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Signed-off-by: Kai Kreuzer <kai@openhab.org>
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Kai Kreuzer 2017-02-05 11:58:51 +01:00
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_data/actions.csv
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@ -20,5 +20,5 @@ oh1,tinkerforge,TinkerForge,"The TinkerForge Action service provides direct inte
oh1,twitter,Twitter,"Twitter can be used to 'tweet' notifications when certain events take place in openHAB."
oh1,weather,Weather,"The Weather Action service provides meteorological information to your scripts and rules."
oh1,xbmc,XBMC,"Sends notifications to the Kodi open source home theater software (formerly known as XBMC)."
oh1,xmpp,XMPP,"* `sendXMPP(String to, String message)`: Sends a message to an XMPP user"
oh1,xmpp,XMPP,"This set of actions allows you to send a message to an XMPP user or multi-user chat, or send a message with an attachment to an XMPP user."
oh1,xpl,xPL,"This add-on provides xPL message sending on the network."

1 source id label description
20 oh1 twitter Twitter Twitter can be used to 'tweet' notifications when certain events take place in openHAB.
21 oh1 weather Weather The Weather Action service provides meteorological information to your scripts and rules.
22 oh1 xbmc XBMC Sends notifications to the Kodi open source home theater software (formerly known as XBMC).
23 oh1 xmpp XMPP * `sendXMPP(String to, String message)`: Sends a message to an XMPP user This set of actions allows you to send a message to an XMPP user or multi-user chat, or send a message with an attachment to an XMPP user.
24 oh1 xpl xPL This add-on provides xPL message sending on the network.

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_data/bindings.csv
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@ -1,10 +1,10 @@
source,id,label,description
oh1,akm868,AKM868,"This binding is for users coming from the proprietary homeautomation-system 'IP-Symcon'. If you have bought some hardware from them, you can use this binding to enable your AKM868 presence detection system. The following hardware was used to do presence detection with the AKM-868 controller and a OVO868-tracker for your key-ring:"
oh1,alarmdecoder,Alarm Decoder,"The [Alarm Decoder](http://www.alarmdecoder.com) is a hardware adapter that interfaces with Ademco/Honeywell alarm panels. It acts"
oh1,akm868,AKM868,"This binding is for users coming from the proprietary homeautomation-system 'IP-Symcon'. If you have bought some hardware from them, you can use this binding to enable your AKM868 presence detection system."
oh1,alarmdecoder,Alarm Decoder,"The [Alarm Decoder](http://www.alarmdecoder.com) is a hardware adapter that interfaces with Ademco/Honeywell alarm panels. It acts essentially like a keypad, reading and writing messages on a serial bus that connects keypads with the main panel."
oh1,anel,Anel binding,"The Anel binding is for monitoring and controlling NET-PwrCtrl devices."
oh1,asterisk,Asterisk,"The Asterisk binding is used to enable communication between openhab and the free and open source PBX solution [Asterisk](http://www.asterisk.org). By help of this binding, you can e.g. detect incoming phone calls or determine if someone currently does a phone call. In combination with other bindings (e.g. the Samsung TV Binding) you can display caller IDs on your TV."
oh1,asterisk,Asterisk,"The Asterisk binding is used to enable communication between openhab and the free and open source PBX solution [Asterisk](http://www.asterisk.org). This binding detects incoming phone calls or if someone makes a phone call. In combination with other bindings (e.g., the Samsung TV Binding) you can display caller IDs on your TV."
oh1,astro,Astro,"The Astro binding is used for calculating many `DateTime` and positional values for sun and moon and for scheduling of events."
oh1,autelis,Autelis,"Autelis manufactures a network enabled pool interface for many popular pool systems. See [the Autelis website](http://www.autelis.com) and the [Autelis Command Protocol](http://www.autelis.com/wiki/index.php?title=Pool_Control_(PI)_HTTP_Command_Reference) for more information."
oh1,autelis,Autelis,"Autelis manufactures a network enabled pool interface for many popular pool systems. See the [Autelis website](http://www.autelis.com) and the [Autelis Command Protocol](http://www.autelis.com/wiki/index.php?title=Pool_Control_(PI)_HTTP_Command_Reference) for more information."
oh1,benqprojector,BenQ Projector,"This binding is designed to interface with BenQ projectors that have an RS232 interface on them that accepts the commands documented by BenQ [here](ftp://ftp.benq-eu.com/projector/benq_rs232_commands.pdf)."
oh1,bluetooth,Bluetooth,"The Bluetooth binding is used to connect openHAB with a Bluetooth device. With it, you can make openHAB react to Bluetooth devices that come in range of your network."
oh1,bticino,Bticino,"The openHAB Bticino binding allows openHAB to connect to Bticino My Home Automation installations by OpenWebNet protocol."
@ -13,7 +13,7 @@ oh1,caldav-personal,CalDAV Personal,"This binding can be used to connect through
oh1,comfoair,ComfoAir,"This binding should be compatible with the Zehnder ComfoAir 350 ventilation system. ComfoAir 550 is untested but should supposedly use the same protocol. The same is true for the device WHR930 of StorkAir, G90-380 by Wernig and Santos 370 DC to Paul."
oh1,configadmin,ConfigAdmin,"With this binding it is possible to dynamically change settings that are defined in the Configuration Admin Manager of OSGi, where all configuration data are kept for openHAB. The various `.cfg` files are as such used to define the initial configuration, while you can use this binding to change values during runtime, simply by sending a command to an item."
oh1,cups,CUPS,"The openHAB CUPS binding allows interaction with printers and their print queues via a CUPS server."
oh1,daikin,Daikin,"The openHAB Daikin binding allows monitoring and control of a Daikin air"
oh1,daikin,Daikin,"The Daikin binding allows monitoring and control of a Daikin air conditioner or heat pump, through either the KKRP01A wired module or the BRP072A42 wireless module."
oh1,davis,Davis,"The openHAB Davis binding supports reading data from Davis weather stations. Most Davis weather stations should be supported."
oh1,ddwrt,DD-WRT,"The openHAB DD-WRT Binding allows interaction with a DD-WRT device."
oh1,denon,Denon,"The openHAB Denon Binding allows interaction with Denon AV receivers. It should be compatible with previous generation receivers such as AVR-X2000/X3000, as well as current ones such as X2100W/X3100W."
@ -21,7 +21,7 @@ oh1,digitalstrom,digitalSTROM,"The openHAB digitalSTROM binding allows interacti
oh1,diyonxbee,DIYOnXBee,"The openHAB DIYOnXBee binding allows interaction with self built (DIY) hardware that communicate via XBee modules."
oh1,dmx,DMX,"The openHAB DMX binding can control DMX devices like RGB LED strips, dimmers"
oh1,dscalarm,DSC PowerSeries Alarm System,"This binding mintors and controls the DSC PowerSeries Alarm System, utilizing the EyezOn Envisalink 3/2DS interface or the DSC IT-100 RS-232 interface."
oh1,dsmr,DSMR,"The openHAB DSMR binding is targeted for Dutch users having a smart meter"
oh1,dsmr,DSMR,"The openHAB DSMR binding is targeted for Dutch users having a smart meter ('Slimme meter' in Dutch). Data of Dutch smart meters can be obtained via the P1-port. When connecting this port from a serial port the data can be read out."
oh1,ebus,eBUS,"The eBUS binding allows you to control your heating system. The eBUS protocol is used by heating system vendors like Wolf, Vaillant, Kromschröder etc. You can read temperatures, pump performance, gas consumption etc."
oh1,ecobee,Ecobee,"Ecobee Inc. of Toronto, Canada, sells a range of Wi-Fi enabled thermostats, principally in the Americas. The EMS, EMS Si, Smart, Smart Si and ecobee3 models are supported by this binding, which communicates with the [Ecobee API](https://www.ecobee.com/home/developer/api/documentation/v1/index.shtml) over a secure, RESTful API to Ecobee's servers. Monitoring ambient temperature and humidity, changing HVAC mode, changing heat or cool setpoints, changing the backlight intensity, and even sending textual messages to one or a group of thermostats, can be accomplished through this binding."
oh1,ecotouch,EcoTouch,"The openHAB EcoTouch binding allows interaction with a heat pump."
@ -36,22 +36,22 @@ oh1,fatekplc,Fatek PLC,"[Fatek PLC](http://fatek.com/en/prod.php?catId=1) is one
oh1,fht,FHT,"FHT is a range of devices produced by busware.de which allows to interact with various protocols and devices over radio frequencies. It's also possible to build one on your own."
oh1,freebox,Freebox,"This binding is intended for users of the French DSL operator Free, using Freebox Revolution (v6)."
oh1,freeswitch,FreeSWITCH,"The FreeSWITCH Binding connects to a FreeSWITCH instance and can report on current active calls as well as show unread voicemails and if a MWI is on."
oh1,fritzaha,Fritz AHA,"[![Fritz AHA](http://img.youtube.com/vi/qYrpPrLY868/0.jpg)](http://www.youtube.com/watch?v=qYrpPrLY868)"
oh1,fritzaha,Fritz AHA,"This binding provides access to AVM Home Automation devices, such as the Fritz!DECT 200 connected to a Fritz!Box or the Fritz!Powerline 546E. It is designed to allow for multiple hosts, for instance using both a Fritz!Box and a Fritz!Powerline."
oh1,fritzbox,Fritz!Box,"This binding can be configured in the `services/fritzbox.cfg` file."
oh1,fritzboxtr064,Fritzbox (using TR064 protocol),"This is a binding for communication with AVM Fritz!Box using SOAP requests (TR064 protocol). It has been tested on:"
oh1,fritzboxtr064,Fritzbox (using TR064 protocol),"This is a binding for communication with AVM Fritz!Box using SOAP requests (TR064 protocol)."
oh1,frontiersiliconradio,Frontier Silicon Radio,"This binding is for internet radios based on the [Frontier Silicon chipset](http://www.frontier-silicon.com/digital-radio-solutions)."
oh1,fs20,FS20,"This binding enables support of sending and receiving FS20 messages via the CUL transport. You will need CULLite or similiar device from busware.de. This device needs to be flashed with the latest culfw firmware from culfw.de."
oh1,garadget,Garadget,"The [Garadget](http://garadget.com) is cloud-based device that 'futurizes' your existing garage door opener, letting you open and close your garage door from anywhere, including via openHAB with this binding. Remote access is made possible with the [particle.io](https://www.particle.io/) REST API."
oh1,gc100ir,Global Cache IR (1.x),"This page describes the Global Cache IR binding (1.x), which allows openHAB items to send commands to the corresponding IR devices from one or more instances of Global Cache."
oh1,gpio,GPIO,"This binding for the local GPIO subsystem, currently only this exposed to user space by [Linux GPIO framework](https://www.kernel.org/doc/Documentation/gpio/sysfs.txt) is implemented. Being based on kernel implementation it's hardware agnostic and works on different boards without modification (this is on theory only, not all existing boards can be tested). The difference from other bindings dealing with GPIOs is that it works with GPIO subsystem on the board on which openHAB runs and doesn't require third-party programs/daemons running. The binding consists of two components: base module (org.openhab.io.gpio) which implements low-level GPIO access and provides API for high-level modules (can be used by other bindings needing to interact directly with GPIOs) and the binding itself (org.openhab.binding.gpio) which introduces hardware GPIO pins as full-featured openHAB items capable of generating events or receiving commands depending of their type (input or output)."
oh1,gc100ir,Global Cache IR,"This page describes the Global Cache IR binding (1.x), which allows openHAB items to send commands to the corresponding IR devices from one or more instances of Global Cache."
oh1,gpio,GPIO,"This binding is for the local GPIO subsystem. It is currently only exposed to user space by [Linux GPIO framework](https://www.kernel.org/doc/Documentation/gpio/sysfs.txt). Being based on a kernel implementation, it's hardware agnostic and works on different boards without modification (this is on theory only, not all existing boards can be tested)."
oh1,harmonyhub,Harmony Hub,"The Harmony Hub binding is used to enable communication between openHAB and one or more Logitech Harmony Hub devices. The API exposed by the Harmony Hub is relatively limited, but it does allow for reading the current activity as well as setting the activity and sending device commands."
oh1,hdanywhere,HDanywhere,"[HDanywhere](http://www.hdanywhere.co.uk) is a manufacturer of multiroom/distributed audio/video equipment. This binding supports their V3 of the Multiroom+ HDMI matrix running firmware V1.2(20131222). These matrices support the highest HD resolutions, including 1080p 3D & 4K, use a single Cat5e/6/7 wiring structure with reliable performance up to 100m, have IR passback to allow you to select and control what you watch from every room and are fully compatible with universal remote controls."
oh1,heatmiser,Heatmiser,"The Heatmiser binding allows you to control Heatmiser RS-422 network thermostats (also sold under other names). The binding communicates via TCP/IP to an RS-422 adaptor that links to the thermostats."
oh1,hms,HMS,"This binding enables support of receiving HMS messages via the CUL transport."
oh1,homematic,Homematic,"- RF and WIRED devices are supported"
oh1,homematic,Homematic,"This is the binding for the [eQ-3 Homematic Solution](http://www.eq-3.de/)."
oh1,horizon,Horizon mediabox,"This binding supports the horizon mediabox used by cable companies in the Netherlands and some other countries. The box is manufactured by Samsung and known as SMT-G7400 and SMT-G7401. This binding is tested with the SMT-G7401 but should also work with the SMT-G7400. The binding only works when your box is connected to your home network. When you are able to use the HorizonGo remote control app, you should also be able to use this binding."
oh1,http,HTTP,"If you want to have openHAB request a URL when commands are sent to items, or have it poll a given URL frequently and update items' states, install and configure this binding."
oh1,hue,Hue,"Click the image below for a YouTube video demonstrating setup, configuration and a simple custom scene controller (openHAB 1, but still relevant to usage on openHAB 2)."
oh1,hue,Hue,"This binding connects openHAB to your Philips Hue lighting system."
oh1,iec6205621meter,IEC 62056-21 Meter,"This binding is used to communicate to metering devices supporting serial communication according IEC 62056-21 mode C master. It can be used to read metering data from slaves such as gas, water, heat, or electricity meters."
oh1,ihc,IHC / ELKO,"This binding is for the 'Intelligent Home Control' building automation system originally made by LK, but now owned by Schneider Electric and sold as 'IHC Intelligent Home Control'. It is based on a star-configured topology with wires to each device. The system is made up of a central controller and up to 8 input modules and 16 output modules. Each input module can have 16 digital inputs and each output module 8 digital outputs, resulting in a total of 128 input and 128 outputs per controller."
oh1,insteonhub,Insteon Hub,"DO NOT USE THIS BINDING. The InsteonHub binding is outdated and no longer supported. Use the InsteonPLM binding instead."
@ -62,17 +62,17 @@ oh1,irtrans,IRTrans,"This binding communicates with the [IRTrans](http://www.irt
oh1,jointspace,jointSPACE,"The jointSPACE binding lets you control your Philips TV that is compatible with the [jointSPACE JSON API](http://jointspace.sourceforge.net/projectdata/documentation/jasonApi/index.html) over Ethernet."
oh1,k8055,Velleman k8055 USB IO Board,"This binding allows you to integrate a [Velleman k8055 USB IO Board](http://www.vellemanusa.com/products/view/?country=us&lang=enu&id=500349) with openHAB."
oh1,km200,KM200,"The KM200 Binding is communicating with a [Buderus Logamatic web KM200 / KM100 / KM50](https://www.buderus.de/de/produkte/catalogue/alle-produkte/7719_gateway-logamatic-web-km200-km100-km50). It is possible to receive and send parameters like string or float values."
oh1,knx,KNX (1.x),"The openHAB KNX binding allows one to connect to [KNX Home Automation](http://www.knx.org/) installations. Switching lights on and off, activating your roller shutters or changing room temperatures are only some examples."
oh1,knx,KNX,"The openHAB KNX binding allows one to connect to [KNX Home Automation](http://www.knx.org/) installations. Switching lights on and off, activating your roller shutters or changing room temperatures are only some examples."
oh1,koubachi,Koubachi,"The [Koubachi](http://www.koubachi.com) Services help everybody without a green thumb to be a perfect gardener. All plants can be registered on their really nice website (or through iPhone/iPad App) to tell you when and how to care for your plants. Furthermore they offer a dedicated hardware, the WIFI Plant Sensor. This wireless device measures vital parameters and determines the vitality of your plants."
oh1,lcn,LCN,"![](http://3.bp.blogspot.com/-d5mm3HC7uic/VpO2ctrfWNI/AAAAAAAAJOI/a37JMGhC4IY/s600/openhab_lcn.jpg)"
oh1,lgtv,LG TV,"* Every LG TV Model with Netcast 3.0 and Netcast 4.0 (Model years 2012 & 2013)"
oh1,lcn,LCN,"This binding connects to one or more LCN-PCHK instances via TCP/IP. **This means 1 unused LCN-PCHK license is required!**"
oh1,lgtv,LG TV,"This binding supports LG TV models with Netcast 3.0 and Netcast 4.0 (Model years 2012 & 2013), and with LG TVs which support the UDAP 2.0 protocol over Ethernet. See ['UDAP Specifications (For Second Screen TV and Companion Apps)'](http://developer.lgappstv.com/TV_HELP/topic/lge.tvsdk.references.book/html/UDAP/UDAP/UDAP%20Specifications%20For%20Second%20Screen%20TV%20and%20Companion%20Apps.htm)."
oh1,lightwaverf,LightwaveRF,"This binding supports the LightwaveRF products using the LightwaveRF Wifi Link that is available as part of that range."
oh1,mailcontrol,MailControl,"This binding provides possibility to receive commands sent via email in JSON format."
oh1,maxcube,MAX!Cube,"The MAX!Cube binding allows openHAB to connect to [(ELV) MAX!Cube Lan Gateway](http://www.elv.de/max-cube-lan-gateway.html) installations. The binding allows openHAB to communicate with the MAX! devices through the MAX!Cube Lan Gateway."
oh1,maxcul,MAX!CUL,"The aim of this binding is to allow the connection from openHAB to MAX! devices (wall thermostat/radiator valves) using the [CUL USB dongle](http://busware.de/tiki-index.php?page=CUL) rather than the MAX!Cube. This should allow greater control over the devices than the cube offers as all interaction is handled manually."
oh1,mcp23017,MCP23017,"This binding provides native access for MCP23017 16 bit bidirectional I/O expander on I2C bus. Please consider datasheet for IC for future information."
oh1,mcp3424,MCP3424,"This binding provides native access for MCP3424 18-bit delta sigma ADC on I2C bus. Please consider datasheet for IC for future information. The binding should work with MCP3422 and MCP3423 also, but was not tested due to lack of hardware."
oh1,milight,Milight (1.x),"[![openHAB Milight](http://img.youtube.com/vi/zNe9AkQbfmc/0.jpg)](http://www.youtube.com/watch?v=zNe9AkQbfmc)"
oh1,milight,Milight,"The Milight binding allows openHAB to send commands to multiple Milight bridges."
oh1,mios,MiOS Bridge,"This binding exposes read, and read-command, access to Devices controlled by a MiOS Home Automation controller, such as those seen at http://getvera.com."
oh1,mochadx10,Mochad X10,"This binding makes it possible to control X10 devices via a server running the [Mochad X10 daemon by mmauka](http://sourceforge.net/projects/mochad/). Mochad is a Linux TCP gateway daemon for the X10 CM15A RF (radio frequency) and PL (power line) controller and the CM19A RF controller."
oh1,modbus,Modbus,"The binding supports both TCP and Serial slaves. RTU, ASCII and BIN variants of Serial Modbus are supported."
@ -113,11 +113,11 @@ oh1,pulseaudio,Pulseaudio,"This binding allows openHAB to monitor and control pu
oh1,rfxcom,RFXCOM,"The binding should be compatible at least with RFXtrx433 USB 433.92MHz transceiver, which contains both receiver and transmitter functions. The RFXtrx433E is fully compatible with the RFXtrx433, and has in addition the possibility to transmit RFY (Somfy RTS) RF command at the frequency used by Somfy."
oh1,rpircswitch,Raspberry Pi RC Switch,"This binding enables the management of remote controlled (RC) switches via a 433-MHz transmitter connected to a Raspberry Pi. It can be used with a 433-MHz transmitter connected to a Raspberry Pi as described in [this assembly instruction](https://www.raspberrypi.org/forums/viewtopic.php?f=37&t=66946)."
oh1,rwesmarthome,RWE SmartHome,"This binding allows openHAB to be integrated [RWE SmartHome](https://www.rwe-smarthome.de/) software previous to version 2.0. It uses an unofficial interface, which is limited in some cases, as explained below. As the interface has some delay and polling is needed to receive all changes from the RWE SmartHome Central (SHC), it may take one or two seconds until a device finally responds. However, this is tolerable in most cases as time critical rules can be done in the RWE Smarthome Central itself."
oh1,sagercaster,Sager Weathercaster,"The Sager Weathercaster is a scientific instrument for accurate prediction of the weather."
oh1,sallegra,Sallegra,"The Sallegra binding supports the following devices:"
oh1,sagercaster,Sager Weathercaster,"The Sager Weathercaster is a scientific instrument for accurate prediction of the weather. **This binding is currently incompatible with openHAB 2.**"
oh1,sallegra,Sallegra,"The Sallegra binding supports the Sallegra Dimmer DA-ET-4, Sallegra Relay R-ET-4 and Sallegra Input ADI-ET-8/8."
oh1,samsungac,Samsung Air Conditioner,"This binding should be compatible with Samsung Smart Air Conditioner models."
oh1,samsungtv,Samsung TV,"This binding should be compatible with Samsung TV models which support Apple and Android remote applications."
oh1,sapp,Sapp,"The default OpenHAB code formatter has been modified in this binding just in the 'maximum line width' parameter, allowing longer lines then the standard OpenHAB."
oh1,sapp,Picnet Sapp,"The openHAB Sapp binding connects to [Picnet](http://www.sinthesi.com) Home Automation installations. The binding supports multi master configuration as well."
oh1,satel,Satel Integra Alarm System,"The Satel Integra Alarm System allows openHAB to connect to your alarm system via TCP/IP network with ETHM-1 module installed, or via RS-232 serial port with INT-RS module installed."
oh1,serial,Serial,"The Serial binding allows openHAB to communicate in ASCII over serial ports attached to the openHAB server."
oh1,smarthomatic,Smarthomatic,"The [Smarthomatic](https://www.smarthomatic.org) binding will connect a network of Smarthomatic devices to your openHAB server."
@ -125,18 +125,18 @@ oh1,snmp,SNMP,"The SNMP binding allows SNMP GET (polling) and SNMP SET (commandi
oh1,sonance,Sonance,"This binding integrates with [Sonance DSP Amplifiers](http://www.sonance.com/electronics/amplifiers/dsp). It supports all three models (DSP 2-150, DSP 8-130 and DSP 2-750) but for now it's only tested with the DSP 8-130. For each group you can enable or disable sound (toggle mute) or set the volume."
oh1,sonos,Sonos,"**Note:** The Sonos binding communicates with the Sonos devices through the UPnP (Universal Plug And Play) protocol. Users of this binding might wish to familiarise them with the protocol and slang. UPnP defines a subscription model whereby a UPnP client can subscribe to UPnP Events that are transmitted by a UPnP device. Sonos Players do emit quite a bit of Events and some are used to capture status variables (see below)."
oh1,souliss,Souliss,"[Souliss](http://www.souliss.net/) is a networking framework for Arduino and compatibles boards, and is designed to let you easily build a smart home that is distributed over multiple boards via Ethernet, wireless point-to-point and RS485 bus."
oh1,squeezebox,Squeezebox,"From the [Wikipedia entry](http://en.wikipedia.org/wiki/Squeezebox_%28network_music_player%29):"
oh1,squeezebox,Squeezebox,"This binding integrates the [Logitech Media Server](http://www.mysqueezebox.com) and compatible Squeeze players."
oh1,stiebelheatpump,Stiebel Eltron LWZ,"This binding is used to communicate Stiebel Eltron LWZ heat pumps via a serial interface. The binding is inspired by the work of [Monitoring a Stiebel Eltron LWZ](http://robert.penz.name/heat-pump-lwz) which is hosted at [Heatpumpmonitor](https://launchpad.net/heatpumpmonitor) and is written in Python."
oh1,swegonventilation,Swegon Ventilation,"This binding is used to get live data from Swegon ventilation systems into items in openHAB. It should be compatible with at least Swegon CASA models."
oh1,systeminfo,System Information,"The System Information binding provides operating system monitoring data, including:"
oh1,systeminfo,System Information,"The System Information binding provides operating system monitoring data, including system memory, swap, CPU, load average, uptime, per-process memory, per-process CPU, file system metrics and network interface metrics."
oh1,tacmi,TACmi,"This binding makes use of the CAN over Ethernet feature of the CMI from Technische Alternative. Since I only have the new UVR16x2, it has only been tested with this controller."
oh1,tcp,TCP & UDPs,"The TCP and UDP bindings provide basic support for simple ASCII-based protocols. They send and receive data as ASCII strings. Data sent out is by default padded with a CR/LF. This should be sufficient for many home automation devices that take simple ASCII-based control commands, or that send back text-based status messages."
oh1,tcp,TCP & UDP,"The TCP and UDP bindings provide basic support for simple ASCII-based protocols. They send and receive data as ASCII strings. Data sent out is by default padded with a CR/LF. This should be sufficient for many home automation devices that take simple ASCII-based control commands, or that send back text-based status messages."
oh1,tellstick,Tellstick,"This binding is tested against Tellstick DUO, it should also work with a basic Tellstick. It supports RF 433 Mhz protocols like: Nexa, HomeEasy, X10, CoCo (KlikAanKlikUit), Oregon e.o."
oh1,tinkerforge,TinkerForge,"- [Introduction](#introduction)"
oh1,tinkerforge,TinkerForge,"[TinkerForge](http://www.tinkerforge.com) is a system of open source hardware building blocks that allows you to combine sensor and actuator blocks by plug and play. You can create your individual hardware system by choosing the necessary building blocks for your project and combine it with other home automation products."
oh1,tivo,TiVo,"This binding works with older TiVo units which support the v1.0 protocol. TiVo units that implement the [newer v1.1 API](http://www.tivo.com/assets/images/abouttivo/resources/downloads/brochures/TiVo_TCP_Network_Remote_Control_Protocol.pdf) will encounter some incompatibility. If you find that button commands (`pause, play, record`) work, but `nowshowing` does not work, you likely have a Tivo that implements the v1.1 protocol."
oh1,ucprelayboard,UCProjects.eu Relay Board,"This binding provides support for relay board available from [ucprojects.eu](http://ucprojects.eu) (site in Polish)"
oh1,upb,UPB,"The UPB binding is used to enable communication between openHAB and UPB devices. This binding requires the use of a UPB PIM or power-line modem. This binding has only been tested against simple automated devices."
oh1,urtsi,Somfy URTSI II (1.x),"This binding communicates with Somfy URTSI II devices over a serial connection."
oh1,urtsi,Somfy URTSI II,"This binding communicates with Somfy URTSI II devices over a serial connection."
oh1,vdr,Video Disk Recorder (VDR),"The Video Disk Recorder (VDR) binding allows openHAB to control your own digital satellite receiver and [Video Disk Recorder](http://www.tvdr.de)."
oh1,wago,WAGO,"The WAGO Binding provides an interface to Ethernet-enabled Modbus-Controllers from WAGO."
oh1,weather,Weather,"The Weather binding collects current and forecast weather data from different providers with a free weather API. You can also display weather data with highly customizable html layouts and icons."
@ -144,7 +144,7 @@ oh1,wemo,Wemo,"This binding integrates the [Belkin WeMo Family](http://www.belki
oh1,withings,Withings,"The Withings binding allows openHAB to synchronize data from the official Withings API to items. The following body measure types are supported: diastolic blood pressure, fat free mass, fat mass weight, fat ratio, heart pulse, height, systolic blood pressure, weight."
oh1,wol,Wake-on-LAN,"For Windows computers not in a domain, the firewall must be configured properly (allow remote shutdowns) and the DWORD-Regkey `LocalAccountTokenFilterPolicy` in `HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion\Policies\System` must be set to 1."
oh1,xbmc,XBMC binding (for KODI) (1.x),"This binding allows openHAB items to receive realtime updates about information like player state and running media from one or more instances of KODI (formerly known as XBMC)."
oh1,xpl,xPL,"The xPL Bundle provides two packages :"
oh1,xpl,xPL,"The xPL binding grabs xPL message values in items and sends xPL commands."
oh1,yamahareceiver,Yamaha Receiver (1.x),"This binding connects openHAB with various Yamaha Receivers."
oh1,zibase,Zibase,"Zibase is a French home automation box that supports multiple RF protocols including 433 Mhz (Chacon, Visionic, Oregon...), ZWave, EnOcean, X2D."
oh1,zwave,Z-Wave,"The openHAB Z-Wave binding allows you to connect to your Z-Wave wireless mesh network. A Z-Wave network typically consists of one primary controller “stick”, zero or more additional controllers and zero or more Z-Wave enabled devices, e.g. dimmers, switches, sensors etc."
@ -158,9 +158,10 @@ oh2,wemo,Belkin Wemo,"This binding integrates the [Belkin WeMo Family](http://ww
oh2,yahooweather,YahooWeather,"This binding uses the [Yahoo Weather service](https://developer.yahoo.com/weather/) for providing current weather information."
oh2,allplay,AllPlay,"This binding integrates devices compatible with [Qualcomm AllPlay](https://www.qualcomm.com/products/allplay)."
oh2,amazondashbutton,Amazon Dash Button,"The Amazon Dash Button is a very cheap device in order to integrate it in your home automation setup."
oh2,astro,Astro,"The Astro binding is used for calculating many DateTime and positional values for sun and moon."
oh2,astro,Astro,"The Astro binding is used for calculating"
oh2,autelis,Autelis Pool Control,"Autelis manufactures a network enabled pool interface for many popular pool systems. See [the Autelis website](http://www.autelis.com) and the [Autelis Command Protocol](http://www.autelis.com/wiki/index.php?title=Pool_Control_(PI)_HTTP_Command_Reference) for more information."
oh2,avmfritz,AVM FRITZ!,"The binding integrates the AHA ( [AVM Home Automation](http://avm.de/ratgeber/smart-home/) ) system."
oh2,boschindego,Bosch Indego,"This is the Binding for Bosch Indego Connect lawn mowers."
oh2,chromecast,Chromecast,"The binding integrates Google Chromecast streaming devices."
oh2,coolmasternet,CoolMasterNet,"The CoolMasterNet binding is used to control [CoolMasterNet HVAC bridge devices](https://coolautomation.com/products/coolmasternet/), using the 'ASCII I/F' plaintext TCP control protocol."
oh2,dscalarm,DSC Alarm,"This is an OpenHAB binding for a DSC PowerSeries Alarm System utilizing the EyezOn Envisalink 3/2DS interface or the DSC IT-100 RS-232 interface."
@ -202,6 +203,7 @@ oh2,tesla,Tesla,"This binding integrates the [Tesla Electrical Vehicle](http://w
oh2,toon,Toon,"The Toon bindings shows among others current room temperature, setpoint, energy and gas usage information."
oh2,urtsi,Somfy URTSI II,"The addressable Universal RTS Interface II (URTSI II) can be used to communicate between home automation or other third party systems and SOMFYs RTS Motors and controls. It is capable of individual or group control, and can be operated via infrared remote, RS232 and RS485 serial communication. Once an input is activated, an RTS radio command is sent to the automated window treatment."
oh2,vitotronic,Vitotronic,"Viessmann heating systems with Vitotronic has a optolink Interface for maintenance."
oh2,wifiled,WiFi LED,"This binding is used to control LED stripes connected by WiFi. These devices are sold with different names, i.e. Magic Home LED, UFO LED, LED NET controller, etc."
oh2,yamahareceiver,Yamahareceiver,"This binding connects openHAB with Yamaha Receivers of product line CX-A5000, RX-A30xx, RX-A20xx, RX-A10xx, RX-Vxxx, RX-Z7, DSP-Z7, RX-S600, HTR-xxxx."
oh2,zwave,ZWave,"The ZWave binding supports an interface to a wireless Z-Wave home automation network."
oh2,zway,Z-Way,"Z-Way is a software to configure and control a Z-Wave network. The software comes with a full stack from Z-Wave transceiver with certified firmware to a REST API on high level."

1 source id label description
2 oh1 akm868 AKM868 This binding is for users coming from the proprietary homeautomation-system 'IP-Symcon'. If you have bought some hardware from them, you can use this binding to enable your AKM868 presence detection system. The following hardware was used to do presence detection with the AKM-868 controller and a OVO868-tracker for your key-ring: This binding is for users coming from the proprietary homeautomation-system 'IP-Symcon'. If you have bought some hardware from them, you can use this binding to enable your AKM868 presence detection system.
3 oh1 alarmdecoder Alarm Decoder The [Alarm Decoder](http://www.alarmdecoder.com) is a hardware adapter that interfaces with Ademco/Honeywell alarm panels. It acts The [Alarm Decoder](http://www.alarmdecoder.com) is a hardware adapter that interfaces with Ademco/Honeywell alarm panels. It acts essentially like a keypad, reading and writing messages on a serial bus that connects keypads with the main panel.
4 oh1 anel Anel binding The Anel binding is for monitoring and controlling NET-PwrCtrl devices.
5 oh1 asterisk Asterisk The Asterisk binding is used to enable communication between openhab and the free and open source PBX solution [Asterisk](http://www.asterisk.org). By help of this binding, you can e.g. detect incoming phone calls or determine if someone currently does a phone call. In combination with other bindings (e.g. the Samsung TV Binding) you can display caller IDs on your TV. The Asterisk binding is used to enable communication between openhab and the free and open source PBX solution [Asterisk](http://www.asterisk.org). This binding detects incoming phone calls or if someone makes a phone call. In combination with other bindings (e.g., the Samsung TV Binding) you can display caller IDs on your TV.
6 oh1 astro Astro The Astro binding is used for calculating many `DateTime` and positional values for sun and moon and for scheduling of events.
7 oh1 autelis Autelis Autelis manufactures a network enabled pool interface for many popular pool systems. See [the Autelis website](http://www.autelis.com) and the [Autelis Command Protocol](http://www.autelis.com/wiki/index.php?title=Pool_Control_(PI)_HTTP_Command_Reference) for more information. Autelis manufactures a network enabled pool interface for many popular pool systems. See the [Autelis website](http://www.autelis.com) and the [Autelis Command Protocol](http://www.autelis.com/wiki/index.php?title=Pool_Control_(PI)_HTTP_Command_Reference) for more information.
8 oh1 benqprojector BenQ Projector This binding is designed to interface with BenQ projectors that have an RS232 interface on them that accepts the commands documented by BenQ [here](ftp://ftp.benq-eu.com/projector/benq_rs232_commands.pdf).
9 oh1 bluetooth Bluetooth The Bluetooth binding is used to connect openHAB with a Bluetooth device. With it, you can make openHAB react to Bluetooth devices that come in range of your network.
10 oh1 bticino Bticino The openHAB Bticino binding allows openHAB to connect to Bticino My Home Automation installations by OpenWebNet protocol.
13 oh1 comfoair ComfoAir This binding should be compatible with the Zehnder ComfoAir 350 ventilation system. ComfoAir 550 is untested but should supposedly use the same protocol. The same is true for the device WHR930 of StorkAir, G90-380 by Wernig and Santos 370 DC to Paul.
14 oh1 configadmin ConfigAdmin With this binding it is possible to dynamically change settings that are defined in the Configuration Admin Manager of OSGi, where all configuration data are kept for openHAB. The various `.cfg` files are as such used to define the initial configuration, while you can use this binding to change values during runtime, simply by sending a command to an item.
15 oh1 cups CUPS The openHAB CUPS binding allows interaction with printers and their print queues via a CUPS server.
16 oh1 daikin Daikin The openHAB Daikin binding allows monitoring and control of a Daikin air The Daikin binding allows monitoring and control of a Daikin air conditioner or heat pump, through either the KKRP01A wired module or the BRP072A42 wireless module.
17 oh1 davis Davis The openHAB Davis binding supports reading data from Davis weather stations. Most Davis weather stations should be supported.
18 oh1 ddwrt DD-WRT The openHAB DD-WRT Binding allows interaction with a DD-WRT device.
19 oh1 denon Denon The openHAB Denon Binding allows interaction with Denon AV receivers. It should be compatible with previous generation receivers such as AVR-X2000/X3000, as well as current ones such as X2100W/X3100W.
21 oh1 diyonxbee DIYOnXBee The openHAB DIYOnXBee binding allows interaction with self built (DIY) hardware that communicate via XBee modules.
22 oh1 dmx DMX The openHAB DMX binding can control DMX devices like RGB LED strips, dimmers
23 oh1 dscalarm DSC PowerSeries Alarm System This binding mintors and controls the DSC PowerSeries Alarm System, utilizing the EyezOn Envisalink 3/2DS interface or the DSC IT-100 RS-232 interface.
24 oh1 dsmr DSMR The openHAB DSMR binding is targeted for Dutch users having a smart meter The openHAB DSMR binding is targeted for Dutch users having a smart meter ('Slimme meter' in Dutch). Data of Dutch smart meters can be obtained via the P1-port. When connecting this port from a serial port the data can be read out.
25 oh1 ebus eBUS The eBUS binding allows you to control your heating system. The eBUS protocol is used by heating system vendors like Wolf, Vaillant, Kromschröder etc. You can read temperatures, pump performance, gas consumption etc.
26 oh1 ecobee Ecobee Ecobee Inc. of Toronto, Canada, sells a range of Wi-Fi enabled thermostats, principally in the Americas. The EMS, EMS Si, Smart, Smart Si and ecobee3 models are supported by this binding, which communicates with the [Ecobee API](https://www.ecobee.com/home/developer/api/documentation/v1/index.shtml) over a secure, RESTful API to Ecobee's servers. Monitoring ambient temperature and humidity, changing HVAC mode, changing heat or cool setpoints, changing the backlight intensity, and even sending textual messages to one or a group of thermostats, can be accomplished through this binding.
27 oh1 ecotouch EcoTouch The openHAB EcoTouch binding allows interaction with a heat pump.
36 oh1 fht FHT FHT is a range of devices produced by busware.de which allows to interact with various protocols and devices over radio frequencies. It's also possible to build one on your own.
37 oh1 freebox Freebox This binding is intended for users of the French DSL operator Free, using Freebox Revolution (v6).
38 oh1 freeswitch FreeSWITCH The FreeSWITCH Binding connects to a FreeSWITCH instance and can report on current active calls as well as show unread voicemails and if a MWI is on.
39 oh1 fritzaha Fritz AHA [![Fritz AHA](http://img.youtube.com/vi/qYrpPrLY868/0.jpg)](http://www.youtube.com/watch?v=qYrpPrLY868) This binding provides access to AVM Home Automation devices, such as the Fritz!DECT 200 connected to a Fritz!Box or the Fritz!Powerline 546E. It is designed to allow for multiple hosts, for instance using both a Fritz!Box and a Fritz!Powerline.
40 oh1 fritzbox Fritz!Box This binding can be configured in the `services/fritzbox.cfg` file.
41 oh1 fritzboxtr064 Fritzbox (using TR064 protocol) This is a binding for communication with AVM Fritz!Box using SOAP requests (TR064 protocol). It has been tested on: This is a binding for communication with AVM Fritz!Box using SOAP requests (TR064 protocol).
42 oh1 frontiersiliconradio Frontier Silicon Radio This binding is for internet radios based on the [Frontier Silicon chipset](http://www.frontier-silicon.com/digital-radio-solutions).
43 oh1 fs20 FS20 This binding enables support of sending and receiving FS20 messages via the CUL transport. You will need CULLite or similiar device from busware.de. This device needs to be flashed with the latest culfw firmware from culfw.de.
44 oh1 garadget Garadget The [Garadget](http://garadget.com) is cloud-based device that 'futurizes' your existing garage door opener, letting you open and close your garage door from anywhere, including via openHAB with this binding. Remote access is made possible with the [particle.io](https://www.particle.io/) REST API.
45 oh1 gc100ir Global Cache IR (1.x) Global Cache IR This page describes the Global Cache IR binding (1.x), which allows openHAB items to send commands to the corresponding IR devices from one or more instances of Global Cache.
46 oh1 gpio GPIO This binding for the local GPIO subsystem, currently only this exposed to user space by [Linux GPIO framework](https://www.kernel.org/doc/Documentation/gpio/sysfs.txt) is implemented. Being based on kernel implementation it's hardware agnostic and works on different boards without modification (this is on theory only, not all existing boards can be tested). The difference from other bindings dealing with GPIOs is that it works with GPIO subsystem on the board on which openHAB runs and doesn't require third-party programs/daemons running. The binding consists of two components: base module (org.openhab.io.gpio) which implements low-level GPIO access and provides API for high-level modules (can be used by other bindings needing to interact directly with GPIOs) and the binding itself (org.openhab.binding.gpio) which introduces hardware GPIO pins as full-featured openHAB items capable of generating events or receiving commands depending of their type (input or output). This binding is for the local GPIO subsystem. It is currently only exposed to user space by [Linux GPIO framework](https://www.kernel.org/doc/Documentation/gpio/sysfs.txt). Being based on a kernel implementation, it's hardware agnostic and works on different boards without modification (this is on theory only, not all existing boards can be tested).
47 oh1 harmonyhub Harmony Hub The Harmony Hub binding is used to enable communication between openHAB and one or more Logitech Harmony Hub devices. The API exposed by the Harmony Hub is relatively limited, but it does allow for reading the current activity as well as setting the activity and sending device commands.
48 oh1 hdanywhere HDanywhere [HDanywhere](http://www.hdanywhere.co.uk) is a manufacturer of multiroom/distributed audio/video equipment. This binding supports their V3 of the Multiroom+ HDMI matrix running firmware V1.2(20131222). These matrices support the highest HD resolutions, including 1080p 3D & 4K, use a single Cat5e/6/7 wiring structure with reliable performance up to 100m, have IR passback to allow you to select and control what you watch from every room and are fully compatible with universal remote controls.
49 oh1 heatmiser Heatmiser The Heatmiser binding allows you to control Heatmiser RS-422 network thermostats (also sold under other names). The binding communicates via TCP/IP to an RS-422 adaptor that links to the thermostats.
50 oh1 hms HMS This binding enables support of receiving HMS messages via the CUL transport.
51 oh1 homematic Homematic - RF and WIRED devices are supported This is the binding for the [eQ-3 Homematic Solution](http://www.eq-3.de/).
52 oh1 horizon Horizon mediabox This binding supports the horizon mediabox used by cable companies in the Netherlands and some other countries. The box is manufactured by Samsung and known as SMT-G7400 and SMT-G7401. This binding is tested with the SMT-G7401 but should also work with the SMT-G7400. The binding only works when your box is connected to your home network. When you are able to use the HorizonGo remote control app, you should also be able to use this binding.
53 oh1 http HTTP If you want to have openHAB request a URL when commands are sent to items, or have it poll a given URL frequently and update items' states, install and configure this binding.
54 oh1 hue Hue Click the image below for a YouTube video demonstrating setup, configuration and a simple custom scene controller (openHAB 1, but still relevant to usage on openHAB 2). This binding connects openHAB to your Philips Hue lighting system.
55 oh1 iec6205621meter IEC 62056-21 Meter This binding is used to communicate to metering devices supporting serial communication according IEC 62056-21 mode C master. It can be used to read metering data from slaves such as gas, water, heat, or electricity meters.
56 oh1 ihc IHC / ELKO This binding is for the 'Intelligent Home Control' building automation system originally made by LK, but now owned by Schneider Electric and sold as 'IHC Intelligent Home Control'. It is based on a star-configured topology with wires to each device. The system is made up of a central controller and up to 8 input modules and 16 output modules. Each input module can have 16 digital inputs and each output module 8 digital outputs, resulting in a total of 128 input and 128 outputs per controller.
57 oh1 insteonhub Insteon Hub DO NOT USE THIS BINDING. The InsteonHub binding is outdated and no longer supported. Use the InsteonPLM binding instead.
62 oh1 jointspace jointSPACE The jointSPACE binding lets you control your Philips TV that is compatible with the [jointSPACE JSON API](http://jointspace.sourceforge.net/projectdata/documentation/jasonApi/index.html) over Ethernet.
63 oh1 k8055 Velleman k8055 USB IO Board This binding allows you to integrate a [Velleman k8055 USB IO Board](http://www.vellemanusa.com/products/view/?country=us&lang=enu&id=500349) with openHAB.
64 oh1 km200 KM200 The KM200 Binding is communicating with a [Buderus Logamatic web KM200 / KM100 / KM50](https://www.buderus.de/de/produkte/catalogue/alle-produkte/7719_gateway-logamatic-web-km200-km100-km50). It is possible to receive and send parameters like string or float values.
65 oh1 knx KNX (1.x) KNX The openHAB KNX binding allows one to connect to [KNX Home Automation](http://www.knx.org/) installations. Switching lights on and off, activating your roller shutters or changing room temperatures are only some examples.
66 oh1 koubachi Koubachi The [Koubachi](http://www.koubachi.com) Services help everybody without a green thumb to be a perfect gardener. All plants can be registered on their really nice website (or through iPhone/iPad App) to tell you when and how to care for your plants. Furthermore they offer a dedicated hardware, the WIFI Plant Sensor. This wireless device measures vital parameters and determines the vitality of your plants.
67 oh1 lcn LCN ![](http://3.bp.blogspot.com/-d5mm3HC7uic/VpO2ctrfWNI/AAAAAAAAJOI/a37JMGhC4IY/s600/openhab_lcn.jpg) This binding connects to one or more LCN-PCHK instances via TCP/IP. **This means 1 unused LCN-PCHK license is required!**
68 oh1 lgtv LG TV * Every LG TV Model with Netcast 3.0 and Netcast 4.0 (Model years 2012 & 2013) This binding supports LG TV models with Netcast 3.0 and Netcast 4.0 (Model years 2012 & 2013), and with LG TVs which support the UDAP 2.0 protocol over Ethernet. See ['UDAP Specifications (For Second Screen TV and Companion Apps)'](http://developer.lgappstv.com/TV_HELP/topic/lge.tvsdk.references.book/html/UDAP/UDAP/UDAP%20Specifications%20For%20Second%20Screen%20TV%20and%20Companion%20Apps.htm).
69 oh1 lightwaverf LightwaveRF This binding supports the LightwaveRF products using the LightwaveRF Wifi Link that is available as part of that range.
70 oh1 mailcontrol MailControl This binding provides possibility to receive commands sent via email in JSON format.
71 oh1 maxcube MAX!Cube The MAX!Cube binding allows openHAB to connect to [(ELV) MAX!Cube Lan Gateway](http://www.elv.de/max-cube-lan-gateway.html) installations. The binding allows openHAB to communicate with the MAX! devices through the MAX!Cube Lan Gateway.
72 oh1 maxcul MAX!CUL The aim of this binding is to allow the connection from openHAB to MAX! devices (wall thermostat/radiator valves) using the [CUL USB dongle](http://busware.de/tiki-index.php?page=CUL) rather than the MAX!Cube. This should allow greater control over the devices than the cube offers as all interaction is handled manually.
73 oh1 mcp23017 MCP23017 This binding provides native access for MCP23017 16 bit bidirectional I/O expander on I2C bus. Please consider datasheet for IC for future information.
74 oh1 mcp3424 MCP3424 This binding provides native access for MCP3424 18-bit delta sigma ADC on I2C bus. Please consider datasheet for IC for future information. The binding should work with MCP3422 and MCP3423 also, but was not tested due to lack of hardware.
75 oh1 milight Milight (1.x) Milight [![openHAB Milight](http://img.youtube.com/vi/zNe9AkQbfmc/0.jpg)](http://www.youtube.com/watch?v=zNe9AkQbfmc) The Milight binding allows openHAB to send commands to multiple Milight bridges.
76 oh1 mios MiOS Bridge This binding exposes read, and read-command, access to Devices controlled by a MiOS Home Automation controller, such as those seen at http://getvera.com.
77 oh1 mochadx10 Mochad X10 This binding makes it possible to control X10 devices via a server running the [Mochad X10 daemon by mmauka](http://sourceforge.net/projects/mochad/). Mochad is a Linux TCP gateway daemon for the X10 CM15A RF (radio frequency) and PL (power line) controller and the CM19A RF controller.
78 oh1 modbus Modbus The binding supports both TCP and Serial slaves. RTU, ASCII and BIN variants of Serial Modbus are supported.
113 oh1 rfxcom RFXCOM The binding should be compatible at least with RFXtrx433 USB 433.92MHz transceiver, which contains both receiver and transmitter functions. The RFXtrx433E is fully compatible with the RFXtrx433, and has in addition the possibility to transmit RFY (Somfy RTS) RF command at the frequency used by Somfy.
114 oh1 rpircswitch Raspberry Pi RC Switch This binding enables the management of remote controlled (RC) switches via a 433-MHz transmitter connected to a Raspberry Pi. It can be used with a 433-MHz transmitter connected to a Raspberry Pi as described in [this assembly instruction](https://www.raspberrypi.org/forums/viewtopic.php?f=37&t=66946).
115 oh1 rwesmarthome RWE SmartHome This binding allows openHAB to be integrated [RWE SmartHome](https://www.rwe-smarthome.de/) software previous to version 2.0. It uses an unofficial interface, which is limited in some cases, as explained below. As the interface has some delay and polling is needed to receive all changes from the RWE SmartHome Central (SHC), it may take one or two seconds until a device finally responds. However, this is tolerable in most cases as time critical rules can be done in the RWE Smarthome Central itself.
116 oh1 sagercaster Sager Weathercaster The Sager Weathercaster is a scientific instrument for accurate prediction of the weather. The Sager Weathercaster is a scientific instrument for accurate prediction of the weather. **This binding is currently incompatible with openHAB 2.**
117 oh1 sallegra Sallegra The Sallegra binding supports the following devices: The Sallegra binding supports the Sallegra Dimmer DA-ET-4, Sallegra Relay R-ET-4 and Sallegra Input ADI-ET-8/8.
118 oh1 samsungac Samsung Air Conditioner This binding should be compatible with Samsung Smart Air Conditioner models.
119 oh1 samsungtv Samsung TV This binding should be compatible with Samsung TV models which support Apple and Android remote applications.
120 oh1 sapp Sapp Picnet Sapp The default OpenHAB code formatter has been modified in this binding just in the 'maximum line width' parameter, allowing longer lines then the standard OpenHAB. The openHAB Sapp binding connects to [Picnet](http://www.sinthesi.com) Home Automation installations. The binding supports multi master configuration as well.
121 oh1 satel Satel Integra Alarm System The Satel Integra Alarm System allows openHAB to connect to your alarm system via TCP/IP network with ETHM-1 module installed, or via RS-232 serial port with INT-RS module installed.
122 oh1 serial Serial The Serial binding allows openHAB to communicate in ASCII over serial ports attached to the openHAB server.
123 oh1 smarthomatic Smarthomatic The [Smarthomatic](https://www.smarthomatic.org) binding will connect a network of Smarthomatic devices to your openHAB server.
125 oh1 sonance Sonance This binding integrates with [Sonance DSP Amplifiers](http://www.sonance.com/electronics/amplifiers/dsp). It supports all three models (DSP 2-150, DSP 8-130 and DSP 2-750) but for now it's only tested with the DSP 8-130. For each group you can enable or disable sound (toggle mute) or set the volume.
126 oh1 sonos Sonos **Note:** The Sonos binding communicates with the Sonos devices through the UPnP (Universal Plug And Play) protocol. Users of this binding might wish to familiarise them with the protocol and slang. UPnP defines a subscription model whereby a UPnP client can subscribe to UPnP Events that are transmitted by a UPnP device. Sonos Players do emit quite a bit of Events and some are used to capture status variables (see below).
127 oh1 souliss Souliss [Souliss](http://www.souliss.net/) is a networking framework for Arduino and compatibles boards, and is designed to let you easily build a smart home that is distributed over multiple boards via Ethernet, wireless point-to-point and RS485 bus.
128 oh1 squeezebox Squeezebox From the [Wikipedia entry](http://en.wikipedia.org/wiki/Squeezebox_%28network_music_player%29): This binding integrates the [Logitech Media Server](http://www.mysqueezebox.com) and compatible Squeeze players.
129 oh1 stiebelheatpump Stiebel Eltron LWZ This binding is used to communicate Stiebel Eltron LWZ heat pumps via a serial interface. The binding is inspired by the work of [Monitoring a Stiebel Eltron LWZ](http://robert.penz.name/heat-pump-lwz) which is hosted at [Heatpumpmonitor](https://launchpad.net/heatpumpmonitor) and is written in Python.
130 oh1 swegonventilation Swegon Ventilation This binding is used to get live data from Swegon ventilation systems into items in openHAB. It should be compatible with at least Swegon CASA models.
131 oh1 systeminfo System Information The System Information binding provides operating system monitoring data, including: The System Information binding provides operating system monitoring data, including system memory, swap, CPU, load average, uptime, per-process memory, per-process CPU, file system metrics and network interface metrics.
132 oh1 tacmi TACmi This binding makes use of the CAN over Ethernet feature of the CMI from Technische Alternative. Since I only have the new UVR16x2, it has only been tested with this controller.
133 oh1 tcp TCP & UDPs TCP & UDP The TCP and UDP bindings provide basic support for simple ASCII-based protocols. They send and receive data as ASCII strings. Data sent out is by default padded with a CR/LF. This should be sufficient for many home automation devices that take simple ASCII-based control commands, or that send back text-based status messages.
134 oh1 tellstick Tellstick This binding is tested against Tellstick DUO, it should also work with a basic Tellstick. It supports RF 433 Mhz protocols like: Nexa, HomeEasy, X10, CoCo (KlikAanKlikUit), Oregon e.o.
135 oh1 tinkerforge TinkerForge - [Introduction](#introduction) [TinkerForge](http://www.tinkerforge.com) is a system of open source hardware building blocks that allows you to combine sensor and actuator blocks by plug and play. You can create your individual hardware system by choosing the necessary building blocks for your project and combine it with other home automation products.
136 oh1 tivo TiVo This binding works with older TiVo units which support the v1.0 protocol. TiVo units that implement the [newer v1.1 API](http://www.tivo.com/assets/images/abouttivo/resources/downloads/brochures/TiVo_TCP_Network_Remote_Control_Protocol.pdf) will encounter some incompatibility. If you find that button commands (`pause, play, record`) work, but `nowshowing` does not work, you likely have a Tivo that implements the v1.1 protocol.
137 oh1 ucprelayboard UCProjects.eu Relay Board This binding provides support for relay board available from [ucprojects.eu](http://ucprojects.eu) (site in Polish)
138 oh1 upb UPB The UPB binding is used to enable communication between openHAB and UPB devices. This binding requires the use of a UPB PIM or power-line modem. This binding has only been tested against simple automated devices.
139 oh1 urtsi Somfy URTSI II (1.x) Somfy URTSI II This binding communicates with Somfy URTSI II devices over a serial connection.
140 oh1 vdr Video Disk Recorder (VDR) The Video Disk Recorder (VDR) binding allows openHAB to control your own digital satellite receiver and [Video Disk Recorder](http://www.tvdr.de).
141 oh1 wago WAGO The WAGO Binding provides an interface to Ethernet-enabled Modbus-Controllers from WAGO.
142 oh1 weather Weather The Weather binding collects current and forecast weather data from different providers with a free weather API. You can also display weather data with highly customizable html layouts and icons.
144 oh1 withings Withings The Withings binding allows openHAB to synchronize data from the official Withings API to items. The following body measure types are supported: diastolic blood pressure, fat free mass, fat mass weight, fat ratio, heart pulse, height, systolic blood pressure, weight.
145 oh1 wol Wake-on-LAN For Windows computers not in a domain, the firewall must be configured properly (allow remote shutdowns) and the DWORD-Regkey `LocalAccountTokenFilterPolicy` in `HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion\Policies\System` must be set to 1.
146 oh1 xbmc XBMC binding (for KODI) (1.x) This binding allows openHAB items to receive realtime updates about information like player state and running media from one or more instances of KODI (formerly known as XBMC).
147 oh1 xpl xPL The xPL Bundle provides two packages : The xPL binding grabs xPL message values in items and sends xPL commands.
148 oh1 yamahareceiver Yamaha Receiver (1.x) This binding connects openHAB with various Yamaha Receivers.
149 oh1 zibase Zibase Zibase is a French home automation box that supports multiple RF protocols including 433 Mhz (Chacon, Visionic, Oregon...), ZWave, EnOcean, X2D.
150 oh1 zwave Z-Wave The openHAB Z-Wave binding allows you to connect to your Z-Wave wireless mesh network. A Z-Wave network typically consists of one primary controller “stick”, zero or more additional controllers and zero or more Z-Wave enabled devices, e.g. dimmers, switches, sensors etc.
158 oh2 yahooweather YahooWeather This binding uses the [Yahoo Weather service](https://developer.yahoo.com/weather/) for providing current weather information.
159 oh2 allplay AllPlay This binding integrates devices compatible with [Qualcomm AllPlay](https://www.qualcomm.com/products/allplay).
160 oh2 amazondashbutton Amazon Dash Button The Amazon Dash Button is a very cheap device in order to integrate it in your home automation setup.
161 oh2 astro Astro The Astro binding is used for calculating many DateTime and positional values for sun and moon. The Astro binding is used for calculating
162 oh2 autelis Autelis Pool Control Autelis manufactures a network enabled pool interface for many popular pool systems. See [the Autelis website](http://www.autelis.com) and the [Autelis Command Protocol](http://www.autelis.com/wiki/index.php?title=Pool_Control_(PI)_HTTP_Command_Reference) for more information.
163 oh2 avmfritz AVM FRITZ! The binding integrates the AHA ( [AVM Home Automation](http://avm.de/ratgeber/smart-home/) ) system.
164 oh2 boschindego Bosch Indego This is the Binding for Bosch Indego Connect lawn mowers.
165 oh2 chromecast Chromecast The binding integrates Google Chromecast streaming devices.
166 oh2 coolmasternet CoolMasterNet The CoolMasterNet binding is used to control [CoolMasterNet HVAC bridge devices](https://coolautomation.com/products/coolmasternet/), using the 'ASCII I/F' plaintext TCP control protocol.
167 oh2 dscalarm DSC Alarm This is an OpenHAB binding for a DSC PowerSeries Alarm System utilizing the EyezOn Envisalink 3/2DS interface or the DSC IT-100 RS-232 interface.
203 oh2 toon Toon The Toon bindings shows among others current room temperature, setpoint, energy and gas usage information.
204 oh2 urtsi Somfy URTSI II The addressable Universal RTS Interface II (URTSI II) can be used to communicate between home automation or other third party systems and SOMFY’s RTS Motors and controls. It is capable of individual or group control, and can be operated via infrared remote, RS232 and RS485 serial communication. Once an input is activated, an RTS radio command is sent to the automated window treatment.
205 oh2 vitotronic Vitotronic Viessmann heating systems with Vitotronic has a optolink Interface for maintenance.
206 oh2 wifiled WiFi LED This binding is used to control LED stripes connected by WiFi. These devices are sold with different names, i.e. Magic Home LED, UFO LED, LED NET controller, etc.
207 oh2 yamahareceiver Yamahareceiver This binding connects openHAB with Yamaha Receivers of product line CX-A5000, RX-A30xx, RX-A20xx, RX-A10xx, RX-Vxxx, RX-Z7, DSP-Z7, RX-S600, HTR-xxxx.
208 oh2 zwave ZWave The ZWave binding supports an interface to a wireless Z-Wave home automation network.
209 oh2 zway Z-Way Z-Way is a software to configure and control a Z-Wave network. The software comes with a full stack from Z-Wave transceiver with certified firmware to a REST API on high level.

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@ -7,7 +7,7 @@ oh1,exec,Exec,"This service allows you to execute commands in the underlying OS
oh1,influxdb,InfluxDB (0.9 and newer),"This service allows you to persist and query states using the [InfluxDB](http://influxdb.org) time series database. The persisted values can be queried from within openHAB. There also are nice tools on the web for visualizing InfluxDB time series, such as [Grafana](http://grafana.org/)."
oh1,influxdb08,InfluxDB (up to 0.8.x),"This service allows you to persist and query states using the [InfluxDB](http://influxdb.org) time series database. The persisted values can be queried from within openHAB. There also are nice tools on the web for visualizing InfluxDB time series, such as [Grafana](http://grafana.org/)."
oh1,jdbc,JDBC,"This service writes and reads item states to and from a number of relational database systems that support [Java Database Connectivity (JDBC)](https://en.wikipedia.org/wiki/Java_Database_Connectivity). This service allows you to persist state updates using one of several different underlying database services. It is designed for a maximum of scalability, to store very large amounts of data and still over the years not lose its speed."
oh1,jpa,Java API (JPA),"This service allows you to persist state updates using a SQL or NoSQL database through the [Java Persistence API](https://en.wikipedia.org/wiki/Java_Persistence_API). The service uses an abstraction layer that theoretically allows it to support many available SQL or NoSQL databases."
oh1,jpa,Java Persistence API (JPA),"This service allows you to persist state updates using a SQL or NoSQL database through the [Java Persistence API](https://en.wikipedia.org/wiki/Java_Persistence_API). The service uses an abstraction layer that theoretically allows it to support many available SQL or NoSQL databases."
oh1,mapdb,mapdb,"The [mapdb](http://www.mapdb.org/) Persistence Service is based on simple key-value store that only saves the last value. The intention is to use this for `restoreOnStartup` items because all other persistence options have their drawbacks if values are only needed for reload. They:"
oh1,mongodb,MongoDB,"This service allows you to persist state updates using the MongoDB database. It supports writing information to a MongoDB document store, as well as querying from it."
oh1,mqtt,MQTT,"This service allows you to feed item states to an MQTT broker using the openHAB persistence strategies. The destination broker, topic and messages are configurable."

