The document provides technical specifications for a Z-Wave Panic Button, including its normal operating voltage, wireless range, basic operations, how it operates within a Z-Wave network after inclusion, technical details, supported command classes, and configuration parameters. It can be used to trigger rules, lifestyles, or directly send alarm messages to associated Z-Wave devices when its big red button is pressed.
The controller ZRC-90 Remotec scenes can execute scenes in your Z-Wave network. When one of the ZRC-90 buttons is pressed, your central controller or box Z-Wave home automation will receive a signal that it can use to trigger scripts.
The document provides instructions for setting up and using a Z-Wave wall controller device. It can be used to control other Z-Wave devices or activate scenes. Pushing all four buttons for five seconds puts the device in management mode for configuration. The device supports secure communication and runs on a single CR2032 battery. It has different operating modes for direct control or scene activation of associated Z-Wave devices.
The Scene Controller is a Z-Wave device that can activate up to 14 scenes with 7 buttons. It operates using 2 AAA batteries, has a wireless range of up to 30 meters, and sends notifications to associated devices when buttons are pressed to trigger scenes. Scenes 1-7 are activated by single presses while scenes 8-14 are activated by double presses within 0.2 seconds.
Wall dimmer with dual paddle and frame tkb manualDomotica daVinci
1. The document provides installation and operation instructions for the TZ65D radio frequency controlled dimmer module. It is a 6A, 230VAC wall mounted 3-way dimmer switch that is part of a Z-Wave enabled lighting control system.
2. The dimmer module can control other Z-Wave devices by associating them into groups that can then be turned on, off, or dimmed using the switches. It also acts as a wireless repeater to extend the range of the Z-Wave network.
3. The document describes how to install, include in the Z-Wave network, operate, and configure the dimmer module as well as its specifications and interoperability with other Z
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.
The document provides an operating manual for a Scene Controller device that can:
1. Control Z-Wave devices like smart plugs and dimmers through a Z-Wave gateway and activate scenes with four buttons.
2. Be included in a Z-Wave network to remotely control devices anywhere and supports low battery and communication failure alarms.
3. Be reset by holding the Z-button for 20 seconds to clear network information and reset to factory defaults.
The document provides instructions for setting up and using an Aeotec by Aeon Labs Key Fob Z-Wave remote control. The Key Fob has four buttons and can be used to control Z-Wave devices in either Setup Mode or Use Mode. In Setup Mode, the Key Fob can add or remove devices from a Z-Wave network, while in Use Mode it functions as a remote control. The instructions outline how to power on the Key Fob, change between modes, add it to an existing Z-Wave network or set it up as the primary controller, and program the buttons to control scenes of connected devices.
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 controller ZRC-90 Remotec scenes can execute scenes in your Z-Wave network. When one of the ZRC-90 buttons is pressed, your central controller or box Z-Wave home automation will receive a signal that it can use to trigger scripts.
The document provides instructions for setting up and using a Z-Wave wall controller device. It can be used to control other Z-Wave devices or activate scenes. Pushing all four buttons for five seconds puts the device in management mode for configuration. The device supports secure communication and runs on a single CR2032 battery. It has different operating modes for direct control or scene activation of associated Z-Wave devices.
The Scene Controller is a Z-Wave device that can activate up to 14 scenes with 7 buttons. It operates using 2 AAA batteries, has a wireless range of up to 30 meters, and sends notifications to associated devices when buttons are pressed to trigger scenes. Scenes 1-7 are activated by single presses while scenes 8-14 are activated by double presses within 0.2 seconds.
Wall dimmer with dual paddle and frame tkb manualDomotica daVinci
1. The document provides installation and operation instructions for the TZ65D radio frequency controlled dimmer module. It is a 6A, 230VAC wall mounted 3-way dimmer switch that is part of a Z-Wave enabled lighting control system.
2. The dimmer module can control other Z-Wave devices by associating them into groups that can then be turned on, off, or dimmed using the switches. It also acts as a wireless repeater to extend the range of the Z-Wave network.
3. The document describes how to install, include in the Z-Wave network, operate, and configure the dimmer module as well as its specifications and interoperability with other Z
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.
The document provides an operating manual for a Scene Controller device that can:
1. Control Z-Wave devices like smart plugs and dimmers through a Z-Wave gateway and activate scenes with four buttons.
2. Be included in a Z-Wave network to remotely control devices anywhere and supports low battery and communication failure alarms.
3. Be reset by holding the Z-button for 20 seconds to clear network information and reset to factory defaults.
The document provides instructions for setting up and using an Aeotec by Aeon Labs Key Fob Z-Wave remote control. The Key Fob has four buttons and can be used to control Z-Wave devices in either Setup Mode or Use Mode. In Setup Mode, the Key Fob can add or remove devices from a Z-Wave network, while in Use Mode it functions as a remote control. The instructions outline how to power on the Key Fob, change between modes, add it to an existing Z-Wave network or set it up as the primary controller, and program the buttons to control scenes of connected devices.
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.
This document provides instructions for using a Zipato Z-Wave Remote control. It summarizes that the remote can control AV devices through a Z-Wave to IR extender and control 8 lighting groups. It provides details on inclusion, exclusion, resetting, and association procedures. It also specifies the remote's technical specifications, features, and overview.
