1 AZC2 UNLESS OTHERWISE STATED: ALL RESISTANCE IN OHMS ALL RESISTORS 1/4W, 5% ALL CAPACITANCE IN FARADS SYSTEM TO OTHER AS1668 CONTROL/INDICATORS (BLACK) THIS DOCUMENT MUST NOT BE COPIED NOR THE CONTENTS PASSED ON TO...
Page 176 RLY (COM) SUPERVISED RELAY OUTPUT RLY (NO) +24V TO OTHER AS1668 +24V CONTROL/INDICATORS (RED) OPEN COLLECTOR 1 OPEN COLLECTOR 2 OPEN COLLECTOR 3 AZC1 UNLESS OTHERWISE STATED: AZC2 ALL RESISTANCE IN OHMS ALL RESISTORS 1/4W, 5% ALL CAPACITANCE IN FARADS TO OTHER AS1668 CONTROL/INDICATORS (BLACK)
Page 177: Gas Flood
9.2.1 GENERAL The following features of the F3200 make it well suited to "Gas Flood" control: 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"...
Page 178 Applications LOGIC & CONFIGURATION (CONTINUED) Relay 1 = Alert 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...
Page 179 LOGIC & CONFIGURATION (CONTINUED) Configure Relay Supervision Relay Enable Latch Gas Release By default, relays are isolatable and testable but this can be changed if desired. For all configuration, only items that have to be changed from default are shown. 9.2.3 NOTES The variable V1 is used to initiate the timer rather than OC1 because outputs...
Page 180: Use Of Actuators
Applications NOTES (CONTINUED) If a Lock-off valve is not required, then Z7 is not required and can be left out of the equations. Note that AS4124.1 requires the Lock-off Valve to isolate both poles of the Gas Release solenoid / actuator. This is not done within the ME wiring and would therefore need to be done externally with microswitches (or a relay).
Page 181: Avi Signs
USE OF ACTUATORS (CONTINUED) The maximum number of actuators connected in series in one circuit is dependent on the cable resistance. The following are estimates for the Metron Protractor and 427354 current limiter, and are not confirmed by the manufacturer (consult the manufacturer). Allow: 21V as worst case battery voltage;...
Page 182 Applications AVI SIGNS (CONTINUED) Function Input Lamps Tone Mode DIL SW Alert- Both Both Alert- Both Both Evac- Both Alert- Both None 3-wire Notes The option of top lamps with Evac tone for one input, and both lamps with Evac tone for the other, is not directly supported.
Page 183 Document No: LT0122 F3200 Installation & Programming Manual Applications FIGURE 9.2.1 GAS FLOOD LOGIC DIAGRAM Issue 2.7 5 July 2001 Page 9-15...
Page 184 F3200 Installation & Programming Manual Document No: LT0122 Applications FIG 9.2.2 LOCAL GAS CONTROL STATION, FRONT VIEW Page 9-16 5 July 2001 Issue 2.7...
Page 185 Notes Only the wiring to AVIs making tones is supervised (the Sync wire is not supervised). The supervising relays should be programmed to not supervise in the activated state. This AVI should be mounted upside down, with the DNE face plate up the right way. WIRING MULTIPLE SUPERVISED 2 STAGE SIGNS Issue 2.7 FIGURE 9.2.5...
Page 186 Applications Notes The second pole of the relay is used by fitting connectors CN0260, CN0488 to the holes in the 8RM. If only one sign is used, the diode need not be fitted. Both tones should be disabled in the AVI. If Supervision is not required, the second pole is not required and the AVI +24V terminal can be wired directly to the Gas Flood +24V terminal.
Page 189: Sub Fip Monitoring
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.
Page 190 Applications 9.3.2 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.
Page 191 FAULT ┌─────────o──o───────o──o──────┬──────────┬───────┤ │ (NC) │ │ ┌┴┐ 2K7│ │ └┬┘ │ │ 5V6 OR 470E │ │ │ └──────────────────────────────┴──────────┴───────┤ Program B1 as Instant, ZnM represents "Alarm" ZnD represents "Standby" ZnF represents "Fault" or "Isolate" EXAMPLE OF SUB-FIP MONITORING FOR RESISTANCE CASE 1 ONLY Note the warnings for testing an AZC (i.e.
