ADR-3000
Control Panels
Analog Addressable
Fire Alarm
Control Panel
Technical Manual
TELEFIRE FIRE & GAS DETECTORS LTD
PO Box 7036
Petach Tikva 49250
Israel
Tel:
972 3 970 0400
Fax:
972 3 921 1816
eMail:
info@telefire.co.il
Web:
www.telefire.co.il
ADRADR-3000En
3000En122
En122.pdf
122.pdf
Revision 1.22
March 2013
i
Note
The terms “Trouble” as used in NFPA 72 guideline and UL standards and
“Fault” as used in EN 54 standards are used interchangeably throughout this
manual.
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Table of Contents
1
SYSTEM INTRODUCTION ............................................................................ 1
2
ADR-3000 FIRE ALARM CONTROL PANEL ................................................ 2
3
2.1
ADR-3001 MAIN BOARD ................................................................................ 3
2.2
ADR-3002 AND ADR-3002C LINE CARDS ....................................................... 4
2.3
ADR-3003 DISPLAY AND KEYBOARD MODULE ................................................. 5
2.4
ADR-4004TSW SWITCHING POWER SUPPLY .................................................. 5
2.5
LON-3000/7000 NETWORK COMMUNICATION MODULE .................................... 6
2.6
NET-3000 INTERNET ENABLED MONITORING AND NOTIFICATION MODULE ........ 6
2.7
GIM-232 GALVANIC ISOLATION MODULE FOR RS-232 INTERFACE .................... 7
2.8
RM-4005 REMOTE PANEL AND ANNUNCIATOR ................................................. 8
INITIATING DEVICES, NOTIFICATION APPLIANCES, AND
ACCESSORIES ............................................................................................. 9
3.1
TFO-480A ANALOG ADDRESSABLE PHOTOELECTRIC SMOKE DETECTOR .......... 9
3.2
TFO-440A ANALOG ADDRESSABLE PHOTOELECTRIC SMOKE DETECTOR ........ 10
3.3
TPH-482A ANALOG ADDRESSABLE MULTISENSOR PHOTOELECTRIC SMOKE /
HEAT DETECTOR.......................................................................................... 10
3.4
TPH-442A ANALOG ADDRESSABLE MULTISENSOR PHOTOELECTRIC SMOKE /
HEAT DETECTOR.......................................................................................... 11
3.5
TFH-280A ANALOG ADDRESSABLE HEAT DETECTOR ..................................... 11
3.6
TFH-220A ANALOG ADDRESSABLE HEAT DETECTOR ..................................... 12
3.7
TFB-180 COMMON BASE FOR ANALOG ADDRESSABLE DETECTORS ................ 12
3.8
TFB-110A COMMON BASE FOR ANALOG ADDRESSABLE DETECTORS ............. 12
3.9
TFL-1AN AUXILIARY INDICATOR FOR ANALOG DETECTORS ............................ 13
3.10
TPB-800ASR MANUAL FIRE ALARM CALL POINT AND TPB-800ASY MANUAL
EXTINGUISHING CALL POINT ......................................................................... 13
3.11
ADR-805 FLOW SWITCH INTERFACE MODULE ............................................... 13
3.12
ADR-812 TWO-CHANNEL INPUT MODULE ...................................................... 14
3.13
ADR-818 EIGHT-CHANNEL INPUT MODULE.................................................... 15
3.14
ADR-828 EIGHT-CHANNEL OUTPUT MODULE ................................................ 15
3.15
ADR-823 THREE-CHANNEL INPUT/OUTPUT MODULE ..................................... 16
3.16
ADR-833 EXTINGUISHING CONTROL UNIT ..................................................... 17
3.17
LI-3000 LINE ISOLATION MODULE FOR CLASS A/B ......................................... 18
3.18
TIP-224A ANALOG ADDRESSABLE INDOOR ALARM NOTIFICATION SOUNDER ... 19
3.19
TPS-34A ANALOG ADDRESSABLE AUXILIARY POWER SUPPLY ........................ 19
— I
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
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5
6
7
8
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3.20
EPI-3000 ELECTROMAGNETIC AND SURGE PROTECTION INTERFACE MODULE. 20
3.21
TFP-3000 FIREMAN PHONE ......................................................................... 20
SOFTWARE AND TOOLS ........................................................................... 22
4.1
TCS-3040 PROGRAMMING AND CONTROL SOFTWARE FOR THE ADR-3000..... 22
4.2
MCS-3000 CENTRALIZED FIRE ALARM SYSTEMS MONITORING SOFTWARE ..... 22
4.3
PROG-4000 ANALOG ADDRESSABLE DETECTOR AND ACCESSORY
PROGRAMMER ............................................................................................. 22
INSTALLATION ........................................................................................... 23
5.1
CAPACITY PLANNING .................................................................................... 23
5.2
POWER REQUIREMENT CALCULATION ........................................................... 23
5.3
LAYING W IRING ............................................................................................ 23
5.4
INSTALLING DETECTORS, I/O MODULES AND OTHER EQUIPMENT .................... 24
5.5
CABINET MOUNTING ..................................................................................... 24
5.6
CONNECT AC / SLC LOOPS, 24V OUT, ALARM / TROUBLE / DIALER / HORN ..... 25
5.7
PERFORM AUTO PROGRAM........................................................................... 25
5.8
ENTER DESCRIPTIONS .................................................................................. 26
5.9
PROGRAM ACTIVATION MATRICES ................................................................. 26
5.10
COPY .ANL TO ADR-3000 ........................................................................... 26
5.11
WALK TEST ................................................................................................. 26
5.12
TEST ACTIVATIONS ....................................................................................... 26
5.13
CHANGE PASSWORDS .................................................................................. 26
5.14
TERMINAL SPECIFICATION............................................................................. 27
5.15
WIRING ....................................................................................................... 30
5.16
DOCUMENTATION ......................................................................................... 32
SYSTEM DISPLAY AND KEYBOARD ........................................................ 33
6.1
ALPHANUMERIC DISPLAY .............................................................................. 34
6.2
INDICATING LEDS ........................................................................................ 34
6.3
OPERATOR KEYS ......................................................................................... 35
6.4
NUMERIC AND ARROW KEYS ......................................................................... 35
6.5
PROGRAMMING KEYS ................................................................................... 36
SYSTEM SCREENS..................................................................................... 37
7.1
NORMAL OPERATION SCREEN ...................................................................... 37
7.2
MAIN MENU SCREEN .................................................................................... 37
SYSTEM PROGRAMMING .......................................................................... 38
8.1
SYSTEM PROGRAM MENU............................................................................. 38
8.2
DEVICE PROGRAMMING ................................................................................ 39
— II
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
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Revision 1.22 March 2013
8.3
CONDITIONAL ACTIVATION OF OUTPUT DEVICES (ACTIVATION MATRIX) ........... 40
8.4
EDITING DEVICE DESCRIPTION ...................................................................... 45
8.5
STORING DATA IN MEMORY .......................................................................... 45
8.6
TIME PROGRAMMING .................................................................................... 46
8.7
SYSTEM CONFIGURATION ............................................................................. 46
8.8
DAY / NIGHT PROGRAMMING ........................................................................ 47
8.9
CHANGE PASSWORD .................................................................................... 47
8.10
DETECTORS INIT .......................................................................................... 48
8.11
DIAGNOSTICS .............................................................................................. 48
OPERATION AND MAINTENANCE ............................................................ 50
9.1
ON/OFF DEVICE.......................................................................................... 50
9.2
MONITOR TEST ............................................................................................ 51
9.3
PRINTER REPORTS....................................................................................... 51
9.4
DISPLAY REPORTS ....................................................................................... 52
9.5
UTILITIES ..................................................................................................... 53
9.6
WALK TEST ................................................................................................. 54
10 ALARM, TROUBLE, AND SUPERVISORY CONDITIONS ......................... 56
10.1
ALARM EVENTS ............................................................................................ 56
10.2
TROUBLE EVENTS ........................................................................................ 58
10.3
SUPERVISORY EVENTS ................................................................................. 59
11 PEER TO PEER NETWORK........................................................................ 61
11.1
NETWORK CHARACTERISTICS ....................................................................... 61
11.2
NETWORK CONFIGURATION .......................................................................... 61
11.3
NETWORK HIERARCHY ................................................................................. 62
12 SYSTEM FUSES .......................................................................................... 65
12.1
POWER SUPPLY FUSES ................................................................................ 65
12.2
MAIN BOARD FUSES ..................................................................................... 65
12.3
LINE CARD FUSES ........................................................................................ 66
13 PERIODIC TESTING .................................................................................... 67
13.1
WEEKLY INSPECTION – PERFORMED BY THE SITE'S SAFETY SUPERVISOR........ 67
14 WARNINGS AND LIMITATIONS ................................................................. 68
15 TROUBLESHOOTING ................................................................................. 69
15.1
SYSTEM FAILURE ......................................................................................... 69
15.2
REMOTE ANNUNCIATOR PANEL (RM-4005) FAILURE ...................................... 71
15.3
ADDRESSABLE DEVICES FAILURE .................................................................. 71
— III
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
15.4
PROGRAMMING TROUBLE ............................................................................. 71
15.5
LONW ORKS TROUBLE .................................................................................. 72
16 DETECTOR SENSITIVITY SELECTION...................................................... 73
16.1
SMOKE DETECTOR SENSITIVITY SELECTION TABLE ........................................ 73
16.2
HEAT DETECTOR SENSITIVITY TABLE ............................................................ 73
16.3
MULTISENSOR PHOTOELECTRIC / HEAT DETECTOR SETTING .......................... 73
17 POWER SUPPLY AND BATTERY CALCULATIONS ................................. 74
18 WIRE CHARACTERISTICS AND LENGTH LIMITATIONS ......................... 77
18.1
WIRE CHARACTERISTICS’ INFLUENCE ON SYSTEM PERFORMANCE .................. 77
18.2
SLC LOOP W IRE .......................................................................................... 77
18.3
NAC (NOTIFICATION APPLIANCE CIRCUIT) ..................................................... 78
18.4
24VDC OUTPUT ........................................................................................... 78
18.5
LON-3000/7000 NETWORK W IRING – COPPER CABLES ................................. 78
18.6
LON-3000/7000 NETWORK W IRING – FIBER-OPTICS CABLES ........................ 78
18.7
RM-4005 CABLING ...................................................................................... 78
19 COMPATIBILITY .......................................................................................... 79
19.1
INPUT DEVICES ............................................................................................ 79
19.2
OUTPUT DEVICES......................................................................................... 79
19.3
OTHER DEVICES .......................................................................................... 79
20 WARNINGS AND LIMITATIONS ................................................................. 80
21 STANDARDS COMPLIANCE ...................................................................... 81
21.1
EN 54 – OPTIONS WITH REQUIREMENTS ....................................................... 81
21.2
CP-10 ......................................................................................................... 81
22 SPECIFICATION .......................................................................................... 82
23 CERTIFICATION .......................................................................................... 83
— IV
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
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Revision 1.22 March 2013
System Introduction
The ADR-3000 intelligent fire alarm control panel monitors various analog addressable
initiating devices such as ionization and photoelectric smoke detectors, heat detectors,
flow switches and manual fire alarm call points.
The ADR-3000 intelligent fire alarm control panel controls notification devices such as
alarm bells, horns, strobe lights, annunciators, and automatic dialers as well as
automatic extinguishers.
Non-addressable initiating devices can be connected to the system via analog
addressable input modules. Non-addressable output devices can be connected to the
general outputs or via analog addressable output modules.
The ADR-3000 provides individual control and supervision of each analog addressable
device. Sensitivity adjustment, pre-alarm, maintenance and malfunction levels can be
set for each device independently.
Advanced conditional activation for each output device can be preformed from a single
control panel or a multi-unit network.
Unlike conventional systems, the ADR-3000 enables processing of analog signals
received from detectors, compensation of environment changes and drifts caused by
dust accumulation, while the alarm threshold setting values remains unaffected.
The system configuration allows considerable flexibility to in planning and installation,
starting as small as a single control panel with one SLC loop (127 addresses), and
enhanced by connecting two or more (as many as 32) control panels located in one or
several buildings in a peer-to-peer network, thus expanding the ADR-3000’s capacity
beyond 508 addresses and up to as many as 16,256 addresses. Each control panel on
the network can respond to alarm and trouble events that occurred in other control
panels.
Figure 1
Typical ADR-3000 fire alarm system
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
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ADR-3000 Fire Alarm Control Panel
The ADR-3000 control panel provides user-friendly operation. The keyboard and the
display that are mounted on the front panel contain an illuminated alphanumeric LCD,
LED indicators for major events, and functional keys. Access to all operations is
secured by multi-level passwords.
The interior section of the cabinet is secured by a key-lock. It contains a power supply,
the main board, line card(s), battery compartment space, and optional communication
modules.
The ADR-3000’s main board can contain one or two line cards, enabling control of as
many as 508 addressable initiating devices, notification appliances and I/O modules.
The ADR-3002 Single Loop Card controls as many as 127 addressable devices in a twowire Class B or Class A SLC loop.
The ADR-3002C Dual Loop Card controls as many as 254 Addressable devices in two
two-wire Class B or Class A SLC loops.
The system can be expanded beyond 508 addresses by networking. An optional
LON-3000/7000 network communication module allows the connection of as many as 32
control panels to set up a peer-to-peer network. With appropriate programming each
control panel on the network is able to respond to alarm and trouble events that occurred
in other control panels.
The control panel has an integral real time clock and calendar that enables day and
night sensitivity setting for each analog detector according to weekly operation schedule
and working hours. Daytime and nighttime hours can be programmed independently for
each day of the week.
Events such as alarm, trouble, silencing, reset, programming, etc., are stored in the
ADR-3000’s memory in the order in which they occur, creating event-list history. An
event record contains date, time, device type, and additional details. Event records can
be displayed on screen and printed as a report.
All operations and configuration can be performed either from the system’s front panel or
from a PC. Telefire’s user-friendly proprietary programming and control software
(running on Windows XP or Windows 98™ operating system) allows operators/installers
to easily configure any system parameter using its advanced graphical interface.
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Figure 2
2.1
Revision 1.22 March 2013
Internal module location in the ADR-3000 cabinet
ADR-3001 Main Board
The ADR-3001 main board is designed for ease of maintainability. Connectors are
located in logical groups; power input from the power supply and easily accessible fuses
are on the left side of the ADR-3001 board. Alarm, Trouble, SLC loops and 24Vdc
output for each loop card, horn and dialer are on the bottom. Connections to the
keyboard and display board; LON-3000/7000 networking module; an RS-232 port for
NET-3000, PC, printer, or the GIM-232 galvanic isolation modules; and a connector for
RM-4005 remote panels are located on the right.
Figure 3
2.1.1
ADR-3001 Main board
Low-Voltage Connections
The ADR-3000 can interface and activate various output devices that are connected to
the addressable loop or directly to the control panel’s general outputs as follows:
Alarm outputs
Two sets of dry contacts and a programmable level activated
supervised output.
Trouble outputs Dry contacts and a level activated supervised output.
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
General outputs Supervised reverse polarity horn output; supervised level activated
dialer output and two 24Vdc outputs for remote devices.
COM-1 (RS-232) Connection to computer, serial printer, GIM-232 module or the
NET-3000 Internet Enabled Monitoring and Notification Module.
COM-2 (RS-485) Connection to as many as 16 RM-4005 remote panels.
LON-COM Connection to the LON-3000/7000 Network Communication Module. The
LON-3000/7000 provides control panel peer-to-peer or Master – slave internetworking.
SLC Signaling Line Circuit – for connection of analog addressable initiating devices, I/O
modules, and notification appliances. One to four SLC loops can be connected to the
ADR-3000. Each loop can address as many as 127 devices.
2.2
ADR-3002 and ADR-3002C Line Cards
The ADR-3002 and ADR-3002C line cards are mounted on the ADR-3001 main board.
System configuration and capacity requirements will determine the appropriate card
type.
The card controls the bi-directional communication between the control panel and the
analog addressable devices on the SLC loop.
The loop is electronically protected against shorts, and will be automatically
disconnected if a short is sensed. Each line card contains a loop fuse as a secondary
protection.
Two LEDs for each loop indicate loop condition and serve installers and technicians:
• The red LED flashes each time a device is addressed
• The yellow LED flashes when a fault is detected, even after a momentary
interference that would not activate a trouble condition
2.2.1
Maximum Addressing Capacity
As each SLC loop can address as many as 127 devices, the maximum addressing
capacity of a single ADR-3000 is 508 addresses.
The following table shows the maximum configurable addressing capacity with all
possible combinations of ADR-3002 and ADR-3002C line cards in the ADR-3000.
Left
Right
Loops
Addresses
ADR-3002
–
1
127
ADR-3002
ADR-3002
2
254
3
381
4
508
ADR-3002C
ADR-3002
–
ADR-3002C
ADR-3002C
ADR-3002
ADR-3002C
ADR-3002C
Table 1
Line card combinations
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Figure 4
Line cards
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
2.3
Revision 1.22 March 2013
ADR-3003 Display and Keyboard Module
The ADR-3003 Display and Keyboard Module include system indicators, display and
keyboard. System indicators and keyboard conform to both EN 54 and UL 864
standards.
The alphanumeric display is a 4 row by 40 characters backlit Liquid Crystal Display
(LCD).
Figure 5
2.4
ADR-3003 Keyboard and display
ADR-4004TSW Switching Power Supply
The ADR-4004TSW is a standard switching power supply that is common to the
ADR-3000 and the TPS-34A.
The ADR-3000 should be connected to a separate dedicated 230Vac fire alarm circuit,
labeled “FIRE ALARM”. The primary power circuit must be connected to the line side of
the main power feed of the protected premises. No other appliance may be connected
to the “FIRE ALARM” circuit. The power cables must run directly, without disconnecting
devices, from the power source to the control panel. Wires, circuit breaker or any overcurrent protection device should comply with local electrical wiring codes.
The power cable should enter the control panel through either the top left or bottom left
knockout hole. Use a plastic bushing that fits the opening.
Connect the Live and Neutral wires to the proper terminal. Connect the ground wire to
the ground terminal.
