F3200
FIRE INDICATOR PANEL
INSTALLATION & PROGRAMMING MANUAL
F3200 PRODUCT MANUAL
Document Number: LT0122
Issue .......... 2.7;
5 July 2001
-- A P P R O V A L S --
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
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
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.
Document No: LT0122
F3200 Installation & Programming Manual
TABLE OF CONTENTS
End User Liability Disclaimer ................................................................................................... ii
Amendments .......................................................................................................................... vi
SCOPE ....................................................................................................................................1-2
ASSOCIATED DOCUMENTATION........................................................................................1-3
PRODUCT HISTORY LOG.....................................................................................................1-4
GLOSSARY OF ABBREVIATIONS .......................................................................................1-6
GLOSSARY OF TERMINOLOGY ..........................................................................................1-7
OVERVIEW .............................................................................................................................2-2
PHYSICAL STRUCTURE .......................................................................................................2-7
SYSTEM STRUCTURE.........................................................................................................2-10
GENERAL ...............................................................................................................................3-2
MECHANICAL SPECIFICATIONS.........................................................................................3-3
ELECTRICAL SPECIFICATIONS...........................................................................................3-4
INPUT SPECIFICATIONS.......................................................................................................3-8
OUTPUT SPECIFICATIONS.................................................................................................3-14
CONTROLS ..........................................................................................................................3-19
DISPLAYS.............................................................................................................................3-20
ORDERING INFORMATION...................................................................................................4-2
GENERAL ...............................................................................................................................5-2
MODULE CONFIGURATION..................................................................................................5-2
BATTERY & POWER SUPPLY..............................................................................................5-3
LINKS ON PCB MODULES..................................................................................................5-11
6.3
INTRODUCTION.....................................................................................................................6-2
INITIALISING, ACCESSING, DE-ACCESSING, PRINTING, SAVING, LOADING &
VERIFYING THE DATABASE.............................................................................................6-13
SYSTEM CONFIGURATION MENU.......................................................................................7-2
CONFIGURING CIRCUITS (AZCS)........................................................................................7-6
CONFIGURING ZONES........................................................................................................7-11
PROGRAMMING OUTPUTS................................................................................................7-13
RELAY SUPERVISION.........................................................................................................7-33
RDU.......................................................................................................................................7-35
INSTALLATION ......................................................................................................................8-2
FIELD WIRING........................................................................................................................8-8
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F3200 Installation & Programming Manual
Document No: LT0122
AZC WIRING.........................................................................................................................8-10
MAF ANCILLARY RELAY WIRING .....................................................................................8-12
WARNING SYSTEM WIRING...............................................................................................8-15
MODULE RELAY WIRING ...................................................................................................8-20
OPEN COLLECTOR WIRING...............................................................................................8-22
ASE INSTALLATION AND WIRING ....................................................................................8-23
RDU WIRING.........................................................................................................................8-24
SLIMLINE NDU (FP0714) WIRING......................................................................................8-26
INSTALLATION OF 19" NDU (FP0733)..............................................................................8-26
AS1668 AIR CONDITIONING CONTROL..............................................................................9-2
GAS FLOOD ...........................................................................................................................9-9
SUB FIP MONITORING........................................................................................................9-19
USE OF NORMALLY CLOSED CONTACTS.......................................................................9-32
SPECIAL CONNECTIONS TO DETECTORS......................................................................9-33
ALIGNMENT & ADJUSTMENT...........................................................................................10-2
PLACING INTO OPERATION .............................................................................................10-3
INTRODUCTION ..................................................................................................................11-2
PROGRAMMING METHODS ..............................................................................................11-4
NETWORK CONFIGURATION MENU................................................................................11-9
SID CONFIGURATION ......................................................................................................11-12
NETWORK MAF CONFIGURATION.................................................................................11-14
NET COMMANDS..............................................................................................................11-15
NET FFCIF CONFIGURATION..........................................................................................11-16
NETWORK EVENT CONFIGURATION.............................................................................11-18
NETWORK LOGIC VARIABLES.......................................................................................11-20
11.10 NET STATUS REFRESH...................................................................................................11-21
11.11 NDU OPERATION..............................................................................................................11-22
11.12 DEFAULT VALUES FOR PANEL-LINK VARIABLES......................................................11-24
GENERAL ............................................................................................................................12-2
NZ DISPLAY EXTENDER BOARD .....................................................................................12-2
MANUAL CALLPOINT (MCP).............................................................................................12-4
PROGRAMMABLE OPTIONS.............................................................................................12-5
LOGIC TOKENS ..................................................................................................................12-6
SYSTEM STATES & INDICATIONS....................................................................................12-7
NETWORK PARAMETER PROGRAMMING......................................................................12-8
TANDEM LCD MODE..........................................................................................................13-2
APPENDIX A
APPENDIX B
COMPATIBLE ACTUATING DEVICES (DETECTORS)....................... A-1
F3200 CONFIGURATION SHEETS....................................................... B-1
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Issue 2.7
Document No: LT0122
F3200 Installation & Programming Manual
AMENDMENTS
ISSUE
1
DATE
COMMENTS
ECN
20/04/94 Original. Corresponds to V1.10 software, which
includes RZDUs, multiple access codes, revised print
menu, NSW Coder, Programmable Alarm Text, Inst
Alarm Text (not in V1.01)
2
30/01/95 Was WP5.1. Upgraded for small FIP,6A PSU.
Upgraded ordering info, AS1668 Application, Detector
List and added I.S.(9.4). Also some
2162
2360
corrections.
2.1
01/02/96 Auto-Test Disable note added to 6.4.4.
Note 10 (Pg A-5) modified.
Table III updated.
Applications note 9.5 added.
