Mini 2 zones Conventional Fire Alarm Control Panel is designed for building fire security, office fire security, factory fire security and master.
It has 2 zones display of detector status and alarm status such as fault, alarm. It has silence, manual sound, panel mute etc. for panel operation.
The mini fire alarm control can work with 2 wire or 4 wire smoke detector, heat detector, Gas sensor. It works with max. 60 fire detectors and manual call points and max. 16 sounders.
There are 16 zones conventional fire alarm control panel and addressable fire alarm control panel with full range alarm detectors and compound detectors such as Smoke and heat detector, smoke and CO detector, Gas and CO detector, Gas with solenoid valve.
For more information and technical guide for home and business alarm security, please feel free to check web www.vedardalarm.com
Basics of fire alarm systems and bildge alarm systems in sri lanka navy crafts. Also included spares what are using and construction of photoelectric smoke detector.
The document provides an overview of fire alarm system design and components. It discusses the objectives of early fire detection to protect life and property. The key components include sensors, control panel, indicating devices, and wiring. It describes different types of heat and smoke detectors along with their specifications and placement guidelines. The document also covers other aspects like power supplies, wiring standards, sound levels of alarms, and protection of control equipment.
This document contains a list of 186 physics projects with their rates. The projects cover a wide range of topics including home appliance control, security systems, sensors for light, temperature, liquid levels and more. Many involve the use of microcontrollers, infrared technology, alarms and indicators. The list provides inexpensive electronics projects suitable for hobbyists, students and makers.
This document describes the components and workings of a smoke alarm. It contains the following key points:
- Smoke alarms use components like a 555 timer IC, light dependent resistor, light emitting diode, resistors, capacitors, diodes, reset switch, preset resistor, buzzer, battery, printed circuit board, and connecting wires to detect smoke.
- The 555 timer IC and light dependent resistor are important components that help detect changes in light levels from smoke. When smoke enters the chamber and scatters light, the light dependent resistor senses this and triggers the alarm.
- Photoelectric detectors, which use light beams positioned at 90 degree angles, are better than other methods at sensing sm
This document provides a summary of key guidelines from BS 5839 Part 1:2002 for the design and installation of fire alarm systems, including:
- Categories of fire alarm systems based on intended level of life or property protection.
- Guidelines for placement, spacing and height of smoke and heat detectors.
- Requirements for sound levels and locations of sounders and visual alarms.
- Cable and wiring specifications including use of fire-resistant materials.
- Zoning guidelines to limit the effects of faults and support evacuation.
- Documentation and certification requirements.
This document provides an overview and instructions for operating an automatic fire detection system at a hotel. It describes the key components of the system, including the Bosch FPA-5000 modular fire panel, intelligent addressable detectors, manual call points, and notification appliances. It explains how to install and connect the different detectors, operate the fire panel interface for bypassing zones, viewing history logs, and conducting drills and resets. The document also outlines the working principles of optical and thermal detectors and shows how to install and operate the manual call points.
Basics of fire alarm systems and bildge alarm systems in sri lanka navy crafts. Also included spares what are using and construction of photoelectric smoke detector.
The document provides an overview of fire alarm system design and components. It discusses the objectives of early fire detection to protect life and property. The key components include sensors, control panel, indicating devices, and wiring. It describes different types of heat and smoke detectors along with their specifications and placement guidelines. The document also covers other aspects like power supplies, wiring standards, sound levels of alarms, and protection of control equipment.
This document contains a list of 186 physics projects with their rates. The projects cover a wide range of topics including home appliance control, security systems, sensors for light, temperature, liquid levels and more. Many involve the use of microcontrollers, infrared technology, alarms and indicators. The list provides inexpensive electronics projects suitable for hobbyists, students and makers.
This document describes the components and workings of a smoke alarm. It contains the following key points:
- Smoke alarms use components like a 555 timer IC, light dependent resistor, light emitting diode, resistors, capacitors, diodes, reset switch, preset resistor, buzzer, battery, printed circuit board, and connecting wires to detect smoke.
- The 555 timer IC and light dependent resistor are important components that help detect changes in light levels from smoke. When smoke enters the chamber and scatters light, the light dependent resistor senses this and triggers the alarm.
- Photoelectric detectors, which use light beams positioned at 90 degree angles, are better than other methods at sensing sm
This document provides a summary of key guidelines from BS 5839 Part 1:2002 for the design and installation of fire alarm systems, including:
- Categories of fire alarm systems based on intended level of life or property protection.
- Guidelines for placement, spacing and height of smoke and heat detectors.
- Requirements for sound levels and locations of sounders and visual alarms.
- Cable and wiring specifications including use of fire-resistant materials.
- Zoning guidelines to limit the effects of faults and support evacuation.
- Documentation and certification requirements.
This document provides an overview and instructions for operating an automatic fire detection system at a hotel. It describes the key components of the system, including the Bosch FPA-5000 modular fire panel, intelligent addressable detectors, manual call points, and notification appliances. It explains how to install and connect the different detectors, operate the fire panel interface for bypassing zones, viewing history logs, and conducting drills and resets. The document also outlines the working principles of optical and thermal detectors and shows how to install and operate the manual call points.
Fire protection systems include sprinklers and standpipes, while fire alarm systems detect fires and notify occupants and emergency services. Occupancy classifications like assembly, business, and mercantile have different fire alarm system requirements based on occupant load. A manual fire alarm is required for assembly occupancies over 300 occupants or business/mercantile over 500 occupants located over 100 feet from exit discharge. Automatic detection and voice alarm systems may also be required based on occupancy and occupant load.
The document discusses NFPA 72 and NFPA 101, which provide minimum requirements for fire alarm systems and life safety from fire. NFPA 72 defines signal initiation, transmission, notification and annunciation for fire alarm systems to provide notification, summon aid and control safety functions. NFPA 101 aims to protect occupants from initial fire development and improve survivability for those near the fire. The document outlines requirements for visible signaling, including candela ratings and placement of strobes in corridors and sleeping areas. Synchronization of multiple appliances is also addressed.
This document provides an overview of fire alarm system fundamentals based on current NFPA codes. It defines key components of fire alarm systems including the fire alarm control panel, initiating devices, notification appliances, transmitters and receivers, and control functions. It also outlines the classification of fire alarm systems, why they are installed, and what topics will be covered, including a review of NFPA 72.
This project uses a temperature sensor to detect the occurrence of a fire and in that case uses a GSM module to send a text alert to the user's phone number.
This document provides an overview and discussion of system survivability, data communication links, fault isolators, and performance nomenclature in fire alarm systems. The key points are:
1) Data communication links are critical for system reliability and survivability during fires. Lessons from failed systems show life safety systems can fail early in fires.
2) Fault isolators are used to isolate short circuits and ensure normal operation of devices is not affected if a fault occurs within a floor area.
3) NFPA 72 has updated its performance designations, replacing circuit styles with classes (A, B, C, etc.) based on their fault tolerance and annunciation capabilities.
