Welcome to the MTECmqtt
project!
This project enables to read data from a M-TEC Energybutler (https://www.mtec-systems.com) system and write them to a MQTT broker.
The highlights are:
- No additional hardware or modifications of your Inverter required
- Just install on any existing (micro-)server, e.g. Rasperry Pi or NAS server
- Works within you LAN - no internet connection required
- Supports more than 80 parameters
- Clustered reading of sequential register to reduce modbus traffic and load
- Enables frequent polling of data (e.g. every 10s)
- MQTT enables an easy integration into almost any EMS or home automation tool
- Home Assistant (https://www.home-assistant.io) auto discovery via MQTT
- Home Assistant demo dashboard included
- Easy and prepared integration into evcc (https://evcc.io), which enables PV surplus charging
I hope you like it and it will help you with for your EMS or home automation project :-) !
- Re-packaged supporting a simplified installation
- Optimized register scanning
- Removed some over complicated configuration options in config.yaml
This project is a pure hobby project which I created by reverse-engineering different internet sources and my M-TEC Energybutler. It is not related to or supported by M-TEC GmbH by any means.
Usage is completely on you own risk. I don't take any responsibility on functionality or potential damage.
This project would not have been possible without the really valuable pre-work of other people, especially:
- https://www.photovoltaikforum.com/thread/206243-erfahrungen-mit-m-tec-energy-butler-hybrid-wechselrichter
- https://forum.iobroker.net/assets/uploads/files/1681811699113-20221125_mtec-energybutler_modbus_rtu_protkoll.pdf
- https://smarthome.exposed/wattsonic-hybrid-inverter-gen3-modbus-rtu-protocol
- The Home Assistant "blue theme" background was thankfully provided by Enrico from redK! Webdesign & Content Management
The project was developed using my M-TEC Energybutler 8kW-3P-3G25
, but I assume that it will also work with other Energybutler GEN3 versions (https://www.mtec-systems.com/batteriespeicher/energy-butler-11-bis-30-kwh/).
It seems that there are at least three more Inverter products on the market which share the same (or at least a very similar) Chinese firmware. It might be that this API also works with these products. But since I do not have access to any of them, this is just a guess and up to you and your own risk to try it.
Provider | Link |
---|---|
Wattsonic | https://www.wattsonic.com/ |
Sunways | https://de.sunways-tech.com |
Daxtromn | https://daxtromn-power.com/products/ |
The MTECmqtt project connects to the espressif Modbus server of you M-TEC inverter, retrieves relevant data, and writes them to a MQTT broker (https://mqtt.org/) of your choice. MQTT provides a light-weight publish/subscribe model which is widely used for Internet of Things messaging. MQTT connectivity is implemented in many EMS or home automation tools. That means, you obviously require a MQTT server. If you don't have one yet, you might want to try https://mosquitto.org/. You can easily install it like this:
sudo apt install mosquitto mosquitto-clients
The basic installation requires only following 4 steps:
(1) Check your Python installation
python -V
If this returns something like Python 3.8.x
, you can just continue with the next step.
If it return command not found
, or Python 2.x
, try
python3 -V
If this returns something like Python 3.8.x
, remember that you need to use python3
and continue.
If both command return command not found
, you need to install python3 on you system before you can continue
(2) Create a new directory for the installation (e.g. within your HOME directory)
mkdir mtecmqtt && cd mtecmqtt
(3) Create and activate a virtual python environment for the project
python -m venv . && source bin/activate
If you remembered you require python3
, use this instead:
python3 -m venv . && source bin/activate
(4) Install the MTECmqtt project from github
pip install https://github.com/croedel/MTECmqtt/archive/refs/heads/main.zip
This is all you need to do for a standard setup!
IMPORTANT: M-TEC changed their Modbus port with firmware V27.52.4.0. If you run that version or a newer one, you need to change the MODBUS_PORT
in the config.yaml
to 502 !
As a next step, we can try to start the MQTT server. It will print out some debug info, so you can see what it does.
mtec_mqtt
You can stop the service by pressing CTRL-C or sending a SIGHUB. This will initiate a graceful shutdown. Please be patient - this might take a few seconds.