1 source id label description
7 oh1 influxdb InfluxDB (0.9 and newer) This service allows you to persist and query states using the [InfluxDB](http://influxdb.org) time series database. The persisted values can be queried from within openHAB. There also are nice tools on the web for visualizing InfluxDB time series, such as [Grafana](http://grafana.org/).
8 oh1 influxdb08 InfluxDB (up to 0.8.x) This service allows you to persist and query states using the [InfluxDB](http://influxdb.org) time series database. The persisted values can be queried from within openHAB. There also are nice tools on the web for visualizing InfluxDB time series, such as [Grafana](http://grafana.org/).
9 oh1 jdbc JDBC This service writes and reads item states to and from a number of relational database systems that support [Java Database Connectivity (JDBC)](https://en.wikipedia.org/wiki/Java_Database_Connectivity). This service allows you to persist state updates using one of several different underlying database services. It is designed for a maximum of scalability, to store very large amounts of data and still over the years not lose its speed.
10 oh1 jpa Java API (JPA) Java Persistence API (JPA) This service allows you to persist state updates using a SQL or NoSQL database through the [Java Persistence API](https://en.wikipedia.org/wiki/Java_Persistence_API). The service uses an abstraction layer that theoretically allows it to support many available SQL or NoSQL databases.
11 oh1 mapdb mapdb The [mapdb](http://www.mapdb.org/) Persistence Service is based on simple key-value store that only saves the last value. The intention is to use this for `restoreOnStartup` items because all other persistence options have their drawbacks if values are only needed for reload. They:
12 oh1 mongodb MongoDB This service allows you to persist state updates using the MongoDB database. It supports writing information to a MongoDB document store, as well as querying from it.
13 oh1 mqtt MQTT This service allows you to feed item states to an MQTT broker using the openHAB persistence strategies. The destination broker, topic and messages are configurable.