Fire alarm 3-f-single_and_multiple-station_alarms_and_household_fire_alarm_sy...grantlerc
This document summarizes NFPA 72 chapter 29 regarding single and multiple station alarms and household fire alarm systems. It outlines requirements for detection, notification, power supplies, equipment performance, installation, maintenance and testing. Key points include smoke alarms being required in all sleeping rooms, outside sleeping areas, and on every level. Alarms must be interconnected to sound together when one activates. Primary power sources must be monitored and provide trouble signals. Installation locations have restrictions near cooking appliances, bathrooms and HVAC supplies.
This project report describes a smoke detection system that uses an Arduino Uno, gas sensor, temperature sensor, servo motor, buzzer, and LED. It takes input from the gas and temperature sensors, and if the gas/temperature rises above a threshold, it sounds the buzzer and activates the servo motor. The servo motor is intended to turn on a water pump to help control a fire. The system provides smoke and fire detection to improve safety in homes, factories, and other buildings.
Fire basics 1-4-risers_thru_power_supplies_08grantlerc
Fire alarm systems are installed to detect and notify people of emergencies to allow safe evacuation. NFPA 72 provides standards for fire alarm system components, functions, and performance. It classifies systems and defines key terms. Fire alarm systems have initiating devices, notification appliances, a control panel, and they transmit signals to a supervising station in some cases. Systems must be designed according to occupancy requirements and approved by the AHJ. They require both primary and secondary power supplies, and the secondary battery must be capable of powering the system for 24 hours plus additional time.
This document describes a GSM based fire alert system that uses an ATmega8 microcontroller along with an MQ2 smoke sensor, LM35 temperature sensor, and GSM module. The system is designed to detect fires and send alerts via GSM. It includes introductions to the components, working block diagram, circuit diagram, PCB layout, and applications for remote fire detection in locations with limited human interaction. Future work proposed includes using GPS instead of GSM for location tracking and integrating an Android app for notifications.
The document discusses fire alarm system fundamentals and requirements based on NFPA 70 and NFPA 72 standards. Key points include requirements for initiating devices to be compatible with listed control units, emergency functions not interfering with alarm operations, alarm activation within 10 seconds of detection, and zoning, annunciation, monitoring, and limitations of fire alarm systems and components.
The document summarizes key sections from NFPA 72 regarding fire alarm systems. It outlines chapters that cover fundamentals, circuits, inspection/testing, initiating devices, and notification devices. For chapter 10 on fundamentals, it provides details on signal priority, distinctive signals for different alarm types, equipment performance requirements, annunciation zoning, integrity monitoring of components, and documentation requirements. Installation and equipment must comply with NFPA 70 and 72 standards unless otherwise indicated.
The document introduces a wireless fire alarm system that uses a control panel and smoke detectors.
1) The control panel uses RF technology for stable signals. It can power for 8 hours on backup and send alarms to up to 8 phones with the location and fire point.
2) The smoke detectors use photoelectric sensors to detect smoke and send wireless alarms. They have low power consumption and can work for 2 years on batteries.
3) The wireless system is easy to install without wiring and can send alarms over long distances to quickly notify many people of a fire.
This document describes a 6 channel fire monitoring and control station. It includes an introduction describing the need for such stations in industrial plants. It then discusses various sensors that could be used including temperature sensors (LM35), smoke detectors, light detectors, and their working mechanisms. It provides circuit diagrams and sample outputs of components like ADC 0804 and op-amp 741. Finally, it proposes some future enhancements to the system like automated emergency response if alarms are not addressed in time.
The document provides information on burglar and fire alarm systems. It discusses the basic components of a security system, including the control panel, keypads, zones, and input devices. It explains what zones are and how they are used to identify areas and signal types. Common zone wiring configurations and input devices for burglary alarms are also outlined.
1) The document provides installation and setup instructions for the Honeywell 5808W3 photoelectric smoke/heat detector with a built-in wireless transmitter.
2) It must be tested regularly according to NFPA 72 standards and enrolled in the control panel by transmitting its serial number before it can operate in the system.
3) Testing involves using the recessed test switch or canned smoke to trigger the alarm and verify a strong signal is received by the control panel.
The document discusses the evolution and capabilities of modern security systems. It notes that early security systems were basic and difficult to install, but that technology has made systems smarter, more reliable and put more control in the hands of homeowners. Modern systems can detect intrusions and dangers, alert homeowners and emergency services, and be controlled remotely through internet or cell phone. The document outlines some common electronic security devices like surveillance cameras, fire alarms, intruder alarms, and electronic locks. It provides details on how these systems work and have advanced with technology.
This document describes an automatic room light, temperature, and fire detection alarm system with a visitor counter. The system uses sensors like LDR, temperature sensor, IR sensors, and smoke sensor along with an Arduino microcontroller to automatically control the room lights and fan based on ambient light and temperature. It also counts the number of visitors and detects fires by triggering an alarm. The system aims to reduce electricity waste and provide safety by automating control of lights, fans, temperature and fire detection based on sensor readings.
This document provides an overview and agenda for auditing an existing fire protection system. It identifies objectives such as defining fire alarm and total flooding systems. The agenda includes introductions, basic components, and a system overview. Basic components of fire alarm systems are identified as electrical (control panel, detectors, sounders) and mechanical (cylinders, piping, nozzles). An audit diagram shows the process. Forms are provided for checks and tests of detection, gas control, and automatic gas flooding systems.
Wireless fire alarm system for small and medium business commercial fire prevention system. App monitor fire alarm and fire automatic fighting system easy install fire alarm and maintain fire security equipment for security service monitor.
SenseTek is de specialist op het gebied van bijzondere branddetectie. Waar de mogelijkheden van reguliere detectiesystemen ophouden, beginnen de mogelijkheden van onze systemen. SenseTek Fire & Security Solutions Amsterdam. Handboek voor de installateur van beam detectie. Fireray 3000.
Central unit can handle up to 4 wired inputs expandable to 24 wireless sensors, seats up to 300 meters away. The inputs are wired NC NA is also fast. The voice call and programming are in English.
Indicates the battery status of the sensors. Manages all sensors in the range KS. It allows you to group the sensors into eight sets of independent (partitions). Each sensor has a unique code combinations to 500,000 against false alarms. The recording sensors are self-learning.
It offers the possibility of out of home automation applications and settings remotely activated panic elderly and silent call. The encoding of the radio broadcast is on 433.92. They are set up to eight users with password access.
In case of power failure communicates the status of the internal battery voltage. Requires 1.3 Ah battery for 72-86 hours of no electricity.
Fire protection systems include sprinklers and standpipes, while fire alarm systems detect fires and notify occupants and emergency services. Occupancy classifications like assembly, business, and mercantile have different fire alarm system requirements based on occupant load. A manual fire alarm is required for assembly occupancies over 300 occupants or business/mercantile over 500 occupants located over 100 feet from exit discharge. Automatic detection and voice alarm systems may also be required based on occupancy and occupant load.
