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LF: VLF weak signals and sferic blanking

To: [email protected]
Subject: LF: VLF weak signals and sferic blanking
From: Paul Nicholson <[email protected]>
Date: Mon, 03 Mar 2014 17:54:52 +0000
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It is very important at VLF to use effective sferic blanking
when looking for weak amateur signals.  There are 10 or 20 or
more sferics per second and the wanted signal will be lost in
the noise when the energy of all those sferics is distributed
across your Fourier bins.

Let me illustrate with a plot.  Here is a one hour spectrum
of Bob's signal with and without sferic blanking,

 http://abelian.org/vlf/tmp/29499_140302n.gif

As you can see, without the blanking even this strong signal
is completely buried by the noise.

Effective blanking will discard between 25% and 35% of the
incoming signal but will boost the S/N ratio by 20dB or more.

The blanking threshold must be set very low to achieve this,
roughly 1.2 to 1.5 times the mean level is the optimum.
The mean noise floor is conveniently tracked by an exponential
moving mean of the absolute signal value (I use time constant
of 1 second or so but longer is fine).

Some important caveats:

First, the input to the blanker must be free of MSK signals, hum
harmonics, and any other continuous signals when viewed in the
time domain.  Two bad things happen otherwise: the blanker mean
level tracking will be foiled by the continuous signals, and
the chopping action of the blanker will spread the continuous
signals across the band to contribute to the noise floor.

So, precede the blanker with a filter not wider than say 3 or
4kHz and include notches for any significant mains harmonics
or MSK signals that remain within the passband.  If you can
see them against the noise in the time domain then they need
to be notched out.

Second - the blanker must see a clear sferic in order to work,
so the preceding filter should not be too narrow.  2kHz to 4kHz
is enough. 1.5 kHz is starting to get too narrow.  The passband
doesn't have to be centered on the rx frequency, it can be
offset to avoid including some inconvenient continuous signal.

While a bit of lightweight sferic blanking is a nicety at
higher frequencies, at VLF some serious blanking is essential
for detecting weak signals.   Nearly every amateur signal I
receive is well beneath the un-blanked noise floor.

--
Paul Nicholson
--


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