Starting the service in a shell - as we just did - will not create a permanent running service and is probably only useful for testing. If you want a permanently running service, you need to install a systemd autostart script for mtec_mytt.py
. The following command does this job:
sudo bin/install_systemd_service.sh
To check if the service is running smoothly, you can execute:
sudo systemctl status mtec_mqtt
This section give you more information about all configuration options. But don't be afraid - it should only be relevant for advanced use cases.
The installer will create a config.yaml
file in the default location of your OS.
For a Linux system it's probably ~/.config/mtecmqtt/config.yaml
, on Windowns something like C:\Users\xxxxx\AppData\Roaming\config.yaml
In order to connect to your Inverter, you need the IP address or internal hostname of your espressif
device.
If you run a FRITZ!Box, the pre-configured internal hostname espressif.fritz.box
will probably already work out-of-the-box.
Else you can easily adjust it like this:
- Login to your internet router
- Look for the list of connected devices
- You should find a devices called
espressif
- Copy the IPv4 address or internal hostname of this device to
config.yaml
file as value forMODBUS_IP
.
You probably don't need to change any of the other MODBUS_
config values.
IMPORTANT: M-TEC changed their Modbus port with firmware V27.52.4.0. If you run that version or a newer one, you need to change the MODBUS_PORT
in the config.yaml
to 502 !
# MODBUS Server
MODBUS_IP : espressif.fritz.box # IP address / hostname of "espressif" modbus server
MODBUS_PORT : 5743 # Port (IMPORTANT: you need to change this to 502 for firmware versions newer than 27.52.4.0)
MODBUS_SLAVE : 252 # Modbus slave id (usually no change required)
MODBUS_TIMEOUT : 5 # Timeout for Modbus server (s)
MODBUS_FRAMER: rtu # Modbus Framer (usually no change required; options: 'ascii', 'binary', 'rtu', 'socket', 'tls')
Hint for advanced users: If you run an external modbus adapter, connected e.g. to the EMS bus of the MTEC inverter, you might require to change the MODBUS_FRAMER
.
The MQTT_
parameters in config.yaml
define the connection to your MQTT server.
MQTT_SERVER : localhost # MQTT server
MQTT_PORT : 1883 # MQTT server port
MQTT_LOGIN : " " # MQTT Login
MQTT_PASSWORD : "" # MQTT Password
MQTT_TOPIC : "MTEC" # MQTT topic name
The other values of the config.yaml
you probably don't need to change as of now.
That's already all you need to do and you are ready to go!
The REFRESH_
parameters define how frequently the data gets fetched from your Inverter
REFRESH_NOW : 10 # Refresh current data every N seconds
REFRESH_DAY : 300 # Refresh daily statistic every N seconds
REFRESH_TOTAL : 300 # Refresh total statistic every N seconds
REFRESH_CONFIG : 3600 # Refresh config data every N seconds
mtec_mqtt
provides Home Assistant (https://www.home-assistant.io) auto-discovery, which means that Home Assistant will automatically detect and configure your MTEC Inverter.
If you want to enable Home Assistant support, set HASS_ENABLE: True
in config.yaml
.
# Home Assistent
HASS_ENABLE : True # Enable home assistant support
HASS_BASE_TOPIC : homeassistant # Basis MQTT topic of home assistant
HASS_BIRTH_GRACETIME : 15 # Give HASS some time to get ready after the birth message was received
As next step, you need to enable and configure the MQTT integration within Home Assistant. After that, the auto discovery should do it's job and the Inverter sensors should appear on your dashboard.
If you want, you can use and install one of the Home Assistant dashboards in templates
for a nice data visualization.
The map view requires to install a background image. To do so, create a sub-directory called www
in the config
directory of your Home Assistant installation (e.g. /home/homeassistant/.homeassistant/www/
) and copy the image to this directory.
There are two versions you can chose from:
Theme | Dashboard | Image |
---|---|---|
Dark theme | hass-dashboard.yaml | PV_background.png |
Blue theme | hass-dashboard-blue.yaml | PV_background-blue.png |
If you want to integrate the data into evcc (https://evcc.io), you might want to have a look at the evcc.yaml
snippet in the templates
directory. It shows how to define and use the MTEC meters
, provided in MQTT.
Please don't forget to replace <MTEC_SERIAL_NO>
with the actual serial no of your Inverter.
