Skip to content

fruggy83/openocean

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Release Donate to this project using PayPal Donate to this project using Buy Me A Coffee

EnOcean Binding

The EnOcean binding connects openHAB to the EnOcean ecosystem.

The binding uses an EnOcean gateway to retrieve sensor data and control actuators. For bidirectional actuators it is even possible to update the openHAB item state if the actuator gets modified outside of openHAB. This binding has been developed on an USB300 gateway and was also tested with an EnOceanPi. As this binding implements a full EnOcean stack, we have full control over these gateways. This binding can enable the repeater function (level 1 or 2) of these gateways and retrieve detailed information about them.

Concepts/Configuration

First of all you have to configure an EnOcean transceiver (gateway). A directly connected USB300 can be auto discovered, an EnOceanPi has to be added manually to openHAB. Both gateways are represented by an EnOcean gateway in openHAB. If you want to place the gateway for better reception apart from your openHAB server, you can forward its serial messages over TCP/IP (ser2net). In this case you have to define the path to the gateway like this rfc2217://x.x.x.x:3001. If everything is running fine you should see the base id of your gateway in the properties of your bridge.

Another way to improve sending and reception reliability is to setup a wired connection. In this case you directly connect to your RS485 EnOcean bus (use USB connection of an Eltako FAM14 e.g.). However communication on RS485 bus is mostly done with an older ESP2 protocol which does not support advanced telegrams like VLD. Furthermore you have to be aware that not all radio telegrams are published on the bus.

The vast majority of EnOcean messages are sent as broadcast messages without an explicit receiver address. However each EnOcean device is identified by an unique id, called EnOceanId, which is used as the sender address in these messages. To receive messages from an EnOcean device you have to determine its EnOceanId and add an appropriate thing to openHAB.

If the device is an actuator which you want to control with your gateway from openHAB, you also have to create an unique sender id and announce it to the actuator (teach-in). For security reasons you cannot choose a random id, instead each gateway has 127 unique ids build in, from which you can choose. A SenderId of your gateway is made up its base id and a number between 1 and 127. This number can be chosen manually or the next free/unused number can be determined by the binding.

Supported Things

This binding is developed on and tested with the following devices

  • USB300 and EnOceanPi gateways
  • The following Eltako actuators:
    • FSR14 (light switch)
    • FSB14 (rollershutter)
    • FUD14 (dimmer)
    • FSSA-230V (smart plug)
    • FWZ12-65A (energy meter)
    • FTKE (window / door contact)
    • FPE-1 & FPE-2 (window / door contact)
    • TF-FGB (window handle)
    • TF-FKB (window contact)
    • TF-AHDSB (outdoor brightness sensor)
    • FAFT60 (outdoor temperature & humidity sensor)
  • The following Opus actuators:
    • GN-A-R12V-SR-4 (light)
    • GN-A-R12V-MF-2 (light)
    • GN-A-R12V-LZ/UD (dimmer)
    • GN-A-R12V-JRG-2 (rollershutter)
    • GN-A-U230V-JRG (rollershutter)
    • OPUS-FUNK PLUS Jalousieaktor 1fach UP (rollershutter)
    • OPUS-Funk PLUS Steckdosenleiste (smart multiple socket)
  • NodOn:
    • Smart Plug (ASP-2-1-10)
    • In Wall Switch (SIN-2-2-00, SIN-2-1-0x)
    • Temperature & humidity sensor (STPH-2-1-05)
  • Permundo
    • PSC234 (smart plug with metering) = Afriso APR234
    • PSC132 (smart switch actor with metering)
    • PSC152 (smart blinds control)
  • Thermokon SR04 room control
  • Hoppe SecuSignal window handles
  • Rocker switches (NodOn, Eltako FT55 etc)

However, because of the standardized EnOcean protocol it is more important which EEP this binding supports. Hence if your device supports one of the following EEPs the chances are good that your device is also supported by this binding.