The document provides an operating manual for a Scene Controller device that can control Z-Wave devices and activate scenes wirelessly through a Z-Wave gateway. The Scene Controller uses a rechargeable battery, supports inclusion and exclusion from Z-Wave networks, and can control other devices through association groups activated by button presses of different lengths. It also describes resetting, low battery alerts, firmware updates, and testing network range functionality.
This in-wall remote module is a Z-Wave transceiver that can be installed in a wall box. It allows connection of traditional wall switches or sensors to create a wireless Z-Wave network. The module has a link button and LED for inclusion, exclusion, reset, and association with other Z-Wave devices. It supports basic functions like on/off switching through the Z-Wave protocol.
The document provides instructions for installing and operating a Universal Relay Switch made by WiDom. It includes:
1) Details on the device components and connections for both 3-wire and 2-wire installations. Wiring diagrams are provided for AC and DC loads.
2) Information on including and excluding the device from a Z-Wave network, as well as resetting it to factory settings.
3) Descriptions of how to configure the device's behavior based on the number of clicks or hold time on an external switch, including options to control associated devices.
This document summarizes the features and functionality of an in-wall dual relay switch module. The module contains two relays that can be used to control AC power to loads like lights. It supports inclusion and exclusion from Z-Wave networks as well as basic on/off control. The module can also monitor power usage of connected loads and report this data to the Z-Wave controller. It supports association groups to send reports to other devices and responds to metering commands to provide power readings.
The WWA-02 is a wireless water and temperature alarm that detects leaks and temperature changes. It sends alerts via the Z-Wave network to associated devices. It uses a lithium battery that is estimated to last 1-2 years. The unit can be included and excluded from the Z-Wave network using the rear button. It detects water leaks, high temperatures over 70°C, and low temperatures below -10°C.
This document provides information about a wall switch that is part of the Z-Wave wireless network standard. It can switch loads up to 2300W and includes instructions on installation, inclusion in a Z-Wave network, operation, and technical specifications. The switch uses a dual color LED to indicate status and can be operated locally using buttons or remotely using Z-Wave commands. It has one association group to control other devices and supports features like child protection mode.
This document provides information about the Qubino Flush 1D relay Z-Wave module. The module is used for switching electrical devices on or off and can be controlled via Z-wave network or a wall switch. It is designed to fit inside a flush mounting box and can support connection of a digital temperature sensor. The module also functions as a Z-Wave repeater to improve network range and stability. Installation and configuration details are included along with technical specifications.
This document provides instructions for installing and configuring a PAN06-1/-2/-3 In Wall Dual relay switch module. It can be included in a Z-Wave network and used to control loads by switching relays on and off. The module has an LED indicator and button for inclusion, exclusion, reset, and association. It supports association groups to send switch reports and overload alarms to other devices. Configuration parameters allow controlling both relays together or individually.
The document provides instructions for the ZXT-120 Z-Wave to AC IR Extender. It can be used to control IR-controlled air conditioners using Z-Wave commands from a controller. It has a built-in IR code library and temperature sensor. The document discusses including the ZXT-120 in a Z-Wave network, configuring its IR codes and operating modes, learning new IR codes, and resetting it to factory defaults. Safety precautions are provided for mounting the ZXT-120 to a wall.
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.
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 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 installing and operating a solar-powered outdoor siren that communicates using Z-Wave technology. The siren receives power from a solar panel and internal battery, and can be controlled wirelessly. It includes an alarm with flashing light and reports temperature. The document outlines how to include the device in a Z-Wave network and configure its behavior and sensor reporting settings.
Vision ZG8101 Wireless Garage Door Detector - Installation ManualDomotica daVinci
This document provides instructions for operating and installing a wireless garage door detector. It consists of 4 steps:
1. The detector sends an "ON" or "OFF" status signal to associated nodes when the garage door angle changes, indicated by an LED flash.
2. If the detector cover is removed, it will send an alarm signal and the LED will remain lit until the cover is replaced and the detector is put in "Awake" mode.
3. The detector complies with FCC regulations and includes a 1-year limited warranty against defects in materials and workmanship.
The document provides instructions for setting up and using the Aeotec by Aeon Labs Heavy Duty Smart Switch Gen5. It includes steps for mounting the switch, wiring it, adding it to a Z-Wave network using a Z-Stick or Minimote controller, controlling it remotely once set up, and monitoring its energy usage. The switch can control high-powered appliances of up to 40 amps wirelessly.
The document provides instructions for installing and operating a WiDom Smart Double Switch. It allows independent control of two loads and can be operated by both local and remote switches. It includes in Z-Wave networks and supports association groups to control other devices. Configuration parameters allow customizing switch behavior for load control via clicks on external switches and timers.
The document provides instructions for setting up and using the Aeotec WallMote Quad, a Z-Wave remote controller with 4 touch buttons that can control Z-Wave devices. It has an RGB LED, touch beep, vibration, and is mounted on a wall. The instructions cover installing it, adding it to a Z-Wave network, configuring the buttons, charging the rechargeable battery, resetting it, and more. It can send on/off, dimmer, and scene control commands to associated Z-Wave devices on different channels.
Mini Zipato drive with energy measurement allows the variation in your interior lighting to create a pleasant atmosphere in your home and also help you to reduce your energy consumption. Actually it is able to transmit the instantaneous power consumption (W) and cumulative (KWh) of equipment attached to it.
