ADR-3000 ANALOG ADDRESSABLE INTELLIGENT FIRE ALARM SYSTEM System Introduction Manufacturer TELEFIRE Fire & Gas Detectors LTD 5 Halapid St. P.O.B. 7036 Petach Tikva 49250 Israel Tel: + 972 3 921 1955 Fax: + 972 3 921 1816 Email: marketing@telefire.co.il 4 November 2004 Web Site: www.telefire.co.il Revision: 1.10 Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 Table of Contents LIST OF FIGURES ..............................................................................................III 1 SYSTEM INTRODUCTION ............................................................................1 2 FIRE ALARM CONTROL PANEL..................................................................2 2.1 INTRODUCTION .......................................................................................................2 2.2 COMPONENTS OF THE ADR-3000 CONTROL PANEL ................................................2 2.3 ADR-3001 MAIN BOARD ........................................................................................3 2.3.1 2.4 Low-Voltage Connections........................................................................................... 3 ADR-3002 AND ADR-3002C LINE CARDS ..............................................................4 2.4.1 Maximum Addressing Capacity .................................................................................. 4 2.5 ADR-3003 DISPLAY AND KEYBOARD MODULE ........................................................5 2.6 ADR-4004TSW SWITCHING POWER SUPPLY .........................................................5 2.7 LON-3000 NETWORK COMMUNICATION MODULE ....................................................5 2.7.1 Topology ..................................................................................................................... 5 2.8 NET-3000 INTERNET ENABLED MONITORING AND NOTIFICATION MODULE ...............6 2.9 GIM-232 GALVANIC ISOLATION MODULE FOR RS-232 INTERFACE ...........................7 2.10 MCID-34 MODEM MODULE ....................................................................................7 2.11 RM-4005 REMOTE PANEL AND ANNUNCIATOR ........................................................8 3 INITIATING DEVICES ....................................................................................9 3.1 INTRODUCTION .......................................................................................................9 3.2 ANALOG ADDRESSABLE DETECTORS AND INITIATING DEVICES .................................9 3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 3.2.6 3.2.7 3.2.8 4 TFO-440A Analog Addressable Photoelectric Smoke Detector................................. 9 TPH-442A Analog Addressable Multisensor Photoelectric Smoke / Heat Detector.10 TFI-330A Analog Addressable Ionization Smoke Detector...................................... 10 TFH-220A Analog Addressable Heat Detector ........................................................ 10 TFL-1NA Auxiliary Indicator for Analog Detectors.................................................... 11 TFB-110A Common Base for Analog Addressable Detectors ................................. 11 TPB-800ASR Manual Fire Alarm Call Point ............................................................. 11 TPB-800ASY Manual Extinguishing Call Point ........................................................ 11 ACCESSORIES ...........................................................................................12 4.1 INTRODUCTION .....................................................................................................12 4.2 ANALOG ADDRESSABLE MODULES ........................................................................12 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 4.2.7 4.2.8 Input Modules ........................................................................................................... 12 Output Modules ........................................................................................................ 12 Multifunction Modules............................................................................................... 12 Other Accessories .................................................................................................... 12 ADR-805 Flow Switch Interface Module................................................................... 12 ADR-810 Single-Channel Input Module ................................................................... 13 ADR-812 Two-Channel Input Module ...................................................................... 13 ADR-818 Eight-Channel Input Module ..................................................................... 