This document provides installation and operation instructions for the Fibaro Smoke Sensor. It includes:
1) Details on how to include the sensor in a Z-Wave network either automatically or manually and exclude it from the network.
2) An overview of the sensor's operation modes, smoke and temperature detection functionality, and ability to detect lack of Z-Wave range.
3) Guidelines for installing the sensor properly and configuring its sensitivity level.
This document provides information about a Zipato smoke sensor, including:
- It uses Z-Wave 500 series technology for wireless communication and includes a smoke detector, sound alarm, and tamper switch.
- It has a range of 30 meters indoors, 70 meters outdoors, and can connect to other Z-Wave devices as a repeater.
- It requires a CR123A lithium battery and includes instructions for installation, setup, testing and configuration through a Z-Wave controller.
1. The Fibaro Door/Window Sensor is a wireless, battery powered, Z-Wave compatible reed sensor that detects opening and closing of doors and windows.
2. It supports connection of one DS18B20 temperature sensor and has one potential free input that can be connected to a switch.
3. The document provides instructions on inclusion of the sensor to a Z-Wave network, resetting the sensor, and controlling it through a Home Center 2 controller.
1) The document provides instructions for replacing the battery in a Fibaro Smoke Sensor smoke detector. It describes detaching the sensor from its cover, removing the old battery, inserting a new battery while observing polarity, and reattaching the sensor to the cover.
2) The Fibaro Smoke Sensor is an optical smoke detector that detects smoke and sends alarm signals via sound, light, and Z-Wave commands. It can also monitor temperature and send warnings if thresholds are exceeded.
3) The instructions describe testing the sensor after battery replacement by performing a self-test where the sensor checks its operation and signals via light and sound.
The document describes a flood sensor called the Fibaro Flood Sensor. It has a futuristic and compact design inspired by a water drop. It can detect floods and changes in temperature, and has additional functions like a tilt sensor, alarm siren, and temperature sensor. It is battery powered and maintenance free, and can integrate with alarm systems through wired connections.
The smoke detector Z-Wave detects fire and smoke emissions. In case of emergency, it gives an audible alert and sends an alarm signal to the Z-Wave network
This document provides information about a Z-Wave water meter sensor with firmware version 3.0. The sensor fits into water meters from Sensus and transmits meter readings via the Z-Wave network on a timed or delta change basis. It uses a lithium battery that provides an estimated 10 years of battery life. The sensor can be included and excluded from a Z-Wave network by placing a magnet on it for 3 seconds until the LED blinks red. It supports configuration of parameters like the reading reporting interval and wakeup interval to communicate with controllers.
This document provides information about a Z-Wave compatible smoke detector, including instructions for inclusion into a Z-Wave network, descriptions of its operating modes like alarm, low battery, and testing modes, and details about its configuration parameters and associations with other Z-Wave devices.
The document provides an operating manual for the Fibaro Flood Sensor, a Z-Wave compatible flood and temperature sensor that can be powered by batteries or 12/24 VDC. It has a built-in temperature sensor, tilt sensor, and LED indicator. The manual describes how to include/exclude the sensor from the Z-Wave network, install it, reset it, and power it in battery or constant power modes. Diagrams show how to connect it to an alarm system or power source.
This document provides information about a Zipato smoke sensor, including:
- It uses Z-Wave 500 series technology for wireless communication and includes a smoke detector, sound alarm, and tamper switch.
- It has a range of 30 meters indoors, 70 meters outdoors, and can connect to other Z-Wave devices as a repeater.
- It requires a CR123A lithium battery and includes instructions for installation, setup, testing and configuration through a Z-Wave controller.
1. The Fibaro Door/Window Sensor is a wireless, battery powered, Z-Wave compatible reed sensor that detects opening and closing of doors and windows.
2. It supports connection of one DS18B20 temperature sensor and has one potential free input that can be connected to a switch.
3. The document provides instructions on inclusion of the sensor to a Z-Wave network, resetting the sensor, and controlling it through a Home Center 2 controller.
1) The document provides instructions for replacing the battery in a Fibaro Smoke Sensor smoke detector. It describes detaching the sensor from its cover, removing the old battery, inserting a new battery while observing polarity, and reattaching the sensor to the cover.
2) The Fibaro Smoke Sensor is an optical smoke detector that detects smoke and sends alarm signals via sound, light, and Z-Wave commands. It can also monitor temperature and send warnings if thresholds are exceeded.
3) The instructions describe testing the sensor after battery replacement by performing a self-test where the sensor checks its operation and signals via light and sound.
The document describes a flood sensor called the Fibaro Flood Sensor. It has a futuristic and compact design inspired by a water drop. It can detect floods and changes in temperature, and has additional functions like a tilt sensor, alarm siren, and temperature sensor. It is battery powered and maintenance free, and can integrate with alarm systems through wired connections.
The smoke detector Z-Wave detects fire and smoke emissions. In case of emergency, it gives an audible alert and sends an alarm signal to the Z-Wave network
This document provides information about a Z-Wave water meter sensor with firmware version 3.0. The sensor fits into water meters from Sensus and transmits meter readings via the Z-Wave network on a timed or delta change basis. It uses a lithium battery that provides an estimated 10 years of battery life. The sensor can be included and excluded from a Z-Wave network by placing a magnet on it for 3 seconds until the LED blinks red. It supports configuration of parameters like the reading reporting interval and wakeup interval to communicate with controllers.
This document provides information about a Z-Wave compatible smoke detector, including instructions for inclusion into a Z-Wave network, descriptions of its operating modes like alarm, low battery, and testing modes, and details about its configuration parameters and associations with other Z-Wave devices.
The document provides an operating manual for the Fibaro Flood Sensor, a Z-Wave compatible flood and temperature sensor that can be powered by batteries or 12/24 VDC. It has a built-in temperature sensor, tilt sensor, and LED indicator. The manual describes how to include/exclude the sensor from the Z-Wave network, install it, reset it, and power it in battery or constant power modes. Diagrams show how to connect it to an alarm system or power source.
This device is a Z-Wave carbon monoxide sensor that can be included in a Z-Wave network to wirelessly report carbon monoxide levels and alarm conditions. It combines a certified carbon monoxide detector with a Z-Wave module. When carbon monoxide levels reach certain thresholds, the sensor will send an alarm to the central controller and can trigger other Z-Wave devices. The sensor can also report tamper detection, low battery, and malfunctions.
The document provides installation instructions for a Smart Smoke Sensor in 3 sentences:
The smoke sensor should be installed in the center of the ceiling at least 30cm from lights and 15cm from walls. It can be mounted on sloping ceilings up to 90cm from the top of the ceiling. The installation steps include rotating the bracket out of the base, removing the battery strip to power on the sensor, and fitting the sensor into the bracket.
This document provides a user guide for the Zipato home control system tablet. It includes instructions on installing the tablet on the wall mount, creating an account, adding and removing connected devices from the system, and specifications for the tablet. The guide describes how the tablet allows users to control home security, lighting, climate, sun shading, irrigation, access, multimedia, video monitoring and energy metering from any smartphone. It also provides contact information for technical support.
The document is the operating manual for the Fibaro Motion Sensor, a Z-Wave multi-sensor device that detects motion, measures temperature and light intensity. It can be installed on any surface and includes instructions on including the sensor in the Z-Wave network, checking its operating range, and resetting the sensor. The manual provides technical specifications of the sensor such as its temperature and light measuring ranges, radio frequency, and battery life.
Manual of Flow Stop is a motor operated shut-off controller for automatic flow stop of gas and water pipes. It is equipped with Z-Wave Plus technology. This means it is particularly suitable for use in smart homes. By manufacturer PoPP
1. The document provides information about the Sensoair Z-Wave CO2 Sensor, including its features, specifications, and how it operates within a Z-Wave network.
2. As a Z-Wave device, it can join and leave a Z-Wave network and communicate with other Z-Wave devices as either a sensor or controller.
3. It measures carbon dioxide levels and reports them to the primary Z-Wave controller, and can control other devices through associations.