FIBARO KeyFob is a fully compatible Z-Wave PLUS remote control device with 6 buttons. It can control other Z-Wave devices and activate scenes. The manual provides instructions on adding the device to a Z-Wave network, operating and configuring its buttons, checking battery level, and setting an optional lock mode with an unlock sequence. Advanced parameters allow customizing sequences and associations to other Z-Wave devices.
The document provides an operating manual for the FIBARO Swipe gesture control device, which allows contactless control of Z-Wave devices through gestures without touching the device, detailing its features, gestures and menu options, power modes, adding and removing from networks, and creating custom sequences of gestures. The FIBARO Swipe is a battery-powered gesture control device that can detect gestures like swipes and circles to control connected Z-Wave devices without being touched.
This document provides instructions for using a Zipato Z-Wave Remote control. It summarizes that the remote can control AV devices through a Z-Wave to IR extender and control 8 lighting groups. It provides details on inclusion, exclusion, resetting, and association procedures. It also specifies the remote's technical specifications, features, and overview.
The document provides an operating manual for a Scene Controller device that can control Z-Wave devices and activate scenes wirelessly through a Z-Wave gateway. The Scene Controller uses a rechargeable battery, supports inclusion and exclusion from Z-Wave networks, and can control other devices through association groups activated by button presses of different lengths. It also describes resetting, low battery alerts, firmware updates, and testing network range functionality.
This in-wall remote module is a Z-Wave transceiver that can be installed in a wall box. It allows connection of traditional wall switches or sensors to create a wireless Z-Wave network. The module has a link button and LED for inclusion, exclusion, reset, and association with other Z-Wave devices. It supports basic functions like on/off switching through the Z-Wave protocol.
The document provides instructions for installing and operating a Universal Relay Switch made by WiDom. It includes:
1) Details on the device components and connections for both 3-wire and 2-wire installations. Wiring diagrams are provided for AC and DC loads.
2) Information on including and excluding the device from a Z-Wave network, as well as resetting it to factory settings.
3) Descriptions of how to configure the device's behavior based on the number of clicks or hold time on an external switch, including options to control associated devices.
This document summarizes the features and functionality of an in-wall dual relay switch module. The module contains two relays that can be used to control AC power to loads like lights. It supports inclusion and exclusion from Z-Wave networks as well as basic on/off control. The module can also monitor power usage of connected loads and report this data to the Z-Wave controller. It supports association groups to send reports to other devices and responds to metering commands to provide power readings.
The WWA-02 is a wireless water and temperature alarm that detects leaks and temperature changes. It sends alerts via the Z-Wave network to associated devices. It uses a lithium battery that is estimated to last 1-2 years. The unit can be included and excluded from the Z-Wave network using the rear button. It detects water leaks, high temperatures over 70°C, and low temperatures below -10°C.
This document provides information about a wall switch that is part of the Z-Wave wireless network standard. It can switch loads up to 2300W and includes instructions on installation, inclusion in a Z-Wave network, operation, and technical specifications. The switch uses a dual color LED to indicate status and can be operated locally using buttons or remotely using Z-Wave commands. It has one association group to control other devices and supports features like child protection mode.
This document provides information about the Qubino Flush 1D relay Z-Wave module. The module is used for switching electrical devices on or off and can be controlled via Z-wave network or a wall switch. It is designed to fit inside a flush mounting box and can support connection of a digital temperature sensor. The module also functions as a Z-Wave repeater to improve network range and stability. Installation and configuration details are included along with technical specifications.
This document provides instructions for installing and configuring a PAN06-1/-2/-3 In Wall Dual relay switch module. It can be included in a Z-Wave network and used to control loads by switching relays on and off. The module has an LED indicator and button for inclusion, exclusion, reset, and association. It supports association groups to send switch reports and overload alarms to other devices. Configuration parameters allow controlling both relays together or individually.
The document provides instructions for the ZXT-120 Z-Wave to AC IR Extender. It can be used to control IR-controlled air conditioners using Z-Wave commands from a controller. It has a built-in IR code library and temperature sensor. The document discusses including the ZXT-120 in a Z-Wave network, configuring its IR codes and operating modes, learning new IR codes, and resetting it to factory defaults. Safety precautions are provided for mounting the ZXT-120 to a wall.
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.
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 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 installing and operating a solar-powered outdoor siren that communicates using Z-Wave technology. The siren receives power from a solar panel and internal battery, and can be controlled wirelessly. It includes an alarm with flashing light and reports temperature. The document outlines how to include the device in a Z-Wave network and configure its behavior and sensor reporting settings.
Vision ZG8101 Wireless Garage Door Detector - Installation ManualDomotica daVinci
This document provides instructions for operating and installing a wireless garage door detector. It consists of 4 steps:
1. The detector sends an "ON" or "OFF" status signal to associated nodes when the garage door angle changes, indicated by an LED flash.
2. If the detector cover is removed, it will send an alarm signal and the LED will remain lit until the cover is replaced and the detector is put in "Awake" mode.
3. The detector complies with FCC regulations and includes a 1-year limited warranty against defects in materials and workmanship.
The document provides instructions for setting up and using the Aeotec by Aeon Labs Heavy Duty Smart Switch Gen5. It includes steps for mounting the switch, wiring it, adding it to a Z-Wave network using a Z-Stick or Minimote controller, controlling it remotely once set up, and monitoring its energy usage. The switch can control high-powered appliances of up to 40 amps wirelessly.
