Cheapest ever 433 Mhz transceiver for PCs

From Just in Time

Revision as of 20:50, 26 January 2014 by Danny (talk | contribs) (→‎Hardware)
433 switch 1.JPG

Several shops offer cheap 433Mhz RF remote controlled switches. These are nice, but they introduce a few problems as well:

  • The cheap ones all have different remote controls, using different protocols;
  • We want to control our light switches from our PC, not from the remote controls.

What if you could use a PC to transmit all the RF signals to switch on- and off all devices, and have that PC learn the signals from the remotes? As it turns out, this is very easy to do. Most of these remote control devices use a digital serial protocol of about 1kbaud superimposed on the 433 Mhz signal. That 1kbaud falls well within the range of what a PC sound card can generate or sample. Furthermore, receivers that extract the digital signal and transmitters that turn the digitial signals into an RF signal are readily available.

This page describes how to create an absurdly low-cost USB 433 Mhz transceiver that can serve as a good starting point for your home automation projects.


To build this, all you need is a 433Mhz transmitter/receiver pair and a usb audio-"card" (links are to ebay search results). All in all, with the ever decreasing prices for these devices this is about $2,- in materials. Now give yourself a dollar for the soldering work that is about to happen.

Next: some soldering. The result will surely not win any beauty contests and may constitute criminally inhumane treatment of innocent electronics (AKA 'CITIE', AKA 'hack'):

Receiver (top) and transmitter (bottom) soldered to a USB audio card
Cheapl diagram.png

Obviously, we need to connect the transmitter to the audio output and the receiver to the mic input. The wiring is as follows for the transmitter (see this page for terminology). Bold words refer to pins on the transmitter:

  • GND is connected to the sleeve contact on the socket.
  • data is connected to the tip contact (left audio channel)
  • Vcc to USB 5V, the red wire in the picture.

For the receiver:

  • GND to sleeve
  • Vcc to USB 5V, red wire
  • RxD to tip (for mechanical stability only) and to a bypass (orange wire).

The RxD connection takes some explanation. These USB sound cards have a mic input connector which normally routes the signal throug a high pass filter. Since we want the 'raw' data from the receiver without filtering, we need to bypass that filter. Again, this is not too difficult: we need to find the filtering capacitor. The capacitor in question is found with a volt meter by looking for one that is directly connected to the input (the tip contact). This is the capacitor we need to bypass, and in this particular case I've done it by soldering a wire from the tip connector to the other side of the capacitor.


We're implementing an xPL bridge for this device, which runs on Linux systems and allows your home switches to integrate with a home automation suite such as domogik. The source code is on github.

If setting up all that software is too heavy, and if your platform allows recording audio from, and sending it to a specific soundcard in the system, you can already automate a lot with the solution described below.

The summary is that after connecting our Frankensteinian contraption, our PC will have another audio 'card'. This card is recognized (in Windows and in Linux) and can be used with a program such as Audacity to record signals from remotes and play them back to the transmitter.

Audacity with remote signal.jpg

What I typically do is use Audacity to record keystrokes on the remote. This will normally record a few repetitions of the same sequence. Playing back such a sequence only once does not work in the average case, so I normally try to find the minimum amount of repetitions that reproduce the switching behaviour and save those repetitions in a single wav-file. I can then use a command line tool such as aplay (I'm on Linux) to play that wav file to the transmitter.

Fun project: The script below—when run in the background—will switch off a light when my Ubuntu (gnome) screen saver locks the screen and it will switch it on when I log in again. The light is a halogen spot that lights up the wall behind my monitor... <source lang='bash'> dbus-monitor --session "type='signal',interface='org.gnome.ScreenSaver'" | ( while true; do read X; if echo $X | grep "boolean true" &> /dev/null; then aplay -D plughw:2,0 offC.wav; elif echo $X | grep "boolean false" &> /dev/null; then aplay -D plughw:2,0 onC.wav; fi done ) </source>

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