Fibaro Roller Shutter is a Z-Wave compatible electric motor controller that allows precise positioning of roller blinds, awnings, venetian blinds, gates and other AC powered motors. It can be controlled wirelessly through a Z-Wave network or via switch keys connected to it. The device also measures the connected motor's current power consumption. It supports electronic and mechanic end switches and can control motors of up to 1kW for 230V or 500W for 110V power supply.
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.
Manual Outdoor motion detector Z-Wave Plus - PhilioDomotica daVinci
The motion sensor uses Z-Wave wireless technology to detect motion. It can be included in a Z-Wave network to remotely control devices. The sensor detects motion using a PIR sensor and supports two operation modes. It can associate with other devices and report events wirelessly. The device settings can be configured including sensitivity, detection interval, and auto reporting frequency.
This document provides information about a remotely controlled light dimming module. The dimmer module can be connected to two-wire or three-wire cable to operate with or without a neutral lead. It can switch or dim connected light sources via radio waves or an external wall switch. The dimmer is equipped with an algorithm to automatically detect the connected light source type to make configuration easier. It can operate various light sources including incandescent, halogen, LED, CFL, and dimmable fluorescent lights. The dimmer module has specifications for power supply, consumption, temperature range, dimensions, load current, and radio frequency protocol. It also provides instructions for installation, inclusion into a Z-Wave network, resetting, and
This document provides instructions for setting up and using the Aeotec LED Strip. The LED strip allows for wireless control of color and brightness using Z-Wave commands. It can be added to a Z-Wave network by pressing the action button while the controller is in pairing mode. Advanced settings like color display cycles and customized color sequences can be configured through the Z-Wave controller. Warranty and safety information is also included.
The 6 in 1 multisensor from Aeon Labs is a Z-WAve Plus multifunction peripheral which is both a temperature sensor, humidity, movement, UV light and vibration.
This smoke detector combines a 10-year smoke detector with a Z-Wave module to allow wireless alarm reporting and control of an indoor siren. It can detect smoke and send alarm messages to other Z-Wave devices. The battery in the Z-Wave module will need replacement before the 10-year battery in the smoke detector itself. The device can be included and excluded from a Z-Wave network by pressing the inclusion button, and supports secure communication between Z-Wave devices.
This document provides instructions for setting up and using a Popp HUB home automation controller. The Popp HUB is a Z-Wave gateway that can control smart home devices and define scenes. Setup involves connecting the HUB to a local network, accessing the web interface, and registering the device. The HUB interface allows adding and controlling Z-Wave devices, creating rooms and dashboard widgets. Additional functionality is provided through apps that integrate other technologies and automation logic.
This document provides product information for a 10 year smoke detector and siren with Z-Wave connectivity. It can detect smoke and wirelessly report alarms while also functioning as a controllable indoor siren. The detector uses a long-life battery while the Z-Wave module uses a replaceable battery. It can be included in a Z-Wave network to communicate with other devices and can trigger automated responses through associations. The document provides details on installation, operation, configuration parameters, and troubleshooting.
Manual del dispositivo regulador oculto Z-Wave de Widom que permite variar la intensidad de una lámpara, o la velocidad de un motor (como por ejemplo un ventilador).
Fibaro RGBW Controller is a universal Z-Wave compatible RGB/RGBW controller that uses PWM output signals to control LED, RGB, RGBW strips, halogen lights, and fans powered by 12 or 24 VDC. It also supports up to four 0V-10V analog sensors. The controller has multiple operating modes including RGB/RGBW for lighting control and IN/OUT mode for independent configuration of inputs and outputs. It provides current load and energy consumption monitoring and can be included in a Z-Wave network to be controlled by compatible controllers and associated with other Z-Wave devices.
This document provides instructions for a wireless battery-powered Z-Wave siren. The siren warns of alarms with a loud sound and flashing light. It can be configured to use just the siren, just the strobe, or both. The siren operates on 4 AA batteries and joins a Z-Wave network through an inclusion process initiated by a primary controller. It provides alarm indications based on configuration settings for the siren and strobe.
The document provides instructions for setting up and using the Fibaro Motion Sensor, a Z-Wave multi-sensor device that detects motion, temperature, and light levels. It can be installed quickly on any surface and includes a battery, motion detector, light sensor, and LED indicator. The sensor can be added to a Z-Wave network to trigger lighting scenes and security systems based on motion or temperature changes.
This document provides instructions for setting up and using a NEO CoolCam motion sensor that communicates using the Z-Wave wireless protocol. It includes steps for inserting batteries, including the sensor in a Z-Wave network, configuration parameters to customize sensor settings, and technical specifications. The sensor detects motion and sends notifications to associated Z-Wave devices.
This document provides information about a 10 year smoke detector and siren device that includes Z-Wave connectivity. It can detect smoke and wirelessly report an alarm, includes a replaceable battery, and can be included in a Z-Wave network to control other devices. The document outlines how to install, operate, and configure the device including resetting it and including/excluding it from the Z-Wave network.
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.
This device is a Z-Wave carbon monoxide sensor that can be included in a Z-Wave network to wirelessly report carbon monoxide levels and alarm conditions. It combines a certified carbon monoxide detector with a Z-Wave module. When carbon monoxide levels reach certain thresholds, the sensor will send an alarm to the central controller and can trigger other Z-Wave devices. The sensor can also report tamper detection, low battery, and malfunctions.
The document provides installation instructions for a Smart Smoke Sensor in 3 sentences:
The smoke sensor should be installed in the center of the ceiling at least 30cm from lights and 15cm from walls. It can be mounted on sloping ceilings up to 90cm from the top of the ceiling. The installation steps include rotating the bracket out of the base, removing the battery strip to power on the sensor, and fitting the sensor into the bracket.
This document provides a user guide for the Zipato home control system tablet. It includes instructions on installing the tablet on the wall mount, creating an account, adding and removing connected devices from the system, and specifications for the tablet. The guide describes how the tablet allows users to control home security, lighting, climate, sun shading, irrigation, access, multimedia, video monitoring and energy metering from any smartphone. It also provides contact information for technical support.
The document is the operating manual for the Fibaro Motion Sensor, a Z-Wave multi-sensor device that detects motion, measures temperature and light intensity. It can be installed on any surface and includes instructions on including the sensor in the Z-Wave network, checking its operating range, and resetting the sensor. The manual provides technical specifications of the sensor such as its temperature and light measuring ranges, radio frequency, and battery life.
Manual of Flow Stop is a motor operated shut-off controller for automatic flow stop of gas and water pipes. It is equipped with Z-Wave Plus technology. This means it is particularly suitable for use in smart homes. By manufacturer PoPP
1. The document provides information about the Sensoair Z-Wave CO2 Sensor, including its features, specifications, and how it operates within a Z-Wave network.
2. As a Z-Wave device, it can join and leave a Z-Wave network and communicate with other Z-Wave devices as either a sensor or controller.
3. It measures carbon dioxide levels and reports them to the primary Z-Wave controller, and can control other devices through associations.
Fibaro Roller Shutter is a Z-Wave compatible electric motor controller that allows precise positioning of roller blinds, awnings, venetian blinds, gates and other AC powered motors. It can be controlled wirelessly through a Z-Wave network or via switch keys connected to it. The device also measures the connected motor's current power consumption. It supports electronic and mechanic end switches and can control motors of up to 1kW for 230V or 500W for 110V power supply.
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.
Manual Outdoor motion detector Z-Wave Plus - PhilioDomotica daVinci
The motion sensor uses Z-Wave wireless technology to detect motion. It can be included in a Z-Wave network to remotely control devices. The sensor detects motion using a PIR sensor and supports two operation modes. It can associate with other devices and report events wirelessly. The device settings can be configured including sensitivity, detection interval, and auto reporting frequency.
This document provides information about a remotely controlled light dimming module. The dimmer module can be connected to two-wire or three-wire cable to operate with or without a neutral lead. It can switch or dim connected light sources via radio waves or an external wall switch. The dimmer is equipped with an algorithm to automatically detect the connected light source type to make configuration easier. It can operate various light sources including incandescent, halogen, LED, CFL, and dimmable fluorescent lights. The dimmer module has specifications for power supply, consumption, temperature range, dimensions, load current, and radio frequency protocol. It also provides instructions for installation, inclusion into a Z-Wave network, resetting, and
This document provides instructions for setting up and using the Aeotec LED Strip. The LED strip allows for wireless control of color and brightness using Z-Wave commands. It can be added to a Z-Wave network by pressing the action button while the controller is in pairing mode. Advanced settings like color display cycles and customized color sequences can be configured through the Z-Wave controller. Warranty and safety information is also included.