The document provides instructions for installing and operating a WiDom Smart Double Switch. It allows independent control of two loads and can be operated by both local and remote switches. It includes in Z-Wave networks and supports association groups to control other devices. Configuration parameters allow customizing switch behavior for load control via clicks on external switches and timers.
The document provides instructions for setting up and using the Aeotec WallMote Quad, a Z-Wave remote controller with 4 touch buttons that can control Z-Wave devices. It has an RGB LED, touch beep, vibration, and is mounted on a wall. The instructions cover installing it, adding it to a Z-Wave network, configuring the buttons, charging the rechargeable battery, resetting it, and more. It can send on/off, dimmer, and scene control commands to associated Z-Wave devices on different channels.
Mini Zipato drive with energy measurement allows the variation in your interior lighting to create a pleasant atmosphere in your home and also help you to reduce your energy consumption. Actually it is able to transmit the instantaneous power consumption (W) and cumulative (KWh) of equipment attached to it.
FIBARO KeyFob is a fully compatible Z-Wave PLUS remote control device with 6 buttons. It can control other Z-Wave devices and activate scenes. The manual provides instructions on adding the device to a Z-Wave network, operating and configuring its buttons, checking battery level, and setting an optional lock mode with an unlock sequence. Advanced parameters allow customizing sequences and associations to other Z-Wave devices.
The document provides an operating manual for the FIBARO Swipe gesture control device, which allows contactless control of Z-Wave devices through gestures without touching the device, detailing its features, gestures and menu options, power modes, adding and removing from networks, and creating custom sequences of gestures. The FIBARO Swipe is a battery-powered gesture control device that can detect gestures like swipes and circles to control connected Z-Wave devices without being touched.
The document provides instructions for setting up and configuring the FIBARO Swipe device. It outlines the 8 steps to physically assemble the device, including detaching the frame, inserting batteries, and replacing the photo. It then details the process for adding the device to the Home Center controller via learning mode. Finally, it explains how to configure gestures and sequences using the Home Center interface to control other connected devices.
This smart color button device is a multifunction switch that can control appliances and dimmers. It has a magnetic back and wall bracket for mounting. It can switch devices on/off, adjust dimming levels, and operate as a timer. The device uses Z-Wave to connect to other devices and supports features like auto-reporting, association groups, and configuration settings.
The document describes a range of digital timer controls for switching electrical appliances on and off automatically. The timers include models with countdown timers ranging from 15 minutes to 6 hours, as well as a Z-Wave connected model with additional remote control and temperature sensing capabilities. The timers are designed to save energy by switching devices off automatically when they are forgotten by the user. They can handle loads up to 3kW and are suitable for uses like boiler control, panel heaters, towel rails and more.
The document provides instructions for installing a Zipato RGBW light bulb. It includes:
1) A 4 step process for installing the bulb that involves screwing it into a socket, turning on the wall switch, activating the bulb's learning mode, and activating learning mode on the Z-wave controller.
2) Specifications for the bulb including its physical dimensions, power requirements, wireless capabilities, temperature range, and support contact information.
3) A thank you message and details about controlling the bulb's color and brightness using a Zipato home controller and rules.
The document provides information about a Z-Wave glass surface 2 channel touch panel switch, including:
1) It can switch two separate loads up to 1100W and is designed for UK pattress boxes.
2) It uses Z-Wave wireless communication at 868.42MHz to control associated devices or scenes.
3) It must be included in a Z-Wave network by a primary controller to communicate with other devices.
Zipatile is an all-in-one home control system that can replace multiple devices such as a security system, thermostat, elderly care system, home automation system, and intercom. It features a touch screen, sensors, video camera, speakers and microphones. The system is powered by an Android operating system and allows remote control through a smartphone app for security monitoring, video monitoring, thermostat control and more. Zipatile integrates a variety of protocols to connect devices from Philips Hue, Sonos, Nest and more for smart home control and automation.
The document discusses Home Center Lite, a small and affordable home automation controller from FIBARO. It can control up to 230 devices in a home and integrate various systems like security, lighting, appliances, and multimedia. The compact device allows users to remotely control and monitor their home from anywhere using a mobile app for increased convenience, energy efficiency and safety.
The ZipaBox is a smart home controller that allows users to control and automate their home from anywhere using tablets, smartphones or computers. It connects various smart home devices using standards like Z-Wave, ZigBee, KNX and integrates them into the cloud for remote access and control. The Zipabox has capabilities for security, lighting, climate control, sun shading, irrigation, access control, multimedia, video monitoring and energy metering. It offers a simple graphical interface to program automations and rules without coding experience.
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
Home Center 2 is a home automation gateway device that connects Z-Wave sensors and devices throughout the home to a central server using WiFi. It integrates different control protocols into a simple interface to easily manage devices from anywhere. Key features include fast processing, low energy use, remote access from phones or web, simple configuration, location tracking, notifications, user permissions, and automatic backups stored on a removable drive.
Red panic Button Emergency App for iPhone & AndroidValentin Vesa
The Red Panic Button app allows users to easily alert contacts in an emergency situation. It sends SMS messages containing the user's location to predefined numbers. If enabled, it can also record audio and send the recording via email. The app integrates with social networks and dials emergency services while sending alerts. It is optimized for accessibility and adjusting screen settings based on ambient light. Location updates can also be requested after an initial alert is sent.
