9 Aug 2010

160m WSPR receive with earth electrodes


Although I've not matched the 20m spaced earth electrodes yet on 160m, it makes a fine RX antenna. See the logs on WSPR in just the last hour.

500kHz WSPR

This afternoon I restarted 500kHz WSPR transmissions using about 250uW ERP from the earth electrode "antenna" in the ground. Two reports received from M0BMU at 69km received so far (-24/-25dB S/N). In the next few days I'm hoping to erect a vertical top loaded Marconi antenna to use on both 136 and 500kHz, so it will be interesting to see how reports compare with those obtained on the earth electrode antenna.

8 Aug 2010

500kHz with the Elecraft K3

On the Elecraft website I see there is an article showing how to use the K3 transceiver on 500kHz. The K3 will receive on 500kHz but needs an external PA (described) to get around 25W output. See http://www.elecraft.com/TechNotes/k3qtx_v2_pa3cw.pdf

5 Aug 2010

FT818 - a "what if" radio that does not exist....

The FT818 handheld:
  • All mode, all bands 1.8-1296MHz with 5MHz and 70MHz
  • 5W RF (2W 1296MHz)
  • 3.5AHr Li-Ion battery pack (2hr charging)
  • Built in random wire and whip auto-ATU
  • Full colour OLED display
  • Multi-function DSP noise reduction
  • RF Speech processor
.....wouldn't that be nice for Christmas 2010? Sadly, it doesn't exist except in our dreams.

3 Aug 2010

US and Canadian East Coast Loran closed today

Apparently the very last Loran TX on the east coast of the USA and Canada closed at 0500 today. This will make reception on 136kHz much easier in this part of the world. At one time Loran was one of the most popular navigation systems in the world but now made obsolete by GPS units costing a few dollars and fitting in your pocket.

2 Aug 2010

14.9km on 136kHz QRP (earth electrode antenna)

This morning I did some more tests using my little 136.93kHz 2W QRSS3 beacon feeding into the 20m spaced earth electrodes. The TX end was unchanged, but this time on receive I used my 30t 80cm loop resonated with about 700pF and fed straight into the high impedance input of my E-field probe. Results were as follows:
  • At 2.4km good copy by ear (12wpm CW would have been very solid)
  • At 8.6km good copy using Spectran
  • At 14.9km clear copy of my callsign and locator in QRSS3 with Spectran on the Gog Megog Hills near Cambridge (see screenshot)
All these locations are more or less in the line of the earth electrodes that run NE-SW from the home QTH (JO02dg).  Another RX test some 11km to the south of the QTH  resulted in no visible trace, suggesting the TX earth electrodes are behaving as a loop antenna with some directionality. This was not the case when the same earth electrodes were used at 0.838kHz some weeks ago and when the mode was mainly conduction through buried utilities. Remember, this is ultra simple stuff:
  • 2W out crystal controlled QRP 136kHz beacon TX on a 5 x 5cm board (see picture)
  • Invisible ground "antenna" that can't be seen, even when a few metres away from it.
  • No attempt to match the TX to the earth electrodes.
  • Simple loop + FET impedance matching circuit and deaf FT817 at the receiver end.
It would be interesting to work out what the ERP must be and interesting to speculate what would happen with such a system at 73kHz. Pity there is no allocation there today.

1 Aug 2010

DK7FC's 6th VLF kite TX experiment

Stefan DK7FC is testing his 600W VLF transmitter into a 200m high kite supported vertical today (Aug 1st). He expects to radiate about 10dB more than in his last test (on 8.97kHz) and may transmit at a slightly lower frequency today (around 6.5kHz) depending on where the antenna is best matched. You can check progress on his grabber at http://www.iup.uni-heidelberg.de/schaefer_vlf/DK7FC_VLF_Grabber2.html .  Results from his last tests were amazing with reception across Europe in DFCW600 mode (dual frequency slow CW). For a summary of the reports (screen grabs) see http://abelian.org/vlf/ss100321/.  To copy his signal you will need a decent low noise/high dynamic range receiver (E-field probe or loop with preamp and filters) at VLF feeding into a PC running a package like Spectrum Lab, Argo or Spectran using narrow 3...5 mHz FFT settings and about 1 minute per pixel running speed. You also need to know precisely where to look, so calibration will be very important.

31 Jul 2010

136kHz QRP QRSS3 beacon video


This is a video showing the 2W QRP beacon for QRSS3 on 136.93kHz. Using a 20m spaced earth electrode transmit "antenna" it has been copied 8.6km away using an E-field probe antenna.

30 Jul 2010

2696km on 10GHz - new record

A new DX record for terrestrial (non EME) communication has been set with a QSO between D44 and CT on July 10th over an incredible 2696km. See http://www.hyperatlantica.ch/ for more information.

136kHz with QRP and earth electrode antenna

Today I increased the power from my QRSS3 136.93kHz beacon to 2W out of the PA into the 20m spaced earth electrodes. Another "ride about" test locally with the deaf FT817 and E-field probe RX antenna gave the following results:

At 2.4km good copy on the Spectran display
At 4.6km clear copy on the Spectran display.
At 8.6km the signal was detectable, but weak (see picture attached from Spectran screen).

These reports are roughly "end on" to the electrodes and I've yet to try other directions such as orthogonal to them. No attempt was made to match the PA output to the impedance presented by the earth electrodes which are around 40-60 ohms below 10kHz; I've not measured it at 136kHz yet.

Even with true QRP it looks like a range of at least 10km should be possible on QRSS3 (and probably WSPR) with a half decent receiver (better than my crude set-up) using just a 20m earth electrode TX antenna on 136kHz.  I'll leave the QRSS3 beacon running over the weekend on 136.93kHz from my QTH in Burwell, Cambs (JO02dg) and any reports and screen shots would be much appreciated.