Page 192: Fire Detection In Hazardous Areas (Explosive Atmospheres)
Applications FIRE DETECTION IN HAZARDOUS AREAS (EXPLOSIVE ATMOSPHERES) 9.4.1 REFERENCES AS 2380 Electrical Equipment for Explosive 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).
Page 193 9.4.3 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: Galvanically (transformer) isolated repeaters (isolators). Zener barriers (shunt barriers with fuses).
Page 194 Applications ISOLATED REPEATERS (CONTINUED) DETECTOR CAPACITANCE C29BEx/Z94C R24Bex FW68 FW105 FW180 S231i+ S121 MS302Ex MF301Ex MR301Ex (Photo) MR301TEX (HPO) T56B (Heat) (Z500N base) T54B (Heat) CAPACITANCE & INDUCTANCE PER I.S. DETECTOR Notes 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.
Page 195 9.4.3.2 6 TERMINAL ISOLATED REPEATER The following 6 terminal isolating repeaters can connect an F3200 zone to an IS detection circuit using the circuit of Figure 9.4.3.2. Pepperl & Fuchs KHD3-ICR/Ex130 200 Pepperl & Fuchs KFD2-CR-Ex1.30 200 F3200 IS CIRCUIT USING 6-TERMINAL REPEATERS Relay or Open Collector For each AZC there must be either: a corresponding relay (e.g.
Page 196 Applications 6 TERMINAL ISOLATED REPEATER (CONTINUED) 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.
Page 197 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 –...
Page 198: Hazardous Area
5 ZONE- 6 BATT- * EOL to suit Panel 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. Voltage band B3 is not generated by a ZAU401 so can be left at the default setting (which is “normal”...
Page 199 4 TERMINAL ISOLATED REPEATER WITH ZONE ADAPTOR UNIT ZAU401 (REV 2) (CONTINUED) DETECTOR TYPE PART BASE SMOKE C29BEx Z94C FLAME R24BEx HEAT FW105 HEAT T54B HEAT T56B Z500N HEAT S231i+ FLAME S121 FLAME MS302Ex M300 MF301Ex M300 PHOTO MR301Ex M300 MR301TEx M300 MAXIMUM DETECTOR QUANTITY &...
Page 200 Applications 9.4.3.4 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 Figure 9.4.3.4. The following 4-terminal isolating repeaters can be used.
Page 201 4 TERMINAL ISOLATED REPEATER ALONE (CONTINUED) DETECTOR TYPE PART BASE HEAT FW105 HEAT T54B 40(M) HEAT T56B Z500N 40(M) MAXIMUM DETECTOR QUANTITY & CABLE LENGTH FOR 4 TERMINAL Notes Circuit lengths quoted are from the isolator to the EOL. The length quoted is the maximum for the corresponding quantity of detectors.
Page 202: 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.
Page 203: Special Connections To Detectors
– not through an intrinsically-safe isolator, and thus cannot be used in hazardous area applications. For IS applications refer to Section 9.4. The S231i+ and S231f+ detectors are not directly compatible with the F3200. However, compatibility can be achieved by using the PA0838 ZAU401 (Rev 2) Zone Adaptor unit between the panel and the detectors.
Page 204 F3200 Installation & Programming Manual Document No: LT0122 Applications THIS PAGE INTENTIONALLY LEFT BLANK Page 9-34 5 July 2001 Issue 2.7...
Page 205: Chapter 10 Alignment, Adjustment & Placing Into Operation
Document No: LT0122 F3200 Installation & Programming Manual Alignment, Adjustment & Placing into Operation CHAPTER 10 ALIGNMENT, ADJUSTMENT & PLACING INTO OPERATION Issue 2.7 5 July 2001 Page 10-1...
Page 206 10.1 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.
Page 207: Placing Into Operation
10.2.1 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. Note that all electronic modules were tested and adjusted in the factory and should need no further adjustment.