14 — I — Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 4.2.9 4.2.10 4.2.11 4.2.12 4.2.13 4.2.14 4.2.15 4.3 EPI-3000 ELECTROMAGNETIC AND SURGE PROTECTION INTERFACE MODULE .......18 4.4 EVACUATION SYSTEM ...........................................................................................18 4.4.1 4.4.2 4.4.3 5 ADR-820 Single-Channel Output Module ................................................................ 14 ADR-828 Eight-Channel Output Module .................................................................. 15 ADR-823 Three-Channel Input/Output Module ........................................................ 15 ADR-833 Extinguishing Control Unit ........................................................................ 16 LI-3000 Line Isolation Module for Class A/B ............................................................ 16 TIP-224A Analog Addressable Indoor Alarm Notification Sounder.......................... 17 TPS-34A Analog Addressable Remote Power Supply............................................. 17 Introduction ............................................................................................................... 18 Features.................................................................................................................... 18 Installation Guidelines .............................................................................................. 19 SOFTWARE AND TOOLS ...........................................................................22 5.1 TCS-3040 PROGRAMMING AND CONTROL SOFTWARE FOR THE ADR-3000 ...........22 5.2 MCS-3000 CENTRALIZED FIRE ALARM SYSTEMS MONITORING SOFTWARE............22 5.3 PROG-4000 ANALOG ADDRESSABLE DETECTOR AND ACCESSORY PROGRAMMER 22 6 SPECIFICATION..........................................................................................23 7 CERTIFICATION..........................................................................................24 — II — Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 List of Figures Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 Figure 17 Figure 18 Figure 19 Figure 20 Figure 21 Figure 22 Figure 23 Figure 24 Figure 25 Figure 26 Figure 27 Figure 28 Typical ADR-3000 fire alarm system ............................................................................. 1 Internal module location in the ADR-3000 cabinet ........................................................ 3 ADR-3001 Main board ................................................................................................... 3 Line cards ...................................................................................................................... 4 ADR-3003 Keyboard and display .................................................................................. 5 ADR-4004 Power supply module .................................................................................. 5 LON-3000 Networking communication module............................................................. 5 Bus topology .................................................................................................................. 6 Ring topology................................................................................................................. 6 Mixed (free) topology ..................................................................................................... 6 GIM-232 Module ............................................................................................................ 7 GIM-232 Connection...................................................................................................... 7 MCID-34 Modem module .............................................................................................. 7 RM-4005 Event flow ...................................................................................................... 8 ADR-805 Flow Switch Interface Module...................................................................... 12 ADR-810 Single-Channel Input Module ...................................................................... 13 ADR-812 Two-Channel Input Module.......................................................................... 13 ADR-818 Eight-Channel Input Module ........................................................................ 14 ADR-820 Single-Channel Output Module Interface .................................................... 14 ADR-828 Eight-Channel Output Module ..................................................................... 15 ADR-823 Three-Channel Input/Output Module ........................................................... 15 ADR-833 Extinguishing Control Unit ........................................................................... 16 LI-3000 Line Isolation Module ..................................................................................... 16 EPI-3000 Electromagnetic and Surge Protection Interface Module............................ 