More VLF activity from Germany

DJ8WX has been experimenting with a new GPS locked frequency source and is trying to put a signal out on 8.9700000kHz.  The signal has been received strongly by several stations including Paul Nicholson in Todmorden and at PA1SDB. This is the signal at PA1SDB over the last few days. Note the timescale on Peter's grabber covers several DAYS. Such is the world of amateur VLF!

Signal from DJ8WX now on 8.970000kHz (was 8.970022kHz)

Nanowave over the horizon tests - nearly ready

Original optical beacon

Just about ready now to restart my optical non line-of-sight tests again using my 481THz CW/QRSS beacon and a choice of 2 sensitive receivers. I'd intended to go out this evening but (a) the XYL needed the car to go to her choir and (b) the fog has descended!

Optical beacon capable of continuous subcarrier (choice of freqs) or QRSS/CW

SpectrumView in action - it's brilliant

The beacon design needs to change somewhat: currently I can TX either QRSS3, QRSS30 or CW at around 830Hz subcarrier, using the IRF640 fed directly from my K1EL keyer IC. However, I cannot actually send just a 830Hz tone continuously. This would actually be very useful when aligning TX and RX over a non-optical path e.g over a hill. So, when the grandchildren go home on Sunday I'll make a modified version of the beacon keyer so that I can choose a number of subcarrier frequencies, including some lower than 830Hz (detector sensitivity is greater at lower audio frequencies) and also add the option of a continuous subcarrier signal. This will involve adding a 4060 based oscillator and divider to be keyed by the K1EL keyer IC. So, it may be next Tuesday or Wednesday before I actually start testing again.

I also want to optimise the use of the iPod Touch 4g as a handheld audio spectrum analyser. I have used it for this sort of test before using an excellent package available free called SpectrumView (see screenshot) available from Oxford Wave Research. With a laptop PC, running Spectran, the problem is the brightness of the screen which emits an interfering optical signal. With a tiny iPod Touch it is much less bright and can be held in the hand. Unfortunately the bandwidth can't be screwed down as narrow as with Spectran on the PC, so there will be S/N limitations. One test will be to see how far away I can detect my beacon (about 0.5W into the LED) over the horizon using just the optical receiver and the iPod Touch.

The beauty of 481THz (red light) work is the kit is simple: everything that matters is at audio frequencies and can be built and tested with the simplest of test gear.

Trio TR2300 1W 2m FM portable

Looking on eBay today I noticed someone selling an old Trio-Kenwood TR-2300 2m FM portable.  I'd forgotten I owned one of these back in the 1980s. When it came out, it was one of the first synthesised 2m radios available.

I had it to get on 2m FM from home mainly. A small vertical dipole was erected at gutter height and with this set-up I could work well equipped stations out to around 50-60 miles.  It was actually a rather good little radio that also got used in the car on holiday in France with my French call F0HXF.

Why it was sold I cannot remember. Of course, these days you get all the functionality, and a lot more, in a tiny handheld like the VX3 and the FT817 produces more than 6dB more power on all bands and modes from 160m-70cm in a box about 30% smaller.

Incidentally with 2 days to go there have already been 31 bids, so someone must want one.

ARRL DX CW contest

Until I read about it on G4ILO's blog, I'd quite forgotten about this big contest. Rather late on Sunday afternoon and evening I decided to have a go and see what could be worked on 40 and 20m. Although I managed a few US contacts with the 2.5W QRP I do find CW contests hard work: people send SO fast and by the time I've called with my straight key they've usually already had another QSO.  I suspect many these days use keyboards and auto keyers most of the time in contests. Actually I quite enjoy the odd SSB contest as I can talk (nearly) as fast as anyone else. Even with 2.5W SSB it is surprisingly easy to make contacts in a big contest, especially late in contests when the big guns are looking for new stations to work.  Overall, I prefer experimentation, but a contest just for fun can be quite cathartic.

New 481THz receiver working well

Optical RX in small screened box attached to a 110mm drain pipe "stopper"

This morning I built my new optical detector circuit using an SFH213 photo diode, an MPF102 FET head amplifier followed by a 2N3904 amplifier and a low noise op-amp. The output is fed to either a pair of 600ohms sensitive headphones or a PC running Spectran.  The schematic was as in G8CYW's article in PW this month, although I reduced the coupling capacitors to 100n to reduce the gain at very low frequencies to help hum rejection and increased the op amp gain a few dB.  Sensitivity is several dBs better than my previous best design .

Build method is my usual copper clad board with MeSquare pads built dead bug style. The junction of the SFH213 cathode and the gate of the FET must be kept well above the ground though to reduce losses.

