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style="margin:0px;">Hi Phil, all,</p><p style="margin:0px;">the method
you are pointing out is indeed a method which allows everyone to
determine the noise figure with sufficient accuracy without the need of
expensive laboratory equipment. It is described in detail in PSR of
autumn 2009, that is # 109, page 17. </p><p style="margin:0px;">The
results reported there for Mercury agree within error bars with what you
are giving below and are compatible with what was reported by Peter,
considering that his measurements refer to the higher hf bands, and
for the somewhat different Hermes system. </p><p
style="margin:0px;">Measurements reported in the PSR article are
conducted with both Dither and Random disabled. I haven't measured
carefully enough the noise figure with Dither and Random enabled. If I
remember correctly, both increased the noise figure by about 3 dB.</p><p
style="margin:0px;">73 Hans, DL2MDQ.</p><br /><br /><br /><p
style="margin:0px;"><br /></p><div>Hi Clyde,</div><div></div><div>Since
the openHPSR/Hermes/ANAN-* hardware can be accurately calibrated it can
measure its own Noise Figure.</div><div></div><div>Noise Figure (db) =
174 - 10log(bandwidth Hz) + noise floor where noise floor is in dBm
and in the same bandwidth.</div><div></div><div>Lets take some actual
figures using Mercury that has been calibrated at 14MHz. Using PowerSDR
with the RX1 meter set to Sig Avg, a 2.9kHz bandwidth and sampling at
48kHz the noise floor is -130dBm with a 50 ohm termination directly on
the antenna socket.</div><div></div><div>Putting these figures into the
above formula yields:</div><div></div><div>NF = 174 -10log(2900) -130 =
9.4dB</div><div></div><div>73 Phil...VK6APH
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