The document discusses NFPA 72 and NFPA 101, which provide minimum requirements for fire alarm systems and life safety from fire. NFPA 72 defines signal initiation, transmission, notification and annunciation for fire alarm systems to provide notification, summon aid and control safety functions. NFPA 101 aims to protect occupants from initial fire development and improve survivability for those near the fire. The document outlines requirements for visible signaling, including candela ratings and placement of strobes in corridors and sleeping areas. Synchronization of multiple appliances is also addressed.
This document provides an overview of fire alarm system fundamentals based on current NFPA codes. It defines key components of fire alarm systems including the fire alarm control panel, initiating devices, notification appliances, transmitters and receivers, and control functions. It also outlines the classification of fire alarm systems, why they are installed, and what topics will be covered, including a review of NFPA 72.
This project uses a temperature sensor to detect the occurrence of a fire and in that case uses a GSM module to send a text alert to the user's phone number.
This document provides an overview and discussion of system survivability, data communication links, fault isolators, and performance nomenclature in fire alarm systems. The key points are:
1) Data communication links are critical for system reliability and survivability during fires. Lessons from failed systems show life safety systems can fail early in fires.
2) Fault isolators are used to isolate short circuits and ensure normal operation of devices is not affected if a fault occurs within a floor area.
3) NFPA 72 has updated its performance designations, replacing circuit styles with classes (A, B, C, etc.) based on their fault tolerance and annunciation capabilities.
Fire alarm 3-f-single_and_multiple-station_alarms_and_household_fire_alarm_sy...grantlerc
This document summarizes NFPA 72 chapter 29 regarding single and multiple station alarms and household fire alarm systems. It outlines requirements for detection, notification, power supplies, equipment performance, installation, maintenance and testing. Key points include smoke alarms being required in all sleeping rooms, outside sleeping areas, and on every level. Alarms must be interconnected to sound together when one activates. Primary power sources must be monitored and provide trouble signals. Installation locations have restrictions near cooking appliances, bathrooms and HVAC supplies.
This project report describes a smoke detection system that uses an Arduino Uno, gas sensor, temperature sensor, servo motor, buzzer, and LED. It takes input from the gas and temperature sensors, and if the gas/temperature rises above a threshold, it sounds the buzzer and activates the servo motor. The servo motor is intended to turn on a water pump to help control a fire. The system provides smoke and fire detection to improve safety in homes, factories, and other buildings.
Fire basics 1-4-risers_thru_power_supplies_08grantlerc
Fire alarm systems are installed to detect and notify people of emergencies to allow safe evacuation. NFPA 72 provides standards for fire alarm system components, functions, and performance. It classifies systems and defines key terms. Fire alarm systems have initiating devices, notification appliances, a control panel, and they transmit signals to a supervising station in some cases. Systems must be designed according to occupancy requirements and approved by the AHJ. They require both primary and secondary power supplies, and the secondary battery must be capable of powering the system for 24 hours plus additional time.
This document describes a GSM based fire alert system that uses an ATmega8 microcontroller along with an MQ2 smoke sensor, LM35 temperature sensor, and GSM module. The system is designed to detect fires and send alerts via GSM. It includes introductions to the components, working block diagram, circuit diagram, PCB layout, and applications for remote fire detection in locations with limited human interaction. Future work proposed includes using GPS instead of GSM for location tracking and integrating an Android app for notifications.
The document discusses fire alarm system fundamentals and requirements based on NFPA 70 and NFPA 72 standards. Key points include requirements for initiating devices to be compatible with listed control units, emergency functions not interfering with alarm operations, alarm activation within 10 seconds of detection, and zoning, annunciation, monitoring, and limitations of fire alarm systems and components.
The document summarizes key sections from NFPA 72 regarding fire alarm systems. It outlines chapters that cover fundamentals, circuits, inspection/testing, initiating devices, and notification devices. For chapter 10 on fundamentals, it provides details on signal priority, distinctive signals for different alarm types, equipment performance requirements, annunciation zoning, integrity monitoring of components, and documentation requirements. Installation and equipment must comply with NFPA 70 and 72 standards unless otherwise indicated.
The document introduces a wireless fire alarm system that uses a control panel and smoke detectors.
1) The control panel uses RF technology for stable signals. It can power for 8 hours on backup and send alarms to up to 8 phones with the location and fire point.
2) The smoke detectors use photoelectric sensors to detect smoke and send wireless alarms. They have low power consumption and can work for 2 years on batteries.
3) The wireless system is easy to install without wiring and can send alarms over long distances to quickly notify many people of a fire.
This document describes a 6 channel fire monitoring and control station. It includes an introduction describing the need for such stations in industrial plants. It then discusses various sensors that could be used including temperature sensors (LM35), smoke detectors, light detectors, and their working mechanisms. It provides circuit diagrams and sample outputs of components like ADC 0804 and op-amp 741. Finally, it proposes some future enhancements to the system like automated emergency response if alarms are not addressed in time.
The document provides information on burglar and fire alarm systems. It discusses the basic components of a security system, including the control panel, keypads, zones, and input devices. It explains what zones are and how they are used to identify areas and signal types. Common zone wiring configurations and input devices for burglary alarms are also outlined.
1) The document provides installation and setup instructions for the Honeywell 5808W3 photoelectric smoke/heat detector with a built-in wireless transmitter.
2) It must be tested regularly according to NFPA 72 standards and enrolled in the control panel by transmitting its serial number before it can operate in the system.
3) Testing involves using the recessed test switch or canned smoke to trigger the alarm and verify a strong signal is received by the control panel.
The document discusses the evolution and capabilities of modern security systems. It notes that early security systems were basic and difficult to install, but that technology has made systems smarter, more reliable and put more control in the hands of homeowners. Modern systems can detect intrusions and dangers, alert homeowners and emergency services, and be controlled remotely through internet or cell phone. The document outlines some common electronic security devices like surveillance cameras, fire alarms, intruder alarms, and electronic locks. It provides details on how these systems work and have advanced with technology.
This document describes an automatic room light, temperature, and fire detection alarm system with a visitor counter. The system uses sensors like LDR, temperature sensor, IR sensors, and smoke sensor along with an Arduino microcontroller to automatically control the room lights and fan based on ambient light and temperature. It also counts the number of visitors and detects fires by triggering an alarm. The system aims to reduce electricity waste and provide safety by automating control of lights, fans, temperature and fire detection based on sensor readings.
This document provides an overview and agenda for auditing an existing fire protection system. It identifies objectives such as defining fire alarm and total flooding systems. The agenda includes introductions, basic components, and a system overview. Basic components of fire alarm systems are identified as electrical (control panel, detectors, sounders) and mechanical (cylinders, piping, nozzles). An audit diagram shows the process. Forms are provided for checks and tests of detection, gas control, and automatic gas flooding systems.
Wireless fire alarm system for small and medium business commercial fire prevention system. App monitor fire alarm and fire automatic fighting system easy install fire alarm and maintain fire security equipment for security service monitor.
