The document provides installation instructions for the Aeon Labs Micro Smart Energy Illuminator in-wall Z-Wave dimmer module. It must be installed by a licensed electrician and the electricity shut off for safety. It describes how to include the device in a Z-Wave network to control lights, monitor energy usage, and change the external switch mode between on/off and dimming. The device has a 1-year warranty and FCC/regional certifications.
1) The document provides instructions for installing the Aeon Labs Micro Smart Energy Switch in-wall. It must be installed by a licensed electrician and the electricity must be shut off for safety.
2) The switch must first be added to a Z-Wave network by pressing the inclusion button on a Z-Wave controller. It can then be used to control power flow and monitor energy usage through the Z-Wave network.
3) The switch has a one year warranty and instructions are provided for technical support, specifications, FCC compliance and proper disposal of the device.
Wall plug switch with metering aeon labs v2 manualDomotica daVinci
This document provides instructions and specifications for the Aeon Labs Inline Smart Energy Switch Z-Wave actuator. The switch can be included in a Z-Wave network to enable wireless control and energy monitoring of connected devices. It supports various Z-Wave protocols and configuration parameters that allow it to report energy usage to compatible controllers. Proper installation and disposal guidelines are also outlined.
The document provides instructions for setting up and using a Z-Wave door/window detector. It can be included in a Z-Wave network to detect openings and closings of doors and windows. When triggered, it will send notifications to associated devices. It supports features like battery detection, tamper detection, and configuration of parameters like detection delay.
This document provides an overview of a voice control home appliance project. The project uses a voice module, microcontroller, and mobile phone to allow voice commands to control home appliances like fans and lights. The microcontroller receives voice commands via Bluetooth from the mobile phone and voice module. It then sends signals to relays connected to appliances to switch them on or off based on the command. The aim is to automatically control appliances in response to spoken commands.
The document describes a temperature and humidity detector that is Z-Wave enabled. It can monitor and report temperature and humidity readings on a regular basis. It can also send alerts to associated Z-Wave devices if the temperature or humidity reaches set trigger points. The detector has 8 modes to control settings like displaying or setting temperature and humidity values, turning on/off radio frequency transmissions and beep tones. It also describes how to include the device in a Z-Wave network and set up associations to control other devices.
This document provides information about a Z-Wave wall plug dimmer, including:
1) It can dim various light types and has configuration options like an auto-off timer and LED modes.
2) As a Z-Wave device, it can join wireless networks to communicate and be controlled.
3) It has dimming, scheduling, and child protection functions controlled through a local button or wirelessly.
Wyndham Worldwide has partnered with Magnum Energy Solutions to implement energy efficient solutions as part of its Wyndham Green sustainability program. Magnum provides wireless, self-powered devices that reduce energy consumption through room occupancy detection and HVAC controls. The solutions have been proven in studies to significantly reduce energy usage and costs at hotels while advancing Wyndham's environmental goals.
Wyndham Worldwide has partnered with Magnum Energy Solutions to implement energy efficient solutions as part of its Wyndham Green sustainability program. Magnum provides wireless, self-powered devices that reduce energy consumption through room occupancy detection and HVAC controls. The solutions have been proven in studies to significantly reduce energy usage and costs at hotels while advancing Wyndham's environmental goals.
1) The document provides instructions for installing the Aeon Labs Micro Smart Energy Switch in-wall. It must be installed by a licensed electrician and the electricity must be shut off for safety.
2) The switch must first be added to a Z-Wave network by pressing the inclusion button on a Z-Wave controller. It can then be used to control power flow and monitor energy usage through the Z-Wave network.
3) The switch has a one year warranty and instructions are provided for technical support, specifications, FCC compliance and proper disposal of the device.
Wall plug switch with metering aeon labs v2 manualDomotica daVinci
This document provides instructions and specifications for the Aeon Labs Inline Smart Energy Switch Z-Wave actuator. The switch can be included in a Z-Wave network to enable wireless control and energy monitoring of connected devices. It supports various Z-Wave protocols and configuration parameters that allow it to report energy usage to compatible controllers. Proper installation and disposal guidelines are also outlined.
The document provides instructions for setting up and using a Z-Wave door/window detector. It can be included in a Z-Wave network to detect openings and closings of doors and windows. When triggered, it will send notifications to associated devices. It supports features like battery detection, tamper detection, and configuration of parameters like detection delay.
This document provides an overview of a voice control home appliance project. The project uses a voice module, microcontroller, and mobile phone to allow voice commands to control home appliances like fans and lights. The microcontroller receives voice commands via Bluetooth from the mobile phone and voice module. It then sends signals to relays connected to appliances to switch them on or off based on the command. The aim is to automatically control appliances in response to spoken commands.
The document describes a temperature and humidity detector that is Z-Wave enabled. It can monitor and report temperature and humidity readings on a regular basis. It can also send alerts to associated Z-Wave devices if the temperature or humidity reaches set trigger points. The detector has 8 modes to control settings like displaying or setting temperature and humidity values, turning on/off radio frequency transmissions and beep tones. It also describes how to include the device in a Z-Wave network and set up associations to control other devices.
This document provides information about a Z-Wave wall plug dimmer, including:
1) It can dim various light types and has configuration options like an auto-off timer and LED modes.
2) As a Z-Wave device, it can join wireless networks to communicate and be controlled.
3) It has dimming, scheduling, and child protection functions controlled through a local button or wirelessly.