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---
layout: documentation
title: Astro - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: DSC Alarm - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Ecobee - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Logitech Harmony Hub - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Homematic - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Mail - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: MiOS - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: MQTT - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: NotifyMyAndroid - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: OpenWebIf - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Pebble - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Prowl - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Pushover - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Pushsafer - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Satel - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Squeezebox - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Telegram - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: TinkerForge - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Twitter - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Weather - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: XBMC - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,11 +1,16 @@
---
layout: documentation
title: XMPP - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# XMPP Actions
This set of actions allows you to send a message to an XMPP user or multi-user chat, or send a message with an attachment to an XMPP user.
## Actions
* `sendXMPP(String to, String message)`: Sends a message to an XMPP user
@ -33,9 +38,7 @@ The XMPP Action service can be configured in `services/xmpp.cfg`.
Note: openHAB does not resolve SRV entries like other XMPP clients do, you have to setup the server details manually. Generally, if `joe@example.org` is your XMPP user ID and `xmpp.example.net` points to the server running the service, set `servername` to the actual server `xmpp.example.net`, the user name `username` to `joe` and `proxy` to the domain name part of your user ID `example.org`.
### Configuration Example: Google
## Example: Google
```
servername=talk.google.com

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---
layout: documentation
title: xPL - Actions
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: AKM868 - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# AKM868 Binding
This binding is for users coming from the proprietary homeautomation-system "IP-Symcon". If you have bought some hardware from them, you can use this binding to enable your AKM868 presence detection system. The following hardware was used to do presence detection with the AKM-868 controller and a OVO868-tracker for your key-ring:
This binding is for users coming from the proprietary homeautomation-system "IP-Symcon". If you have bought some hardware from them, you can use this binding to enable your AKM868 presence detection system.
The following hardware was used to do presence detection with the AKM-868 controller and a OVO868-tracker for your key-ring:
![AKM-Module](https://raw.githubusercontent.com/openhab/openhab1-addons/master/bundles/binding/org.openhab.binding.akm868/src/main/resources/AKM868.png)
![LAN-T Module](https://raw.githubusercontent.com/openhab/openhab1-addons/master/bundles/binding/org.openhab.binding.akm868/src/main/resources/LAN-T868.png)

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---
layout: documentation
title: Alarm Decoder - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Alarm Decoder Binding
The [Alarm Decoder](http://www.alarmdecoder.com) is a hardware adapter that interfaces with Ademco/Honeywell alarm panels. It acts
essentially like a keypad, reading and writing messages on a serial bus that connects keypads with the main panel.
The [Alarm Decoder](http://www.alarmdecoder.com) is a hardware adapter that interfaces with Ademco/Honeywell alarm panels. It acts essentially like a keypad, reading and writing messages on a serial bus that connects keypads with the main panel.
There are several versions of the adapter available:

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---
layout: documentation
title: Anel binding - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Asterisk - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Asterisk Binding
The Asterisk binding is used to enable communication between openhab and the free and open source PBX solution [Asterisk](http://www.asterisk.org). By help of this binding, you can e.g. detect incoming phone calls or determine if someone currently does a phone call. In combination with other bindings (e.g. the Samsung TV Binding) you can display caller IDs on your TV.
The Asterisk binding is used to enable communication between openhab and the free and open source PBX solution [Asterisk](http://www.asterisk.org). This binding detects incoming phone calls or if someone makes a phone call. In combination with other bindings (e.g., the Samsung TV Binding) you can display caller IDs on your TV.
## Binding Configuration

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---
layout: documentation
title: Astro - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -8,7 +11,7 @@ layout: documentation
The Astro binding is used for calculating many `DateTime` and positional values for sun and moon and for scheduling of events.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/astro/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/astro/readme.html).
### Binding Configuration

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---
layout: documentation
title: Autelis - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Autelis Binding
Autelis manufactures a network enabled pool interface for many popular pool systems. See [the Autelis website](http://www.autelis.com) and the [Autelis Command Protocol](http://www.autelis.com/wiki/index.php?title=Pool_Control_(PI)_HTTP_Command_Reference) for more information.
Autelis manufactures a network enabled pool interface for many popular pool systems. See the [Autelis website](http://www.autelis.com) and the [Autelis Command Protocol](http://www.autelis.com/wiki/index.php?title=Pool_Control_(PI)_HTTP_Command_Reference) for more information.
The binding is fairly complete and supports the following functionality.
* Read circuit, auxiliary, temperature, pump, chemistry and system values
* Control circuit, auxiliary lighting scenes, and temperature set points
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/autelis/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/autelis/readme.html).
## Binding Configuration

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---
layout: documentation
title: BenQ Projector - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Bluetooth - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Bticino - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: CalDAV Command - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: CalDAV Personal - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: ComfoAir - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: ConfigAdmin - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: CUPS - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -8,7 +11,7 @@ layout: documentation
The openHAB CUPS binding allows interaction with printers and their print queues via a CUPS server.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/ipp/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/ipp/readme.html).
## Prerequisites

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@ -1,14 +1,15 @@
---
layout: documentation
title: Daikin - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Daikin Binding
The openHAB Daikin binding allows monitoring and control of a Daikin air
conditioner/heat pump.
The Daikin binding allows monitoring and control of a Daikin air conditioner or heat pump, through either the KKRP01A wired module or the BRP072A42 wireless module.
## Prerequisites
@ -35,7 +36,7 @@ Multiple KKRP01A units can be configured by giving each a unique name.
| Property | Default | Required | Description |
|--------------------|---------|:--------:|----------------------------------------------|
| `<name>`.host | | Yes | `<name>` is a unique name for the Daikin unit, also used in item bindings.<br/> The value of this setting must be formatted as `<which>`@`<address>`.<br/> `<which>` refers to the Daikin Remote Control Device, and must be either WIRELESS or WIRED.<br/> `<address>` is the IP address or hostname of the Daikin unit. |
| `<name>`.host | | Yes | `<name>` is a unique name for the Daikin unit, also used in item bindings.<br/> The value of this setting must be formatted as `<which>`@`<address>`.<br/> `<which>` refers to the Daikin Remote Control Device, and must be either WIRELESS or WIRED.<br/> `<address>` is the IP address or hostname of the Daikin unit. |
| refresh | 60000 | No | The refresh interval (in milliseconds) |

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---
layout: documentation
title: Davis - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: DD-WRT - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: Denon - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: digitalSTROM - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -18,7 +21,7 @@ The openHAB digitalSTROM binding allows interaction with digitalSTROM devices.
<!-- /MarkdownTOC -->
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/digitalstrom/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/digitalstrom/readme.html).
## Prerequisites

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---
layout: documentation
title: DIYOnXBee - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: DMX - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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---
layout: documentation
title: DSC PowerSeries Alarm System - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -16,7 +19,7 @@ The openHAB DSC Alarm binding provides connectivity to the DSC Alarm panel via a
Additionally there is a DSC Alarm action bundle that can be installed along with the DSC Alarm binding. The action provides the ability to send DSC Alarm commands directly to the DSC Alarm system using rules.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/dscalarm/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/dscalarm/readme.html).
## Binding Configuration

14
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@ -1,21 +1,19 @@
---
layout: documentation
title: DSMR - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# DSMR Binding
The openHAB DSMR binding is targeted for Dutch users having a smart meter
('Slimme meter' in Dutch). Data of Dutch smart meters can be obtained via the
P1-port. When connecting this port from a serial port the data can be read out.
The openHAB DSMR binding is targeted for Dutch users having a smart meter ('Slimme meter' in Dutch). Data of Dutch smart meters can be obtained via the P1-port. When connecting this port from a serial port the data can be read out.
This binding reads the P1-port of the Dutch Smart Meters that comply to
NTA8130, DSMR v2.1, DSMR v2.2, DSMR v3.0, DSMR v4.0 or DSMR v4.04.
Users not living in the Netherlands that want to read a meter should review the
[IEC-62056-21 Meter Binding](https://github.com/openhab/openhab/wiki/IEC-62056---21-Meter-Binding).
This binding reads the P1-port of the Dutch Smart Meters that comply to NTA8130, DSMR v2.1, DSMR v2.2, DSMR v3.0, DSMR v4.0 or DSMR v4.04.
Users not living in the Netherlands that want to read a meter should review the [IEC-62056-21 Meter Binding](https://github.com/openhab/openhab/wiki/IEC-62056---21-Meter-Binding).
## Binding Configuration

3
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@ -1,6 +1,9 @@
---
layout: documentation
title: eBUS - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

637
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@ -1,6 +1,9 @@
---
layout: documentation
title: Ecobee - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -8,6 +11,29 @@ layout: documentation
Ecobee Inc. of Toronto, Canada, sells a range of Wi-Fi enabled thermostats, principally in the Americas. The EMS, EMS Si, Smart, Smart Si and ecobee3 models are supported by this binding, which communicates with the [Ecobee API](https://www.ecobee.com/home/developer/api/documentation/v1/index.shtml) over a secure, RESTful API to Ecobee's servers. Monitoring ambient temperature and humidity, changing HVAC mode, changing heat or cool setpoints, changing the backlight intensity, and even sending textual messages to one or a group of thermostats, can be accomplished through this binding.
## Table of Contents
<!-- MarkdownTOC depth=2 -->
- [Prerequisites](#prerequisites)
- [Binding Configuration](#binding-configuration)
- [Example ecobee.cfg](#example-ecobeecfg)
- [Multiple Connections](#multiple-connections)
- [Item Configuration](#item-configuration)
- [ecobee3 Remote Sensors](#ecobee3-remote-sensors)
- [Authorization](#authorization)
- [Troubleshooting Authorization](#troubleshooting-authorization)
- [Example Item Configurations](#example-item-configurations)
- [Examples](#examples)
- [Item Examples](#item-examples)
- [Basic configuration](#basic-configuration)
- [Tracking last occupancy](#tracking-last-occupancy)
- [MAP Transformations](#map-transformations)
- [Notes](#notes)
<!-- /MarkdownTOC -->
## Prerequisites
In order to use this binding, you must have already registered your thermostat(s) with Ecobee, registered a new app as a [developer](https://www.ecobee.com/developers/), and then login to your [web portal](https://www.ecobee.com/).
@ -27,7 +53,7 @@ This binding can be configured in the file `services/ecobee.cfg`.
| timeout | 20000 | No | Time in milliseconds to allow an API request to complete |
| tempscale | F | No | temperature scale to use when sending or receiving temperatures. Can be `C` or `F` |
### Example
### Example ecobee.cfg
```
# the private API key issued be Ecobee to use the API (required, replace with your own)
@ -80,10 +106,7 @@ The first character is then followed by a section between square brackets (`[` a
Where `<thermostat>` is a decimal thermostat identifier for in (`<`), out (`>`) and bidirectional (`=`) bindings.
> *Where can I find my thermostat identifier?*
> A thermostat identifier is a long, decimal number. For ecobee3 users, one way to find the number is to login to your Ecobee portal and read the URL you were taken to in the browser's address bar:
>```
https://www.ecobee.com/consumerportal/index.html#/thermostats/318973256526
```
> A thermostat identifier is a long, decimal number. For ecobee3 users, one way to find the number is to login to your Ecobee portal and read the URL you were taken to in the browser's address bar: `https://www.ecobee.com/consumerportal/index.html#/thermostats/318973256526`
> The final component of the URL is your thermostat identifier.
> For non-ecobee3 users who are using the older web portal, you can go to the Home IQ&trade; tab and choose Download Data from the Report chart. The thermostat identifier can be found in the report.
@ -91,7 +114,7 @@ For out (`>`) bindings only, `<thermostat>` can instead be selection criteria th
In the case of out bindings for EMS or Utility accounts, the `<thermostat>` criteria can be a path to a management set (for example, `/Toronto/Campus/BuildingA`). Please note that management set path elements that contain the `.` or `#` characters cannot be specified.
The `<thermostat>` specification can be optionally prepended with a specific "user ID" as specified in openhab.cfg, as in `condo.123456789` when you have specified `ecobee:condo.scope` and `ecobee:condo.appkey` properties in openhab.cfg.
The `<thermostat>` specification can be optionally prepended with a specific "user ID" as specified in the binding configuration, as in `condo.123456789` when you have specified `condo.scope` and `condo.appkey` binding configuration properties.
`<property>` is one of a long list of thermostat properties than you can read and optionally change. See the list below, and peruse this binding's JavaDoc for all specifics as to their meanings.
@ -102,12 +125,14 @@ runtime.actualTemperature | X | | DecimalType
runtime.actualHumidity | X | | DecimalType
settings.hvacMode | X | X | StringType
Please see a complete list [below](#examples).
### ecobee3 Remote Sensors
If you have an ecobee3 thermostat with remote, wireless temperature/occupancy sensors, the binding can read their values. Format:
```
... { ecobee="<[<thermostat_id>#remoteSensors(<sensor_name>).capability(<capability>).value]" }
ecobee="<[<thermostat_id>#remoteSensors(<sensor_name>).capability(<capability>).value]"
```
Supply the long, decimal thermostat ID as in other in-binding configurations. The binding configuration string uses the simple name you gave the remote sensor for `<sensor_name>`. The characters `(`,`)`,`[`,`]`, and `.` are not permitted in sensor names when used with the binding.
@ -117,16 +142,16 @@ The ecobee3 sensors are known to report temperature or occupancy, and so you wou
> Note that `occupancy` is computed (by Ecobee, not the binding) to mean presence within the last 30 minutes, not current occupancy.
```
Number KitchenTemp "Kitchen temperature [%.1f °F]" { ecobee="<[123456789#remoteSensors(Kitchen).capability(temperature).value]" }
Number KitchenTemp "Kitchen temperature [%.1f °F]" { ecobee="<[123456789#remoteSensors(Kitchen).capability(temperature).value]" }
Number BasementTemp "Basement temperature [%.1f °F]" { ecobee="<[123456789#remoteSensors(Basement).capability(temperature).value]" }
Switch BedroomOccu "Bedroom occupancy [%s]" { ecobee="<[123456789#remoteSensors(Bedroom).capability(occupancy).value]" }
Switch BedroomOccu "Bedroom occupancy [%s]" { ecobee="<[123456789#remoteSensors(Bedroom).capability(occupancy).value]" }
```
See the Example Binding Strings section below for more examples.
## Authorization
After you have installed the binding JAR in your `addons` directory, configured your `openhab.cfg` file, added items to your .items file and started OpenHAB (if not previously started), when the binding performs its first poll, it will discover that is has not yet been authorized by the Ecobee servers, and will retrieve a four-character PIN from the Ecobee server. This PIN will appear prominently in your `openhab.log` file (See [Logging](#Logging) for setup):
After you have installed and configured the binding, added items to your `.items file` and started openHAB (if not previously started), when the binding performs its first poll, it will discover that is has not yet been authorized by the Ecobee servers, and will retrieve a four-character PIN from the Ecobee server. This PIN will appear prominently in your `openhab.log` file:
#########################################################################################
# Ecobee-Integration: U S E R I N T E R A C T I O N R E Q U I R E D !!
@ -138,7 +163,11 @@ After you have installed the binding JAR in your `addons` directory, configured
When it does, enter it into your Apps settings in your account at ecobee.com. This will authorize your instance of the binding to work with your Ecobee account. On the next poll of the API, it will retrieve access and refresh tokens and continue.
### Troubleshooting Authorization
If you happen to miss the window the ecobee.com website will still accept the PIN but OpenHAB will be unable to get authorization. If this happens the following may help:
Setting the binding's logger `org.openhab.binding.ecobee` to DEBUG or TRACE level will help you diagnose any issues.
If you happen to miss the time window to register your PIN, the ecobee.com website will still accept the PIN but openHAB will be unable to get authorization. If this happens the following may help:
* Stop the openHAB server
* Delete the Java Preferences storage where the tokens are kept.
* On Linux, this is done by deleting the specific obfuscated directory name under ~/.java/.userPrefs. If you only have one garbled directory name there, you can just rm -rf ~/.java/.userPrefs (so as to not delete something else's storage).
@ -149,333 +178,266 @@ If you happen to miss the window the ecobee.com website will still accept the PI
## Example Item Configurations
Return or set the name of the thermostat whose ID is 123456789 using the default
Ecobee app instance (configured in openhab.cfg):
Ecobee app instance (configured in [binding configuration](#binding-configuration)):
```
{ ecobee="=[123456789#name]" }
ecobee="=[123456789#name]"
```
Return the current temperature read by the thermostat using the condo account
at ecobee.com:
```
{ ecobee="<[condo.987654321#runtime.actualTemperature]" }
ecobee="<[condo.987654321#runtime.actualTemperature]"
```
Return or set the minimum number of minutes per hour the fan will run on thermostat ID
543212345:
```
{ ecobee="=[543212345#settings.fanMinOnTime]" }
ecobee="=[543212345#settings.fanMinOnTime]"
```
Change the HVAC mode to one of `auto`, `auxHeatOnly`, `cool`, `heat`, or
`off` on all thermostats registered in the default app instance:
```
{ ecobee=">[*#settings.hvacMode]" }
ecobee=">[*#settings.hvacMode]"
```
Changes the backlight sleep intensity on all thermostats at the lake house
(meaning, all thermostats registered to the lakehouse Ecobee account):
```
{ ecobee=">[lakehouse.*#settings.backlightSleepIntensity]" }
ecobee=">[lakehouse.*#settings.backlightSleepIntensity]"
```
Determine if there was any occupancy in the condo's kitchen within the last 30 minutes:
```
{ ecobee="<[condo.987654321#remoteSensors(Kitchen).capability(occupancy).value]" }
ecobee="<[condo.987654321#remoteSensors(Kitchen).capability(occupancy).value]"
```
## Examples
Here are some examples of valid binding configuration strings, as you would define in your .items file. Each item binding indicates if it is an in-only binding or bidirectional binding string in the examples below.
### Item Examples
/* Ecobee binding items (replace 123456789012 with your thermostat ID) */
String identifier "identifier [%s]" { ecobee="<[123456789012#identifier]" }
String name "name [%s]" { ecobee="=[123456789012#name]" }
String thermostatRev "thermostatRev [%s]" { ecobee="<[123456789012#thermostatRev]" }
String isRegistered "isRegistered [%s]" { ecobee="<[123456789012#isRegistered]" }
String modelNumber "modelNumber [%s]" { ecobee="<[123456789012#modelNumber]" }
String brand "brand [%s]" { ecobee="<[123456789012#brand]" } // as of openHAB 1.8
String features "features [%s]" { ecobee="<[123456789012#features]" } // as of openHAB 1.8
DateTime lastModified "lastModified [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" { ecobee="<[123456789012#lastModified]" }
DateTime thermostatTime "thermostatTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" { ecobee="<[123456789012#thermostatTime]" }
DateTime utcTime "utcTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" { ecobee="<[123456789012#utcTime]" }
String equipmentStatus "equipmentStatus [%s]" { ecobee="<[123456789012#equipmentStatus]" }
String version_thermostatFirmwareVersion "thermostatFirmwareVersion [%s]" { ecobee="<[123456789012#version.thermostatFirmwareVersion]" }
String program_currentClimateRef "currentClimateRef [%s]" { ecobee="<[123456789012#program.currentClimateRef]" }
Group All
Group gSettings (All)
String settings_hvacMode "hvacMode [%s]" (gSettings) { ecobee="=[123456789012#settings.hvacMode]" }
String settings_lastServiceDate "lastServiceDate [%s]" (gSettings) { ecobee="=[123456789012#settings.lastServiceDate]" }
Switch settings_serviceRemindMe "serviceRemindMe [%s]" (gSettings) { ecobee="=[123456789012#settings.serviceRemindMe]" }
Number settings_monthsBetweenService "monthsBetweenService [%d]" (gSettings) { ecobee="=[123456789012#settings.monthsBetweenService]" }
String settings_remindMeDate "remindMeDate [%s]" (gSettings) { ecobee="=[123456789012#settings.remindMeDate]" }
String settings_vent "vent [%s]" (gSettings) { ecobee="=[123456789012#settings.vent]" }