18 Connecting an evacuation system via General Output ............................................... 19 Connecting an evacuation system via an Addressable Output................................... 20 Connecting secondary units ........................................................................................ 20 Multi-amplifier system in a multi-storey building.......................................................... 21 — III — Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 1 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. Trouble Alarm General Relay Relay Outputs As many as 32 fire alarm control panels LonWorks ADR 3000 Modem ADR 3000 Printer ADR-3000 RS-232 RS-485 Loop 4 1 2 ADR 3000 ADR-3000 TCP/IP Connection PC As many as 16 remote panels and annunciators 3 127 127 FIRE Loop 3 Loop 2 RM-4005 1 2 3 1 2 3 9 RM-4005 127 FIRE Loop 1 ADR-833 1 2 3 127 ADR-833 Figure 1 FM200 FM200 Typical ADR-3000 fire alarm system – Page 1 – RM-4005 RM-4005 Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 2 Fire Alarm Control Panel 2.1 Introduction 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 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 98™ operating system) allows operators/installers to easily configure any system parameter using its advanced graphical interface. 2.2 Components of the ADR-3000 Control Panel The basic system consists of the following components installed in the CAB-3000 cabinet: CAB-3000 Analog control panel cabinet and battery compartment ADR-3001 Main board, containing one or two line cards ADR-3002 Single loop line card – as many as 127 addresses in a Class B or Class A loop ADR-3002C Dual loop line card – as many as 254 addresses in two Class B or Class A loops ADR-3003 Display and keyboard module, mounted on the cabinet door ADR-4004TSW Switching power supply and battery charger module LON-3000 Communication module for system networking (Optional) NET-3000 Internet Enabled Monitoring and Notification Module (Optional) GIM-232 RS-232 isolation module that prevents ground fault when connecting grounded serial devices (Optional) – Page 2 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 MCID-34 Modem Module (Optional) ADR-4004TSW Power Supply ADR-3001 Main Board ADR-3002 Line Cards LON-3000 Communication Module POWER OUT JP2 Batteries L Card 1 F1 6.3A Internal Mounting Plate Card 2 N Ground Lower expansion slot for one of the following optional modules: o NET-3000 o GIM-3000 o MCID-34 Backup Batteries ADR-3000 Chassis 09/2004 Figure 2 2.3 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 24 VDC output for each loop card, horn and dialer are on the bottom. Connections to the keyboard and display board; LON-3000 networking module; an RS-232 port for NET-3000, PC, printer, the GIM-232 galvanic isolation modules, or the MCID-34 modem; and a connector for RM-4005 remote panels are located on the right. ADR 3001 09/2004 Figure 3 2.3.1 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. – Page 3 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 General outputs Supervised reverse polarity horn output; supervised level activated dialer output and two 24 VDC outputs for remote devices. COM-1 (RS-232) Connection to computer, modem, serial printer, or the NET-3000 Internet Enabled Monitoring and Notification Module. COM-2 (RS-485) Connection to as many as 16 RM-4005 remote panel and annunciators. LON-COM Connection to the LON-3000 Network Communication Module. The LON-3000 provides control panel peer-to-peer 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. 2.4 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 flickers each time a device is addressed • The yellow LED flickers when a fault is detected, even after a momentary interference that would not activate a trouble condition 2.4.1 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. Slot 1 Slot 2 Loops Maximum Addresses ADR-3002 – 1 127 ADR-3002 ADR-3002 ADR-3002C – ADR-3002 ADR-3002C ADR-3002C ADR-3002 2 ADR-3002 / ADR-3002C Red Yellow Red Yellow ADR-3002 uP 254 ADR-3002C uP ADR-3002C ADR-3002C 3 4 Table 1. Line Card Combinations – Page 4 – 381 F1 F1 F2 JP1 JP1 Figure 4 Line cards 508 Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 2.5 ADR-3003 Display and Keyboard Module The ADR-3003 Display and Keyboard Module includes 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 2.6 ADR 3000 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, GSA-1000, and the TPS-34A. The ADR-3000 should be connected to a separate dedicated 230 VAC 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 over-current 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. POWER OUT JP1 230VAC Main Fuse 3.15A JP2 BAT L Figure 6 2.7 F1 6.3A N ADR-4004 Power supply module LON-3000 Network Communication Module The LON-3000 