The document describes the Qubino weather station, which measures temperature, humidity, wind, and rain properties using various sensors. It sends the measurement values to a Z-Wave network via a Weather Station USB Key module. The key receives wireless data from the sensors and sends it to the Z-Wave controller. It can measure 10 different values from 2 temperature/humidity sensors, an anemometer for wind measurements, and a rain sensor.
The document discusses a multisensor device that can detect motion, door/window status, temperature, and light levels. It provides instructions on installing, setting up, and using the sensor as part of a smart home automation system or security system. The sensor supports Z-Wave networking and can trigger lights, heaters, fans and other devices based on its readings.
This Z-Wave module can control two electrical devices and be operated by wall switches or through the Z-Wave network. It measures power consumption of the two devices and supports a digital temperature sensor. The module fits inside a wall switch box and controls the devices through the traditional wall switches. It can also connect to mono-stable or bi-stable wall switches.
The document provides instructions for installing and operating the EURO COMET thermostat. It can be installed on radiator valves by removing the old thermostat, inserting batteries into the COMET, and twisting it onto the valve. The COMET operates in either AUTO or MANU mode, with AUTO adjusting the temperature based on preset comfort and savings settings and MANU allowing manual adjustment for 2 hours. It also has frost protection, calcification protection, and window open detection features to protect the heating system.
The MIMOlite module is a wireless interface/bridge module that provides one analog or digital input and one relay output. It can be controlled via Z-Wave and includes status lights to indicate inclusion in a network. The module converts an input signal to a digital value and allows the input trigger levels and relay operation to be configured for flexibility. It has been certified for use in the US, EU, and other regions.
The document provides specifications for a Z-Wave multi-sensor device. It includes details on the device's library and command classes, Z-Wave network operation including button functions and LED indicators, association groups and commands, wakeup settings, battery information, sensor readings for temperature, humidity, light and UV, notification types, manufacturer information, and configuration parameters.
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 thermostat module regulates temperature in heating and cooling modes. It can be controlled through a Z-wave network or wall switch. The module measures connected device power consumption and acts as a Z-wave network repeater. It supports various switch types and frequencies and includes installation instructions and electrical diagrams.
This document provides information about the Qubino Flush 1 relay Z-Wave module. The module can be used to switch electrical devices on or off through the Z-wave network or a wall switch. It measures power consumption and supports a digital temperature sensor. The module is designed to be installed in a wall switch box behind a traditional wall switch. It can support mono-stable or bi-stable switches and has configuration parameters for functions like input type and power reporting.
The document discusses a multisensor device that can detect motion, door/window status, temperature, and light levels. It provides instructions on installing, setting up, and using the sensor as part of a smart home automation system or security system. The sensor supports Z-Wave networking and can trigger lights, heaters, fans and other devices based on its readings.
This Z-Wave module can control two electrical devices and be operated by wall switches or through the Z-Wave network. It measures power consumption of the two devices and supports a digital temperature sensor. The module fits inside a wall switch box and controls the devices through the traditional wall switches. It can also connect to mono-stable or bi-stable wall switches.
The document provides instructions for installing and operating the EURO COMET thermostat. It can be installed on radiator valves by removing the old thermostat, inserting batteries into the COMET, and twisting it onto the valve. The COMET operates in either AUTO or MANU mode, with AUTO adjusting the temperature based on preset comfort and savings settings and MANU allowing manual adjustment for 2 hours. It also has frost protection, calcification protection, and window open detection features to protect the heating system.
The MIMOlite module is a wireless interface/bridge module that provides one analog or digital input and one relay output. It can be controlled via Z-Wave and includes status lights to indicate inclusion in a network. The module converts an input signal to a digital value and allows the input trigger levels and relay operation to be configured for flexibility. It has been certified for use in the US, EU, and other regions.
The document provides specifications for a Z-Wave multi-sensor device. It includes details on the device's library and command classes, Z-Wave network operation including button functions and LED indicators, association groups and commands, wakeup settings, battery information, sensor readings for temperature, humidity, light and UV, notification types, manufacturer information, and configuration parameters.
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 thermostat module regulates temperature in heating and cooling modes. It can be controlled through a Z-wave network or wall switch. The module measures connected device power consumption and acts as a Z-wave network repeater. It supports various switch types and frequencies and includes installation instructions and electrical diagrams.
This document provides information about the Qubino Flush 1 relay Z-Wave module. The module can be used to switch electrical devices on or off through the Z-wave network or a wall switch. It measures power consumption and supports a digital temperature sensor. The module is designed to be installed in a wall switch box behind a traditional wall switch. It can support mono-stable or bi-stable switches and has configuration parameters for functions like input type and power reporting.
This document provides information about the Qubino Flush 1 relay Z-Wave module. The module can be used to switch electrical devices on or off through the Z-Wave network or a wall switch. It supports connection to a digital temperature sensor and can act as a repeater to improve the Z-Wave network range. The module measures power consumption and supports mono-stable and bi-stable switches. It provides information on inclusion into a Z-Wave network and configuration parameters for functions like power reporting and input settings.
This document provides information about a Z-Wave smart meter module. It can measure energy usage in single-phase electrical networks and connect to external relays. The module measures voltage, current, power factors and more. It supports configuration of relay settings and energy reporting through the Z-Wave network.