The 6 in 1 multisensor from Aeon Labs is a Z-WAve Plus multifunction peripheral which is both a temperature sensor, humidity, movement, UV light and vibration.
This smoke detector combines a 10-year smoke detector with a Z-Wave module to allow wireless alarm reporting and control of an indoor siren. It can detect smoke and send alarm messages to other Z-Wave devices. The battery in the Z-Wave module will need replacement before the 10-year battery in the smoke detector itself. The device can be included and excluded from a Z-Wave network by pressing the inclusion button, and supports secure communication between Z-Wave devices.
This document provides instructions for setting up and using a Popp HUB home automation controller. The Popp HUB is a Z-Wave gateway that can control smart home devices and define scenes. Setup involves connecting the HUB to a local network, accessing the web interface, and registering the device. The HUB interface allows adding and controlling Z-Wave devices, creating rooms and dashboard widgets. Additional functionality is provided through apps that integrate other technologies and automation logic.
This document provides product information for a 10 year smoke detector and siren with Z-Wave connectivity. It can detect smoke and wirelessly report alarms while also functioning as a controllable indoor siren. The detector uses a long-life battery while the Z-Wave module uses a replaceable battery. It can be included in a Z-Wave network to communicate with other devices and can trigger automated responses through associations. The document provides details on installation, operation, configuration parameters, and troubleshooting.
Manual del dispositivo regulador oculto Z-Wave de Widom que permite variar la intensidad de una lámpara, o la velocidad de un motor (como por ejemplo un ventilador).
Fibaro RGBW Controller is a universal Z-Wave compatible RGB/RGBW controller that uses PWM output signals to control LED, RGB, RGBW strips, halogen lights, and fans powered by 12 or 24 VDC. It also supports up to four 0V-10V analog sensors. The controller has multiple operating modes including RGB/RGBW for lighting control and IN/OUT mode for independent configuration of inputs and outputs. It provides current load and energy consumption monitoring and can be included in a Z-Wave network to be controlled by compatible controllers and associated with other Z-Wave devices.
This document provides instructions for a wireless battery-powered Z-Wave siren. The siren warns of alarms with a loud sound and flashing light. It can be configured to use just the siren, just the strobe, or both. The siren operates on 4 AA batteries and joins a Z-Wave network through an inclusion process initiated by a primary controller. It provides alarm indications based on configuration settings for the siren and strobe.
The document provides instructions for setting up and using the Fibaro Motion Sensor, a Z-Wave multi-sensor device that detects motion, temperature, and light levels. It can be installed quickly on any surface and includes a battery, motion detector, light sensor, and LED indicator. The sensor can be added to a Z-Wave network to trigger lighting scenes and security systems based on motion or temperature changes.
This document provides instructions for setting up and using a NEO CoolCam motion sensor that communicates using the Z-Wave wireless protocol. It includes steps for inserting batteries, including the sensor in a Z-Wave network, configuration parameters to customize sensor settings, and technical specifications. The sensor detects motion and sends notifications to associated Z-Wave devices.
This document provides information about a 10 year smoke detector and siren device that includes Z-Wave connectivity. It can detect smoke and wirelessly report an alarm, includes a replaceable battery, and can be included in a Z-Wave network to control other devices. The document outlines how to install, operate, and configure the device including resetting it and including/excluding it from the Z-Wave network.
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.
This document provides information about the Danfoss Hydronic Controller 10, a Z-Wave device for controlling hot water underfloor heating systems. It can control up to 10 outputs and includes functions like pump control, heating/cooling, and individual room temperature control. The document explains how to include the controller in a Z-Wave network and configure its settings, and provides the device's technical specifications.
Dry contact sensor with temperature sensor start guideDomotica daVinci
This document provides instructions for a Z-Wave binary sensor, thermostat, and temperature sensor device. It describes how to include the device in a Z-Wave network, set up its temperature monitoring and thermostat functions, and configure its battery-saving wakeup intervals. The document also summarizes the device's technical specifications and supported Z-Wave command classes.
The document provides installation and maintenance instructions for the System Sensor 1400 dual-chamber ionization smoke detector. It describes the general specifications and operation of the detector including that it utilizes state-of-the-art sensing chambers, has an LED indicator light, and can be tested using its recessed test switch or an external test module. The document provides guidelines for installing the detector including wiring, mounting, and making it tamper resistant. It also describes testing and maintenance procedures for the detector.
This document provides an operating manual for the FIBARO Smart Implant device, which allows connecting various wired sensors to a Z-Wave network. The manual describes:
1) Main features of the device including supporting up to 6 temperature sensors and 2 each of analog, binary, and button inputs.
2) Installation instructions for connecting different sensor types like temperature, humidity, analog, binary, and buttons.
3) Instructions for adding the device to a Z-Wave network manually or via SmartStart and removing it from the network.
4) Details on the device's operation including button functions, menus, resetting, and testing.
The document provides instructions for operating a Smart Dry Contact Switch, including:
1) The switch can turn on and off equipment with independent power supply, such as valves or motors, and operates in Z-Wave networks.
2) Instructions are given for installation, inclusion in a Z-Wave network, controlling the switch via external buttons or a controller, associations with other devices, and configuration parameters.
3) The switch has a relay, LED status indicator, and can be reset or have its firmware updated.
Ph pat02 - zipato flood multisensor 3 in 1 user manual v1.0Domotica daVinci
This document provides a summary of a quick installation guide for a Zipato Flood Multisensor 3 in 1 device. It includes sections on trademarks, notices, electromagnetic compatibility, safety, introduction, mounting, power up procedure, adding to a Z-Wave network, configuration settings, and specifications. The guide provides instructions on installing, setting up, and integrating the flood, temperature, and humidity sensor device into a Z-Wave home automation network.
The document provides operating instructions for a universal roller shutter that can be controlled via Z-Wave network or external switch. It describes the device's electrical connections, installation process, inclusion into a Z-Wave network, associations with other devices, and configuration via parameters to customize its control behavior. Resetting the device to factory settings can be done by removing it from the network, pressing the external switch buttons in a specific pattern, or changing a parameter.
WiDomSmartTE Dimmer is an "in-wall device" that controls the luminosity level and/or fan speed. A universal device that controls the light intensity of all types of dimmable lights, including LED lamps and energy-saving lamps. The Smart TE Dimmer includes the ON / OFF control option of non-dimmable loads
Evespring ST812 Z-Wave flood sendor manual in EnglishDomotica daVinci
The Flood Detector is a Z-Wave enabled device that is compatible with any Z-Wave network. It uses a tamper switch to be included in a network and supports associations with up to five other nodes. When triggered, it will flash an LED, beep, and transmit signals to associated nodes. It uses three AA batteries and has a low battery indication of flashing its red LED every 30 seconds.
This document describes a wireless fire alarm and monitoring system that uses sensors to detect fires and alert people. The system uses a fire sensor connected to a microcontroller that monitors temperature and transmits a signal if a fire is detected. An RF receiver receives the signal and decodes it, then the microcontroller displays a message on an LCD and sounds a buzzer to alert people. The system aims to detect fires early to prevent threats and reduce losses in homes and industries. It provides benefits like reduced wiring and costs, real-time monitoring, and easy maintenance compared to wired systems.
1) The document provides instructions for setting up and using the NEO CoolCam Siren Alarm device within a Z-Wave network.
2) It describes including the siren alarm in a Z-Wave network by triple clicking the code button, and configuring the siren alarm settings through the Z-Wave controller.
3) The siren alarm can be used to trigger alarms and doorbell sounds through the Z-Wave network when it receives messages from associated devices.
The 3-Phase Smart Meter module measures energy in three-phase electrical networks for residential, industrial and utility applications. It directly measures energy in 4-wire networks by fast sampling of voltage and current signals. The module can be installed on a DIN rail and includes a manual. It supports Z-Wave wireless communication to integrate with a smart home system.
