Quantification of frame jitter in data acquisition systems

The paper develops an algorithm for the estimation of the standard deviation of the frame jitter associated with digital oscilloscopes and other data capture equipment. Frame jitter is considered as a special case of the more general timing jitter expressed in the frequency domain. An approximation...

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Hauptverfasser:	Kalashnikov, A.N., Challis, R.E., Unwin, M.E., Holmes, A.K.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Additive noise Bandwidth Data acquisition Frequency domain analysis Oscilloscopes Phase estimation Phase noise Spectroscopy Standards development Timing jitter
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creator	Kalashnikov, A.N. Challis, R.E. Unwin, M.E. Holmes, A.K.
description	The paper develops an algorithm for the estimation of the standard deviation of the frame jitter associated with digital oscilloscopes and other data capture equipment. Frame jitter is considered as a special case of the more general timing jitter expressed in the frequency domain. An approximation is used that maps the standard deviation /spl sigma//sub f/ of the time domain jitter disturbance into the quadrature component of the recorded signal consisting of required information plus noise. /spl sigma//sub f/ is estimated from the statistical moments of the phase and quadrature components of the disturbed signal in a manner that minimizes the influence of additive noise on the estimation. The method has been demonstrated on an ultrasonic pulse-echo spectrometer that features relatively narrow bandwidth, low time domain resolution and significant additive noise. The obtained estimate of the standard deviation of the frame jitter was about four times lower than the sampling interval.
doi_str_mv	10.1109/ISP.2003.1275806
format	Conference Proceeding
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Frame jitter is considered as a special case of the more general timing jitter expressed in the frequency domain. An approximation is used that maps the standard deviation /spl sigma//sub f/ of the time domain jitter disturbance into the quadrature component of the recorded signal consisting of required information plus noise. /spl sigma//sub f/ is estimated from the statistical moments of the phase and quadrature components of the disturbed signal in a manner that minimizes the influence of additive noise on the estimation. The method has been demonstrated on an ultrasonic pulse-echo spectrometer that features relatively narrow bandwidth, low time domain resolution and significant additive noise. The obtained estimate of the standard deviation of the frame jitter was about four times lower than the sampling interval.</abstract><pub>IEEE</pub><doi>10.1109/ISP.2003.1275806</doi><tpages>6</tpages></addata></record>
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identifier	ISBN: 9780780378643
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subjects	Additive noise Bandwidth Data acquisition Frequency domain analysis Oscilloscopes Phase estimation Phase noise Spectroscopy Standards development Timing jitter
title	Quantification of frame jitter in data acquisition systems
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