PA0443 added to Ordering Info P4-5.
2.2
2.3
16/04/96 Deleted paragraph headed "C29BEx" in Section
9.4.3.4.
2417
2620
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.
Controller Board was 1931-2-1.
2709
2742
2.4
2.5
09/04/98 Section 1.3.2 add V2.01-V2.04 details.
"Minute" timers 65-72, Section 3.8.
Section 4.1 new part numbers, Figs 6.1.2 and 7.1.1.
Fault Action Text & PC Programming Section 6.4.3.
RDU zone name transmission Section 7.6. Output
logic commands for zone isolate, zone de-isolate, and
zone reset, Section 7.4.9. RDU wiring Section 8.8.
Add AS/NZ 3548 Class A warning.
22/03/99 V2.06 software. Section 1.3 add V2.06. Section 6.4.4
Bells/Ancil Isol key disabling; mains frequency
50/60Hz. Section 11.3.5, 11.11, 11.12 ACK
2937
Broadcast Specific SID. System Configuration Sheets
Page 2 and Network Parameters.
2.6
2.7
14/06/00 Corresponds to V2.07/V2.08 software. Changes
throughout but mainly Sections 5.5, 5.6, 6.3.7, 6.4.4
and Chapters 12 and 13 added.
05/07/01 Corresponds to V2.09 software. New buzzer mode &
sounder silence options in Chapter 6. Sect 7.2.4
change to SAD type. Section 7.4.6 SNA option new.
Section 7.5 Relay supervision. Appendix A Simplex
detectors. Appendix B modified. Section 3.3.5.2 NDU
Quiescent current added. Section 12.8 NZ mode
installation added.
3079
3165
Chapter 8 Installation revised and Section 9.2 Gas
Flood revised. Complete re-print.
3154
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Document No: LT0122
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Page vi
5 July 2001
Issue 2.7
F3200 Installation & Programming Manual
Introduction
Document No: LT0122
1.1
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.
The manual is divided into the following chapters:
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 5
Introduction: Information on this manual.
System Description: A description of the structure of the F3200 FIP.
Specifications: A detailed specification for the F3200 FIP.
Ordering Information: Part numbers for the various system components.
Configuring a FIP: General information and detail on fitting of various links
and resistors when configuring a system.
Chapter 6
Chapter 7
Programming: An introduction to programming and a description of the
programming menus and global parameters.
System Configuration: Detail on specific programmable options in the FIP
I/O.
Chapter 8
Chapter 9
Chapter 10
Installation & Wiring: Detail of installation and field wiring.
Applications: Detail of configuration and wiring for specific applications.
Alignment, Adjustment & Placing Into Operation: Detail on how to adjust an
F3200 in the field and place it into operation.
Chapter 11
Networking: Detail on programmable options for networked F3200s and
NDUs.
Chapter 12
Chapter 13
NZ Operation: Describes operation of the NDU in NZ mode.
Tandem LCD Mode: Describes operation of Tandem LCD mode.
Appendix A 1.
Compatible Detectors: A list of detectors which are approved for use
with F3200.
2.
Detector Configuration: Detail on AZC and zone configuration for
specific detector types.
Appendix B Configuration Forms: A set of master forms for recording programming detail.
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Issue 2.7
Document No: LT0122
F3200 Installation & Programming Manual
Introduction
1.2
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
A guide to the operation and maintenance of the F3200 FIP.
Part Number LT0119 is a loose A4 version.
Part Number LT0120 is a bound A5 version.
F3200 Technical Manual
A technical description of the F3200 system and modules.
Part Number LT0121.
F3200 Installation &
Programming Manual
This manual.
Part Number LT0122.
F3200 Panel-Link Upgrade Upgrade instructions on how to make the F3200 panel
and Installation Manual network capable. Part Number LT0198.
Information on the AS4428.1 approved F3200 is found in the following manuals:
F3200 AS4428.1 Operator’s Manual
For panels that comply with AS4428.1
LT0251 is in A4, loose leaf form.
LT0250 is in A5, bound form.
F3200 AS4428.1 Installation &
Configuration Manual
Provides information for designing, installing
and commissioning an F3200 and NDU. Part
Number LT0255.
F3200 AS4428.1 Programming Manual
Provides information for programming
an F3200 and NDU. Part Number LT0256.
1.2.2
STANDARDS
This manual makes reference to the following Australian and New Zealand Standards:
AS1603.4
Automatic Fire Detection and Alarm Systems
Part 4 - Control and Indicating Equipment.
AS4050 (int)
Fire Detection and Fire Alarm Systems - Fire Fighter's Control
and Indicating Facilities.
AS1668
SAA Mechanical Ventilation and Airconditioning Code.
AS1670.1
Automatic Fire Detection and Alarm Systems - System Design,
Installation and Commissioning.
AS4428.1
NZS4512
Fire Detection, Warning, Control and Intercom Systems -
Control and Indicating Equipment
Part 1 : Fire
Automatic Fire Alarm Systems in Buildings
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F3200 Installation & Programming Manual
Introduction
Document No: LT0122
1.3
PRODUCT HISTORY LOG
1.3.1
HARDWARE
Part No.
Description
Iss
Rev
Date
Drawing
PA0490
Controller/
Display
A
A
A
A
B
B
B
B
C
D
A
A
A
A
C
B
C
1
2
3
1
2
3
4
5
6
9
1
2
1
2
4
3
4
11/11/93
24/02/94
16/06/94
13/10/93
28/02/94
10/06/94
21/02/95
14/05/97
11/11/97
14/05/01
27/09/93
29/04/99
10/09/93
22/09/99
10/04/01
04/02/99
02/05/00
1931-2
PA0491
MAF/PSU
1931-3
PA0492
PA0493
8 ZONE MODULE
8 RELAY MODULE
1931-4
1931-5
PA0773
PA0797
RS485 Comms Bd
F3200
Controller/
Display
1901-139
1931-84-1
PA0804
F3200
B
C
2
4
29/09/97
02/05/00
Used as replace-
ment board for all
F3200/NDU panels
1931-84-1
Networkable
Controller/
Display
1.3.2
SOFTWARE
Part No.