The Orvibo Allone lets you control your IR controllable devices (such as TV, DVD player, air conditioner, ...) from your smartphone, wherever you are on WiFi or 4G networks. Your smartphone will become a universal IR remote.
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 summarizes the features and specifications of the Slim Multi-Sensor PSP01, a Z-Wave enabled motion, temperature, and light sensor. It has PIR, temperature and light sensors integrated into one device. It can be included into a Z-Wave home automation network to detect motion and changes in temperature or light levels and send notifications to other devices. It supports various configuration settings to customize its operation and reporting.
In-wall dimmer module Z-Wave Plus Smart Home Europe manual englishDomotica daVinci
The document summarizes an in-wall dimmer module that is Z-Wave enabled and can control lighting and appliance loads. It describes how to include the module in a Z-Wave network, configure its settings, and troubleshoot issues. The module supports dimming light bulbs and controlling loads between 6W-300W. It transmits wirelessly within a 30 meter range and has overload protection.
This document provides information about a Z-Wave flush dimmer module. It can dim lights and control fan speed through a Z-Wave network or wall switch. The module measures power consumption and supports a temperature sensor. It is designed to act as a repeater to improve the Z-Wave network range and stability. The document describes installation instructions, inclusion into a Z-Wave network, configuration parameters, and association groups to link the module to other devices.
This document provides instructions for a Z-Wave window blind actuator. The actuator can be included in a Z-Wave network by triple clicking a button and will indicate inclusion with a green LED blink. It controls 230V motors for blinds and calibration is required by moving the blind to upper and lower positions. The actuator has basic on/off association for controlling other nodes.
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.
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
The document provides information about a Z-Wave glass surface 4 channel touch panel switch, including:
1. It can switch 4 separate loads up to 1100W and includes or excludes from the Z-Wave network by pressing any key for 3 seconds.
2. As a Z-Wave device, it can control or be controlled by other Z-Wave devices and supports association groups to send commands to associated devices.
3. It has 4 groups to switch associated devices and 1 group to report state changes to the controller.
The DS18B20 is a digital thermometer that can measure temperatures from -55°C to +125°C with a resolution of 9 to 12 bits. It communicates over a single wire bus and can be powered directly from the data line without an external power supply. Each device has a unique 64-bit identification number and the devices can be used to monitor temperature at multiple locations connected to the same data line.
The Illumination Sensor is a Z-Wave enabled device that monitors ambient light levels. It can be configured to trigger alerts when the light level rises above or falls below set thresholds. When triggered, it will send RF signals to associated Z-Wave devices. It has options to set countdown timers, enable/disable radio signals and beep tones. The sensor supports inclusion and exclusion from Z-Wave networks and can associate with other devices to trigger automations.
This document provides specifications for an installation contactor for switching motors, heating, lighting, and electrical equipment. The contactor has a rated current of 32A, thermal current of 32A, and can be installed on a 35mm DIN rail. It has advanced operation for fast switching of loads with degrees of protection IP20.
This document provides instructions for setting up and operating a 7 Day Programmable Room Thermostat that communicates wirelessly using Z-Wave technology. The thermostat can control central heating and allows the user to set up to 6 temperature schedules per day. It includes devices in existing Z-Wave networks and supports functions like temperature overrides, associations to control other devices, and basic operation as a primary controller.
This document provides instructions for installing and operating a Z-Wave enabled in-wall roller shutter controller. The controller can switch a connected roller shutter up and down using radio signals, or a directly connected push button. It performs a calibration process to learn the shutter's range of motion and can then remotely position the shutter or report its position. The controller includes and excludes from Z-Wave networks, and supports basic switch and multilevel switch commands to control the shutter.
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.
The document provides installation and user instructions for the SRT322, a wireless battery-powered room thermostat that communicates with a receiver unit to control heating systems. The thermostat uses RF technology and requires pairing with the receiver. Instructions are provided for installing the thermostat and receiver, making electrical connections, setting temperature and communication settings, and replacing batteries. Specifications for both units are also listed.
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.
The document provides a user manual for the MCOHome Water/Electrical Heating Thermostat. It describes the thermostat's features such as capacitive touch buttons and temperature control capabilities. It also provides instructions on installation, wiring, operation in manual and automatic modes, time period settings, and includes safety information.
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.
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.
This document provides information about the Qubino Flush 1 relay Z-Wave module. The module can be used to switch electrical devices on or off through the Z-Wave network or a wall switch. It supports connection to a digital temperature sensor and can act as a repeater to improve the Z-Wave network range. The module measures power consumption and supports mono-stable and bi-stable switches. It provides information on inclusion into a Z-Wave network and configuration parameters for functions like power reporting and input settings.
This document provides information about a Z-Wave smart meter module. It can measure energy usage in single-phase electrical networks and connect to external relays. The module measures voltage, current, power factors and more. It supports configuration of relay settings and energy reporting through the Z-Wave network.
The Orvibo Allone lets you control your IR controllable devices (such as TV, DVD player, air conditioner, ...) from your smartphone, wherever you are on WiFi or 4G networks. Your smartphone will become a universal IR remote.
