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I am not very skilled at reading CW. It was fun to work out the content of the early 2020-07-05 transmission, but it took me quite some number of listenings…
I also looked around for audio decoding software, but I didn’t find any that was easy to operate and producing good results. So I ended up writing an audio decoding program myself. My program does not decode an incoming stream on-the-fly, instead it analyses a complete WAV recording. It locks in on the audio frequency, applies mild clipping, adapts to fading, and uses a sliding window to discriminate tone from silence. The message then emerges quite cleanly:
cq cq cq de saq saq saq = this is grimeton radio/saq in a transmission using the alexanderson 200 kw alternator on 17.2 khz. = in view of the present pandemic covid-19 we want to pay tribute to all parties concerned within healthcare knowing their efforts will pay effect eventually . = signed: world heritage grimeton radio station and the alexander[.-....-]grimeton veteranradios vaenner association + = for qsl info please read our website: www.alexander.n.se = + de saq saq saq <SK>
The audio frequency is reported as 690 Hz. With the SAQrx VFO set to 16500 Hz this suggests that the alternator would be running at 17190 Hz? Although there may be inaccuracies introduced along the way: The SAQrx program, the Audacity program for recording a WAV file, and the decoding program itself.
By counting inter-character spaces as 3 dot-time-units and inter-word spaces as 7, the average time per dot comes out as 79.93 ms, which gives a WPM of 1200/79.93 = 15.01. If the intention was to send at 15 WPM then the early transmission was an amazing accomplishment!
I can make the decoding program available if there is interest.