SenseTek is de specialist op het gebied van bijzondere branddetectie. Waar de mogelijkheden van reguliere detectiesystemen ophouden, beginnen de mogelijkheden van onze systemen. SenseTek Fire & Security Solutions Amsterdam. Handboek voor de installateur van beam detectie. Fireray 3000.
Central unit can handle up to 4 wired inputs expandable to 24 wireless sensors, seats up to 300 meters away. The inputs are wired NC NA is also fast. The voice call and programming are in English.
Indicates the battery status of the sensors. Manages all sensors in the range KS. It allows you to group the sensors into eight sets of independent (partitions). Each sensor has a unique code combinations to 500,000 against false alarms. The recording sensors are self-learning.
It offers the possibility of out of home automation applications and settings remotely activated panic elderly and silent call. The encoding of the radio broadcast is on 433.92. They are set up to eight users with password access.
In case of power failure communicates the status of the internal battery voltage. Requires 1.3 Ah battery for 72-86 hours of no electricity.
This document provides information on fire alarm panels, detectors, and accessories for conventional and 2-wire fire alarm systems. It describes the components, including panels with various zone and circuit capacities, smoke and heat detectors, sounders, call points, and accessories. Diagrams show typical wiring for conventional and 2-wire system configurations.
The document provides an overview of fire alarm systems, including their components and wiring styles. It discusses the main purpose of fire alarm systems to detect fires and notify occupants. The key components include the fire alarm control panel, initiating devices like detectors and manual pull stations, and notification appliances like horns, bells and strobes. It describes the National Fire Protection Association circuit classifications and wiring styles for initiating device circuits and notification appliance circuits.
Fire alarm system and common types of detectorsMuhammad Farid
Fire alarm systems are installed to detect fires and notify occupants and emergency services. The document discusses the basic components of fire alarm systems including detectors, notification appliances, and control panels. It describes different types of smoke detectors including ionization and photoelectric, and flame detectors. Placement and spacing of smoke detectors is also covered. The summary provides a high-level overview of the key topics and components discussed in the document.
This document discusses fire alarm system requirements for office buildings (B or S-1 occupancy). Basic systems must monitor fire sprinkler systems and include a horn strobe, manual pull station, and annunciator. Buildings over 2000cfm require duct smoke detectors connected to the alarm. Additional requirements apply if the building has fire dampers, elevators, multiple floors, atriums, or is considered a high-rise over 75 feet. High-rise buildings require full voice evacuation and speaker strobes, with smoke detection and devices in all common areas and manual pull stations in stairwells and elevator lobbies every 150 feet. Mechanical drawings are important to understand any special circumstances.
This document provides an overview of basic fire alarm technology, including the components that make up a fire alarm control system. It describes the main controller as the "brains" that provides power and monitors inputs and outputs. It also discusses initiating devices like smoke detectors and manual pull stations that activate the system, as well as notification appliances like horns and strobes that provide outputs. The stages of a fire are outlined to explain what type of detection technology works best at each stage. Common detector types, manual call points, and notification devices are also defined.
Fire Alarm, Smoke Detector and Automatic Sprinkle SystemKhairul Azhar
This document describes a fire alarm and smoke detector system designed using digital logic. The system uses inputs from an emergency switch, smoke detector, and main switch. It outputs a fire alarm and activates an automatic sprinkler system. The logic design includes OR gates, AND gates, a JK flip flop timer set to 3 seconds, a 1Hz clock, 7 segment displays, and inverters. When the smoke detector or emergency switch is activated, the alarm will sound for 3 seconds before automatically shutting off the sprinkler and alarm. The group's responsibilities for the project are also outlined.
This document discusses different types of smoke detectors. It describes photoelectric smoke detectors, which use light scattering or light obscuring to detect smoke. It also describes ionization smoke detectors, which use a chamber with a voltage across plates and a radioactive source to detect smoke. Finally, it provides a circuit diagram for a homemade smoke detector that uses an LED, LDR, transistors, resistors, capacitors, and other components to detect changes in light and sound an alarm when smoke is detected.
Fire detection and alarm systems are installed to notify occupants of a fire, summon assistance to fight fires, and initiate automatic suppression systems. There are different types of automatic alarm initiating devices like heat, smoke, and flame detectors that sense fire. Indicating devices like audible alarms and visible strobes alert people of a fire. Automatic alarm systems transmit alarm signals off-site to notify emergency responders. These systems are supervised to ensure proper operation and may include auxiliary functions to support firefighting and safety.
This document discusses various geological processes and landforms resulting from physical geology. It covers the geological work of rivers including erosion, transportation, deposition and various fluvial landforms. It also discusses the geological work of other agents like wind, groundwater and oceans. Rivers can erode, transport and deposit sediment, forming features like drainage patterns, valleys, waterfalls and terraces over long periods of time. Wind erosion can form dunes and loess deposits, while groundwater can dissolve rock to form sinkholes, caves and valleys. Oceans also erode, transport and deposit material along coastlines.
The document provides installation and user instructions for the 500r+ radio alarm system. It includes:
1) A list of compatible equipment for the system and a brief description of each item.
2) An introduction describing the basic system components and capabilities, including eight zones, a built-in keypad, and support for up to six remote setting devices.
3) Technical specifications covering the system zones, display, expansion options, compliance certifications, radio section, log, outputs, dimensions, weight, and communicator.
This document provides technical specifications and operating instructions for an addressable fire alarm control panel. The panel operates on 180-240V AC power and includes features such as 4 loops that can support up to 150 detectors each, Ethernet connectivity, battery backup, and various input/output capabilities. The document outlines the panel's menu options for configuring zones, devices, outputs, and system settings.
This document provides instructions for an "entry-level" temperature regulator. It includes:
1) Dimensions and connection diagrams for the regulator and its inputs/outputs.
2) Guidelines for installation, including panel mounting and wiring requirements.
3) Descriptions of the temperature sensor inputs (thermocouple, RTD, PTC/NTC) and output types (relays, solid state relays).
4) Information on the power supply, technical specifications, ordering codes, and a configuration procedure for programming parameters.
This document provides installation and operation instructions for the Panther transmitter. It includes 3 chapters:
1) The transmitter features 8 buttons and uses 3 AAA batteries. It communicates via 2.4GHz radio frequency.
2) The instructions cover starting and stopping the transmitter, registering it to a receiver, and changing settings like automatic shutdown via button combinations.
3) Safety information is provided regarding functional safety certification when used with compatible receivers, as the stop button engages safety relays to stop machine functions.
3 in 1 multi sensor Philio PSM01 (door, window, temperature, lightness) manualDomotica daVinci
The slim multi-sensor PSM01 has three sensors - door/window, temperature, and illumination - in one device. It uses Z-Wave wireless technology to connect to a home automation network and controller. The device can detect door/window openings, temperature changes, and light levels, and report this information to the controller. It also has capabilities for controlling connected lights based on sensor readings and settings. The document provides detailed information on configuring, installing, and operating the multi-sensor device on a Z-Wave wireless home automation network.