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 summarizes the features and specifications of the Slim Multi-Sensor PSP01, a Z-Wave enabled motion, temperature, and light sensor. It has PIR, temperature and light sensors integrated into one device. It can be included into a Z-Wave home automation network to detect motion and changes in temperature or light levels and send notifications to other devices. It supports various configuration settings to customize its operation and reporting.
In-wall dimmer module Z-Wave Plus Smart Home Europe manual englishDomotica daVinci
The document summarizes an in-wall dimmer module that is Z-Wave enabled and can control lighting and appliance loads. It describes how to include the module in a Z-Wave network, configure its settings, and troubleshoot issues. The module supports dimming light bulbs and controlling loads between 6W-300W. It transmits wirelessly within a 30 meter range and has overload protection.
This document provides information about a Z-Wave flush dimmer module. It can dim lights and control fan speed through a Z-Wave network or wall switch. The module measures power consumption and supports a temperature sensor. It is designed to act as a repeater to improve the Z-Wave network range and stability. The document describes installation instructions, inclusion into a Z-Wave network, configuration parameters, and association groups to link the module to other devices.
This document provides instructions for a Z-Wave window blind actuator. The actuator can be included in a Z-Wave network by triple clicking a button and will indicate inclusion with a green LED blink. It controls 230V motors for blinds and calibration is required by moving the blind to upper and lower positions. The actuator has basic on/off association for controlling other nodes.
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.
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
The document provides information about a Z-Wave glass surface 4 channel touch panel switch, including:
1. It can switch 4 separate loads up to 1100W and includes or excludes from the Z-Wave network by pressing any key for 3 seconds.
2. As a Z-Wave device, it can control or be controlled by other Z-Wave devices and supports association groups to send commands to associated devices.
3. It has 4 groups to switch associated devices and 1 group to report state changes to the controller.
The DS18B20 is a digital thermometer that can measure temperatures from -55°C to +125°C with a resolution of 9 to 12 bits. It communicates over a single wire bus and can be powered directly from the data line without an external power supply. Each device has a unique 64-bit identification number and the devices can be used to monitor temperature at multiple locations connected to the same data line.
The Illumination Sensor is a Z-Wave enabled device that monitors ambient light levels. It can be configured to trigger alerts when the light level rises above or falls below set thresholds. When triggered, it will send RF signals to associated Z-Wave devices. It has options to set countdown timers, enable/disable radio signals and beep tones. The sensor supports inclusion and exclusion from Z-Wave networks and can associate with other devices to trigger automations.
This document provides specifications for an installation contactor for switching motors, heating, lighting, and electrical equipment. The contactor has a rated current of 32A, thermal current of 32A, and can be installed on a 35mm DIN rail. It has advanced operation for fast switching of loads with degrees of protection IP20.
This document provides instructions for setting up and operating a 7 Day Programmable Room Thermostat that communicates wirelessly using Z-Wave technology. The thermostat can control central heating and allows the user to set up to 6 temperature schedules per day. It includes devices in existing Z-Wave networks and supports functions like temperature overrides, associations to control other devices, and basic operation as a primary controller.
This document provides instructions for installing and operating a Z-Wave enabled in-wall roller shutter controller. The controller can switch a connected roller shutter up and down using radio signals, or a directly connected push button. It performs a calibration process to learn the shutter's range of motion and can then remotely position the shutter or report its position. The controller includes and excludes from Z-Wave networks, and supports basic switch and multilevel switch commands to control the shutter.
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.
The document provides installation and user instructions for the SRT322, a wireless battery-powered room thermostat that communicates with a receiver unit to control heating systems. The thermostat uses RF technology and requires pairing with the receiver. Instructions are provided for installing the thermostat and receiver, making electrical connections, setting temperature and communication settings, and replacing batteries. Specifications for both units are also listed.
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.
The document provides a user manual for the MCOHome Water/Electrical Heating Thermostat. It describes the thermostat's features such as capacitive touch buttons and temperature control capabilities. It also provides instructions on installation, wiring, operation in manual and automatic modes, time period settings, and includes safety information.
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.
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.
This document provides instructions for a wireless Z-Wave siren. The siren warns of alarms with a loud sound and flashing light. It can be configured to use sound, light, or both. The siren includes a tamper switch and backup battery, and connects to a Z-Wave network by inclusion initiated by a primary controller. The document describes installing the siren, operating modes, configuration parameters for settings like alarm duration, and technical specifications.
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.
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.
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.
The document provides instructions for setting up and using the Aeotec by Aeon Labs Siren Gen5 home security device. It describes the device's features like its 105dB speaker, action button, and LED lights. It explains how to add the siren to a Z-Wave network using an Aeotec Z-Stick or Minimote controller and test the speaker. It also provides directions for removing the siren from the network or resetting it to factory defaults.
The document provides instructions for installing and operating an IM20-ZWAVE magnetic contact sensor. The sensor detects when a door or window is opened and closed, and sends alarm signals via Z-wave. It supports wireless networking and battery monitoring. The summary provides installation instructions, specifications, operating modes, sensor reports, and configuration settings for things like light turn-off time and sensor report frequency.
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.
1. The document provides instructions and specifications for the Vision wireless deadbolt door lock (ZM 1701).
2. It describes how to include and exclude the lock from a Z-Wave network and associate it with other devices.
3. The lock supports various Z-Wave commands and reports lock/unlock status. It allows setup of master and user codes to control door access.