The document provides instructions for installing and operating a WiDom Smart Plug. The Smart Plug can be included in a Z-Wave network, detects overvoltage and overcurrent events, and controls associated devices. It has technical specifications including voltage and current thresholds for alarms. The instructions describe configuration parameters for controlling the plug and associated devices during alarm events.
Manual ES-12-ZIP-PD01Z PIR Z-Wave Plus motion sensorDomotica daVinci
The Zipato PIR Motion Sensor is a passive infrared sensor that detects motion within its detection range of 7 meters at a 110 degree viewing angle. It operates on a single CR123A battery for up to 1 year and communicates wirelessly via Z-Wave to notify a main controller when motion is detected, triggering associated devices. The sensor can be easily installed using included mounting hardware or adhesive and has adjustable settings that can be configured through the sensor's Z-Wave compatibility.
Door sensor multisensor 4_ in_1 Zipato Z-Wave PlusDomotica daVinci
This document provides information about Zipato trademarks, product names, notices, electromagnetic compatibility, safety, and the specifications, features, and operation of the Zipato Multisensor 4 in 1 device. It includes sections on trademarks, notices, EMC compliance, safety precautions, introduction to the product, specifications, technical specs, models and frequencies, installation instructions, packaging contents, features, and troubleshooting. The document is the product manual for the Zipato Multisensor 4 in 1, a Z-Wave enabled multi-sensor device.
This document provides information about a rain sensor device, including:
- It measures rain levels and reports every 4 minutes, sending alerts for heavy rain over 10 l/sqm in 5 minutes.
- It includes instructions on installing batteries, mounting, including the device in a Z-Wave network, and resetting or excluding the device.
- The device supports configuration parameters to customize rain detection thresholds and commands sent.
Similar to Fibaro FGSS-001 Smoke Sensor Manual (English) (20)
The 2CH Dimmer Module allows manual control of lights through a push switch and app control. It can control up to two lighting circuits and provides options for permanent on/off or dimming control through short or long button pushes. Installation requires turning off power and properly wiring the unit according to diagrams. The module can be reset through a long button press or external button presses and pairs with Zigbee gateways through a learning mode button hold.
Zi-Stick is a self-powered Zigbee 3.0 USB adapter that is used to control actuators and sensors in a Zigbee network. It connects to a computer via USB and appears as a virtual serial or COM port. The user guide provides instructions for installing any necessary drivers, identifying the Zi-Stick's COM port, and connecting it to software like Home Assistant or OpenHAB. Safety information is also included, noting that the Zi-Stick should be used indoors and away from heat or moisture.
This document provides installation and operation instructions for a BRT-100 radiator thermostat in French. It includes:
1. An introduction and welcome message thanking the customer for their purchase.
2. Technical characteristics and features of the thermostat such as LED display, color display, curved design, energy efficient battery that lasts 1 year.
3. Step-by-step instructions for installation including selecting the correct adapter, installing the mounting plate and battery, and connecting the thermostat.
Cherubini Meta Z-Wave Double Switch A510083-84-90Domotica daVinci
Este documento proporciona instrucciones para un actuador con dos salidas independientes de 230V. Incluye especificaciones técnicas, información de seguridad, diagramas de conexión e instrucciones de instalación, control y configuración. El dispositivo permite controlar dos cargas de forma independiente a través de radio o pulsador y puede integrarse en sistemas domóticos Z-Wave.
Este documento proporciona instrucciones para el uso de un enchufe inteligente. Describe las especificaciones técnicas del dispositivo, cómo incluirlo y excluirlo de una red Z-Wave, cómo controlarlo y leer sus parámetros eléctricos, y cómo configurar sus alarmas y asociaciones con otros dispositivos.
Quinto Z-Wave Heltun_HE-RS01_User_Manual_B9AH.pdfDomotica daVinci
The document provides instructions for installing and operating the HE-RS01 five-channel relay switch. Key details include:
- The HE-RS01 can control up to five on/off devices or combinations of on/off and two-direction motor devices.
- It has five configurable relay outputs, two independent inputs, and supports schedules, motor control, and association with other Z-Wave devices.
- Installation requires connecting power, load, and external switch wires per the provided diagrams and safely turning power back on at the circuit breaker.
- The HE-RS01 can be included in a Z-Wave network and each relay and external input is configurable for different control modes.
Z-Wave Fan coil Thermostat Heltun_HE-HT01_User_Manual.pdfDomotica daVinci
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Fibaro FGSS-001 Smoke Sensor Manual (English)
1. ENG
!
NOTE
Read this manual before attempting to install the device. Failure to
observe recommendations included in this manual may be
dangerous or cause a law violation. The manufacturer, Fibar
Group Sp. z o.o., can’t be held responsible for any loss or damage
resulting from the use inconsistent with this operating manual.
!
Power Supply:
12 - 24 VDC
Battery Type:
CR123A
Power Consumption
(at VDC operation):
0,4W
Output terminals maximum current
carrying capacity
(SMOKE NC, TAMP NC):
25mA
Maximum voltage at output terminals
(SMOKE NC, TAMP NC):
24V (AC or DC)
EU standards compliance:
EMC 2004/108/EC
R&TTE 199/5/WE
Radio protocol:
Z - Wave
Radio frequency:
868,4 MHz EU;
908,4 MHz US;
921,4 MHz ANZ;
869,2 MHz RU;
Range:
up to 50m outdoors
up to 30m indoors
(depending on terrain and building
structure)
Operational Temperature:
0 - 40oC
Measured Temperature Range:
-20 to 100oC
Temperature Measuring Accuracy:
0,5oC (within 0oC - 40oC range)
Dimensions (Diameter x Height):
I. Z-WAVE NETWORK INCLUSION
There are two ways to include a Fibaro Smoke Sensor into the Z-Wave network:
1) Automatically, using the auto inclusion function (available in constant current
powering mode), or
2) manually, using the B-button (option available in both powering modes constant current and battery).
Including a Fibaro Smoke Sensor into the Z-Wave network in auto inclusion mode:
1) Make sure the Fibaro Smoke Sensor’s power supply is disconnected and the
device is placed within a direct range of the main controller. The sensor cannot
have a battery installed.
2) Set the main controller into the learning mode
(see main controller’s operating manual).
3) Connect the power supply to the sensor to include it into the Z-Wave network in
auto inclusion mode.
4) Fibaro Smoke Sensor will be detected and included into the Z-Wave network.
i
NOTE
In case the device is not detected, include it manually (as
described below) or reset the sensor and repeat the procedure.
• Compatible with any Z-Wave network controller.
• May be connected to any alarm or fire prevention system, thanks to its potential
free output terminal.
• Extremely easy installation - simply install it in location prone to fire.
• Battery or VDC powered.
• Tamper prevention.
• Alarm is signaled by sound, light (LED diode) and through operating command
sent to the Z-Wave network controller.
• Fire detection through air temperature measuring.
• Possibility of triggering alarm based on just the air temperature threshold being
exceeded.
• 3 levels of sensors sensitivity.
• Automatic efficiency test, performed each 5 seconds.
• Built-in “black box” - the device reports and records smoke and temperature
measurement readouts.
IV. POWERING MODES
There are two powering modes for the Fibaro Smoke Sensor. By default it’s
powered by a factory included battery. Alternatively it can work with a constant
current, after connecting a 12 / 24 VDC power supply to +12/24 and GND terminals
(see diagram no.3). Powering mode configuration is carried out automatically,
while sensor is being included into the Z-Wave network. When battery powered, a
Fibaro Smoke Sensor communicates with the Z-Wave network main controller
periodically. Detected alarms are sent immediately, but configuration parameters
and associations settings only at specified wake up intervals, or at a manual wake
up (B-button triple click). In DC powering mode, configuration and associations
parameters are sent when necessary, and in addition sensor serves as a Z-Wave
signal repeater.
Switching to a constant current powering mode:
1) Exclude a sensor from the Z-Wave network.
2) Disconnect the battery,
3) Install the constant power connecting terminal, observing the diagram no.3.
4) Connect a constant current power source (12 / 24 VDC) to +12 and GND
terminals observing wiring diagram no.3.
5) Include Fibaro Smoke Sensor into the Z-Wave network.
