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IKEA Ansluta

IKEA Ansluta 433 MHz remote on/off switch reverse engineering

This is my humble attempt at analyzing and replicating the transmissions of the IKEA Ansluta remote on/off switch. (Note: There are at least two different versions of this remote; this is about the simple switch without dimming.)

Manuals:

The plan:

  • find transmitter on the PCB
  • capture on/off transmissions at the source
  • figure out the code (optional)
  • replicate the code with own transmitter

Finding the transmitter

Unfortunately I’m no electrical engineer, far from it: I’m utterly clueless. Let’s just open this thing up and have a look. I have another 433 MHz remote control for reference.

433-remote ikea-ansluta-remote

The reference remote is extremely simple: an 18 pin IC labelled HX2262, a led, a few switches and button pads, and the crystal oscillator (round metal package) labelled 433.92.

The Ansluta is more crowded, but we see a 16 pin IC, this time labelled Holtex HT48R06A-1, and a crystal (oblong metal package) labelled T13.560 – I’m not sure whether there’s any significance to the fact that this is not a 433 MHz crystal.

After trying a few of the IC’s pins I see that a led attached to pin 5 (bottom row in the picture) flickers suspiciously when pressing the on/off buttons — this must be it.

Capturing the signal (and possibly decoding it)

Here’s what I got from that pin (when pressing on) — this was repeated seven times:

ansluta-on

Looks good, doesn’t it? An initial long sync pulse followed by a sequence with nice even spacing of about half a ms. More precisely, the periods of high voltage are slightly under half a ms, while a (single) low is slightly longer: 0.489±4% vs 0.507±2%.

Let’s call them 1 and 0 bits (even though they’re not) until the coding is figured out. Then the sequence looks like this:

  • 100000000000000000000000000000000000 (1 + 35 bits), then
  • 10101010100101010010010101001010010100100101001010100100101001010100100101010010100101001010010100101001001010010100101001010010 (128 bits).

Okay, I feel slightly uncomfortable with this because of the uneven lengths, but clearly it’s a sequence of 10 and 100s. So let’s call those 1 and 0, yielding this shorter representation:

  • 1111011001101010010110010110011010101010100101010101 (on code),
  • 1111011001101010010110010110011010101010100110101010 (off code).

Notice that all but the last eight bits are identical, and that those eight bits are precisely inverted: 01 (times four) for on, 10 for off.

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IKEA Ansluta 433 MHz remote on/off switch reverse engineering

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