Open AccessExtending the frequency measurement of a single sinusoid above the Nyquist limit based on zero crossings method
Author(s) -
Septimiu Mischie,
Liviu Toma
Publication year - 2006
Publication title -
facta universitatis - series electronics and energetics
Language(s) - English
Resource type - Journals
eISSN - 2217-5997
pISSN - 0353-3670
DOI - 10.2298/fuee0601001m
Subject(s) - nyquist frequency , limit (mathematics) , mathematics , sampling (signal processing) , nyquist–shannon sampling theorem , zero (linguistics) , statistics , coherent sampling , zero crossing , acoustics , mathematical analysis , physics , optics , telecommunications , computer science , power (physics) , linguistics , philosophy , bandwidth (computing) , quantum mechanics , detector
This paper presents the measurement of the frequency of a single sinusoid by counting the zero crossings and extends it above the Nyquist limit. For this purpose, two sets of samples are acquired, at two different but close sampling frequencies. Based on the count of zero crossings obtained in each case and on the two sampling frequencies, four coefficients are computed. Then, the most appropriate coefficient from those four is used for calculating the frequency. The less the difference between the two sampling frequencies, the higher the maximum measurable frequency. The relative error is of the order of 10 −4 , and the measurement time is about 100 ms. The method was experimentally tested using a National Instruments PCI 6023 data acquisition board.
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