The exported data will be written to several MQTT topics. The topic path includes the serial number of your Inverter.
Sub-topic | Refresh frequency | Description |
---|---|---|
MTEC/<serial_number>/config | REFRESH_CONFIG seconds |
Relatively static config values |
MTEC/<serial_number>/now-base | REFRESH_NOW seconds |
Current base data |
MTEC/<serial_number>/now-grid | REFRESH_NOWEXT seconds |
Current extended grid data |
MTEC/<serial_number>/now-inverter | REFRESH_NOWEXT seconds |
Current extended inverter data |
MTEC/<serial_number>/now-backup | REFRESH_NOWEXT seconds |
Current extended backup data |
MTEC/<serial_number>/now-battery | REFRESH_NOWEXT seconds |
Current extended battery data |
MTEC/<serial_number>/now-pv | REFRESH_NOWEXT seconds |
Current extended PV data |
MTEC/<serial_number>/day | REFRESH_DAY seconds |
Daily statistics |
MTEC/<serial_number>/total | REFRESH_TOTAL seconds |
Lifetime statistics |
All float
values will be written according to the configured MQTT_FLOAT_FORMAT
. The default is a format with 3 decimal digits.
This diagram tries to visualize the power flow values and directions: (at least from my understanding)
+ -> + -> + -> PV ------- inverter ------- power connector ------- grid | | | ^ | | + + | + | | v v | Battery ------- | --------- house -------------------------- backup power
Remark: Some parameters - marked by (*)
- are calculated values.
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
10000 | serial_no | Inverter serial number | |
10011 | firmware_version | Firmware version | |
25100 | grid_inject_switch | Grid injection limit switch | |
25103 | grid_inject_limit | % | Grid injection power limit |
52502 | on_grid_soc_switch | On-grid SOC limit switch | |
52503 | on_grid_soc_limit | % | On-grid SOC limit |
52504 | off_grid_soc_switch | Off-grid SOC limit switch | |
52505 | off_grid_soc_limit | % | Off-grid SOC limit |
api_date | Local date of MTECmqtt server |
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
10100 | inverter_date | Inverter date | |
10105 | inverter_status | Inverter status (0=wait for on-grid, 1=self-check, 2=on-grid, 3=fault, 4=firmware update, 5=off grid) | |
11000 | grid_power | W | Grid power |
11016 | inverter | W | Inverter AC power |
11028 | pv | W | PV power |
30230 | backup | W | Backup power total |
30254 | battery_voltage | V | Battery voltage |
30255 | battery_current | A | Battery current |
30256 | battery_mode | Battery mode (0=Discharge, 1=Charge) | |
30258 | battery | W | Battery power |
33000 | battery_soc | % | Battery SOC |
50000 | mode | Inverter operation mode (257=General mode, 258=Economic mode, 259=UPS mode, 512=Off grid 771=Manual mode) | |
consumption | W | Household consumption (*) |
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
30200 | backup_voltage_a | V | Backup voltage phase A |
30201 | backup_current_a | A | Backup current phase A |
30202 | backup_frequency_a | Hz | Backup frequency phase A |
30204 | backup_a | W | Backup power phase A |
30210 | backup_voltage_b | V | Backup voltage phase B |
30211 | backup_current_b | A | Backup current phase B |
30212 | backup_frequency_b | Hz | Backup frequency phase B |
30214 | backup_b | W | Backup power phase B |
30220 | backup_voltage_c | V | Backup voltage phase C |
30221 | backup_current_c | A | Backup current phase C |
30222 | backup_frequency_c | Hz | Backup frequency phase C |
30224 | backup_c | W | Backup power phase C |
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
33001 | battery_soh | % | Battery SOH |
33003 | battery_temp | ℃ | Battery temperature |
33009 | battery_cell_t_max | ℃ | Battery cell temperature max. |
33011 | battery_cell_t_min | ℃ | Battery cell temperature min. |
33013 | battery_cell_v_max | V | Battery cell voltage max. |
33015 | battery_cell_v_min | V | Battery cell voltage min. |
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
10994 | grid_a | W | Grid power phase A |
10996 | grid_b | W | Grid power phase B |
10998 | grid_c | W | Grid power phase C |
11006 | ac_voltage_a_b | V | Inverter AC voltage lines A/B |