!
Fig. 1 - Fibaro Smoke Sensor top view.
!
i
!
Manual Fibaro Smoke Sensor inclusion:
1) Connect the Fibaro Smoke Sensor to power supply or install the battery. Make
sure the device is located in Z-Wave network controller’s direct communication
range.
2) Set the main controller into the learn mode (see main controller’s operating
manual).
3) Quickly, triple click the B-button, located on Fibaro Smoke Sensor’s enclosure.
4) Fibaro Smoke Sensor will be detected and included in the Z-Wave network.
II. EXCLUDING FIBARO SMOKE SENSOR FROM THE Z-WAVE NETWORK
1) Make sure the sensor is connected to power supply (battery or VDC adapter).
2) Set the main controller into the learn mode (see main controller’s operating
manual)
3) Quickly, triple click the B-button, located on Fibaro Smoke Sensor’s enclosure.
III. SENSOR INSTALLATION
When included in the Z-Wave network, Fibaro Smoke Sensor tests the network
communication. Z-Wave network communication test is performed in both, constant
current and battery powering modes, at each temperature report. By default, once the
ambient temperature changes by 2ºC, according to parameters 10 and 12 settings. In
addition, in battery mode, Z-Wave network communication test is performed at device
polling. In constant power mode, Z-Wave network communication test is performed in
time intervals defined by parameter 80 settings. Lack of the Z-Wave network communication is signaled with an intermittent alarm sound and LED blinking pink.
Fig. 2 - Constant current or alarm system hub
connecting terminals installation.
i
NOTE
It’s recommended to install the sensor in a room’s uppermost
location, preferably on a ceiling, at least 40 cm from walls and
other objects. Particular attention should be paid to any adjacent
objects or devices which can impede smoke’s access to the
sensor’s body. It’s recommended to install Fibaro Smoke Sensor
in all rooms prone to fire, and in between such rooms as well.
!
TMP
1) Include the device into the Z-Wave network (see p.I). Note the inclusion process
may be performed ONLY in direct range of the main controller.
2) If the sensor is to be VDC powered, drill holes in sensor’s holder. Note the
sensor may be connected to a wired alarm system controller or fire prevention
system.
3) Install the sensor’s holder in desired location.
4) If the sensor is to be VDC powered, connect wires observing diagram no.3. If the
sensor is to be connected to an alarm system or fire prevention system, connect
it observing the diagram no.4.
Apart from detecting smoke presence, Fibaro Smoke Sensor can detect fire by
recording a rapid temperature rise. Temperature alarm threshold is user defined
(parameter 81). Temperature alarm is signaled by the LED signaling diode blinking
red and an intermittent sound signal.
!
SMOKE TAMP
NC
NC
NOTE
Parameter 81 value is set to 54ºC by default. Any modification can
result in Fibaro Smoke Sensor operating contrary to valid safety
regulations of your country.
IX. SENSOR’S SENSITIVITY LEVEL CONFIGURATION
!
GND
+
12/24 VDC
ADAPTER
Diagram 1 - DC Power adapter connection.
TMP
NOTE
Fibaro Smoke Sensor is a multiple use device, however, for
greater safety, it’s recommended to replace the device with a new
one once a fire has actually occured.
VI. DETECTING FIRE THROUGH TEMPERATURE ALARM
NOTE
It’s not recommended to deactivate the Z-Wave network communication
test.
There are 3 sensitivity levels of the optical smoke detector used in Fibaro Smoke Sensor.
By default, the detector is set to the middle sensitivity level. Sensitivity level depends on
the parameter 82 settings.
NOTE
As described in section V, Fibaro Smoke Sensor checks for smoke
presence each 5 seconds. In addition, the device checks whether
it’s not damaged and tests the Z-Wave network communication at
each wake up interval (see section VIII).
Installing Fibaro Smoke Sensor
Once a Fibaro Smoke Sensor has reported no Z-Wave network communication, it’s
recommended to wake up the device by triple clicking the B-button. If it doesn’t stop the
alarm, Z-Wave networks operation and the main controllers operation need to be verified.
Fibaro Smoke Sensor will cancel the Z-Wave network communication alarm once it
communicates with the network after manual or automatic wake up.
!
V. SMOKE DETECTION
i
NOTE
Any service or repair must be carried out by the manufacturer.
VIII. DETECTING LACK OF Z-WAVE RANGE
NOTE
1. It’s not possible to power the device from a battery and VDC
power supply simultaneously. When using VDC power supply it’s
recommended to use another kind of an emergency power supply.
2. Home Center 2 checks the battery level once a day.
Fibaro Smoke Sensor responds to physical presence of smoke. Smoke presence
is required for the device to react. Fibaro Smoke Sensor performs a self test each
5 seconds (see section VII) and checks for smoke presence. Having detected
smoke presence, the sensor checks 3 more times, at 1 second interval, whether
the smoke is actually present. Once the smoke presence is confirmed, Fibaro
Smoke Sensor triggers an alarm.
Smoke alarm is signaled by sending an appropriate alarm frame to devices and the
Z-Wave controller, opening NC contact, and also by a constant sound signal and
LED diode blinking red. Once the smoke alarm has ceased, the sensor checks 3
times, at 1 second interval, whether the smoke has actually disappeared before
getting back to normal operation, i.e. performing a self test each 5 seconds and
checking for smoke presence.
NOTE
When the self test is triggered manually, Fibaro Smoke Sensor sends the
command frame to the Z-Wave network controller and to the 1st
Association group devices. After 3 seconds from releasing the B-button,
the alarm cancelling command frame will be sent and the procedure will
be finished.
Drill holes here
BATTERY TIPS
Fibaro Smoke Sensor’s battery life is up to approx. 3 years at
optimum settings. The current battery level is displayed in the
Home Center 2 interface. Red battery icon means that battery
needs replacement. In order to avoid triggering tamper alarm while
replacing the battery, 2-nd association group’s associations must
be deleted, and Sensor’s parameters’ configuration set to default.
In addition, the device itself, apart from the main controller,
monitors the battery level and emits a low battery warning. Low
battery is signaled with a LED blinking yellow and an intermittent
sound alarm (interval set in parameter 87). Fibaro Smoke Sensor
can signal a low battery level for approx. 30 days.
Fibaro Smoke Sensor can automatically detect a malfunction. As described in section V,
Fibaro Smoke Sensor performs a self test each 5 seconds. If a malfunction is detected,
e.g. damaged smoke chamber, intermittent sound alarm will start, LED diode will blink red
and alarm will be sent to the Z-Wave network controller and associated devices.
Once a malfunction has been detected, it’s recommended to:
• check a power supply operation (replace battery or check VDC adapter’s voltage),
• check whether a light source is not pointed directly at the Smoke Sensor.
If a malfunction is constantly reported, it’s recommended to replace a Fibaro Smoke
Sensor with new one.
Self test may be triggered manually:
1) Make sure the device is being powered.
2) Press and hold the B-button untill the LED glows white and short alarm sounds.
3) Keep holding the B-button. After additional 3 seconds Fibaro Smoke Sensor will check
smoke chamber operation.
LED indicator colour changing to green and sound signal mean the positive result. If the
LED indicator changes its colour to red, it means malfunction.
In order to turn off the auto inclusion function, press the B-button once, after the
Fibaro Smoke Sensor has been connected to power supply.
65 x 28 mm
TECHNICAL INFORMATION
1) When choosing an installation place, make sure the alarm sound will be easily
audible in other rooms in the building.
2) It’s recommended to install the sensor in already decorated, painted rooms.
3) It’s recommended to install the sensor at least 1,5m from air conditioners.
4) Do not install the sensor in insolated places. Keep at least 0,5m distance from
light sources.
5) Do not install the sensor in places prone to draughts.
6) Do not install the sensor in places with high water vapor condensation, e.g.
above stoves, ovens, kettles, etc.
GND
SPECIFICATIONS
!
NOTE
Smoke detectors, because of the technical conditions (e.g. battery
discharge, device failure, etc.) and specific character of the
spaces they are used in, do not provide 100% fire detection
certainty. They significanlty raise the probability of fire detection.