Page 208 Alignment, Adjustment & Placing into Operation 10.2.2 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.
Page 209: Commissioning Checklist
10.2.3 COMMISSIONING CHECKLIST The following checklist should have been completed and supplied by the manufacturer. It should be placed with other System Configuration 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).
Page 210: Operation
Alignment, Adjustment & Placing into Operation COMMISSIONING CHECKLIST (CONTINUED) POWER SUPPLY Mains Wired correctly, MOV, cap fitted "Mains Isolate Switch" and "NAE" label fitted Mains Earth wired to stud, good contact Mains Switch neon off/on for switch off/on MAF/PSU Mains On LED on, Fuse Blown LED off VRECT at DC IN tab 40-42Vdc Charger Voltage 27.25-27.4V warm, 27.5-27.75V cold OPERATION...
Page 211: Chapter 11 Network Programming
Document No: LT0122 F3200 Installation & Programming Manual Network Programming CHAPTER 11 NETWORK PROGRAMMING Issue 2.7 5 July 2001 Page 11-1...
Page 212: Introduction
11.1.1 PANEL-LINK NETWORK Networking enables up to 64 F3200 FIPs to be interconnected via single or duplicated 2 wire connections, and information to be exchanged between FIPs. Alarms occurring on any FIP on the network may be displayed and acknowledged on the LCD FFCIF of any other FIP.
Page 213 Config defines the network type, the critical timing parameters, whether this panel sends link integrity messages, and the group membership for this panel. The Network SID settings define which other panels on the network the F3200 is to send or receive information or commands.
Page 214: Programming Methods
The first concept is the SID list: an F3200 can only use Network Logic, MAF data and MAF totals from units whose SID is in the list and can only send and receive commands, recall zones and monitor the scan status (link integrity) for SIDs in the SID list.
Page 215 MODE LOCAL SID # NetPg3 LINK TX L I N K T X T I M E NetPg5 ACK BROADCASTS TO SPECIFIC SID F3200 NETWORK PROGRAMMING MENU STRUCTURE FROM SYSTEM CONFIG NET CMDS FFCIF EVENTS TX EVENTS TX SID RX NET ACK...
Page 216 True if any system fault is present. When true, this will cause any panel on the network which is programmed to use the MAF data from this panel, to energise the MAF fault relay and, (if the receiving panel is an F3200 panel), to turn its buzzer on when a new fault occurs.
Page 217 The groups concept also applies to Alarm annunciation on the F3200 LCD. An F3200 can be programmed whether to receive alarms from other FIPs on the network. If this is so, the F3200 will only display alarms from sending FIPs that have a Group common to the receiving F3200.
Page 218 SID that the message is directed to. Enabling acknowledge of broadcasts does increase the loading on the network. It is recommended that if an F3200 panel is to acknowledge broadcasts then it should be the most lightly loaded FIP on the network, taking into consideration the number of circuits, amount of output logic and the number of display boards.
Page 219: Network Configuration Menu
This is the network address (SID number) of this F3200, allowing for the unique identification of zones, events, and for remote controls to be sent to this F3200. The SID for any device on the network must be a unique number between 1 and 254. It is recommended that all Fire Alarm Panels are numbered sequentially from 1 upwards, so as to make numbering consistent.
Page 220 F3200 can belong to any combination of 8 groups, or none. The group data is sent out with alarm and event information, and panels receiving this information are able to process the data only if the sender is a member of at least one group that the receiving F3200 is a member of.
Page 221 NETPG4 OPTIONS (CONTINUED) For 1-12 devices, select 8 slots For 13-24 devices, select 16 slots For 25 or more devices, select 32 slots Mode B This is a numeric value 0-7 which is used to control some of the network operations as follows.
Page 222: Sid Configuration
In general, the SID number of every device on the network should be entered into the SID list of this panel and should have "Link RX" enabled (section 11.4.2). This allows this F3200 to monitor all other devices on the network. Any device on the network which is not in the SID list of this panel will be completely ignored i.e.