Figure 6
ADR-4004TSW Power supply module
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
2.5
Revision 1.22 March 2013
LON-3000/7000 Network Communication Module
The LON-3000/7000 is a communication module that enables connection between
control panels to establish a network. A two-wire copper cable connection is required to
interconnect between the control panels. Optionally fiber-optic connection is made
possible with additional modules. The length of the wires depends on the connection
topology and media type (copper or fiber optic). Please refer to the LON-3000/7000
technical manual for further details.
Figure 7
2.5.1
LON-3000/7000 Networking communication module
Topology
An ADR-3000 LonWorks network can connect from 2 and up to as many as 32
ADR-3000 control panels in a peer-to-peer or Master – slave network. The physical
topology of the network may be bus (figure 8), ring (figure 9) or free (figure 10) topology.
Logical hierarchy may be peer-to-peer – where all messages are reported in all control
panels, master/slave – where slave messages are reported on master control panels, or
a combination of the two.
Ring topology requires LR-01 or LRW-102 Fiber Optic Repeaters.
Please refer to the LON-3000/7000 technical manual for further details.
2.6
NET-3000 Internet Enabled Monitoring and Notification Module
The ADR-3000’s internet-enabled features allow it to provide fire alarm control panel
monitoring over LAN, WAN, or Internet using a standard web browser or Telefire’s
proprietary TCS-3040 software, and distribute alarm and trouble events via a built-in web
server, e-mail notification and SMS paging.
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Figure 8
2.7
Revision 1.22 March 2013
Remote control by TCP/IP NET-3000 module
GIM-232 Galvanic Isolation Module for RS-232 Interface
The GIM-232 Galvanic Isolation Module for RS-232 interface allows the connection of
grounded serial devices such as a PC or a serial printer to the ADR-3000 to be free of
ground fault disturbance. When connecting a PC or a printer to the control panel, place
the GIM-232 in the lower part of the internal mounting plate (see figure 2).
Usually laptop computers are not grounded; therefore do not require the galvanic
isolation module.
Both jumpers should be in the lower position (PC) when connecting a PC to the control
panel’s RS-232 port. Both jumpers should be in the upper position (PRINTER) when
connecting a printer to the control panel’s RS-232 port.
Both the GIM-232 jumpers and the ADR-3000’s COM-1 port should be configured
similarly. Please refer to “System Configuration” on page 11 for further details.
Figure 9
GIM-232 Module
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Figure 10 GIM-232 Connection
2.8
RM-4005 Remote Panel and Annunciator
The RM-4005 Remote Panel and Annunciator enables control and supervision of the
ADR-3000 fire alarm control panel from remote locations and key positions such as
security officer, premises manager, or maintenance office.
The RM-4005 remote panel consists of an LCD display, keyboard, internal buzzer, and
features such as alarm output, trouble output, and an interface relay that reduces the
need for additional input/output interface modules.
The remote panels are connected to the main control panel via a twisted wire pair
(RS-485). As many as 16 remote panels can be connected to the control panel using
the same cable. Each remote panel should be configured with a unique address in the
range of 1 to 16. The communication and input/output circuits are fully supervised.
In large systems incorporating several control panels connected via a peer-to-peer
network as many as 16 remote panels can be connected to each of the control panels.
The RM-4005 operates with a 24Vdc power source that can be supplied from the main
control panel or an auxiliary power supply such as Telefire’s TPS-34A Analog
Addressable Auxiliary Power Supply.
Please refer to the RM-4005 technical manual for further details.
Figure 11 RM-4005 Event flow
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
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Revision 1.22 March 2013
Initiating Devices, Notification Appliances, and
Accessories
All Telefire’s analog addressable detectors can be connected to the system using a twowire connection.
Each initiating device contains its own addressing circuit. The address is stored in the
detector’s memory and can be programmed or verified by using the PROG-4000
programmer.
Each detector is equipped with an indicating LED that has 360° visibility. This LED
flashes during normal operation and latches on during alarm. Each detector has an
output for an external indicating lamp. The sensitivity of any detector in the system may
be individually configured in two alarm settings (day- and night-sensitivity), and a prealarm setting.
Contamination is a by-product of normal operation and may be caused by various
sources, most of which are impossible to eliminate. Accumulation of dust and dirt over
time may affect a detector’s performance. The system continuously compensates for
these contamination effects using a drift compensation algorithm up to the point in which
the sensor requires cleaning. The control panel will indicate that maintenance is
required by issuing a maintenance alarm message.
Telefire's ADR-3000 Analog Addressable Fire Alarm Control Panel is easily expandable
with a variety of analog addressable I/O modules. These modules allow the interfacing
of non-addressable devices such as conventional detectors, horns, relays, extinguishers,
etc., in order to take advantage of the ADR-3000’s flexibility and advanced capabilities.
All the ADR-81X and ADR-82X I/O modules are connected to the SLC analog line. They
are powered from an external 24Vdc power source that can be supplied either from the
main control panel or an auxiliary power supply such as Telefire’s TPS-34A Analog
Addressable Auxiliary Power Supply. The ADR-805 connects to the SLC loop and does
not require 24Vdc input.
3.1
TFO-480A Analog Addressable Photoelectric Smoke Detector
Telefire’s TFO-480A is an advanced analog addressable photoelectric smoke detector
that offers the following advantages:
• It is considered “green” (environment friendly), as it does not contain radioactive
materials.
• The TFO-480A contains a powerful microprocessor that performs initial signal
processing locally. The final processing and decision making is performed by the
control panel.
• The TFO-480A's microprocessor offers a high level of noise immunity and performs
drift compensation in order to overcome environmental changes and dust
accumulation in the chamber. Once the detector is no longer able to compensate
the control panel will display a trouble signal requesting cleaning. The
microprocessor also performs signal processing, enables accurate control of the
photoelectric chamber according to parameters set at the control panel, and
manages the communication process with the control panel.
• The TFO-480A detector excels in sensing smoldering smoke and smoke from
burning of various materials.
The detector consists of a vented chamber (labyrinth), an infrared transmitter and a
receiver that detects light scattering from the smoke particles in the chamber.
The detector’s sensitivity can be adjusted from the control panel within the range of 0.8%
– 2.0%/foot (obscuration) in 0.2% increments.
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
The detector contains an alarm LED that has 360° visibility. This LED flashes during
normal operation and is latched on during an alarm.
The TFO-480A is designed to protect indoor fire risk areas, except environments where
smoke, steam, dust, or corrosive gasses are present under normal conditions.
Optical smoke detectors should be used for detecting smoldering fires in corridors and
along escape routes, wood- or paper stores, electric cabinets, etc., They should not be
used in steamy, dusty, or smoky areas such as kitchens, bathrooms, saunas, laundries,
etc.
Please refer to the TFO-480A technical manual for further details.
3.2
TFO-440A Analog Addressable Photoelectric Smoke Detector
Telefire’s TFO-440A is an advanced analog addressable photoelectric smoke detector
that offers the following advantages:
• It is considered “green” (environment friendly), as it does not contain radioactive
materials.
• The TFO-440A contains a powerful microprocessor that performs initial signal
processing locally. The final processing and decision making is performed by the
control panel.
• The TFO-440A's microprocessor offers a high level of noise immunity and performs
drift compensation in order to overcome environmental changes and dust
accumulation in the chamber. Once the detector is no longer able to compensate
the control panel will display a trouble signal requesting cleaning. The
microprocessor also performs signal processing, enables accurate control of the
photoelectric chamber according to parameters set at the control panel, and
manages the communication process with the control panel.
• The TFO-440A detector excels in sensing smoldering smoke and smoke from
burning of various materials.
The detector consists of a vented chamber (labyrinth), an infrared transmitter and a
receiver that detects light scattering from the smoke particles in the chamber.
The detector’s sensitivity can be adjusted from the control panel within the range of 0.8%
– 2.0%/foot (obscuration) in 0.2% increments.
The detector contains an alarm LED that has 360° visibility. This LED flashes during
normal operation and is latched on during an alarm.
The TFO-440A is designed to protect indoor fire risk areas, except environments where
smoke, steam, dust, or corrosive gasses are present under normal conditions.
Optical smoke detectors should be used for detecting smoldering fires in corridors and
along escape routes, wood- or paper stores, electric cabinets, etc., They should not be
used in steamy, dusty, or smoky areas such as kitchens, bathrooms, saunas, laundries,
etc.
Please refer to the TFO-440A technical manual for further details.
3.3
TPH-482A Analog Addressable Multisensor Photoelectric
Smoke / Heat Detector.
Telefire's TPH-482A is a microprocessor-controlled multisensor detector that combines
photoelectric and heat sensors for enhanced fire detection capabilities.
The detector consists of a photoelectric sensing mechanism that contains a vented
chamber (labyrinth), an infrared transmitter and a receiver that detects light scattered
from the smoke particles in the chamber, and a thermal sensor that measures the
ambient temperature. The detector uses a smart algorithm to analyze the physical
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
parameters (smoke and heat), evaluate their values and trends, and dynamically modify
its sensitivity. This process reduces occurrences of false alarms without reducing
sensitivity to real fire.
The TPH-482A offers the following advantages:
• The TPH-482A's powerful microprocessor performs signal processing and enables
precise control of the photoelectric chamber. The microprocessor offers a high level
of noise immunity. The microprocessor also performs signal processing, enables
accurate control of the photoelectric chamber according to pre-set parameters, and
manages the communication process with the control panel.
• The TPH-482A detector excels in sensing smoldering smoke and differentiating
between fires and false alarms due to other events that produce heat or smoke,
such as cooking.
• It is considered “green” (environment friendly), as it does not contain radioactive
materials.
Please refer to the TPH-482A technical manual for further details.
3.4
TPH-442A Analog Addressable Multisensor Photoelectric
Smoke / Heat Detector.
Telefire's TPH-442A is a microprocessor-controlled multisensor detector that combines
photoelectric and heat sensors for enhanced fire detection capabilities.
The detector consists of a photoelectric sensing mechanism that contains a vented
chamber (labyrinth), an infrared transmitter and a receiver that detects light scattered
from the smoke particles in the chamber, and a thermal sensor that measures the
ambient temperature. The detector uses a smart algorithm to analyze the physical
parameters (smoke and heat), evaluate their values and trends, and dynamically modify
its sensitivity. This process reduces occurrences of false alarms without reducing
sensitivity to real fire.
The TPH-442A offers the following advantages:
• The TPH-442A's powerful microprocessor performs signal processing and enables
precise control of the photoelectric chamber. The microprocessor offers a high level
of noise immunity. The microprocessor also performs signal processing, enables
accurate control of the photoelectric chamber according to pre-set parameters, and
manages the communication process with the control panel.
• The TPH-442A detector excels in sensing smoldering smoke and differentiating
between fires and false alarms due to other events that produce heat or smoke,
such as cooking.
• It is considered “green” (environment friendly), as it does not contain radioactive
materials.
Please refer to the TPH-442A technical manual for further details.
3.5
TFH-280A Analog Addressable Heat Detector
Telefire’s TFH-280A is an advanced analog addressable heat detector that combines
two modes of operation – fixed temperature and rate of temperature rise. The detector
contains a powerful microprocessor enabling accurate control of the heat sensing
element, signal processing and two-way communication between the detector and the
control panel.
The TFH-280A heat detector can operate in either of two modes that can be configured
at the control panel:
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Fixed temperature mode – the alarm point is selected between 50°C – 90°C in 1°C
increments (122°F to 194°F in 1.8°F increments).
• Combined mode – rate of temperature rise and fixed heat detection. In this mode
the alarm threshold for the rate of temperature rise can be set between 7°C / minute
and 13°C / minute (12.6°F / minute and 23.4°F / minute) and the fixed temperature
threshold is 60°C (140°F).
The ambient temperature, mode of operations, and alarm points can be observed at the
control panel using the Monitor Test menu.
Please refer to the TFH-280A technical manual for further details.
•
3.6
TFH-220A Analog Addressable Heat Detector
Telefire’s TFH-220A is an advanced analog addressable heat detector that combines
two modes of operation – fixed temperature and rate of temperature rise. The detector
contains a powerful microprocessor enabling accurate control of the heat sensing
element, signal processing and two-way communication between the detector and the
control panel.
The TFH-220A heat detector can operate in either of two modes that can be configured
at the control panel:
• Fixed temperature mode – the alarm point is selected between 50°C – 90°C in 1°C
increments (122°F to 194°F in 1.8°F increments).
• Combined mode – rate of temperature rise and fixed heat detection. In this mode
the alarm threshold for the rate of temperature rise can be set between 7°C / minute
and 13°C / minute (12.6°F / minute and 23.4°F / minute) and the fixed temperature
threshold is 60°C (140°F).
The ambient temperature, mode of operations, and alarm points can be observed at the
control panel using the Monitor Test menu.
Please refer to the TFH-220A technical manual for further details.
3.7
TFB-180 Common Base for Analog Addressable Detectors
The TFB-180 is a standard common base that enables connection between Telefire’s
plug-in analog addressable detectors and a Telefire's analog addressable control panels.
The base is compatible with a following of Telefire's analog addressable detectors:
a. TFO-480A
b. TPH-482A
c. TFH-280A
Please refer to the respective detector’s technical manual for a more detailed description
This base is intended for indoor installation in false or regular ceilings. Signaling Line
Circuit (SLC) loop wires and the optional TFL-1AN Auxiliary Signaling Indicator
connections may be connected either vertically or horizontally.
Please refer to the TFB-180 technical manual for further details.
3.8
TFB-110A Common Base for Analog Addressable Detectors
The TFB-110A is a standard common base that enables connection between Telefire’s
plug-in analog addressable detectors and a Telefire's analog addressable control panels.
The base is compatible with a following of Telefire's analog addressable detectors:
a. TFO-440A
b. TPH-442A
c. TFH-220A
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Please refer to the respective detector’s technical manual for a more detailed description
This base is intended for indoor installation in false or regular ceilings. Signaling Line
Circuit (SLC) loop wires and the optional TFL-1AN Auxiliary Signaling Indicator
connections may be connected either vertically or horizontally.
Please refer to the TFB-110A technical manual for further details.
3.9
TFL-1AN Auxiliary Indicator for Analog Detectors
Telefire’s TFL-1AN Auxiliary Indicator for Analog Detectors enables auxiliary indication
for detectors that are located in hidden areas such as closed rooms and above acoustic
ceilings.
The remote Signaling Indicator is activated directly from the detector using the detection
line’s power without a need for auxiliary power sources.
The TFL-1AN can be connected to a single detector or to a group of detectors.
When activated, the Remote Signaling Indicator will flash both its LEDs alternately,
thereby drawing attention to a detector that is activated.
Please refer to the TFL-1AN technical manual for further details.
3.10
TPB-800ASR Manual Fire Alarm Call Point and TPB-800ASY
Manual Extinguishing Call Point
The TPB-800ASR is an analog addressable call point push-button. It consists of a
standard alarm call point unit and an analog addressable interface module mounted
behind the front part of the break-glass section.
The address is assigned to the TPB-800ASR by using the PROG-4000 Programmer.
The TPB-800ASR is connected to the SLC loop in the same way as an analog detector.
The TPB-800ASY is an analog addressable extinguishing push-button.
It is mechanically and electronically identical to the TPB-800ASR, with the exception of
its bright yellow color to alert users that this is an extinguishing push-button rather than a
fire alarm push-button.
Both the TPB-800ASR and TPB-800ASY are configured as “push button”, but typically
they are configured so that pressing the TPB-800ASY manual extinguishing call point
activates the system extinguishers, whilst the TPB-800ASR is treated as an alarm.
3.11
ADR-805 Flow Switch Interface Module
The ADR-805 interfaces flow-switches or other non-powered initiating devices.
The two-wire input connection is fully supervised and is terminated by a 100KΩ end-ofline resistor.
The ADR-805 includes an onboard indicating LED that flashes when addressed by the
control panel and latches on upon alarm.
Please refer to the TFL-1AN technical manual for further details.
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Figure 12 ADR-805 Flow Switch Interface Module
3.12
ADR-812 Two-Channel Input Module
The ADR-812 is a two-IDC, dual-channel input module that operates as an interface
between the ADR-3000 analog addressable control panel and compatible two-wire
conventional initiating devices. The two NFPA 72 Style C Initiating Device Circuits
(IDCs) occupy two consecutive addresses.
• If jumper JP6 is removed (factory default) the ADR-812 occupies two consecutive
addresses and both input lines are active.
• When jumper JP6 is exist the ADR-812 occupies only a single address and only
IDC A is active (single loop).
The ADR-812 should be connected to a 24Vdc source from the ADR-3000 or a
TPS-34A Auxiliary Power Supply. The ADR-812 continuously monitors its power
source and reports any problem such as a blown fuse, disconnection, or voltage drop.
The ADR-812 reports the following trouble events and conditions of the zone module:
short-circuit, cutoff in the IDC loop and 24Vdc input fault.
The ADR-812 has a 24Vdc resettable power limited output. This output is interrupted
upon Reset, in order to reset devices that were latched on alarm.
The optional 3-wire connection allows connecting detectors that have higher power
consumption, such as gas detectors or beam detectors.
The ADR-812 occupies two consecutive addresses, the first of which is programmed by
the PROG-4000.
The ADR-812 Two-Channel Input Module can be connected to the following
conventional Telefire detectors: TFH-280F; TFO-480, TPH-482, TFH-220F; TFO-440,
and TPH-442. Telefire may approve other compliant devices.
Please refer to the ADR-812 technical manual for further details.
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Figure 13 ADR-812 Two-Channel Input Module
3.13
ADR-818 Eight-Channel Input Module
The ADR-818 Interfaces 8 supervised non-addressable input lines to be connected to
conventional smoke detectors and water flow switches using a two-wire Class-B (NFPA
72 Style C) initiating device circuit (IDC).
The ADR-818 should be connected to a 24Vdc source from the ADR-3000 or a TPS-34A
Auxiliary Power Supply. The ADR-818 continuously monitors its power source and
reports any problem such as a blown fuse, disconnection, or voltage drop.
The ADR-818 occupies eight consecutive addresses, the first of which is programmed
by the PROG-4000.
The ADR-818 Eight-Channel Input Module can be connected to the following
conventional Telefire detectors: TFH-280F; TFO-480, TPH-482, TFH-220F; TFO-440,
and TPH-442. Telefire may approve other compliant devices.