The document provides installation instructions for the momit Smart Thermostat. It explains how to open the thermostat housing by prying open slots on the bottom using a flathead screwdriver. Once open, the user can see the wire positions marked for their heating/AC system and mounting holes. Wires should be inserted into the correctly labeled clamps based on the wiring diagram. The momit thermostat wires can then be inserted through the back case and the front snapped into place when the tabs on the bottom click into position.
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
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.
Manual Smart water leakage sensor Z-Wave Plus - ZipatoDomotica daVinci
The Smart Water Leakage Sensor uses ZigBee wireless technology and has a low power design for long battery life. It can detect water leaks in places like basements, machine rooms, and bathrooms. It has a range of 70 meters, works from -10°C to 50°C, and uses 2 AAA batteries that provide over a year of battery life. The sensor is installed by removing the battery strip, sticking the sensor body in the desired location using the included bracket, and pairing it with a mobile app using the button.
During the first connection of the momit ST smart thermostat, the user will go through screens to complete the initial device configuration. These screens guide the user to select language, location, date/time, WiFi network, and temperature settings. The main menu then allows the user to control thermostat functions like temperature adjustment, scheduling, modes, and configuration options for settings, security, and technical settings. The document provides instructions for setup and use of the momit smart thermostat.
Momit Smart Thermostat is a smart thermostat that allows users to control the temperature of their home from their smartphone, tablet, or PC. It learns a user's daily routine and habits to optimize energy efficiency. The thermostat can save up to 20% on energy bills by automatically adjusting the temperature when away from home and putting heating and cooling on hold during holidays. It has an elegant glass design that integrates seamlessly into the home's decor and offers control options through a free app connected to WiFi.
This document provides information about the Z-Wave Flood-Sensor. It monitors for flooding or leakage and sends an alarm to the Z-Wave controller. It includes into a Z-Wave network by pressing the program switch for 1 second. The sensor can detect flooding up to 2 meters away and has a tamper switch that sends an alarm if opened.
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.
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.
Temperature Humidity Data Logger is a highly versatile and precise engineered tool designed to record and monitor temperature and humidity levels in various
environments. With its four channels (-40℃ to 80℃/-40℉ to 158℉) wide temperature range, it can provide accurate results anywhere in a short period of time
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.
Hướng dẫn sử dụng máy đo tốc độ gió, nhiệt độ Extech 407123Tenmars Việt Nam
Hướng dẫn sử dụng máy đo tốc độ gió, nhiệt độ Extech 407123
http://extech.vn/vi/products/do-toc-do-va-luu-luong-gio
http://extech.vn/vi/products/do-toc-do-va-luu-luong-gio/extech-407123---m%C3%A1y-%C4%91o-t%E1%BB%91c-%C4%91%E1%BB%99-gi%C3%B3-nhi%E1%BB%87t-%C4%91%E1%BB%99--407123
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Qubino flush dimmer 0 10-v plus user manual_v1.0_engDomotica daVinci
The document describes the Qubino Flush Dimmer 0-10V, a Z-Wave compatible dimmer module with a 0-10V output and multi-function input. It can be controlled via push button, potentiometer, or 0-10V signal. The module includes to a Z-Wave network and supports association groups to control other devices. It has configuration parameters to set functions like input type, auto on/off times, minimum/maximum dimming levels, and sensor reporting thresholds.
Humidity and Temperature Measurement Using Arduinodollonhaider
Humidity and temperature are common parameters to measure environmental conditions. In this Arduino based project we are going to measure ambient temperature and humidity and display it on a LCD screen.
Tunix Corporation | Temperature Measure | Supplier of All Industrial instrumentsSaurabhPishwe
This document provides information on various testing and measuring instruments from Tunix Corporation. It lists infrared thermometers, contact thermometers, anemometers, humidity meters, and lux meters that measure temperature, air velocity, humidity, sound, and light. Tunix Corporation supplies these instruments for applications like industrial instrumentation. It aims to be a one-stop shop for instrument supply and calibration services.
Temperature sensor with binary sensor input start guideDomotica daVinci
This document summarizes the features and operation of a Z-Wave temperature sensor, thermostat, and binary sensor device. The device can measure temperature, control remote heating devices as a thermostat, and detect external switches. It operates within a Z-Wave wireless network and supports inclusion, exclusion, associations and configuration parameters to control its functionality. The device runs on batteries and goes into a low-power sleep state to conserve energy, waking periodically to communicate.
Wireless ai based intelli industrial security robot 2 pptVarun B P
This document describes a wireless industrial security robot project. The robot is designed to detect dangerous events like fires, gas leaks, or high temperatures using sensors. It can provide live video streaming to a remote monitor. The robot uses a microcontroller, motors, sensors and a mechanical arm. It aims to save manpower and improve safety by allowing work in hazardous environments. When issues are detected, it can send alert messages via GSM. The robot is expected to measure environmental data, detect obstacles, and change speed based on sensor readings.
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.
