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⚠️ New Code-Base - PLEASE READ!⚠️
- Backup your data before update (different config structure!). If you make a downgrade of this integration (<2023.9) restore your data backup (The entries for Luxtronik in ./storage/core.config_entries + core.device_registry + core.entity_registry should be enough.)! If not you get double entities!
- This release has no more language selection. The HA backend language is used.
- Some entities which can not detected automaticly are hidden or disabled by default. In the devices you can find them and activate it. Please check this list before creating issues with entity whiches.
- The RBE Room Temperature Sensor is currently not implemented.
- The update sensor "rings" for new firmware versions, but the "Install"-Button has no function. The Firmware has to be installed manually. An the Install-Button is necessary to get notified.
- In the integration configuration you can set a ha sensor id for the indoor temperature value.
⚠️ Known Issues⚠️
- Runtime warning "untimeWarning: coroutine ... was never awaited ...". #116 #138 #108 Please don't create tickets for this!
- Cooling is not full implemented! #128
This component has been created to be used with Home Assistant.
⚠️ Use at your own risk!⚠️
You can write config parameters to your heatpump, altering it's efficiency and functionality.
Please be careful.
Based on Bouni/luxtronik / Bouni/python-luxtronik. ❤️
This component extends the original luxtronik component with automatic discovery of the heatpump und home assistant climate thermostat. The Luxtronik
integration lets you monitor and control heat pump units containing a Luxtronik controller. It is used by various manufacturers such as:
- Alpha Innotec
- Siemens Novelan
- Roth
- Elco
- Buderus
- Nibe
- Wolf Heiztechnik
This integration works locally. It's only necessary to connect the Luxtronik controller to your network using an ethernet cable. No additional hard- or software is needed.
- Installation
1.1 HACS (Recommended)
1.2 Manual installation - Adding Luxtronik
- Tips for using Luxtronik
3.1 Energy use
3.2 Additional sensors (advanced) - Support / Creating tickets
Add the custom repo to HACS
- Go to 'HACS > Integration'
- Select 'Custom repositories' from the top right menu
- Under Repository, enter 'https://github.com/BenPru/luxtronik'
- Under Category, select 'Integration'
- Click 'Add' The new integration will appear as a new integration and under 'Explore & Download Repositories' in the bottom right
Install the integration
- Click on the new integration or find it under 'Explore & Download Repositories' in the bottom right with the search word 'luxtronik'.
- Select 'download' at the bottom right.
- Restart Home Assistant
Add the integration to Home Assistant
- Download the latest release of the Luxtronik integration from this repository
- In Home Assistant, create a folder 'config/custom_components'
- Add the Luxtronik integration to the 'custom_components' folder;
- Restart Home Assistant;
Install the integration
- Add the Luxtronik integration to Home Assistant (
Settings -> Devices & services -> Add integration
); - Restart Home Assistant;
Your heatpump should be autodiscovered by home assistant.
Press Configure
and follow the steps to the end.
'If auto discovery does not work, please give feedback with the first six chars of your luxtronik heatpump mac address, the original hostname, the manufacturer and model.
To add the heatpump manually go to Settings -> Devices & services -> Add integration
and add a new Luxtronik device.'
Select Configure and review the settings.
ℹ️ Ensure the IP address is static. This can be configured in your router.'
It's not always clear from the name alone what an entity exactly means and how it effects your heatpump. The main source of information is ofcourse the Luxtronik Operating Manual.
Another great source is FHEM - Luxtronik 2.0. It's in German so use Google Translate.
It contains details about the various parameters and how to use them to optimize your heatpump efficiency. Read carfully though. Make small incremental changes and monitor your progress in Home Assistant. You don't want to miss out on this information.
Not all heatpumps have build in electrical energy metering and instead only show the energy produced in heat, not the energy consumed in electricity. Adding a (strong) energy meter is a nice addition to measure the SCOP of your device. Shelly energy meters are recommended since they offer offer a 16A power plug and a variety of in-line or clamp energy meters with various protection mechanisms.
If you miss a sensor please have a look in the devices under "+n entities not shown". Not all entities can autodetect by the integration. You can enable the entities by your self.
The most usefull sensors and parameters are created automaticly. But if you miss a sensor you can add it manually via yaml configuration like the original module from Bouni/luxtronik.
A short description of many of the available sensors can be found here Loxwiki - Luxtronik Java Web Interface
Take these files as a reference to figure ot which IDs to use:
- https://github.com/Bouni/python-luxtronik/blob/master/luxtronik/parameters.py
- https://github.com/Bouni/python-luxtronik/blob/master/luxtronik/calculations.py
- https://github.com/Bouni/python-luxtronik/blob/master/luxtronik/visibilities.py
In order to change parameters on the Luxtronik conroller, you can use the following service:
Domain: luxtronik2
Service: write
Service Data: {"parameter": "ID_Ba_Hz_akt", "value": "Automatic"}
- parameter
- description: ID of the parameter.
- type: string
- value
- description: Value you want to set the parameter to.
- type: [string, float]
Only a small number of the over 1100 parameters have a known funtion and only these can be written, these are:
ID_Ba_Hz_akt
The mode of operation of the heating circuit, possible values are "Automatic", "Second heatsource", "Party", "Holidays", "Off"ID_Ba_Bw_akt
The mode of operation of the hot water circuit, possible valus are "Automatic", "Second heatsource", "Party", "Holidays", "Off"ID_Soll_BWS_akt
The set point for hot water generation, for example 50.0 for 50.0°CID_Einst_BA_Kuehl_akt
The mode of operation of the cooling circuit, possible values are "Automatic", "Off"ID_Einst_KuehlFreig_akt
The outdoor temprature from wher on the cooling should start to operate, for example 24.0ID_Ba_Sw_akt
The mode of operation of the swimming pool heating circuit, possible values are "Automatic", "Party", "Holidays", "Off"ID_Einst_TDC_Max_akt
Max. temperature difference of the hot water buffer tank, for example 70.0ID_Sollwert_KuCft1_akt
Cooling set point for mixer circuit 1, for example 19.0ID_Sollwert_KuCft2_akt
Cooling set point for mixer circuit 2, for example 19.0ID_Sollwert_AtDif1_akt
Cooling working temperature difference 1, for example 5.0ID_Sollwert_AtDif2_akt
Cooling working temperature difference 2, for example 5.0ID_Ba_Hz_MK3_akt
The mode of operation of the heating mixer circuit 3, possible values are "Automatic", "Party", "Holidays", "Off"ID_Einst_Kuhl_Zeit_Ein_akt
Cooling outdoor temperature overrun, for example 0.0ID_Einst_Kuhl_Zeit_Aus_akt
Cooling outdoor temperature underrun, for example 0.0ID_Einst_Solar_akt
Mode of operation for solar heat generation, "Automatic", "Second heatsource", "Party", "Holidays", "Off"ID_Einst_BA_Lueftung_akt
Mode of operation of the integrated ventilation unit, posisble values are "Automatic", "Party", "Holidays", "Off"ID_Sollwert_KuCft3_akt
Cooling set point for mixer circuit 3, for example 20.0ID_Sollwert_AtDif3_akt
Cooling working temperature difference 3, for example 5.0
ℹ️ Before changing a parameter it smart to first read the current value and note it somewhere in case you want to set it back to its original value. All parameters can be configured as sensors and read that way.
If you create a ticket please provide always a diagnostic file as issue attachment: