An ESP8266 based smart meter (SML) to MQTT gateway
The aim of this project is to read the meter readings of modern energy meters and make them available via MQTT.
The software was primarily developed and tested for the EMH ED300L electricity meter, but should also work with other energy meters that have an optical interface and communicate via the SML protocol.
SMLReader publishes the metrics read from the meter's optical unit to an MQTT broker configured via the provided web interface.
If you like this project, you might consider to support me.
MB-Monty ➜ ~ mosquitto_sub -h 10.4.32.103 -v -t smartmeter/mains/#
smartmeter/mains/info Hello from 00C7551E, running SMLReader version 2.1.5.
smartmeter/mains/sensor/1/obis/1-0:1.8.0/255/value 3546245.9
smartmeter/mains/sensor/1/obis/1-0:2.8.0/255/value 13.2
smartmeter/mains/sensor/1/obis/1-0:1.8.1/255/value 0.0
smartmeter/mains/sensor/1/obis/1-0:2.8.1/255/value 13.2
smartmeter/mains/sensor/1/obis/1-0:1.8.2/255/value 3546245.9
smartmeter/mains/sensor/1/obis/1-0:2.8.2/255/value 0.0
smartmeter/mains/sensor/1/obis/1-0:16.7.0/255/value 451.2
The reading head consists of a phototransistor (BPW 40) and a 1 kΩ pull-up resistor connected to one of the GPIO pins of the microcontroller. Other phototransistors or the use of an internal pull-up resistor will probably work, too.
The housing of my reading head has been 3D-printed using the STL files from Stefan Weigert.
A ring magnet (in my case dimensioned 27x21x3mm) ensures that the reading head keeps stuck on the meter.
The phototransistor has been fixed with hot glue within the housing.
To get started, the software must first somehow get onto the device. This can be done in several ways.
A precompiled binary for the Wemos D1 and configured to have a sensor attached to pin D2 can be downloaded from the releases page on GitHub:
https://github.com/mruettgers/SMLReader/releases
This precompiled binary can be flashed to the device with the help of esptool.py. Other tools should also work, as long as you have configured them to match the specs of your ESP8266.
esptool.py --port /dev/ttyUSB0 write_flash -fm dout 0x00000 path/to/smlreader.bin
As a docker enthusiast I prefer to utilize a dockerized version of esptool.py by bind-mounting the current working directory to /src
and assuming that smlreader.bin
is existing in the current working directory:
docker run -it --device /dev/ttyUSB0 -v $(pwd):/src --rm mruettgers/esptool --port /dev/ttyUSB0 write_flash -fm dout 0x00000 /src/smlreader.bin
The device path and the path to the binary have to be adjusted to fit your needs.
nb-ubuntu ➜ ~/Downloads ls SMLReader_D1mini_v2.1.3.bin
SMLReader_D1mini_v2.1.3.bin
nb-ubuntu ➜ ~/Downloads docker run -it --device=/dev/ttyUSB0 -v $(pwd):/src --rm mruettgers/esptool --port /dev/ttyUSB0 write_flash -fm dout 0x00000 /src/SMLReader_D1mini_v2.1.3.bin
esptool.py v2.8
Serial port /dev/ttyUSB0
Connecting....
Detecting chip type... ESP8266
Chip is ESP8266EX
Features: WiFi
Crystal is 26MHz
MAC: d8:f1:5b:07:0d:eb
Uploading stub...
Running stub...
Stub running...
Configuring flash size...
Auto-detected Flash size: 4MB
Flash params set to 0x0340
Compressed 378528 bytes to 266738...
Wrote 378528 bytes (266738 compressed) at 0x00000000 in 23.6 seconds (effective 128.1 kbit/s)...
Hash of data verified.
Leaving...
Hard resetting via RTS pin...
You should be able to use your preferred IDE to build and flash SMLReader if you take care of the dependencies and the build flags configured in the platform.io
file.
I strongly recommend using PlatformIO as it takes care of that itself.
The configuration of the reading heads is done by editing src/config.h
and adjusting SENSOR_CONFIGS
(see below).
static const SensorConfig SENSOR_CONFIGS[] = {
{.pin = D2, // GPIO pin of the phototransistor
.name = "1", // Sensor name used in MQTT topic
.numeric_only = false, // If "true", only numeric values are being published via MQTT
.status_led_enabled = true, // Flash status LED (3 times) when an SML start sequence has been found
.status_led_inverted = true, // Some LEDs (like the ESP8266 builtin LED) require an inverted output signal
.status_led_pin = LED_BUILTIN, // GPIO pin used for sensor status LED
.interval = 0 // If greater than 0, messages are published every [interval] seconds
},
{.pin = D5,
.name = "2",
.numeric_only = false,
.status_led_enabled = true,
.status_led_inverted = true,
.status_led_pin = LED_BUILTIN,
.interval = 0
},
{.pin = D6,
.name = "3",
.numeric_only = false,
.status_led_enabled = true,
.status_led_inverted = true,
.status_led_pin = LED_BUILTIN,
.interval = 15
}
};
Building SMLReader in PlatformIO is straight forward and can be done by executing the build task matching your environment (i.e. d1_mini
).