Description
Revision
Date
Comments
SF0089
SF0089
SF0089
F3200 EPROM
F3200 EPROM
F3200 EPROM
V1.00
V1.01
V1.10
12/12/93
24/02/94
13/05/94
Pre-production
1st production
Includes RZDU, multiple
access, etc.
SF0164
SF0175
SF0178
F3200 EPROM
NDU EPROM
F3200 EPROM
V2.00
V2.00
V2.00
Nov. 1997
Nov. 1997
Nov. 1997
Networking
First Release
Non-networking
SF0164
SF0175
SF0178
F3200 EPROM
NDU EPROM
F3200 EPROM
V2.01
V2.01
V2.01
Feb. 1998
Feb. 1998
Feb. 1998
F3200 Networked
Non-Networked
SF0178
SF0164
SF0175
SF0178
F3200 EPROM
F3200 EPROM
NDU EPROM
F3200 EPROM
V2.02
V2.03
V2.03
V2.03
Mar. 1998
April 1998
April 1998
April 1998
Non-Networked
F3200 Networked
Non-Networked
SF0164
SF0175
SF0178
F3200 EPROM
NDU EPROM
F3200 EPROM
V2.04
V2.04
V2.04
August 1998 Networked
August 1998
August 1998 Non-Networked
SF0164
SF0175
SF0178
F3200 Net EPROM V2.05
NDU EPROM V2.05
F3200 Std EPROM V2.05
Feb 1999
Feb 1999
Feb 1999
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F3200 Installation & Programming Manual
Introduction
SOFTWARE HISTORY LOG (CONTINUED)
SF0164
SF0175
SF0178
F3200 Net EPROM
NDU EPROM
F3200 Std EPROM
V2.06
V2.06
V2.06
Mar 1999
Mar 1999
Mar 1999
SF0229
SF0230
SF0231
F3200, Std Panel, c/w Tandem
F3200, Networked, c/w Tandem
NDU, c/w Tandem
V2.07
V2.07
V2.07
May 2000
May 2000
May 2000
SF0229
SF0230
SF0231
F3200, Std Panel, c/w Tandem
F3200, Networked, c/w Tandem
NDU, c/w Tandem
V2.08
V2.08
V2.08
July 2000
July 2000
July 2000
SF0229
SF0230
SF0231
F3200, Std Panel, c/w Tandem
F3200, Networked, c/w Tandem
NDU, c/w Tandem
V2.09
V2.09
V2.09
May 2001
May 2001
May 2001
Issue 2.7
5 July 2001
Page 1-5
F3200 Installation & Programming Manual
Introduction
Document No: LT0122
1.4
GLOSSARY OF ABBREVIATIONS
The following abbreviations are used throughout this manual:
A/C
ac
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
Air Conditioning
Alternating Current
Active End of Line
Ampere Hour
Ancillary Relay 1
Alarm Zone Circuit, or Detection Zone
Alarm Zone Facility, or Group
Alarm Verification Facility, or Check Alarm
Board
Control & Indicating Equipment
Character
Circuit
COMMON relay contact
Direct current
Electrically Erasable Programmable Read Only Memory
Extra Low Voltage
End Of Line (device)
End of Line Resistor
Expansion
Electrically Erasable Programmable Read Only Memory ....
Fire Fighter's Control & Indicating Facility
Fire Indicator Panel
Flat Ribbon Cable
Input/Output
AEOL
AHr
ANC 1
AZC
AZF
AVF
Bd
CIE
Char
CCT
COM
dc
EEPROM
ELV
EOL
EOLR
Expn
E2
FFCIF
FIP
FRC
I/O
LCD
LED
MAF
Max
Min
MCP
MOV
msec
NC
Liquid Crystal Display
Light Emitting Diode
Master Alarm Facility
Maximum
Minimum
Manual Call Point (Break Glass Switch)
Metal Oxide Varistor (Used for Surge Protection)
Millisecond
Normally Closed
Normally Open
Number
Nominal
Personal Computer (small computer)
Printed Circuit Board
Power Supply Unit
Positive Temperature Co-efficient (Thermistor)
Module Relay Number 1 (program abbreviation)
Module Relay Number 1 (text abbreviation)
Return Air Duct (Air Conditioning Plant)
Root Mean Square
NO
No
Nom
PC
PCB
PSU
PTC
R1
RL1
RAD
RMS
Reqd
RTC
RZDU
SAD
SID
Required
Real Time Clock
Remote Zone Display Unit
Supply Air Duct (Air Conditioning Plant)
System Identification Number (Network device)
square millimetre
Programmable Timer Number 1 (program abbreviation)
Terminal
sq mm
T1
Tmnl
V1
Programmable Variable Number 1
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F3200 Installation & Programming Manual
Introduction
GLOSSARY OF ABBREVIATIONS (CONTINUED)
VA
VB
VNB
+VBF
+VNBF
Z1
Zn1
8RM
8ZM
:
:
:
:
:
:
:
:
:
Volts Amperes
Battery Backed Voltage
Non Battery Backed Voltage
Fused Battery-Backed Voltage
Fused Non-Battery-Backed Voltage
Zone Number 1 (program abbreviation)
Zone Number 1 (text abbreviation)
8 Relay Module
8 Zone Module
1.5
GLOSSARY OF TERMINOLOGY
The following terminology is used throughout this manual:
Ancillary Equipment :
Ancillary Relay
Equipment external to Fire Alarm system
Relay in FIP which operates Ancillary equipment
Mode for one person testing of detectors
Output for driving additional LEDs/relays
Bits per second
Output from FIP to other equipment
Pre-programming option or logic equation i.e. one that exists
without the user programming it.