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 module. The length of the wires depends on the connection topology and media type (copper or fiber optic). Please refer to the LON-3000 technical manual for further details. SW1 D1 SW2 D2 D14 Connector to LON-COM on main board J1 Connector to other LON-3000 (polarity insignificant) Termination jumper J2 JP1 BUS Figure 7 2.7.1 FREE LON-3000 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 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, – Page 5 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 master/slave – where slave messages are reported on master control panels, or a combination of the two. Ring topology requires LR-01 Fiber Optic Repeater. ADR 3000 ADR 3000 ADR 3000 Jumper in BUS Mode Jumper in BUS Mode ADR 3000 ADR 3000 ADR 3000 ADR 3000 Termination ADR-3000 + LON-3000 ADR-3000 + LON-3000 LR-01 LR-01 Termination Figure 8 Bus topology Ring Termination ADR 3000 ADR 3000 ADR 3000 ADR 3000 ADR 3000 ADR-3000 + LON-3000 ADR-3000 + LON-3000 LR-01 LR-01 Jumper in FREE Mode ADR 3000 ADR 3000 ADR 3000 ADR 3000 Figure 10 Mixed (free) topology Figure 9 Ring topology Please refer to the LON-3000 technical manual for further details. 2.8 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. – Page 6 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 GIM-232 Galvanic Isolation Module for RS-232 Interface Printer J1 GIM-232 PC 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. J2 2.9 + J3 24V GIM-232 09/2004 Figure 11 GIM-232 Module RS-232 COM 1 RS-232 24 VDC ADR-3001 GIM-232 PC GIM-232 09/2004 Figure 12 GIM-232 Connection 2.10 MCID-34 Modem Module J1-PO The MCID-34 enables the monitoring, programming and performing maintenance actions from a remote location through the telephone network by using a dedicated PC with Telefire’s proprietary software TCS-3040 control software. The MCID-34 incorporates an auto disconnect feature that allows the use of the telephone line for other uses, whilst providing priority to the fire alarm system. To phone The MCID-34 can operate in one of two modes: line socket • CALLER ID – allows preprogramming of authorized RS-232 to main board telephone numbers. Only a recognized incoming phone J2 COM-1 call will be answered by the modem, disconnecting the J3 24 V in subscriber’s phone-set. This mode requires the local - + To phone telecomm infrastructure to support caller ID. set J4 • AUTO ANSWER – the modem will respond automatically after a preprogrammed number of incoming rings. DC Figure 13 MCID-34 Modem module Setting the MCID-34 operating parameters and authorized phone numbers can be configured from the ADR-3000 Utilities Menu. – Page 7 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 2.11 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 cards. 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 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 24 VDC power source that can be supplied from the main control panel or a remote power supply such as Telefire’s TPS-34A Analog Addressable Remote Power Supply. Please refer to the RM-4005 technical manual for further details. ADR 3000 RS-485 RM-4005 RM-4005 1 16 Panel 1 (Partner 2:ON) LonWorks Event flow ADR 3000 RS-485 RM-4005 1 Panel 2 (Partner 1:ON) Figure 14 RM-4005 Event flow – Page 8 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 3 Initiating Devices 3.1 Introduction All Telefire’s analog addressable detectors can be connected to the system using a twowire connection. Each detector contains its 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 flickers 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. 3.2 Analog Addressable Detectors and Initiating Devices TFO-440A Analog Addressable Photoelectric Smoke Detector TPH-442A Analog Addressable Multisensor Photoelectric Smoke / Heat Detector TFI-330A Analog Addressable Ionization Smoke Detector TFH-220A Analog Addressable Heat Detector (fixed and rate-of-rise) TFB-110A Common Base for Analog Addressable Detectors TFL-1NA Auxiliary Indicator for Analog Detectors TPB-800ASR Analog Addressable Indoor Manual Fire Alarm Call Point (Red) TPB-800ASY Analog Addressable Indoor Manual Extinguishing Call Point (Yellow) 3.2.1 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. If it is unable 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. – Page 9 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 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. 3.2.2 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. 