Number settings_ventilatorMinOnTime "ventilatorMinOnTime [%d]" (gSettings) { ecobee="=[123456789012#settings.ventilatorMinOnTime]" }
Switch settings_serviceRemindTechnician "serviceRemindTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.serviceRemindTechnician]" }
String settings_eiLocation "eiLocation [%s]" (gSettings) { ecobee="=[123456789012#settings.eiLocation]" }
Number settings_coldTempAlert "coldTempAlert [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.coldTempAlert]" }
Switch settings_coldTempAlertEnabled "coldTempAlertEnabled [%s]" (gSettings) { ecobee="=[123456789012#settings.coldTempAlertEnabled]" }
Number settings_hotTempAlert "hotTempAlert [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.hotTempAlert]" }
Switch settings_hotTempAlertEnabled "hotTempAlertEnabled [%s]" (gSettings) { ecobee="=[123456789012#settings.hotTempAlertEnabled]" }
Number settings_coolStages "coolStages [%d]" (gSettings) { ecobee="<[123456789012#settings.coolStages]" }
Number settings_heatStages "heatStages [%d]" (gSettings) { ecobee="<[123456789012#settings.heatStages]" }
Number settings_maxSetBack "maxSetBack [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.maxSetBack]" }
Number settings_maxSetForward "maxSetForward [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.maxSetForward]" }
Number settings_quickSaveSetBack "quickSaveSetBack [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.quickSaveSetBack]" }
Number settings_quickSaveSetForward "quickSaveSetForward [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.quickSaveSetForward]" }
Switch settings_hasHeatPump "hasHeatPump [%s]" (gSettings) { ecobee="<[123456789012#settings.hasHeatPump]" }
Switch settings_hasForcedAir "hasForcedAir [%s]" (gSettings) { ecobee="<[123456789012#settings.hasForcedAir]" }
Switch settings_hasBoiler "hasBoiler [%s]" (gSettings) { ecobee="<[123456789012#settings.hasBoiler]" }
Switch settings_hasHumidifier "hasHumidifier [%s]" (gSettings) { ecobee="<[123456789012#settings.hasHumidifier]" }
Switch settings_hasErv "hasErv [%s]" (gSettings) { ecobee="<[123456789012#settings.hasErv]" }
Switch settings_hasHrv "hasHrv [%s]" (gSettings) { ecobee="<[123456789012#settings.hasHrv]" }
Switch settings_condensationAvoid "condensationAvoid [%s]" (gSettings) { ecobee="=[123456789012#settings.condensationAvoid]" }
Switch settings_useCelsius "useCelsius [%s]" (gSettings) { ecobee="=[123456789012#settings.useCelsius]" }
Switch settings_useTimeFormat12 "useTimeFormat12 [%s]" (gSettings) { ecobee="=[123456789012#settings.useTimeFormat12]" }
String settings_locale "locale [%s]" (gSettings) { ecobee="=[123456789012#settings.locale]" }
String settings_humidity "humidity [%s]" (gSettings) { ecobee="=[123456789012#settings.humidity]" }
String settings_humidifierMode "humidifierMode [%s]" (gSettings) { ecobee="=[123456789012#settings.humidifierMode]" }
Number settings_backlightOnIntensity "backlightOnIntensity [%d]" (gSettings) { ecobee="=[123456789012#settings.backlightOnIntensity]" }
Number settings_backlightSleepIntensity "backlightSleepIntensity [%d]" (gSettings) { ecobee="=[123456789012#settings.backlightSleepIntensity]" }
Number settings_backlightOffTime "backlightOffTime [%d]" (gSettings) { ecobee="=[123456789012#settings.backlightOffTime]" }
Number settings_soundTickVolume "soundTickVolume [%d]" (gSettings) { ecobee="=[123456789012#settings.soundTickVolume]" }
Number settings_soundAlertVolume "soundAlertVolume [%d]" (gSettings) { ecobee="=[123456789012#settings.soundAlertVolume]" }
Number settings_compressorProtectionMinTime "compressorProtectionMinTime [%d]" (gSettings) { ecobee="=[123456789012#settings.compressorProtectionMinTime]" }
Number settings_compressorProtectionMinTemp "compressorProtectionMinTemp [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.compressorProtectionMinTemp]" }
Number settings_stage1HeatingDifferentialTemp "stage1HeatingDifferentialTemp [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.stage1HeatingDifferentialTemp]" }
Number settings_stage1CoolingDifferentialTemp "stage1CoolingDifferentialTemp [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.stage1CoolingDifferentialTemp]" }
Number settings_stage1HeatingDissipationTime "stage1HeatingDissipationTime [%d]" (gSettings) { ecobee="=[123456789012#settings.stage1HeatingDissipationTime]" }
Number settings_stage1CoolingDissipationTime "stage1CoolingDissipationTime [%d]" (gSettings) { ecobee="=[123456789012#settings.stage1CoolingDissipationTime]" }
Switch settings_heatPumpReversalOnCool "heatPumpReversalOnCool [%s]" (gSettings) { ecobee="=[123456789012#settings.heatPumpReversalOnCool]" }
Switch settings_fanControlRequired "fanControlRequired [%s]" (gSettings) { ecobee="=[123456789012#settings.fanControlRequired]" }
Number settings_fanMinOnTime "fanMinOnTime [%d]" (gSettings) { ecobee="=[123456789012#settings.fanMinOnTime]" }
Number settings_heatCoolMinDelta "heatCoolMinDelta [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.heatCoolMinDelta]" }
Number settings_tempCorrection "tempCorrection [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.tempCorrection]" }
String settings_holdAction "holdAction [%s]" (gSettings) { ecobee="=[123456789012#settings.holdAction]" }
Switch settings_heatPumpGroundWater "heatPumpGroundWater [%s]" (gSettings) { ecobee="<[123456789012#settings.heatPumpGroundWater]" }
Switch settings_hasElectric "hasElectric [%s]" (gSettings) { ecobee="<[123456789012#settings.hasElectric]" }
Switch settings_hasDehumidifier "hasDehumidifier [%s]" (gSettings) { ecobee="<[123456789012#settings.hasDehumidifier]" }
String settings_dehumidifierMode "dehumidifierMode [%s]" (gSettings) { ecobee="=[123456789012#settings.dehumidifierMode]" }
Number settings_dehumidifierLevel "dehumidifierLevel [%d]" (gSettings) { ecobee="=[123456789012#settings.dehumidifierLevel]" }
Switch settings_dehumidifyWithAC "dehumidifyWithAC [%s]" (gSettings) { ecobee="=[123456789012#settings.dehumidifyWithAC]" }
Number settings_dehumidifyOvercoolOffset "dehumidifyOvercoolOffset [%d]" (gSettings) { ecobee="=[123456789012#settings.dehumidifyOvercoolOffset]" }
Switch settings_autoHeatCoolFeatureEnabled "autoHeatCoolFeatureEnabled [%s]" (gSettings) { ecobee="=[123456789012#settings.autoHeatCoolFeatureEnabled]" }
Switch settings_wifiOfflineAlert "wifiOfflineAlert [%s]" (gSettings) { ecobee="=[123456789012#settings.wifiOfflineAlert]" }
Number settings_heatMinTemp "heatMinTemp [%.1f °F]" (gSettings) { ecobee="<[123456789012#settings.heatMinTemp]" }
Number settings_heatMaxTemp "heatMaxTemp [%.1f °F]" (gSettings) { ecobee="<[123456789012#settings.heatMaxTemp]" }
Number settings_coolMinTemp "coolMinTemp [%.1f °F]" (gSettings) { ecobee="<[123456789012#settings.coolMinTemp]" }
Number settings_coolMaxTemp "coolMaxTemp [%.1f °F]" (gSettings) { ecobee="<[123456789012#settings.coolMaxTemp]" }
Number settings_heatRangeHigh "heatRangeHigh [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.heatRangeHigh]" }
Number settings_heatRangeLow "heatRangeLow [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.heatRangeLow]" }
Number settings_coolRangeHigh "coolRangeHigh [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.coolRangeHigh]" }
Number settings_coolRangeLow "coolRangeLow [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.coolRangeLow]" }
String settings_userAccessCode "userAccessCode [%s]" (gSettings) { ecobee="=[123456789012#settings.userAccessCode]" }
Number settings_userAccessSetting "userAccessSetting [%d]" (gSettings) { ecobee="=[123456789012#settings.userAccessSetting]" }
Number settings_auxRuntimeAlert "auxRuntimeAlert [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.auxRuntimeAlert]" }
Number settings_auxOutdoorTempAlert "auxOutdoorTempAlert [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.auxOutdoorTempAlert]" }
Number settings_auxMaxOutdoorTemp "auxMaxOutdoorTemp [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.auxMaxOutdoorTemp]" }
Switch settings_auxRuntimeAlertNotify "auxRuntimeAlertNotify [%s]" (gSettings) { ecobee="=[123456789012#settings.auxRuntimeAlertNotify]" }
Switch settings_auxOutdoorTempAlertNotify "auxOutdoorTempAlertNotify [%s]" (gSettings) { ecobee="=[123456789012#settings.auxOutdoorTempAlertNotify]" }
Switch settings_auxRuntimeAlertNotifyTechnician "auxRuntimeAlertNotifyTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.auxRuntimeAlertNotifyTechnician]" }
Switch settings_auxOutdoorTempAlertNotifyTechnician "auxOutdoorTempAlertNotifyTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.auxOutdoorTempAlertNotifyTechnician]" }
Switch settings_disablePreHeating "disablePreHeating [%s]" (gSettings) { ecobee="=[123456789012#settings.disablePreHeating]" }
Switch settings_disablePreCooling "disablePreCooling [%s]" (gSettings) { ecobee="=[123456789012#settings.disablePreCooling]" }
Switch settings_installerCodeRequired "installerCodeRequired [%s]" (gSettings) { ecobee="=[123456789012#settings.installerCodeRequired]" }
String settings_drAccept "drAccept [%s]" (gSettings) { ecobee="=[123456789012#settings.drAccept]" }
Switch settings_isRentalProperty "isRentalProperty [%s]" (gSettings) { ecobee="=[123456789012#settings.isRentalProperty]" }
Switch settings_useZoneController "useZoneController [%s]" (gSettings) { ecobee="=[123456789012#settings.useZoneController]" }
Number settings_randomStartDelayCool "randomStartDelayCool [%d]" (gSettings) { ecobee="=[123456789012#settings.randomStartDelayCool]" }
Number settings_randomStartDelayHeat "randomStartDelayHeat [%d]" (gSettings) { ecobee="=[123456789012#settings.randomStartDelayHeat]" }
Number settings_humidityHighAlert "humidityHighAlert [%d]" (gSettings) { ecobee="=[123456789012#settings.humidityHighAlert]" }
Number settings_humidityLowAlert "humidityLowAlert [%d]" (gSettings) { ecobee="=[123456789012#settings.humidityLowAlert]" }
Switch settings_disableHeatPumpAlerts "disableHeatPumpAlerts [%s]" (gSettings) { ecobee="=[123456789012#settings.disableHeatPumpAlerts]" }
Switch settings_disableAlertsOnIdt "disableAlertsOnIdt [%s]" (gSettings) { ecobee="=[123456789012#settings.disableAlertsOnIdt]" }
Switch settings_humidityAlertNotify "humidityAlertNotify [%s]" (gSettings) { ecobee="=[123456789012#settings.humidityAlertNotify]" }
Switch settings_humidityAlertNotifyTechnician "humidityAlertNotifyTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.humidityAlertNotifyTechnician]" }
Switch settings_tempAlertNotify "tempAlertNotify [%s]" (gSettings) { ecobee="=[123456789012#settings.tempAlertNotify]" }
Switch settings_tempAlertNotifyTechnician "tempAlertNotifyTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.tempAlertNotifyTechnician]" }
Number settings_monthlyElectricityBillLimit "monthlyElectricityBillLimit [%d]" (gSettings) { ecobee="=[123456789012#settings.monthlyElectricityBillLimit]" }
Switch settings_enableElectricityBillAlert "enableElectricityBillAlert [%s]" (gSettings) { ecobee="=[123456789012#settings.enableElectricityBillAlert]" }
Switch settings_enableProjectedElectricityBillAlert "enableProjectedElectricityBillAlert [%s]" (gSettings) { ecobee="=[123456789012#settings.enableProjectedElectricityBillAlert]" }
Number settings_electricityBillingDayOfMonth "electricityBillingDayOfMonth [%d]" (gSettings) { ecobee="=[123456789012#settings.electricityBillingDayOfMonth]" }
Number settings_electricityBillCycleMonths "electricityBillCycleMonths [%d]" (gSettings) { ecobee="=[123456789012#settings.electricityBillCycleMonths]" }
Number settings_electricityBillStartMonth "electricityBillStartMonth [%d]" (gSettings) { ecobee="=[123456789012#settings.electricityBillStartMonth]" }
Number settings_ventilatorMinOnTimeHome "ventilatorMinOnTimeHome [%d]" (gSettings) { ecobee="=[123456789012#settings.ventilatorMinOnTimeHome]" }
Number settings_ventilatorMinOnTimeAway "ventilatorMinOnTimeAway [%d]" (gSettings) { ecobee="=[123456789012#settings.ventilatorMinOnTimeAway]" }
Switch settings_backlightOffDuringSleep "backlightOffDuringSleep [%s]" (gSettings) { ecobee="=[123456789012#settings.backlightOffDuringSleep]" }
Switch settings_autoAway "autoAway [%s]" (gSettings) { ecobee="<[123456789012#settings.autoAway]" }
Switch settings_smartCirculation "smartCirculation [%s]" (gSettings) { ecobee="=[123456789012#settings.smartCirculation]" }
Switch settings_followMeComfort "followMeComfort [%s]" (gSettings) { ecobee="=[123456789012#settings.followMeComfort]" }
String settings_ventilatorType "ventilatorType [%s]" (gSettings) { ecobee="<[123456789012#settings.ventilatorType]" }
Switch settings_isVentilatorTimerOn "isVentilatorTimerOn [%s]" (gSettings) { ecobee="=[123456789012#settings.isVentilatorTimerOn]" }
DateTime settings_ventilatorOffDateTime "ventilatorOffDateTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gSettings) { ecobee="<[123456789012#settings.ventilatorOffDateTime]" }
Switch settings_hasUVFilter "hasUVFilter [%s]" (gSettings) { ecobee="=[123456789012#settings.hasUVFilter]" }
Switch settings_coolingLockout "coolingLockout [%s]" (gSettings) { ecobee="=[123456789012#settings.coolingLockout]" }
Switch settings_ventilatorFreeCooling "ventilatorFreeCooling [%s]" (gSettings) { ecobee="=[123456789012#settings.ventilatorFreeCooling]" }
Switch settings_dehumidifyWhenHeating "dehumidifyWhenHeating [%s]" (gSettings) { ecobee="=[123456789012#settings.dehumidifyWhenHeating]" }
String settings_groupRef "groupRef [%s]" (gSettings) { ecobee="=[123456789012#settings.groupRef]" }
String settings_groupName "groupName [%s]" (gSettings) { ecobee="=[123456789012#settings.groupName]" }
Number settings_groupSetting "groupSetting [%d]" (gSettings) { ecobee="=[123456789012#settings.groupSetting]" }
Group gRuntime (All)
String runtime_runtimeRev "runtimeRev [%s]" (gRuntime) { ecobee="<[123456789012#runtime.runtimeRev]" }
Switch runtime_connected "connected [%s]" (gRuntime) { ecobee="<[123456789012#runtime.connected]" }
DateTime runtime_firstConnected "firstConnected [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gRuntime) { ecobee="<[123456789012#runtime.firstConnected]" }
DateTime runtime_connectDateTime "connectDateTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gRuntime) { ecobee="<[123456789012#runtime.connectDateTime]" }
String runtime_disconnectDateTime "disconnectDateTime [%s]" (gRuntime) { ecobee="<[123456789012#runtime.disconnectDateTime]" }
DateTime runtime_lastModified "lastModified [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gRuntime) { ecobee="<[123456789012#runtime.lastModified]" }
DateTime runtime_lastStatusModified "lastStatusModified [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gRuntime) { ecobee="<[123456789012#runtime.lastStatusModified]" }
String runtime_runtimeDate "runtimeDate [%s]" (gRuntime) { ecobee="<[123456789012#runtime.runtimeDate]" }
Number runtime_runtimeInterval "runtimeInterval [%d]" (gRuntime) { ecobee="<[123456789012#runtime.runtimeInterval]" }
Number runtime_actualTemperature "actualTemperature [%.1f °F]" (gRuntime) { ecobee="<[123456789012#runtime.actualTemperature]" }
Number runtime_actualHumidity "actualHumidity [%d %%]" (gRuntime) { ecobee="<[123456789012#runtime.actualHumidity]" }
Number runtime_desiredHeat "desiredHeat [%.1f °F]" (gRuntime) { ecobee="<[123456789012#runtime.desiredHeat]" }
Number runtime_desiredCool "desiredCool [%.1f °F]" (gRuntime) { ecobee="<[123456789012#runtime.desiredCool]" }
Number runtime_desiredHumidity "desiredHumidity [%d %%]" (gRuntime) { ecobee="<[123456789012#runtime.desiredHumidity]" }
Number runtime_desiredDehumidity "desiredDehumidity [%d %%]" (gRuntime) { ecobee="<[123456789012#runtime.desiredDehumidity]" }
String runtime_desiredFanMode "desiredFanMode [%s]" (gRuntime) { ecobee="<[123456789012#runtime.desiredFanMode]" }
Group gLocation (All)
Number location_timeZoneOffsetMinutes "timeZoneOffsetMinutes [%d]" (gLocation) { ecobee="<[123456789012#location.timeZoneOffsetMinutes]" }
String location_timeZone "timeZone [%s]" (gLocation) { ecobee="=[123456789012#location.timeZone]" }
Switch location_isDaylightSaving "isDaylightSaving [%s]" (gLocation) { ecobee="=[123456789012#location.isDaylightSaving]" }
String location_streetAddress "streetAddress [%s]" (gLocation) { ecobee="=[123456789012#location.streetAddress]" }
String location_city "city [%s]" (gLocation) { ecobee="=[123456789012#location.city]" }
String location_provinceState "provinceState [%s]" (gLocation) { ecobee="=[123456789012#location.provinceState]" }
String location_country "country [%s]" (gLocation) { ecobee="=[123456789012#location.country]" }
String location_postalCode "postalCode [%s]" (gLocation) { ecobee="=[123456789012#location.postalCode]" }
String location_phoneNumber "phoneNumber [%s]" (gLocation) { ecobee="=[123456789012#location.phoneNumber]" }
String location_mapCoordinates "mapCoordinates [%s]" (gLocation) { ecobee="=[123456789012#location.mapCoordinates]" }
Group gWeather (All)
DateTime weather_timestamp "timestamp [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gWeather) { ecobee="<[123456789012#weather.timestamp]" }
String weather_weatherStation "weatherStation [%s]" (gWeather) { ecobee="<[123456789012#weather.weatherStation]" }
Number weather_forecasts0_weatherSymbol "weatherSymbol [MAP(ecobeeWeatherSymbol.map):%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].weatherSymbol]" }
DateTime weather_forecasts0_dateTime "dateTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].dateTime]" }
String weather_forecasts0_condition "condition [%s]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].condition]" }
Number weather_forecasts0_temperature "temperature [%.1f °F]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].temperature]" }
Number weather_forecasts0_pressure "pressure [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].pressure]" }
Number weather_forecasts0_relativeHumidity "relativeHumidity [%d %%]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].relativeHumidity]" }
Number weather_forecasts0_dewpoint "dewpoint [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].dewpoint]" }
Number weather_forecasts0_visibility "visibility [%d meters]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].visibility]" }
Number weather_forecasts0_windSpeed "windSpeed [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].windSpeed]" }
Number weather_forecasts0_windGust "windGust [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].windGust]" }
String weather_forecasts0_windDirection "windDirection [%s]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].windDirection]" }
Number weather_forecasts0_windBearing "windBearing [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].windBearing]" }
Number weather_forecasts0_pop "pop [%d %%]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].pop]" }
Number weather_forecasts0_tempHigh "tempHigh [%.1f °F]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].tempHigh]" }
Number weather_forecasts0_tempLow "tempLow [%.1f °F]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].tempLow]" }
Number weather_forecasts0_sky "sky [MAP(ecobeeSky.map):%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].sky]" }
Group gHouseDetails (All)
String houseDetails_style "style [%s]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.style]" }
Number houseDetails_size "size [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.size]" }
Number houseDetails_numberOfFloors "numberOfFloors [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.numberOfFloors]" }
Number houseDetails_numberOfRooms "numberOfRooms [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.numberOfRooms]" }
Number houseDetails_numberOfOccupants "numberOfOccupants [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.numberOfOccupants]" }
Number houseDetails_age "age [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.age]" }
/* If you have remote sensors named Kitchen and Bedroom connected to an ecobee3 with ID 123456789012 */
Group gRemoteSensors (All)
Number remoteSensors_Kitchen_capability_temperature "Kitchen temp. [%.1f °F]" (gRemoteSensors) { ecobee="<[123456789012#remoteSensors(Kitchen).capability(temperature).value]" }
Switch remoteSensors_Bedroom_capability_occupancy "Bedroom occu. [%s]" (gRemoteSensors) { ecobee="<[123456789012#remoteSensors(Bedroom).capability(occupancy).value]" }
Group gEvents (All)
String firstEvent_type "First event type [%s]" (gEvents) { ecobee="<[123456789012#events[0].type]" }
String firstEvent_name "First event name [%s]" (gEvents) { ecobee="<[123456789012#events[0].name]" }
String firstEvent_climate "First event climate [%s]" (gEvents) { ecobee="<[123456789012#events[0].holdClimateRef]" }
/* runningEvent.* is first event marked running, available as of openHAB 1.8 */
String runningEvent_type "Running event type [%s]" (gEvents) { ecobee="<[123456789012#runningEvent.type]" }
String runningEvent_name "Running event name [%s]" (gEvents) { ecobee="<[123456789012#runningEvent.name]" }
String runningEvent_climate "Running event climate [%s]" (gEvents) { ecobee="<[123456789012#runningEvent.holdClimateRef]" }
The mapping of [weather symbol numbers](https://www.ecobee.com/home/developer/api/documentation/v1/objects/WeatherForecast.shtml) to their meanings can be specified if you place the following in the file `transform/ecobeeWeatherSymbol.map`:
Here are some examples of valid item binding strings, as you would define in your `.items` file. Each item binding indicates if it is an in-only binding or bidirectional binding string in the examples below.
```
-2=no_symbol
0=sunny
1=few_clouds
2=partly_cloudy
3=mostly_cloudy
4=overcast
5=drizzle
6=rain
7=freezing_rain
8=showers
9=hail
10=snow
11=flurries
12=freezing_snow
13=blizzard
14=pellets
15=thunderstorm
16=windy
17=tornado
18=fog
19=haze
20=smoke
21=dust
-=unknown
```
/* Ecobee binding items (replace 123456789012 with your thermostat ID) */
The mapping of the [sky numbers](https://www.ecobee.com/home/developer/api/documentation/v1/objects/WeatherForecast.shtml) to their meanings can be specified if you place the following in the file `transform/ecobeeSky.map`:
String identifier "identifier [%s]" { ecobee="<[123456789012#identifier]" }
String name "name [%s]" { ecobee="=[123456789012#name]" }
String thermostatRev "thermostatRev [%s]" { ecobee="<[123456789012#thermostatRev]" }
String isRegistered "isRegistered [%s]" { ecobee="<[123456789012#isRegistered]" }
String modelNumber "modelNumber [%s]" { ecobee="<[123456789012#modelNumber]" }
String brand "brand [%s]" { ecobee="<[123456789012#brand]" } // as of openHAB 1.8
String features "features [%s]" { ecobee="<[123456789012#features]" } // as of openHAB 1.8
DateTime lastModified "lastModified [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" { ecobee="<[123456789012#lastModified]" }
DateTime thermostatTime "thermostatTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" { ecobee="<[123456789012#thermostatTime]" }
DateTime utcTime "utcTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" { ecobee="<[123456789012#utcTime]" }
String equipmentStatus "equipmentStatus [%s]" { ecobee="<[123456789012#equipmentStatus]" }
String version_thermostatFirmwareVersion "thermostatFirmwareVersion [%s]" { ecobee="<[123456789012#version.thermostatFirmwareVersion]" }
String program_currentClimateRef "currentClimateRef [%s]" { ecobee="<[123456789012#program.currentClimateRef]" }
```
1=SUNNY
2=CLEAR
3=MOSTLY SUNNY
4=MOSTLY CLEAR
5=HAZY SUNSHINE
6=HAZE
7=PASSING CLOUDS
8=MORE SUN THAN CLOUDS
9=SCATTERED CLOUDS
10=PARTLY CLOUDY
11=A MIXTURE OF SUN AND CLOUDS
12=HIGH LEVEL CLOUDS
13=MORE CLOUDS THAN SUN
14=PARTLY SUNNY
15=BROKEN CLOUDS
16=MOSTLY CLOUDY
17=CLOUDY
18=OVERCAST
19=LOW CLOUDS
20=LIGHT FOG
21=FOG
22=DENSE FOG
23=ICE FOG
24=SANDSTORM
25=DUSTSTORM
26=INCREASING CLOUDINESS
27=DECREASING CLOUDINESS
28=CLEARING SKIES
29=BREAKS OF SUN LATE
30=EARLY FOG FOLLOWED BY SUNNY SKIES
31=AFTERNOON CLOUDS
32=MORNING CLOUDS
33=SMOKE
34=LOW LEVEL HAZE
-=UNKNOWN
```
Group All
Group gSettings (All)
## More Examples
String settings_hvacMode "hvacMode [%s]" (gSettings) { ecobee="=[123456789012#settings.hvacMode]" }
String settings_lastServiceDate "lastServiceDate [%s]" (gSettings) { ecobee="=[123456789012#settings.lastServiceDate]" }
Switch settings_serviceRemindMe "serviceRemindMe [%s]" (gSettings) { ecobee="=[123456789012#settings.serviceRemindMe]" }
