This project uses STM8 eForth to turn the off-the-shelf board W1209 into a data logging thermostat with a console interface and an embedded programming environment. It provides source code, a ready-to-use firmware, and documentation.
Features are:
- a heating thermostat, e.g. for a chicken egg incubator
- no special tool installation necessary
- ready-made binaries, and source code, are provided
- new binaries can be built with the help of Travis-CI (or locally on your Linux machine)
- interactive programming in Forth, even while the thermostat task is running!
- any serial terminal program can be used, e.g. picocom, cutecom, or e4thcom
- data logger with a 144 entry ring-buffer, a 0.1h to 10h intervall, and log access through the serial console
L.dumpcommand prints the log through the serial console - the last line is the latest entryL.wipecommand erases the log memory- records lowest and highest temperature
- records the number of relay cycles and the heating duty cycle
- detection of "sensor disconnected failure"
- easy to use parameters menu for set-point, hysteresis, and trip-delay
This is work in progress although it's feature-complete. Please consider the software "beta" (please write an issue if you need support or want to give feedback :-) ).
Possible future features:
- a simple "field-bus" for building a network of thermostat units
- more fail-safe features (e.g. parameter integrity, limits monitoring)
Please note that implementing new features may require using a more compact STM8 eForth build, or removing existing features. The STM8 eForth modular-build feature makes that easy.
With minor modifications the code can be used for other generic thermostat boards for which STM8s eForth support exists. Other boards can be added with the help of modular-build. The code can also be used for non-interactive thermostats, e.g. using a C0135 Relay Board.
Note: STM8 eForth only works on supported STM8 chips - W1209 boards with a Nuvoton chip will have to be modified before they can be used with the code in this repository!
512 of the 576 bytes logging buffer rely on an undocumented STM8S003F3P6 feature which might not work in some chips. Although there are no known cases of where the extended EEPROM didn't work, using an STM8S103F3P6 chip or reducing the logging buffer to 64 bytes will always work.
After programming the firmware binary to the W1209 board, it should work as normal thermostat. Parameters can be set using the board keys (set, +, -).
The following items are recommended for programming:
| W1209 | ST-Link programmer | TTL-Serial-Interface |
|---|---|---|
 |
 |
 |
Please refer to the STM8 eForth Wiki for instructions on programming the W1209 using an ST-Link compatible programmer.
After programming, the display should show the temperature value (in °C), or .dEF. (default) if no sensor is connected).
Before using the thermostat, please reset the parameter values by holding the keys + and - until the text rES. appears on the LED display (about 4s). Pressing the set key leads to the parameter menu. The menu returns to the temperature display when no key is pressed for more than 10s.
The software currently supports the following parameters:
| Display | Range | Default | Unit | Description |
|---|---|---|---|---|
SEt. |
10.0 - 80.0 | 37.5 | °C | Heating thermostat set point (switch off above) |
LoG. |
0.0 - 10.0 | 10.0 | h | Logger interval in hours |
dEL. |
0.0 - 60.0 | 0.0 | s | thermostat heating trip delay |
Cor. |
-2.0 - 2.0 | 0.0 | °C | thermometer offset (for corrections around desired set-point) |
hYS. |
0.1 - 2.0 | 0.5 | °C | thermostat hysteresis (difference between the lower and the upper trip points) |
Note that in most cases hanging the trip delay parameter dEL. should not be required.
The data logger feature uses the upper 576 bytes of the internal EEPROM as a 144 entry ring-buffe. The logger interval (time between samples) can be defined in the range from 6 minutes (0.1h) to 10h by the menu item LoG..
The following items are recorded:
- Lowest temperature
- Highest temperature
- Heating duty cycle
DC = 100% * t.on/(t.on + t.off) - Number of relay cycles
The data log can be accessed through the Forth console with the command L.dump. The log can be wiped with the command L.wipe. To use the Forth console, connect a serial interface adapter to the + and - key pins.
The following chart demonstrates the influence of insulation improvements, a hysteresis parameter change, and the effect of heating temperature setback overnight in my living room:
Such a chart can be created with the following steps:
- set the log interval according to the required observation time
- 0.1h for control optimization
- e.g. 3.5h for the 3 weeks that it takes to hatch a chicken egg
- let the thermostat run (no intervention required)
- connect a TTL-RS232 interface to the keys
+(RX) and-(TX) (pins next to the LED display) - access the console with a serial terminal program with the settings "9600-N-8-1"
- for Linix e.g. e4thcom, minicom, picoterm, or miniterm.py
- for Windos e.g. miniterm.py, PuTTY, Hyperterminal
- press the
ENTERkey - STM8 eForth should respond withok
- type
L.dumpto extract the data (note: the last line is "now") - take a note of the read out time, and the log interval)
- copy and paste the data to a spread sheet program
- use the known read-out time, and the log intervall for the time in the x-axis of an x/y chart
control.fs implements a very simple 2-point controller with hysteresis, and delay. There is no other reason for either of the parameters other than they can be used for mitigating noise, which the sensor measurement already takes care of.
In future versions it may be replaced by a simple PI controller, where the relay duty cycle is the control variable.
Clone this repository, an run make depend for dependency resolution. This will download an STM8 eForth binary, and add required folders, files, and symlinks.
The general workflow for set-up is this:
- clone the repository
- install stm8flash
- connect a ST-LINK-V2 dongle to a W1209
- run
make defaultsto wipe the stock firmware- warning: there is no known public source for the stock firmware, and after erasing it there is no way back!
- run
maketo flash the STM8EF binary - for interactive scripting install e4thcom
- optionally install the development version of ucSim (or use the Docker image) to take advantage of off-line image creation
For programming the W1209 binary please follow the instructions in the STM8EF Wiki page for board W1209 (if stm8flash is installed just run make flash).
Interactive scripting through the serial console is supported by the STM8 eForth base binary. Please refer to the instructions for getting a serial console.
The recommended terminal emulator is e4thcom: it supports line editing, and upload of source files with #include, and using a library with #require. Type #i main.fs to load the complete source code.
For Continuous Integration use cases make simload applies ucSim to create an STM8 binary file that contains the full thermostat script, including the W1209-FD base image. The Docker image tg9541/docker-sdcc contains tool dependencies for Continuous Integration (refer to .travis.yml or use the Travis-CI badge to browse the execution log).
The code is based on the STM8EF binary release. The Makefile uses the "modular build" method to automatically build a binary for the board support folder W1209-FD.
Please refer to the STM8EF Wiki for more information.
This is a community projecy - it's driven by user contributions!
Please write an issue if you have questions, post a comment in the HACKADAY.IO project, or contribute docs, code, new use-cases and requirements.
Also consider writing about it in forums, blogs, on Twitter, or make a YouTube video in your native language, so that others can find it (please use #W1209 and #STM8EF hashtags).
The code in this repository can be used for commercial applications in compliance with to the license conditions.