Wyndham Worldwide has partnered with Magnum Energy Solutions to implement energy efficient solutions as part of its Wyndham Green sustainability program. Magnum provides wireless, self-powered devices that reduce energy consumption through room occupancy detection and HVAC controls. The solutions have been proven in studies to significantly reduce energy usage and costs at hotels while advancing Wyndham's environmental goals.
Wyndham Worldwide has partnered with Magnum Energy Solutions to implement energy efficient solutions as part of its Wyndham Green sustainability program. Magnum provides wireless, self-powered devices that reduce energy consumption through room occupancy detection and HVAC controls. The solutions have been proven in studies to significantly reduce energy usage and costs at hotels while advancing Wyndham's environmental goals.
The document summarizes the features and capabilities of EFM32 microcontrollers from energymicro. Key points:
- EFM32 microcontrollers use very low active and standby power to maximize battery life, with active currents as low as 160 μA/MHz and standby currents of only 0.9 μA.
- They include various low-power peripherals and energy modes to minimize energy usage. Peripherals can operate autonomously without using the Cortex CPU.
- A range of EFM32 microcontrollers are offered for different applications, with various memory sizes and peripheral options. They are well suited for energy metering, security, health/fitness, industrial and home automation uses.
1. The document discusses earthing and protection against indirect contact in photovoltaic systems. It addresses earthing of exposed conductive parts and the power generation system, as well as requirements for earthing resistance.
2. Plants with and without transformers are considered. For plants with transformers, the document distinguishes between exposed conductive parts upstream and downstream of the transformer.
3. Requirements are provided for different earthing systems including TN, IT, and TT, and the need for residual current devices is discussed in relation to single faults or double faults.
This document provides instructions and specifications for a Z-Wave wall dimmer switch compatible with the Busch-Jaeger Duro 2000 design. It can dim lights up to 300W and is controlled via buttons or Z-Wave commands. Installation involves mounting the insert plate into a standard wall box and connecting live and load wires. The device can join a Z-Wave network via inclusion triggered by a button click.
This document describes a touch dimmer circuit built around the IC TT6061A. The circuit allows increasing the light intensity of incandescent lamps in three steps simply by touching a copper plate. It works by using the IC to trigger a triac that controls the lamp brightness based on how many times the plate is touched. Applications of dimmer switches include saving energy by reducing light levels, controlling mood lighting, and extending the life of light bulbs.
The document is an owner's manual that contains important safety information. It instructs the owner to carefully read sections on using the unit safely and important notes before operating the unit. These sections provide important information on proper use. It also recommends reading the entire manual to learn how to use all of the unit's features and keeping it handy for future reference.
The document is an owner's manual that provides important safety instructions and notes about operating the unit. It warns the user to read sections on safe use and important notes before operating the unit. Additionally, it recommends reading the entire manual to understand all features and keeping it handy for future reference. The manual contains over 150 safety rules, warnings, and precautions about installation, use, maintenance and technical specifications of the unit.
This document provides information about a Z-Wave DIN dimmer module used for dimming lights and fans. The module can be controlled through a Z-Wave network or wall switch. It measures power consumption and supports connecting a temperature sensor. The module is small, designed to mount on a DIN rail, and can act as a repeater to improve the Z-Wave network range. Technical specifications, diagrams, instructions and configuration parameters are provided.
The document summarizes the development and principles of operation of LVD induction lamps. It discusses:
1. The history of induction lamps and how LVD developed cheaper IC chips to control the ballast and enable dimming functionality.
2. The mechanical construction and electrical model of LVD lamps, which use inductive coupling from coils to energize the plasma without electrodes.
3. The high frequency generator (ballast) circuit controlled by the IC chips, which provides stable power factor correction, protection functions, and dimming control.
4. Performance comparisons that show LVD lamps have high efficacy, long life, good dimming, and lower price than other induction lamps.
The document provides installation and setup instructions for the ADEMCO 5843 Switching Module. The 5843 is a wireless receiver module that can operate up to eight wireless transmitters to control a relay-activated device. The summary is:
1. The 5843 wireless receiver module allows up to eight wireless transmitters to control a relay-activated device.
2. Installation instructions include mounting the 5843 in a high, unobstructed location and connecting power and relay wiring.
3. Setup involves enrolling wireless transmitters using the module's dip switches and LED indicators to program transmitter buttons to operate the relay.
This document provides instructions for a wall switch set that can be included in a Z-Wave network and control loads up to 2300W. It has a flush mountable insert compatible with Busch-Jaeger design. Triple clicking a button puts it into inclusion mode to join a network or exclusion mode to leave one.
(1) This document is a user's guide for the Hitachi CP-S860W/E liquid crystal projector.
(2) The projector uses a UHB lamp and optical system to provide a high level of brightness for projecting computer and video signals onto a screen.
(3) Key features include partial image magnification, distortion correction, power zoom/focus, and a P in P function. The guide provides instructions on setup, connections, usage and specifications.
This document proposes teaching utility applications of power electronics in a first power systems course using a top-down four-segment approach. The segments cover: 1) functional aspects and applications, 2) power device capabilities and structures, 3) the role in applications like distributed generation and transmission, and 4) implementation details. The goal is to introduce students to increasing power electronics uses for renewable energy integration, power quality solutions, flexible AC transmission systems, and more. A unifying approach uses voltage-link and current-link building blocks to explain converter operation at a fundamental level.