Thing type EEP family EEP Types Channels¹ Devices² Pairing
bridge - - repeaterMode, setBaseId USB300, EnOceanPi -
pushButton F6-01/D2-03 0x01/0x0A pushButton, doublePress,
longPress, batteryLevel
NodOn soft button Manually/Discovery
rockerSwitch F6-02 0x01-02 rockerswitchA, rockerswitchB Eltako FT55 Discovery
mechanicalHandle F6-10 0x00-01 windowHandleState, contact Hoppe SecuSignal handles, Eltako TF-FGB Discovery
contact D5-00 0x01 contact Eltako FTK(E) & TF-FKB Discovery
temperatureSensor A5-02 0x01-30 temperature Thermokon SR65 Discovery
temperatureHumiditySensor A5-04 0x01-03 humidity, temperature Eltako FTSB Discovery
occupancySensor A5-07 0x01-03 illumination, batteryVoltage,
motionDetection
NodON PIR-2-1-01 Discovery
lightTemperatureOccupancySensor A5-08 0x01-03 illumination, temperature,
occupancy, motionDetection
Eltako FABH Discovery
lightSensor A5-06 0x01 illumination Eltako TF-AHDSB Discovery
roomOperatingPanel A5-10 0x01-23 temperature, setPoint, fanSpeedStage,
occupancy
Thermokon SR04 Discovery
automatedMeterSensor A5-12 0x00-03 counter, currentNumber, instantpower,
totalusage, amrLitre, amrCubicMetre
FWZ12 Discovery
environmentalSensor A5-13 0x01-02 temperature, windspeed, illumination,
rainStatus
FWS61 Discovery
centralCommand A5-38 0x08 dimmer, generalSwitch Eltako FUD14, FSR14 Teach-in
rollershutter A5-3F/D2-05/A5-38 0x7F/00/08 rollershutter Eltako FSB14, NodOn SIN-2-RS-01 Teach-in/Discovery
measurementSwitch D2-01 0x00-0F,11,12 generalSwitch(/A/B), instantpower,
totalusage, repeaterMode
NodOn In Wall Switch Discovery
multiFunctionSmokeDetector D2-14/F6-05 0x30/02 smokeDetection, batteryLow Insafe+, Afriso ASD Discovery
heatRecoveryVentilation D2-50 0x00,01,10,11 a lot of different state channels Dimplex DL WE2 Discovery
classicDevice F6-02 0x01-02 virtualRockerswitchA, virtualRockerswitchB - Teach-in

¹ Not all channels are supported by all devices, it depends which specific EEP type is used by the device, all thing types additionally support rssi, repeatCount and lastReceived channels

² These are just examples of supported devices

Furthermore following supporting EEP family is available too: A5-11, types 0x03 (rollershutter position status), 0x04 (extended light status) and D0-06 (battery level indication).

A rockerSwitch is used to receive messages from a physical EnOcean Rocker Switch. A classicDevice is used for older EnOcean devices which react only on rocker switch messages (like Opus GN-A-R12V-SR-4). As these devices do not send their current status, you have to add additional listener channels for each physical Rocker Switch to your thing. In this way you can still sync your item status with the physical status of your device whenever it gets modified by a physical rocker switch. The classic device simulates a physical Rocker Switch. Per default the classic device uses the channel A of the simulated rocker switch. If you want to use channel B you have to use virtualRockerswitchB in conjunction with rules to send commands.

Pairing

Most of the EnOcean devices can be automatically created and configured as an openHAB thing through the discovery service. The EnOcean protocol defines a so called "teach-in" process to announce the abilities and services of an EnOcean device and pair devices. To pair an EnOcean device with its openHAB thing representation, you have to differentiate between sensors and actuators.

Sensors

To pair a sensor with its thing, you first have to start the discovery scan for this binding. Then press the "teach-in" button of the sensor. The sensor sends a teach-in message which contains the information about the EEP and the EnOceanId of the sensor. If the EEP is known by this binding the thing representation of the device is created. The corresponding channels are created dynamically, too.

Actuators

If the actuator supports UTE teach-in, the corresponding thing can be created and paired automatically. First you have to start the discovery scan for a gateway. Then press the teach-in button of the actuator. If the EEP of the actuator is known, the binding sends an UTE teach-in response with a new SenderId and creates a new thing with its channels.

If the actuator does not support UTE teach-ins, you have to create, configure and choose the right EEP of the thing manually. It is important to link the teach-in channel of this thing to a switch item. Afterwards you have to activate the pairing mode of the actuator. Then switch on the teach-in item to send a teach-in message to the actuator. If the pairing was successful, you can control the actuator and unlink the teach-in channel now. The content of this teach-in message is device specific and can be configured through the teach-in channel.

To pair a classicDevice with an EnOcean device, you first have to activate the pairing mode of the actuator. Then switch the virtualRockerSwitchA On/Off.

Each EnOcean gateway supports 127 unique SenderIds. The SenderId of a thing can be set manually or determined automatically by the binding. In case of an UTE teach-in the next unused SenderId is taken automatically. To set this SenderId to a specific one, you have to use the nextSenderId parameter of your gateway.