Energomonitor catalogo cliensol energy 2017Tomás García
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DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
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The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
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Qubino weather station plus user manual v1.0_eng
1. Qubino
The INNOVATIVE and SMALLEST
Weather Station
ORDERING CODE Z-WAVE FREQUENCY
ZMNHZD1 868,4 MHz
ZMNHZD2 921,4 MHz
ZMNHZD3 908,4 MHz
ZMNHZD4 869,0 MHz
ZMNHZD5 916,0 MHz
ZMNHZD8 865,2 MHz
Weather Station is used for measuring temperature,
humidity, wind & rain properties and sending the
measurement values to your Z-Wave network.
The Weather Station can measure 10 different values: two
sets of temperature/humidity sensors, wing gauge with 5
sensors (direction, velocity, wind gust, temperature and
wind chill) and a rain sensor. With the use of the included
Weather Station USB KEY all 10 values (end points) are
sent and rendered in your home Z-Wave network.
Qubino Weather Station Key is used for receiving Wireless
data packages (from Thermo/ Hygro Sensor Ch1, Thermo/
Hygro Sensor Ch2, Rain Gauge, Wind Gauge) and sends
it to the Z-Wave Controller.
The Key is designed to be plugged into the USB Power
Adapter. Module receives data for Temperature, Wind
Chill, Velocity, Wind Gust, Wind Direction, Humidity, Rain
Rate and Battery Level for each Sensor.
It is designed to act as repeater in order to improve range
and stability of Z-wave network.
Package contents:
Weather Station USB Key
2 x Thermo-Hygro Sensor
Anemometer (Wind Sensor with Solar panel)
- Wind cups
- Wind vane
- Anemometer arm
- Anemometer base
- 4 screws
Rain Sensor
- Funnel shaped lid with battery hatch
- Sensor base
- Bucket see-saw mechanism
- Protective screen
- 4 screws
Weather Station USB Key
Installation
Connect the Weather Station Key into the USB
Power Supply.
Locate the module far from metal elements.
Locate the module in the range of Z-Wave Network
and in the range of all 433 MHz sensors.
S Service button (used to add or remove module
from the Z-Wave network).
L LED
LED Blinking Meaning
LED is 1 second ON and 1 second OFF
The module is in exclusion mode
LED is ON
The module is in inclusion mode
LED Blinks 1 time fast
The module received data from Thermo/Hygro Sensor Ch1
LED Blinks 2 time fast
The module received data from Thermo/Hygro Sensor Ch2
LED Blinks 3 time fast
The module received data from Wind Sensor
LED Blinks 4 time fast
The module received data from Rain Sensor
Module Inclusion (Adding to Z-Wave
network)
Connect module to USB Power Supply
auto-inclusion (works for about 5 seconds after
connected to power supply) or
enable add/remove mode on main controller
hold service button S between 1.5 and 4 seconds
NOTE: For auto-inclusion procedure, first set main
controller into inclusion mode and then connect module to
USB power supply.
Module Exclusion/Reset (Removing from
Z-Wave network)
Connect module to power supply
enable add/remove mode on main controller,
hold service button S between 4 seconds and 8
seconds
By this function, all parameters of the module are set to
default values and own ID is deleted.
If service button S hold more than 1.5 and less than 4
seconds module is excluded, but configuration parameters
are not set to default values.
Association
Association enables Weather Station module to transfer
commands inside Z-Wave network directly (without main
controller) to other Z-Wave modules.
Associated Groups:
Group 1: Lifeline group (reserved for communication with
the main controller), one node allowed.
Group 2: basic on/off (triggered when the Wind Gust of the
Wind Gauge exceed the Configuration Parameter 1 Value)
up to 16 nodes.
Group 3: basic on/off (triggered when the Rain rate exceed
the Configuration Parameter 2 Value) up to 16 nodes.
Endpoint 1: Thermo/ Hygro Sensor Ch1 – Temperature
Group 1: Lifeline group, 0 nodes allowed.
Endpoint 1 receives Temperature data from Thermo/ Hygro
Sensor on Channel 1. It is capable of receiving data in
range of -199.0 °C and 199.0 °C. However, the operating
temperature of the 433 MHz sensor is from -10 °C to 60
°C.
Endpoint 2: Wind Gauge – Direction
Group 1: Lifeline group, 0 nodes allowed.
Endpoint 2 receives Direction data from Wind Gauge. The
data is in range of 0.0° to 360.0°.
Endpoint 3: Wind Gauge – Velocity
Group 1: Lifeline group, 0 nodes allowed.
Endpoint 3 receives wind speed data from Wind Gauge. It
is capable of receiving data in range of 0.00 m/s to 88.00
m/s.
End point 4: Wind Gauge – Wind gust
Group 1: Lifeline group, 0 nodes allowed.
Group 2: basic on/off (triggered when the Velocity exceed
the Value of Configuration Parameter 1) up to 16 nodes.
Endpoint 4 receives wind speed data from Wind Gauge. It
is capable of receiving data in range of 0.00 m/s to 88.00
m/s.
End point 5: Wind Gauge – Temperature
Group 1: Lifeline group, 0 nodes allowed.
Endpoint 5 receives Temperature data from Wind Gauge. It
is capable of receiving data in range of -199.0 °C and
199.0 °C. However, the operating temperature of the
sensor is from -10 °C to 60 °C.
End point 6: Wind Gauge – Wind Chill
Group 1: Lifeline group, 0 nodes allowed.