High Performance Power Electronics Systems for PV Solar ApplicationsRick Borry
Join us for a free webinar that explains the benefits of an advanced inverter technology and specifically how it is capable of harvesting more energy from PV solar power generation systems. Providing insight into the factors that affect electrical yield, such as insolation and illumination (the effect of shading), and the inverter design and operating parameters that affect yield, the presentation points to “best practice” approaches that can improve electrical – and financial - yield by as much as 30%.
In addition, the importance of evaluating issues such as TCO (total cost of ownership), LCOE (Levelized Cost of Energy) and Efficacy vs. Efficiency are explained in the context of solar system performance and grid parity.
1. The document provides installation and operation instructions for a Z-Wave enabled door/window detector.
2. Key steps include choosing doors/windows to protect, installing batteries, adding the detector to a Z-Wave network, and mounting the detector and magnet.
3. The detector can be used to remotely control connected lights and alarms when doors or windows are opened.
The document is a user manual for the PS 285 Power Supply Booster. It contains 3 sections:
1. The PS 285 is designed to be used as an auxiliary power supply for ASL intercom systems when the main power supply cannot support all required stations. It can power up to 20 beltpacks or 10 speaker stations.
2. Instructions are provided for unpacking, installing, connecting power and intercom lines, and setting up the PS 285.
3. Technical specifications of the PS 285 include its power output of +30V DC, dimensions of 1U height and 150mm depth, weight of 1.6kg, and ability to drive stations at a total current of 1.7A
This document describes a touch dimmer switch circuit that uses a touch sensor to control the brightness of a light. A touch sensor is connected to an Arduino microcontroller which uses pulse width modulation to vary the brightness of a light bulb connected to a transistor. When the touch sensor is touched, the Arduino detects the change in state of the sensor and drives the light bulb at different brightness levels depending on how long the sensor is touched. The circuit provides a simple way to control light brightness with a touch sensor instead of a traditional mechanical dimmer switch.
SurgeMaster surge protectors protect electronics from power surges and imbalances that can damage circuitry and shorten lifespans. They provide optimized power delivery for better performance and sound. SurgeMaster offers multiple protection levels - Essential, High, and Extreme - and reimburses up to £10,000-£100,000 if connected equipment is damaged from a surge, depending on the protection level. The document provides specifications for the PC and AV series surge protectors, including number of sockets, cable length, additional protection features, voltage tolerance, and connected equipment warranty amounts.
1. The document provides instructions for setting up and using a thermostat and time control device that communicate via Z-Wave. It includes details on inclusion into the Z-Wave network, installation, setting the time and program, manual overrides, and thermostat operation.
2. The thermostat can be set to include or exclude other Z-Wave devices and has a dial to select temperature. The time control allows programming on/off times for each day and has buttons for temporary overrides.
3. When paired together, the thermostat will only operate during on periods set by the time control, with the time control indicator showing if heating is on or off.
This document describes a security alarm system that uses various sensors including a light dependent resistor (LDR). The system uses an LDR circuit that triggers an alarm when a person's shadow falls on the LDR, blocking the light. The circuit uses common electronic components like an LDR, timer IC NE555, capacitors, resistors, and a transformer. It provides intrusion detection with benefits of low cost and energy efficiency compared to other security systems.
This document provides instructions and specifications for a set combining a programmable 7-day room thermostat and a wirelessly controlled relay switch for central heating control. The thermostat can be programmed with up to six temperature settings per day. The relay switch is used to control heating loads up to 3A/230V and can be operated locally or controlled by the thermostat wirelessly. Instructions are provided for installation, inclusion in a Z-Wave network, configuration, and operation of both 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 discusses the operating distance of a device. It states that the operating distance is up to 300 feet or 150 metres when used outdoors. This provides the essential information that the device can be operated from up to 300 feet away when outside.
The document summarizes the features and capabilities of EFM32 microcontrollers from energymicro. Key points:
- EFM32 microcontrollers use very low active and standby power to maximize battery life, with active currents as low as 160 μA/MHz and standby currents of only 0.9 μA.
- They include various low-power peripherals and energy modes to minimize energy usage. Peripherals can operate autonomously without using the Cortex CPU.
- A range of EFM32 microcontrollers are offered for different applications, with various memory sizes and peripheral options. They are well suited for energy metering, security, health/fitness, industrial and home automation uses.
1. The document discusses earthing and protection against indirect contact in photovoltaic systems. It addresses earthing of exposed conductive parts and the power generation system, as well as requirements for earthing resistance.
2. Plants with and without transformers are considered. For plants with transformers, the document distinguishes between exposed conductive parts upstream and downstream of the transformer.
3. Requirements are provided for different earthing systems including TN, IT, and TT, and the need for residual current devices is discussed in relation to single faults or double faults.
This document provides instructions and specifications for a Z-Wave wall dimmer switch compatible with the Busch-Jaeger Duro 2000 design. It can dim lights up to 300W and is controlled via buttons or Z-Wave commands. Installation involves mounting the insert plate into a standard wall box and connecting live and load wires. The device can join a Z-Wave network via inclusion triggered by a button click.
This document describes a touch dimmer circuit built around the IC TT6061A. The circuit allows increasing the light intensity of incandescent lamps in three steps simply by touching a copper plate. It works by using the IC to trigger a triac that controls the lamp brightness based on how many times the plate is touched. Applications of dimmer switches include saving energy by reducing light levels, controlling mood lighting, and extending the life of light bulbs.
The document is an owner's manual that contains important safety information. It instructs the owner to carefully read sections on using the unit safely and important notes before operating the unit. These sections provide important information on proper use. It also recommends reading the entire manual to learn how to use all of the unit's features and keeping it handy for future reference.