3.2.3 TFI-330A Analog Addressable Ionization Smoke Detector Telefire’s TFI-330A Ionization Smoke Detector is a highly advanced, third generation ionization chamber smoke detector. The TFI-330A contains a double chamber with a single radioactive source that emits less than 1 microcurie of Am241 and conforms to the strictest hazardous material regulations. The TFO-330A is designed to protect indoor fire risk areas, except environments where smoke, steam, dust, or corrosive gasses are present under normal conditions. It is especially suited for fast-burning, high-energy fires, such as solvent storage, switch rooms, etc. A mixture of optical and ionization sensors can be used to ensure coverage in areas of high value, like computer rooms. Please refer to the TFI-330A technical manual for further details. 3.2.4 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 – Page 10 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 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. 3.2.5 TFL-1NA Auxiliary Indicator for Analog Detectors Telefire’s TFL-1NA 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-1NA 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-1NA technical manual for further details. 3.2.6 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 detectors and a Telefire's analog addressable control panel. The base is compatible with all of Telefire's Analog Addressable Detectors. This base is intended for installation in acoustic or regular ceilings, allowing for SLC (Signaling Line Circuit) loop wires and the optional TFL-1NA Remote Signaling Indicator connections to be connected either vertically or horizontally. Please refer to the TFB-110A technical manual for further details. 3.2.7 TPB-800ASR Manual Fire Alarm 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. 3.2.8 TPB-800ASY Manual Extinguishing Call Point 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. – Page 11 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 4 Accessories 4.1 Introduction 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 and are powered from an external 24 VDC power source that can be supplied either from the main control panel or a remote power supply such as Telefire’s TPS-34A Analog Addressable Remote Power Supply. The ADR-805 connects to the SLC loop and does not require 24 VDC input. 4.2 Analog Addressable Modules 4.2.1 Input Modules ADR-805 ADR-810 ADR-812 ADR-818 4.2.2 Output Modules ADR-820 ADR-828 4.2.3 Three-Channel Input/Output Module Automatic Extinguishing Control Unit (multi I/O) Other Accessories LI-3000 TIP-224A TPS-34A 4.2.5 Single-Channel Output Module Eight-Channel Output Module Multifunction Modules ADR-823 ADR-833 4.2.4 Flow Switch Interface Single-Channel Input Module Two-Channel Input Module Eight-Channel Input Module Line Isolation Module Analog Addressable Alarm Notification Sounder – Indoor Analog Addressable Remote Power Supply 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 100 KΩ end-of-line resistor. The ADR-805 includes an onboard indicating LED that flickers when addressed by the control panel and latches on upon alarm. Any device connected to the ADR-805 must be installed adjacent to it (no further than 50 cm). 100K EOL - + SW. In SLC PROG +L -L Figure 15 ADR-805 Flow Switch Interface Module – Page 12 – ADR-805 Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 4.2.6 ADR-810 Single-Channel Input Module The ADR-810 interfaces non-addressable input (initiating) devices with the analog addressable system. These devices can be conventional smoke, heat, and flame detectors, beam detectors, gas detectors and water flow switches. The ADR-810 should be connected to a 24 VDC source from the ADR-3000 or a TPS-34A Remote Power Supply. The ADR-810 continuously monitors its power source and reports any problem such as a blown fuse, 5.1K disconnection, or voltage drop. EOL The ADR-810 has a supervised 2 or 3-wire Class B (NFPA 72 Style C) initiating device circuit (IDC). Use a - + - + + ADR-810 5.1 KΩ end-of-line resistor to terminate a two-wire connection, or the 3W-EOL (end of line) module to terminate a 3-wire connection. The ADR-810 has a 24 VDC output that is current limited by a 0.5 A fuse. This output is interrupted on reset, which resets devices that are latched on alarm. The ADR-810 has an on-board LED that flickers when +L -L addressed by the control panel and latches on upon ADR-810 05/2004 alarm. Figure 16 ADR-810 Single-Channel Input Module 4.2.7 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. The ADR-812 should be connected to a 24 VDC source from the ADR-3000 or a TPS-34A Remote 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 5.1K EOL 5.1K EOL conditions of the zone module: short-circuit, cutoff in the IDC loop and 24 VDC input fault. The ADR-812 has a 24 VDC resettable power limited output. This output is interrupted upon Reset, in order to ADR-812 IDC A IDC B - + - + - + reset devices that were latched on alarm. +24V 24V The optional 3-wire connection allows connecting Out In detectors that have higher power consumption, such as gas detectors or beam detectors. The