Endpoint 6 receives Temperature data from Wind Gauge. It
is capable of receiving data in range of -199.0 °C and
199.0 °C. However, the operating temperature of the
sensor is from -10 °C to 60 °C.
End point 7: Rain Sensor
Group 1: Lifeline group, 0 nodes allowed.
Group 2: basic on/off (triggered when the Rain rate exceed
the Configuration Parameter Value 2) up to 16 nodes.
Endpoint 7 receives and calculates rain rate. The rain rate
is in range of 0.00 mm/h and 300.00 mm/h.
End point 8: Thermo/ Hygro Sensor Ch1 – Humidity
Group 1: Lifeline group, 0 nodes allowed.
Endpoint 8 receives Humidity data from Thermo/ Hygro
Sensor on Channel 1. The data is in range of 0% and
100%.
End point 9: Thermo/ Hygro Sensor Ch2 – Temperature
Group 1: Lifeline group, 0 nodes allowed.
Endpoint 9 receives Temperature data from Thermo/ Hygro
Sensor on Channel 2. It is capable of receiving data in
range of -199.0 °C and 199.0 °C. However, the operating
temperature of the sensor is from -10 °C to 60 °C.
End point 10: Thermo/ Hygro Sensor Ch2 – Humidity
Group 1: Lifeline group, 0 nodes allowed.
Endpoint 10 receives Humidity data from Thermo/ Hygro
Sensor on Channel 2. The data is in range of 0% and
100%.
Configuration parameters
Parameter No. 1 – Wind Gauge, Wind Gust Top Value
Available configuration parameter (data type is 2 Byte
DEC):
default value 1000 (10,00 m/s)
0 – 8800 = value from 0.00 m/s to 88.00 m/s -
if the Wind Gust is Higher than the Parameter Value,
a device triggers an Association.
Parameter No. 2 – Rain Gauge, Rain Rate Top Value
Available configuration parameter (data type is 2 Byte
DEC):
default value 200 (2,00 mm/h)
0 – 30000 = value from 0.00 mm/h to 300.00 mm/h -
if the Sensor Rain Rate is Higher than the Parameter
Value, a device triggers an Association
Parameter No. 3 – Wind Gauge, Wind Gust
Available configuration parameter (data type is 1 Byte
DEC):
default Value 1
0 - If the Wind Gust is Higher than the Parameter No.
1 Value, then a Device sends Basic Set = 0x00.
1 - If the Wind Gust is Higher than the Parameter No.
1 Value, then a Device sends Basic Set = 0xFF.)
Parameter No. 4 – Rain Gauge, Rain Rate
Available configuration parameter (data type is 1 Byte
DEC):
default Value 1
0 - If the Rain amount is Higher than the Parameter
No. 2 Value, then a Device sends Basic Set = 0x00.
1 - If the Rain amount is Higher than the Parameter
No. 2 Value, then a Device sends Basic Set = 0xFF.)
Safety Procedure
In the case of lost connection between the 433 MHz
Wireless Sensor and the Weather Station USB Key, the
module first sends a low battery warning to the main
controller. After that it sets Sensor values to extreme
values and reports this new values to the controller
(Temperature = -199.0 °C, Velocity = 88.00 m/s, Rain =
300.00 mm/h, Humidity = 100 % or Direction = 0.0°), so
that the associations and scenarios are triggered to lower
the chance of potential damage.
If the Weather Station USB Key lose the power supply (or
any other reason reset the Key), the Key will not report
Sensor Values to the controller until new data is received
or maximum 240 seconds. If after 240 seconds, the Key
still does not have new data from the sensor, it will set the
sensor values to maximum and Report it to the controller.