11007 | ac_voltage_b_c | V | Inverter AC voltage lines B/C |
11008 | ac_voltage_c_a | V | Inverter AC voltage lines C/A |
11009 | ac_voltage_a | V | Inverter AC voltage phase A |
11010 | ac_current_a | A | Inverter AC current phase A |
11011 | ac_voltage_b | V | Inverter AC voltage phase B |
11012 | ac_current_b | A | Inverter AC current phase B |
11013 | ac_voltage_c | V | Inverter AC voltage phase C |
11014 | ac_current_c | A | Inverter AC current phase C |
11015 | ac_fequency | Hz | Inverter AC frequency |
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
11032 | inverter_temp1 | ℃ | Temperature Sensor 1 |
11033 | inverter_temp2 | ℃ | Temperature Sensor 2 |
11034 | inverter_temp3 | ℃ | Temperature Sensor 3 |
11035 | inverter_temp4 | ℃ | Temperature Sensor 4 |
30236 | inverter_a | W | Inverter power phase A |
30242 | inverter_b | W | Inverter power phase B |
30248 | inverter_c | W | Inverter power phase C |
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
11022 | pv_generation_duration | h | PV generation time total |
11038 | pv_voltage_1 | V | PV1 voltage |
11039 | pv_current_1 | A | PV1 current |
11040 | pv_voltage_2 | V | PV2 voltage |
11041 | pv_current_2 | A | PV2 current |
11062 | pv_1 | W | PV1 power |
11064 | pv_2 | W | PV2 power |
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
31000 | grid_feed_day | kWh | Grid injection energy (day) |
31001 | grid_purchase_day | kWh | Grid purchased energy (day) |
31002 | backup_day | kWh | Backup energy (day) |
31003 | battery_charge_day | kWh | Battery charge energy (day) |
31004 | battery_discharge_day | kWh | Battery discharge energy (day) |
31005 | pv_day | kWh | PV energy generated (day) |
autarky_rate_day | % | Household autarky (day) (*) | |
consumption_day | kWh | Household energy consumed (day) (*) | |
own_consumption_day | % | Own consumption rate (day) (*) |
Register | MQTT Parameter | Unit | Description |
---|---|---|---|
31102 | grid_feed_total | kWh | Grid energy injected (total) |
31104 | grid_purchase_total | kWh | Grid energy purchased (total) |
31106 | backup_total | kWh | Backup energy (total) |
31108 | battery_charge_total | kWh | Battery energy charged (total) |
31110 | battery_discharge_total | kWh | Battery energy discharged (total) |
31112 | pv_total | kWh | PV energy generated (total) |
autarky_rate_total | % | Household autarky (total) (*) | |
consumption_total | kWh | Household energy consumed (total) (*) | |
own_consumption_total | % | Own consumption rate (total) (*) |
mtec_util
is an small inteative tool which enable to list the supported parameters and read and write registers of your Inverter.
You can choose between:
- 1: List all known registers
- 2: List register configuration by groups
- 3: Read register group from Inverter
- 4: Read single register from Inverter
- 5: Write register to Inverter
(1) lists all know registers. This includes the ones which are written to MQTT as listed above. You will find a few more registers, which are not mapped to MQTT (=no value in "mqtt") - mostly because I'm not sure if they are reliable or what they really mean.
(2) will give you a list of all mapped registers, similar to the one listed above.
(3) allows you to read the current values of all registers or of a certain group from your Inverter.
(4) allows you to read a sinfle register from your Inverter
(5) enables you to write a value to a register of your Inverter. WARNING: Be careful when writing data to your Inverter! This is definitively at your own risk!
The command-line tool mtec_export
offers functionality to read data from your Inverter using Modbus and export it in various combinations and formats.
As default, it will connect to your device and retrieve a list of all known Modbus registers in a human readable format.
By specifying commandline parameters, you can:
- Specify a register group (e.g.
-g config
) or "all" (-g all
) to export of all registers - Provide a customize list of Modbus registers which you would like to retrieve, e.g.
-r "33000,10105,11000"
- Request to export CSV instead of human readable (
-c
) - Write output to a file (
-f FILENAME
)