:
Auto-Reset
Auxiliary Output
Baud
:
:
:
:
:
Control Output
Default
Detector
Fire Control Station
the
Mapping
Zone
:
:
Alarm Detection Device (electrical transducer)
Fire Brigade Authority, or any other authority which receives
FIP alarm signals.
Programmable causal relationship between inputs and outputs
Fire searchable area of building represented by a unique
number and name in the FIP, and associated with the AZC of
the same number.
:
:
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Introduction
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F3200 Installation & Programming Manual
System Description
Document No: LT0122
2.1
OVERVIEW
2.1.1
GENERAL
The F3200 is a self-contained, modular, intelligent Fire Indicator Panel (FIP) which performs
the functions of the Control and Indicating Equipment (CIE) as specified by the Australian
Standard AS1603.4 Automatic Fire Detection and Alarm Systems.
It is also available in formats that comply with AS4428.1. Refer to the relevant manuals that
apply to the AS4428.1 approved products.
The F3200 has a high degree of flexibility and expandability, catering for medium to very
large buildings from 8 zones or less, to 64 zones maximum. Refer to the constraints
specified in Section 3.1.3. More panels and zones can be added through the use of the
Vigilant Panel-link Network and the appropriate networkable F3200s.
This manual is also used for the installation of an NDU (Network Display Unit). NDU
operation is described in Section 11.11. An NDU may be programmed to operate in either
Australian mode (default) or New Zealand mode, and the operation of an NDU in New
Zealand mode is described in Chapter 12.
2.1.2
DETECTOR CIRCUITS
The F3200 detector interface electronics caters for a wide range of detectors, including
various types which have high alarm current requirements. It also caters for interfacing to:
Intrinsically safe circuit barriers/isolators (hazardous areas).
Long line circuits e.g. from a sub-indicator FIP.
Tamper-proof circuits e.g. for water valve supervision.
A full range of compatible detectors is listed in the Appendix A.
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.
Common conditions such as zone ALARM, ISOLATED and FAULT, and various system
states such as BELLS ISOLATED are displayed on LEDs adjacent to the LCD.
The display panel composed of the LCD, LEDs and operator keypad meets the requirements
of AS4050 (int) for a Fire Fighter's Control and Indicating Facility (FFCIF).
As an optional extra, individual zone status (ALARM, ISOLATE and FAULT) can be
displayed on LEDs by fitting the appropriate number of 16 Zone LED Display Bds.
The F3200 electronics includes, as standard, an open collector transistor output for each
zone which can be used to drive an internal or remote mimic display.
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F3200 Installation & Programming Manual
System Description
FIG 2.1.1
F3200, STANDARD CABINET - FRONT VIEW
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System Description
Document No: LT0122
FIG 2.1.2
F3200 OPERATOR DISPLAY PANEL
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F3200 Installation & Programming Manual
System Description
FIG 2.1.3
F3200 - SMALL CABINET
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F3200 Installation & Programming Manual
System Description
Document No: LT0122
2.1.4
OUTPUTS
The F3200 MAF/PSU Module provides 7 relays as standard. These are used for signalling
to the Brigade (Fire Control Station) and for switching alarm bells and ancillary equipment
such as door holders, airconditioning shutdown, etc.
When more than 7 relays are required, additional sets of 8 can be added by fitting 8 Relay
Modules.
All outputs, including the open collectors on the 8 Zone Modules, are individually
programmable by a logic equation of zone and FIP status.
2.1.5
POWER SUPPLY
The F3200 has a 3 Amp battery charger/power supply as standard. There is adequate room
for large batteries.
An optional 6 Amp battery charger/power supply is available. This is factory fitted, but is not
available in the small cabinet FIPs.
Fuse protected battery backed and non-battery backed supplies are available to power
external loads such as bells, illuminated signs, interposing relays, gas release solenoids,
door holders, etc.
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.
The F3200 also has a serial port to drive a logging printer, which records all events as they
occur, with time and date. Logging of relay events is programmable. For network systems,
events from other selected devices on the network may be logged into the history and
printed on the local printer, and events generated locally by this system may be printed by
some other device on the network.
2.1.7
NETWORKING
Networking of F3200s allows the sharing of zone, event and alarm information, the ability to
remotely control other F3200s, and, overall, the expansion of an F3200 system beyond 64
zones.
Networking is achieved through a different software version and the fitting of an RS485
Communications board.
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F3200 Installation & Programming Manual
System Description
2.2
PHYSICAL STRUCTURE
The F3200 has a rugged, lockable painted steel cabinet, which houses 19 inch rack-mount
equipment and comes in two height options (both have the same width and depth). The
standard cabinet accommodates 15U total and the small cabinet accommodates 8U (where
1U = 1 3/4" = 44.5mm).
The Operator Display has a screened, polyester overlay mounted on a hinged inner door
fitted to the top 4U position. The Controller/Display pcb mounts directly to the rear of this
door.
Standard Cabinet
In the standard cabinet the space below the 4U Operator Display panel is covered by a
blanking plate, but there is provision for mounting other equipment (e.g. a 7U hinged inner
door for a mimic, or 16 Zone LED Display Bds), in place of this blanking plate.
There is provision for mounting additional equipment in the bottom 4U (e.g. an AS1668
control rack), but this would encroach on battery space.
The outer door has a large acrylic window to allow viewing of the equipment inside.