Figure 14 ADR-818 Eight-Channel Input Module
3.14
ADR-828 Eight-Channel Output Module
The ADR-828 enables activation of 8 unsupervised outputs for auxiliary indications only.
It is used in synoptic panels, indication lights, directing signs, relays, etc. The output can
drive 24Vdc lamps or LEDs. The serial resistors required for the LEDs are placed on
board. Use either JP4, or JP5 (LEDs only), but not both.
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The ADR-828 should be connected to a 24Vdc source from the ADR-3000 or a
TPS-34A Auxiliary Power Supply. The ADR-828 continuously monitors its power source
and reports any problem such as a blown fuse, disconnection, or voltage drop.
The ADR-828 occupies eight consecutive addresses, the first of which is programmed
by the PROG-4000.
Do not use the ADR-828 to activate alarm devices that must be supervised.
Figure 15 ADR-828 Eight-Channel Output Module
3.15
ADR-823 Three-Channel Input/Output Module
The ADR-823 is a three-channel input/output analog control module that contains two
output circuits (NAC – Notification Alarm Circuit) and a single input circuit (IDC –
Initiating Device Circuit). This module is intended for use in cases where there is a need
for multiple output and input modules to carry out supervisory, alarm, and automatic
extinguishing functions.
The ADR-823 acts as an interface between an ADR-3000 analog control panel and
conventional warning, alarm, and activating devices such as horns, strobes, automatic
extinguishing devices, pressure switches, valves, and flow switches.
The ADR-823 controls two 2-wire output lines. The first, NAC-A, works as a "changed
polarity" and activates an additional dry-contact alarm relay. The other, NAC-B, works in
level activation mode. Each output has a separate address.
The unit also includes a two-wire input circuit (IDC) intended for connection to a flow
switch as a separate address, or a supervisory pressure switch sharing the same
address as NAC-A.
The ADR-823 has four configurations that are set by jumpers on the card. The logic
properties and number of addresses are selected accordingly.
The ADR-823 is controlled by and communicates with the control panel through an
analog SLC circuit and receives 24Vdc from the control panel or a local addressable
power supply such as Telefire's TPS-34A.
The module reports supervision status of the connected loads to the control panel. Load
circuit status is reported as open or shorted circuit.
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Figure 16 ADR-823 Three-Channel Input/Output Module
The ADR-823 occupies one to three consecutive addresses (jumper setting-dependant),
the first of which is programmed by the PROG-4000.
Please refer to the ADR-823 technical manual for further details.
3.16
ADR-833 Extinguishing Control Unit
The ADR-833 Analog Addressable Extinguishing Control Unit supervises, controls, and
activates automatic extinguishing systems.
The ADR-833 is a multi-input/output control unit that is connected to and supervised by
the ADR-3000 analog addressable control panel.
The fire detectors assigned to the automatic extinguishing system are monitored by the
control panel. The extinguishing control and command are performed by the
ADR-833 when instructed by the ADR-3000 to do so.
The ADR-833 contains 3 supervised outputs, 2 relays and 3 supervised inputs. The
outputs activate: (a) the automatic extinguishing cylinders, (b) the fire alarm horn and (c)
the evacuation annunciators. The relays are: one for trouble and the other for alarm.
The inputs are: (a) manual extinguishing release – electrically, (b) extinguishing inhibit
and (c) extinguishing cylinder pressure switch.
The ADR-833 requires a 24Vdc input that is supplied by the ADR-3000 or a TPS-34A
Analog Addressable Auxiliary Power Supply.
The ADR-833 occupies only a single address on the SLC loop although several inputs
and outputs are connected to it.
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Figure 17 ADR-833 Extinguishing Control Unit
Please refer to the ADR-833 technical manual for further details.
3.17
LI-3000 Line Isolation Module for Class A/B
The LI-3000 Analog Addressable Line Isolation Module provides the SLC loop with
advanced capability of protection from fault conditions such as short- and open circuit,
enabling continuous operation by isolating the faulty section from the rest of the loop.
Without an Isolator the line cards ADR-3002 and ADR-3002C would disconnect the loop
automatically when sensing a short-circuit.
Figure 18 LI-3000 Line Isolation Module
The LI-3000 communicates with the ADR-3000 through the addressable SLC loop that
supplies its power. The module's address is programmed prior to installation by using
the PROG-4000 (please refer to the PROG-4000 technical manual for further details).
The LI-3000 enables wiring the SLC loop in a closed loop (NFPA Style 7 Class A) as
well as branching T-shaped (NFPA Style 4 Class B) wiring configuration.
Class A configuration does not reduce system capacity. Each SLC loop is capable of
addressing 127 devices, including the addresses occupied by the LI-3000 modules. A
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single-loop line card that is configured as Class A can address up to 127 addresses
(including LI-3000 line isolators), and a dual-loop line card can address up to 254
addresses (including LI-3000 line isolators) in two Class A loops.
Whenever a short-circuit condition occurs the Isolator opens the circuit automatically and
disconnects the faulty side of the loop. Three seconds later it resets and performs a
second test, and then again a minute later. It repeats the test for eight minutes, and
then periodically it will re-test every two minutes. The test cycle restarts when the
module is reset.
The yellow LED flashes each time the module receives a signal. A short-circuit condition
will cause the LED of the shorted side to latch on.
An open circuit in a Class A configuration will send a trouble message to the control
panel. The LI-3000 will latch on the LED corresponding to the open side.
As many as 30 Isolator modules can be installed in each SLC loop.
Please refer to the LI-3000 technical manual for further details.
3.18
TIP-224A Analog Addressable Indoor Alarm Notification Sounder
Telefire’s TIP-224A is an analog addressable device that integrates an indoor sounder
and an addressable output module, eliminating the need for an output module installed
in a separate box, and reducing material and labor cost. As an added benefit, the unit
contains a high-brightness LED.
The TIP-224A should be connected to a 24Vdc source from the ADR-3000 or a
TPS-34A Auxiliary Power Supply.
The address of the TIP-224A is programmed into the memory of the sounder and can be
assigned or changed by using the PROG-4000 programmer.
The sounder contains an alarm LED that is visible from 360°. This LED flashes when
polled by the control panel, indicating normal operation. During an alarm THE TIP-224A
will sound interrupted beeps and the LED will flash more rapidly and brightly than during
normal operation.
The TIP-224A is intended for indoor use wherever there is a need for an indoor audible
alarm.
Please refer to the TIP-224A technical manual for further details.
3.19
TPS-34A Analog Addressable Auxiliary Power Supply
The TPS-34A is an auxiliary power supply that is fed from a 230Vac input and includes a
24Vdc 4A power supply, battery charger, and a control card that monitors the
TPS-34A and reports status and trouble information to the ADR-3000. Reporting is done
via the SLC loop and the TPS-34A takes up an address of the loop’s address rage. The
TPS-34A’s output is used when the total demand on the ADR-3000’s 24Vdc power
supply exceeds its capacity, or to power I/O modules, sounders, or special detectors that
are installed a long distance from the control panel. The TPS-34A’s 24Vdc output allows
for up to 4A current draw during alarm, and up to 0.5A continuous current draw.
The power supply consists of a PSB-3000 cabinet that contains two 12V sealed leadacid batteries in capacity of up to 12AH, and up to 14 (W) by 9.5 (D) by 17 (H) cm each
and two printed circuit boards:
• ADR-4004TSW – a 4A switching power supply that is also used in the
ADR-3000 control panel
• APS-900 – an analog addressable power supply monitor card
Please refer to the TPS-34A technical manual for further details.
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3.20
Revision 1.22 March 2013
EPI-3000 Electromagnetic and Surge Protection Interface Module
Industrial installations may have strong electromagnetic interference. Install Telefire's
EPI-3000 Electromagnetic and Surge Protection Interface Module in order to isolate the
SLC loops and 24Vdc outputs from electromagnetic interference. One EPI-3000 module
will isolate all four loops, and both 24Vdc outputs (24V_A and 24V_B) of a single control
panel.
Figure 19 EPI-3000 Electromagnetic and Surge Protection Interface Module
3.21
TFP-3000 Fireman Phone
The TFP-3000 is a bi-directional signaling and communication system that is intended
for fireman and emergency personnel.
The system works in conjunction with and is supervised by the ADR-3000 analog
addressable fire alarm control panel and adds communication to various points in the
building to the ADR-3000's fire detection capabilities.
The TFP-3000 is made of the following modules:
• ADR-3000 – Analog Addressable Fire Alarm Control Panel
• TFP-3000 – Fireman Phone Control Unit
• TFP-6C – handset storage unit (storage for up to 6 handsets)
• TFP-1 – handset
• TFP-1CP – single phone station (chassis + phone + ADR-806)
• TFP-80C – expansion unit for up to 80 zones / floors
• TFP-806 – socket module for fireman phone (includes socket and ADR-806 analog
addressable module
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•
Revision 1.22 March 2013
TFP-828 – an expansion module for the TFP-80C. Each TFP-828 module extends
the system's capability by 8 addresses.
Figure 20 Fireman Phone – Schematic Diagram
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Revision 1.22 March 2013
4
Software and Tools
4.1
TCS-3040 Programming and Control Software for the ADR-3000
The TCS-3040 (Telefire Control Software) is a powerful interface tool that enables the
monitoring of the control panel and performing general tasks such as remote project
programming from the PC.
If the ADR-3000 is equipped with Telefire’s NET-3000 module, the TCS-3040 can
perform the same function over TCP/IP via the organization’s intranet or over the
Internet if such a connection exists. The TCS-3040 should be version 3.20 or higher to
support TCP/IP connection.
Please refer to the TCS-3040 manual for further information.
4.2
MCS-3000 Centralized Fire Alarm Systems Monitoring Software
Telefire's MCS-3000 Centralized Fire Alarm Systems Monitoring Software is a Microsoft
Windows™-based program that monitors fire alarm systems equipped with the
NET-3000 Internet Enabled Monitoring and Notification Module. The NET-3000 can be
installed in Telefire's ADR-3000 Analog Addressable Fire Alarm Control Panel and
GSA-1000 Multi-Zone Conventional Fire Alarm Control Panel.
The MCS-3000 constantly scans over the LAN / WAN all configured panels, allowing the
monitoring of multiple fire alarm control panels, using a single screen that concentrates
the whole systems status including normal operation, alarm and trouble.
The MCS-3000 does not allow remote control (activations) of fire alarm control panels
for security reasons.
A single screen can display system summary of a large number of systems. Clicking on
any of the systems will open a browser window that will display the web page for that
system.
Please refer to the MCS-3000 manual for further information.
4.3
PROG-4000 Analog Addressable Detector and Accessory
Programmer
The PROG-4000 is a tool for programming and testing all of Telefire’s analog
addressable devices such as detectors, manual fire alarm call points, input modules,
output modules, remote power-supplies, etc.
Each addressable device connected to the ADR-3000 system can be programmed to an
address in the range of 1 to 127. This address will be stored in the device’s permanent
memory and can be changed only with the PROG-4000 programmer.
Some input and output modules use more than one address. For these modules, the
programmer will store the first of several consecutive addresses in the module.
In addition to programming device addresses, the PROG-4000 serves as a testing unit
for all addressable devices. These tests include verification of features, and conditions
of the tested device such as normal operation, alarm, various trouble conditions, etc.
The PROG-4000 includes an alphanumeric display, keyboard, analog detector base and
a connector with programming cord, to program addressable modules. An add-on
conventional base is used with the programming cord to program the TIP-224A Analog
Addressable Notification Sounder.
Please refer to the PROG-4000 technical manual for further details.
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5
Installation
5.1
Capacity Planning
Revision 1.22 March 2013
Calculate number of addresses required:
• One address each for every detector; TPB-800ASR or TPB-800ASY; ADR-805;
TPS-34A; ADR-833; TIP-224A; LI-3000;
• One or two addresses for every ADR-812 (the ADR-812 occupies one or two
addresses, depending on jumper setting)
• Up to three addresses for every ADR-823 (the ADR-823 occupies one-, two-, or
three addresses, depending on jumper setting)
• Eight addresses each for every ADR-818 and ADR-828
Allow for a 10% margin for future expansion and calculate number of required
addresses. Divide by 127 and round up to calculate required number of loops. Divide
number of loops by 4 and round up to calculate required number of ADR-3000 control
panels.
5.2
Power Requirement Calculation
Calculate power consumption to check if any TPS-34A Auxiliary Power Supplies are
required. Please refer to “Power Supply and Battery Calculations” on page 11 for power
requirement tables.
TPS-34A is required if any of the following conditions are met:
• Quiescence (normal) mode current consumption is more than 0.5A
• Alarm current is more than 4.0A
• Required battery capacity is more than 12AH
Please refer to the TPS-34A technical manual for further details.
5.3
Laying Wiring
Consult building plans to estimate cable run lengths. Please refer to “Wire
Characteristics and Length Limitations” on page 11 for details on cable types and
maximum length.
Route the SLC; NAC; 24Vdc Out; LonWorks; and RM-4005 connection cables from the
control panel to the required locations. Ensure that cable routing conforms to NFPA
guidelines and local codes.
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Revision 1.22 March 2013
Figure 21 Cable Routing in the ADR-3000 chassis
5.4
Installing Detectors, I/O Modules and Other Equipment
Install detectors, I/O modules, and other equipment as necessary. Program each
device’s address prior to connecting it to the system.
5.5
Cabinet Mounting
The control panel’s cabinet should be installed in a clean, dry, vibration-free indoor
location. Avoid exposure to severe conditions such as high humidity, dust and air
pollution.
The ADR-3000 should be mounted on a solid wall in order to allow easy access for
installation, daily operations and maintenance.
The cabinet should be mounted by using the two sliding slots on the upper back part of it
and a screw hole on the lower part.
Mains input (AC power) should enter the cabinet through either the top left or bottom left
knockout holes. Low voltage connections (SLC loops; 24Vdc; RS-232 to a NET-3000,
printer, or PC; LonWorks connection to other control panels; RS-485 to RM-4005; and
NAC outputs) should be connected through the top right, bottom right, or back knockout
holes – according to the installer’s convenience.
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Figure 22 Cabinet mounting holes
The wiring opening on the top right of the cabinet should be covered with a metal sheet.
If no wires enter the cabinet through this opening close it with the plain cover, otherwise
use the cover with two round holes and a plastic sealing grommet.
i
5.6
Note
All power-limited circuit wiring must be at least 0.25” (6.35mm) away from any
non power-limited circuit wiring. Use different entries of the cabinet or
conduits. See Figure 27 on page 11).
Connect AC / SLC Loops, 24V Out, Alarm / Trouble / Dialer / Horn
Test all wires for shorts. If any wires are shorted, locate the cause and repair it.
Connect AC input and batteries. Use two rechargeable sealed lead-acid 12V batteries.
Connect SLC loops; Alarm and Trouble outputs; Auxiliary 24V outputs, LON-3000/7000
and RM-4005 cabling as needed.
Do not arm extinguishing devices at this time. Connect a dummy load instead.
5.7
Perform Auto Program
• Press * for main menu
• Press 1 (System Program)
• Enter Password
• Select 1 (Device Program)
• Enter panel number if required
• Select 2 (Automatic Program)
• Press Enter to confirm
• Select Card Number and press Enter
Repeat for second card if present.
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5.7.1
Revision 1.22 March 2013
Check that all installed devices are identified
See DEVICE LIST ACTIVE and compare to “As Made” documentation
• Press * for main menu
• Press 5 (Display Reports)
• Select 3 (Device List)
• Enter panel number if required
• Press the Up key to step through devices
Repeat for second card if present.
5.8
Enter Descriptions
Enter device descriptions via panel (see Editing Device Description on page 11) or via a
notebook with TCS-3040. Please refer to the TCS-3040 technical manual for further
details.
5.9
Program Activation Matrices
Program the control panel configuration and activation matrix. Chapter 8 on page 38
has detailed programming information.
5.10
Copy .ANL to ADR-3000
Select COMMUNICATION | DOWNLOAD, click on the “PANEL CONFIGURATION”
radio button, select panel number, and click on the “DOWNLOAD” button.
Select COMMUNICATION | DOWNLOAD, click on the “CARD” radio button, select panel
number, and click on the “DOWNLOAD” button.
5.11
Walk Test
Perform a Walk Test and activate each initiating device to verify that it is working
properly. See section 10.8 on page 11 for details on performing a Walk Test.
5.12
Test Activations
Ensure that extinguishing devices are not armed. Connect a dummy load to
extinguishing device outputs and test activations of all output devices.
When you are satisfied that all activation programming is according to design
specifications and that there are no intermittent errors is the system you can arm the
extinguishing devices.
5.13
Change Passwords
It is highly recommended that you change the default passwords after installation to
prevent unauthorized access. See section 9.12 on page 11 for details on changing
passwords.
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
5.14
Revision 1.22 March 2013
Terminal Specification
Figure 23 ADR-3001 Connections
5.14.1 Mains Input
On the A/C filter on the ADR-3000’s chassis. Mains input is protected by a 3.15A fuse.
ADR-4004 JP1-1 [L]
AC In (Live)
ADR-4004 JP1-3 [N]
AC In (Neutral)
5.14.2 Battery
JP2 on the ADR-4004TSW Power Supply Card.
Charging voltage is 27.3Vdc; charging current is 300mA.
Battery current circuit limited by fuse F1 on the ADR-4004TSW power supply card.
The ADR-3000’s power supply module can charge batteries in capacity of up to 12AH.
The battery enclosure can contain two 12V sealed lead-acid batteries, up to 20 (W) by
7 (D) by 12 (H) cm each.
For fire alarm control panels requiring batteries that will not fit in the ADR-3000 chassis
use the BC-3000 external battery enclosure. This enclosure can contain two 12V sealed
lead-acid batteries, up to 20 (W) by 10 (D) by 15 (H) cm each.
If the system requires larger battery capacity than 12AH add the TPS-34A Auxiliary
Power Supply with its own batteries. Please refer to the TPS-34A manual for additional
details about the TPS-34A auxiliary power supply.
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Revision 1.22 March 2013
Use sealed lead acid batteries
ADR-4004 JP2-1 [-]................................................... - Battery
ADR-4004 JP2-2 [+] .................................................. + Battery
The L2 connections Cards 1 and 2 are active only with ADR-3002C line cards.