ADR-812 occupies two consecutive addresses, the SLC Program first of which is programmed by the PROG-4000. Please refer to the ADR-812 technical manual for further L+ Ldetails. ADR-812 05/2004 Figure 17 ADR-812 Two-Channel Input Module – Page 13 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 4.2.8 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 24 VDC source from the ADR-3000 or a TPS-34A Remote Power Supply. The ADR-818 5.1K 5.1K 5.1K 5.1K continuously monitors its power source and reports EOL EOL EOL EOL any problem such as a blown fuse, disconnection, or 5.1K 5.1K 5.1K 5.1K voltage drop. EOL EOL EOL EOL The ADR-818 occupies eight consecutive addresses, ADR-818 - + - + - + - + - + - + - + - + the first of which is programmed by the PROG-4000. In 1 In 2 In 3 In 4 In 5 In 6 In 7 In 8 The ADR-810 Single Channel Input Module, the PROG ADR-812 Two-Channel Input Module, and ADR-818 Eight-Channel Input module can be connected to the +L SLC following conventional Telefire detectors: TFH-220F; -L 24V In + TFI-330, TFO-440, and TPH-442. Telefire may approve other compliant devices. Figure 18 ADR-818 Eight-Channel Input Module 4.2.9 ADR-820 Single-Channel Output Module The ADR-820 enables the connection of output devices such as alarm bells, horns, extinguishers, strobe lights, etc., through a single ADR-820 NO C NC - + - + supervised output line, terminated by a 5.1 KΩ end-of-line Alarm Relay OUT 24V resistor. The ADR-820 should be connected to a 24 VDC source from the ADR-3000 or a TPS-34A Remote Power Supply. JP6 The ADR-820 continuously monitors its power source and SLC PROG reports any problem such as a blown fuse, disconnection, + or voltage drop. Figure 19 ADR-820 Single-Channel Output Module Interface In addition, the module has unsupervised dry contacts for other activation purposes. Use these contacts to switch only low voltage circuits. The ADR-820 has an onboard LED that flickers when addressed by the control panel and latches on upon activation. – Page 14 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 4.2.10 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 24 VDC lamps or LEDs. The serial resistors required for the LEDs are placed on board. Use either JP4, or JP5 (LEDs only), but not both. The ADR-828 should be connected to a 24V Outputs ADR-828 24 VDC source from the ADR-3000 or a 8 7 6 5 4 3 2 1 24V TPS-34A Remote Power Supply. The ADR-828 continuously monitors its power Prog source and reports any problem such as a blown fuse, disconnection, or voltage 24V In drop. +L SLC -L The ADR-828 occupies eight consecutive + addresses, the first of which is programmed by the PROG-4000. ADR-828 05/2004 Do not use the ADR-828 for activating alarm devices that must be supervised. Figure 20 ADR-828 Eight-Channel Output Module 4.2.11 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 or alarm pushbutton 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 Relay 1 24V In Relay 2 NAC-B NAC-A jumpers on the card. The logic properties and number of NO C NC - + - + NO C NC - + addresses are chosen accordingly. The ADR-823 is controlled by and communicates with Configuration the control panel through an analog SLC circuit and Jumpers receives 24 VDC from the control panel or a local addressable power supply such as Telefire's TPS-34A. The module reports supervision status of the connected SLC IDC Prog loads to the control panel. Load circuit status is reported ADR-823 + - + as open or shorted circuit. ADR-823 07/2004 Figure 21 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. – Page 15 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 4.2.12 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 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 analog addressable control panel. The extinguishing control and command are 24Vdc in SLC Analog line performed by the ADR-833 when instructed by the ADR-3000 to do so. The ADR-833 contains 3 supervised Alarm Horn outputs, 2 relays and 3 supervised inputs. The outputs activate: (a) the automatic LCD Display extinguishing cylinders, (b) the fire alarm Evacuation Evacuation horn and (c) the evacuation annunciators. Horn/Lamp The relays are: one for trouble and the other for alarm. The inputs are: (a) manual extinguishing release – Pressure Switch electrically, (b) extinguishing inhibit and (c) extinguishing cylinder pressure switch. The ADR-833 requires a 24 VDC input that is supplied by the ADR-3000 or a Extinguisher Alarm Command Relay TPS-34A Analog Addressable Remote Power Supply. Trouble FIRE Abort Switch The ADR-833 occupies only a single Relay address on the SLC loop although several inputs and outputs are connected to it. Manual FIRE Release Switch Figure 22 ADR-833 Extinguishing Control Unit Please refer to the ADR-833 technical manual for further details. 