The document describes a plug-in dimmer that can be used to control lights in a Z-Wave mesh network. It provides specifications on its operating voltage, wireless range, maximum load, and inclusion/exclusion process for a Z-Wave network. Instructions are given on installing the plug-in dimmer by plugging a lamp into it and then information on its operating modes and technical details.
1) This document provides instructions for setting up and using a Hank motion sensor that uses Z-Wave technology for wireless communication.
2) It describes how to include the sensor in a Z-Wave network by putting the controller in add mode and pressing the sensor's Z-button, and explains the sensor's motion detection range and parameters that can be configured like sensitivity.
3) The technical specifications are also summarized, including the sensor's dimensions, battery type, supported command classes, and certifications.
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 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.
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.
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 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.
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.
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.
Mini jack On / Off is designed to control the switching on and off lighting and electrical equipment in your home. With a voltage of 220 - 240 V, this socket can withstand loads up to 1500W (resistance), 800W (incandescent), 200W (motor, fluorescent, LED)
The document provides instructions for installing and operating the Luxy Smart Light Z-Wave device. It can be controlled remotely via smartphone or automatically based on pre-programmed scenes. The summary includes instructions to reset the device to factory default settings for inclusion in a Z-Wave network, and that the light can be used standalone or with a smart home system for ambient lighting, notifications, or as part of alarm functions.
Mini Socket Dimmer is designed to control the switching on and off lighting and electrical equipment in your home. It also enables a dimming function that is only compatible with the bulbs. With a voltage of 220 - 240 V, this jack converter can support a
This document provides information about the Hank Flood Sensor device, including how to include it in a Z-Wave network, its configuration parameters, technical specifications, and explanations of Z-Wave terminology. The sensor can detect leaks and floods and sends alerts. It uses the international Z-Wave protocol for wireless communication between smart home devices.
Mini jack on off and counter z wave plus everspringDomotica daVinci
Mini Jack Meter is designed to control the switching on and off lighting and electrical equipment in your home. With a voltage of 220 - 240 V, this socket can support up to 2500W (resistance), 1200 W (incandescent), 700 W (engine) or 320 W fluorescent equ
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.
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.
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The document provides a user manual for the HE-HT01 thermostat. It has 6 operating modes including Comfort, Schedule, Floor Drying, Energy Saving, Vacation, and Manual. It can be installed flush in an electrical junction box and controls heating systems up to 16A. The thermostat integrates Z-Wave technology for smart home control and has touch buttons, LCD display, and sensors for temperature, humidity, and energy usage.
The document provides instructions for an energy-saving radiator thermostat that uses Z-Wave wireless technology. It includes details on installation, setup, operation, and technical specifications. The thermostat can be added to a Z-Wave network to communicate with other devices and be controlled remotely. It offers functions like setting target temperatures, child lock, operating modes, and displaying network information.
The motion sensor user guide provides specifications and setup instructions. It detects motion within 10 meters at a 120 degree angle using Zigbee wireless communication. To set up, download the Smart Life app, register an account, add the Zigbee controller, then search for and add the motion sensor, which can be configured for various alarm settings and linkages within the app.
The document provides a user guide for the Aeotec Range Extender 7, which is a Z-Wave signal amplifier developed to extend the range of a Z-Wave network. It describes how to include the Range Extender in a Z-Wave network using either SmartStart or classic inclusion. It also explains how to control the LED, test connectivity health, remove the device from the network, and manually reset the Range Extender.
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.
Z-Stick 7 is a Z-Wave USB adapter that allows users to control Z-Wave devices and sensors. It uses Series700 and Gen7 technology with SmartStart and S2 security. The guide provides instructions on installing drivers, adding the Z-Stick to home automation software as a primary or secondary controller, using serial API mode, development tools, and resetting the Z-Stick. Compatible software setup guides are also listed.
Optimal protection for critical loads. To limit starting currents on problematic devices, such as energy saving bulbs and fluorescent bulbs. Problematic devices, such as electronic ballasts, energy-saving light bulbs, incandescent bulbs, LED drivers, and switching power supplies, consume a lot of power during ignition due to the multiplication of current. nominal and can therefore destroy the switching relay.
With the ESB200 current limiter, the high current that can occur when switching on electronic devices is limited to a harmless value. It is also possible to limit the inrush current of incandescent lamps to give them a longer life. A protection fuse is also integrated. This starting current limiter can be plugged directly into the power supply circuit for loads up to 200 VA. This compact device can be installed very easily in junction and recessed boxes or in lamp boxes, for example. The device is easily installed in series with the load
wiDom Smart Roller Shutter Z-Wave Plus Module ManualDomotica daVinci
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Building automations in FME Flow can save time, money, and help businesses scale by eliminating data silos and providing data to stakeholders in real-time. One essential component to orchestrating complex automations is the use of attributes & automation parameters (both formerly known as “keys”). In fact, it’s unlikely you’ll ever build an Automation without using these components, but what exactly are they?
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Session 1 - Intro to Robotic Process Automation.pdfUiPathCommunity
👉 Check out our full 'Africa Series - Automation Student Developers (EN)' page to register for the full program:
https://bit.ly/Automation_Student_Kickstart
In this session, we shall introduce you to the world of automation, the UiPath Platform, and guide you on how to install and setup UiPath Studio on your Windows PC.
