Title :
A Relaxation Oscillator-Based Transformer Ratio Arm Bridge Circuit for Capacitive Humidity Sensor
Author :
Islam, Tarikul ; Khan, Shakeb A. ; Firoz A. Khan, Md ; Mukhopadhyay, Subhas Chandra
Author_Institution :
Dept. of Electr. Eng., Jamia Millia Islamia Univ., New Delhi, India
Abstract :
A simple signal conditioning circuit using a transformer ratio arm (TRA) bridge for converting capacitance change into frequency for capacitive sensors is presented. The circuit employs a relaxation oscillator in which the output frequency is linearly related to the capacitive unbalance of a TRA bridge. The design, analysis, and experimental results of the circuit and its application to a thin-film-based humidity sensor are reported. The experimental results confirm the theoretical value predicted. The circuit which offers the minimum parasitic earth capacitance effect has the potential for accurately monitoring measurement parameters, particularly ppm-level humidity. The simulation results for the effect of parasitic earth capacitances and ambient temperature on the output frequency have also been discussed. The pulse wave output of the circuit is interfaced with microcontroller for direct moisture display in ppm. The frequency sensitivity and nonlinearity of the sensor for the 0-110-ppm moisture range are found to be 10.94 Hz/ppm and 1.2%, respectively.
Keywords :
bridge circuits; capacitance measurement; capacitive sensors; humidity measurement; humidity sensors; microcontrollers; microsensors; relaxation oscillators; signal conditioning circuits; temperature measurement; temperature sensors; thin film sensors; transformers; TRA bridge; capacitive humidity sensor; microcontroller; minimum parasitic effect; moisture display; parasitic earth capacitance effect; relaxation oscillator; signal conditioning circuit; thin-film-based humidity sensor; transformer ratio arm bridge circuit; Bridge circuits; Capacitance; Capacitive sensors; Humidity; Measurement techniques; Moisture measurement; Oscillators; Temperature measurement; Capacitance to frequency conversion; capacitive sensor; moisture measurement; relaxation oscillator; transformer ratio arm (TRA) bridge; transformer ratio arm (TRA) bridge.;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2015.2459473