The document is an owner's manual that provides important safety instructions and notes about operating the unit. It warns the user to read sections on safe use and important notes before operating the unit. Additionally, it recommends reading the entire manual to understand all features and keeping it handy for future reference. The manual contains over 150 safety rules, warnings, and precautions about installation, use, maintenance and technical specifications of the unit.
This document provides information about a Z-Wave DIN dimmer module used for dimming lights and fans. The module can be controlled through a Z-Wave network or wall switch. It measures power consumption and supports connecting a temperature sensor. The module is small, designed to mount on a DIN rail, and can act as a repeater to improve the Z-Wave network range. Technical specifications, diagrams, instructions and configuration parameters are provided.
The document summarizes the development and principles of operation of LVD induction lamps. It discusses:
1. The history of induction lamps and how LVD developed cheaper IC chips to control the ballast and enable dimming functionality.
2. The mechanical construction and electrical model of LVD lamps, which use inductive coupling from coils to energize the plasma without electrodes.
3. The high frequency generator (ballast) circuit controlled by the IC chips, which provides stable power factor correction, protection functions, and dimming control.
4. Performance comparisons that show LVD lamps have high efficacy, long life, good dimming, and lower price than other induction lamps.
The document provides installation and setup instructions for the ADEMCO 5843 Switching Module. The 5843 is a wireless receiver module that can operate up to eight wireless transmitters to control a relay-activated device. The summary is:
1. The 5843 wireless receiver module allows up to eight wireless transmitters to control a relay-activated device.
2. Installation instructions include mounting the 5843 in a high, unobstructed location and connecting power and relay wiring.
3. Setup involves enrolling wireless transmitters using the module's dip switches and LED indicators to program transmitter buttons to operate the relay.
This document provides instructions for a wall switch set that can be included in a Z-Wave network and control loads up to 2300W. It has a flush mountable insert compatible with Busch-Jaeger design. Triple clicking a button puts it into inclusion mode to join a network or exclusion mode to leave one.
(1) This document is a user's guide for the Hitachi CP-S860W/E liquid crystal projector.
(2) The projector uses a UHB lamp and optical system to provide a high level of brightness for projecting computer and video signals onto a screen.
(3) Key features include partial image magnification, distortion correction, power zoom/focus, and a P in P function. The guide provides instructions on setup, connections, usage and specifications.
This document proposes teaching utility applications of power electronics in a first power systems course using a top-down four-segment approach. The segments cover: 1) functional aspects and applications, 2) power device capabilities and structures, 3) the role in applications like distributed generation and transmission, and 4) implementation details. The goal is to introduce students to increasing power electronics uses for renewable energy integration, power quality solutions, flexible AC transmission systems, and more. A unifying approach uses voltage-link and current-link building blocks to explain converter operation at a fundamental level.
High Performance Power Electronics Systems for PV Solar ApplicationsRick Borry
Join us for a free webinar that explains the benefits of an advanced inverter technology and specifically how it is capable of harvesting more energy from PV solar power generation systems. Providing insight into the factors that affect electrical yield, such as insolation and illumination (the effect of shading), and the inverter design and operating parameters that affect yield, the presentation points to “best practice” approaches that can improve electrical – and financial - yield by as much as 30%.
In addition, the importance of evaluating issues such as TCO (total cost of ownership), LCOE (Levelized Cost of Energy) and Efficacy vs. Efficiency are explained in the context of solar system performance and grid parity.
1. The document provides installation and operation instructions for a Z-Wave enabled door/window detector.
2. Key steps include choosing doors/windows to protect, installing batteries, adding the detector to a Z-Wave network, and mounting the detector and magnet.
3. The detector can be used to remotely control connected lights and alarms when doors or windows are opened.
The document is a user manual for the PS 285 Power Supply Booster. It contains 3 sections:
1. The PS 285 is designed to be used as an auxiliary power supply for ASL intercom systems when the main power supply cannot support all required stations. It can power up to 20 beltpacks or 10 speaker stations.
2. Instructions are provided for unpacking, installing, connecting power and intercom lines, and setting up the PS 285.
3. Technical specifications of the PS 285 include its power output of +30V DC, dimensions of 1U height and 150mm depth, weight of 1.6kg, and ability to drive stations at a total current of 1.7A
This document describes a touch dimmer switch circuit that uses a touch sensor to control the brightness of a light. A touch sensor is connected to an Arduino microcontroller which uses pulse width modulation to vary the brightness of a light bulb connected to a transistor. When the touch sensor is touched, the Arduino detects the change in state of the sensor and drives the light bulb at different brightness levels depending on how long the sensor is touched. The circuit provides a simple way to control light brightness with a touch sensor instead of a traditional mechanical dimmer switch.
SurgeMaster surge protectors protect electronics from power surges and imbalances that can damage circuitry and shorten lifespans. They provide optimized power delivery for better performance and sound. SurgeMaster offers multiple protection levels - Essential, High, and Extreme - and reimburses up to £10,000-£100,000 if connected equipment is damaged from a surge, depending on the protection level. The document provides specifications for the PC and AV series surge protectors, including number of sockets, cable length, additional protection features, voltage tolerance, and connected equipment warranty amounts.
1. The document provides instructions for setting up and using a thermostat and time control device that communicate via Z-Wave. It includes details on inclusion into the Z-Wave network, installation, setting the time and program, manual overrides, and thermostat operation.