Thing Configuration

The pairing process of an openHAB thing and an EnOcean device has to be triggered within Paper UI. Therefore if you do not want to use Paper UI, a mixed mode configuration approach has to be done. To determine the EEP and EnOceanId of the device and announce a SenderId to it, you first have to pair an openHAB thing with the EnOcean device. Afterwards you can delete this thing and manage it with its necessary parameters through a configuration file. If you change the SenderId of your thing, you have to pair again the thing with your device.

Thing type Parameter Meaning Possible Values
bridge path Path to the EnOcean Gateway COM3, /dev/ttyAMA0, rfc2217://x.x.x.x:3001
nextSenderId Set SenderId of next created thing.
If omitted, the next unused SenderId is taken
1-127
espVersion ESP Version of gateway ESP3, ESP2
rs485 If gateway is directly connected to a RS485 bus the BaseId is set to 0x00 true, false
rs485BaseId Override BaseId 0x00 if your bus contains a telegram duplicator (FTD14 for ex) 4 byte hex value
pushButton receivingEEPId EEP used for receiving msg F6_01_01, D2_03_0A
enoceanId EnOceanId of device this thing belongs to hex value as string
rockerSwitch receivingEEPId F6_02_01, F6_02_02
enoceanId
mechanicalHandle receivingEEPId F6_10_00, F6_10_01, A5_14_09
enoceanId
receivingSIGEEP
contact receivingEEPId D5_00_01, A5_14_01_ELTAKO
enoceanId
receivingSIGEEP Adds a batteryLevel channel to thing and let thing interpret SIG messages true, false
temperatureSensor receivingEEPId A5_02_01-0B, A5_02_10-1B, A5_02_20, A5_02_30
enoceanId
receivingSIGEEP
temperatureHumiditySensor receivingEEPId A5_04_01-03
enoceanId
receivingSIGEEP
occupancySensor receivingEEPId A5_07_01-03
enoceanId
receivingSIGEEP
lightTemperatureOccupancySensor receivingEEPId A5_08_01-03, A5_08_01_FXBH
enoceanId
receivingSIGEEP
lightSensor receivingEEPId A5_06_01, A5_06_01_ELTAKO
enoceanId
receivingSIGEEP
roomOperatingPanel receivingEEPId A5_10_01-0D, A5_10_10-1F, A5_10_20-23
enoceanId
automatedMeterSensor receivingEEPId A5_12_00-03
enoceanId
environmentalSensor receivingEEPId A5_13_01
enoceanId
centralCommand senderIdOffset SenderId used for sending msg.
If omitted, nextSenderId of bridge is used
1-127
enoceanId
sendingEEPId EEP used for sending msg A5_38_08_01, A5_38_08_02
broadcastMessages Send broadcast or addressed msg true, false
receivingEEPId F6_00_00, A5_38_08_02, A5_11_04
suppressRepeating Suppress repeating of msg true, false
rollershutter senderIdOffset 1-127
enoceanId
sendingEEPId A5_3F_7F_EltakoFSB, A5_38_08_07, D2_05_00
broadcastMessages true, false
receivingEEPId¹ A5_3F_7F_EltakoFSB, A5_11_03, D2_05_00
suppressRepeating true, false
pollingInterval Refresh interval in seconds Integer
measurementSwitch senderIdOffset 1-127
enoceanId
sendingEEPId D2_01_00-0F, D2_01_11, D2_01_12,
D2_01_09_PERMUNDO, D2_01_0F_NODON, D2_01_12_NODON
receivingEEPId¹ D2_01_00-0F, D2_01_11, D2_01_12,
D2_01_09_PERMUNDO, D2_01_0F_NODON, D2_01_12_NODON,
A5_12_01
broadcastMessages true, false
pollingInterval Integer
suppressRepeating true, false
retryInterval Time in ms after messages are repeated if an answer is missing Integer
multiFunctionSmokeDetector receivingEEPId F6_05_02, D2_14_30
enoceanId
heatRecoveryVentilation senderIdOffset 1-127
enoceanId
sendingEEPId D2_50_00, D2_50_01,
D2_50_10, D2_50_11
receivingEEPId D2_50_00, D2_50_01,
D2_50_10, D2_50_11
broadcastMessages true, false
suppressRepeating true, false
classicDevice senderIdOffset 1-127
sendingEEPId F6_02_01, F6_02_02
broadcastMessages true, false
receivingEEPId F6_02_01, F6_02_02
suppressRepeating true, false

¹ multiple values possible, EEPs have to be of different EEP families. If you want to receive messages of your EnOcean devices you have to set the enoceanId to the EnOceanId of your device.

Channels

The channels of a thing are determined automatically based on the chosen EEP.

Channel Item Description
repeaterMode String Set repeater level to 1, 2 or disable
setBaseId String Changes the BaseId of your gateway. This can only be done 10 times! So use it with care.
pushButton Trigger Channel type system:rawbutton, emits PRESSED and RELEASED events
doublePress Trigger Channel type system:rawbutton, emits PRESSED
longPress Trigger Channel type system:rawbutton, emits PRESSED and RELEASED events
rockerswitchA/B Trigger Channel type system:rawrocker, emits DIR1_PRESSED, DIR1_RELEASED, DIR2_PRESSED, DIR2_RELEASED events
windowHandleState String Textual representation of handle position (OPEN, CLOSED, TILTED)
contact Contact State OPEN/CLOSED (tilted handle => OPEN)
temperature Number:Temperature Temperature in degree Celsius
humidity Number Relative humidity level in percentages
illumination Number:Illuminance Illumination in lux
illuminationWest Number:Illuminance Illumination in lux
illuminationSouthNorth Number:Illuminance Illumination in lux
illuminationEast Number:Illuminance Illumination in lux
rainStatus Switch Rain indicator
windspeed Number:Speed windspeed in m/s
occupancy Switch Occupancy button pressed (ON) or released (OFF)
motionDetection Switch On=Motion detected, Off=not
setPoint Number linear set point
fanSpeedStage String Fan speed: -1 (Auto), 0, 1, 2, 3
dimmer Dimmer Dimmer value in percent
generalSwitch(/A/B) Switch Switch something (channel A/B) ON/OFF
rollershutter Rollershutter Shut time (shutTime) in seconds can be configured
angle Number:Angle The angle for blinds
instantpower Number:Power Instant power consumption in Watts
totalusage Number:Energy Used energy in Kilowatt hours
teachInCMD Switch Sends a teach-in msg, content can configured with parameter teachInMSG
virtualSwitchA Switch Used to convert switch item commands into rocker switch messages (channel A used)
Time in ms between sending a pressed and release message can be defined with channel parameter duration.
The switch mode (rocker switch: use DIR1 and DIR2, toggle: use just one DIR) can be set with channel parameter switchMode (rockerSwitch, toggleButtonDir1, toggleButtonDir2)
virtualRollershutterA Rollershutter Used to convert rollershutter item commands into rocker switch messages (channel A used)
rockerswitchListenerSwitch Switch Used to convert rocker switch messages into switch item state updates
rockerswitchListenerRollershutter Rollershutter Used to convert rocker switch messages into rollershutter item state updates
virtualRockerswitchB String Used to send plain rocker switch messages (channel B used)
batteryVoltage Number:ElectricPotential Battery voltage for things with battery
energyStorage Number:ElectricPotential Energy storage, don't know what this means...
batterLevel Number Battery level in percent
dayNightModeState Number 0 = Night mode on, 1 = day mode on
batterLow Switch Battery low indicator
smokeDetection Switch Smoke detected
sensorFault Switch Smoke sensor fault
timeSinceLastMaintenance Number:Time Time since last maintenance
remainingPLT Number:Time Remaining product life time
hygroComfortIndex String Hygrothermal Comfort Index
indoorAirAnalysis String Indoor Air Analysis
ventilationOperationMode String Direct Operation Mode Control
fireplaceSafetyMode Switch Fireplace Safety Mode
heatExchangerBypassStatus Contact Heat Exchanger Bypass Status
supplyAirFlapStatus Contact Supply Air Flap Position
exhaustAirFlapStatus Contact Exhaust Air Flap Position
defrostMode Switch Defrost Mode
coolingProtectionMode Switch Cooling Protection Mode
outdoorAirHeaterStatus Switch Outdoor Air Heater Status
supplyAirHeaterStatus Switch Supply Air Heater Status
drainHeaterStatus Switch Drain Heater Status
timerOperationMode Switch Timer Operation Mode
weeklyTimerProgramStatus Switch Weekly Timer Program Status
roomTemperatureControlStatus Switch Room Temperature Control Status
airQualityValue1 Number:Dimensionless Air Quality Value in percent
airQualityValue2 Number:Dimensionless Air Quality Value in percent
outdoorAirTemperature Number:Temperature Outdoor Temperature
supplyAirTemperature Number:Temperature Supply Air Temperature
indoorAirTemperature Number:Temperature Indoor Temperature
exhaustAirTemperature Number:Temperature Exhaust Air Temperature
supplyAirFanAirFlowRate Number:VolumetricFlowRate Supply Air Fan Air Flow Rate
exhaustAirFanAirFlowRate Number:VolumetricFlowRate Exhaust Air Fan Air Flow Rate
supplyFanSpeed Number:Dimensionless Supply Fan Speed in rpm
exhaustFanSpeed Number:Dimensionless Exhaust Fan Speed
rssi Number Received Signal Strength Indication (dBm) of last received message
repeatCount Number Number of repeaters involved in the transmission of the telegram
lastReceived DateTime Date and time the last telegram was received