Page 223 Network Programming SID MENU ONE (CONTINUED) If the F3200 is programmed to receive FFCIF events from a particular SID, then it is also able to send Ack, Reset and Isolate commands for the event back to the originating SID (providing that reset and isolate of remote alarms is also enabled - refer section 11.7 FFCIF config).
Page 224: Network Maf Configuration
The < and > keys allow movement between two menus named NetMAF1 and NetMAF2. 11.5.1 OPTIONS UNDER NETMAF1 F3200 V2.07 or later software allows the following options to be set to zero. If both are zero, the panel will never send MAF status onto the network. 1. Refresh TX time : (0-250) A value in seconds which specifies the rate at which a refresh of the network MAF status/totals of this SID should be transmitted onto the network.
Page 225: Net Commands
When F3200 issues a command, it may take some time for the message to be sent on the network, processed by the receiver, and the response sent back. The length of time the F3200 will wait for the response is defined as the 'ACK time' (Net Command Acknowledge Delay Time).
Page 226: Net Ffcif Configuration
(refer section 11.3.3 groups). For F3200 and NDUs the SID list programming also determines whether FFCIF alarms received from other panels are entered into the FFCIF alarm list of this panel.
Page 227 Document No: LT0122 F3200 Installation & Programming Manual Network Programming FFCIF CONFIGURATION (CONTINUED) 3. Remote ACK : Yes/No If enabled, this allows alarms in the local FFCIF alarm list to be acknowledged by commands from remote network devices. If disabled, then any alarm which is entered into the local FFCIF alarm list must be acknowledged locally - this applies to both alarms generated by local zones and alarms which come from remote devices.
Page 228: Network Event Configuration
The event and it's text may be used by a network printer (e.g. PTM or NDU), network history logger, (e.g. an NDU or another F3200 panel), graphics display, or NLDU (network led display unit).
Page 229 Document No: LT0122 F3200 Installation & Programming Manual Network Programming NETWORK EVENT CONFIGURATION (CONTINUED) Options under Events2 1. Zone/relay cmd text tx : (Yes/No) If enabled, the text name of the zone or relay will be transmitted onto the network along with the event for zone/relay command event types.
Page 230: Network Logic Variables
Transfer of brigade relay status for multiple brigade interfaces at one panel. An F3200 is always able to modify and use it's own network variables - this gives an extra 128 Variables for use, but they should be used sparingly as processing of network variables takes longer than ordinary output logic variables.
Page 231: Net Status Refresh
Determines whether this F3200 sends zone status data onto the network. If disabled, no refreshes or changes of status will be sent onto the network. However, the F3200 will still respond to requests for status from other devices on the network.
Page 232: Ndu Operation
11.11 NDU OPERATION An NDU can be thought of as an F3200 FIP without any alarm zone modules or relay modules. An NDU also has an option of MAF board present/not present. An NDU can be programmed to operate in “New Zealand” mode rather than the default Australian mode.
Page 233 An NDU may send and receive commands on the network such as system tests, zone tests, zone isolate/deisolate etc. All of the commands described in the F3200 Operator's Manual apply to an NDU except that an NDU has no open collector outputs or module relays.
Page 234: 11.12 Default Values For Panel-Link Variables
Network Programming 11.12 DEFAULT VALUES FOR PANEL-LINK VARIABLES Item Network Setup Local SID Number Mode RX Timeout TX Delay ACK Time DUP Time Leading FF Trailing FF Link TX Link Tx Time Link RX Time Groups ACK Broadcasts Baud rate Retries Slots Mode B...
Page 235 Item Network Event Config Transmit events Transmit event updates Transmit relay operates Zone/Relay cmd text tx Zone/Rly event text tx System event text tx Network Variable Config TX enabled TX Refresh Rate Max COS TX rate Network Status Config Refresh enabled TX Refresh Rate Fast TX rate Issue 2.7...
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Page 237: Chapter 12 New Zealand Operation
Document No: LT0122 F3200 Installation & Programming Manual New Zealand Operation CHAPTER 12 NEW ZEALAND OPERATION Issue 2.7 5 July 2001 Page 12-1...