All terminal blocks should be wired with 12 – 18 AWG wire.
5.14.3 General Trouble Voltage Output
ADR-3001 J13-1 [T-] ................................................. - Trouble
ADR-3001 J13-2 [T+] ................................................ + Trouble
24Vdc level-activation, not silenced, supervised special application NAC
Maximum Current ......................................................... 0.5A, 22.5Vrms, (5 minutes
alarm)
This circuit is power-limited by electronic cutoff and is also protected by fuse F5 1
E.O.L. ........................................................................... 5.1KΩ resistor
5.14.4 General Trouble Dry Contacts
ADR-3001 J13-3 [NO] ............................................... Trouble Relay – Normally Open
ADR-3001 J13-4 [C].................................................. Trouble Relay – Common
ADR-3001 J13-5 [NC] ............................................... Trouble Relay – Normally Closed
One trouble contact relay rated: 0.5A 120Vac, 1.0A 24Vdc.
Trouble contacts marking shows normal operation “System OK” condition.
5.14.5 24Vdc Auxiliary Terminal
ADR-3001 J13-7 [24Vdc +] ....................................... + 24Vdc
ADR-3001 J13-8 [24Vdc -] ........................................ - 24Vdc
24Vdc out for auxiliary devices.
Non-resettable 24V output. This circuit is protected by fuse F5 1
Maximum Current
0.5A*.
5.14.6 General Alarm Voltage Output
ADR-3001 J12-1 [A-]................................................. - Alarm
ADR-3001 J12-2 [A+] ................................................ + Alarm
24Vdc level-activation, programmable output, supervised special application NAC
Maximum Current
0.5A, 22.5Vrms, (5 minutes alarm)
This circuit is power-limited by electronic cutoff and is also protected by fuse F5 1
E.O.L. 5.1KΩ resistor
5.14.7 General Alarm Dry Contacts
ADR-3001 J12-3 [NC] ............................................... Alarm Relay 1 – Normally Closed
ADR-3001 J12-4 [C].................................................. Alarm Relay 1 – Common
ADR-3001 J12-5 [NO] ............................................... Alarm Relay 1 – Normally Open
ADR-3001 J12-6 [NC] ............................................... Alarm Relay 2 – Normally Closed
ADR-3001 J12-7 [C].................................................. Alarm Relay 2 – Common
ADR-3001 J12-8 [NO] ............................................... Alarm Relay 2 – Normally Open
Two sets of alarm contacts, both of which are rated 5.0A / 24Vdc
5.14.8 Addressable SLC Loops – Line Card 1
ADR-3001 J6-1 [-L1] ................................................. - Loop 1
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
ADR-3001 J6-2 [+L1] ................................................ + Loop 1
ADR-3001 J6-3 [-L2] ................................................. - Loop 2 (active only for ADR3002C)
ADR-3001 J6-4 [+L2] ................................................ + Loop 2 (active only for ADR3002C)
Maximum loop voltage .................................................. 25.0V
Nominal loop voltage .................................................... 21.0V
Maximum loop impedance ............................................ 40Ω
Maximum loop capacitance........................................... 1.0 µF
Supervised power-limited circuit. This circuit is power-limited by electronic cutoff and is
also protected by fuses on the line card.
5.14.9 Non-Resettable 24Vdc _A (Auxiliary Terminal)
ADR-3001 J11-1 [-24V_A] ........................................ - 24Vdc
ADR-3001 J11-2 [+24V_A]........................................ + 24Vdc
Non-resettable power-limited circuit. This circuit is power-limited by electronic cutoff and
is also protected by fuse F3.
5.14.10
Horn (NAC)
ADR-3001 J10-1 [-HORN]......................................... - Horn
ADR-3001 J10-2 [+HORN] ........................................ + Horn
NFPA 72 Style Y Notification Appliance Circuit, supervised special application NAC
Reversed polarity, silenced. This circuit is power-limited by electronic cutoff and is also
protected by fuse F1.
Max Current 400mA
E.O.L. 5.1KΩ resistor
5.14.11
Dialer (NAC)
ADR-3001 J9-1 [-DIALER] ........................................ - Dialer
ADR-3001 J9-2 [+DIALER] ....................................... + Dialer
NFPA 72 Style Y Notification Appliance Circuit, supervised.
Level-activation. This circuit is power-limited by electronic cutoff and is also protected by
fuse F4.
E.O.L. 5.1KΩ resistor
5.14.12
Addressable SLC Loops – Line Card 2
J1 on the main board ADR-3001 is for loops 1 and 2 of card 2.
ADR-3001 J1-1 [-L1] ................................................. - Loop 1
ADR-3001 J1-2 [L1+] ................................................ + Loop 1
ADR-3001 J1-3 [-L2] ................................................. - Loop 2 (active only for ADR3002C)
ADR-3001 J1-4 [L2+] ................................................ + Loop 2 (active only for ADR3002C)
Maximum loop voltage
25.0V
Nominal loop voltage 21.0V
Maximum loop impedance 40Ω
Maximum loop capacitance
1.0 µF
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Supervised power-limited circuit. This circuit is power-limited by electronic cutoff and is
also protected by fuses on the line card.
5.14.13
Non-Resettable 24Vdc _B (Auxiliary Terminal)
ADR-3001 J8-1 [-24V_B] .......................................... - 24Vdc
ADR-3001 J8-2 [24V_B+] ......................................... + 24Vdc
ADR-3001 J8-3 [Ground symbol] Ground
Non-resettable 24V output. This circuit is protected by fuse F2 2
5.14.14
Remote Annunciator Connection
JP7 on the main board (ADR-3001) is an RS-485 connection terminal to RM-4005
Remote Annunciator.
ADR-3001 JP7-1 [+COM2]........................................ + RS-485
ADR-3001 JP7-2 [-COM2] ........................................ - RS-485
ADR-3001 JP7-3 [ground symbol]
Ground
5.14.15
Non-Resettable 24Vdc _B (Remote Annunciator)
ADR-3001 JP7-4 [+24V_B] ....................................... + 24Vdc
ADR-3001 JP7-5 [-24V_B] ........................................ - 24Vdc
Intended for supplying 24V to the RM-4005.
Non-resettable 24V output. This circuit is protected by fuse F2 3
5.14.16
Communication Connection
RS-232 communication connector to a computer, printer, or NET-3000 module (P2
COM 1), not isolated.
When using a grounded device such as a serial printer or desktop PC use the optional
GIM-232 Galvanic Isolation Module for RS-232 Interface.
5.14.17
LON-3000/7000 Connection
J5 on the main board (ADR-3001)
Connection to the LON-3000/7000 network communication module for interconnecting
as many as 32 control panels and establishing a network.
5.15
Wiring
The ADR-3000 control panel is factory-tested and ready to install. Internal wiring and
connections should not be changed.
The installer should connect field-wiring including addressable loops, the general output
wires, communication cables, batteries and AC power.
Disconnect all power sources (mains and batteries) before connecting any field wiring.
5.15.1 Power Supply
The ADR-3000 should be connected to a separate dedicated 230Vac fire alarm circuit
that is labeled “FIRE ALARM”. The primary power circuit must be connected to the line
side of the main power feed of the protected premises. No other appliance may be
connected to the “FIRE ALARM” circuit. The power cables must run continuously,
without any disconnecting devices from the power source to the control panel. Wires,
circuit breaker or any over-current protection device must comply with local electrical
wiring codes. An additional filter and terminal board are installed for locations that
require EN-55022 compliance.
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Revision 1.22 March 2013
The power cable should enter the control panel through either the top left or bottom left
knockout opening. Use a plastic bushing that fits the opening.
Connect the Live and Neutral wires to the proper terminal. Connect the Ground wire to
the ground terminal.
5.15.2 SLC (Signaling Line Circuit) Loop Wiring
Address programming must be carried out using the PROG-4000 before connecting
each addressable device. Please refer to the PROG-4000 Technical Manual for further
information.
Input/Output devices such as detectors, switches, horns, etc., should be wired to the
SLC (Signaling Line Circuit) in accordance with NFPA 72 Style 4.
High current consuming devices such as beam detectors and gas detectors should be
wired with 4-wire cable, one pair to be connected to the SLC loop and the other pair to a
24Vdc supply from the control panel or from an external analog addressable power
supply TPS-34A.
Wire specifications should be of twisted pair type between 12 – 18 AWG according to
the device load and cable lengths. The wires must comply with local standards.
Maximum permitted SLC loop resistance is 40Ω???Maximum permitted capacitance
is 1.0µF.
5.15.3 Wiring 24Vdc Powered Devices
To ensure operation of alarm or initiating device that requires relatively high current from
a 24Vdc source, use appropriate cables.
Wire specifications should be between 12 and 18 AWG and the cable resistance running
between the 24Vdc source to the I/O module and from the I/O module to the device
should be calculated. Ensure that no device receives a voltage below its specified
minimum operating value and that the total voltage drop will not exceed 3 volts.
Calculate the total current drawn by the system and system devices at normal operation
and alarm modes. Ensure that the total load on the power supply does not exceed its
limit of 0.5 Ampere during quiescence mode and 4.0 Ampere at alarm mode.
Please refer to the power calculation tables on page 11.
5.15.4 End of Line Device (E.O.L.)
Some circuits require an EOL device. A 5.1KΩ EOL resistor is installed in these terminal
blocks at the factory.
The following circuits require an EOL device.
• General Trouble NAC (J13 T-, T+)
• General Alarm NAC (J12 A+, A-)
• Horn NAC (J10)
• Dialer NAC (J9)
Remove the EOL resistor from these circuits and install it in the last device on the line if
you connect any devices to these circuits.
5.15.5 Shielded Cables Wiring
It is highly recommended to avoid outdoor wiring due to the increased susceptibility to
lightning strikes. Overhead cables running between buildings or on roofs should be
shielded. The shield should be connected to the ground by using the Master Ground
Terminal in the control panel. Grounding should not be connected to any other points.
Ensure continuous grounding by soldering.
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
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!
Revision 1.22 March 2013
Note
When installing a system at a site adjacent to high power cables, heavy
industrial machinery, or any kind of high electromagnetic fields, shielded
cables should be used in the SLC loops and an EPI-3000 module should be
connected to each ADR-3000.
Warning
Disconnect the AC power supply and batteries from the control panel
before performing any wiring and connections of accessory circuits or
I/O devices.
Ensure that the system is in normal working condition and no initiating device is in alarm
condition prior to installing or replacing an automatic extinguisher.
5.16
Documentation
Attach the followings to the system’s front panel, or place it in a prominent position
nearby:
• A list of areas/zones as installed in the protected premises
• Actions to be taken immediately by the operators
• The name of the installing company and the service telephone number should be
clearly marked on the panel itself or on an attached diagram
See a sample form at the end of this manual.
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
6
Revision 1.22 March 2013
System Display and Keyboard
The ADR-3000 display includes an alphanumeric LCD, system indicators, and keyboard
that are used by operators for normal operations and by programmers during installation
and maintenance. A password is required to respond from the panel keys.
The ADR-3000 has a keyboard-locking feature to prevent non-authorized personnel from
operating the control panel.
Two levels of authorization passwords are required for some operations:
• Level 1 (Operator actions) and
• Level 2 (Programmer/Supervisor functions).
When entering the Programmer/Supervisor password the operator actions: Alarm
Silence and Reset are enabled too. The Recall Memory key that scans through current
events is enabled without entering a password.
The ADR-3000 keyboard is divided to two sections:
The upper part (light blue) is used by the operator to display system modes and events,
perform operations such as alarm / trouble silencing, event memory recall and dialer
enable / disable. The reset actions can only be performed after keying in the operator
password.
The lower part (dark blue) enables the system Programmer/Supervisor to execute
operations such as changing detector’s sensitivity, turning devices Enable / Disable,
setting operating modes, etc., Programmer / Supervisor actions can only be performed
after keying in a second-level password.
Figure 24 Keyboard and display screen
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
6.1
Revision 1.22 March 2013
Alphanumeric Display
The ADR-3000’s alphanumeric display is a 4 row by 40 characters Liquid Crystal Display
(LCD). The LCD is backlit and is illuminated during alarm events and when front panel
keys are pressed. During normal operation the backlight will turn off two minutes after
the last keystroke. When the backup battery powers the system, the LCD backlight will
turn off ten seconds after the last keystroke.
6.2
Indicating LEDs
LED
Meaning
System OK
Green LED. Lit continuously when the system is operating
properly. Additionally, a message “SYSTEM OK” is displayed
on the LCD. The green light turns off at trouble and / or an
alarm condition.
Power
Green LED. Indicates presence of AC power. When primary
power is absent a warning (AC Power not connected) is
displayed on the LCD. The LED flashes upon loss of AC.
Pressing # button will turn the LED off.
System Fault
Yellow LED. Indicates a system fault (hung CPU)
Fire Alarm
Red LED. Indicates a fire alarm condition. Additionally, alarm
details are displayed on the LCD. Flashes for new events, turns
to solid red upon pressing # button.
Pre-Alarm/AVF
Yellow LED. Indicates the presence of a pre-alarm condition in
the system. Flashes for new events, turns to solid yellow upon
pressing # button.
Sounders
Yellow LED. Flashes if present fault in general sounders, turns
to solid yellow upon pressing # button.
Silence
Sounders
Red LED. A flashing red light indicates that the system was
silenced following an alarm event.
Trouble
Yellow LED. A flashing yellow light indicates trouble condition.
Additionally, a trouble message is displayed on the LCD.
Flashes for new events, turns to solid yellow upon pressing
# button.
Supervisory
Yellow LED. Indicates a supervisory event. Flashes for new
events, turns to solid yellow upon pressing # button.
Additionally, a message will be displayed on the LCD.
Disabled
Yellow LED. Indicates that a device or zone is disabled.
Additionally, a message will be displayed on the LCD.
Evacuate/
Resound
Red LED. Lights when evacuation was activated. A message
will be displayed on the LCD.
Dialer
Yellow LED. Indicates that the dialer is disabled or it in the fault
condition.
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LED
Meaning
Recall
Memory
Red LED. Lights when more then one event occurs
simultaneously. The number of events will be displayed on the
LCD.
Table 2
6.3
Operator Panel – Indicating LEDs
Operator Keys
Key
Function
Evacuate/
Resound
Allows the Operator to initiate an evacuation procedure.
Requires password.
If a sounders was silenced, pressing Resound renewal all
general sounders. Requires password.
Dialer
Allows the Operator to enable/disable the automatic dialer.
Requires password.
Buzzer Off
Pressing this key silences only internal buzzer.
Recall
Memory
•
•
In normal mode – used to scan through the existing events.
The top row of the LCD will show the recalled event number
and description. The total number of events will be
displayed on the lower right.
In program mode – moves the address to the next active
device.
Silence
Pressing this key silences the devices connected to the General
Alarm NAC (if defined as Silenced), HORN output, and all
addressable outputs that are defined as “silenced”.
Reset
Pressing this key resets and restores the system to normal
operation mode. All NACs are turned off, input and output
modules return to normal operation mode, addressable
detectors receive a reset signal, the LCD displays “System OK”
and history report is updated. The system will resound if any
Alarm or Trouble occurs.
Table 3
6.4
Revision 1.22 March 2013
Operator Panel – Operator Keys
Numeric and Arrow Keys
6.4.1
Numeric Keys
The numeric keys are used for entering values for system initialization, programming,
operation, password entering, and selecting menu field values on the LCD.
6.4.2
Arrow Keys
The arrow keys are used for navigating from field to field on the screen during system
programming and for browsing through the memory.
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6.5
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Programming Keys
Disable
•
•
•
Enable
•
•
•
Name
In NORMAL MODE – used to disable an addressable
device or zone, (secured by operator password)
In PROGRAM MODE – used to configure a device as nonexistent.
In SYSTEM CONFIG mode – disables partners, line cards,
remote panels, and COM1 SUPERVISE mode.
In NORMAL MODE – used to enable an addressable
device or zone (secured by operator password).
In PROGRAM MODE – used to configure a device as
existent.
In SYSTEM CONFIG mode – enables partners, line cards,
remote panels, and COM1 SUPERVISE mode.
•
•
In NORMAL MODE – used to enter and display
description
In PROGRAM MODE – opens a virtual keyboard to
enable entering device descriptions.
Address
•
Used to display a device address details when, an event
occurs. Panel, Card, Loop and Address or display
device type.
Quit
•
Used to exit a menu screen displayed on the LCD,
returning to a previous menu level or main screen.
Program
•
Used to store device parameters in the memory, after
configuring or changing parameters when in program
mode.
Clear
•
Used to clear a selected field (changes the field
value to 1) or wrong password.
Enter
Table 4
Used to enter or confirm data after typing, when required.
Also used for starting Detector Init or Diagnostic operation.
Operator Panel – Programming Keys
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
7
System Screens
7.1
Normal Operation Screen
Under normal operating conditions, the following screen is displayed:
TELEFIRE LTD.
Panel:1 System OK
18:38:08
Day Mode
Press * for Menu
Keyboard:Locked
Screen 1 Normal Operation Screen Display
Displays the panel number, System OK message, the time, and the system sensitivity
mode (day or night).
7.2
Main Menu Screen
Press the asterisk (*) key to display the main menu.
1
2
3
4
System Program
On/Off Device
Monitor Test
Printer Reports
5
6
7
8
Display Reports
Utilities
Walk Test
Quit
Screen 2 Main Menu Screen
Sub-menus of the main menu screen:
System Program - Used for configuring the system. Requires programmer password.
ON/OFF Device -Used for enabling/disabling devices or zones. Requires operator or
programmer password.
Monitor Test - Used to monitor a detector’s signal by displaying a bar graph and a
numerical value of its sensing physical parameter. The measurements are of smoke
density, temperature, etc. A manual test of a detector can also be performed from this
screen.
Printer Report - Used for entering a sub-menu, to select various printing options, as
detailed further. Active only if a printer is configured.
Display Report - Used for entering a sub-menu, to display various reports on the LCD
as detailed further.
Utilities - Used for entering a sub-menu of various service operations.
Walk Test - Used to perform an individual device field test in order to check proper
system operation. Requires operator or programmer password.