Items linked to bi-directional actuators (actuator sends status messages back) should always disable the autoupdate. This is especially true for Eltako rollershutter, as their position is calculated out of the current position and the moving time.

Channel Configuration

Some channels can be configured with parameters.

Channel type Parameter Meaning Possible values
rollershutter shutTime Time (in seconds) to completely close the rollershutter
dimmer rampingTime Duration of dimming A5-38-08: Ramping Time (in seconds), 0 = default ramping, 1..255 = seconds to 100%; D2-01-01: 0 = switch, 1-3 = timer 1-3, 4 = stop
eltakoDimmer Flag for Eltako dimmers, because Eltako does interpret this EEP differently True for Eltako dimmer, false otherwise. Defaults to true for compatibility purpose.
storeValue Store final value. For Eltako devices, block dimming value. True or false. Defaults to false.
teachInCMD manufacturerId Id is used for 4BS teach in with EEP HEX
teachInMSG Use this message if teach in type and/or manufacturer id are unknown HEX
totalusage validateValue Filter out increases more than 10.0 kWh and decreases less than 1.0 kWh true / false
tariff Tariff info or measurement channel to listen to 0-15
contact inverted Swap OPEN / CLOSED. Set True for Eltako FPE-2. true / false. Defaults to false.

Possible declaration in Thing DSL:

Thing centralCommand 11223344 "Light" @ "Living room" [ enoceanId="11223344", senderIdOffset=15, sendingEEPId="A5_38_08_02", receivingEEPId="A5_38_08_02" ] {
    Channels:
        Type teachInCMD : teachInCMD [ teachInMSG="E0400D80" ]
        Type dimmer : dimmer [ rampingTime=0 ]
}

Rules and Profiles

The rockerSwitch things use system:rawrocker channel types. So they trigger DIR1[/2]_PRESSED and DIR1[/2]__RELEASED events. These channels can be directly linked to simple items like Switch, Dimmer or Player with the help of profiles. If you want to do more advanced stuff, you have to implement rules which react to these events

rule "Advanced rocker rule"
when
    Channel 'enocean:rockerSwitch:gtwy:AABBCC00:rockerswitchA' triggered DIR1_PRESSED
then
    // do some advanced stuff
end