Page 238: General
New Zealand Operation 12.1 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.
Page 239 DISPLAY EXTENDER BOARD (CONTINUED) Services Restore When the 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. 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.
Page 240: Manual Callpoint (Mcp)
New Zealand Operation 12.3 MANUAL CALLPOINT (MCP) An NDU with a MAF board may have an MCP connected to the MAF board (refer Fig 12.3.1 for wiring). An NDU without a MAF board may have an MCP connected to screw terminals 3 and 4 of standalone connector J5 on the Controller board as shown in Fig 12.3.2.
Page 241: Programmable Options
12.4 PROGRAMMABLE OPTIONS There are a number of parameters that need to be set for New Zealand operation according to the installation requirements. These are detailed below. Fig 6.1.2D2 shows that they are accessed by selecting option 3:Global data, then 5:more, 4:more, 4:more, then 4: New Zealand options.
Page 242: Logic Tokens
New Zealand Operation PROGRAMMABLE OPTIONS (CONTINUED) (d) Daily battery test This is enabled by default. When enabled, every 24 hours (beginning at the auto test start time) the charger voltage is reduced for 40 minutes and the battery voltage is monitored.
Page 243: System States & Indications
12.6 SYSTEM STATES & INDICATIONS Faults, alarms and system faults can be recalled using the Recall key. A recall of system faults will display in addition to system faults, any system states (such as trial evac) that are present. The bells isolate LED flashes at 2Hz when the local silence alarms switch is activated, flashes at 1Hz when the bells are silenced by a bells isolate or silence alarms at some other panel, and is on steady when the bells are isolated locally.
Page 244: Network Parameter Programming
New Zealand Operation SYSTEM STATES & INDICATIONS (CONTINUED) An off normal state is indicated (also defect) for approximately 10 seconds after any restart of the panel. When there is a "link integrity" fail for any network SID that this panel is monitoring or when the NDU does not receive an acknowledge to a message it transmits on the network to a SID that is supposed to be responding.
Page 245 12.7.1 THE SID LIST Normally, all other panels on the network are entered into the SID list of the NDU, with 8 options able to be set for each panel. If the NDU is the brigade connection point of the system, then probably all 8 options will be enabled for every SID in the list.
Page 246: Installation : Nz Display Extender Board & Brigade Displays
New Zealand Operation 12.8 INSTALLATION : NZ DISPLAY EXTENDER BOARD 12.8.1 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.
Page 247: Active Display
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 TERMINATION BOARD,C/W RESISTORS (As for PA0483 but 3k3 resister per output) PA0753 PCB ASSY,PICTURE FRAME DISPLAY,16 LED MIMIC,24V PA0760...
Page 248: Display Extender Board Miscellaneous Termination
New Zealand Operation ACTIVE DISPLAY (CONTINUED) FP0678 16 ZONE FULL STATUS KIT (PA0754,FRC LOOM,POWER LEADS) PA0772 PFD TERMINATION BOARD (FRC TO MULTICORE) PA0483 UNPROTECTED TERMINATION BOARD LM0056 LOOM,DISPLAY EXTENDER FRC,1.4M,26 WAY LM0046 LOOM, DISPLAY EXTENDER FRC,0.5M,26 WAY LM0092 LOOM,CONTROLLER TO FIRST DISPLAY,1.2M ME0073 PICTURE FRAME DISPLAY,F/S,EMPTY,003 LOCK,C/W INDEX ME0074...
Page 249 NDU Cabinet Note: 16 zone display boards are not normally connected to an NDU. To NDU controller Bd. All shaded cables 26 way FRC. The first cable from the NDU Controller must be LM0092 (FZ3031 kit) FIG 12.8.1 - REMOTE PLAN MIMIC DISPLAY Issue 2.7 New Zealand Operation External Mimic Display Cabinet...
Page 250 New Zealand Operation NDU Cabinet 16 Zone Display Board PA0454 (FP0475 including Note: 16 zone display boards are not normally connected to an NDU. 16 Zone Display Board PA0454 (FP0475 including To NDU controller Bd. Etc. All shaded cables 26 way FRC. The First cable from the NDU controller must be LM0092 (FZ3031 kit).