4.2.13 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 of the loop by isolating the faulty section from the rest of the loop. Without an isolator, the line cards ADR3002 and ADR-3000C would disconnect the loop automatically when sensing a short circuit. SLC L SLC R L- L+ L- L+ LI-3000 TB 1 LED 1 TB 2 LED 2 JP6 JP5 JP4 PROG LI-3000 08/2004 Figure 23 LI-3000 Line Isolation Module The LI-3000 communicates with the ADR-3000 through the addressable SLC loop that also supplies its power. This module uses an address between 1 and 127. This address should be programmed prior to installation by using the PROG-4000. Please refer to the LI-3000 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. – Page 16 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 Configuring the ADR-3000 as a class A closed loop requires two additional LI-3000 modules. No capacity is lost as a result of configuring the loop as class A other than the addresses occupied by the LI-3000 modules. After power up or reset of the system, the Isolator performs a check for short circuit condition. If no short circuit is detected, the isolator switches the circuit on and enables normal operation of the second connection of the SLC loop. 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 20 isolator modules can be connected in each SLC loop. Please refer to the LI-3000 technical manual for further details. 4.2.14 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 24 VDC source from the ADR-3000 or a TPS-34A Remote 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 flickers when polled by the control panel, indicating normal operation. During an alarm THE TIP-224A will sound interrupted beeps and the LED will flicker 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. 4.2.15 TPS-34A Analog Addressable Remote Power Supply The TPS-34A is a remote power supply that is fed from a 230 VAC input and includes a 24 VDC 4 A 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 24 VDC 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 24 VDC output allows for up to 4 A current draw during alarm, and up to 3.5 A continuous current draw. The power supply consists of a PSB-3000 cabinet that contains two 12V sealed leadacid batteries in capacity of up to 12 AH, and up to 14 (W) by 9.5 (D) by 17 (H) cm each and two printed circuit boards: • ADR-4004TSW – a 4 A switching power supply that is also used in the ADR3000 and the GSA-1000 control panels • APS-900 – an analog addressable power supply monitor card Please refer to the TPS-34A technical manual for further details. – Page 17 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 4.3 EPI-3000 Electromagnetic and Surge Protection Interface Module Industrial installations may have strong electromagnetic interference. In order to isolate the SLC loops and 24 VDC outputs from electromagnetic interference install Telefire's EPI-3000 Electromagnetic and Surge Protection Interface Module. One EPI-3000 module will isolate all four loops, and both 24 VDC outputs (24V_A and 24V_B) of a single control panel. 24 VDC A SHIELD Shield Card 2 SLC Loops 1 and 2 CARD CARD 1 1 LOOP 1 24V_A LOOP 2 24 VDC B CARD 2 LOOP 1 24V_B 24V_B LOOP 2 SHIELD Card 1 SLC Loops 1 and 2 JP1 TO FIELD ADR-3000 EPI-3000 24_A Horn Dialer - L1 + - L2 + - - - J6 J11 + + J10 + J9 1 2 3 4 1 2 1 2 1 2 Card 2 24_B - L1 + - L2 + - + J1 J8 1 2 3 4 1 2 3 EARTH JP2 TO CONTROL PANEL LOOP 1 LOOP 2 CARD 1 24V_A LOOP 1 LOOP 2 CARD 2 24V_B SHIELD Card 1 The EPI-3000 module has to be grounded in order for the EMI shielding to work EPI-3000 Connections 07/2004 Figure 24 EPI-3000 Electromagnetic and Surge Protection Interface Module 4.4 Evacuation System 4.4.1 Introduction The EVAX 25 is an evacuation system that can be integrated with the ADR-3000 fire alarm system. The system is powered and supervised by the analog addressable ADR-3000 and allows announcing standard warning sounds and messages in the protected premises according to the logic of the AAM (Advanced Activation Matrix) of the ADR-3000. The unit allows announcing warning and general messages throughout the site or only to specific areas. The system is modular and may be connected via multiple amplifiers to as many as 2,000 speakers installed in various zones with command and control performed by the fire alarm system. 