Smoke Sensors must be tested in accordance with this operating
manual. Ventilation systems, chimneys and potentially dangerous
devices also should be regularly inspected.
B - button
and LED indicator
INSTALLATION NOTES:
+12/24
* Depending on the parameters settings.
!
NOTE
When handled unskilfully, used in environment conditions other
than designed for, the device may not function properly. It’s highly
recommended to take all safety precautions to ensure inhabitants
and property protection.
VII. MALFUNCTION DETECTION
+12V - constant power supply terminal, 12/24VDC
-GND - ground terminal
SMOKE NC - potential free, smoke sensor connecting terminals
(for wired systems)
TAMP NC - potential free, tamper connecting terminals (for wired systems).
GND
Fibaro Smoke Sensor is a universal, Z-Wave compatible, optical smoke detector.
The device can be battery (battery life approx. 3 years)* or alternatively VDC
powered (12 or 24 VDC). Smoke alarm is signaled by sound, LED diode blinking
and through operating commands sent to the Z-Wave network devices.
Additionally, smoke alarm may be sent to an alarm system or fire alarm system
hub, through NC contact terminals opening.
Optical detector allows for detecting smoke at an early stage of fire, often before
flames appear and temperature starts to rise significantly. Moreover the device has
a built-in temperature sensor, which can also trigger the alarm once the specified
temperatute threshold is exceeded.
Fibaro Smoke Sensor is designed to be placed on a wall or ceiling. LED signaling
diode signals fire, operating mode and may serve as the Z-Wave network range
controller. Sensor is designed to operate in confined spaces, under normal
conditions (lacking smoke, dust, condensed water vapor).
!
NOTE
Maintenance inspections should be perfomed regularly, by an
appropriately trained staff. Fibar Group Sp. z o.o. recommends the
functional and visual checks to be performed at least once a
month. Functional check should consist of performing self test
(described below) and triggering a test smoke alarm.
DIAGRAMS DESCRIPTION:
+12/24
OPERATING MANUAL
SMOKE SENSOR
FGSS-001 v2.1 - v2.3
NOTE
Work at height, concerned with Fibaro Smoke Sensor installation,
should be carried out taking special precautions, using tools and
equipment in perfect working order. It’s recommended to observe
ladders, lifts, etc. stability. Power tools should be used observing
producers safety recommendations.
5) Place Fibaro Smoke Sensor in the holder.
6) If the sensor is already included in the Z-Wave network, wake it up by triple
clicking quickly the B-button.
7) Test Fibaro Smoke Sensor’s operation using a dedicated optical smoke
detectors diagnostic tool.
8) Test the Z-Wave network range, checking whether the sensor communicates
with main controller correctly.
SMOKE TAMP
NC
NC
X. FIBARO SMOKE SENSOR RESET
Fibaro Smoke Sensor reset erases the EPROM memory, including all information on the
Z-Wave network and the main controller.
Fibaro Smoke Sensor reset procedure:
1) Make sure the device is powered.
2) Press and hold the B-button for 3 seconds. LED will glow white.
3) Short signal will sound.
4) Release the B-button.
5) Wait until the LED glows yellow, signaling entering the 4th menu level.
6) Press the B-button briefly to confirm menu level choice.
Successful reset will be confirmed with the LED changing colour to red and fading. At the
same time, short signal will sound, same as at the power connection.
!
ALARM
SYTEM HUB
AUX COM Z1 Z2
NOTE
It’s not recommended to change Fibaro Smoke Sensor’s sensitivity
level.
NOTE
Device reset will not remove it from the Z-Wave network main
controller’s memory. Before resetting the device, it must be excluded
from the Z-Wave network.
XI. OPERATING THROUGH THE Z-WAVE NETWORK
Fibaro Smoke Sensor has a built in smoke detector and a temperature sensor, which
makes it a multi channel device. In Home Center 2 menu it will be presented as two
devices, depending on the main controller software version*:
Diagram 2 - Alarm system hub connection.
2. 3) Short signal will sound.
4) Release the B-button.
5) Wait untill the LED glows pink, and then press the B-button briefly to start the
test.
6) LED will indicate the Z-Wave network’s range (range signaling modes described
below).
7) To exit Z-Wave range test, press the B-button brefly.
Fig. 3 Smoke Sensor icon in
Home Center 2*
Fig. 4 Smoke Sensor icon
in Home Center 2
indicating the smoke alarm
and a tamper alarm*
XII. ASSOCIATIONS
Through an association Fibaro Smoke Sensor may control another Z-Wave
network device, e.g. a Dimmer, Relay Switch, Roller Shutter, RGBW Controller,
Wall Plug, or a scene (scene only through the Home Center 2 main controller)
!
NOTE
Association allows for direct communication between Z-Wave
network devices. Main controller does not take part in such
communication. Using this mechanism, Fibaro Smoke Sensor
may communicate with other devices even when the main
controller is damaged, e.g. in a fire.
Fibaro Smoke Sensor allows for the associations of three groups.
1-st Association Group is assigned to the device status - sending the BASIC SET
(default) or ALARM control frame to the associated devices having detected fire.
Type of an alarm frame sent may be modified in advanced configuration
parameters (see section XVII).
2-nd Association Group is assigned to a TMP button and the malfunction alarm.
Alarm frame will be sent to the associated devices once tampering or malfunction
are detected.
3-rd Association Group reports the device status and allows for assigning single
device only (the main controller by default - the device reports its status to the main
controller). It’s not recommended to modify this association group.
Fibaro Smoke Sensor allows for controlling 5 regular and 5 multichannel devices
per an association group, out of which 1 field is reserved for the Z-Wave network
main controller.
To add an association (using Home Center 2 interface) go to device settings and
click the following icon:
Select the “device options” tab. Then specify to which group and what devices are
to be associated. Sending relevant information to devices that have been added to
association groups may take even a few hours depending on configuration
parameters’ settings.
Z-Wave range tester signaling modes:
LED indicator pulsing green - Fibaro Smoke Sensor attempts to extablish a
direct communication with the main controller. If a direct communication attempt
fails, sensor will try to establish a routed communication, through other modules,
which will be signaled by LED indicator pulsing yellow.
LED indicator glowing green - Fibaro Smoke Sensor communicates with the
main controller directly.
LED indicator pulsing yellow - Fibaro Smoke Sensor tries to establish a routed
communication with the main controller, through other modules.
LED indicator glowing yellow - Fibaro Smoke Sensor communicates with the
main controller through the other modules. After 2 seconds the sensor will retry to
establish a direct communication with the main controller, which will be signaled
with LED blinking in green.
LED indicator pulsing violet - Fibaro Smoke Sensor communicates at the range
limit. If connection proves successful it will be confirmed with a yellow glow. It’s not
recommended to use the sensor at the range limit.
LED indicator glowing red - Fibaro Smoke Sensor is not able to connect to the
main controller directly or through another Z-Wave network nodes.
!
NOTE
During the Z-Wave network range test and during the software
update as well, Fibaro Smoke Sensor does not detect smoke
presence. Once the Z-Wave network range test and software
update is completed, the device resumes normal operation.
XVI. BLACK BOX
Fibaro Smoke Sensor has a built in memory, recording smoke and temperature
information. Having recorded even the smallest amount of smoke, the sensor
records smoke level measured, time and temperature measured at the moment.
These details are sent to the Z-Wave network main controller each 60 seconds.
Home Center 2 allows for monitoring Black Box recordings (see below figure).
Fibaro Smoke Sensor stops sending the Black Box records once the smoke
disappears, but user can always check earlier reports through the Z-Wave main
controller. Black Box sensitivity may be modified through the parameter 83
settings.
!
NOTE
Black Box gathers and sends the information even when there’s
no fire alarm.
XIII. LED VISUAL SIGNALS AND SETTINGS
Fibaro Smoke Sensor is equipped with a LED diode, signaling sensor’s operating
modes and alarms. In addition the LED indicator may inform of the Z-Wave
network range and the current temperature.
To enter MENU, press and hold the B-button for 3 seconds.
Once the LED glows white, release the B-button. LED will then start changing
colours in sequence. Each colour means different MENU level. Press the B-button
briefly to confirm choice. Transitions between the MENU levels will be signaled
with a short sound as well.
!