Page 251 NDU Controller Board Picture Frame Display Cabinet Termination Board PA0483 Miscellaneous Inputs Note: This configuration will not generally be used. Refer to Section 12.8.1. NDU WITH ACTIVE DISPLAY BOARDS IN SEPARATE PICTURE FRAME DISPLAY CABINET Issue 2.7 NDU Cabinet Optional 16 Zone Display Boards PA0454 (FP0475) LM0092...
Page 252 New Zealand Operation From Main Display Boards Picture Frame Display Cabinet Display Boards WIRING OF NDU TO PFD (ACTIVE DISPLAY) Page 12-16 NDU Cabinet PFD Termination Board. PA0772 Links LK1 & LK2 not fitted. 26 Way PFD Termination Board. PA0772 Links LK1 &...
Page 253 ┌────────────┬─┬─┬─┬─┬───────────────┐ Outputs │ spare 1├─┐ anc defect 2├─┤ anc fire 3├─┤ fire led 4├─┤ defect led 5├─┤ normal led 6├─┤ Lamp- 7├─┤ Lamp+ 8├─┤ ├─┘ │ └────────────┴─┴─┴─┴─┴───────────────┘ 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.
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Page 255: Chapter 13 Tandem Lcd Mode
Document No: LT0122 F3200 Installation & Programming Manual Tandem LCD Mode CHAPTER 13 TANDEM LCD MODE Issue 2.7 5 July 2001 Page 13-1...
Page 256: Tandem Lcd Mode
Tandem LCD Mode 13.1 Tandem mode allows the LCD and keyboard of an F3200 panel or NDU to be operated from a device on the printer/programmer port or from another device on the network. F3200 or NDU V2.07 or later software allow Tandem LCD mode operation.
Page 257 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 9.4.
Page 258: Heat Detector
Appendix A ╔═══════════════════════════════════════════════════════╤══════════════╗ ║ DETECTORS COMPATIBLE WITH F3200 FIP ╟─────────────┬─────────────────────────────────────────┼───────┬──────╢ ║ TYPE │ DESCRIPTION ╠═════════════╪═════════════════════════════════════════╪═══════╪══════╣ ║ MD614 │HEAT DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢ ║ MF614 │IONISATION SMOKE DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢ ║ MR614 │PHOTOELECTRIC SMOKE DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢ ║ MR614T │HIGH PERFORMANCE OPTICAL SMOKE DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢...
Page 259: Type │Description
(eg. if a T56B heat detector is used with these, it shorts directly across the AZC). ╔═════════════════════════════════════════════════════════╤═══════╗ ║ DETECTORS COMPATIBLE WITH F3200 FIP ╟─────────┬───────────────────────────────────────────────┼───────╢ ║ TYPE │DESCRIPTION ╠═════════╪═══════════════════════════════════════════════╪═══════╣...
Page 260 Appendix A ╔═══════════════════════════════════════════════════════╤═══════╗ ║ DETECTORS CERTIFIED WITH F3200 FIP ╟─────────────┬─────────────────────────────────────────┼───────╢ ║ TYPE │ DESCRIPTION ╠═════════════╪═════════════════════════════════════════╪═══════╣ ║ SERIES 60 │ APOLLO HEAT DETECTOR TYPES A, B, C, D │ ╟─────────────┼─────────────────────────────────────────┼───────╢ ║ SERIES 60 │ APOLLO PHOTOELECTRIC SMOKE DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────╢ ║ SERIES 60 │...
Page 261 ACTUATING DEVICE COMPATIBILITY The maximum number of detectors per AZC allowed by the standard is 40. Those detectors shown in brackets are old models and have the same characteristics as the current models. Detectors indicated by a "x" may be used in INTRINSICALLY SAFE AREAS in conjunction with approved and compatible, intrinsically safe adaptors.