4.4.2 • • • Features UL approved Activation and supervision through ADR-8XX input- and output modules Speaker connection can be either Class A or Class B – Page 18 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 • • • • • • • All input and output lines are supervised. Trouble events and work states are displayed by the control panel and indicating LEDs on the unit Built-in battery charger Digital message play back of up to 4 minutes Emergency forces microphone – manual microphone activation overrides warning sounds and pre-recorded messages Standard warning sounds for alarm and evacuation (ANSI / NFPA compliant) 25 W amplifier in each unit, multi-amplifier connection Loudspeaker output is 25 / 70 VRMS (field selectable) 4.4.3 Installation Guidelines Speaker output is field-selectable between 25 and 70 volts by a jumper on the EVAX 25. Jumper1 – 2 for 70 V and 2 – 3 for 25 V. Connect only UL-approved speakers with a built-in line transformer. Make sure to choose a speaker with appropriate voltage – 25 or 70 V. Select the required power by connecting the appropriate branch in the transformer. Total power requirements for all speakers will not exceed 25 Watts per amplifier. Install a 2.4 K Ohm resistor at the end of the speaker output and a similar resistor in TB3 (connectors 5 – 6). Connect the loudspeakers in the appropriate polarity to allow for line supervision. Minimal battery size for the evacuation system is 4.5 AH 24 V for sites that do not have an emergency generator. 24 V input to the EVAC25 will be from 24 VDC output from the control panel or from the TPS34A remote power supply. ADR-3000 HORN 24 VDC OUT - 2.4K EOL resistor + + 12345678 1 2 3 4 5 6 7 5.1K EOL resistor from the control panel 2.4K EOL resistor TB3 TB 1 123 J2 Trouble (yellow) OK (green) Alarm (red) 1 1 1 0 9 8 7 6 5 4 3 2 1 TB 2 Recording Playback gain gain Loudspeaker Loudspeaker Microphone P2 SN2 Figure 25 Connecting an evacuation system via General Output – Page 19 – Loudspeaker Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 ADR820 / 823 NAC OUT 24 VDC OUT 2.4K EOL resistor + + 12345678 1 2 3 4 5 6 7 5.1K EOL resistor from the control panel 2.4K EOL resistor TB3 TB1 123 J2 Trouble (yellow) OK (green) Alarm (red) Loudspeaker 11 10 9 8 7 6 5 4 3 2 1 TB2 Recording Playback gain gain Loudspeaker Loudspeaker Microphone P2 SN2 Figure 26 Connecting an evacuation system via an Addressable Output To other evacuation systems 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 12 3 J2 TB3 TB1 1 2 3 4 5 6 7 8 11 10 9 8 7 6 5 4 3 2 1 TB2 1 2 3 4 5 6 7 TB3 123 J2 Trouble (yellow) OK (green) Alarm (red) Recording Playback gain gain Slave SN2 SN2 Figure 27 Connecting secondary units – Page 20 – 11 10 9 8 7 6 5 4 3 2 1 TB2 Microphone P2 Master Note: SN28 must be off for all units without microphone TB1 Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 EVAX 25 + ADR-820 / 823 As many as 100 loudspeakers As many as 20 units EVAX 25 + ADR-820 / 823 As many as 100 loudspeakers EVAX 25 + ADR-820 / 823 As many as 100 loudspeakers ADR-3000 ADR-3000 EVAX 25 As many as 100 loudspeakers EVAX 25 Figure 28 Multi-amplifier system in a multi-storey building – Page 21 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 5 Software and Tools 5.1 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. The TCS-3040 can use the PC’s modem to connect remotely via a phone line to the ADR-3000 via the optional MCID-34 modem. 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. 5.2 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. For security reasons the MCS-3000 does not allow remote control (activations) of fire alarm control panels. 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. 5.3 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. – Page 22 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 6 Specification Width: ........................................................... 465 mm Height: .......................................................... 350 mm Depth (Including door): ................................. 98 mm 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)................... 230 VAC +10% / -15% Operating Current (Quiescent mode, basic configuration): ........ 70 mA 24 VDC Maximum output............................... 3½ A continuous 4 A in alarm Battery capacity ............................................ The ADR-3000’s power supply module can charge batteries in capacity of up to 12AH. The battery enclosure can contain two 12 V 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 12 AH add the TPS-34A Remote Power Supply with its own batteries. Please refer to the TPS-34A manual for additional details about the TPS-34A remote power supply. Event memory .............................................. 500 events total: 250 trouble events 250 Alarm events Specifications are subject to change without prior notice. – Page 23 – Telefire ADR-3000 – System Introduction Revision 1.10 4 November 2004 7 Certification Telefire's ADR-3000 Analog Addressable Conventional Fire Alarm Control Panel has the following approvals: • SI 1220 Approved • EN-54 Approved • BS EN-54 Approved • CP-10 Approved • GOST 26342-82 Approved • GOST 27990-88 Approved • UL 864 Compliant – Page 24 –
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