2. The thermostat can be set to include or exclude other Z-Wave devices and has a dial to select temperature. The time control allows programming on/off times for each day and has buttons for temporary overrides.
3. When paired together, the thermostat will only operate during on periods set by the time control, with the time control indicator showing if heating is on or off.
This document describes a security alarm system that uses various sensors including a light dependent resistor (LDR). The system uses an LDR circuit that triggers an alarm when a person's shadow falls on the LDR, blocking the light. The circuit uses common electronic components like an LDR, timer IC NE555, capacitors, resistors, and a transformer. It provides intrusion detection with benefits of low cost and energy efficiency compared to other security systems.
This document provides instructions and specifications for a set combining a programmable 7-day room thermostat and a wirelessly controlled relay switch for central heating control. The thermostat can be programmed with up to six temperature settings per day. The relay switch is used to control heating loads up to 3A/230V and can be operated locally or controlled by the thermostat wirelessly. Instructions are provided for installation, inclusion in a Z-Wave network, configuration, and operation of both 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 discusses the operating distance of a device. It states that the operating distance is up to 300 feet or 150 metres when used outdoors. This provides the essential information that the device can be operated from up to 300 feet away when outside.
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.
Fibaro RGBW Controller is a universal Z-Wave compatible RGB/RGBW controller that uses PWM output signals to control LED, RGB, RGBW strips, halogen lights, and fans powered by 12 or 24 VDC. It also supports up to four 0V-10V analog sensors. The controller has multiple operating modes including RGB/RGBW for lighting control and IN/OUT mode for independent configuration of inputs and outputs. It provides current load and energy consumption monitoring and can be included in a Z-Wave network to be controlled by compatible controllers and associated with other Z-Wave devices.
The Fibaro RGBW Controller is an advanced wireless controller that can independently control 4 color (RGBW) LED light strips. It has 4 output channels, supports up to 4 analog sensors to control light colors based on various inputs like temperature and moisture sensors, and allows creating customized lighting scenes and schemes through a smartphone app. The controller offers various automation possibilities for home, garden, and other applications.
1) The document provides instructions for installing the Aeon Labs Micro Motor Controller in-wall Z-Wave motor controller.
2) It must be included in a Z-Wave network by pressing the inclusion button while powered, then can be controlled by Z-Wave commands.
3) The controller has a 3-wire installation and can operate wall switches in momentary or toggle modes.
The document describes the Aeon Labs Door/Window Sensor, a Z-Wave magnetic contact sensor that sends signals to associated devices when separated from its magnetic piece. It can be included and removed from a Z-Wave network, and associated with up to 6 other Z-Wave devices like lights and switches. The sensor has tamper prevention, low battery alerts, and can be put to sleep via the magnetic contact or settings from a controller.
Manual Steinel l 810 led i hf (outdoor light with led)Domotica daVinci
This document provides instructions and information for a Z-Wave light dimmer. It includes details about installation, inclusion in a Z-Wave network, configuration parameters, and operation. The light dimmer can be controlled through the Z-Wave network or manually using buttons, and includes settings for detection range, light threshold, dimming levels, and more.
Leviton vrp03 z product manual and setup guideAlarm Grid
This document provides installation instructions for a Scene Capable Plug-In Lamp Dimming Module rated for 120VAC, 60Hz. It can control incandescent loads between 300W and 14W. The summary includes instructions to install the module by attaching the lamp to be controlled, attaching the module to a wall receptacle, and including the module in a Z-Wave wireless network using a programmer/remote. It also describes operating and troubleshooting the module.
The document is a user manual for the MCOHome Touch Panel Switch, a Z-Wave compatible wall switch. It provides specifications for the switch, instructions for installation and inclusion in a Z-Wave network, and operation details. The switch supports basic command class and association command class to control associated devices synchronously. It has a 1-year limited warranty against defects but not against improper installation or use.
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.
This document provides information about the MCO Home Glass Touch Switch GEN5 (1 Button) Z-Wave actuator. It can be used to control electrical loads and integrated into a Z-Wave home automation network to be controlled remotely. The switch has a touch button and LED for local control and supports inclusion in Z-Wave scenes. It also includes details on installation, configuration parameters, technical specifications, and explanations of related Z-Wave terms.
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.
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.
Micromodule Mural On/Off Z-Wave Plus AN179 Smart Home Europe manual englishDomotica daVinci
The document describes an In-Wall On/Off Z-Wave module that can control lighting and appliances. It has two dry contacts that provide wiring flexibility and overheating protection. It supports loads up to 11A and can be included in a Z-Wave network to allow remote control. The module has a link button for inclusion, exclusion and reset, and supports auto-inclusion on first power-up without a node ID.
The document provides an operating manual for the Fibaro Flood Sensor, a Z-Wave compatible flood and temperature sensor that can be powered by batteries or 12/24 VDC. It has a built-in temperature sensor, tilt sensor, and LED indicator. The manual describes how to include/exclude the sensor from the Z-Wave network, install it, reset it, and power it in battery or constant power modes. Diagrams show how to connect it to an alarm system or power source.
Door Opener Controller Z-Wave Plus Manual - PoPPDomotica daVinci
This electric strike lock can be included in a Z-Wave network to remotely lock and unlock doors. It operates on battery or external power and includes instructions on installation, configuration, and operation within a Z-Wave network. The device provides information on its technical specifications, certifications, and support contact details.