To test the set up I modulate a small red LED mounted on the ceiling of my building shack with a 1kHz tone. With all lights out and in near total darkness I compare the level on the audio generator that I can just hear with that of my reference optical receiver. Both the new unit and the test unit are on the bench about 1.5m away from the (just glowing) LED. If the system is working well the S/N is good with the LED barely visible by eye. There are quantitative ways of measuring the sensitivity using Spectran on a PC but this means having the PC out of the room as the display would otherwise desense the RX!

I have yet to test this when mounted in the 110mm drain pipe with 100mm lens. This gives an antenna gain of around 24-30dB. A good test will be the GB3CAM optical beacon which I can just detect with my older head at a distance of around 32km.

HF noise and 481THz experiments again

This morning I notice that most of HF, to 15m at least, has an S6 noise level here. it is making operating on HF a real pain.

Phlatlight QRO LED for 481THz over-the-horizon QRSS tests

Actually I am beginning to think about restarting the 481THz (red light beam) over-the-horizon QRSS tests again. At least at nanowaves you can see the interference! My first project will be to build a new nanowave receiver using the SFH203 detector which should be some 6-7dB more sensitive than my current detector head, which is already impressively sensitive.  Next I want to try out the QRO Phlatlight LEDs I've had for several months but not yet fired up. They should be VERY bright with 100mm lenses, so a lot of care will be needed.

Practical Wireless is currently running a series of articles on lightwave communications written by Stuart G8CYW. This should be an ideal introduction for anyone wanting to have a go at speech over light or long range data transmission (line of sight or non line of sight). Stuart has done more than anyone to encourage light beam communications.

G3XBM website

Please let me have feedback on how you find my new website layout for my main website at www.g3xbm.co.uk . In recent weeks there's been a complete overhaul of the site but I have yet to get any feedback from people who visit it, good or bad.

Please email me at address given on the website and above, or leave a comment here. To prevent spam bots you will have to copy the address into your email package manually as the address is shown as a jpg image, not a clickable link.

Finally may I apologise for the silly nonesense you have to go through to post a comment here on this blog. When I remove the web bot filter ("copy the words you see" stuff) I get loads of rubbish, so felt it was necessary to keep it, despite the hassle. Alternatively you can send me any blog comments by email and I will add them for you.

G3XBM online grabber

This evening I've been setting up my on-line grabber again so that I can monitor VLF, LF or MF activity and upload what I am receiving to the internet for others to see. The grabber is, at this stage, only on intermittently as I experiment. The plan is to have a dedicated VLF or LF receiver and PC for this purpose, so the grabber can be run almost 24/7.

The main weak signal detection is done using Argo software running on my PC connected from my RX via the SignaLink USB interface. The captured signal is then uploaded to a location in my public Dropbox which is then linked to from my webpage. So, what appears on the G3XBM online grabber page is what I am seeing with Argo. The direct link to the Dropbox image is http://dl.dropbox.com/u/15047843/g3xbm.gif .

G3XBM online grabber

OXO on 14MHz

An OXO transmitter on 14MHz

This afternoon I decided to build a 14MHz OXO transmitter. As is often the case, I like to re-use old boxes and project parts, so the FETer box was photographed for posterity, then gutting and used for the OXO transmitter. In this version I did not go for full break-in and instead used a simple changeover switch, but added a push button net function to allow me to net the VXO without the PA being keyed. A small toroid in series with the crystal allows about 15kHz VXO range around the 14.060MHz QRP frequency. I used a 2N3904 for the oscillator and 2N3906 for the keying transistor and a 2N3866 for the PA, but may change this for 4  x 2N3904s in parallel for lower cost. My output is a little low at around 500mW.

It works fine with reverse beacon reports from Iceland and Slovenia and a nice 2-way QRP QSO with IK2RGV who was running 5W.

The OXO really is a classic circuit: you just build it and it works.  Another version is on the QRPkits page.

FT817 v KX3 (part 2)

Thanks for all the many comments both here an in private emails. Basically I am looking for a good second QRP transceiver to work along side my existing 12 year old FT817 that continues to work perfectly. There are times when I'd like to WSPR on one band whilst operate CW or SSB on another. Also, the second transceiver allows me general coverage RX whilst TXing on the first unit. Since I sold my IC703 to a friend the year before last, this has not been possible.

At the moment, I am still inclined to buy an FT817ND rather than the KX3. As YO9IRF said in the earlier post and on his blog, the FT817 is close to the ideal for a portable QRP radio, even after 12 years. Although it does not match the RX performance of the KX3, it does perform remarkably well, and of course it also covers the 144 and 432MHz bands and with all modes. And it is half the price.