Technical Specifications
Weather station
Dimensions (WxHxD) 460x120x430mm
Weight 2 kg
USB Key
Power supply USB Power Supply, 5V DC
Operation temperature -10 ~ +40°C
Distance to Z-Wave up to 30 m indoors
(depending on building
materials)
Distance to 433Mhz
Sensors
up to 100 m (depending on
building materials)
Dimensions (WxHxD) 79x16x24mm
Electricity consumption 0,3 W
433MHz Sensors
Battery’s 2 x UM-3 or “AA” size 1.5 V
Operation temperature -10 ~ +60°C
Distance to USB Key up to 100 m (depending on
building materials)
Receiving Cycle Remote Thermo/Hygro -
Sensors cca. 45s Rain
Gauge cca. 183s Wind
Sensor cca.33s
Temperature Accuracy +/-1°C or +/-2°F
Humidity Accuracy +/-5%
Wind Speed Accuracy +/- ( 2mph + 5% )
Wind Direction Accuracy +/-11.25°
Z-Wave Device Class:
ZWAVEPLUS_INFO_REPORT_ROLE_TYPE_SLAVE_AL
WAYS_0N
GENERIC_TYPE_SENSOR_MULTILEVEL
SPECIFIC_TYPE_ROUTING_SENSOR_MULTILEVEL
Z-Wave Supported Command Classes:
COMMAND_CLASS_ZWAVEPLUS_INFO_V2,
COMMAND_CLASS_DEVICE_RESET_LOCALLY_V1
COMMAND_CLASS_MANUFACTURER_SPECIFIC_V2
COMMAND_CLASS_POWERLEVEL_V1
COMMAND_CLASS_SECURITY
COMMAND_CLASS_MARK
Z-Wave Securely Supported Command
Classes:
COMMAND_CLASS_VERSION_V2
COMMAND_CLASS_SENSOR_MULTILEVEL_V7
2. COMMAND_CLASS_MULTI_CHANNEL_V4
COMMAND_CLASS_ASSOCIATION_V2
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_
V3
COMMAND_CLASS_ASSOCIATION_GRP_INFO_V2
COMMAND_CLASS_CONFIGURATION
COMMAND_CLASS_BATTERY
COMMAND_CLASS_FIRMWARE_UPDATE_MD_V2,
Endpoint 1, 2, 3, 4, 5, 6, 7, 8, 9, 10
Device Class:
ZWAVEPLUS_INFO_REPORT_ROLE_TYPE_SLAVE_AL
WAYS_0N
GENERIC_TYPE_SENSOR_MULTILEVEL
SPECIFIC_TYPE_ROUTING_SENSOR_MULTILEVEL
Command Classes:
COMMAND_CLASS_ZWAVEPLUS_INFO_V2,
COMMAND_CLASS_MARK
Securely Supported Command Classes:
COMMAND_CLASS_VERSION_V2
COMMAND_CLASS_SENSOR_MULTILEVEL_V7
COMMAND_CLASS_ASSOCIATION_V2
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_
V3
COMMAND_CLASS_ASSOCIATION_GRP_INFO_V2
COMMAND_CLASS_BATTERY
This product can be included and operated in any Z-Wave
network with other Z-Wave certified devices from any other
manufacturers. All constantly powered nodes in the same
network will act as repeaters regardless of the vendor in
order to increase reliability of the network.
Remote Weather Sensors
The remote weather sensors include a thermo-hygrometer,
anemometer (wind sensor) and rain sensor. All data
collected by the sensors are transmitted to the Weather
Station Key by wireless RF, with a range up to 100 meters
(open area). The Weather station Key supports a
maximum of 2 thermo-hygrometers, allowing 2 channels of
temperature/humidity display (Ch1 and Ch2).
Setting up the Remote Weather Sensors
Before starting up the Weather Station Key, setup all the
remote sensors first.
When placing the sensors, make sure that they are within
receiving range of the console unit.
Ideally, they should be within the line of sight of the
console unit. Transmission range may be affected by trees,
metal structures and electronic appliances. Test reception
before permanently mounting your weather center.
Also make sure that the sensors are easily accessible for
cleaning and maintenance.
The remote sensors should be cleaned on a weekly basis,
since dirt and debris will affect sensor accuracy.
Setting up the Thermo-Hygro Sensor(s)
1. Open the latch at the base of the thermo-hygro sensor.
2. Set the channel with a slide switch to Ch1 or Ch2
(Channel has to be selected before inserting a battery’s)
3. Insert two 2 x UM-3 or “AA” size 1.5 V batteries.
4. Use a pin to press the “RESET” key which is in the
battery compartment of thermo-hygro sensors after LED
flash.
5. Replace the latch and mount the unit at desired location.
Placement Tips:
- The thermo-hygro sensor should be in an area with free
air circulation and sheltered from direct sunlight and other
extreme weather conditions. Place the unit in a shaded
area, such as under a roof.
- Avoid placing the sensor near sources of heat such as
chimneys.
- Avoid any areas which collect and radiate heat in the
sun, such as metal, brick or concrete structures, paving,
patios and decks.
- Ideally, place the sensor above natural surfaces such as
a grassy lawn.
- The international standard height for measurements of air
temperature is at 1.25m (4 ft) above ground level.
Setting up the Rain Sensor
1. Unlock the funnel-shaped top of the rain sensor by
turning both knobs on the sides of the rain sensor in an
anti-clockwise direction.
2. Lift the top off the base and insert two 2 x UM-3 or “AA”
size 1.5 V batteries into the battery holder.
3. Replace the lid and secure into place by turning the
knobs clockwise.
4. Place the rain sensor in a location such that
precipitation can fall directly into the sensor, ideally 2-3 ft
above the ground. It may be secured into place by using
the four screws provided.
5. The sensor must be accurately levelled for optimum
performance. To check if the sensor is levelled, remove the
lid and check if the ball bearing inside is at the midpoint of
the leveller. Additionally, a bubble level or carpenter’s level
may be used.
6. Attach the protective screen onto the top of the lid. The
screen will prevent any debris entering the sensor.
Placement Tips:
- The rain sensor should be placed in an open area away
from walls, fences, trees and other coverings which may
either reduce the amount of rainfall into the sensor, deflect
the entry of wind - blown rain, or create extra precipitation
runoff. Trees and rooftops may also be sources of pollen
and debris.
- To avoid rain shadow effects, place the sensor at a
horizontal distance corresponding to two to four times the
height of any nearby obstruction.
- It is important that rain excess can flow freely away from
the sensor. Make sure that water does not collect at the
base of the unit.
- The rainfall measurement mechanism utilizes a magnet,
hence do not place any magnetic objects around the
proximity of the sensor.