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RPA Applications
The UiPath End-to-End Automation Platform
UiPath Studio CE Installation and Setup
💻 Extra training through UiPath Academy:
Introduction to Automation
UiPath Business Automation Platform
Explore automation development with UiPath Studio
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Benext panic button_manual_us
1. Version 0.2 31 July 2013 www.iHome.eu
Quick start: Panic Button EU
Technical specs
Normal operating voltage
1x CR2032 3V battery
Frequency range
868.42 MHz
Wireless Range
Min 150 meters in a mesh network
Basic operations
- The Panic Button can trigger any rule or lifestyle.
- The Panic Button can be configured to your needs.
- The Panic Button is easy to install and configured.
- Indoor use only.
- Water resistant
- Big red button with time configurable activation time
How it operates
After a successful inclusion the Panic Button can be used. When pressing a button the led will blink to notice the customer of successful alarm message is sent. With a controller you can make all different kind of rules and lifestyle changes.
It also possible sent the alarm directly to a Z-Wave based alarm device.
Use
1. Before use, the Panic Button should be included into a Z-Wave network and associated.
2. You can Test you Panic Button by pressing the button for 1sec untill the led is turned on. (press time is configurable)
3. Don’t forget to update and syncronize your rules in the Internet Gateway.
Include or Exclude in Z-Wave network 1
1. Press and hold the SOS Push Button until the indicator light starts blinking then release the button to start the inclusion or exclusion process. (Note: Normally button should be pressed for 2 seconds but in case the product is already included it can take up to 12 seconds before the indicator light will start blinking.)
2. When classic inclusion failed, the product will start Network Wide Inclusion automatically.
Force Wakeup Notification
1. When included press and hold the SOS Push Button for approx. 4 seconds.
1 Make sure your Z-Wave controller is in the correct operation mode (include or exclude).
2. Version 0.2 31 July 2013 www.iHome.eu
Technical Manual: Panic Button EU
Caution:
- This device is using a radio signal that passes through walls, windows and doors. The range is strongly influenced by local conditions such as large metal objects, house wiring, concrete, furniture, refrigerators, microwaves and similar items. On average, the indoor range is approximately 30 meters.
- Do not expose this product to excessive heat or moisture.
- Prevent long term exposure to direct sunlight.
- Do not attempt to repair this product. If the product is damaged or if you are in doubt about the proper operation, take the product back to the place of purchase.
- Do not clean the product with any chemical liquid.
- Indoor use only.
Technical details
Product dimensions (Length x Width x Height)
Panic Button = 68 x 36 x 10 mm
Indication mode
The indicator light gives various statuses of the device as follows:
1. Ready for learn mode: indicator light blinks every second.
2. Learn in progress (add): indicator light 2 times every second.
3. Learn in progress (remove): indicator light 3 times every 1.5 second.
4. Learn mode success: indicator light is on for one second.
5. RF message send success indicator light is on for one second.
6. RF message send failed indicator light blinks 6 times rapidly
7. No association is set indicator light blinks 6 times rapidly
Supporting Command Classes:
Basic type: BASIC_TYPE_ROUTING_SLAVE
Generic type: GENERIC_TYPE_SENSOR_BINARY
Specific type: SPECIFIC_TYPE_NOT_USED
Listening: False, Z-Wave Lib: 4.54
Normal operating voltage
1x CR2032 3V battery
do not use rechargeable batteries
Battery lifetime
>3 Years
Frequency range
868.42 MHz
Wireless Range
Approx. 100 meters in line of sight.
Min 150 meters with good mesh network (max 4 hops).
Storage temperature
-5°C to +65°C
Storage humidity
10% to 70%
Operating temperature
0°C to 50°C
Operating humidity:
30% to 80%
3. Version 0.2 31 July 2013 www.iHome.eu
class: 0x30 COMMAND_CLASS_SENSOR_BINARY
class: 0x85 COMMAND_CLASS_ASSOCIATION
class: 0x84 COMMAND_CLASS_WAKE_UP
class: 0x86 COMMAND_CLASS_VERSION
class: 0x72 COMMAND_CLASS_MANUFACTURER_SPECIFIC
class: 0x70 COMMAND_CLASS_CONFIGURATION
class: 0x80 COMMAND_CLASS_BATTERY
class: 0x71 COMMAND_CLASS_ALARM
class: 0xEF COMMAND_CLASS_MARK
class: 0x20 COMMAND_CLASS_BASIC
Not listening Routing SLAVE
This Z-Wave product will be used as routing slave. Slave nodes are nodes in a Z-Wave network that receive commands and perform actions based on the command. This device will always be in sleep mode because it works on batteries. In sleep mode the device is not active listening, the device will wake up according to the wakeup command class.
Include Initiator
The include initiator is used when Primary and Inclusion Controllers include nodes into the network. When both the include initiator have been activated simultaneously the new node will be included to the network (if the node was not included previously).
Exclude Initiator
The exclude initiator is used by Primary Controllers to exclude nodes from the network. When the exclude initiator and a slave initiator are activated simultaneously, it will result in the slave being excluded from the network (and reset to Node ID zero). Even if the slave was not part of the network it will still be reset by this action.