Number settings_monthsBetweenService "monthsBetweenService [%d]" (gSettings) { ecobee="=[123456789012#settings.monthsBetweenService]" }
String settings_remindMeDate "remindMeDate [%s]" (gSettings) { ecobee="=[123456789012#settings.remindMeDate]" }
String settings_vent "vent [%s]" (gSettings) { ecobee="=[123456789012#settings.vent]" }
Number settings_ventilatorMinOnTime "ventilatorMinOnTime [%d]" (gSettings) { ecobee="=[123456789012#settings.ventilatorMinOnTime]" }
Switch settings_serviceRemindTechnician "serviceRemindTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.serviceRemindTechnician]" }
String settings_eiLocation "eiLocation [%s]" (gSettings) { ecobee="=[123456789012#settings.eiLocation]" }
Number settings_coldTempAlert "coldTempAlert [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.coldTempAlert]" }
Switch settings_coldTempAlertEnabled "coldTempAlertEnabled [%s]" (gSettings) { ecobee="=[123456789012#settings.coldTempAlertEnabled]" }
Number settings_hotTempAlert "hotTempAlert [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.hotTempAlert]" }
Switch settings_hotTempAlertEnabled "hotTempAlertEnabled [%s]" (gSettings) { ecobee="=[123456789012#settings.hotTempAlertEnabled]" }
Number settings_coolStages "coolStages [%d]" (gSettings) { ecobee="<[123456789012#settings.coolStages]" }
Number settings_heatStages "heatStages [%d]" (gSettings) { ecobee="<[123456789012#settings.heatStages]" }
Number settings_maxSetBack "maxSetBack [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.maxSetBack]" }
Number settings_maxSetForward "maxSetForward [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.maxSetForward]" }
Number settings_quickSaveSetBack "quickSaveSetBack [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.quickSaveSetBack]" }
Number settings_quickSaveSetForward "quickSaveSetForward [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.quickSaveSetForward]" }
Switch settings_hasHeatPump "hasHeatPump [%s]" (gSettings) { ecobee="<[123456789012#settings.hasHeatPump]" }
Switch settings_hasForcedAir "hasForcedAir [%s]" (gSettings) { ecobee="<[123456789012#settings.hasForcedAir]" }
Switch settings_hasBoiler "hasBoiler [%s]" (gSettings) { ecobee="<[123456789012#settings.hasBoiler]" }
Switch settings_hasHumidifier "hasHumidifier [%s]" (gSettings) { ecobee="<[123456789012#settings.hasHumidifier]" }
Switch settings_hasErv "hasErv [%s]" (gSettings) { ecobee="<[123456789012#settings.hasErv]" }
Switch settings_hasHrv "hasHrv [%s]" (gSettings) { ecobee="<[123456789012#settings.hasHrv]" }
Switch settings_condensationAvoid "condensationAvoid [%s]" (gSettings) { ecobee="=[123456789012#settings.condensationAvoid]" }
Switch settings_useCelsius "useCelsius [%s]" (gSettings) { ecobee="=[123456789012#settings.useCelsius]" }
Switch settings_useTimeFormat12 "useTimeFormat12 [%s]" (gSettings) { ecobee="=[123456789012#settings.useTimeFormat12]" }
String settings_locale "locale [%s]" (gSettings) { ecobee="=[123456789012#settings.locale]" }
String settings_humidity "humidity [%s]" (gSettings) { ecobee="=[123456789012#settings.humidity]" }
String settings_humidifierMode "humidifierMode [%s]" (gSettings) { ecobee="=[123456789012#settings.humidifierMode]" }
Number settings_backlightOnIntensity "backlightOnIntensity [%d]" (gSettings) { ecobee="=[123456789012#settings.backlightOnIntensity]" }
Number settings_backlightSleepIntensity "backlightSleepIntensity [%d]" (gSettings) { ecobee="=[123456789012#settings.backlightSleepIntensity]" }
Number settings_backlightOffTime "backlightOffTime [%d]" (gSettings) { ecobee="=[123456789012#settings.backlightOffTime]" }
Number settings_soundTickVolume "soundTickVolume [%d]" (gSettings) { ecobee="=[123456789012#settings.soundTickVolume]" }
Number settings_soundAlertVolume "soundAlertVolume [%d]" (gSettings) { ecobee="=[123456789012#settings.soundAlertVolume]" }
Number settings_compressorProtectionMinTime "compressorProtectionMinTime [%d]" (gSettings) { ecobee="=[123456789012#settings.compressorProtectionMinTime]" }
Number settings_compressorProtectionMinTemp "compressorProtectionMinTemp [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.compressorProtectionMinTemp]" }
Number settings_stage1HeatingDifferentialTemp "stage1HeatingDifferentialTemp [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.stage1HeatingDifferentialTemp]" }
Number settings_stage1CoolingDifferentialTemp "stage1CoolingDifferentialTemp [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.stage1CoolingDifferentialTemp]" }
Number settings_stage1HeatingDissipationTime "stage1HeatingDissipationTime [%d]" (gSettings) { ecobee="=[123456789012#settings.stage1HeatingDissipationTime]" }
Number settings_stage1CoolingDissipationTime "stage1CoolingDissipationTime [%d]" (gSettings) { ecobee="=[123456789012#settings.stage1CoolingDissipationTime]" }
Switch settings_heatPumpReversalOnCool "heatPumpReversalOnCool [%s]" (gSettings) { ecobee="=[123456789012#settings.heatPumpReversalOnCool]" }
Switch settings_fanControlRequired "fanControlRequired [%s]" (gSettings) { ecobee="=[123456789012#settings.fanControlRequired]" }
Number settings_fanMinOnTime "fanMinOnTime [%d]" (gSettings) { ecobee="=[123456789012#settings.fanMinOnTime]" }
Number settings_heatCoolMinDelta "heatCoolMinDelta [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.heatCoolMinDelta]" }
Number settings_tempCorrection "tempCorrection [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.tempCorrection]" }
String settings_holdAction "holdAction [%s]" (gSettings) { ecobee="=[123456789012#settings.holdAction]" }
Switch settings_heatPumpGroundWater "heatPumpGroundWater [%s]" (gSettings) { ecobee="<[123456789012#settings.heatPumpGroundWater]" }
Switch settings_hasElectric "hasElectric [%s]" (gSettings) { ecobee="<[123456789012#settings.hasElectric]" }
Switch settings_hasDehumidifier "hasDehumidifier [%s]" (gSettings) { ecobee="<[123456789012#settings.hasDehumidifier]" }
String settings_dehumidifierMode "dehumidifierMode [%s]" (gSettings) { ecobee="=[123456789012#settings.dehumidifierMode]" }
Number settings_dehumidifierLevel "dehumidifierLevel [%d]" (gSettings) { ecobee="=[123456789012#settings.dehumidifierLevel]" }
Switch settings_dehumidifyWithAC "dehumidifyWithAC [%s]" (gSettings) { ecobee="=[123456789012#settings.dehumidifyWithAC]" }
Number settings_dehumidifyOvercoolOffset "dehumidifyOvercoolOffset [%d]" (gSettings) { ecobee="=[123456789012#settings.dehumidifyOvercoolOffset]" }
Switch settings_autoHeatCoolFeatureEnabled "autoHeatCoolFeatureEnabled [%s]" (gSettings) { ecobee="=[123456789012#settings.autoHeatCoolFeatureEnabled]" }
Switch settings_wifiOfflineAlert "wifiOfflineAlert [%s]" (gSettings) { ecobee="=[123456789012#settings.wifiOfflineAlert]" }
Number settings_heatMinTemp "heatMinTemp [%.1f °F]" (gSettings) { ecobee="<[123456789012#settings.heatMinTemp]" }
Number settings_heatMaxTemp "heatMaxTemp [%.1f °F]" (gSettings) { ecobee="<[123456789012#settings.heatMaxTemp]" }
Number settings_coolMinTemp "coolMinTemp [%.1f °F]" (gSettings) { ecobee="<[123456789012#settings.coolMinTemp]" }
Number settings_coolMaxTemp "coolMaxTemp [%.1f °F]" (gSettings) { ecobee="<[123456789012#settings.coolMaxTemp]" }
Number settings_heatRangeHigh "heatRangeHigh [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.heatRangeHigh]" }
Number settings_heatRangeLow "heatRangeLow [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.heatRangeLow]" }
Number settings_coolRangeHigh "coolRangeHigh [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.coolRangeHigh]" }
Number settings_coolRangeLow "coolRangeLow [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.coolRangeLow]" }
String settings_userAccessCode "userAccessCode [%s]" (gSettings) { ecobee="=[123456789012#settings.userAccessCode]" }
Number settings_userAccessSetting "userAccessSetting [%d]" (gSettings) { ecobee="=[123456789012#settings.userAccessSetting]" }
Number settings_auxRuntimeAlert "auxRuntimeAlert [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.auxRuntimeAlert]" }
Number settings_auxOutdoorTempAlert "auxOutdoorTempAlert [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.auxOutdoorTempAlert]" }
Number settings_auxMaxOutdoorTemp "auxMaxOutdoorTemp [%.1f °F]" (gSettings) { ecobee="=[123456789012#settings.auxMaxOutdoorTemp]" }
Switch settings_auxRuntimeAlertNotify "auxRuntimeAlertNotify [%s]" (gSettings) { ecobee="=[123456789012#settings.auxRuntimeAlertNotify]" }
Switch settings_auxOutdoorTempAlertNotify "auxOutdoorTempAlertNotify [%s]" (gSettings) { ecobee="=[123456789012#settings.auxOutdoorTempAlertNotify]" }
Switch settings_auxRuntimeAlertNotifyTechnician "auxRuntimeAlertNotifyTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.auxRuntimeAlertNotifyTechnician]" }
Switch settings_auxOutdoorTempAlertNotifyTechnician "auxOutdoorTempAlertNotifyTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.auxOutdoorTempAlertNotifyTechnician]" }
Switch settings_disablePreHeating "disablePreHeating [%s]" (gSettings) { ecobee="=[123456789012#settings.disablePreHeating]" }
Switch settings_disablePreCooling "disablePreCooling [%s]" (gSettings) { ecobee="=[123456789012#settings.disablePreCooling]" }
Switch settings_installerCodeRequired "installerCodeRequired [%s]" (gSettings) { ecobee="=[123456789012#settings.installerCodeRequired]" }
String settings_drAccept "drAccept [%s]" (gSettings) { ecobee="=[123456789012#settings.drAccept]" }
Switch settings_isRentalProperty "isRentalProperty [%s]" (gSettings) { ecobee="=[123456789012#settings.isRentalProperty]" }
Switch settings_useZoneController "useZoneController [%s]" (gSettings) { ecobee="=[123456789012#settings.useZoneController]" }
Number settings_randomStartDelayCool "randomStartDelayCool [%d]" (gSettings) { ecobee="=[123456789012#settings.randomStartDelayCool]" }
Number settings_randomStartDelayHeat "randomStartDelayHeat [%d]" (gSettings) { ecobee="=[123456789012#settings.randomStartDelayHeat]" }
Number settings_humidityHighAlert "humidityHighAlert [%d]" (gSettings) { ecobee="=[123456789012#settings.humidityHighAlert]" }
Number settings_humidityLowAlert "humidityLowAlert [%d]" (gSettings) { ecobee="=[123456789012#settings.humidityLowAlert]" }
Switch settings_disableHeatPumpAlerts "disableHeatPumpAlerts [%s]" (gSettings) { ecobee="=[123456789012#settings.disableHeatPumpAlerts]" }
Switch settings_disableAlertsOnIdt "disableAlertsOnIdt [%s]" (gSettings) { ecobee="=[123456789012#settings.disableAlertsOnIdt]" }
Switch settings_humidityAlertNotify "humidityAlertNotify [%s]" (gSettings) { ecobee="=[123456789012#settings.humidityAlertNotify]" }
Switch settings_humidityAlertNotifyTechnician "humidityAlertNotifyTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.humidityAlertNotifyTechnician]" }
Switch settings_tempAlertNotify "tempAlertNotify [%s]" (gSettings) { ecobee="=[123456789012#settings.tempAlertNotify]" }
Switch settings_tempAlertNotifyTechnician "tempAlertNotifyTechnician [%s]" (gSettings) { ecobee="=[123456789012#settings.tempAlertNotifyTechnician]" }
Number settings_monthlyElectricityBillLimit "monthlyElectricityBillLimit [%d]" (gSettings) { ecobee="=[123456789012#settings.monthlyElectricityBillLimit]" }
Switch settings_enableElectricityBillAlert "enableElectricityBillAlert [%s]" (gSettings) { ecobee="=[123456789012#settings.enableElectricityBillAlert]" }
Switch settings_enableProjectedElectricityBillAlert "enableProjectedElectricityBillAlert [%s]" (gSettings) { ecobee="=[123456789012#settings.enableProjectedElectricityBillAlert]" }
Number settings_electricityBillingDayOfMonth "electricityBillingDayOfMonth [%d]" (gSettings) { ecobee="=[123456789012#settings.electricityBillingDayOfMonth]" }
Number settings_electricityBillCycleMonths "electricityBillCycleMonths [%d]" (gSettings) { ecobee="=[123456789012#settings.electricityBillCycleMonths]" }
Number settings_electricityBillStartMonth "electricityBillStartMonth [%d]" (gSettings) { ecobee="=[123456789012#settings.electricityBillStartMonth]" }
Number settings_ventilatorMinOnTimeHome "ventilatorMinOnTimeHome [%d]" (gSettings) { ecobee="=[123456789012#settings.ventilatorMinOnTimeHome]" }
Number settings_ventilatorMinOnTimeAway "ventilatorMinOnTimeAway [%d]" (gSettings) { ecobee="=[123456789012#settings.ventilatorMinOnTimeAway]" }
Switch settings_backlightOffDuringSleep "backlightOffDuringSleep [%s]" (gSettings) { ecobee="=[123456789012#settings.backlightOffDuringSleep]" }
Switch settings_autoAway "autoAway [%s]" (gSettings) { ecobee="<[123456789012#settings.autoAway]" }
Switch settings_smartCirculation "smartCirculation [%s]" (gSettings) { ecobee="=[123456789012#settings.smartCirculation]" }
Switch settings_followMeComfort "followMeComfort [%s]" (gSettings) { ecobee="=[123456789012#settings.followMeComfort]" }
String settings_ventilatorType "ventilatorType [%s]" (gSettings) { ecobee="<[123456789012#settings.ventilatorType]" }
Switch settings_isVentilatorTimerOn "isVentilatorTimerOn [%s]" (gSettings) { ecobee="=[123456789012#settings.isVentilatorTimerOn]" }
DateTime settings_ventilatorOffDateTime "ventilatorOffDateTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gSettings) { ecobee="<[123456789012#settings.ventilatorOffDateTime]" }
Switch settings_hasUVFilter "hasUVFilter [%s]" (gSettings) { ecobee="=[123456789012#settings.hasUVFilter]" }
Switch settings_coolingLockout "coolingLockout [%s]" (gSettings) { ecobee="=[123456789012#settings.coolingLockout]" }
Switch settings_ventilatorFreeCooling "ventilatorFreeCooling [%s]" (gSettings) { ecobee="=[123456789012#settings.ventilatorFreeCooling]" }
Switch settings_dehumidifyWhenHeating "dehumidifyWhenHeating [%s]" (gSettings) { ecobee="=[123456789012#settings.dehumidifyWhenHeating]" }
String settings_groupRef "groupRef [%s]" (gSettings) { ecobee="=[123456789012#settings.groupRef]" }
String settings_groupName "groupName [%s]" (gSettings) { ecobee="=[123456789012#settings.groupName]" }
Number settings_groupSetting "groupSetting [%d]" (gSettings) { ecobee="=[123456789012#settings.groupSetting]" }
Group gRuntime (All)
String runtime_runtimeRev "runtimeRev [%s]" (gRuntime) { ecobee="<[123456789012#runtime.runtimeRev]" }
Switch runtime_connected "connected [%s]" (gRuntime) { ecobee="<[123456789012#runtime.connected]" }
DateTime runtime_firstConnected "firstConnected [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gRuntime) { ecobee="<[123456789012#runtime.firstConnected]" }
DateTime runtime_connectDateTime "connectDateTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gRuntime) { ecobee="<[123456789012#runtime.connectDateTime]" }
String runtime_disconnectDateTime "disconnectDateTime [%s]" (gRuntime) { ecobee="<[123456789012#runtime.disconnectDateTime]" }
DateTime runtime_lastModified "lastModified [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gRuntime) { ecobee="<[123456789012#runtime.lastModified]" }
DateTime runtime_lastStatusModified "lastStatusModified [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gRuntime) { ecobee="<[123456789012#runtime.lastStatusModified]" }
String runtime_runtimeDate "runtimeDate [%s]" (gRuntime) { ecobee="<[123456789012#runtime.runtimeDate]" }
Number runtime_runtimeInterval "runtimeInterval [%d]" (gRuntime) { ecobee="<[123456789012#runtime.runtimeInterval]" }
Number runtime_actualTemperature "actualTemperature [%.1f °F]" (gRuntime) { ecobee="<[123456789012#runtime.actualTemperature]" }
Number runtime_actualHumidity "actualHumidity [%d %%]" (gRuntime) { ecobee="<[123456789012#runtime.actualHumidity]" }
Number runtime_desiredHeat "desiredHeat [%.1f °F]" (gRuntime) { ecobee="<[123456789012#runtime.desiredHeat]" }
Number runtime_desiredCool "desiredCool [%.1f °F]" (gRuntime) { ecobee="<[123456789012#runtime.desiredCool]" }
Number runtime_desiredHumidity "desiredHumidity [%d %%]" (gRuntime) { ecobee="<[123456789012#runtime.desiredHumidity]" }
Number runtime_desiredDehumidity "desiredDehumidity [%d %%]" (gRuntime) { ecobee="<[123456789012#runtime.desiredDehumidity]" }
String runtime_desiredFanMode "desiredFanMode [%s]" (gRuntime) { ecobee="<[123456789012#runtime.desiredFanMode]" }
Group gLocation (All)
Number location_timeZoneOffsetMinutes "timeZoneOffsetMinutes [%d]" (gLocation) { ecobee="<[123456789012#location.timeZoneOffsetMinutes]" }
String location_timeZone "timeZone [%s]" (gLocation) { ecobee="=[123456789012#location.timeZone]" }
Switch location_isDaylightSaving "isDaylightSaving [%s]" (gLocation) { ecobee="=[123456789012#location.isDaylightSaving]" }
String location_streetAddress "streetAddress [%s]" (gLocation) { ecobee="=[123456789012#location.streetAddress]" }
String location_city "city [%s]" (gLocation) { ecobee="=[123456789012#location.city]" }
String location_provinceState "provinceState [%s]" (gLocation) { ecobee="=[123456789012#location.provinceState]" }
String location_country "country [%s]" (gLocation) { ecobee="=[123456789012#location.country]" }
String location_postalCode "postalCode [%s]" (gLocation) { ecobee="=[123456789012#location.postalCode]" }
String location_phoneNumber "phoneNumber [%s]" (gLocation) { ecobee="=[123456789012#location.phoneNumber]" }
String location_mapCoordinates "mapCoordinates [%s]" (gLocation) { ecobee="=[123456789012#location.mapCoordinates]" }
Group gWeather (All)
DateTime weather_timestamp "timestamp [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gWeather) { ecobee="<[123456789012#weather.timestamp]" }
String weather_weatherStation "weatherStation [%s]" (gWeather) { ecobee="<[123456789012#weather.weatherStation]" }
Number weather_forecasts0_weatherSymbol "weatherSymbol [MAP(ecobeeWeatherSymbol.map):%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].weatherSymbol]" }
DateTime weather_forecasts0_dateTime "dateTime [%1$tm/%1$td/%1$tY %1$tH:%1$tM:%1$tS]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].dateTime]" }
String weather_forecasts0_condition "condition [%s]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].condition]" }
Number weather_forecasts0_temperature "temperature [%.1f °F]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].temperature]" }
Number weather_forecasts0_pressure "pressure [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].pressure]" }
Number weather_forecasts0_relativeHumidity "relativeHumidity [%d %%]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].relativeHumidity]" }
Number weather_forecasts0_dewpoint "dewpoint [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].dewpoint]" }
Number weather_forecasts0_visibility "visibility [%d meters]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].visibility]" }
Number weather_forecasts0_windSpeed "windSpeed [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].windSpeed]" }
Number weather_forecasts0_windGust "windGust [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].windGust]" }
String weather_forecasts0_windDirection "windDirection [%s]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].windDirection]" }
Number weather_forecasts0_windBearing "windBearing [%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].windBearing]" }
Number weather_forecasts0_pop "pop [%d %%]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].pop]" }
Number weather_forecasts0_tempHigh "tempHigh [%.1f °F]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].tempHigh]" }
Number weather_forecasts0_tempLow "tempLow [%.1f °F]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].tempLow]" }
Number weather_forecasts0_sky "sky [MAP(ecobeeSky.map):%d]" (gWeather) { ecobee="<[123456789012#weather.forecasts[0].sky]" }
Group gHouseDetails (All)
String houseDetails_style "style [%s]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.style]" }
Number houseDetails_size "size [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.size]" }
Number houseDetails_numberOfFloors "numberOfFloors [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.numberOfFloors]" }
Number houseDetails_numberOfRooms "numberOfRooms [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.numberOfRooms]" }
Number houseDetails_numberOfOccupants "numberOfOccupants [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.numberOfOccupants]" }
Number houseDetails_age "age [%d]" (gHouseDetails) { ecobee="=[123456789012#houseDetails.age]" }
/* If you have remote sensors named Kitchen and Bedroom connected to an ecobee3 with ID 123456789012 */
Group gRemoteSensors (All)
Number remoteSensors_Kitchen_capability_temperature "Kitchen temp. [%.1f °F]" (gRemoteSensors) { ecobee="<[123456789012#remoteSensors(Kitchen).capability(temperature).value]" }
Switch remoteSensors_Bedroom_capability_occupancy "Bedroom occu. [%s]" (gRemoteSensors) { ecobee="<[123456789012#remoteSensors(Bedroom).capability(occupancy).value]" }
Group gEvents (All)
String firstEvent_type "First event type [%s]" (gEvents) { ecobee="<[123456789012#events[0].type]" }
String firstEvent_name "First event name [%s]" (gEvents) { ecobee="<[123456789012#events[0].name]" }
String firstEvent_climate "First event climate [%s]" (gEvents) { ecobee="<[123456789012#events[0].holdClimateRef]" }
/* runningEvent.* is first event marked running, available as of openHAB 1.8 */
String runningEvent_type "Running event type [%s]" (gEvents) { ecobee="<[123456789012#runningEvent.type]" }
String runningEvent_name "Running event name [%s]" (gEvents) { ecobee="<[123456789012#runningEvent.name]" }
String runningEvent_climate "Running event climate [%s]" (gEvents) { ecobee="<[123456789012#runningEvent.holdClimateRef]" }
```
### Basic configuration
@ -638,11 +600,6 @@ then
end
```
### Notes
1. Ecobee thermostats normally run based on a weekly schedule, but you can override the current program by setting a hold that controls the cool setpoint, the heat setpoint, and other options. You can set a hold from a rule by calling the action `ecobeeSetHold`. One of the parameters is a reference to a "climate" (also known as a comfort setting). The default references for climates are `sleep`, `home`, and `away` (some models also have `wakeup`).
### Tracking last occupancy
The ecobee3 thermostat can connect to a number of wireless remote sensors that measure occupancy and temperature. The thermostat normally uses these to implement its "follow-me comfort" feature, where the thermostat is constantly adjusting its idea of the current ambient temperature based on an average of the temperatures of rooms that are currently occupied.
@ -687,3 +644,79 @@ then
}
end
```
### MAP Transformations
The mapping of [weather symbol numbers](https://www.ecobee.com/home/developer/api/documentation/v1/objects/WeatherForecast.shtml) to their meanings can be specified if you place the following in the file `transform/ecobeeWeatherSymbol.map`:
```
-2=no_symbol
0=sunny
1=few_clouds
2=partly_cloudy
3=mostly_cloudy
4=overcast
5=drizzle
6=rain
7=freezing_rain
8=showers
9=hail
10=snow
11=flurries
12=freezing_snow
13=blizzard
14=pellets
15=thunderstorm
16=windy
17=tornado
18=fog
19=haze
20=smoke
21=dust
-=unknown
```
The mapping of the [sky numbers](https://www.ecobee.com/home/developer/api/documentation/v1/objects/WeatherForecast.shtml) to their meanings can be specified if you place the following in the file `transform/ecobeeSky.map`:
```
1=SUNNY
2=CLEAR
3=MOSTLY SUNNY
4=MOSTLY CLEAR
5=HAZY SUNSHINE
6=HAZE
7=PASSING CLOUDS
8=MORE SUN THAN CLOUDS
9=SCATTERED CLOUDS
10=PARTLY CLOUDY
11=A MIXTURE OF SUN AND CLOUDS
12=HIGH LEVEL CLOUDS
13=MORE CLOUDS THAN SUN
14=PARTLY SUNNY
15=BROKEN CLOUDS
16=MOSTLY CLOUDY
17=CLOUDY
18=OVERCAST
19=LOW CLOUDS
20=LIGHT FOG
21=FOG
22=DENSE FOG
23=ICE FOG
24=SANDSTORM
25=DUSTSTORM
26=INCREASING CLOUDINESS
27=DECREASING CLOUDINESS
28=CLEARING SKIES
29=BREAKS OF SUN LATE
30=EARLY FOG FOLLOWED BY SUNNY SKIES
31=AFTERNOON CLOUDS
32=MORNING CLOUDS
33=SMOKE
34=LOW LEVEL HAZE
-=UNKNOWN
```
## Notes
1. Ecobee thermostats normally run based on a weekly schedule, but you can override the current program by setting a hold that controls the cool setpoint, the heat setpoint, and other options. You can set a hold from a rule by calling the action `ecobeeSetHold`. One of the parameters is a reference to a "climate" (also known as a comfort setting). The default references for climates are `sleep`, `home`, and `away` (some models also have `wakeup`).

