Title :
Nonrandom quantization errors in timebases
Author :
Stenbakken, Gerard N. ; Liu, Dong ; Starzyk, Janusz A. ; Waltrip, Bryan C.
Author_Institution :
Nat. Inst. of Stand. & Technol., Gaithersburg, MD, USA
fDate :
8/1/2001 12:00:00 AM
Abstract :
Timebase distortion causes nonlinear distortion of waveforms measured by sampling instruments. When such instruments are used to measure the RMS amplitude of the sampled waveforms, such distortions result in errors in the measured RMS values. This paper looks at the nature of the errors that result from nonrandom quantization errors in an instrument timebase circuit. Simulations and measurements on a sampling voltmeter show that the errors in measured RMS amplitude have a nonnormal probability distribution, such that the probability of large errors is much greater than would be expected from the usual quantization noise model. A novel timebase compensation method is proposed which makes the measured RMS errors normally distributed and reduces their standard deviation by a factor of 25. This compensation method was applied to a sampling voltmeter and the improved accuracy was realized
Keywords :
error compensation; error statistics; nonlinear distortion; quantisation (signal); signal sampling; time bases; voltmeters; RMS amplitude errors; compensation method; improved accuracy; nonlinear distortion; nonnormal probability distribution; nonrandom quantization errors; probability of large errors; ramp quantization; sampling instruments; sampling voltmeter; simulation model; time bases; waveform distortion; Circuit noise; Circuit simulation; Distortion measurement; Instruments; Noise measurement; Nonlinear distortion; Probability distribution; Quantization; Sampling methods; Voltmeters;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