The document discusses Siemens' Sentron 3WL air circuit breaker. It offers intelligent simplicity with modular design allowing use of standard configurations. It integrates switching, protection, metering and power management. The breaker is available in three frame sizes from 100A to 6300A. It offers cost savings through modularity, compact size, and high electrical life. Planning is easy with identical door cutouts across frame sizes. The breaker provides maximum safety through distinct ready-to-close indicators and other protections. It offers system solutions with communication capabilities and remote diagnosis via the internet.
The document summarizes the features and capabilities of Siemens' Sentron 3WL air circuit breakers. The breakers offer intelligent modularity across their range, integrated communication abilities, and user-friendly design features. They can monitor power systems remotely, provide real-time alerts and diagnostics, and optimize energy management. The breakers are compact yet powerful, safe, easy to plan and install, and offer high customization and retrofitting potential to adapt to changing power network needs.
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.
The motion detector is a Z-Wave enabled security and home automation device. It detects movement using PIR and light sensors. When movement is detected, it sends radio signals to trigger alarms or turn on connected lights. It can be included in a Z-Wave network and associated with other devices. Settings include sensitivity level, re-trigger interval, sensor function enabling, lux level detection threshold, and grouping for device control. The battery typically lasts over 1 year and a low battery is indicated by the LED flashing every 30 seconds.
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.
Wall plug switch with metering po pp start guideDomotica daVinci
This Z-Wave plug-in switch can control electric devices up to 3000W and also measures power consumption. It communicates via the Z-Wave wireless protocol and can join a Z-Wave network through inclusion. The switch can be manually controlled with its button and reports power usage to the Z-Wave controller. It has configuration parameters to customize power and energy reporting intervals.
This document provides information about a Z-Wave wall plug switch that can be used to control electric devices plugged into an outlet. It describes what Z-Wave is, the different roles devices can have in a Z-Wave network, and how the switch can be included in or excluded from a network. The switch can control loads up to 3500W, has a button for local control, and indicators for its switching status. It supports various configuration options for behaviors like its LED, automatic shut-off, and response to network commands.
This document provides instructions for an in-wall switch module that is Z-Wave enabled and can be used to control AC power and lights. It describes how to include the module in a Z-Wave network, exclude it, reset it, and associate it with other devices. The module can detect overload conditions and includes an on/off button and LED for control and status indication. Installation involves wiring it into a wall box and including and associating it with a remote controller. It supports common command classes and specifications are provided.
Similar to Aeon labs micro smart energy illuminator manual (20)
The 2CH Dimmer Module allows manual control of lights through a push switch and app control. It can control up to two lighting circuits and provides options for permanent on/off or dimming control through short or long button pushes. Installation requires turning off power and properly wiring the unit according to diagrams. The module can be reset through a long button press or external button presses and pairs with Zigbee gateways through a learning mode button hold.
Zi-Stick is a self-powered Zigbee 3.0 USB adapter that is used to control actuators and sensors in a Zigbee network. It connects to a computer via USB and appears as a virtual serial or COM port. The user guide provides instructions for installing any necessary drivers, identifying the Zi-Stick's COM port, and connecting it to software like Home Assistant or OpenHAB. Safety information is also included, noting that the Zi-Stick should be used indoors and away from heat or moisture.
This document provides installation and operation instructions for a BRT-100 radiator thermostat in French. It includes:
1. An introduction and welcome message thanking the customer for their purchase.
2. Technical characteristics and features of the thermostat such as LED display, color display, curved design, energy efficient battery that lasts 1 year.
3. Step-by-step instructions for installation including selecting the correct adapter, installing the mounting plate and battery, and connecting the thermostat.
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Este documento proporciona instrucciones para un actuador con dos salidas independientes de 230V. Incluye especificaciones técnicas, información de seguridad, diagramas de conexión e instrucciones de instalación, control y configuración. El dispositivo permite controlar dos cargas de forma independiente a través de radio o pulsador y puede integrarse en sistemas domóticos Z-Wave.
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The document provides instructions for installing and operating the HE-RS01 five-channel relay switch. Key details include:
- The HE-RS01 can control up to five on/off devices or combinations of on/off and two-direction motor devices.
- It has five configurable relay outputs, two independent inputs, and supports schedules, motor control, and association with other Z-Wave devices.
- Installation requires connecting power, load, and external switch wires per the provided diagrams and safely turning power back on at the circuit breaker.
- The HE-RS01 can be included in a Z-Wave network and each relay and external input is configurable for different control modes.
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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
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Partecipate alla presentazione per immergervi in una storia di interoperabilità, standard e formati aperti, per poi discutere del ruolo importante che i contributori hanno in una comunità open source sostenibile.
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In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
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CI/CD with in UiPath
End-to-end overview of CI/CD pipeline with Azure devops
Speaker:
Lyndsey Byblow, Test Suite Sales Engineer @ UiPath, Inc.
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1. In-Wall Electrical Installation Instructions: • Adding/Including/Pairing the Micro Smart Energy
Illuminator into a Z-Wave Network
IMPORTANT: A licensed electrician with knowledge and
understanding of electrical systems and electrical safety 1. Press the button labeled “Include” on the Aeon Labs
should complete the electrical installation inside the main Minimote to begin the Z-Wave inclusion process.
circuit box (usually located outside of your house).
