- Travel 2km from the home QTH with E-field probe, FT817 and PC running Spectran.
- Choose a location in the best direction for the "loop in the ground" so the measured signal strength is close to the maximum possible i.e. not off the sides of the loop.
- Set up FT817 so the RF gain is adjustable and turned well back and the AGC is inactive.
- Tune in my LF beacon and adjust the RF gain to the lowest possible detection level.
- Measure the S/N of my signal with Spectran and note reading.
- Retune to DCF39 (138.830kHz) and, without adjusting the RF gain at all, measure the S/N with Spectran.
- Repeat these measurements 5 times.
- Calculate the difference in dB between my signal and DCF39 (in my case 41.3dB)
- Using the assumption that DCF39 has a field strength of 1mV/m, work out my own field strength (in my case 9uV/m)
- Using the formula ERP = (E^2 * d^2)/49 work out the ERP.
Caveats:
- If DCF39 is not approx 1mV/m then the ERP needs to be adjusted up or down proportionally.
- Measurement error is +/- 2dB.
- The ERP is the figure measured in close to the best direction. Off the sides of the loop the ERP will be much lower.
- Stations able to detect the QRSS3 signal at any distance are doing well as the signal is very weak indeed.
- Using my proposed WSPR transverter at 32W, for example as a reasonable target output, would give me 6dB more ERP at around 25uW.
- Based on results with QRSS3, I should be able to be copied using WSPR-2 at up to 100km on ground wave. At night with sky wave, considerably further is possible.
- Using WSPR-15 and 32W my ground wave range should be up to around 200km, possibly a little more.