Sony hcd gpx33-gpx55_gpx77_gpx88_ver.1.0 (edita)gacoroma
This document provides troubleshooting and diagnostic procedures for various components of an audio amplifier system. It includes flow charts to diagnose issues with the switching regulator, optical pickup block, D-AMP mount, and MOSFETs. The procedures describe how to check voltages, signals, and components to isolate potential problems in the power supply, laser, motor control, and audio output stages. Replacement of faulty parts is recommended if issues are identified.
The document provides details on test programs that can be run on ERBE ICC 50, ICC 80, and ICC BIPOLAR electrosurgical units, including programs to check components, calibrate outputs, and set user preferences. It also lists error codes that the units can display, providing explanations of possible issues and guidance on troubleshooting and resolving problems.
1) The document provides an operating manual for the SAGA1-L10 Industrial Remote Controller made by Gain Electronic Co., Ltd. It details specifications, parts, operation instructions, troubleshooting tips, and warranty information.
2) Warranty covers defects in materials and manufacturing for one year from shipment. The buyer pays shipping to Gain for repairs, while Gain pays return shipping. The warranty excludes consumable parts and defects caused by improper installation, maintenance, modification, operation, or software/interfacing.
3) Precautions for installing the receiver include placing it as far as possible from frequency inverters and power cables to avoid interference, and mounting it on top of the electrical control box rather than inside.
ASL Intercom BS-216 2-channel Master StationAV ProfShop
This document is a user manual for the BS 216 dual channel master station. It provides instructions for unpacking, installing, and operating the device. Key features include a dual channel intercom line power supply, auxiliary audio input, and headset station that uses only 1U of rack space. The manual describes front panel controls for volume, talk, call, and sidetone adjustment, as well as rear panel connectors for power, audio lines, and auxiliary input. Cabling guidelines and the technical party line concept are also covered.
The 4603-9101 LCD annunciator is a remote display unit that connects to Simplex fire alarm control panels to provide system status information on an 80-character LCD screen. It uses a single twisted, shielded wire pair to communicate with the control panel and requires a separate wire for 24VDC power. The annunciator displays information about alarms, supervisory conditions, and troubles in clear English and includes LED status indicators and acknowledgment buttons that control the panel notification appliances.
The document provides safety instructions and an overview of the features and operation of the Dual 31 Band Equalizer. Key points include:
- The equalizer has 31 frequency bands covering 20Hz to 20kHz that can each be boosted or cut by up to 12dB or 6dB depending on the range setting.
- It has electronically balanced inputs and outputs, variable low cut filter, bypass switches, and LED VU meters.
- The document explains the controls on the front and rear panels and provides instructions for setting up and using the equalizer for different applications such as with a mixer, patchbay, or real time analyzer.
The document provides safety and operating instructions for the Dual 31 Band Equalizer. It describes the unit's features such as its dual channel design with 31 1/3 octave bands, constant Q circuitry, cut/boost ranges, and bypass switches. It also covers setup instructions, typical system configurations, equalization techniques, and specifications.
Micromodule Mural On/Off Z-Wave Plus AN179 Smart Home Europe manual englishDomotica daVinci
The document describes an In-Wall On/Off Z-Wave module that can control lighting and appliances. It has two dry contacts that provide wiring flexibility and overheating protection. It supports loads up to 11A and can be included in a Z-Wave network to allow remote control. The module has a link button for inclusion, exclusion and reset, and supports auto-inclusion on first power-up without a node ID.
The document is a user manual for the MCOHome Touch Panel Switch, a Z-Wave compatible wall switch. It provides specifications for the switch, instructions for installation and inclusion in a Z-Wave network, and operation details. The switch supports basic command class and association command class to control associated devices synchronously. It has a 1-year limited warranty against defects but not against improper installation or use.
Professional wireless fire alarm and fire linkage security system.
It is easy to install without wiring.
It is easy to program with free PC software.
It is professional security fire alarm and automatical fire fighting with loop linkage and direct linkage with smoke exhaust, electric fan, hydrant etc.
Complete wireless fire alarm system at vedardsecurity.com
Gas fire extinguishing device and foam fire extinguishing device usually adopt independent fire extinguishing controller. When the fire detector in its protected area is directly connected to the fire extinguishing controller, the alarm linkage control of each stage and the feedback signal of the system shall be immediately fed back to the fire extinguishing linkage controller, and the fire extinguishing linkage controller shall start the alarm linkage control process according to the specification requirements.
After the fire linkage controller receives the feedback signal, is it necessary to activate all the fire audible and visual alarms and fire broadcasting in the building? Is it necessary to turn on the smoke control and exhaust system and the emergency lighting evacuation indicator system?
Gas fire extinguishing control system is mainly composed of gas fire extinguishing controller, fire detectors, manual /automatic switch, emergency start/stop button, sound/light alarm, gas spraying indicator light, etc.
Among them, Generally, smoke detectors and heat detectors are used as fire detectors.
Manual alarm button or other types of fire detectors can also be used in special cases.
Gas extinguishing controller linkage control gas fire extinguishing equipment, linkage control fan, Air valve fire valve, Ventilation and air conditioning, Automatic doors and Windows and other equipment. And receive feedback signals.
The gas fire extinguishing system project requires the implementation of simulated start-up tests to verify the reliability of the gas fire extinguishing system. The simulated start test shall be carried out after the installation and debugging of gas equipment, alarm equipment and gas fire extinguishing equipment.
1. Manually start the experiment
2, automatic start test.
Temperature measuring electrical fire monitoring detector can detect the change of temperature parameters in the protected line, and can monitor the abnormal temperature of the line or connection point.
The detector shall be installed in the key heating parts of the cable connector terminal.
Temperature measuring electrical fire monitoring and detection includes signal processing unit and temperature measuring sensor.
The independent electric fire monitoring detector has the function of monitoring and alarm, the detector sends out sound and light alarm signal when alarm, and displays the alarm value, which can be used independently.
When there is no fire control room and the number of electrical fire monitoring detectors is not more than 8, independent electrical fire monitoring detectors can be used.
Each signal processing unit of the independent electrical fire monitoring detector can equip up to 4 sensors.
When the automatic fire alarm system is provided, the alarm information and fault information of the independent electrical fire monitoring detector shall be displayed on the graphic display device of the fire control room or the centralized fire alarm controller.
The alarm linkage control of smoke control system refers to the alarm linkage control of mechanical smoke control system.
According to the different parts of the setting, the mechanical pressurized air supply system can be divided into the mechanical pressurized air supply system in the stairwell and front room, the mechanical pressurized air supply system in the refuge layer and the mechanical pressurized air supply system in the refuge aisle.
Mechanical pressurized air supply system in the stairwell and front room:
Linkage control should be divided according to fire protection zones, including automatic, manual, chain start and other control methods.
Fire alarm controller and fire linkage controller are integrated products, called the linked fire alarm controller.
The main components of the linked fire alarm controller include motherboard, display board, bus linkage control panel, multi-line linkage control panel, network interface component, power supply, loop board and so on.