IMPORTANT: The electricity to the circuit must be shut off
Aeon Labs Micro Smart Energy Illuminator
during installation for safety and to ensure that wires are
(In-Wall Z-Wave Dimmer Module w/ Energy Monitor) not shortcircuited during insallation which will cause
damage to the Micro Module. Note: To include the Aeon Labs Micro Smart Energy
Illuminator with other controllers, please consult the
The Aeon Labs Micro Smart Energy Illuminator must first be operation manual for these controllers on how to
powered by a 3-wire system in order to operate. The wiring include Z-Wave products into an existing network.
diagram is as follows: For instructions on select partner gateways, visit
www.aeon-labs.com/support.
Note: To include the Aeon Labs Micro Smart Energy
Illuminator with other controllers, please consult the 2. While the Micro Smart Energy Illuminator is powered
operation manual for these controllers on how to in a 3-wire system, press the button located near the
include Z-Wave products into an existing network. Status Indication LED. Or alternatively, the external
Introduction:
For instructions on select partner gateways, visit switch/button control can be pressed 6 times in quick
www.aeon-labs.com/support. succession.
The Aeon Labs Micro Smart Energy Illuminator is a low-cost
Z-Wave dimmer module specifically used to enable Z-Wave
command and control (on/off/dim) for existing in-wall 2. While the Micro Smart Energy Illuminator is powered Troubleshooting: If the Aeon Labs Micro Smart Energy
switches. It can also report immediate wattage in a 3-wire system, press the button located near the Illuminator was removed from the Z-Wave network, the
consumption or kWh energy usage over a period of time. Status Indication LED. Or alternatively, the external
Status Indication LED will be blinking. If the Aeon Labs
switch/button control can be pressed 6 times in quick
succession. Smart Energy Illuminator was not successfully removed
The wireless module is powered from the mains supply and
is a three-wire design which requires a neutral connection. from the Z-Wave network, the Status Indication LED will
In the event of power failure, non-volatile memory retains Troubleshooting: If the Aeon Labs Micro Smart Energy either be solid on or off (depending on if the switch is on or
all programmed information relating to the units operating Illuminator was not successfully included into any Z-Wave
off) 10 seconds after the button was last pressed.
status. network, the LED will be blinking slowly continually. If the
Aeon Labs Micro Smart Energy Illuminator was successfully
It also is a repeater in the Z-Wave network. Acting as a included to a Z-Wave network, the Status Indication LED will • Turning On/Off/Dim the Micro Smart Energy
bridge for communication, it will forward Z-Wave command either be solid on or off (depending on if the switch is on or Illuminator
messages to their destinations if the originating controller is off) 10 seconds after the button was last pressed.
out of range from the destination node. Use any of the below methods to turn on/off or dim the
Z-Wave Network Instructions:
power through the Micro Smart Energy Illuminator.
By taking advantage of the Z-Wave mesh network, • Removing/Resetting the Micro Smart Energy
The Aeon Labs Micro Smart Energy Illuminator must be Illuminator from your Z-Wave Network
commands can be routed to their destination via o Pressing the button on the external (Wall)
paired (included) into a Z-Wave network before it can
intermediary “listening” Z-Wave products. Products that switch will be able to toggle power flow (on/off)
receive Z-Wave commands to turn on/off/dim and report 1. Press the button labeled “Remove” on the Aeon Labs
are Z-Wave certified can be used and communicate with through the Smart Energy Illuminator (2-state
its energy usage. The Smart Energy Illuminator can only Minimote Stick to begin the Z-Wave removal process.
other Z-Wave certified devices. flip/flop switch). If the mode of the micro
communicate to devices within it’s own Z-Wave network.
module is set to momentary push button,
Note: The LED on the Micro Smart Energy Illuminator will holding the push button will dim the lights and a
blink if it is currently not paired into a Z-Wave network. short press will toggle the lights between on/off.
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2. o Through the usage of Z-Wave commands built workmanship. The foregoing warranty is subject to the strict liability in tort) or by the negligent or willful acts or 2. This device must accept any interference received,
into Z-Wave certified controllers and gateways. proper installation, operation and maintenance of the omissions of Customer or its officers, employees, including interference that may cause undesired
(The specific Z-Wave commands supporting this Products in accordance with installation instructions and subcontractors or agents, and/or (ii) arising from or relating operation. This equipment has been tested and found
function are the Basic Command Class and the operating manual supplied to Customer. Warranty to any actual or alleged infringement or misappropriation of to comply with the limits for a Class B digital device,
Multilevel Switch Command Class.) Please claims must be made by Customer in writing within thirty any patent, trademark, mask work, copyright, trade secret pursuant to part 15 of the FCC Rules. These limits are
consult the operation manual for these (30) days of the manifestation of a problem. Aeon Labs' sole or any actual or alleged violation of any other intellectual designed to provide reasonable protection against
controllers for specific instructions on obligation under the foregoing warranty is, at Aeon Labs' property rights arising from or in connection with the harmful interference in a residential installation. This
controlling the Smart Energy Illuminator. option, to repair, replace or correct any such defect that products, except to the extent that such infringement exists equipment generates, uses and can radiate radio
was present at the time of delivery, or to remove the as a result of Aeon Labs‘ manufacturing processes. frequency energy and, if not installed and used in
o A short press on the button of the Smart Energy Products and to refund the purchase price to Customer. accordance with the instructions, may cause harmful
Illuminator will toggle the lights (on/off) while IN NO EVENT SHALL AEON LABS BE LIABLE FOR ANY interference to radio communications. However,
holding this button will dim the lights. The "Warranty Period" begins on the date the Products is INDIRECT, INCIDENTAL, PUNITIVE, SPECIAL OR there is no guarantee that interference will not occur
delivered and continues for 12 months. CONSEQUENTIAL DAMAGES, OR DAMAGES FOR LOSS OF in a particular installation. If this equipment does
PROFITS, REVENUE, OR USE INCURRED BY CUSTOMER OR cause harmful interference to radio or television
• Change Mode on the External Switch/Button Control Any repairs under this warranty must be conducted by an ANY THIRD PARTY, WHETHER IN AN ACTION IN CONTRACT, reception, which can be determined by turning the
authorized Aeon Labs service representative and under OR TORT, OR OTHERWISE EVEN IF ADVISED OF THE equipment off and on, the user is encouraged to try
The Aeon Labs Micro Smart Energy Illuminator by default is Aeon Labs’ RMA policy. Any repairs conducted by POSSIBILITY OF SUCH DAMAGES. AEON LABS’ LIABILITY to correct the interference by one or more of the
set to be controlled via 2-state (flip/flop) external wall unauthorized persons shall void this warranty. AND CUSTOMER’S EXCLUSIVE REMEDY FOR ANY CAUSE OF following measures:
switch. Pushing the button 6 times in quick succession on ACTION ARISING IN CONNECTION WITH THIS AGREEMENT
the Micro Smart Energy Illuminator will swap between this Excluded from the warranty are problems due to accidents, OR THE SALE OR USE OF THE PRODUCTS, WHETHER BASED • Reorient or relocate the receiving antenna.