Four versions of FIP are available in this cabinet. The FP0551, which caters for up to 64
zones, has a cardframe fitted to the rear wall as shown in Fig 2.2.1. The FP0550 has
provision (pcb stand-offs) for mounting up to three 8 way modules (i.e. 3 x 8 Zone or 8 Relay
Modules) on the rear wall. Both are supplied with 1 8 Zone Module fitted.
Versions of these two FIPs are also available with a 6 Amp power supply:
FP0713 (8 module capacity), and FP0712 (3 module capacity).
Small Cabinet
In the small cabinet, only 1U (of the 4U) below the 4U Operator Display is visible through the
outer window. The gap is covered by a blanking plate (2U), which can be replaced by a
bracket for mounting a limited range of equipment, eg. a 1U AIU bracket, or a 1U 1 Zone
Gas Control Panel.
A 6A PSU or a 7U LED Display door cannot be fitted.
Up to four 8 way modules can be mounted on the rear wall, but the bottom two of these
share space with the batteries. Mounting arrangement and maximum capacity are shown in
Fig 2.2.2.
Only one FIP is available (FP0583), and this comes with one 8 Zone Module fitted (in the top
left position).
Issue 2.7
5 July 2001
Page 2-7
F3200 Installation & Programming Manual
System Description
Document No: LT0122
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
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
F3200 Installation & Programming Manual
System Description
Document No: LT0122
2.3
SYSTEM STRUCTURE
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 & memory
serial I/O bus control for all other modules
reference voltage generation for I/O modules
UARTs and serial port electronics
real time clock calendar integrated circuit
FRC connection to other modules.
MAF/PSU
Mounts on cabinet rear wall.
Includes: battery charger/PSU
22V regulator for detector circuits
Brigade & Ancillary relays and supervision circuitry
MCP & door switch inputs
screw terminals (most demountable) for field wiring
FRC connection to other modules.
8 Zone Module
Mounts on cabinet rear or in cardframe.
Includes:
electronics to I/F to 8 Alarm Zone Circuits (AZCs)
8 open collector auxiliary outputs
demountable screw terminals for field wiring
FRC connection to other modules.
8 Relay Module
Mounts on cabinet rear or in cardframe.
Includes:
8 relays and supervision circuitry
demountable screw terminals for field wiring
FRC connection to other modules.
16 Zone LED Display
Mounts on 7U inner door.
Includes:
16 sets of 3 LEDs
electronics to control the LEDs (serial bus)
Page 2-10
5 July 2001
Issue 2.7
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
F3200 Installation & Programming Manual
System Description
Document No: LT0122
2.3.2
INTER-CONNECTION & STRUCTURE
A basic F3200 system has one Controller/Display, one MAF/PSU, and one 8 Zone Module,
all connected by Flat Ribbon Cable (FRC) on a common Input/Output (I/O) Bus.
Additional 8 Zone Modules and/or 8 Relay Modules can be fitted to the I/O bus, with a
maximum of eight 8 way modules. This is shown in the block diagram of Fig 2.3.1.
The physical maximums are:
three 8 way modules in an FP0550 or FP0712.
four 8 way modules in an FP0583 (with restrictions)
eight 8 way modules in an FP0551 or FP0713.
Expansion is from top to bottom.
The I/O Bus Out of one module connects to the I/O Bus In of the next module via the 20 way
FRC provided (LM0053).
No link or "End of Bus" is required on the last module because the data from the furthest
output shift register is fed into the furthest input shift register via the wrap-around resistor as
shown in Fig 2.3.2.
Refer to Section 3.1.3 Specifications for detail on the structural arrangement of AZCs and
relays.
To further extend these capabilities, up to 64 F3200s may be networked together, with full
sharing of information and remote control of each panel by a master panel.
16 Zone LED Display bds are driven from a separate serial bus on the Controller/Display.
They receive power from the MAF/PSU via two power leads. Where more than one is
required they are connected in series (up to 4 maximum) from right to left (as viewed from
the front) on the FIP. The 26 way FRC from J13 of the Controller goes to J1 ("From
Previous") of the right hand Display Bd. Zone 1 (default) corresponds to the top LEDs on
the left hand Display Bd. The last board requires the "end of bus" minijump connector to be
fitted. Note that a special FRC cable is required to connect the Controller Board to the first
Display Board (LM0092).
Where LED Display bds are fitted, the default programming requires one Display bd (16
zones) for every two 8 Zone Modules, i.e. one for 1-16 zones, two for 17-32 zones, etc.
Zone 1 corresponds to the top row of 3 LEDs on the left most Display. Zone 2 to the row
below it, etc, (top to bottom, left to right).
LED Display bds may also annunciate relay status, i.e. Alarm <-> relay energised, Isolated
<-> relay isolated, Fault <-> relay wiring fault (i.e. supervision fault).
The default programming for displaying both zone and relay status requires one Display bd
for every two 8 way modules (zone and relay).
Page 2-12
5 July 2001
Issue 2.7
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. Relay 1 would be annunciated on the 25th row of LEDs and the last 8 rows
would be unused as shown in Fig 2.3.3.
Mapping zones and relays to LEDs in other patterns is programmable.
FIG 2.3.2
SERIAL DATA FLOW IN THE I/O BUS
Issue 2.7
5 July 2001
Page 2-13
F3200 Installation & Programming Manual
System Description
Document No: LT0122
Zone
Module
Relay
Display
1
8
1
........1
1
8
8ZM 1
8
1
9
1
8
1
8
9
8ZM 2
8ZM 3
16
........16
........1
16
17
24
17
24
2
1 1
25
32
8RM 1
8RM 2
8 8....16
1 9....1
8 16....