Quit - Exits to the normal operations screen.
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8
Revision 1.22 March 2013
System Programming
Configuration of the ADR-3000 can be performed by using a dedicated PC with
Telefire’s proprietary software, or trough the system programming menus.
During programming, the system does not scan the devices. The system will be in
trouble condition until programming is completed.
Access to programming modes is secured by the programmer password. This applies
both to programming from the control panel or via a PC.
To go to the programming menus from the main menu, press SYSTEM PROGRAM.
The following screen will be displayed:
Type Password
____
and press ENTER
Screen 3 Password Screen
In order to enter the system-programming mode, type the 4-digit programmer password
and press ENTER.
Factory default passwords are ‘1111’ (operator password), and ‘2222’ (programmer
password).
8.1
System Program Menu
After entering the password as required, the following menu will be displayed:
1 Device Program
5 Change Password
2 Time Program
6 Detectors Init
3 System Config
7 Diagnostics
4 Day/Night Program 8 Quit
Screen 4 System Program Menu
Description of sub-menu options on the system program menu:
Device Program-Used for entering the device details and setting all device parameters,
including type of device, sensitivity, description and logical functions.
Time Program - Used for setting the system’s internal clock date and time. The clock
serves for executing day- and night functions.
System Config - Used for setting system parameters such as number of line cards,
network definitions (Panel No., Partners), remote annunciators, dialer delay, etc.
Day/Night Program - Used for setting the day and night hours for each day of the week,
in order to change detectors sensitivity accordingly.
Change Password - Enables changing the operator and programmer passwords.
Detectors Init - Used for fast acquisition of the detectors reference value.
Diagnostics - Used to perform several tests on the addressable devices after
installation or service operations.
Quit - Used to exit this menu and return to the main menu.
In order to perform programming operations in any of the items listed above, press the
corresponding number on the panel.
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ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
8.2
Revision 1.22 March 2013
Device Programming
The following screen enables selecting between manual and automatic device editing
program.
1 Manual Program
2 Automatic Program
Screen 5 Device Programming Options
Option 1 allows for manual configuration of devices. Option 2 causes the control panel
to poll all 127 addresses on all loops, and enter the appropriate device type for each
address.
8.2.1
Manual Device Programming
After selecting Manual Program the next screen will be displayed:
*Card:1
Loop:1
Address:1
Ative:ON
Type:Photoelectric Detector
Zone:1
Delay:0
->
Screen 6 Device Programming Screen – first page
Move to the second page by pressing repeatedly on the right arrow.
C1/L1/Adr1
Photoelectric Detector
Day Sensitivity:1.4%
Night Sensitivity:1.2%
Prealarm:-0.2%
<-
Screen 7 Device Programming Screen – second page
Press the left or right arrow keys to move between fields or switch between the first and
second page.
To change field values or field definitions, press the up and down arrows.
Configuration fields are detailed below:
Card
Line Card number (1 or 2) in the control panel to which the device is
connected.
Loop
The loop number (1 or 2) of the card specified above to which the
device is connected.
Address
The electronic number (address) of the device (as programmed by
PROG-4000) in the range of 1 to 127.
Active
ON – active, or OFF – inactive. Notifies the system on the presence
of an addressable device.
Type
System definition of device types.
Initiating Devices: Ionization smoke detector; Photoelectric smoke
detector; Heat detector; Gas detector; Input module; Push button;
CO & Heat detector; Photo & Heat detector; and Supervisory switch.
Output Devices: Sounder; Lamp; Extinguisher; Extinguisher control;
and Supervisory output.
Miscellaneous Devices: Power supply; and Isolator.
Day Sensitivity Used for setting detector sensitivity at daytime. Defined according to
detector type.
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Night Sensitivity Same as above, for nighttime.
Pre-Alarm
Used to set the difference between day/night and pre-alarm sensitivity
values. For example: if the day alarm sensitivity is 1.6% and prealarm field is set to -0.2% the pre-alarm sensitivity will be 1.4%.
Zone
Used for assigning an initiating device to a logical zone number
between 1 and 499, for activation purpose.
Delay
The alarm verification delay period for initiating devices or delay for
activate output devices. Can be set between 0 and 60 seconds.
Press the Recall Memory key in order to move to the next active device screen.
8.2.2
Automatic Device Programming
Automatic device programming causes the control panel to scan every possible address
and populate its device map according to whatever devices are installed.
Every connected device shall be configured as “Active” and with the correct device type
and the defauly configuration of that device type.
Setting logical zones, activation matrices, and other parameters requires operator
intervention (manual programming).
This will allow comparing the system as installed to planned configuration in order to find
any installation-related problems.
Please see section 8.2.2 on page 40.
8.3
Conditional Activation of Output Devices (Activation Matrix)
The ADR-3000 enables the configuration of activation for addressable output devices
and creating complex logical functions by using Advanced Activation Matrix (AAM).
The number of devices in alarm, and the sources of the alarm, i.e., device, loop, line
card, or logical zone, can be selected for each output device.
Activation within a network can be initiated from different input devices connected to
different control panels. Please refer to “Global Zone” on page 11 for further details.
An output device can be activated from several pre-defined zones and therefore it does
not refer to any specific zone.
In order to utilize a zone activation matrix function, the initiating devices must be
attributed to zones by defining the zone during device programming.
Up to 499 zones can be attributed to each matrix.
8.3.1
Configuring an Output Device
When programming an output device the following fields are displayed on the LCD:
*Card:1
Loop:1
Address:100
Active:ON
Type:Sounder
Delay:0
Event Ctrl:General
Screen 8 Output Device Screen.
Select one of the following output device types while the cursor is on the TYPE field:
Sounder, Lamp, Extinguisher, Extinguisher Control, or Supervisory Out.
The default activation condition for an output device is GENERAL.
If a different activation condition is required, move the cursor to the EVENT CTRL field,
and press ENTER. The following will be displayed on the LCD screen:
– Page 40 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
C1/L1/Adr100 Sounder
*OperationType:GENERAL
Alarm Events:1
Revision 1.22 March 2013
Silence:ON
Screen 9 Default Operation Type.
The OPERATION TYPE field defines the output device activation options on alarm:
• GENERAL - Activated by any initiating device.
• DEVICE MATRIX - Activated according to control panel device matrix.
• ZONE MATRIX - Activated according to control panel zone matrix.
• GLOBAL ZONE - Activated from any zone in the network (global zone can be
configured only with the PC-based TCS-3040 Programming and Control Software
for the ADR-3000).
The SILENCE field serves to configure whether the output device will be silenced after
pressing the Silence Sounders key on the control panel.
When ON the device will be silenced by pressing the “Silence Sounders ” key on the
operator keyboard.
8.3.2
General Operation
An output device defined as GENERAL will be activated by any initiating device of the
control panel to which it is connected.
On a network of several ADR-3000 systems an output device defined as GENERAL will
be activated by any initiating device of any control panel to which it is connected and
defined as PARTNER. The control panel with the output device should be defined as
“partner” on all panels that will trigger the output device.
Note
The Extinguisher Output Module and the Automatic Extinguisher Control
cannot be defined as GENERAL. They should be defined as DEVICE
MATRIX.
i
8.3.3
Device Matrix
At this option a group of input devices should be selected to form a matrix in order to
activate the configured output device. The number of devices in alarm required to
activate the output device must be set. The following screen shows the fields that
should be defined:
C1/L1/Adr8
Extinguisher Selected:2
*OperationType:DEVICE MATRIX Silence:OFF
Alarm Events:2
Matrix Input-> Card:1 Loop:1 Add:3
ON
Screen 10 Device Matrix Settings.
The ALARM EVENTS field defines the number of input devices that should be in alarm
in order to activate the output device. Any number between 1 and 5 may be selected.
The default is 1.
Change the address to the next active device with the arrow keys.
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Note
To comply with fire regulations, an output device will be activated immediately
after initiating an alarm from a Call Point, if selected to the matrix, regardless
the defined number of alarm events.
i
Adding a device to a matrix
To add an initiating device to the matrix, select its card, loop and address and press the
ON key.
The SELECTED field displays the number of selected devices, and will be updated on
each device addition or subtraction.
Note
In the CARD field, only a line card installed in the ADR-3001 main board may
be selected.
i
The LOOP field allows selection of a loop number depending on the line card model that
is installed on the ADR-3001:
• LOOP: 1 in the ADR-3002 line card.
• LOOP: 1 or LOOP: 2 in the ADR-3002C line card.
Only active input devices can be selected for matrix activation conditions.
Removing devices from activation matrix
To remove an input device from the matrix, select its card, loop and address and press
the OFF key.
When the cursor is on the ADD field, pressing the RECALL MEMORY key enables
browsing through the selected input device matrix.
All the initiating devices related to an output matrix, connected on a certain loop or card,
can be removed at once from the matrix, by highlighting the loop or card fields with the
cursor and pressing the CLEAR key.
Saving to memory
Upon completion of selection of all input devices, press the PROGRAM key in order to
store the device matrix data in memory.
8.3.4
Zone Matrix
A Zone Matrix is an activation array of one or several logical device zones that are
assigned to an output device in order to form complex activation functions.
The number of alarm events required for activation, should be defined between 1 and 5.
When setting the ALARM EVENT field to 1, the output device will be activated on
receiving one alarm from any zone comprised in the matrix.
When setting the ALARM EVENT field from 2 to 5, the output device will be activated in
accordance with one of the followings:
ALARMS
Activation on receiving 2 to 5 alarms simultaneously from initiating devices
of any zone comprised in the matrix.
ALARMS IN SAME ZONE Activation on receiving 2 to 5 alarms simultaneously from
initiating devices at one of the zones comprised in the matrix.
ALARMING ZONES “Alarming Zone” – A zone in which at least one of its initiating
devices is in alarm.
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Activation on receiving 2 to 5 Alarming Zone, from zones comprised in the matrix.
C1/L1/Adr101
Sounder
Selected: 2
*Operation Type: ZONE MATRIX
Silence:ON
Number:2 Event Type:ALARM
MatrixInput-> Zone:1
OFF
Screen 11 Zone Matrix Settings
When selecting Zone Matrix | Alarms, the NUMBER field defines the number of alarm
events from all zones that are required for activation.
The Matrix-Input | Zone field indicates the Zone Number associated with the Activation
Matrix.
When the cursor is in the ZONE field, the up/down arrow keys are used to browse
through the selected Zones,
When the cursor is in the Matrix-Input field, the up/down arrow keys are used to browse
through active Zone Numbers of the system.
An undefined zone (a Zone which has no devices) can not be selected.
The EVENT TYPE field will not be displayed when one alarm event is set to activate the
output device.
When more than one alarm is set, the EVENT TYPE field is displayed and one of the
following can be selected: ALARM; ALARMS IN SAME ZONE; and ALARMING ZONES.
The SILENCE field allows a device to be defined as Silenced (ON) or unsilenced (OFF).
The NUMBER field sets the number of alarm events required to activate the output
device.
8.3.5
Global Zone
A Global Zone enables the creation of a matrix of initiating devices distributed in a
network of several control panels.
The Global Zone activation condition applies only to an output device connected to a
Control Panel that is connected to a network. When selected, the Global Zone condition
does not take under its consideration “Partner” registration within the control panels of
the network.
A zone number configured on different control panels will be recognized as a single zone
by an output device configured as Global Zone.
Note
The Global Zone can be configured only by using a dedicated PC with
Telefire’s propriety TCS-3040 Programming and Control Software for the
ADR-3000.
i
8.3.6
Validity Checking
Validity checking performs activation logic validity check.
8.3.7
•
•
•
Matrix Programming Sequence
Programming the system devices (devices ON)
Assigning zones to input devices (required only for Zone Matrix)
Creating a Device Matrix or a Zone Matrix to activate output devices.
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On pressing the QUIT key a validity test is performed at the control panel. If there
are any programming errors, they will be displayed at this time. To correct the error,
return to the relevant screen.
8.3.8
Advanced Activation Matrix Error Messages
Error in Card:1 Loop:1 Address:8
Extinguisher can not be programmed as
GENERAL output
Screen 12 Activation Matrix Error Messages – Extinguisher Error
Extinguisher and Extinguisher Control devices cannot be set to GENERAL activation
condition.
RESOLUTION: Change the activation condition to device matrix.
Error in Card:1 Loop:1 Address:101
DEVICE MATRIX contains a Device which
was removed from program –
Card:2 Loop:1 Address:120
Screen 13 Activation Matrix Error Messages – Device Matrix Error 1
Displayed when an initiating device belonging to a matrix is programmed OFF, and not
deleted from the matrix.
RESOLUTION: Restore the device to ACTIVE: ON, or remove the device from the
device matrix.
Error in Card:1 Loop:1 Address:101
Number of Alarm Events can not be higher
than number of Selected Devices
Screen 14 Activation Matrix Error Messages – Device Matrix Error 2
Warns when the number of ALARM_EVENTS is higher than the total number of initiating
devices selected in the matrix.
RESOLUTION: Reduce the number of initiating devices required for activation, or add
devices to the device matrix.
Error in Card:1 Loop:1 Address:101
Number of Alarm Events can not be higher
than number of Devices in the Selected
Zones
Screen 15 Activation Matrix Error Messages – Zone Matrix Error 1
Warns when the number of ALARM EVENTS is higher than the total number of initiating
devices in all zones of the Matrix.
RESOLUTION: Reduce the number in the ALARM EVENTS field, or add devices to
the Matrix.
Error in Card:1 Loop:1 Address:101
ZONE MATRIX contains a Zone which
was removed from program – Zone:10
Screen 16 Activation Matrix Error Messages – Zone Matrix Error 2
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Is displayed when a zone no longer exists. Occurs after programming OFF the initiating
devices of the zone, or changing its zone number.
RESOLUTION: Restore the canceled zone, or remove the missing zone from the
matrix.
Error in Card:1 Loop:1 Address:101
Number of Alarm Events can not be higher
than number of Devices in Zone: 123
Screen 17 Activation Matrix Error Messages – Zone Matrix Error 3
Warns When the Alarm Events number is higher than the total number of initiating
devices in a specific zone.
RESOLUTION: Reduce the number of Alarm Events, or add initiating devices to the
Zone.
Error in Card:1 Loop:1 Address:101
Number of Alarm Events can not be higher
than number of Selected Zones
Screen 18 Activation Matrix Error Messages – Zone Matrix Error 4
Warns When the Alarm Events number is higher than the total number of Zones in the
Matrix.
RESOLUTION: Reduce the number of Alarm Events, or add zones to the Matrix.
8.4
Editing Device Description
Each addressable device has a description field of 40 characters. Usually entering the
description is done through the PC using Telefire’s proprietary software.
Editing an existing description, or adding a new one, can be performed from the
keyboard.
From the Device Program screen, press the NAME key, the Device Description Screen
will be displayed:
Push # for Hebrew
Photoelectric detector in control room
ABCDEFGHIJKLMNOPQRSTUVWXYZ!”#$%&’()*+,-.
abcdefghijklmnopqrstuvwxyz0123456789:;<=
Screen 19 Device Description Screen
Pressing the # key toggles between languages. In order to change or add a description,
use the arrow keys to move the cursor to the point where you wish to rewrite. Press the
down key to move to the characters row. Press, the right/left key to highlight the
required character, and press ENTER. Follow the same procedure for each letter. On
completion of writing, press the PROGRAM key in order to save the description, and
then press QUIT.
8.5
Storing Data in Memory
Press the PROGRAM key in order to store the data in memory after changing field
contents in the DEVICE PROGRAM menu. A confirmation buzz will sound in response
and the word “SAVED” will be displayed on the LCD.
This action should be repeated for each device after completing the entire device
configuration.
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If the QUIT key is pressed before saving, the message “NOT SAVED” will be displayed
on the screen. When pressing the QUIT again the last changes will not be saved.
The system automatically checks programming validity. On confirmation of
programming, the message “PROGRAM COMPLETE” will be displayed.
Before proceeding to normal operation, a message asking whether to perform a
diagnostics test is displayed on the LCD screen. The system will perform the test (see
“DIAGNOSTICS” menu) if you confirm by pressing ENTER. Otherwise the system will
proceed to normal operation.
8.6
Time Programming
Enter the TIME PROGRAM sub-menu to display the following screen:
*Year:2011
Month:11
Date:06
Day:Sunday
Hours:18
Minutes:38
18:38:08
Press * for Menu
Screen 20 Time Program Screen
Use the arrow and number keys to update the date, day of the week, and time fields.
Upon completion, exit this screen by pressing the asterisk (*).
The seconds revert to 00 on exit.
8.7
System Configuration
Upon selecting SYSTEM CONFIG from the System Program menu the following screen
is displayed:
*Panel:1
Partner:2 Active
Card:1 Active
RM Control:0 Active
RM-Language:English J12 Out:not silence
COM 1 Supervise:OFF COM 1:NET3000
->
Screen 21 System Configuration – first page
Move to the second page by pressing repeatedly on the right arrow.
Dialer Delay:0 min J13 FWRE:ON
<-
Screen 22 System Configuration – second page
Panel - In this field the control panel ID number is defined.
Partner - In this field the number of partners of this control panel is displayed.
Card - Indicates the number of configured line cards in the control panel, when the
cursor is not on the Card Field. Highlighting this field enables the selection of card 1
or 2. Press the ON key to enable or OFF to disable the card. Pressing the ON key
when a card is enabled causes the card to switch between Class A and Class B modes.
Please refer to the LI-3000 technical manual for details about Class A connections.
Rm Control - When the cursor highlights any field other than REMOTE CONTROL field,
the REMOTE CONTROL field displays the number of active remote annunciators.
When the cursor is on the REMOTE CONTROL field it enables scrolling through the
remote panels ID numbers and setting the connection to ON or OFF. Please refer to the
RM-4005 manual for further details.
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Rm Language - Used for defining the interface language (Hebrew or English) in the
RM-4005 Remote Panel and Annunciator.
J12 Out - Sets the supervised alarm output, located at J12 marked as A+ and A-, to be
Silenced or not Silenced, when performing a silencing procedure in the system.
Com 1 Supervise - Enables to perform supervision of the RS-232 connection to a PC.
Any RS-232 communication fault will be displayed as a system trouble event. Set to ON
for supervision. Valid only when a PC is connected with the EVENT MONITOR screen
open.
When COM 1 is defined as supervised RS-232 errors such as disconnection will show
on the event window of TCS-3040.
COM 1 - Used for selecting the RS-232 connection to one of the following serial devices:
COMPUTER, PRINTER, or NET3000. Configure to OFF for no connection.
Dialer Delay - Sets the dialer delay in minutes. Dialer delay applies only to day mode
operation. The dialer will activate immediately during night mode.
J13 FWRE – Sets the supervised Trouble output J13 marked +T –T to delivered trouble
events via a Fault warning routing equipment.
8.8
Day / Night Programming
This sub-menu serves for setting system operating modes, by different time settings, to
distinguish between normal operating hours (DAY mode) and nighttime hours (NIGHT
mode).
MODE – This field indicates one of three operating modes.
• DAY – Continuous operation in day mode (without automatic change).
• NIGHT – Continuous operation in night mode (without automatic change).
• TIME-RELATED – Automatic shifting from DAY to NIGHT mode and vice versa,
according to time settings.
*Mode:Time related
Day: Monday
Night start Hours:18
Minutes:30
Night end
Hours:06
Minutes:00
Screen 23 Day/Night Mode – Time Programming Screen
Select one of the modes by using the UP / DOWN keys. At Time-Related mode, each
weekday can be programmed by selecting a day and than setting the nighttime between
night start and night end.
Different time settings can be set for each day of the week. Use the arrow keys to toggle
between fields.
Detector sensitivity will change according to the day and night sensitivity settings of each
detector.
The Day/Night modes also affect dialer operation. An alarm that occurs during night
mode will activate the dialer immediately. During day mode operation will be delayed if
programmed thus.
8.9
Change Password
There are two passwords for level 1 (Operator) and level 2 (Programmer). One enables
the operator to reset the control panel in case of alarm and operate the SILENCE key,
and the second allows the programmer to execute required maintenance and change
system characteristics.
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Factory default passwords are ‘1111’ (operator password), and ‘2222’ (programmer
password).
Entering the operator password does not allow access to the SYSTEM PROGRAM submenu and its functions.
Entering the programmer password permits access and execution of changes in all
menus and fields including operator actions.
1 Operator Password
2 Programmer Password
Screen 24 Selecting a Password to Change
After selecting option 1 or 2, the following screen will be displayed:
Old Password XXXX
Type New Password ____ and press ENTER
Screen 25 Password Change Screen
In this field, the current password is displayed, and a new password may be entered.
i
8.10
Note
Access to this field from SYSTEM PROGRAM is possible only after entering
the previous programmer password.
Detectors Init
Adjust Detectors reference values?
(ENTER/QUIT)
Screen 26 Detectors Initializing Screen
Each detector adjusts itself gradually according to changes of environmental conditions,
by measuring and calculating the new reference value needed for signal processing.
This process normally requires a period of several hours. When the system is turned on
for the first time, or after installing or changing a detector, it is recommended to perform
the initialization process.
If this action is not performed, the adjustment will be completed automatically within few
hours of operation.
Pressing ENTER will activate the fast Initializing. The system will display the message
“DONE!” upon completion. Pressing the QUIT key exits this window without performing
the fast update.
8.11
Diagnostics
Diagnostics test is mostly recommended after completing system installation or
modifications.
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When completing device programming and then quitting the programming menu the
following screen will be displayed.
Panel 1
Program Completed
Perform Diagnostics test?
ENTER/QUIT
Screen 27 Exiting Device Programming.
The screen displays a message asking whether to perform a diagnostics test.
When choosing ENTER a new screen will be displayed.
8.11.1 Performing Diagnostics Test
Diagnostics
Select Card number and press ENTER -
Screen 28 Diagnostics Test
Perform diagnostics by entering the card number for testing.
During diagnostics test the system checks the device communication, device type, and
address errors.
The following trouble messages may be displayed:
TYPE-MISMATCH - Installed device type is Incompatible with the programmed device
type.
EXTRA DEVICE - Is displayed when the system identifies device connecting directly to
the loop but not programmed.
TROUBLE COMMUNICATION - Indicates a problem of communication with the devices.
SAME ADDRESS - Indicates that there are two or more devices in the loop with the
same address number.
The diagnostics test halts whenever it detects an error. The LCD will display an error
message with address details.
When the control panel detects two or more devices with the same address it will turn on
their LEDs in order to assist the installer to identify those devices.
To continue the test press the ENTER key.
On completion of the diagnostics, it is possible to perform an additional test on the same
or the second card.
Press QUIT to exit the test.
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Operation and Maintenance
This chapter describes the actions that should be taken during routine maintenance
operations.
9.1
ON/OFF Device
The function of the ON/OFF device menu is to enable or disable devices in the system.
Alarms from disabled devices are ignored. Access to this function is password
protected.
After entering the password the following screen is displayed:
Select Device and press ON/OFF
Panel:1
Card:1 Loop:1 Address:1
(-----------Device Description---------)
Device enabled
Address Mode
Screen 29 Single Device Enable / Disable
Enter the Panel; Card; Loop numbers and Address to select a device.
Press the OFF key to disable a device or press the ON key to enable it.
When a device is disabled the system performs the following actions:
• The message DEVICE DISABLED is displayed on the lower left corner of the
ON/OFF Device screen
• The SYSTEM OK LED is turned off
• The TROUBLE LED flashes
• The DISABLED LED is turned on
• The system’s buzzer will beep
• A Trouble event is logged by the control panel
Only active devices can be disabled. When the selected device is not programmed, the
message DEVICE NOT PROGRAMMED is displayed on the ON/OFF Device screen.
Acknowledge the trouble event by pressing the # key.
9.1.1
Enable/Disable Zone
The function of the Enable/Disable zone option is to enable or disable all devices in a
particular zone simultaneously.
From the ON/OFF Device screen press the NAME key to open the Enable / Disable
Zone screen.
Select Zone Number and press ON/OFF
*Zone:10
Zone Mode
Screen 30 ENABLE / DISABLE Zone
Select a zone by pressing the up/down arrow keys or keying in the zone number and
press the OFF key to disable the zone or press the ON key to enable it. This will disable
or enable all devices in the zone. Individual device setting will override zone setting.
When a zone is disabled the system performs the following actions:
• The SYSTEM OK LED is turned off
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• The TROUBLE LED flashes
• The DISABLED LED is turned on
• The system’s buzzer will beep
• A Trouble event is logged by the control panel
Acknowledge the trouble event by pressing the # key. You will need to acknowledge
each device in the zone separately.
9.2
Monitor Test
This menu enables the display of the addressable device’s signal output and reference
values numerically and graphically, and performing a remote test of each detector.
The following types of detectors can be monitored: Photoelectric and Ionization Smoke
Detectors, Heat Detectors, Multi-Sensor Detectors, and other I/O devices.
The device can be selected by its address as described in the following screen:
Select Device and press ENTER
*Panel:1 Card:1
Loop:1 Address:3
(--------Device Description--------)
Device enabled
Screen 31 Device Monitor Selection
Select the device and press ENTER, the following screen will be displayed:
Add: 3
Photoelectric Detector Value=94
Valarm=81
Vref=94
▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒▒
Press # for Manual Test
Version:25
Screen 32 Device Monitoring Mode
The screen contains the device address, the alarm threshold value, the numerical
values, and bar-graph display of the device signal output. From this screen a manual
test of the detector can be performed, by pressing # key.
During the test, the message TESTING will be displayed on the screen. On completion
of the test, the message TEST OK or the appropriate error message will be displayed.
It is possible to browse from this screen through the various devices, using the arrow
keys.
When selecting a device that is not programmed in the system, the control panel will
display Device Not Programmed in the lower left corner of the Device Monitor Selection
screen.
When selecting a device that is programmed in the system but is disabled, the control
panel will display Device Disabled in the lower left corner of the Device Monitor Selection
screen.
When selecting a device that exists and enabled, the control panel will display Device
Enabled in the lower left corner of the Device Monitor Selection screen.
9.3
Printer Reports
This screen serves for selecting a report to be printed, as detailed further on in this
Manual.
For printing, connect a serial printer to COM 1 connector on the main board.
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Ensure that the COM 1 field in the SYSTEM CONFIG menu is set to PRINTER. If the
ADR-3000 is configured with the optional GIM-232 Galvanic Isolation Module, ensure
both jumpers setting of the GIM-232 are set to PRINTER.
1
2
3
4
Device List Active
Event List
Alarm History
Trouble History
-
103
3
14
25
Screen 33 Printer Reports Menu
DEVICE LIST
Prints a list of all active system devices. The total number of active
devices is displayed next to the Device List field.
EVENT LIST Prints the current system events.
ALARM HISTORY
Prints the last 250 system events such as Fire Alarm, Alarm
Silence, Evacuation, Reset and Programming.
TROUBLE HISTORY Prints a list of the last 250 Trouble events, such as device failures
and system failures.
i
Note
During printing, a message indicating the percentage of material that has
been sent to the printer will be displayed. Press the # key to stop printing.
Another way for printing reports is by the host computer and the hyper terminal applet.
9.4
Display Reports
The DISPLAY REPORTS menu enables to display on the LCD the Alarm and Trouble
History and Device List.
1 Alarm History – 15
2 Trouble History – 33
3 Device List Active – 24
Total Accumulated Alarms:41
4 Quit
Screen 34 Display Reports Menu
ALARM HISTORY
Displays the last 250 system events such as Fire Alarm, Alarm
Silence, Evacuation, Reset, and Programming.
TROUBLE HISTORY Displays a list of the last 250 trouble events, such as device
failures and system failures.
DEVICE LIST
Lists all active devices.
TOTAL ACCUMULATED ALARMS Total number of alarms encountered by the control
panel.
TROUBLE_HISTORY_LIST -Panel:1
2 of 33
TROUBLE IN
11:36:00 04/11/2004
Card:1 Loop:2 Add:13
communication
(--------Device Description--------)
Screen 35 Alarm or Trouble History
Highlighting the Alarm or Trouble History fields displays the event type, date, time, and
device details.
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Each event is displayed on a separate screen. It is possible to browse through the
events by using the arrow keys or the RECALL MEMORY key.
Device List enables the display of programmed devices. The number of programmed
devices is displayed on the top right side. Pressing the up/down arrow keys will display
the next device or the previous one. Pressing the # key will display additional details
and characteristics of the device and its configuration. Pressing # again returns to the
previous screen.
DEVICE LIST
PANEL:1
2 of 24
Card:1
Loop:1
Address:14
(--------Device Description--------)
Zone:10
Delay:0
# for Details
Screen 36 Device Characteristics and Configuration
9.5
Utilities
Serves for system test and maintenance. Pressing option 6 UTILITIES will open an
additional screen offering the following operations:
1 Lamp Test
5 Card Reset
2 Version
6 History Clear
3 Keyboard Locking
7 Advanced
4 Modem Config
Screen 37 Utility Operations
9.5.1
Lamp Test
The lamp test turns on all the LEDs on the control panel, for test purposes. It also
activates the alarm/trouble buzzer for 2 seconds.
9.5.2
Version
This option displays the software and hardware versions of the main board, and the type
and software version of the line card(s).
Panel: ADR-3001 version 03.02P Bord C
Card1 ADR-3002C version 01.68
Screen 38 Control Panel Version
9.5.3
Keyboard Locking
The KEYBOARD LOCK function prevents unauthorized people from activating functions
by pressing accidentally the operator keys such as silencing an alarm or reset.
When the keyboard is locked, no action can be taken in the system, except
acknowledge, browsing the memory and displaying alarm and trouble events.
The ADR-3000 default configuration is locked keyboard.
To change the keyboard locking mode, go to the UTILITIES menu and select
KEYBOARD LOCKING. You will need to enter the programmer password to access this
submenu.
The UP/DOWN arrow keys change the locking mode.
Changing to UNLOCKED mode enables the operator/programmer access to silence and
reset functions without entering a password.
The keyboard will stay unlocked until the control panel is powered off.
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If DIP Switch 7 is down, the control panel powers up in keyboard locked mode. If DIP
Switch 7 is up, the control panel powers up in the same mode (keyboard locked or
unlocked) as it was prior to powering down.
NFPA 72 Recommendation
NFPA recommendation and local regulations in most countries require that
the keyboard be locked.
NFPA 72
Keyboard Mode:Locked
Screen 39 Keyboard Locking
Warning
After performing system operations, the Operator/Programmer must
restore the keyboard locking mode to LOCKED.
!
9.5.4
Card Reset
Factory use only.
9.5.5
History Clear
Allows clear Alarm history, Trouble history and Alarm counter after installing ADR-3000
system and perform testing.
For clear history Dipswitch 7 must be turn On.
9.5.6
Advanced Utilities Menu
Factory use only.
9.6
Walk Test
This feature allows the testing of all the initiating devices of the system.
The device test is performed by placing a magnet near the detector’s test point or by
activating the alarm call-points with the test key (supplied with the call-points).
Entering the Walk Test mode is done through the main menu and requires a password.
From the main menu select WALK TEST. The following message is displayed:
WALK TEST OPERATION
Select Card No._
Screen 40 Walk Test
Entering the card number to be tested. If the selected card is an ADR-3002C (two-loop
line card), both loops will be in walk test mode. The other card, if installed, will continue
to operate in normal mode. Start testing by initiating the devices. Upon activation of the
device, the device alarm indicating LED will light and the device address will be
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displayed on the LCD. After 15 seconds the system will perform automatic reset to the
device. During the automatic test no outputs are activated.
An alarm received from a device connected to the card that is not in Walk Test mode will
abort the Walk Test procedure and activate the alarm.
Two simultaneously alarms from the tested card will abort the Walk Test procedure and
activate the alarm.
A device that is programmed as delayed will respond to the test immediately.
To stop the automatic test process, press the QUIT key.
The system aborts the walk test and returns to normal operation if no devices are tested
for 15 minutes.
– Page 55 of 83 –
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
10
Revision 1.22 March 2013
Alarm, Trouble, and Supervisory Conditions
An alarm, trouble, or supervisory event is clearly notified by indicating LEDs marked
FIRE, TROUBLE, or SUPERVISORY accordingly. Additionally, a detailed description is
displayed on the LCD screen.
Fire alarms, trouble situations, and supervisory events are defined as events. When two
or more events are displayed simultaneously, the first event will be displayed and the
MEMORY LED will indicate the presence of additional events. The appropriate
message of the event number and the total number of events will be displayed on the
LCD screen and be saved in the event history log.
The alarm events have a higher priority than the trouble events and so will be displayed
first on the LCD. To sort through the current event sequence, use the RECALL
MEMORY key or the UP/DOWN navigating arrows.
Events are displayed in the following priority order:
• Fire Alarm events in the sequence they entered the system
• System Trouble events
• Supervisory and Trouble in the addressable devices
Pressing on the CLEAR key returns the display to the first event.
The event screen displays the event description time, device description and device
type.
When pressing the “ADDRESS” key, the device type line will change to the device
“PANEL No. CARD No. Loop No. and Address No.”
Pressing the NAME key will return to the device description.
Acknowledge – After viewing the alarm/trouble details, the operator may acknowledge
the event by pressing the # key on the numeric keyboard. The # symbol will be
displayed on the left side of the event number field. If additional events occur, the #
mark will differentiate the events that were acknowledged previously.
10.1
Alarm Events
When the control panel goes on alarm, the red FIRE LED will start to flash, the internal
buzzer will sound continuously, and the following will be displayed on the screen:
Event 1
15:45 ALARM
(First alarm description line)
(Last Alarm description line)
*MENU, # Acknowledge
TOTAL EVENTS:14
Screen 41 Alarm Display
The top row shows the event number, the time it occurred, and the type of event, in this
case: ALARM. When more than one Alarm events occurs simultaneously:
On the second row shows description of the first alarm event
On the third row shows description of the most resent alarm event. This row blinking and
shows changed from Last Alarm to description event.
Total of each types of events shows on the lower row.
The MEMORY LED will light and the TOTAL EVENTS field will be updated.
When an alarm occurs, the notification devices that are activated can be silenced by
pressing the ALARM SILENCE key and entering the operator password. A new
Incoming alarm event will reactivate the notification devices.
– Page 56 of 83 –
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
10.1.1 Alarm Verification
This feature enables the control panel to ignore expected alarm conditions that cause
nuisance alarms. It is allowed to be set only for addressable smoke detectors and to
conventional smoke detectors that are connected through an input module.
The control panel will ignore an alarm signal of the same detector for the delay period,
set in the delay field of the detectors programming screen. The delay time can be set
between 0 – 60 seconds.
In alarm verification period LED Pre Alarm/AVF will blinking until the end of delay time
and alarm event appear.
At the verification period, any additional alarm signal indicated by the control panel will
activate the alarm condition at once although the alarming devise is programmed with a
delay.
If no additional alarm is indicated during the verification period, the timer resets and the
control panel returns to normal mode.
10.1.2 Alarm Event Operations
When an alarm occurs, the following outputs are activated:
General Outputs
General outputs are activated by any alarm in the control panel.
• Main horn output (in J10)
• Dialer output (in J9)
• Two alarm contacts (in J12)
• Programmable alarm output +A-A (in J12)
Addressable Outputs
Addressable outputs are activated according to the Advanced Activation Matrix.
• ADR-823 Three-Channel Input/Output Control Module
• ADR-828 Eight-Channel Output Module
• ADR-833 Analog Addressable Extinguishing Control Unit
Communication Actions
• Displaying an Alarm Message on the system’s LCD
• Sending an Alarm Message to Remote Annunciators RM-4005 connected to
COM 2.
• Sending an Alarm Message to the computer or printing the events on the printer if
available through COM 1.
10.1.3 Display when there is more than one alarm
When there are multiple alarms in the system the control panel shall display Screen 42
on page 58.
The first line indicates the event number, the time, and event type. If the dialer is
activated the word Dialer shall also be shown.
The second line shows the description of the device that caused the first alarm. It is
possible to see other events by pressing the Recall Memory key.
The third line indicates the description of the device that caused the last alarm. This line
does not change.
The fourth line indicates the total number of alarms and trouble events in the system,
and alternates between the field indicating the number of fault events and the number of
disabled devices.
