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Re: Water probe: signal processing now ok
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- Subject: Re: Water probe: signal processing now ok
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- Date: Mon, 21 Feb 2005 18:20:29 -0700
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Original poster: Paul Nicholson <paul@xxxxxxxxxxxxxxxxxxx>
Hi Marco,
Thanks for the update. I've been following exactly the
same lines, starting with the Fiber_vamp.csv file of
27th Jan, and obtain similar waveforms. The probe
response is in
http://www.abelian.demon.co.uk/tmp/Fiber_vamp.ift.gif
Marco wrote:
> I came up with this solution:
> - convolution in the frequency space: FFT of input divided
> by FFT of probe, then IFFT to get back to time space
> Inverse convolution in the time domain is very unstable.
The deconvolution is implemented by FFT, division, then inverse
FFT, so I'm not sure where your instability is coming
from - it should be the same as your first solution. Is there
another method for deconvolution?
> - Hanning windowing to cut the slices: avoids spikes at the
> slice boundaries, 50% overlap to achieve a gain of 1
Yes, a simple and very effective method for chopping long data
sets into manageable chunks for FFT, filtering, inverse FFT,
then stitching it all back together to produce seamless
output. I use it a lot for processing data from radio
experiments.
> the secondary is indeed responsible for that [100kHz] peak.
Glad that's confirmed. We need to remove that peak from
the impulse response (we dont' want to deconvolute that
resonance - it's part of the system being measured!).
What of the resonances at 5.6Mhz and 9.2Mhz? I believe you
concluded these were genuine probe responses, not coax
resonances?
> Note that the responses are so clean now because we have been
> averaging (within the o-scope) 200 readings of the step.
Are you still using the fiber and video amp? Can you email me
the latest scope trace data for the step?
> It seems to me like the next step is to switch Thor on and
> to make some measurements at full operation.
Yes, and you'll also need to do some below-breakout firing to
calibrate models. It will be a major step forward to have some
precision topvolts waveform data. At last there is a hope for
moving forward on the issue of discharge loading.
--
Paul Nicholson
--