33
40
3
LAST 8 UNUSED
16
FIG 2.3.3
DISPLAY STRUCTURE
(DEFAULT MAPPING)
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
5 July 2001
Issue 2.7
F3200 Installation & Programming Manual
System Specifications
Document No: LT0122
3.1
GENERAL
3.1.1
FIP PART NUMBER & DESCRIPTION
Refer to Section 4 also.
FP0550, F3200 FIP, NO CARDFRAME, 24 ZONE MAX, 1931-15
Includes:
Full size cabinet (ie. standard cabinet)
Controller/Display with FFCIF LCD & Keypad
MAF/PSU (includes 7 relays, 3A PSU)
1 x 8 Zone Module with standard EOLRs
Modules fit to cabinet rear wall (up to 3 modules max)
FP0551, F3200 FIP, C/W CARDFRAME, 64 ZONE MAX, 1931-16
Includes:
Full size cabinet (ie. standard cabinet)
Controller/Display with FFCIF LCD & Keypad
MAF/PSU (includes 7 relays, 3A PSU)
Cardframe (can house up to 8 modules)
1 x 8 Zone Module fitted in cardframe
includes standard EOLRs
FP0583, F3200 FIP, SMALL CABINET
Includes:
Small cabinet
Controller/Display with FFCIF LCD & Keypad
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 & Keypad
MAF/PSU (includes 7 relays, 6A PSU)
1 x 8 Zone Module with standard EOLRs
Modules fit to cabinet rear wall (up to 3 modules max)
FP0713, F3200 FIP, 64 ZONE MAX, C/W 6 AMP PSU
Includes:
Full size cabinet (ie. standard cabinet)
Controller/Display with FFCIF LCD & Keypad
MAF/PSU (includes 7 relays, 6A PSU)
Cardframe (can house up to 8 modules)
1 x 8 Zone Module fitted in cardframe
includes standard EOLRs
3.1.2
SYSTEM EXPANSION
Expansion to the base panels is by adding 8 way zone input or relay output modules, or by
networking multiple panels together.
FP0553, F3200 8 ZONE INPUT EXPANSION KIT
Includes:
8 Zone Module, FRC, 8 x EOLR (std)
FP0554, F3200 8 RELAY EXPANSION KIT
Includes:
Page 3-2
8 Relay Module, FRC, 8 x Minijump links (for supervision selection)
5 July 2001
Issue 2.7
Document No: LT0122
F3200 Installation & Programming Manual
System Specifications
3.1.3
ENVIRONMENTAL
Operating Temperature
:
-5°C to 45°C (Ambient)
95% maximum @ 40°C (non-condensing)
Relative Humidity
:
3.2
MECHANICAL SPECIFICATIONS
CABINETS
Style
:
Wall mounting
Hinged outer door with large window (hinges to left)
Accepts 19" rack mounting equipment
4U Display on hinged inner door (hinges to right)
Construction :
Welded steel
Material
Size
:
:
1.2mm and 1.6mm mild steel
- Standard
- Small
:
:
750mm (H) x 550mm (W) x 210mm (D) * (Iss B cabinet)
410mm (H) x 550mm (W) x 210mm (D) *
* MCP is an additional 20mm.
Finish
:
:
Powdercoat BFF-998-CW
Cream Wrinkle
(Iron Phosphate pre-treat)
Weight
Unpackaged
20kg
22kg
17kg
22kg
Packaged
22kg
24kg
19kg
24kg
FP0550
FP0551
FP0583
FP0712
FP0713
24kg
26kg
Issue 2.7
5 July 2001
Page 3-3
F3200 Installation & Programming Manual
System Specifications
Document No: LT0122
3.3
ELECTRICAL SPECIFICATIONS
3.3.1
MAINS SUPPLY
Voltage
Current
Frequency
Termination
:
:
:
:
240Vac +6% -10%
0.5A
50Hz
For up to 2.5sq mm TPS
3 Way block with wire protectors
3.3.2
BATTERY CHARGER & PSU
Input Voltage
:
31Vac rms
(Transformer sec)
Charger Voltage
:
:
27.3Vdc (nominal at 20°C)
Temperature
Compensation
-36mV per °C nominal
Non-Battery Backed :
Voltage
28.0 nominal
Max Total Current
:
3Adc for std PSU (Charger, Quiescent & Alarm)
6Adc (for 6A PSU only)
Max Bell Current
:
:
2Adc
2Adc
Max. Ancillary
Current on VBF1
Max. Ancillary
Current on VBF2
:
:
2Adc (allows 3A max LED Display)
2Adc (e.g. for door holders)
Max. Ancillary
Current on VNBF
(VBF <-> battery backed, fused. VNBF <-> non-battery backed, fused)
Current Limit
Standard PSU
6A PSU
Battery to
MAF/PSU
:
:
:
:
PTC, 6A nom, 3.6A min
3.3A nom, 3.0A min
(see notes below)
6.7A nom, 6.0A min
PSU/Charger
Notes
1)
2)
The 6A PSU is factory fitted in the FP0712 and FP0713. It is
not available in the FP0583.
For the 6A PSU, the PTCs on the MAF are shorted out and a
Derwent 10A thermal cutout is wired between the battery +
terminal and the MAF/PSU.
Page 3-4
5 July 2001
Issue 2.7
Document No: LT0122
F3200 Installation & Programming Manual
System Specifications
STATE
MIN
NOM
28.125
26.57
24.33
22.0
MAX
COMMENTS
Charger High
Charger Low
Battery Low
Standby Off
Notes:
28.05
26.40
24.15
21.5
28.20 Adjust with pot
26.75
24.55
22.5 For voltage falling
1. All voltages stated in VDC at temperature of 20°C.
2. Apply temperature compensation of -36 mV/°C for temperature deviation from 20°C.
3. This applies also to charger voltage 27.3 VDC.
4. There are thermal delays, therefore if checking or adjusting in field ensure unit has been
running for some hours.
