Title :
A Digital Frequency-Locked Loop System for Capacitance Measurement
Author :
Dean, Robert N. ; Rane, A.K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Auburn Univ., Auburn, AL, USA
Abstract :
Similar to phase-locked loops, frequency-locked loops (FLLs) are useful in many applications involving waveform synchronization or synthesis. Simple logic circuit-based relaxation oscillators convert capacitance to frequency, which is a characteristic inverse relationship between output frequency and input capacitance. The oscillator´s logic level square-wave output can be fed into an all-digital FLL that will frequency lock to the input signal and produce a digital output word N, where N is inversely proportional to the input frequency. The result is that N is linearly proportional to the unknown capacitance in the oscillator. This novel approach allows a simple FFL implementation for capacitance measurement and is demonstrated in hardware using a capacitive sensor that measures the mass of small quantities of water with an output capacitance range of 75-185 pF.
Keywords :
capacitance measurement; capacitive sensors; digital phase locked loops; logic circuits; oscillators; all-digital FLL; capacitance 75 pF to 185 pF; capacitance measurement; capacitive sensor; characteristic inverse relationship; digital frequency-locked loop system; input capacitance; input frequency; logic circuit-based relaxation oscillators; oscillator logic level square-wave output; output frequency; phase-locked loops; waveform synchronization; waveform synthesis; Capacitance; Capacitance measurement; Frequency conversion; Frequency locked loops; Frequency measurement; Frequency synchronization; Oscillators; Capacitance measurement; frequency-locked loop (FLL); sensor interface circuit;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2013.2240092
