24 Sept 2012

The current G3XBM shack layout


The current G3XBM operating station

This is the current G3XBM operating position. The new additions are the 472/500kHz 10W transverter and the little WISPY 10m WSPR TX beacon, which has been boxed today. These are the two boxes to the left of the FT817. I've also increased WISPY's output power to about 250mW and have been getting loads and loads of WSPR USA spots this afternoon, including some from the west coast (W7).  I do my design and building elsewhere in the house. This is not ideal, but it does make for an uncluttered operating environment.

The vast majority of my equipment is home built and much of it home designed. Not shown in the picture are the Sixbox (6m AM), the Fredbox (2m AM), Chirpy (10m CW) plus any of the VLF kit. The last time I bought a new transceiver was about 10 years ago.

500kHz WSPR over 5 days

The attached table shows the different stations that have reported my 500kHz WSPR in the last 5 days. In summary, 19 different stations in 8 different countries with best DX OH1LSQ (1736km) and last night LB9YE (1489km). My most recent calculation of my ERP is around 80-120mW. Who says 500kHz QRP into a very small antenna with a useless (?) indoor ground system doesn't work then? I can't wait for 472-479kHz to be released in the UK.


22 Sept 2012

A 500kHz WSPR screenshot from Finland

Paul-Henrik, OH1LSQ has kindly send me his screenshot showing my WSPR signal as received in Finland. It shows a visible, if weak, trace on the screen.
The weak trace seen by OH1LSQ on 500kHz this evening
Conditions on LF appear to be excellent this evening and this is supported by the propagation forecast for this evening from G4ILO's website (see below) and on the RHS for the current conditions.

New weak signal modes for LF/MF

On the LF-reflector this evening comes news that Joe Taylor K1JT is thinking about the development of some new software for weak signal work on the lower bands. Although Joe has not yet had much chance to start coding development of the new modes, they should lead to even lower useable signal levels. JT8-2 is a couple of dB more sensitive than WSPR but JT8-30 (will take 30 mins to send a message) is likely to be around 12-14dB better. Modulation is a form of 8-FSK.

Mode   T/R   TxT    df    tsym   BW    S/N*
       (m)   (s)   (Hz)    (s)  (Hz)   (dB)
-----------------------------------------------
JT8-1    1    52  1.577   0.63  12.6  -26.9
JT8-2    2   112  0.732   1.37   5.9  -30.2
JT8-5    5   292  0.281   3.56   2.2  -34.4
JT8-10  10   592  0.139   7.22   1.1  -37.5
JT8-30  30  1792  0.046  21.85   0.4  -42.3
-----------------------------------------------
* Noise power measured in a 2500 Hz bandwidth.
How quickly K1JT can do the necessary coding will depend on his work load - he is a Nobel Prize winning physicist - but we are looking forward to the first release of this software in the coming months.

Just to put a measure on this, 12 dB weaker signals (using JT8-30) would mean considerably greater range could be achieved for a given ERP, or the power level of the TX could be 16 times lower for a given range (with WSPR), all things being equal.

500kHz REAL DX with the new transverter

DX reports on 500kHz WSPR this evening using the new 10W transverter
My new 500kHz transverter has "done the business" with reception this evening of my WSPR signal (for the third autumn running) by OH1LSQ at a distance of 1736km. What I find incredible is that this is with low milliwatts ERP from an antenna that is tiny: the outer of the 6m vertical coax (the feed to my 10m halo) tuned against a ground formed by my central heating system copper and brought to resonance with a tapped coil on a ferrite rod sitting on the shack desktop.
500kHz WSPR reports map
The new 472kHz band is clearly going to be great fun for all, even without anything special in the way of antennas. However, my experience with small antennas on 136kHz is a different matter: on that band it is MUCH harder to get reports from any distance with QRP.

For details of my 472/500kHz transverter see https://sites.google.com/site/g3xbmqrp/Home/472khz-transverter

QRPtransceiver.com website

http://www.qrptransceiver.com/website
This website looks a useful resource for anyone wanting to find out about the commercial QRP radios on the market. As far as I can tell it lists virtually every QRP radio there is and gives some information/links about every one. Well worth a visit and I am surprised I've not seen it before (or at least if I did I had forgotten it!). The link is http://www.qrptransceiver.com/ .


21 Sept 2012

GPS tracking?

Some help needed......

When out in the field locally receiving my VLF and LF test transmissions from home, it would be very helpful to be able to plot signal strength against location. For example, if doing a drive test, with an E-field probe antenna on the car feeding an LF RX and PC audio package such as Spectran, it would be excellent to be able to plot a map or database showing field strength and location. Now I have to confess I haven't a clue where to start! My knowledge of GPS is almost zero and my PC skills are limited to MS Word and simple spreadsheets in Excel (some years ago). So, if anyone knows of a SIMPLE way of achieving this goal please let me know.

On a related subject, what is the best, low cost, pocket GPS tracker that would record a walk (distance, track taken, times) and allow this to be plotted on a map when one gets home?

10m Simple Sideband (DSB) Transceiver

Regular readers of this blog will recall that about a year ago I started breadboarding a simple DSB speech transceiver for 10m. Having had great success with the WISPY 10m WSPR transceiver, I now have a very simple design for the TX part of such a DSB speech transceiver (just need to add an audio preamp/clipper/filter), so I am beginning to get ideas together for this project again. A power of around 1W pep (DSB) equivalent to 500mW pep SSB is the minimum I think. On RX a single balanced diode mixer (or a double balanced mixer such as an ADE-1 or SBL1) should be fine. For the VFO, I am thinking of a mixer/VFO with a tuning range of 28.4-28.6MHz. The RX audio design from WISPY works well but it will need another audio stage to drive headphones.

I want to have another go at a 136kHz transverter (based on my latest architecture), more non-line-of-sight (NLOS) optical comms, E-field probes, more earth mode comms, WSPR beacons for other bands,  etc etc...

My problem is I've too many ideas in my head and not enough hours in the day to try them all out. What I need is a spare, free, design team (!) to take these ideas forward whilst I get on with other things, like looking after the grandchildren, gardening, maintaining the house, eating and sleeping etc. Since retiring 4 years ago I have no idea why I've no spare time!

20 Sept 2012

500kHz WSPR - 990km already tonight

This map shows people who have copied my 500kHz WSPR signal (using the new transverter) up to 11.20pm tonight. Best DX report so far is DL4RAJ at 990km from near the Czech border who gave me an astounding +5dB S/N report, a signal level good enough for a CW QSO.

472/500kHz transverter FINISHED

Today I completed the rev E version of my 10W transverter. In the end I reverted to a double balanced mixer and this immediately solved my issues with mixer stability that I had with the transistor mixer design. Air testing this evening, I am getting plenty of reports but a slight drive is noticable in the reports, probably as I am using a small plastic box and the PA heatsink warming is causing the 3.2MHz crystal to move about 1Hz during the WSPR TX cycle. It really needs a bit bigger metal box, but it will do.


The lastest transverter schematic (there may be value errors)
WSPR reports 20.9.12 with the above transverter and 6m long antenna
The desktop 472/500kHz station, ATU (don't laugh!) and antenna current meter