– Page 57 of 83 –
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
Event
Alarm
Description first alarm
Description last alarm
Menu
Total Alarm
Dialer
Screen 42 Display for multiple alarm events
Pressing the Address key shall display the device’s address. Additional pressing of
Address shall alternate between the device’s address and type. Pressing Name key
shall display the devices description.
10.2
Trouble Events
When a trouble event occurs the yellow TROUBLE LED on the operator’s panel will
flash, the LCD will display the event details and the internal buzzer will sound a onesecond beep every four seconds.
There are two trouble event categories:
• System trouble
• Addressable device trouble
10.2.1 System Trouble
A failure in the back-up batteries, horns, dialer or computer communication (if COM 1
was defined as Supervise and there is a PC connected running TCS-3040 with the
Event Monitor window open), power supply, etc., is defined as a system trouble event,
and when the system is updating its programming settings.
For example: the next screen describes a battery failure.
EVENT 1
12:34 TROUBLE
Panel:1 Battery not Connected
* MENU
TOTAL EVENTS:1
Screen 43 System Trouble Display
10.2.2 Device Trouble
Failure associated with addressable devices such as detectors, call points, input
modules, output modules, etc., is defined as device trouble event.
Example: screen describes a trouble event of an addressable device.
EVENT 1 14:56 TROUBLE Communication
(------Description line-----)
* MENU
TOTAL EVENTS:2
Screen 44 Addressable Device Trouble Display
On occurrence of a trouble, the internal buzzer will sound. Pressing the SILENCE key
will silence the buzzer.
The occurrence of a new trouble event will renew buzzer operation.
i
Note
Browsing the system and device events is done as described for browsing
the alarm events.
– Page 58 of 83 –
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© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
10.2.3 Trouble Event Operations
When a trouble event occurs, the following outputs are activated:
General Outputs
• Trouble output T-T+ (in J13)
• Trouble relay in (J13)
Communication Actions
• Displaying a Trouble message on the system’s LCD
• Sending a Trouble Message to RM-4005 Remote Annunciators connected to
COM 2.
• Sending a Trouble Message to the computer or printing the events on the printer if
available through COM 1.
10.3
Supervisory Events
ADR-3000 fire alarm control panels with software version 3.01E or higher support
supervisory function according to UL and EN standards. A supervisory event does not
“lock” – at the end of the event the system returns to normal mode without operator
intervention.
A supervisory event signals the need for a system related action that is not a part of the
fire detection system although it is supervised by it such as a sprinkler system.
The supervisory function allows monitoring switches and activations as a result of
change in their condition using the fire alarm infrastructure.
In certain cases there is a need to activate an output as a result of a fault such as
notification of loss of pressure in an extinguishing container, a closed sprinkler valve,
etc., The new supervisory function is intended to respond to this need.
A supervisory event will cause the following response in the control panel:
• The SUPERVISORY LED will flash
• The TROUBLE LED will turn on
• The trouble buzzer will sound
• An event will be logged in the system’s Trouble History
• A supervisory output will be activated if there is a corresponding output defined
10.3.1 Operation during a supervisory event
A supervisory event will cause the following response in the control panel:
• The SUPERVISORY LED will flash
• The TROUBLE LED will turn on
• The trouble buzzer will sound
• An event will be logged in the system’s Trouble History
• A supervisory output will be activated if there is a corresponding output defined
i
Note
Two types of devices can be defined as Supervisory”
• SUPERVISORY_SWITCH – only an ADR-805 input module or the IDC
input of an ADR-823 module
• SUPERVISORY_OUT – any output module
Both input and output devices should be configured as the same zone.
– Page 59 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Figure 25 An example of using the supervisory function
– Page 60 of 83 –
Revision 1.22 March 2013
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
11
Peer to Peer Network
11.1
Network Characteristics
Revision 1.22 March 2013
A network can consist of as many as 32 control panels establishing a system network.
All nodes in such a network are equally connected. By programming, each control panel
in the network is able to respond to alarm or trouble events of other programmed control
panels. This will be followed by regular event notification and the exact address of it.
Every control panel should be given a different ID number called a “Panel Number”.
Two control panels with the same number in the same network will cause a fault
condition.
In order to allow a certain control panel to respond to events of other control panels
“Partners” (Overseen control panels) the Partners should be registered as “Partners” in
the control panel that oversees them. This registration is done in the System Config
menu.
The Overseeing control panel is able to execute bell silence of events accrued at the
partner control panels, and reset them as well.
Corresponding configurations should be done at each control panel separately.
11.2
Network Configuration
The registration of partners of each control panel is done separately. For setting the
partners numbers:
Select 1 – SYSTEM PROGRAM from the Main Menu Screen,
1 System Program
5 Display Reports
2 On/Off Device
6 Utilities
3 Monitor Test
7 Walk Test
4 Printer Reports
8 Quit
Screen 45 Main Menu Screen
Then select 3 – SYSTEM CONFIG from the System Program Menu,
1 Device Program
5 Change Password
2 Time Program
6 Detector Init
3 System Config
7 Diagnostics
4 Day/Night Program 8 Quit
Screen 46 System Program Menu Screen
The first two fields should be set to configure the control panel for network operating.
PANEL In this field the ID number of the control panel is defined.
PARTNER In this field the number of partners of this control panel is displayed.
Panel:3
Card:1Active
RM-language:English
COM 1 Supervise:OFF
Partner:2 Active
RM Control:3 Active
J12 Out: silenced
COM 1:Computer
Screen 47 System Configuration Screen
To register other control panels to the partner list move the cursor to the field then use
the up/down arrow key for selecting the control panel you want to register, then press
the ON key.
– Page 61 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
11.3
Revision 1.22 March 2013
Network Hierarchy
Each control panel can be configured with different supervisory privilege on a peer-topeer basis. The control panels in a network can be set to oversee other control panels
and can be overseen at the same time. This peer-to-peer configuration enables
flexibility in planning the network configuration. Some configurations are shown in the
following examples:
11.3.1 Two control panels configured as peer to peer
In this example both control panels are overseeing each other.
The settings are:
In Panel 1: Partner 2 – ON
In Panel 2: Partner 1 – ON
Figure 26 Network example 1
11.3.2 Two control panels configured as master / slave
In this example Panel 1 oversees Panel 2, while Panel 2 controls itself only.
The settings are:
In Panel 1: Partner 2 – ON
In Panel 2: Partner 1 – OFF
Figure 27 Network example 2
11.3.3 Hierarchal Network
This example shows a network of five control panels that are located on several floors:
(lobby, mezzanine, first, second, and third floors).
– Page 62 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
The control panel at the lobby and the one in the mezzanine need to manage all control
panels. The other control panels will only be managed and do not manage any other
control panels.
Partner setting will be as follows:
Panel 1 (Entrance): partner 2, 3, 4, and 5: ON (manage panels 2, 3, 4, and 5).
Panel 2 (Maitenance): partner 1, 3, 4, and 5: ON (manage panels 1, 3, 4, and 5).
Panel 3 (first floor): all partners are set to OFF (do not manage any panel).
Panel 4 (second floor): all partners are set to OFF (do not manage any panel).
Panel 5 (third floor): all partners are set to OFF (do not manage any panel).
Figure 28 Network example 3
11.3.4 Network Capabilities
All network accessories that can be connected to a single control panel are common. In
this example: a computer that is connected to panel 1, a NET-3000 to panel 2 and a
second computer with a printer to panel 3.
A printer can be connected directly to a control panel printing the events of other control
panels.
In this example, remote annunciator RM-4005 can display events of the control panels
that are registered as partners.
Downloading or uploading of panel configuration can be executed through one
connected PC, regardless of partner registration.
– Page 63 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Figure 29 Network Capabilities
– Page 64 of 83 –
Revision 1.22 March 2013
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
12
System Fuses
12.1
Power Supply Fuses
Fuse
12.2
Fuse Function and Location
F1
Battery Fuse (located on power supply card)
F2
Main Fuse (located on power supply card)
Table 5
Revision 1.22 March 2013
Rating1
6.3A
3.15A
Power Supply Fuses
Main Board Fuses
Fuse
Fuse Function and Location
Rating1
F1
Horn Output (J10)
0.5A
F2
24Vdc _B Out (JP7 and J8)
2.0A
F3
24Vdc _A Out (J11)
2.0A
F4
Dialer (J9)
0.5A
F5
General Trouble (J13-1 and J13-2); Alarm (J12-1 and
J12-2); and Aux 24V (J13-7 and J13-8)
0.5A
Table 6
Main Board Fuses
Figure 30 Main Board fuse location
1
Power supply fuses and main board (ADR-3001) fuses are 5 * 20mm slow-blow fuses
– Page 65 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Warning
To avoid damage to the system ensure that replacement fuses are rated
as per the above tables.
Disconnect AC input and backup batteries prior to changing fuses.
!
12.3
Revision 1.22 March 2013
Line Card Fuses
Card
ADR-3002
ADR-3002C
Table 7
Fuse
Description
Rating
F1
Loop fuse
0.5A SB2
F1 and F2
Loop fuses
0.5A SB SMT
Line card fuses
Note
The analog lines are electronically protected against short-circuits. The fuses
serve as a secondary protection.
i
2
Power ADR-3002 fuse is 5 * 20mm slow-blow fuse
– Page 66 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
13
Revision 1.22 March 2013
Periodic Testing
Periodic maintenance shall be, as a minimum, performed per NFPA 72. Maintenance
shall be performed by a trained or authorized Telefire representative.
The system should be inspected entirely at least twice a year, or as required by national
and/or local fire codes. All devices, system wiring and component functions should be
tested and maintained. These inspections should be performed in addition to the routine
maintenance activities such as cleaning the detectors (which should be performed in
accordance with Telefire’s instructions).
Maintenance and test actions shall be conducted by a company or service technician
authorized by Telefire.
Records of all inspection and maintenance activities should be kept.
i
13.1
Note
This testing shall be performed by authorized service personnel that are
employed by authorized companies.
Weekly Inspection – performed by the Site's Safety Supervisor
The site's safety supervisor should inspect the control panel weekly and verify that all of
the following conditions exist:
• Both green LEDs are on and are not blinking
• None of the yellow or red LEDs are on or blinking
• The control panel's trouble buzzer does not sound
• The LCD display states SYSTEM OK and the correct time
Open the control panel's front door and verify that the red LEDs on the line card flash
occasionally.
Call you service company if any of these conditions is not met
– Page 67 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
14
Revision 1.22 March 2013
Warnings and Limitations
i
i
Note
Fire alarm systems are composed and assembled of different devices and
subsystems, such as control panels, annunciators, smoke detectors, heat
detectors, manual call points, extinguishing activation devices, and
annunciating devices intended to alert to fire / smoke.
Using this system does not ensure protection from or prevention of fire and/or
smoke damages, but proper use of the system may reduce fire and smoke
damages.
Proper system configuration design, including all of its components and
infrastructure, as well as proper installation according to the manufacturers'
instructions and the applicable standards – are a conditioned precedent for
the proper and efficient function of the system.
The designer and installer should have the appropriate skills and
qualifications for performing said installation and all damages or losses
resulting from improper design and/or installation lie with the designer and/or
installer alone.
All loss or damage caused by improper action shall lie with the originator of
said improper action.
The manufacturer shall not be liable for any fire and/or fire damages caused
by fire in location where fire systems are installed and or results of direct or
indirect fire damage that may be caused to any persons and/or property
and/or third parties as a result of using the product and/or resulting from its
inaction.
Note
Do not install, operate, or maintain this product before fully reading this
manual.
– Page 68 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
15
Revision 1.22 March 2013
Troubleshooting
This table describes trouble events that may be displayed during installation, normal
operation and maintenance operations.
Two types of “trouble events” may occur: system- or device trouble. The following table
describes the trouble messages, the cause of the trouble and actions to be taken.
i
15.1
Note
The hex sign (#) in the error message tables below indicate a number that
indicates the panel number, card number, loop number, or device address.
System Failure
The following table lists error messages sorted alphabetically. Locate the error message
you encountered and troubleshoot according to the possible cause and recommended
repair action.
Error Message
Possible Causes
Repair Action
24V_A F3 fuse_blow
24Vdc OUTPUT A fuse
blown.
Replace fuse F3.
24V_B F2 fuse_blow
24Vdc OUTPUT B fuse
blown.
Replace fuse F2.
AC power not connected
Fault in primary power to
control panel, or main fuse
burned out.
Check mains or fuse.
Alarm out Fuse Blow F5
Alarm Output (J12) Fuse
(F5) blowout
Check Alarm Output
voltage and replace fuse
Alarm out not connected
Cutoff of alarm output (J12
A- and A+).
Check the line and EOL
resistor 5.1KΩ.
Alarm out short_circuit
Short of Alarm Output line
(J12 A- and A+).
Check the cause of the
short and eliminate.
Battery 24V Low
Damaged or uncharged
battery
Check voltage on JP2 on
ADR-4004TSW power
supply module. Output
should be about 27.3V.
Change batteries if voltage
is OK, change power
supply if not.
Battery Low Current
Damaged battery, high
resistance
Replace batteries.
Battery not connected
Battery not connected
Check battery fuse, or
battery connections.
Card # defective
Fault in line card.
Replace the line card.
Card # Loop # short
Short of SLC analog line.
Find the short cause and
eliminate.
– Page 69 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Error Message
Revision 1.22 March 2013
Possible Causes
Repair Action
Card # Loop # Fuse blow
Line card’s fuse burned
out.
Find the short cause and
replace fuse.
Card # Program Process
Is displayed during card
programming process.
The message no longer
displays after
programming.
Card configured, not exist
Line card programmed but
not installed.
Check connection, or
cancel card programming.
Card exists – not
configured
Line card installed but not
programmed.
Add the card in SYSTEM
CONFIG programming.
COM 1 Supervise Error
Loss of connection to PC
(happens only when
COM 1 Supervise is
enabled and a PC is
running the TCS-3040
software has the Events
Monitor window open)
Ensure a proper
connection between
COM 1 and the PC.
Dialer Fuse Blow
Dialer Fuse blowout (F4).
Check dialer current and
replace Fuse.
Dialer not connected
Cutoff of dialer output line.
Check the line and EOL
resistor 5.1KΩ.
Dialer short
Short of dialer output line.
Check the cause of the
short and eliminate.
Ground Fault Negative
Short or leakage between
ground and system’s (–)
connections.
Find the source in wiring or
water leak.
Ground Fault Positive
Short or leakage between
ground and system’s (+)
connections.
Find the source in wiring or
water leak.
Horn Fuse Blow_F1
Horn Fuse blown (F1).
Check Horn voltage and
replace fuse.
Horn not connected
Cutoff of horn output line.
Check the line and EOL
resistor 5.1KΩ.
Horn short
Short of Horn output line.
Check the cause of the
short and eliminate.
Trouble out Fuse Blow
Trouble Output (J13) Fuse
(F5) blowout.
Check Trouble Output
voltage and replace fuse.
Trouble out not connected
Cutoff of Trouble output
(J13)
Check the line and EOL
resistor 5.1KΩ.
Trouble out short
Short of Trouble Output
line (J13)
Check the cause of the
short and eliminate
Table 8
Troubleshooting Table – System Failure
– Page 70 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
15.2
Revision 1.22 March 2013
Remote Annunciator Panel (RM-4005) Failure
Error Message
Remote Control not
connected
Possible Causes
Improper connection, or
24Vdc problem
Repair Action
•
•
Table 9
15.3
Check wiring and
connections.
Check RM-4005
address.
Troubleshooting Table – RM-4005
Addressable Devices Failure
Error Message
Possible Causes
Repair Action
Trouble – disabled
The device is set to OFF
(disabled)
To enable device: select
ENABLE / DISABLE
DEVICE (main menu),
select the detector’s
address and press the ON
key
Trouble –Exting. Activate
Automatic Extinguisher
was activated
Replace empty cylinder.
Go to device programming
mode, select the
appropriate device and
press PROG
Trouble 24V Low
Low or nonexistent 24Vdc
input to an ADR-8XX
module or TIP-224A
Check connections and
repair
Trouble AC Power
TPS-34A has no A/C input
Check cause and repair
Trouble Battery cut
TPS-34A open in backup
battery connections
Check connections and
repair
Trouble Communication
No communication with
addressable device
Check connections and
device presence
Trouble Cut Circuit
Cutoff circuit in I/O device
of non-addressable line
Locate the cause and
repair
Trouble Fuse Battery
Blown TPS-34A battery
fuse
Locate the cause and
replace fuse
Trouble Fuse_24V
24V Fuse in I/O Module
burned out
Find the short cause and
replace fuse
Trouble Maintenance
Dusty or contaminated
detector
Replace detector and bring
for maintenance
Trouble short-circuit
Short in an I/O device of
non-addressable line
Locate the cause and
repair
Table 10
Troubleshooting Table – Addressable Devices
– Page 71 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
15.4
Programming Trouble
Error Message
Possible Causes
Repair Action
Trouble Message
Possible Cause
Repair Actions
Device Count
Device count error
Check DEVICE
LIST:ACTIVE and
compare to “as made”
documentation
Extra device
Device connected to SLC
line and not programmed
Add device address by
programming. Enter
SYSTEM PROGRAM,
DEVICE PROGRAM, and
add the device
Same address
Two devices with same
address
Change the address of one
of the devices
Type mismatch
Wrong device type
Install the appropriate
device or correct device
type programming
Table 11
15.5
Revision 1.22 March 2013
Troubleshooting Table – Programming Trouble
LonWorks Trouble
Error Message
Partner – Panel# not
connected
Table 12
Possible Causes
Panel # is powered off, or
open or short in LON
cabling
Troubleshooting Table – LonWorks Trouble
– Page 72 of 83 –
Repair Action
Check connections and
control panel presence
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
16
Detector Sensitivity Selection
16.1
Smoke Detector Sensitivity Selection Table
Least
Sensitive
Sensitivity
Obscuration
(% per foot)
Table 13
16.2
2.0
Day
Night
Default Default
1.8
1.6
1.4
1.2
Most
Sensitive
1.0
0.8
Smoke Detector Sensitivity
Heat Detector Sensitivity Table
Heat Detectors can be set in two modes:
• FIXED TEMPERATURE – The alarm point can be set between 50°C – 90°C in
steps of 1°C.