In case you get the following error, it is time to install a Git client (https://git-scm.com/downloads) and to make sure that the path to git
is covered by the PATH variable and git
is thus executable from everywhere.
UserSideException: Please install Git client from https://git-scm.com/downloads:
File "/home/monty/.platformio/penv/lib/python3.8/site-packages/platformio/builder/main.py", line 168:
env.SConscript("$BUILD_SCRIPT")
WiFi and MQTT are configured via the web interface provided by IotWebConf and which can be reached after joining the WiFi network named SMLReader and heading to http://192.168.4.1.
If the device has already been configured, the web interface can be reached via the IP address obtained from your local network's DHCP server.
To login provide the user admin
and the configured AP password.
Attention: You have to change the AP Password (empty by default), otherwise SMLReader won't work.
If everything is configured properly and running with a sensor in place, SMLReader will publish the metrics and values received from the meter to the configured MQTT broker:
MB-Monty ➜ ~ mosquitto_sub -h 10.4.32.103 -v -t smartmeter/mains/#
smartmeter/mains/info Hello from 00C7551E, running SMLReader version 2.1.5.
smartmeter/mains/sensor/1/obis/1-0:1.8.0/255/value 3546245.9
smartmeter/mains/sensor/1/obis/1-0:2.8.0/255/value 13.2
smartmeter/mains/sensor/1/obis/1-0:1.8.1/255/value 0.0
smartmeter/mains/sensor/1/obis/1-0:2.8.1/255/value 13.2
smartmeter/mains/sensor/1/obis/1-0:1.8.2/255/value 3546245.9
smartmeter/mains/sensor/1/obis/1-0:2.8.2/255/value 0.0
smartmeter/mains/sensor/1/obis/1-0:16.7.0/255/value 451.2
smartmeter/mains/sensor/2/obis/1-0:1.8.0/255/value 3546245.9
smartmeter/mains/sensor/2/obis/1-0:2.8.0/255/value 13.2
smartmeter/mains/sensor/2/obis/1-0:1.8.1/255/value 0.0
smartmeter/mains/sensor/2/obis/1-0:2.8.1/255/value 13.2
smartmeter/mains/sensor/2/obis/1-0:1.8.2/255/value 3546245.9
smartmeter/mains/sensor/2/obis/1-0:2.8.2/255/value 0.0
smartmeter/mains/sensor/2/obis/1-0:16.7.0/255/value 451.2
smartmeter/mains/sensor/3/obis/1-0:1.8.0/255/value 3546245.9
smartmeter/mains/sensor/3/obis/1-0:2.8.0/255/value 13.2
smartmeter/mains/sensor/3/obis/1-0:1.8.1/255/value 0.0
smartmeter/mains/sensor/3/obis/1-0:2.8.1/255/value 13.2
smartmeter/mains/sensor/3/obis/1-0:1.8.2/255/value 3546245.9
smartmeter/mains/sensor/3/obis/1-0:2.8.2/255/value 0.0
smartmeter/mains/sensor/3/obis/1-0:16.7.0/255/value 451.2
Serial logging can be enabled by setting SERIAL_DEBUG=true
in the platformio.ini
file before building.
To increase the log level and to get the raw SML data, also set SERIAL_DEBUG_VERBOSE=true
.
A serial port monitor can be attached using the corresponding function of your IDE or by invoking a terminal client like miniterm
which comes shipped with python-serial
.
The serial port settings are 115200,8,N,1
.
miniterm /dev/ttyUSB0 115200
nb-ubuntu ➜ ~/Downloads miniterm /dev/ttyUSB0 115200
--- Miniterm on /dev/ttyUSB0 115200,8,N,1 ---
--- Quit: Ctrl+] | Menu: Ctrl+T | Help: Ctrl+T followed by Ctrl+H ---
Config size: 685
Wrong config version.
AP password was not set in configuration
State changing from: 0 to 1
Setting up AP: SMLReader
With default password: <hidden>
AP IP address: 192.168.4.1
State changed from: 0 to 1
...
Or the dockerized way:
docker run -it --device /dev/ttyUSB0 -v $(pwd):/src --rm mruettgers/esptool ash -c "miniterm.py /dev/ttyUSB0 115200"
- https://www.msxfaq.de/sonst/bastelbude/smartmeter_d0_sml_protokoll.htm
- https://www.photovoltaikforum.com/thread/78798-sml-pr%C3%BCfsummenberechnung-ich-verzweifle-an-crc/ (Helped me to finally solve some weird CRC calculation issues before switching over to libSML)
- http://www.stefan-weigert.de/php_loader/sml.php (Sources of the 3D-printed housing of the reading head)
- https://github.com/gemu2015/Sonoff-Tasmota (Gemu's excellent Tasmota version with SML support)
- Use LITTLEFS for config storage
- New configuration GUI based on Preact
- Configuration of sensors via web interface
- Add list of devices that are known to work
- Support for ASCII based SML messages (also known as "SML in Textform")
- Deep sleep for battery powered devices
- Grafana / InfluxDB tutorial based on docker
- KNX support for sending readings via an IP gateway to the bus
Distributed under the GPL v3 license.
See LICENSE for more information.