Page 262 Appendix A PROGRAMMING FOR DETECTOR TYPE GENERAL The default programming (i.e. pre-programmed options) for AZCs (circuits) and zones are shown on the top of the "F3200 INPUT CONFIGURATION" sheet in Appendix B. They are as follows: Circuits ┌──────────┬────────────┬───────────┬─────────────────┬───────────────┐ │ Alarm │...
Page 263: Delay Type
(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. ╔════════════════════════════════════════════════════╤═════════════════╗ ║ DETECTORS COMPATIBLE WITH F3200 FIP ║ ╟─────────┬──────────────────────────────────────────┼────────┬────────╢ ║ TYPE │...
Page 264 Appendix A ╔═══════════════════════════════════════════════════════╤══════════════╗ ║ DETECTORS COMPATIBLE WITH F3200 FIP ║ ╟─────────────┬─────────────────────────────────────────┼───────┬──────╢ ║ TYPE │DESCRIPTION ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢ ║ MD614 │HEAT DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢ ║ MF614 │IONISATION SMOKE DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢ ║ MR614 │PHOTOELECTRIC SMOKE DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢ ║ MR614T │HIGH PERFORMANCE OPTICAL SMOKE DETECTOR ╟─────────────┼─────────────────────────────────────────┼───────┼──────╢...
Page 265 ╔══════════════════════════════════════════════════════╤═══════════════╗ ║ DETECTORS CERTIFIED WITH F3200 FIP ║ ╟─────────────┬────────────────────────────────────────┼────────┬──────╢ ║ TYPE │ DESCRIPTION ╠═════════════╪════════════════════════════════════════╪════════╪══════╣ ║ B111B │ BEAM TYPE SMOKE DETECTOR ╟─────────────┼────────────────────────────────────────┼────────┼──────╢ ║ B21B │ BEAM TYPE SMOKE DETECTOR ╟─────────────┼────────────────────────────────────────┼────────┼──────╢ ║ C23B │ IONISATION SMOKE DETECTOR ╟─────────────┼────────────────────────────────────────┼────────┼──────╢ ║ C23BEx │...
Page 266 Appendix A ╔════════════════════════════════════════════════════╤═════════════════╗ ║ DETECTORS CERTIFIED WITH F3200 FIP ║ ╟─────────────┬──────────────────────────────────────┼────────┬────────╢ ║ TYPE │DESCRIPTION ╠═════════════╪══════════════════════════════════════╪════════╪════════╣ ║ SERIES 60 │APOLLO HEAT DETECTOR TYPES A, B, C, D │ ╟─────────────┼──────────────────────────────────────┼────────┼────────╢ ║ SERIES 60 │APOLLO PHOTOELECTRIC SMOKE DETECTOR ╟─────────────┼──────────────────────────────────────┼────────┼────────╢ ║ SERIES 60 │APOLLO IONISATION SMOKE DETECTOR ╠═════════════╧══════════════════════════════════════╧════════╧════════╣...
Page 267: Appendix B F3200 Configuration Sheets
Document No: LT0122 F3200 Installation & Programming Manual Appendix B APPENDIX B F3200 CONFIGURATION SHEETS The following pages are suggested as master forms for programming. It is recommended that they be photocopied, and a complete set be filled out for each FIP before programming is started.
Page 268 F3200 Installation & Programming Manual Document No: LT0122 Appendix B THIS PAGE INTENTIONALLY BLANK Page B-2 5 July 2001 Issue 2.7...
Page 269 F3200/NDU SYSTEM CONFIGURATION PAGE 1 This set of configuration sheets contains all programmable parameters. Fill in values for all parameters that are being changed from the default settings. (SITE NAME - 40 CHARACTERS MAXIMUM) 8 Zone modules : 0 – 8 8 Relays modules : 0 –...
Page 270 Appendix B F3200/NDU SYSTEM CONFIGURATION PAGE 2 AUTO TEST Alarm test enable/disable Y/N: Start time: Inhibit dates: SYSTEM OPTIONS FIP MCP Zone 0 – 64 All zones isolated = standby Activate relay for Brigade Test FFCIF zones: MAF only/all/none FFCIF type...
Page 271 F3200/NDU SYSTEM CONFIGURATION PAGE 3 Non-FF Mode Door Open Key Enabled Prev Next Reset Isolate Relay Bell Isol Warn Sys Isol AIF Mode Clear Recall Ancil Isol Zone System Numeric Enter Batt Test Print Test Alarm Test Fault Test Brigade Test...
Page 272 Appendix B F3200/NDU SYSTEM CONFIGURATION PAGE 4 RDU PARAMETERS RZDU protocol Type: LCD RZDU 1 – 8 Enabled Y/N Text No Default Program Smoke Heat Manual Valve Page B-6 Non-LCD Protocol A/B ALARM TEXT NAMES Text No Default SPKLR 5 July 2001 REF:...
Page 273 F3200/NDU SYSTEM CONFIGURATION PAGE 5 Event printing enable/disable Y/N Printer lines per page 0 – 250 Printer baud rate 300 – 9600 Print relay activate/de-activate events Y/N EVENT TYPES LOGGED TO PRINTER AND HISTORY ZONES SYSTEM SYS RUN CIRCUIT POINT...
Page 274: Field Wiring
Appendix B F3200 AZC CONFIGURATION Number of Zone Modules Fitted …………………. AZC PROGRAMMING Page B-8 5 July 2001 REF:... FIELD WIRING Issue 2.7...
Page 275: Zone Programming
F3200/NDU ZONE CONFIGURATION ZONE PROGRAMMING ZONE NO Defaults Issue 2.7 ZONE 5 July 2001 Appendix B REF:... ZONE NAME Page B-9...
Page 276: Function Name
Appendix B F3200/NDU OPEN COLLECTOR OUTPUT FUNCTION & LOGIC EQUATION Page B-10 FUNCTION NAME 5 July 2001 REF:... LOGIC EQUATION Issue 2.7...
Page 277 F3200 RELAY CONFIGURATION PROGRAMMING DEFAULTS Issue 2.7 TEXT NAME (30 CHARACTERS) 5 July 2001 Appendix B REF:... Page B-11...
Page 278 Appendix B F3200/NDU RELAY FUNCTIONS & LOGIC EQUATIONS 8RM NO. RELAY Page B-12 NAME LOGIC EQUATION 5 July 2001 REF:... Issue 2.7...
Page 279 F3200 RELAY FIELD WIRING Number of 8RMs:... 8RM NO. RELAY Issue 2.7 NAME FIELD WIRING 5 July 2001 Appendix B REF:... Page B-13...
Page 280 F3200 Installation & Programming Manual Document No: LT0122 Appendix B F3200/NDU ZONE DISPLAY REF:... BOARD LED CONTROL PAGE... of ... LOGICAL ALARM, RELAY FAULT, LOGIC EQUATION (1-64) ISOLATE (65-256) Page B-14 5 July 2001 Issue 2.7...
Page 281 Document No: LT0122 F3200 Installation & Programming Manual Appendix B F3200/NDU TIMERS, VARIABLES, REF:... NETWORK VARIABLES & ZONE ISOLATE/ DEISOLATE/RESET EQUATIONS TIMER/VARIABLE/ NETVARS/ZONE LOGIC EQUATION CMD/SNA Issue 2.7 5 July 2001 Page B-15...
Page 282 Appendix B F3200/NDU CONFIGURATION SHEETS NETWORK PARAMETERS FILL IN VALUES FOR ALL PARAMETERS THAT ARE BEING CHANGED FROM DEFAULT. NETWORK SETUP LOCAL SID NUMBER TX DELAY LEADING FF LINK TX TIME ACK BROADCASTS Y/N SLOTS MODE: MULTIDROP/POINT TO POINT M/P...
Page 283 F3200/NDU CONFIGURATION NETWORK SID LIST CONFIGURATION LINK EVNT 1-254 Issue 2.7 FFCIF 5 July 2001 Appendix B REF:... STATUS TOTALS SEARCH Page B-17...
Page 284 F3200 Installation & Programming Manual Document No: LT0122 Appendix B THIS PAGE INTENTIONALLY LEFT BLANK Page B-18 5 July 2001 Issue 2.7...