Example

Bridge enocean:bridge:gtwy "EnOcean Gateway" [ path="/dev/ttyAMA0" ] {
   Thing rockerSwitch rs01 "Rocker" @ "Kitchen" [ enoceanId="aabbcc01", receivingEEPId="F6_02_01" ]
   Thing mechanicalHandle mh01 "Door handle" @ "Living room" [ enoceanId="aabbcc02", receivingEEPId="F6_10_00" ]
   Thing roomOperatingPanel p01 "Panel" @ "Floor" [ enoceanId="aabbcc03", receivingEEPId="A5_10_06" ]
   Thing centralCommand cc01 "Light" @ "Kitchen" [ enoceanId="aabbcc04", senderIdOffset=1, sendingEEPId="A5_38_08_01", receivingEEPId="F6_00_00", broadcastMessages=true, suppressRepeating=false ]
   Thing centralCommand cc02 "Dimmer" @ "Living room" [ enoceanId="aabbcc05", senderIdOffset=2, sendingEEPId="A5_38_08_02", receivingEEPId="A5_38_08_02", broadcastMessages=true, suppressRepeating=false ]
   Thing rollershutter r01 "Rollershutter" @ "Kitchen" [ enoceanId="aabbcc06", senderIdOffset=3, sendingEEPId="A5_3F_7F_EltakoFSB", receivingEEPId="A5_3F_7F_EltakoFSB", broadcastMessages=true, suppressRepeating=false ] {Channels: Type rollershutter:rollershutter [shutTime=25]}
   Thing measurementSwitch ms01 "TV Smart Plug" @ "Living room" [ enoceanId="aabbcc07", senderIdOffset=4, sendingEEPId="D2_01_09", broadcastMessages=false, receivingEEPId="D2_01_09","A5_12_01", suppressRepeating=false, pollingInterval=300]
   Thing classicDevice cd01 "Garage_Light" @ "Garage" [ 
        senderIdOffset=5, 
        sendingEEPId="F6_02_01", 
        broadcastMessages=true, 
        receivingEEPId="F6_02_01",
        suppressRepeating=false 
   ] {
        Type virtualSwitchA             : virtualSwitchA              [duration=300, switchMode="rockerSwitch"]
        Type rockerswitchListenerSwitch : Listener1 "Schalter links"  [enoceanId="aabbcc08", channel="channelA", switchMode="toggleButtonDir1"]
        Type rockerswitchListenerSwitch : Listener2 "Schalter rechts" [enoceanId="aabbcc09", channel="channelB", switchMode="toggleButtonDir2"]
   }
}
Player Kitchen_Sonos "Sonos" (Kitchen) {channel="sonos:PLAY1:ID:control", channel="enocean:rockerSwitch:gtwy:rs01:rockerswitchA" [profile="system:rawrocker-to-play-pause"]}
Dimmer Kitchen_Hue "Hue" <light> {channel="enocean:rockerSwitch:gtwy:rs01:rockerswitchB" [profile="system:rawrocker-to-dimmer"], channel="hue:0220:0017884f6626:9:brightness"}
Rollershutter Kitchen_Rollershutter "Roller shutter" <blinds> (Kitchen) {channel="enocean:rollershutter:gtwy:r01:rollershutter", autoupdate="false"}
Switch Garage_Light "Switch" {
        channel="enocean:classicDevice:gtwy:cd01:virtualRockerswitchA", 
        channel="enocean:classicDevice:gtwy:cd01:Listener1", 
        channel="enocean:classicDevice:gtwy:cd01:Listener2"
}

Generic Things

If an EnOcean device uses an unsupported EEP or A5-3F-7F, you have to create a genericThing. Generic things support all channels like switch, number, string etc as generic channels. However you have to specify how to convert the EnOcean messages of the device into openHAB state updates and how to convert the openHAB commands into EnOcean messages. These conversion functions can be defined with the help of transformation functions like MAP.

Thing type Parameter Meaning Possible Values
genericThing senderIdOffset 1-127
enoceanId EnOceanId of device this thing belongs to hex value as string
sendingEEPId EEP used for sending msg F6_FF_FF, A5_FF_FF, D2_FF_FF
receivingEEPId EEP used for receiving msg F6_FF_FF, A5_FF_FF, D2_FF_FF
broadcastMessages true, false
suppressRepeating true, false

Supported channels: genericSwitch, genericRollershutter, genericDimmer, genericNumber, genericString, genericColor, genericTeachInCMD. You have to define the transformationType (e.g. MAP) and transformationFunction (e.g. for MAP: file name of mapping file) for each of these channels.

For an inbound transformation (EnOcean message => openHAB state) you receive the channel id and the EnOcean data in hex separated by a pipe. Your transformation function has to return the openHAB State type and value separated by a pipe. If you want to use a mapping transformation, your mapping file has to look like this for a genericThing using EEP F6_FF_FF:

ChannelId|EnoceanData(Hex)=openHABState|Value
genericSwitch|70=OnOffType|ON
genericSwitch|50=OnOffType|OFF
genericRollershutter|70=PercentType|0
genericRollershutter|50=PercentType|100

For an outbound transformation (openHAB command => EnOcean message) you receive the channel id and the command separated by a pipe. Your transformation function has to return the payload of the EnOcean message. You do not have to worry about CRC and header data. If you want to use a mapping transformation, your mapping file has to look like this for a genericThing using EEP A5_FF_FF:

ChannelId|openHABCommand=EnoceanData(Hex)
genericSwitch|ON=01000009
genericSwitch|OFF=01000008

Credits

Many thanks to:

  • The NodOn support for their hints about the ADT and UTE teach in messages.
  • The fhem project for the inspiration and their EnOcean addon
  • bakkerv for implementing EEP A5-11-04
  • bodiroga for implementing the USB Discovery service
  • Casshern81 for his work on the documentation, valuable hints and testing efforts
  • dominikkv for implementing a lot of EEPs and source code improvements
  • leifbladt for his work on the installation notes