Z-Wave compatibility
Because this is a Z-Wave device, it means it can co-operate with other Z-Wave devices of other manufacturers. It can co-exist in a Z-Wave network existing with product from other manufacturers.
Hops & Retries
The Z-Wave range has a range of up to 30 meters in line of sight. This signal is not limited to the 30 meter range due to routing the Z-Wave message to other nodes in the network. This way the range of the Z-Wave network can be expanded to 150 meters indoors (limit of 4 hops).
class: 0x20 COMMAND_CLASS_BASIC
When a button is pressed for 1sec a basic set frame with the value 255 is sent to the associated nodes.
The supporting role of the basic command class is mapped to the sensor binary command class.
class: 0x25 COMMAND_CLASS_SENSOR_BINARY
The Sensor Binary Command Class can be used to check the status of the Panic Button (triggered or idle).
Where “255” is triggered, and “0” is idle.
class: 0x86 COMMAND_CLASS_VERSION
4. Version 0.2 31 July 2013 www.iHome.eu
This Command Class is used to obtain information about the Panic Button. The Z-Wave library type, the Z- Wave protocol version and the application version will be reported.
class: 0x72 COMMAND_CLASS_MANUFACTURER_SPECIFIC
This will report information about the manufacturer. This product will contain the manufacturer ID of BeNeXt.
Manufacturer ID of BeNeXt is 138, the ID of this product is 20.
class: 0x70 COMMAND_CLASS_CONFIGURATION
Configure parameters:
0. not used
1. Set to default
Description: Set all config values to default values (factory settings).
Read more in chapter Configuration Reset.
Size: 1 byte*
Param1: if 0xFF then set to default
Param2,3,4: not used
2. Time to press the panic button Description: The time that the panic pushbutton must be pressed before a (panic) message is sent out to the controller.
Default: 0x64 (*10ms = 1sec)
Size: 1 byte*
Param1: if 0x00: send directly the panic message when pressed
If 0x01 - 0xFF: send a panic message after you keep holding the button pressed for this value x 10ms.
3. Min led feedback time panic Description: Minimum time that led feedback is shown after a panic message
Default: 0x64 (*10ms = 1sec)
Size: 1 byte*
Param1: if 0x00: led only stays on during the “send time”.
If 0x01 - 0xFF: led stays on during send time + this value*10ms.
4. Buttons mapped Description: With this config parameter you can map the buttons to send different Z-Wave messages.
Default: 0x00 (*10ms = 500ms)
Size: 1 byte*
Param1: if 0x00:
SOS button sends an ALARM_REPORT to nodes group 1
LOCK button sends a BASIC_SET, 0xFF to nodes group 1
UNLOCK button sends a BASIC_SET, 0x00 to nodes group 1
if 0x01 – 0xFF:
SOS button sends an BASIC_SET,0xFF to nodes group 1
LOCK button sends a BASIC_SET, 0xFF to nodes group 2
UNLOCK button sends a BASIC_SET, 0x00 to nodes group 2
5. Time to press the control buttons
5. Version 0.2 31 July 2013 www.iHome.eu
Description: The time that the control pushbutton(s) must be pressed before a (control) message is sent out to the controller.
Default: 0x0A (*10ms = 100ms)
Size: 1 byte*
Param1: if 0x00: send directly the panic message when pressed
If 0x01 - 0xFF: send a control message after you keep holding the button pressed for this value x 10ms.
6. Min led feedback time control Description: Minimum time that led feedback is shown after a control message is sent
Default: 0x32 (*10ms = 500ms)
Size: 1 byte*
Param1: if 0x00: led only stays on during the “send time”.
If 0x01 - 0xFF: led stays on during send time + this value*10ms.
7. Do not use
Description: Is not used for special benext tests
Size: 1 byte*
* if a size is other then given size the frame is ignored totally so configuration values are not changed
class: 0x85 COMMAND_CLASS_ASSOCIATION
The Association Command Class is used to associate other devices with the Panic Button. The devices that are associated can be controlled on application level.
The Panic Button can be associated into a grouping. If so, the Panic Button can control other Z-Wave device (does not have to be a controller).
The Panic Button has 2 association groups
Group 1
Maximum supported nodes: 8
If configuration parameter 4 configured with value 0 then this group is used
- SOS button: send ALARM_REPORT.
- LOCK button: send a BASIC_SET, 0xFF
- UNLOCK button: send a BASIC_SET, 0x00
If configuration parameter 4 configured with value other then 0 (1-255) then this group is used
- SOS button: send BASIC_SET, 0xFF.
- LOCK button: no use
- UNLOCK button: no use
Group 2
Maximum supported nodes: 8
6. Version 0.2 31 July 2013 www.iHome.eu
If configuration parameter 4 configured with value 0 then this group is used
- SOS button: no use.
- LOCK button: no use.
- UNLOCK button: no use.
If configuration parameter 4 configured with value other then 0 (1-255) then this group is used
- SOS button: no use.
- LOCK button: Send a BASIC_SET, 0xFF.
- UNLOCK button: Send a BASIC_SET, 0x00.
Class: 0x80 COMMAND_CLASS_BATTERY
This class is used to request and report battery levels for a given device.
When battery level is lower then 20% the Panic Button will send a battery warning (value 255) after every wake up notification. A battery get will report the actual value even if below 20 %.
