💾 Archived View for gemini.kicou.info › posts › 2021-05-12-rtl433.gmi captured on 2023-11-14 at 07:29:24. Gemini links have been rewritten to link to archived content
⬅️ Previous capture (2021-11-30)
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We have a thermometer/hygrometer kit to keep track data:
Home Assistant temperature tile
It is actually easy to capture and decode RF signals using a DVB-T USB dongle, the RTL-SDR driver and the RTL-433 decoding software.
An RTL8232-based DVB-T dongle is normally used to receive Digital Video Broadcasting TV signal in Europe. Even though it is useless for TV in North America (where the DVB standard is ATSC), a DVB-T receiver can also be used to decode a wide range of radio signals including FM or 433 MHz data signals.
It so happens that besides the base sensors embedded in the display, the three separate sensors transmit data using 433 MHz RF signals.
I purchased a RTL8232 DVB-T dongle for approximately $20 and used spare Raspberry Pi (original B+) to run RTL-433. I installed Raspbian and set up RTL-433 as follows:
sudo apt-get install rtl-sdr
This is the driver module. You need this for the OS to communicate with the DVB-T dongle.
Currently RTL-433 is not in the Raspbian sofware main repository, and when enabling the testing repos, I start running into dependy issues, so I figured that building rtl-433 from source would probably be a safer bet.
sudo apt-get install git git-core cmake build-essential # build tools sudo apt-get install libtool libusb-1.0.0-dev librtlsdr-dev doxygen # needed to build rtl-433
git clone https://github.com/merbanan/rtl_433.git cd rtl_433 mkdir build cd build cmake ../ make sudo make install
If everything went well you now have rtl_433 in /usr/local/bin
In my case, the transmitters are LaCrosse-TX141THBv2 units, which corresponds to protocol 73 in the rtl-433 documentation.
#!/bin/bash # For LaCrosse TX141THB v2 rtl_433 -R73 -F mqtt://localhost:1883,retain=1,devices=sensors/rtl_433[/model][/channel] -M time:iso # For LaCrosse TX141THB v2 and ReciCheck ET-731 BBQ thermometer # The ET-731 uses protocol 71. It transmits at a sligtly different frequency, therefore # I need to alternate between frequencies every 120 seconds #rtl_433 -f 433.92M -f 433.75M -H 120 -R73 -R71 -F mqtt://localhost:1883,retain=1,devices=sensors/rtl_433[/model][/channel] -M time:iso
I went quick and dirty, installed it on the Pi itself, with anonymous updates allowed.
You should proabaly set up proper authentication.
sudo apt-get install mosquitto
Edit the mosquitto configuration:
# Place your local configuration in /etc/mosquitto/conf.d/ # # A full description of the configuration file is at # /usr/share/doc/mosquitto/examples/mosquitto.conf.example pid_file /var/run/mosquitto.pid persistence true persistence_location /var/lib/mosquitto/ password_file /etc/mosquitto/pwfile allow_anonymous true log_dest file /var/log/mosquitto/mosquitto.log include_dir /etc/mosquitto/conf.d
Enable and run mosquitto:
systemctl enable mosquitto systemctl start mosquitto
I collect MQTT information from HomeAssistant, using the MQTT integration.
Supervisor allows you to automatically start rtl_433 and watch that it is still running.
If rtl_433 stops, supervisor will restart it automatically.
sudo apt-get install supervisor
Then add an rtl_433.conf config file in /etc/supervisor/conf.d
[program:rtl_433] command=/usr/local/bin/rtl433.sh autostart=true autrestart=true stderr_logfile=/var/log/rtl433.err.log stdout_logfile=/var/log/rtl433.log
Enable and start the supervisor service
systemctl enable supervisor systemctl start supervisor
--- Integrating weather sensors with Home Assistant was published on 2021-05-12