Setting up the Anemometer (Wind Sensor)
1. Assemble the wind cups and wind vane to the
anemometer arm
2. Attach the assembled anemometer to the base.
3. Insert two 2 x UM-3 or “AA” size 1.5 V batteries into the
battery holder in the base and connect the second battery
to the solar panel connector.
4. Mount the anemometer onto a vertical surface, using
the fittings provided.
Placement Tips:
- Check that wind can travel freely around the anemometer
and is not distorted by nearby buildings, trees or other
structures.
- For better results, place the anemometer at least 3 m
above local structures and obstacles. The ground creates
a frictional effect to wind flow and will attenuate readings.
- Aim for maximum exposure of the anemometer to the
commonest wind directions in your area.
- The official mounting location for anemometers is 10m
(33 ft) above ground level in a clear unobstructed location.
Maintenance
Changing Batteries
The battery statuses of the sensors are checked every
hour. If the low battery indicators light up, replace the
batteries for the corresponding unit immediately.
Changing Batteries for the Remote Sensors
1. Replace the batteries following the setup instructions for
the corresponding sensor.
2. When the batteries are properly installed, the sensor will
resume sending signals to the main console unit.
Cleaning
The Weather Station Key and outer casings for the remote
sensors can be cleaned with a damp cloth. Small parts can
be cleaned with a cotton tip or pipe-cleaner.
Never use any abrasive cleaning agents and solvents. Do
not immerse any units with electronic parts in water or
under running water.
Anemometer
- Check that the wind vane and wind cups can spin freely
and are free from dirt, debris or spider webs.
Rain Sensor
Like all rain gauges, the rain sensor is prone to blockages
due to its funnel shape. Checking and cleaning the rain
sensor from time to time will maintain the accuracy of rain
measurements.
- Detach the protective screen and lid. Remove any dirt,
leaves or debris by cleaning the items with soapy water
and a damp cloth. Clean small holes and parts with a
cotton tips or pipe-cleaner.
- Look out for spiders or insects that might have crawled
into the funnel.
- Also clean the swinging mechanism with a damp cloth.
Troubleshooting
The Weather Station Key will not receive any data when
the wireless link with the Sensor is lost.
Check or replace the batteries for the corresponding
sensor.
If the above does not solve the problem, check the
wireless transmission path from the corresponding sensor
to the main console unit and change their locations if
necessary.
Although wireless signals can pass through solid objects
and walls, the sensor should ideally be within the line of
sight of the console unit.
The following may be the cause of reception
problems:
- Distance between remote sensor and Weather Station
Key is too long. (Maximum transmission distance in open
area conditions is up to 100 m.)
- Signal shielding materials such as metal surfaces,
concrete walls or dense vegetation in the path of
transmission.
- Interferences from wireless devices (such as cordless
phones, radio headsets, baby listening devices) and
electronic appliances.
The weather readings do not correlate with
measurements from TV, radio or official weather
reports
Weather data can vary considerably due to different
environmental conditions and placement of weather
sensors.
Check the placement tips included in this manual to site
your sensors in the best possible way.
PRECAUTIONS
This product is engineered to give you years of satisfactory
service if you handle it carefully. Here are a few
precautions:
1. Do not immerse the unit in water.
2. Do not clean the unit with abrasive or corrosive
materials. They may scratch the plastic parts and corrode
the electronic circuit.
3. Do not subject the unit to excessive force, shock, dust,
temperature or humidity, which may result in malfunction,
shorter electronic life span, damaged battery and distorted
parts.
4. Do not tamper with the unit‘s internal components.
Doing so will invalidate the warranty on the unit and may
cause unnecessary damage. The unit contains no user-
serviceable parts.
5. Only use fresh batteries as specified in the user‘s
manual. Do not mix new and old batteries as the old ones
may leak.
6. Always read the user‘s manual thoroughly before
operating the unit.
CAUTION
- The content of this manual is subject to change without
further notice.
- Due to printing limitation, the units shown in this manual
may differ from the actual units.
- The contents of this manual may not be reproduced
without the permission of the manufacturer.
This user manual is subject to change and improvement
without notice.
NOTE: User manual is valid for module with SW version
S1 (SW version is part of P/N)! Example: P/N: ZMNHZDx
HxS1Px
Important disclaimer
Z-Wave wireless communication is inherently not always
100% reliable, and as such, this product should not be
used in situations in which life and/or valuables are solely
dependent on its function.
As well, Weather Station Sensors can lose communication
with the Weather Station Key. The caution should be taken
when using the data from the sensors for controlling other
devices using scenarios or associations.
Warning!
Do not dispose of electrical appliances as unsorted
municipal waste, use separate collection facilities.
Contact your local government for information regarding
the collection systems available. If electrical appliances
are disposed of in landfills or dumps, hazardous
substances can leak into the groundwater and get into the
food chain, damaging your health and well-being. When
replacing old appliances with new once, the retailer is
legally obligated to take back your old appliance for
disposal at least for free of charge.
Qubino
Goap d.o.o. Nova Gorica
Ulica Klementa Juga 007
5250 Solkan
Slovenia
E-mail: info@qubino.com
Tel: +386 5 335 95 00
Web: www.qubino.com
Date: 29.2.2016
Document: Qubino_Weather Station
user manual_V1.0_eng