When the batteries are placed a unsolicited battery report is sent (when included).
class: 0x84 COMMAND_CLASS_WAKE_UP
The Wake Up Command Class is used at battery-operated devices. This class allows the Panic Button to wake up occasionally to notify others devices, that the Panic Button is ready to receive commands. After receiving the commands the Panic Button will go into sleep mode again. The wake up interval can be set using the WAKE_UP_INTERVAL_SET command.
The default value is 0x15180 = 86400 sec = 24 hour
The default node is 0xFF = 255 (broadcast)
It is possible to send a wake up notification on user interaction. To do this press and hold the Panic Button for 11 seconds. Ignore the blinking of the led and keep the button pressed for at least 15 seconds.
It is possible to send a wake up notification on user interaction. To do this press and hold the panic button for4 seconds.
7. Version 0.2 31 July 2013 www.iHome.eu
Operating modes
The Panic Button supports 2 different modes.
Mode 1: Alarm mode
This mode is mainly used to notify a controller of an alarm or trigger an alarm on a Z-Wave supported alarm
device.
Product can act on 2 types of handles.
When single pressed (and hold): Press and hold the button, the duration to hold depends on the configured
values (parameter 2 or 5) .
When double pressed: quickly (within 500 msec) double press the button.
This mode can be configured with the following frame:
CONFIGURATION_SET
Parameter: 0x04
Size: 0x01 (can’t be different from 1)
Value: 0x00
Below figure shows an overview of the Z-Wave frames, values and association groups.
When single pressed (and hold)
BASIC_SET
Value = 255
To assocation group 1
When double pressed
No Z-Wave message
When single pressed (and hold)
ALARM_REPORT
Value = 0xFF
To assocation group 1
When double pressed
ALARM_REPORT
Value = 0x00
To assocation group 1
When single pressed (and hold)
BASIC_SET
Value = 0
To assocation group 1
When double pressed
No Z-Wave message
8. Version 0.2 31 July 2013 www.iHome.eu
Mode 2: Control mode
This mode is mainly used to control a Z-Wave other device by directly sending a BASIC_ON or BASIC_OFF.
Product can act on 2 types of handles.
When single pressed (and hold): Press and hold the button, the duration to hold depends on the configured
values (parameter 2 or 5) .
When double pressed: quickly (within 500 msec) double press the button.
This mode can be configured with the following frame:
CONFIGURATION_SET
Parameter: 0x04
Size: 0x01 (can’t be different from 1)
Value: 0x01 – 0xFF
Below figure shows an overview of the Z-Wave frames, values and association groups.
When single pressed (and hold)
BASIC_SET
Value = 255
To assocation group 2
When double pressed
No Z-Wave message
When single pressed (and hold)
BASIC_SET
Value = 0xFF
To assocation group 1
When double pressed
BASIC_SET
Value = 0x00
To assocation group 1
When single pressed (and hold)
BASIC_SET
Value = 0
To assocation group 2
When double pressed
No Z-Wave message
9. Version 0.2 31 July 2013 www.iHome.eu
Configuration Reset
The Panic Button Supports a configuration resets function. Configuration reset means
- All configuration values are defaulted.
This function can be activated by sending a configuration set frame:
CONFIGURATION_SET Parameter: 0x01 Size: 0x01 (can’t be different from 1) Value: 0xFF (can be any value except for 0x55 or 0xAA)
When the value of configuration value is requested 2 possible values can be returned
CONFIGURATION_REPORT Parameter: 0x01 Value 0x55: Device doesn’t have all his configuration settings anymore.
Even when a configuration parameter is changed back to the default value
Value 0xAA: Devices still has all his factory settings.
This are only configuration parameters, wake up interval can be changed.
Always awake mode
The always awake mode is used to request different values from the device e.g. version and manufacturer specific.
The always awake mode can be activated by:
CONFIGURATION_SET
Parameter: 0x05
Size: 0x01 (can’t be different from 1)
Value: 0x03 (mode 3)
The always awake mode can be deactivated by:
CONFIGURATION_SET
Parameter: 0x05
Size: 0x01 (can’t be different from 1)
Value: Any value except 3
A second option to deactivate mode 3 is
1. Remove batteries.
2. Wait ca 10 seconds.
3. Replace batteries
Note: in always awake mode the batteries will be drain very fast, we do not recommend to use this mode.
10. Version 0.2 31 July 2013 www.iHome.eu
Troubleshooting
Frequently Asked Questions
Q: I can’t have my Panic Button included into my Z-Wave network, what am I doing wrong?
A: 1. Is the controller ready to include any device into the Z-Wave network? If the controller is not in
Include or exclude mode, the Panic Button will not be included or excluded.
2. The Panic Button is already included in a Z-Wave network (check your led feedback!). Exclude the Panic Button and try again.
Q: I have configured a value but when I request it, it is not changed?
A: It is mandatory that the correct size is used while configure a parameter; go to the documentation about the configuration command class to check if the right size is used during configuration. If the wrong size is used the frame is ignored totally.
Q: I have configured a new value and when I request it the correct value is returned but the behavior is still the same?
A: Some configuration parameters have limits of what they can do, go to the documentation about configuration to check if the value of the configured parameter is out off limit.
Q: how to force a wakeup notification?
A: keep the pushbutton pressed for more than 18 seconds.