Most fire alarm systems adopt two bus system.
Two bus is a bus technology that combines power supply line and signal line. Two buses save construction and cable costs, greatly facilitating on-site construction and later maintenance.
There are two main types of bus systems - tree bus and ring bus. Tree bus has a unidirectional loop that means equipment behind a fault cannot operate, while ring bus forms a closed loop so a single fault does not affect the whole system. Both require bus isolators to isolate faults without disrupting other equipment. The total number of devices protected by each isolator should not exceed 32. Isolators automatically reintegrate isolated sections once faults are repaired.
The design of the regional fire alarm system shall comply with the following requirements:
1. The system shall consist of fire detector, manual fire alarm button, fire audible and visual alarm and fire alarm controller.
2. The system may include a graphic display device in the fire control room and an fire alarm displayer to indicate the fire floor.
3. The fire control room can not be set up for the regional fire alarm system, but the fire alarm controller should be set up in the place with people on duty.
4. When the system is equipped with the graphic display device in the fire control room, the graphic display device performs the functions of remote information transmission and remote query.
5. If no graphic display device is set in the system, fire alarm transmission device should be set. Similar functions are performed by fire alarm transmission equipment.
According to the specification requirements, the centralized alarm system and the control center alarm system need to be equipped with graphic display device (CRT system).
The graphic display device is installed in the fire control center, which is used to simulate the building plane layout of the fire trigger device and linkage device on site, and can truthfully reflect the fire, linkage condition and fault situation on site.
The graphic display device can display the general layout of the building, the building plan of each protected object, the system diagram, and the names and evacuation routes of each protected object and the main parts.
And can display automatic fire alarm and linkage control system and its control of all kinds of fire fighting equipment name, physical location and dynamic information of each fire fighting equipment.
Automatic fire alarm system is the main part of fire control system.
Automatic fire alarm system includes fire early warning system, fire detection alarm and linkage control system.
The linkage control system includes fire hydrant button, fire alarm, various input and output modules, fire appliance control device, fire broadcasting system, fire telephone system, graphic display device, emergency lighting, evacuation indicating system, etc.
Fire early warning system is an independent subsystem of automatic fire alarm system. It mainly includes combustible gas detection and alarm system and electrical fire monitoring system.
Combustible gas detection and alarm system is mainly used in the use, production of combustible gas or combustible steam places.
Alarm area is a unit that divides the warning range of automatic fire alarm system according to fire zone or floor. An alarm area includes a plurality of detection areas.
The purpose of dividing the alarm area is to determine the location of the alarm and fire. At the same time, it is convenient to solve the problem of fire control system linkage design.
The alarm area should be divided according to the fire zone or floor. You can also divide several adjacent fire zones or floors that need to be simultaneously linked with fire fighting equipment into an alarm area in case of fire.
Bus short circuit isolator is simply called bus isolator.
It is necessary to install bus short circuit isolator in bus automatic fire alarm system. When a bus fails, the bus isolator automatically separates the faulty bus part from the whole system to ensure the normal operation of the rest of the system.
At the same time, the fire alarm controller indicates the part number of the isolated parts, which is convenient for maintenance.
When the fault is rectified, the bus isolator automatically reintegrates the isolated part into the system.
Manual fire alarm button is a manual fire alarm device.
After the alarm button is pressed, the alarm signal is sent to the fire alarm controller through the bus loop.
The controller displays the position, code and annotation information of the alarm button, and sends out sound and light alarm signal.
The alarm button should be set with a red start confirmation light. After pressing the alarm button, the start confirmation light should be lit and kept until the alarm state is reset.
The input module, also known as the monitoring module, is used to receive the action signal of the monitored device and can be connected to the monitored device with normally open or normally closed signal output.
The input module adds an address code to the action signal of the monitored device, and transmits it to the fire alarm controller through the signal bus to issue an alarm signal or linkage trigger signal.
The input module can be equipped with all kinds of equipment that need feedback signals on the site, such as water flow indicator, pressure switch, signal valve control cabinet, and all kinds of external linkage equipment that can provide switch signals.
According to the code, carbon monoxide detectors should be installed in places where carbon monoxide leakage is possible.
For the choice of carbon monoxide detector, you may have the following questions:
Carbon monoxide is both a combustible gas and a toxic gas,should I choose a carbon monoxide detector or a combustible gas detector?
More details can be found at https://www.vedardsecurity.com
The gas fire extinguishing control system mainly consists of gas fire extinguishing controller, fire detector, manual automatic switch, emergency start and stop button, sound and light alarm, gas spraying indicator light and so on.
The fire detector generally adopts smoke fire detector and temperature fire detector. In special cases, manual alarm buttons or other types of fire detectors can also be used.
Gas fire extinguishing controller linkage control gas fire extinguishing equipment, linkage control fan, air valve, fire valve, ventilation and air conditioning, automatic doors and windows and other equipment, and receive feedback signals.
More professional fire alarm system instruction can be found at https://www.vedardsecurity.com
Residual current electrical fire detector is used to monitor the change of residual current value in the protected line.
When the residual current in the protected electrical line exceeds the alarm set value, it can send alarm and control signals.
It is generally composed of residual current sensor and signal processing unit.
Read more instruction of fire alarm systems from Vedard Security Alarm Technology at https://www.vedardsecurity.com
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Mini 2 zones Conventional Fire Alarm Control Panel
1. 2 Zones
Master & Slave
Fire Alarm Control Panel
User & Installation Manual
ZONE1 ZONE2 SOUND
A
F
A
F
A
F
EVACUATE SILENCE TEST/RESET
ZONE1 ZONE2 SOUND
A
F
A
F
A
F
EVACUATE SILENCE TEST/RESET
Master Panel Slave Panel
IMPORTANT
This manual should be left with the panel after installation.
We reserve the right to change product specifications without
prior notice.
Notes
2. INSTRUCTION MANUAL 3
Introduction
The information provided in this manual covers the
Master and Slave fire alarm control panel. The panel
range is designed to meet the requirements of EN54
Parts 2 & 4.
This product should be installed, commissioned and
maintained by suitably qualified service personnel
with reference to IEE regulations and any statutory
requirements.
General Description
The panel 2 zones ranges of fire alarm control
panels are microprocessor controlled and are
available with 2 sense zones (detector zones) . The
panels have 1 alarm sound output zones (bell zones),
a 24V supply energised on fire, one set of volt free
changeover contacts which operate on fault, and two
sets of volt free changeover contacts which operate
on fire.
Installation Procedure
Before proceeding with the installation, please read
the section Panel Operation.
Installation of the panel should be carried out by
qualified personnel.
4 FIRE ALARM PANEL
Using the metal box as a template, mark the position
of the fixing holes on the wall. Drill and plug the wall,
then screw the panel to the wall. Ensure the panel
is free from knockout discs, swarf and other debris.
The back of panel box is as below, there are three
wiring holes on the back, and another three holes on
the top of box for cable wiring. And there are six
diameter 6mm holes on the back of box for screws to
fix the box on the wall.