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@ -1,6 +1,9 @@
---
layout: documentation
title: EcoTouch - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: ekey - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: Energenie - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: EnOcean - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: Enphase Energy - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: Epson Projector - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: Exec - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -12,7 +15,7 @@ The Exec binding could act as the opposite of WoL and sends a shutdown command t
Note: when using 'ssh' you should use private key authorization since the password cannot be read from commandline. The given user should have the necessary permissions.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/exec/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/exec/readme.html).
## Binding Confguration

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@ -1,6 +1,9 @@
---
layout: documentation
title: Expire - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: Fatek PLC - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: FHT - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: Freebox - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -29,7 +32,7 @@ And act on:
- Windows printer sharing status (from v1.7)
- Reboot
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/freebox/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/freebox/readme.html).
## Binding Configuration

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@ -1,6 +1,9 @@
---
layout: documentation
title: FreeSWITCH - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,18 +1,21 @@
---
layout: documentation
title: Fritz AHA - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Fritz AHA Binding
[![Fritz AHA](http://img.youtube.com/vi/qYrpPrLY868/0.jpg)](http://www.youtube.com/watch?v=qYrpPrLY868)
This binding provides access to AVM Home Automation devices, such as the Fritz!DECT 200 connected to a Fritz!Box or the Fritz!Powerline 546E. It is designed to allow for multiple hosts, for instance using both a Fritz!Box and a Fritz!Powerline.
[![Fritz AHA](http://img.youtube.com/vi/qYrpPrLY868/0.jpg)](http://www.youtube.com/watch?v=qYrpPrLY868)
The binding interfaces with hosts using a choice of two different interfaces, the query script used in the Fritz!OS UI and a webservice designed for interfacing with external applications.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/avmfritz/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/avmfritz/readme.html).
## Binding Configuration

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@ -1,6 +1,9 @@
---
layout: documentation
title: Fritz!Box - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,12 +1,17 @@
---
layout: documentation
title: Fritzbox (using TR064 protocol) - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Fritzbox Binding (using TR064 protocol)
This is a binding for communication with AVM Fritz!Box using SOAP requests (TR064 protocol). It has been tested on:
This is a binding for communication with AVM Fritz!Box using SOAP requests (TR064 protocol).
It has been tested on:
* 7270
* 7360SL (v6.30)

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@ -1,6 +1,9 @@
---
layout: documentation
title: Frontier Silicon Radio - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -30,7 +33,7 @@ You can easily check if your IP radio is supported:
4. If the response is similar to `FS_OK 6836164442`, your radio is most likely compatible with this binding
5. If you radio works with this binding, please add it to the list above by [Editing this page](Frontier-Silicon-Radio-Binding/_edit)!
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/fsinternetradio/readme.html)
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/fsinternetradio/readme.html).
## Binding Configuration

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@ -1,6 +1,9 @@
---
layout: documentation
title: FS20 - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,6 +1,9 @@
---
layout: documentation
title: Garadget - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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@ -1,16 +1,19 @@
---
layout: documentation
title: Global Cache IR - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Global Cache IR Binding (1.x)
# Global Cache IR Binding
This page describes the Global Cache IR binding (1.x), which allows openHAB items to send commands to the corresponding IR devices from one or more instances of Global Cache.
![Global Cache Device](http://www.smarthome.com/media/catalog/product/8/1/8115big.jpg)
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/globalcache/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/globalcache/readme.html).
## Binding Configuration

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@ -1,12 +1,17 @@
---
layout: documentation
title: GPIO - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# GPIO Binding
This binding for the local GPIO subsystem, currently only this exposed to user space by [Linux GPIO framework](https://www.kernel.org/doc/Documentation/gpio/sysfs.txt) is implemented. Being based on kernel implementation it's hardware agnostic and works on different boards without modification (this is on theory only, not all existing boards can be tested). The difference from other bindings dealing with GPIOs is that it works with GPIO subsystem on the board on which openHAB runs and doesn't require third-party programs/daemons running. The binding consists of two components: base module (org.openhab.io.gpio) which implements low-level GPIO access and provides API for high-level modules (can be used by other bindings needing to interact directly with GPIOs) and the binding itself (org.openhab.binding.gpio) which introduces hardware GPIO pins as full-featured openHAB items capable of generating events or receiving commands depending of their type (input or output).
This binding is for the local GPIO subsystem. It is currently only exposed to user space by [Linux GPIO framework](https://www.kernel.org/doc/Documentation/gpio/sysfs.txt). Being based on a kernel implementation, it's hardware agnostic and works on different boards without modification (this is on theory only, not all existing boards can be tested).
The difference from other bindings dealing with GPIOs is that it works with GPIO subsystem on the board on which openHAB runs and doesn't require third-party programs/daemons running. The binding consists of two components: base module (org.openhab.io.gpio) which implements low-level GPIO access and provides API for high-level modules (can be used by other bindings needing to interact directly with GPIOs) and the binding itself (org.openhab.binding.gpio) which introduces hardware GPIO pins as full-featured openHAB items capable of generating events or receiving commands depending of their type (input or output).
## Prerequisites

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---
layout: documentation
title: Harmony Hub - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -8,7 +11,7 @@ layout: documentation
The Harmony Hub binding is used to enable communication between openHAB and one or more Logitech Harmony Hub devices. The API exposed by the Harmony Hub is relatively limited, but it does allow for reading the current activity as well as setting the activity and sending device commands.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/harmonyhub/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/harmonyhub/readme.html).
## Binding Configuration

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addons/bindings/oh1/hdanywhere/readme.md
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---
layout: documentation
title: HDanywhere - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/heatmiser/readme.md
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---
layout: documentation
title: Heatmiser - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/hms/readme.md
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---
layout: documentation
title: HMS - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/homematic/readme.md
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---
layout: documentation
title: Homematic - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Homematic Binding
This is the binding for the [eQ-3 Homematic Solution](http://www.eq-3.de/).
This binding allows you to integrate, view, control and configure all Homematic devices in the openHAB environment.
- RF and WIRED devices are supported
- CCU/Homegear variables with synchronisation
- execute programs on the CCU/Homegear
@ -84,7 +90,7 @@ These ports are used by the binding:
The CCU firewall must be configured to 'full access' for the Remote Homematic-Script API.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/homematic/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/homematic/readme.html).
## Binding Configuration

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addons/bindings/oh1/horizon/readme.md
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---
layout: documentation
title: Horizon mediabox - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/http/readme.md
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---
layout: documentation
title: HTTP - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/hue/readme.md
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---
layout: documentation
title: Hue - Bindings
source: external
---
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{% include base.html %}
# Hue Binding
This binding connects openHAB to your Philips Hue lighting system.
Click the image below for a YouTube video demonstrating setup, configuration and a simple custom scene controller (openHAB 1, but still relevant to usage on openHAB 2).
[![openHAB Hue binding](http://img.youtube.com/vi/Q4_LkXIRBWc/0.jpg)](http://www.youtube.com/watch?v=Q4_LkXIRBWc)
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/hue/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/hue/readme.html).
## Prerequisites

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addons/bindings/oh1/iec6205621meter/readme.md
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---
layout: documentation
title: IEC 62056-21 Meter - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/ihc/readme.md
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---
layout: documentation
title: IHC / ELKO - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/insteonhub/readme.md
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---
layout: documentation
title: Insteon Hub - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/insteonplm/readme.md
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---
layout: documentation
title: Insteon PLM - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/intertechno/readme.md
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---
layout: documentation
title: Intertechno - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/ipx800/readme.md
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---
layout: documentation
title: IPX800 - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/irtrans/readme.md
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---
layout: documentation
title: IRTrans - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/jointspace/readme.md
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---
layout: documentation
title: jointSPACE - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/k8055/readme.md
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---
layout: documentation
title: Velleman k8055 USB IO Board - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/km200/readme.md
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---
layout: documentation
title: KM200 - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -30,8 +33,8 @@ There are two different ways to configure the items.
### 1. Direct access with defined key
```
DateTime budDate "Buderus Date Time[%1$tA, %1$td.%1$tm.%1$tY]" {km200="date_time"}
DateTime budDate "Buderus Datum [%1$td.%1$tm.%1$tY %1$tH:%1$tM]" {km200="date_time"}
DateTime budDate "Buderus Date Time [%1$tA, %1$td.%1$tm.%1$tY]" {km200="date_time"}
DateTime budDate "Buderus Datum [%1$td.%1$tm.%1$tY %1$tH:%1$tM]" {km200="date_time"}
String budBrand "Brand of the heater [%s]" {km200="sys_brand"}
String budType "Type of the heater [%s]" {km200="sys_type"}
String budStatus "State of the heater [%s]" {km200="sys_state"}

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addons/bindings/oh1/knx/readme.md
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---
layout: documentation
title: KNX - Bindings
source: external
---
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{% include base.html %}
# KNX Binding (1.x)
# KNX Binding
The openHAB KNX binding allows one to connect to [KNX Home Automation](http://www.knx.org/) installations. Switching lights on and off, activating your roller shutters or changing room temperatures are only some examples.

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addons/bindings/oh1/koubachi/readme.md
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---
layout: documentation
title: Koubachi - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/lcn/readme.md
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---
layout: documentation
title: LCN - Bindings
source: external
---
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{% include base.html %}
# LCN Binding
![](http://3.bp.blogspot.com/-d5mm3HC7uic/VpO2ctrfWNI/AAAAAAAAJOI/a37JMGhC4IY/s600/openhab_lcn.jpg)
This binding connects to one or more LCN-PCHK instances via TCP/IP. **This means 1 unused LCN-PCHK license is required!**
The *openHAB LCN binding* connects to one or more LCN-PCHK instances via TCP/IP. **This means 1 unused LCN-PCHK license is required!**
![](http://3.bp.blogspot.com/-d5mm3HC7uic/VpO2ctrfWNI/AAAAAAAAJOI/a37JMGhC4IY/s600/openhab_lcn.jpg)
The minimum recommended version is LCN-PCHK 2.8 (older versions will also work, but lack some functionality). Visit [http://www.lcn.de](http://www.lcn.de) for updates.

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addons/bindings/oh1/lgtv/readme.md
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---
layout: documentation
title: LG TV - Bindings
source: external
---
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{% include base.html %}
# LG TV Binding
* Every LG TV Model with Netcast 3.0 and Netcast 4.0 (Model years 2012 & 2013)
* Binding should be compatible with LG Tvs which support UDAP 2.0. protocol over Ethernet
http://developer.lgappstv.com/TV_HELP/topic/lge.tvsdk.references.book/html/UDAP/UDAP/UDAP%20Specifications%20For%20Second%20Screen%20TV%20and%20Companion%20Apps.htm
This binding supports LG TV models with Netcast 3.0 and Netcast 4.0 (Model years 2012 & 2013), and with LG TVs which support the UDAP 2.0 protocol over Ethernet. See ["UDAP Specifications (For Second Screen TV and Companion Apps)"](http://developer.lgappstv.com/TV_HELP/topic/lge.tvsdk.references.book/html/UDAP/UDAP/UDAP%20Specifications%20For%20Second%20Screen%20TV%20and%20Companion%20Apps.htm).
Author: Martin Fluch 25.1.2014

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addons/bindings/oh1/lightwaverf/readme.md
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---
layout: documentation
title: LightwaveRF - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/mailcontrol/readme.md
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---
layout: documentation
title: MailControl - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/maxcube/readme.md
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---
layout: documentation
title: MAX!Cube - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -8,7 +11,7 @@ layout: documentation
The MAX!Cube binding allows openHAB to connect to [(ELV) MAX!Cube Lan Gateway](http://www.elv.de/max-cube-lan-gateway.html) installations. The binding allows openHAB to communicate with the MAX! devices through the MAX!Cube Lan Gateway.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/max/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/max/readme.html).
## Prerequisites

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addons/bindings/oh1/maxcul/readme.md
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---
layout: documentation
title: MAX!CUL - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
@ -10,7 +13,7 @@ The aim of this binding is to allow the connection from openHAB to MAX! devices
A lot of credit must go to the [FHEM project](http://fhem.de/fhem.html): without their implementation of the MAX interface with CUL this would be taking a lot longer to implement!
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/max/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/max/readme.html).
## Status

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addons/bindings/oh1/mcp23017/readme.md
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---
layout: documentation
title: MCP23017 - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/mcp3424/readme.md
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---
layout: documentation
title: MCP3424 - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}

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addons/bindings/oh1/milight/readme.md
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---
layout: documentation
title: Milight - Bindings
source: external
---
<!-- Attention authors: Do not edit directly. Please add your changes to the appropriate source repository -->
{% include base.html %}
# Milight Binding (1.x)
# Milight Binding
The Milight binding allows openHAB to send commands to multiple Milight bridges.
[![openHAB Milight](http://img.youtube.com/vi/zNe9AkQbfmc/0.jpg)](http://www.youtube.com/watch?v=zNe9AkQbfmc)
The openHAB Milight binding allows to send commands to multiple Milight bridges.
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/milight/readme.html).
There is also a binding specifically for openHAB 2 [here](http://docs.openhab.org/addons/bindings/oh2/milight/readme.html).
## Binding Configuration

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