default mode and the momentary push button external wall acts of God, civil or military authority, civil disturbance, war, ON NEGLIGENCE, STRICT LIABILITY, BREACH OF WARRANTY, • Increase the separation between the equipment
switch mode. strikes, fires, other catastrophes, misuse, misapplication, BREACH OF AGREEMENT, OR EQUITABLE PRINCIPLES, IS and receiver.
storage damage, negligence, electrical power problems, or EXPRESSLY LIMITED TO, AT AEON LABS’ OPTION, • Connect the equipment into an outlet on a circuit
modification to the Products or its components. REPLACEMENT OF, OR REPAYMENT OF THE PURCHASE different from that to which the receiver is
• Monitoring Energy Consumption
PRICE FOR THAT PORTION OF PRODUCTS WITH RESPECT TO connected.
Aeon Labs does not authorize any person or party to WHICH DAMAGES ARE CLAIMED. ALL CLAIMS OF ANY KIND • Consult the dealer or an experienced radio/TV
The Aeon Labs Micro Smart Energy Illuminator can report assume or create for it any other obligation or liability in ARISING IN CONNECTION WITH THIS AGREEMENT OR THE technician for help.
wattage energy usage or kWh energy usage to a Z-Wave connection with the Products except as set forth herein. SALE OR USE OF PRODUCTS SHALL BE DEEMED WAIVED
gateway or controller when requested. If this function is UNLESS MADE IN WRITING WITHIN THIRTY (30) DAYS Warning:
supported by the gateway/controller, the energy Aeon Labs will pass on to Customer all manufacturers’
FROM AEON LABS’S DELIVERY, OR THE DATE FIXED FOR
consumption will be displayed in the user interface of the Material warranties to the extent that they are transferable,
DELIVERY IN THE EVENT OF NONDELIVERY. Do not dispose of electrical appliances as unsorted
gateway/controller. (The specific Z-Wave commands but will not independently warrant any Material.
municipal waste, use separate collection facilities.
supporting energy monitoring are the Meter Command THE INDEMNITY AND WARRANTY IN ABOVE ARE EXCLUSIVE
Class and Multilevel Sensor Command Class.) Please Customer must prepay shipping and transportation charges
AND IN LIEU OF ALL OTHER INDEMNITIES OR WARRANTIES, Contact your local government for information regarding
consult the operation manual for these for returned Products, and insure the shipment or accept
WHETHER EXPRESS OR IMPLIED, INCLUDING THE IMPLIED the collection systems available.
gateways/controllers for specific instructions on monitoring the risk of loss or damage during such shipment and
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
the Smart Energy Illuminator. transportation. Aeon Labs will ship the repaired or
PARTICULAR PURPOSE.
replacement products to Customer freight prepaid.
Certifications (regional):
FCC NOTICE (for USA):
• Technical Specifications Customer shall indemnify, defend, and hold Aeon Labs and
Aeon Labs’ affiliates, shareholders, directors, officers, THE MANUFACTURER IS NOT RESPONSIBLE FOR ANY RADIO
o USA: 110V 60Hz input, 275W or 2.5A max output employees, contractors, agents and other representatives OR TV INTERFERENCE CAUSED BY UNAUTHORIZED
o EU/AU: 230V 50Hz input, 575W or 2.5A max output harmless from all demands, claims, actions, causes of action, MODIFICATIONS TO THIS EQUIPMENT. SUCH
proceedings, suits, assessments, losses, damages, liabilities, MODIFICATIONS COULD VOID THE USER’S AUTHORITY TO
Warranty settlements, judgments, fines, penalties, interest, costs and OPERATE THE EQUIPMENT.
expenses (including fees and disbursements of counsel) of Harmonizing the Smart Home.
Aeon Labs warrants to the original purchaser of Products every kind (i) based upon personal injury or death or injury This device complies with Part 15 of the FCC Rules.
that for the Warranty Period (as defined below), the to property to the extent any of the foregoing is Operation is subject to the following two conditions: www.aeon-labs.com
Products will be free from material defects in materials and proximately caused either by a defective product (including 1. This device may not cause harmful interference, and
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