57mm
82mm
59mm
Diameter
6mm
28.5mm
12mm
29.5mm
Diameter
20mm
28.5mm
105mm
140mm
3. INSTRUCTION MANUAL 5
Do not remove any end of line resistors from the
panel until after the following test is performed.
With all end of line resistors fitted inside the panel,
connect the panel DC24V input to an external DC22
to 26V power supply. Switch the external DC24V
supply on. The internal buzzer will sound.
With the panel DC power supplies connected, the
panel should be silent and in its normal operating
mode, the power running lamp (above the
Test/Reset button) would flash (about 10 seconds
without communication, about 5 seconds with
communication), alarms & buzzer silent.
If a fault is indicated, refer to the fault finding section
before proceeding. Switch off the mains supply.
Remove the 5k6 end of line resistor from sense zone
1. Terminate sense zone 1 circuit wiring in the panel
observing correct polarity and fit the end of line
resistor at the very end of the circuit. Check that all
the detectors and call points are correctly wired.
With sense zone 1 connected and all other end of
line resistors fitted inside the panel, connect the DC
power supplies. If the panel indicates a fault, refer
to the fault finding section before proceeding. Do
not megger cables connected to either the panel or
any field devices. If no faults are indicated then
6 FIRE ALARM PANEL
power down the panel and follow the same
procedure with the additional sense zones and then
the alarm zones. Adding the zones one at a time
makes fault finding and commissioning much simpler.
Make sure that no bare wires come into contact with
the panel circuit boards during installation.
Detector Head Removal
The Panel supports head removal. The basic
principle of head removal is to ensure that all call
points will function even if a detector head has been
removed. Head removal requires either zener
clamp bases or schottky diode bases with the
appropriate end of line device to be fitted.When a
detector head is removed, the panel will show a fault,
but the sense zone circuit will remain intact.
4. INSTRUCTION MANUAL 7
Control panel fascia
In addition to the mandatory controls and indications
required by the EN54-2/4 standards, Reset, Test,
and Silence Alarm/Fault buttons are provided to
allow easy operation to the control pane.
Master Panel
Zone1 Fault LED
Zone2 Fault LED
Master panel has 4 digital LED.
Sound Alarm LED
Sound Fault LED
Digital LED
Silence LED
RUN LED
Test/Reset Button
Silence Button
Zone1 Alarm LED
Zone2 Alarm LED
Evacuate LED
Evacuate Button
8 FIRE ALARM PANEL
Slave Panel
Zone1 Fault LED
Zone2 Fault LED
Slave panel has no 4 digital LED.
Sound Alarm LED
Sound Fault LED
Silence LED
RUN LED
Test/Reset Button
Silence Button
Zone1 Alarm LED
Zone2 Alarm LED
Evacuate LED
Evacuate Button
5. INSTRUCTION MANUAL 9
Panel Operation
Normal Status.
If the panel is in its normal condition, the RUN led
(above the TEST/RESET button) would flash once
every 10 seconds (without communication) or 5
seconds (with communication)..
Performing a lamp test.
If the panel is in its normal condition, pressing the
Test/Reset button will cause the panel to perform a
lamp test. In the normal condition, press and hold
down Test/Reset button about 10 seconds, the panel
would be reset.
Resetting the panel after a fire or fault is detected.
To reset the panel after a fire or fault event, press the
Silence button first and then press the Reset button.
Resetting the all the panels.
If any of the panel functions have been activated,
pressing Silence button first and then press the
Reset button will return the panel to its normal
condition. When the master panel’s Reset button
pressed, master panel and all the slave panels would
be reset.
10 FIRE ALARM PANEL
Silencing the internal buzzer.
If a fault or a alarm is detected by the panel, the
internal buzzer will sound. To silence the buzzer
press the Silence button.
Silencing the Sound Alarms.
If a fire is detected, the panel will automatically
activate the sound circuits. To silence the sound
alarms, press and hold down the Silence button
about 5 seconds.
Active sound alarm manually.
Anytime, press the Evacuate button, the sound
output would be activated.
Active Fire1 & Fire2 Relay output manually
Anytime, press and hold down the Evacuate button
first, and then press and hold down the Silence
button, and then press Test/Reset button, then
release the Test/Reset button, then release Silence
button, at last release the Evacuate button, the
Evacuate LED would flash, and then Fire1 relay and
Sound output would be activated, after 30 seconds
delay, the Fire 2 relay would be activated. The
Evacuate LED would be light steady.
Pause the Fire2 Relay output delay time
6. INSTRUCTION MANUAL 11
Whenever automatically or manually active the 30
seconds count down delay time, , press Evacuate
button, the count down delay time would be paused,
the Evacuate LED and Silence LED would flash
together, when press Evacuate button again, the
Silence LED would not flash, the count down delay
time would go on continuously.
Fault Finding
RUN LED blinks intermittently
This is perfectly normal and indicates that the
processor is running an internal memory check.
Fault LED and sense zone fault LED flashing,
buzzer sounding.
Faults monitored are:
• Open circuit on the sense zone wiring.
• Detector head removal.
Check all detectors and call points on the sense
zone indicated. Check wiring is as in example
diagrams and ensure the end of line monitor is a
5k6 resistor or an active end of line device.
Sound fault LED flashing, buzzer sounding.
Faults monitored are:
• Open circuit on the sound output wiring.
12 FIRE ALARM PANEL
• Short circuit on the sound output wiring.
• The end of line diode not connected or not
connected correctly.
Head removal not working.
Check compatible base is being used and is wired
correctly.
Other faults.
Switch off the power supply and restart the power
on.
Fault Output
The fault output, marked FAULT on the PCB, is a set
of volt free changeover contacts.When the panel is in
fault, common (C) is shorted to normally open (NO).
In normal operation with no faults, common (C) is
shorted to normally closed (NO).
7. INSTRUCTION MANUAL 13
Panel Inside
14 FIRE ALARM PANEL
Panel Specifications Master Slave
System Voltage (V DC) DC22-26V DC22-26V
Normal Quiescent Current (normal status) <50mA <50 mA
Alarm Current (not include the others) <150 mA <150 mA
Detector Voltage (V DC) 24 24
Number of Sense Zones 1-2 1-2
Maximum Number of Detectors per Zone 30 30
Firing Resistance (Ohms) 510 ± 200 510 ± 200
Sense Zone End of Line (Ohms) 4K7-10K 4K7-10K
Alarm Voltage (V DC) 24 24
Number of Alarm Zones 1 1
Maximum Alarm Current per Zone (mA) 300 300
Maximum Number of Sounders per Zone 16 16
Sound Output End of Line Diode 1N4007 1N4007
Max. Sound Supply Current in Fire (A) 1A/24V 1A/24V
Fire, Fault Relay contacts Load (A) 2A/24V 2A/24V
Panel Weight [Without Battery] (kg) 520g 500g
Panel Dimensions (mm) 108 x 143 x40 108 x 143 x40
8. INSTRUCTION MANUAL 15
Terminal Wiring Diagram
Zone Detectors
Diode
1N4007
24VDC+ SOUND+ FIRE2
JP1
RS485
B
NO C
FIRE1
NO C
FAULT
NO C
ZONE2
+ ZONE1+ A
S
S
S
S
Polarised
Sounder
Auxiliary Signalling Relays
Sounders
5K6
5K6
FIRE2 FIRE1 FAULT
DC24 V POWER INPUT
RS485 Communicaiton
16 FIRE ALARM PANEL
Sense Zone Wiring Diagrams
Find the detector bases you will be using and check
to see which end of line device is required - either a
5k6 resistor or an active end of line unit. The 5k6
resistor should be used if a zone is comprised
entirely of call points.