• RATE OF RISE – The detector will alarm when the rate of temperature rise is equal
or higher then the setting in the Sensitivity Field, in the range of 7°C/minute –
13°C/minute in 1°C/minute steps.
Sensitivity
Fixed Temperature
Rate of Rise
Table 14
16.3
Least Sensitive
Default
Most Sensitive
90°C
50°C
50°C
13°C per minute
9°C per minute
7°C per minute
Heat Detector Sensitivity
Multisensor Photoelectric / Heat Detector Setting
A smart algorithm is used by the TPH-442A’s powerful processor to analyze the ambient
temperature, its rate of rise and the trend of these parameters. It then passes a value to
the control panel.
Set the detector’s sensitivity between 2 (most sensitive) and 10 (least sensitive).
Sensitivity
Multi-sensor setting
Least Sensitive
10
– Page 73 of 83 –
Default
Most Sensitive
5
2
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Power Supply and Battery Calculations
Fill in the following table to calculate the total load on the system’s power supply during
quiescence (standby) and state alarm.
Quiescence
Device
Internal modules and General Output
17
Revision 1.22 March 2013
QTY
Current
Alarm
Total
Current
Total
ADR-3000/1
{
} X
70.00 mA
=
200.0 mA
=
ADR-3000/2
{
} X
80.00 mA
=
200.0 mA
=
ADR-3000/3
{
} X
85.00 mA
=
220.0 mA
=
ADR-3000/4
{
} X
95.00 mA
=
220.0 mA
=
LON-3000/7000
{
} X
10.00 mA
=
10.0 mA
=
NET-3000
{
} X
120.00 mA
=
120.0 mA
=
GIM-232
{
} X
1.50 mA
=
1.5 mA
=
300.0 mA
=
40.0 mA
=
TDM-500i
{
} X
20.00 mA
=
TIP-224
{
} X
0 mA
=
Other NAC
{
} X
mA
=
mA
=
Other NAC
{
} X
mA
=
mA
=
Other NAC
{
} X
mA
=
mA
=
ADR-805 Rev B
{
} X
0.26 mA
=
3.0 mA
=
ADR-805 Rev C
{
} X
0.20 mA
=
2.0 mA
=
ADR-812
{
} X
0.15 mA
=
2.1 mA
=
ADR-818
{
} X
0.26 mA
=
2.1 mA
=
ADR-823
{
} X
0.30 mA
=
2.8 mA
=
0
ADR-828
{
} X
0.39 mA
=
3.0 mA
=
ADR-833
{
} X
6.50 mA
=
6.5 mA
=
LI-3000
{
} X
2.20 mA
=
4.0 mA
=
TFH-280A
{
} X
0.20 mA
=
TFL-1AN
{
} X
0 mA
=
TFO-480A
{
} X
0.29 mA
2.6 mA
=
10.0 mA
=
=
2.6 mA
=
0
TPB-800ASR
{
} X
0.12 mA
=
2.0 mA
=
TPB-800ASY
{
} X
0.12 mA
=
2.0 mA
=
TIP-224A
{
} X
0.12 mA
=
5.0 mA
=
TPB-800ASR
{
} X
0.12 mA
=
2.0 mA
=
TPB-800ASY
{
} X
0.12 mA
=
2.0 mA
=
TPH-482A
{
} X
0.29 mA
=
2.6 mA
=
TPS-34A
{
} X
0.34 mA
=
0.5 mA
=
TFP-3000
{
} X
15.00 mA
=
70.0 mA
=
TFP-1CP
{
} X
0.25 mA
=
2.8 mA
=
TFP-806
{
} X
0.25 mA
=
2.8 mA
=
TFP-828
{
} X
0.39 mA
=
3.0 mA
=
(a)
=
Totals
Table 15
(b)
=
Power Requirement – Internal and SLC
At least one and no more than two line cards (ADR-3002 and ADR-3002C) of any
combination can be installed in the ADR-3000.
Only one module (NET-3000 or GIM-232) can be installed in the lower expansion slot.
– Page 74 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
SLC connected modules and devices
Device
QTY
Revision 1.22 March 2013
Quiescence
Current
Total
Alarm
Current
Total
ADR-812
{
} X
11.5 mA
=
80.0 mA
=
ADR-818
{
} X
40.0 mA
=
100.0 mA
=
ADR-823
{
} X
4.0 mA
=
32.0 mA
=
ADR-828
{
} X
10.0 mA
=
125.0 mA
=
ADR-833
{
} X
20.0 mA
=
120.0 mA
=
TIP-224A
{
} X
0.1 mA
=
45.0 mA
=
RM-4005
{
} X
40.0 mA
=
70.0 mA
=
TLA-22
{
} X
2.0 mA
=
0.0 mA
=
TLA-23
{
} X
2.0 mA
=
0.0 mA
=
TLA-33
{
} X
3.0 mA
=
0.0 mA
=
TLA-42
{
} X
2.0 mA
=
0.0 mA
=
TLA-44/1 or
TLA-44/4
{
} X
5.0 mA
=
0.0 mA
=
TLA-110
{
} X
1.5 mA
=
0.0 mA
=
TLA-120
{
} X
1.5 mA
=
0.0 mA
=
TLA-130
{
} X
1.5 mA
=
0.0 mA
=
TLA-140
{
} X
1.5 mA
=
0.0 mA
=
TLA-150
{
} X
1.5 mA
=
0.0 mA
=
TLA-160
{
} X
1.5 mA
=
0.0 mA
=
TLA-165
{
} X
1.5 mA
=
0.0 mA
=
TLA-170
{
} X
1.5 mA
=
0.0 mA
=
TLA-180
{
} X
1.5 mA
=
0.0 mA
=
TLA-190
{
} X
1.5 mA
=
0.0 mA
=
TFP-3000
{
} X
34.0 mA
=
80.0 mA
=
TFP-1CP
{
} X
0.0 mA
=
2.0 mA
=
TFP-806
{
} X
0.0 mA
=
2.0 mA
=
TFP-828
{
} X
10.0 mA
=
125.0 mA
=
Other NAC
{
} X
mA
=
mA
=
Other NAC
{
} X
mA
=
mA
=
Other NAC
{
} X
mA
=
mA
=
Total 24Vdc
current
consumption
Table 16
(c)
(d)
Power Requirement – 24Vdc
First fill in the quantities of devices attached to the system in Table 15 and calculate total
current load of the internal configuration and load on the SLC loop.
Secondly calculate the power draw from the system’s 24V output (Table 16).
Thirdly copy the appropriate fields into Table 17 and calculate battery requirement and
system load.
Multiply the number of devices of each type with the current and calculate the total
current.
When connecting indicating output devices such as horns and bells to output modules,
add their current to the total current for both standby mode and alarm mode.
– Page 75 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Standby Mode
Current from
Control Panel (A)
(a)
({
}
+
+
{
Revision 1.22 March 2013
Standby Mode
Current from the
24Vdc source (A)
(c)
X
24 Hours
60 Hours
4 Hours
})
X
{
Standby Mode
Amp Hr.
=
}
=
+
Alarm Mode
Current from
Control Panel (A)
(b)
({
}
+
+
{
Alarm Mode
Current from the
24Vdc source (A)
(d)
X
5 Minutes
(0.084H)
})
X
{
=
}
=
Ampere Hours Sum
=
Ampere Hours Sum X 1.2 derating factor
=
Table 17
Alarm Mode
Amp Hr.
Power Requirement – Final Calculation
The ADR-3000’s power supply module can charge batteries in capacity of up to 12AH.
The battery enclosure can contain two 12V sealed lead-acid batteries, up to 20 (W) by
7 (D) by 12 (H) cm each.
For fire alarm control panels requiring larger batteries use the BC-3000 external battery
enclosure. This enclosure can contain two 12V sealed lead-acid batteries, up to 20 (W)
by 10 (D) by 15 (H) cm each.
If the system requires larger battery capacity than 12 AH add the TPS-34A Auxiliary
Power Supply with its own batteries. Please refer to the TPS-34A manual for additional
details about the TPS-34A auxiliary power supply.
Additional TPS-34A power supplies are required if one or more of the following
conditions is true:
• The quiescence 24V current draw exceeds the control panel's power supply
limitations (0.5A for ADR-4004TSW)
• The 24V current draw in alarm exceeds the control panel's power supply limitations
(4.0A for ADR-4004TSW)
• There is a need for batteries in capacity that exceeds the control panel's power
supply limitations (12AH for ADR-4004TSW)
• The voltage drop on the 24V lines exceeds allowed limitation (no more than 2V at
the furthest device, while still leaving sufficient voltage for the device to operate).
i
Note
TPS-34A Analog Addressable Auxiliary Power Supplies should be installed
as close as possible to the devices they activate to reduce power loss.
TPS-34A auxiliary power supplies should not be shared between multiple
control panels or between line cards on the same control panel. TPS-34A
auxiliary power supplies may be shared between the two loops of a single
ADR-3002C line card.
– Page 76 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
Revision 1.22 March 2013
18
Wire Characteristics and Length Limitations
18.1
Wire Characteristics’ influence on System Performance
The following table summarizes the way wiring characteristics influence system
performance:
Characteristic
Voltage Outputs
Electric Resistance
Minimal
Very high
Capacitance
High
No effect
Inductance
High
Minimal
Mechanical Strength
High
High
Table 18
18.2
SLC
Wiring Characteristics’ influence on System Performance
SLC Loop Wire
Use a twisted pair wire 12 to 18 AWG and follow the guidelines in the table below for
wire selection.
Cable Type
Cross Section
18 AWG
0.8mm2
950m
3,130 ft
16 AWG
1.3mm2
1,520m
4,970 ft
14 AWG
2.1mm2
2,420m
7,940 ft
12 AWG
3.3mm2
3,830m
12,580 ft
Table 19
Maximum Branch Length for Given Cross-Section
Maximum SLC Loop Length
Resistance measurements: Short the end of one branch and measure the resistance
from the connections of the loop to the control panel. Repeat for each branch. Make
sure that the sum of all branches in a loop does not exceed 40Ω.
Figure 31 Testing Loop Resistance
Capacitance measurements: Connect all branches and ensure that the total capacitance
of a loop does not exceed 1.0µF
Figure 32 Testing Loop Capacitance
– Page 77 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
18.3
Revision 1.22 March 2013
NAC (Notification Appliance Circuit)
There are no distance limitations for NAC outputs. Make sure that the voltage drop does
not exceed 2V.
18.4
24Vdc Output
There are no distance limitations for 24Vdc outputs. Make sure that the voltage drop
does not exceed 2V.
18.5
LON-3000/7000 Network Wiring – Copper Cables
In order to maximize the distance between ADR-3000 control panels interconnected in a
LonWorks network use a twisted pair cable of the types described in the following table.
The wires should enter the cabinet through the "POWER LIMITED" wire entrances on
either the top right or bottom right of the ADR-3000 cabinet.
Belden
85102
Level IV
22 AWG
JY (St) Y
2*0.8
Linear Topology:
Maximum length between two
furthest control panels (meters)
2,700
2,700
1,400
900
Free Topology:
Maximum length between two
furthest control panels (meters)
500
400
400
320
Free Topology:
Total cable length
500
500
500
500
Maximum cable resistance
(Ohm per Km)
15
28
55
73
Capacitance (nF per Kilometer)
56
72
56 (@ 1MHz)
98
Table 20
18.6
Belden
8471
Maximum LON Cabling Length
LON-3000/7000 Network Wiring – Fiber-Optics Cables
Use fiber-optic cables when there exists a cable length limitation, a requirement for
galvanic isolation, or the existence of electromagnetic interference. Use LRW-102 to
allow the control panels communicate via fiber-optic cables.
18.7
RM-4005 Cabling
The RS-485 standard does not specify cable characteristics. However, it is based on
the RS-422 standard, which recommends 24 AWG twisted pair cable with a shunt
capacitance of 16 pF per foot and 100 Ohm characteristic impedance. These
recommendations should be used for RS-485 systems as well.
Many available cables are designed specifically to meet the recommendations of
RS-422 and RS-485 specification. Another choice is the same cable commonly used in
the Shielded Twisted Pair Ethernet cabling. This cable, commonly referred to as STP
Category 5 cable, is defined by the EIA / TIA / ANSI 568 specification. The extremely
high volume of Category 5 cable used makes it widely available and very inexpensive,
often less than half the price of specialty RS-422 / 485 cabling. The cable has a typical
capacitance of 14.5pF/ft and characteristic impedance of 100 Ohms.
Maximum total cable length is 4,000’ (1,220m).
– Page 78 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
19
Revision 1.22 March 2013
Compatibility
The ADR-3000 is compatible with the following devices:
19.1
Input Devices
•
•
•
•
•
•
•
•
•
•
•
•
19.2
Output Devices
•
•
•
•
•
19.3
TFO-480A Analog Addressable Photoelectric Smoke Detector
TPH-482A Analog Addressable Multisensor Photoelectric Smoke / Heat Detector.
TFH-280A Analog Addressable Heat Detector
TFB-180 Standard Base
TFO-440A Analog Addressable Photoelectric Smoke Detector
TPH-442A Analog Addressable Multisensor Photoelectric Smoke / Heat Detector.
TFH-220A Analog Addressable Heat Detector
TFB-110A Common Base for Analog Addressable Detectors
TPB-800ASR Manual Fire Alarm Call Point and TPB-800ASY Manual Extinguishing
Call Point
ADR-805 Flow Switch Interface Module
ADR-812 Two-Channel Input Module
ADR-818 Eight-Channel Input Module
TFL-1AN Auxiliary Indicator for Analog Detectors
ADR-828 Eight-Channel Output Module
ADR-823 Three-Channel Input/Output Module
ADR-833 Extinguishing Control Unit
TIP-224A Analog Addressable Indoor Alarm Notification Sounder
Other Devices
•
•
•
TPS-34A Analog Addressable Auxiliary Power Supply
EPI-3000 Electromagnetic and Surge Protection Interface Module
LI-3000 Line Isolation Module for Class A/B
– Page 79 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
20
Revision 1.22 March 2013
Warnings and Limitations
i
i
Note
Fire alarm systems are composed and assembled of different devices and
subsystems, such as control panels, annunciators, smoke detectors, heat
detectors, manual call points, extinguishing activation devices, and
annunciating devices intended to alert to fire / smoke.
Using this system does not ensure protection from or prevention of fire and/or
smoke damages, but proper use of the system may reduce fire and smoke
damages.
Proper system configuration design, including all of its components and
infrastructure, as well as proper installation according to the manufacturers'
instructions and the applicable standards – are a conditioned precedent for
the proper and efficient function of the system.
The designer and installer should have the appropriate skills and
qualifications for performing said installation and all damages or losses
resulting from improper design and/or installation lie with the designer and/or
installer alone.
All loss or damage caused by improper action shall lie with the originator of
said improper action.
The manufacturer shall not be liable for any fire and/or fire damages caused
by fire in location where fire systems are installed and or results of direct or
indirect fire damage that may be caused to any persons and/or property
and/or third parties as a result of using the ADR-3000 and/or resulting from its
inaction.
Note
Do not install, operate, or maintain this ADR-3000 before fully reading this
manual.
– Page 80 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
21
Standards Compliance
21.1
EN 54 – Options with Requirements
Revision 1.22 March 2013
The ADR-3000 conforms fully to European standards BS EN 54-2:1998 and
BS EN 54-4:1998 and the following optional features:
• Output to fire alarm routing equipment – EN 54-2 Section 7.9 option with
requirements
• Delays to Outputs – EN 54-2 Section 7.11 option with requirements
• Dependencies on more than one alarm signal – EN 54-2 Section 7.12 option with
requirements
• Alarm Counter – EN 54-2 Section 7.13 option with requirements
• Fault signals from points – EN 54-2 Section 8.3 option with requirements
• Total loss of power supply – EN 54-2 Section 8.4 option with requirements
• Disablement of addressable points – EN 54-2 Section 9.5 option with requirements
• Test condition – EN 54-2 Section 10 option with requirements
21.2
CP-10
The ADR-3000 conforms to Singapore standard SS CP 10:2005 and includes the
following features:
• Fire alarm sounder silencing – Clause 2.5.8
• Fire alarm buzzer silencing – Clause 2.5.9
• Alarm verification feature (AVF) – Clause 2.5.11
– Page 81 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
22
Revision 1.22 March 2013
Specification
Width: ........................................................................... 465mm
Height: .......................................................................... 350mm
Depth (Including door): ................................................. 98mm
Weight
(basic configuration – without batteries) ................. 7,290 gr.
Operating Temperature Range: .................................... -10°C – +60°C (14°F – 140°F)
Relative Humidity Range:.............................................. 10% – 93%, non-condensing
Operating Voltage (mains input) ................................... 230Vac +10% / -15%
Operating Current
(Quiescent mode, basic configuration): .................. 70mA
24Vdc Maximum output
Continuous............................................................. 0.5A
Alarm ..................................................................... 3.5A
Battery capacity
The ADR-3000’s power supply module can charge batteries in capacity of up to
12AH.
The battery enclosure can contain two 12V sealed lead-acid batteries, up to 20 (W) by
7 (D) by 12 (H) cm each.
For fire alarm control panels requiring batteries that will not fit in the ADR-3000 chassis
use the BC-3000 external battery enclosure. This enclosure can contain two 12V
sealed lead-acid batteries, up to 20 (W) by 10 (D) by 15 (H) cm each.
If the system requires battery capacity larger than 12AH add TPS-34A Auxiliary Power
Supply with its own batteries. Please refer to the TPS-34A manual for additional
details about the TPS-34A auxiliary power supply.
Event memory............................................................... 500 events total:
250 Trouble events
250 Alarm events
Specifications are subject to change without prior notice.
– Page 82 of 83 –
ADR-3000
© 1999 – 2013 Telefire Fire & Gas Detectors Ltd
23
Revision 1.22 March 2013
Certification
Telefire’s ADR-3000 Analog Addressable Control Panel has the following approvals:
• EN 54 Approved
• UL 864 Edition 9 Listed – file S9002
• GOST Approved
• CP 10 Approved
• IS 1220 Approved
• CE Marked
– Page 83 of 83 –