Conditions on HF appear to be very disturbed (according to the propagation forecasts) yet I'm getting plenty of WSPR spots on 500kHz. It will be much better when we all get access to 472-479kHz as, currently, activity on MF is split between this band and 500kHz.
13 Oct 2012
SAQ (17.2kHz) transmission Oct 24th
SAQ, the historic alternator transmitter on 17.2kHz CW VLF will be making a special transmission on United Nations Day next Wednesday Oct 24th 2012 starting at 1010 UTC with the message being sent at 1030 UTC. Reports from this transmission will not be confirmed by QSL card (some test transmissions are QSLed). The transmission is a part of the celebration of the United Nations Day in Grimeton, see http://undayorg.files.wordpress.com/2012/09/unday-english1.pdf.
IC7100 for 1 penny??
Amused to see the Nevada advert for the Icom IC7100 on their website. At this price I would expect this high end mobile/home station multimode to be sold out!
Nice price for the IC7100 ! |
Earth-mode VLF RX kit updated
Today I've been updating my VLF receiving kit ahead of doing some further field tests, probably on Monday. I've now changed my RX loop so that the resonance can be adjusted in the field using a capacitance switch box to bring it to resonance. The capacitance to bring it to resonance is around 240nF. The loop was about 1kHz off-tune so that the signal was around 4-6dB weaker than it should have been. Now I can tune the loop for maximum S/N in the field and can adjust the loop to a variety of test frequencies. I've also peaked the 8.97kHz tuned circuit on my earth-electrode receiver input and fixed a faulty connection cable.
Whether these changes will allow me to get any further through the ground remains to be seen.
Whether these changes will allow me to get any further through the ground remains to be seen.
Labels:
earth mode,
vlf
What a 500kHz WSPR signal looks like
G6AVK has his temporary grabber running on 500kHz this evening. See http://www.qsl.net/g6avk/ . It was interesting to see what my WSPR signal looks like on a grabber at around 80km away. My report was -24dB S/N but, as you can see, it is clearly visible FSK keying around 6Hz.
12 Oct 2012
G3ZJO builds the G3XBM MF transverter
Over the last few days Eddie G3ZJO has been building a near carbon copy of my 10W transverter for 472/500kHz. I am pleased to hear that the build went well and Eddie is getting well over 10W RF from the unit.
Eddie found a couple of errors on my schematic (values shown on my photo are wrong on the circuit) and these I must correct. Once these had been sorted - my fault - the transverter worked fine. I see Eddie is getting some good reports on 500kHz WSPR this evening.
If anyone else builds a copy, please let me know and send me a photo.
G3ZJO's (very neat) version of my 472/500kHz transverter |
If anyone else builds a copy, please let me know and send me a photo.
Labels:
472khz,
500kHz,
transverter,
wspr
11 Oct 2012
Earth-mode 8.97kHz VLF tests
Today I did the first tests using my new 5W 8.97kHz beacon looking for signals at my usual "close" test site 1.6km from the home QTH. Good copy on QRSS3 and even solid copy on 10wpm CW. Copy was using my 30t 80cm loop on RX although results were similar using a 5m spaced earth electrode pair. Tests at greater range over the weekend. This is a recording of the 10wpm 8.97kHz CW signal at 1.6km .
As the traces show, there are a lot of strong interfering signals around in this part of the spectrum. With an E-field probe there were lots of telemetry like signals audible which I think are being carried over the national grid overhead cables. These were about 0.5km away from the test site.
QRSS3 signal at 1.6km using a 30t 80cm loop on RX |
10wpm signal at 1.6km using a 30t 80cm loop on RX |
Labels:
8.97khz,
earth mode,
vlf
9 Oct 2012
Ten-Tec Argonaut VI
Ten-Tec is working on a new QRP radio that is a little larger than the FT817 but with a more conventional styling than the KX3. At the moment I understand price has not been fixed. 25 pre-production units are being field tested. First shipments are not expected until later this year and there are hints that this may slip.
I am ambivalent about this new design: with limited HF band coverage and no VHF/UHF coverage and a styling that is "plain Jane" how many people will opt for it compared with (a) a new KX3 or even (b) an FT817 despite it being a 10 year old design? It needs to have some pretty strong unique selling features I think.
Interestingly, the Ten-Tec website makes no mention of this radio as far as I can see. Elecraft were forward selling the KX3 nearly a year before it made it out to first customers. Why is Ten-Tec not already seriously warming up the market? Surely if it is to be worth buying they should be encouraging potential customers not to buy a KX3?
The image above is linked from the www.qrper.com website.
I am ambivalent about this new design: with limited HF band coverage and no VHF/UHF coverage and a styling that is "plain Jane" how many people will opt for it compared with (a) a new KX3 or even (b) an FT817 despite it being a 10 year old design? It needs to have some pretty strong unique selling features I think.
Interestingly, the Ten-Tec website makes no mention of this radio as far as I can see. Elecraft were forward selling the KX3 nearly a year before it made it out to first customers. Why is Ten-Tec not already seriously warming up the market? Surely if it is to be worth buying they should be encouraging potential customers not to buy a KX3?
The image above is linked from the www.qrper.com website.
Labels:
argonaut VI,
ten-tec
Improved Software VLF Receiver
SWL Roland's enhanced SM6LKM software VLF receiver |
- 44.1k/48k/88.2k/96k/176.4k/192k sample rate support
- More CW filters, SSB filter and AM filter added
- Spectrum display for audio frequency
- File-I/O for *.wav format (16bit)
- Left/Right channel select
- RMS signal level bar for audio level
- Muting (M) key
- Time+Date display, UTC or local time
To use the receiver all that is needed is a VLF signal feeding into the mic input of the PC. Be sure you know what you are doing: the usual safe thing to do is to put a couple of back-to-back diodes across the DC isolated VLF input to prevent damage to the sound card. With an E-field probe antenna this receiver is capable of receiving many VLF transmitters from around the world. I shall be using it in future to monitor my 8.97kHz earth-mode CW beacon when out in the field testing.
New VLF Beacon TX
Today I completed the build of my new VLF beacon transmitter. The beacon puts out 5W into a 50 ohm load, which is very close to the resistance of my 20m spaced earth electrodes. The beacon operates at either 8.970kHz or 4.485kHz with (a) continuous carrier, (b) 10wpm CW or (c) QRSS3.
The main changes were to separate the keyer and the PA, mount the whole unit in a larger metal box and to use a 3C90 matching transformer with a fixed turns ratio having measured the ground resistance, which does not change greatly. On a continuous carrier soak test the case temperature only rises about 10 deg C, so frequency drift in the oscillator divider frequency source should be only around 0.1Hz at final frequency.
Having got the beacon finished, the next stage is to start work on some improved receiving kit and to see what sort of range can be achieved through the ground. My best DX so far with the original beacon was 6km, but this is certainly not the limit.
VLF Earth-mode Beacon Transmitter |
Having got the beacon finished, the next stage is to start work on some improved receiving kit and to see what sort of range can be achieved through the ground. My best DX so far with the original beacon was 6km, but this is certainly not the limit.
Labels:
beacon,
earth mode,
vlf
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