5. Standby Relay is normally energised (on), and turns off for Battery fail.
TABLE 3.3.2
BATTERY AND CHARGER MONITORING VOLTAGE SPECIFICATIONS
3.3.3
BATTERY
Battery Voltage
Compatible Makes
:
24Vdc nominal (2 x 12Vdc)
Sonnenschein A200 & Sonnenschein A300 series
Powersonic PS12 series
Yuasa NP series
Capacity
:
:
6 to 50 Ahr
(dependent on configuration)
Space (mm)
- Standard Cabinet
Up to 220H, 440W, 175D (Iss B cabinet)
- Small Cabinet
Up to 200H, 185W, 175D (3 modules fitted)
Up to 200H, 370W, 125D (4 modules fitted)
(Refer to Fig 2.2.2)
Battery Test Load
:
46 Ohm nominal. Suitable for 6 Ahr battery (with quiescent
current)
Provision for fitting extra resistors
NOTE:
BATTERY TEST RESISTORS (R52, R53) MUST BE REMOVED FOR NEW
ZEALAND OPERATION.
3.3.4
FUSES
Location
:
MAF/PSU PCB
Number
F1
F2
F3
F4
F5
F7
Name
+VBF1
+VBF2
+VNBF
+VE
Mains In
+VBELLS
Size
Rating
Type
5 x 20mm
5 x 20mm
5 x 20mm
5 x 20mm
5 x 20mm
5 x 20mm
2A
6A
2A
2A
6A
2A
Glass Cartridge, Std
Glass Cartridge, Std
Glass Cartridge, Std
Glass Cartridge, Std
Glass Cartridge, Std
Glass Cartridge, Std
Issue 2.7
5 July 2001
Page 3-5
F3200 Installation & Programming Manual
System Specifications
Document No: LT0122
3.3.5
CURRENT CONSUMPTION
3.3.5.1
F3200 Quiescent & Alarm Currents
At 24Vdc battery supply, nominal currents:
Quiescent
130mA
Alarm (2 Zone)
275mA
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)
4mA
82mA
10mA
97mA
8 Relay Module
- all supervision disabled
- all supervision enabled
Current per relay on
4mA
6mA
11mA
MAF/PSU
- all relays off
9mA
Current per Ancillary Relay
(includes bells)
Current per Brigade Relay
11mA
16mA
11mA
16mA
22V Supply (supplies 8 Zones) max rating
800mA
Controller/Display
- LCD backlight off, status LEDs off
- LCD backlight on, status LEDs off
Current per status LED on
19mA
75mA
3mA
16 Zone LED Display
RS485 network interface board PA0773
0mA
7.5mA
16mA/LED (steady)
Total electronics and detector max rating 2000mA
Notes
1.
FP0550/551/583/712/713 currents include Controller/Display, MAF/PSU and 1 x 8ZM
with all ACZs enabled and with EOLRs (2K7 for mode 1 or 2).
2.
Quiescent current for an enabled AZC is for modes 1 or 2 (standard or high current)
and includes the 2k7 EOL, but not the detector current (up to 4mA detector current
per AZC).
3.
4.
5.
Quiescent current is only 2.5mA per AZC for mode 3 and 1mA for mode 4.
Alarm current is for AZC mode 1, refer AZC specifications for other modes.
The 8 Zone Modules (8ZMs) are supplied from the fused battery supply via the 22V
regulator which has a maximum rating. The 8 Relay Modules (8RMs) are supplied
directly from the fused battery supply.
6.
Quiescent and alarm currents do not include external loads e.g. door holders, bells,
etc.
Page 3-6
5 July 2001
Issue 2.7
Document No: LT0122
F3200 Installation & Programming Manual
System Specifications
3.3.5.2
NDU Quiescent and Alarm Currents
Slimline NDU (FP0714/FP0773/FP07744)
Operating Voltage
Termination
:
:
24Vdc (18-28V)
For up to 2.5sqmm TPS
Quiescent
25mA
Alarm
80mA
Current Consumption :
Full cabinet NDU (FP0715)
Quiescent
70mA
85mA
Alarm
165mA
150mA
Current Consumption (Aust mode)1
Current Consumption (NZ mode)2
1.
2.
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. LCD backlight off in quiescent state.
3.
4.
Refer to Section 3.3.5.1 for additional module currents.
For FP0774 the I-Hub currents must be added.
Issue 2.7
5 July 2001
Page 3-7
F3200 Installation & Programming Manual
System Specifications
Document No: LT0122
3.4
INPUT SPECIFICATIONS
3.4.1
AZC SPECIFICATIONS
General
Terminations
On 8 Zone Module, 2 per AZC.
Demountable screw terminal 1.5sq mm cable max.
Number
8 AZCs per 8 Zone Module.
64 max per system.