NOTE
During the Z-Wave network range test, Fibaro Smoke Sensor is
not detecting smoke presence. Device resumes normal operation
once the Z-Wave network range rest has been finished.
XIV. CANCEL ALARM FOR ASSOCIATED DEVICES
Fibaro Smoke Sensor automatically cancels smoke alarms sent to the Z-Wave
network controller and the associated devices. It’s possible to delay or deactivate
alarm cancellation by modifying parameter 1 settings. In such a case, once an
alarm is detected, it will be constantly reported unless manually cancelled by
choosing green MENU level.
!
NOTE
Tamper alarms cannot be cacelled through MENU.
XV. Z-WAVE RANGE TEST
Fibaro Smoke Sensor has a built in Z-Wave network main controller’s range tester.
Follow the below instructions to test the main controller’s range:
1) Make sure the sensor is powered.
2) Press and hold the B-button for 3 seconds. LED will glow white.
!
NOTE
Parameter settings do not influence the visual and acoustic
alarms, which are turned off once the smoke has disappeared.
2. LED indicator and acoustic alarm turned ON / OFF at any alarm type.
Allows for deactivating the LED indicator and the acoustic alarm, in case of
detecting an alarm of any type. This doesn’t affect the communication with the
Z-Wave network controller, i.e. the sensor will keep sending alarms, reports and all
information to the associated devices. Modifying this parameter settings helps
extending the battery life.
Available settings: 0-3
0 – acoustic and visual alarms inactive
1 – acoustic alarm inactive, visual alarm active
2 – acoustic alarm active, visual alarm inactive
3 – acoustic and visual alarms active
Default setting: 3
Parameter size: 1 [byte]
!
NOTE
Deactivating the acoustic and visual alarms may result in smoke
alarm being insufficiently reported. It’s not recommended to
modify this parameter settings.
5. Type of alarm frame sent to 1-st Association Group devices (smoke alarm).
Allows for choosing a command class used in 1-st Association Group.
Available settings: 0, 255
0 - ALARM SENSOR (SMOKE) command frame,
255 - BASIC_SET command frame.
Default setting: 255
Paramter size: 1 [byte]
7. Forced level of dimming / opening dimmers, roller blinds etc. devices at
sending turn on / open / change level commands to 1-st Association Group’s
devices.
The value of 255 allows for turning on a device. In case of Dimmer, the value of 255
means turning on the device with the last remembered status. E.g. Dimmer set to
30% and then turned off, and next turned on using the 255 command, will turn on
with the last remembered status, i.e. 30%.
In case of alarm frames, alarm priority is defined.
Available settings: (1 - 99) or 255
Default setting: 255
Parameter size: 1 [byte]
!
NOTE
2-nd association group alarms cannot be cancelled.
10. Temperature report interval.
Time interval between consecutive temperature reports.
The parameter is relevant for the battery powering mode only. Longer time interval
means less frequent communication and thus a longer battery life.
Report is sent when new temperatue value is different from the one previously
reported. Temperature reports can be also sent as a result of polling.
Available settings: 1 – 17280, 0 (5s multiplier) [5s-24h]
0 – reports inactive
Default setting: 0 (Reports inactive)
Parameter size: 2 [bytes]
LED indicator signaling modes:
1) Fire alarm is signaled by blinking in red.
2) Tamper alarm is signaled with a short blink in red.
3) Malfunction alarm is signaled by blinking in red.
4) Z-Wave network communication alarm is signaled by blinking in pink.
5) Low battery alarm is signaled by blinking in yellow.
6) MENU levels are signaled with glowing in certain colour.
LED colours will change in the following sequence:
WHITE - entering MENU + self test
GREEN - refresh alarm state for the associated devices
PINK - Z-Wave communication test.
YELLOW - sensor reset.
0 - no delay, immediate cancellation
65535 - alarm cancellation inactive - Smoke Sensor will keep indicating smoke
alarm after the smoke will have disappeared. The smoke alarm can be only ceased
manually, by entering 2nd menu level (see section XIII).
Default setting: 0
Parameter size: 2 [bytes]
Fig. 5 Fibaro Smoke Sensor black box chart.
i
Black Box recordings are stored for about 24 hours, depeding on
the parameter 83 settings and working environment conditions.
User may force sending these recordings to the Z-Wave network
main controller, depending on its model and software version.
XVII. ADVANCED CONFIGURATION
WAKE UP INTERVAL: (3 bytes)
Available settings: 300 - 86399 (5min – 24h)
Default setting: 14400 (each 4h)
Time period, in seconds, after which a Smoke Sensor, in battery power mode, will
wake up. At each wake up, a Smoke Sensor communicates with the main
controller, updates parameters settings and the software if necessary. Smoke
Sensor will wake up at defined time interval and will ALWAYS try to communicate
with the main controller. After each failed communication attempt, the sensor will
retry to establish connection with the main controller after 60 seconds. After 3
failed communication attempts, the lack of the Z-Wave network communication
alarm will be triggered. The parameter is relevant for the battery powering mode
only. Longer time interval means less frequent communication and thus a longer
battery life. The lack of the Z-Wave network communication alarm will be cancelled
automatically, after first successfull communication.
!
NOTE
Default value of the Wake Up, in Home Center 2, is 6 hours.
1. Smoke alarm cancellation delay
The time period, during which a Fibaro Smoke Sensor will keep indicating the
smoke alarm after smoke will have disappeared.
Available settings: 0 – 17280, 65535 (5s multiplier) [5s-24h]
12. Temperature report hysteresis.
A minimum temperature change, resulting in a temperature report. Temperature
report is sent, provided the new temperature value differs from the one previously
recorded by a certain value, defined in this parameter (hysteresis). Temperature
reports can be also sent as a result of polling.
The parameter is relevant for the battery powering mode only. Longer time interval
means less frequent communication and thus a longer battery life.
Available settings: 0 – 100 (in 0,1oC steps)
0 – temperature change reporting inactive
Default setting: 20 (2oC)
Parameter size: 1 [byte]
!
NOTE
The parameter is relevant for the battery powering mode only.
Longer time interval means less frequent communication and thus
a longer battery life.
13. Alarm broadcast.
A value other than 0 means that alarms are being sent in broadcast mode, i.e. to
all devices within a Fibaro Smoke Sensor’s range.
Available settings: 0 - 3
0 – broadcast inactive
1 – smoke alarm broadcast (1-st Association Group) active; tamper alarm
broadcast (2-nd Association Group) inactive
2 – smoke alarm broadcast (1-st Association Group) inactive; tamper alarm
broadcast (2-nd Association Group) active
3 – smoke alarm broadcast active (1-st association group); tamper alarm
broadcast (2-nd association group) active.
Default setting: 0
Parameter size: 1 [byte]
73. Temperature measurement compensation.
Parameter stores a temperature value to be added to or deducted from the current
temperature measured by internal temperature sensor in order to compensate the
difference between air temperature and temperature measured at the ceiling level.
Available settings: -1000 -/+ 1000 (in 0,1oC steps)
Default setting: 0 (0oC)
Parameter size: 2 [byte]
80. Z-Wave range test interval.
Time period between the consecutive Z-Wave network range tests.
In battery powering mode, Z-Wave network range test is carried out at the wake up
interval. The value of 0 turns off the Z-Wave range test, regardless of the powering
mode chosen.
Available settings: 0 – 144 (10min multiplier) [10min-24h]
0 – Z-Wave network range test inactive
Default setting: 1 (10min)
Parameter size: 1 [byte]
81. Temperature alarm threshold.
Temperature value, measured by the built-in temperature sensor, above which the
temperature alarm is sent.
Available settings: 0,2 - 100
0 – temperature alarm inactive
2 - 100 – (2 - 100oC)
Default setting: 54 (54oC)
Parameter size: 1 [byte]
!
NOTE
Any change in this parameter’s settings may cause a Fibaro
Smoke Sensor to operate contrary to valid safety regulations of
your country.
82. Fibaro Smoke Sensor sensitivity
There are 3 levels of sensitivity to smoke presence. Level 1 means the highest
sensitivity.
!
NOTE
Rising the parameter value lowers the sensitivity to smoke
presence. It’s not recommended to change this parameter’s
settings.