Sense zone with a 5k6 end of line resistor.
Zone+
Zone-
+in +out
-in -out
+in +out
-in -out
The color bars on a 5k6 resistor are
5k6
EOL
gold
red
blue
green
The panel is supplied with 5k6 end of line resistors as
standard.
Manual call point can be connected into Zone wiring,
when the manual call pint switch closed, the sense
zone wire would be short, the panel would alarm
when the sense zone circuit is short.
9. INSTRUCTION MANUAL 17
Sound OuptutWiring Diagram
The sound output are wired as in the diagram below.
A end of line diode must be fitted at the end of the
circuit. Motorised fire bells may be used, but solenoid
bells MUST NOT be connected to the panel.
Sound+
Sound-
Diode
1N4007
+in/out
-in/out
+in/out
-in/out
18 FIRE ALARM PANEL
Auxiliary Signaling Relays and Sound
Outputs
There are three auxiliary signal relay output and
two sound output inside the panel.
Fire1 Relay Output
If any zones fire alarms, the Fire1 relay would be
activated and output relay contacts(C, NO).
Meanwhile, the Sound output would be activated.
Fire2 Relay Output
If zone 1 and zone 2 fire alarms together, the
Evacuate LED flash, after 30 seconds delay, the LED
would light continuously, Meanwhile the Fire2 relay
would be activated and output relay contacts(C, NO).
Fault Relay Output
If any fault occurs in the panel, the Fault Relay would
be activated and output relay signal outputs(C, NO).
10. INSTRUCTION MANUAL 19
Fire Alarm Network
One Master Panel could connect 1 to 31 slave panels.
When the slave panel has alarm or fault event, the
slave panel would send even to master panel, and
then master would show the event of slaves one by
one.
RS 485 Communication terminal wiring
Mater panel connect all the slave panel with RS485
communication port, Each panel RS485 port have two
terminals A and B, all the terminal A should be
connected in one wire, and also terminal B should be
connected in another wire.
Also the DC24V power of panels should be connected
together.
DC24+
DC24-
RS485-A
RS485-B
DC24+
DC24-
RS485-A
RS485-B
Master Panel No.1 Slave Panel No.2 Slave Panel
DC24+
DC24-
RS485-A
RS485-B
No.31 Slave Panel
JP1
SW1
1 2 3 4 5
JP1
SW1
1 2 3 4 5
JP1
SW1
1 2 3 4 5
JP1
SW1
1 2 3 4 5
20 FIRE ALARM PANEL
Panel address setting
Slave panel address must be from 1 to 31 continuously.
And master address should be set as the total number
of slave panels. For example, if you connect 18 slaves
to the master panel, the master panel address should
be set to 18. And the slave panel address should be
set from one to 18.
The address setting dip switch SW1 is on the PCB
board. There are 5 small dip switch on the SW1 switch,
from right to left each dip switch correspond to binary
number of panel address.
ON is “1” and OFF is “0” for each bit.
11. INSTRUCTION MANUAL 21
The following table would show all address status from
1 to 31.
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 5 6 7 8
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 9 10 11 12
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 13 14 15 16
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 17 18 19 20
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 21 22 23 24
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 25 26 27 28
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 29 30 31 0
22 FIRE ALARM PANEL
RS485 EOL resistor setting
For the RS485 communication network, two End of
Line (EOL) resistors should be used at both end of
RS485 wires. The resistor is on the PCB board already,
you just use jump J1 to select.
For the master panel and the last one panel, the jump
J1 should be set as below:
JP1
For the other slave panel, the jump J1 should be set as
below:
JP1
JP1
12. INSTRUCTION MANUAL 23
How Master Panel show the Event of Slave
Panel
When then fire alarm system working, all the fire or
fault event of slave panel would send to master panel.
The Master panel would show fire and fault event one
bye one.
When there are no fire alarm events, the master would
show the fault event.
If there are fire event, the master would not show the
fault event.
Communication Fault Event
In the normal condition, the Master would
communicate with Slave panels one by one, if one of
slave panel is not respond the master panel
commands. The master would show CF.XX, XX is the
number of slave panel, for example, if No.7 slave
panel has some communication problem, the Master
panel would show CF.07 as below. CF is short
abbreviation for Communication Fault.
24 FIRE ALARM PANEL
Fire alarm Event
When master or slave panel alarm, the master panel
would show all fire alarm events one by one.
The master panel would show PA.XX, XX is the
address of panel, address 00 is for master panel,
address 01 to 31 is for slave panel.
When the digital LED show the PA.XX, the
corresponding zone1 or zone2 fire alarm LED would
light.
For example, if zone2 of slave panel 16 alarms, zone 1
of slave panel 28 alarms, the master would show
information as below in cycle:
Any slave panel’s alarm event would active the master
panel’s sound output
ZONE1 ZONE2 SOUND
A
F
A
F
A
F
EVACUATE SILENCE TEST/RESET
ZONE1 ZONE2 SOUND
A
A
A
F
F
F
EVACUATE SILENCE TEST/RESET
Zone2 of No.16 slave Zone1 of No.28 slave
13. INSTRUCTION MANUAL 25
Fault Event
When master or slave panel has fault, the master
panel would show all fault events one by one.
The master panel would show PF.XX, XX is the
address of panel, address 00 is for master panel,
address 01 to 31 is for slave panel.
When the digital LED show the PFXX, the
corresponding zone1 or zone2 fault LED would light.
For example, if zone1 of slave panel 5 has fault, zone
2 of master has fault, the master would show
information as below in cycle:
ZONE1 ZONE2 SOUND
A
F
A
F
A
F
EVACUATE SILENCE TEST/RESET
ZONE1 ZONE2 SOUND
A
F
A
F
A
F
EVACUATE SILENCE TEST/RESET
Zone1 of No. 5 slave Zone2 of Master
26 FIRE ALARM PANEL
Panel System Log
All events should be properly recorded in this log
book. An ‘event’ should include fire alarms (whether
real or false), faults, tests, temporary disconnections
and the dates of installing or servicing engineer’s
visits with a brief note of work carried out and
outstanding.
Name and address ..............................................
of installation ........ ....................................
Person responsible ....................... Date...............
for log book ....................... Date ...............
........................ Date ...............
........................ Date ...............
System installed by .............................................
and is maintained under contract by ......................
Tel..........................
.