End of Lines (EOLs)
Mode
EOL
1 Standard
2 High Current
3 Low Current
4 Tamper
2k7, 5%, 400mW resistor
2k7, 5%, 400mW resistor
10k, 5%, 400mW resistor
EOL002B active EOL
None
5 Disabled
Circuit Resistance & Capacitance
Mode
Capacitance
Resistance
1, 2 & 4
3
500nF
1000nF
50 Ohm max
800 Ohm max for B2 Alarm
2k Ohm max for B3 Alarm
Voltages
Min
Typ
Max
Detector Supply
on MAF/PSU (note 1)
21.2V
22.0V
22.2V
(21.8V)
18.75V
18.0V
at AZC terminals
at end of circuit
20.3V
20.3V
22.1V
22.1V
Alarm Voltage Thresholds
Band B3 upper threshold
17.2V
17.5V
13.1V
17.8V
Band B3 lower threshold
Band B2 upper threshold
12.75V
13.45V
Band B2 lower threshold
Band B1 upper threshold
2.7V
0V
2.9V
0V
3.1V
0V
Band B1 lower threshold
Page 3-8
5 July 2001
Issue 2.7
Document No: LT0122
F3200 Installation & Programming Manual
System Specifications
AZC SPECIFICATIONS (CONTINUED)
Min
Typ
Max
AZC current limit (note 1)
13.5mA
(14.5mA)
15.5mA 16.5mA
EOL & detector quiescent
EOL, no detectors
11.95mA
7.0mA
(7.2mA)
7.8mA
8.2mA
Fault threshold
Detector quiescent
Notes
4.4mA
0mA
5.75mA
6.8mA
4.0mA
1.
The minimum figures shown are for battery voltage greater than the minimum
Standby (Battery Fail) level i.e. 21.5V. The figures shown in brackets are for a
battery voltage greater than 22.5V.
2.
Modes 1 & 2 have the same thresholds before the Alarm state is latched. For Mode
2 additional current is turned on once the Alarm state is latched (refer to Graph
3.4.2).
Min
Typ
Max
Mode 3 Only
Current into short circuit
34.3mA
14.8mA 15.3mA
Current into 800 Ohm (note 3)
Current into 2000 Ohm (note 4)
EOLR Current
14.2mA
8.0mA
8.2mA
2mA
8.4mA
Minimum current for EOLR & 2k circuit
1.64mA
Modes 3 & 4
Fault thresholds
Maximum allowable load or circuit leakage
0.85mA
1.28mA 1.59mA
0.5mA
Notes
3.
4.
I.e. short at end of an 800 Ohm circuit (gives voltage band B2 alarm, ref graph 3.4.1).
I.e. short at end of a 2000 ohm circuit (gives voltage band B3 alarm, ref graph 3.4.1).
MCP Zener Diode
For voltage band B3 operation
BZT03C15 3W, 15V.
Issue 2.7
5 July 2001
Page 3-9
F3200 Installation & Programming Manual
System Specifications
Document No: LT0122
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.
GRAPH 3.4.1
AZC CURRENT LIMIT CHARACTERISTICS (MODES 1 & 2)
ICL = Current Limit
IAV = Current Available to Detectors with EOLR fitted
IAV = ICL - IEOLR
GRAPH 3.4.2
AZC CURRENT VS VOLTAGE : MODE 1 (STANDARD)
Page 3-10
5 July 2001
Issue 2.7
Document No: LT0122
F3200 Installation & Programming Manual
System Specifications
ICL+R = Current sourced through current limit and pull up resistor
IAV = Current available to detectors with EOLR fitted
IAV = ICL+R - IEOLR
GRAPH 3.4.3
AZC CURRENT VS VOLTAGE MODE 2 (HIGH CURRENT)
A short circuit at the end of an 800 Ohm line will give a B2 (Detector Operated) alarm.
A short circuit at the end of a 2k Ohm line will give a B3 (programmable) condition.
GRAPH 3.4.4
ACZ CURRENT VS VOLTAGE MODES 3 & 4 (LOW CURRENT & TAMPER)
Issue 2.7
5 July 2001
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F3200 Installation & Programming Manual
System Specifications
Document No: LT0122
AZC SPECIFICATIONS (CONTINUED)
Timing
Standard Delay
2.3 sec (2.0 - 2.6 sec)
(into Alarm, Fault, Normal)
AZC Reset
5.3 sec (5.0 - 5.6 sec)
AZC Ignore Period 1
(after Reset)
2 sec nom (plus std 2.3 sec delay)
AZC Ignore Period 2
1 sec nom (plus std 2.3 sec delay)
(after Start Up or Programming)
AZC Time Into Alarm
Programmable 0-250 sec
Programmable 0-250 sec
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
One pair screw terminals; 4sq mm max cable
AC Input
31V rms; 3.6A rms; 2.8mm tab terminals
Door Switch
5V, 0.5mA, Unsupervised, 4 Way .1" pcb header, J6
5V, 1mA, 2k7 EOLR, 4 Way .1" pcb header, J6
MCP
Spare Inputs (not fitted)
5V, 0.5mA, Unsupervised, Cabinet internal use only, 4 Way
.1" pcb header, J5
Relay Supervision
Anc 1 Sup/Anc 2 Sup
Modes of Operation
One screw terminal each
1 Door holder (Default for Anc 1)
2 Load (Default for Anc 2)
Relay Off
Door Holder Mode expects Voltage Present
Relay On
No Voltage Present
Open Circuit or Voltage Present
Load mode expects
Resistive to 0V
3.65V Nom
Voltage Threshold
(Door Holder Mode)
Supervision Current
0mA @ +5V, 1mA @ 0V
Load Resistance
(Load Mode)
400 Ohm - 10k Ohm
less than 400 Ohm with series diode at load.
14 Ohm absolute minimum.
Bells Relay
Form
Reverse polarity - requires series diode at each device
Page 3-12
5 July 2001
Issue 2.7
Document No: LT0122
F3200 Installation & Programming Manual
System Specifications
MAF/PSU INPUTS (CONTINUED)
End of Line Resistor
No. of Circuits
Type
1
2
3
3k3, 5%, 250mW resistor
6k8, 5%, 250mW resistor
10k, 5%, 250mW resistor
Supervision Current
Circuit Resistance
0mA @ +5V, 1.5mA @ 0V, +ve to BELLS- terminal
100 Ohm max.
3.4.3
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