Available settings: 1 - 3
1 - HIGH Sensitivity
2 - MEDIUM Sensitivity
3 - LOW Sensitivity
Default setting: 2
Parameter size: 1 [byte]
83. Black Box sensitivity level.
This parameter allows for specifying the moment in which the Black Box starts
recording data. After the specified smoke and temperature values will be
exceeded, the Fibaro Smoke Sensor’s Black Box will record them.
Available settings: 1 - 3
1 - HIGH Sensitivity
2 - MEDIUM Sensitivity
3 - LOW Sensitivity
Default setting: 2
Parameter size: 1 [byte]
84. Malfunction alarm
Time interval in which malfuntion alarm, if detected, is repeated using visual and
acoustic alarms.
Available settings: 1 - 255 (100 ms multiplier) [100ms-25,5s]
Default setting: 10 (1s)
Parameter size: 1 [byte]
85. Temperature alarm
Time interval in which temperature alarm, if detected, is repeated using visual and
acoustic alarms.
Available settings: 1 - 255 (100 ms multiplier) [100ms-25,5s]
Default setting: 5 (500ms)
Parameter size: 1 [byte]
86. Lack of the Z-Wave range alarm
Time interval in which lack of the Z-Wave network alarm, if detected, is repeated
using visual and acoustic alarms.
Available settings: 1 - 17280 (5s multiplier) [5s-24h]
Default setting: 360 (30min)
Parameter size: 2 [bytes]
87. Low battery alarm
Time interval in which low battery alarm, if detected, is repeated using visual and
acoustic alarms.
Available settings: 1 - 17280 (5s multiplier) [5s-24h]
Default setting: 360 (30min)
Parameter size: 2 [bytes]
88. Consider temperature measurement compensation (parameter 73) when
sending temperature report.
Available settings: 0 - 1
0 - ignore temperature compensation
1 - include temperature compensation
Default setting: 0
Parameter size: 1 [byte]
!
NOTE
Any change in this parameter’s settings may cause a Fibaro
Smoke Sensor to operate contrary to valid safety regulations of
your country.
89. Tamper alarm
Available settings: 0, 1, 2
0 – tamper alarm inactive
1 – tamper alarm active, with cancellation option available
2 – tamper alarm active, without cancellation option
default setting: 1
parameter size: 1 [byte]
XVIII. BATTERY USE WARNING
Fibaro Smoke Sensor is a battery-powered device. Using batteries other than
specified may result in explosion. Dispose of properly, observing environmental
protection rules.
XIX. GUARANTEE
1. The Guarantee is provided by FIBAR GROUP Sp. z o.o. (hereinafter
"Manufacturer"), based in Poznan, ul. Lotnicza 1; 60-421 Poznan, entered in the
register of the National Court Register kept by the District Court in Poznań, VIII
Economic Department of the National Court Register, no. 370151,
NIP 7811858097, REGON: 301595664.
2. The Manufacturer is responsible for equipment malfunction resulting from physical
defects (manufacturing or material) of the Device for 12 months from the date of its
purchasing.
3. During the Guarantee period, the Manufacturer shall remove any defects, free of
charge, by repairing or replacing (at the sole discretion of the Manufacturer) any
defective components of the Device with new or regenerated components, that are free
of defects. When the repair impossible, the Manufacturer reserves the right to replace the
device with a new or regenerated one, which shall be free of any defects and its condition
shall not be worse than the original device owned by the Customer.
4. In special cases, when the device cannot be replaced with the device of the same type
(e.g. the device is no longer available in the commercial offer), the Manufacturer may
replace it with a different device having technical parameters similar to the faulty one.
Such activity shall be considered as fulfilling the obligations of the Manufacturer. The
Manufacturer shall not refund money paid for the device.
5. The holder of a valid guarantee shall submit a guarantee claim through the guarantee
service. Remember: before you submit a guarantee claim, contact our technical support
using telephone or e-mail. More than 50% of operational problems is resolved remotely,
saving time and money spent to initiating guarantee procedure. If remote support is
insufficient, the Customer shall fill the
guarantee claim form (using our website
- www.fibargroup.com) in order to obtain claim authorization. When the guarantee claim
form is submitted correctly, the Customer shall receive the claim confirmation with an
unique number (Return Merchandise Authorization -RMA).
6. The claim may be also submitted by telephone. In this case, the call is recorded and
the Customer shall be informed about it by a consultant before submitting the claim.
Immediately after submitting the claim, the consultant shall provide the Customer with
the claim number (RMA-number).
7. When the guarantee claim form is submitted correctly, a representative of the
Authorised Guarantee Service (hereinafter as "AGS") shall contact the Customer.
8. Defects revealed within the guarantee period shall be removed not later than 30 days
from the date of delivering the Device to AGS. The guarantee period shall be extended
by the time in which the Device was kept by AGS.
9. The faulty device shall be provided by the Customer with complete standard
equipment and documents proving its purchase.
10. Parts replaced under the guarantee are the property of the Manufacturer. The
guarantee for all parts replaced in the guarantee process shall be equal to the guarantee
period of the original device. The guarantee period of the replaced part shall not be
extended.
11. Costs of delivering the faulty device shall be borne by the Customer. For unjustified
service calls, the Service may charge the Customer with travel expenses and handling
costs related to the case.
12. AGS shall not accept a complaint claim only when:
• the Device was misused or the manual was not observed,
• the Device was provided by the Customer incomplete, without accessories or
nameplate,
• it was determined that the fault was caused by other reasons than a material or
manufacturing defect of the Device
• the guarantee document is not valid or there is no proof of purchase,
13. The Manufacturer shall not be liable for damages to property caused by defective
device. The Manufacturer shall not be liable for indirect, incidental, special, consequential or punitive damages, or for any damages, including, inter alia, loss of profits, savings,
data, loss of benefits, claims by third parties and any property damage or personal
injuries arising from or related to the use of the Device.
14. The guarantee shall not cover:
• mechanical damages (cracks, fractures, cuts, abrasions, physical deformations caused
by impact, falling or dropping the device or other object, improper use or not observing
the operating manual);
• damages resulting from external causes, e.g.: flood, storm, fire, lightning, natural
disasters, earthquakes, war, civil disturbance, force majeure, unforeseen accidents,
theft, water damage, liquid leakage, battery spill, weather conditions, sunlight, sand,
moisture, high or low temperature, air pollution;
• damages caused by malfunctioning software, attack of a computer virus, or by failure to
update the software as recommended by the Manufacturer;
• damages resulting from: surges in the power and/or telecommunication network,
improper connection to the grid in a manner inconsistent with the operating manual, or
from connecting other devices not recommended by the Manufacturer.
• damages caused by operating or storing the device in extremely adverse conditions, i.e.
high humidity, dust, too low (freezing) or too high ambient temperature. Detailed
permissible conditions for operating the Device are defined in the operating manual;
• damages caused by using accessories not recommended by the Manufacturer
• damages caused by faulty electrical installation of the Customer, including the use of
incorrect fuses;
• damages caused by Customer's failure to provide maintenance and servicing activities
defined in the operating manual;
• damages resulting from the use of spurious spare parts or accessories improper for
given model, repairing and introducing alterations by unauthorized persons;
• defects caused by operating faulty Device or accessories.
15. The scope of the guarantee repairs shall not include periodic maintenance and
inspections, in particular cleaning, adjustments, operational checks, correction of errors
or parameter programming and other activities that should be performed by the user
(Buyer). The guarantee shall not cover natural wear and tear of the Device and its
components listed in the operating manual and in technical documentation as such
elements have a defined operational life.
16. If a defect is not covered by the guarantee, the Manufacturer reserves the right to
remove such defect at its sole discretion, repairing the damaged or destroyed parts or
providing components necessary for repair or replacement.
17. This guarantee shall not exclude, limit or suspend the Customer rights when the
provided product is inconsistent with the purchase agreement.
i
This Device may be used with all devices certified with Z-Wave
certificate and should be compatible with such devices produced
by other manufacturers.
Any device compatible with Z-Wave may be added to Fibaro system.
FIBARGROUP
FIBARO
In case of any technical questions contact customer service centre in your country.
www.fibargroup.com