FPGA-Based Processor for Continual Capacitive-Coupling Impedance Spectroscopy and Circuit Parameter Estimation

Abstract: In principle, the recently proposed capacitive-coupling impedance spectroscopy (CIS) has the capability to acquire frequency spectra of complex electrical impedance sequentially on a millisecond timescale. Even when the measured object with time-varying unknown resistance Rx is capacitively coupled with the measurement electrodes with time-varying unknown capacitance Cx, CIS can be measured. As a proof of concept, this study aimed to develop a prototype that implemented the novel algorithm of CIS and circuit p… Show more

“…As for this huge data rate, the proposed data compression algorithm reduces the throughput and improves the overall functionality. In [ 39 ], A. Tsukahara et Al. presented a processor implemented in FPGA hardware to perform Capacitive-coupling Impedance Spectroscopy (CIS) that can provide the full acquisition and processing sequence in a few milliseconds.…”

Editorial for the Special Issue on Electronics for Sensors II

“…As for this huge data rate, the proposed data compression algorithm reduces the throughput and improves the overall functionality. In [ 39 ], A. Tsukahara et Al. presented a processor implemented in FPGA hardware to perform Capacitive-coupling Impedance Spectroscopy (CIS) that can provide the full acquisition and processing sequence in a few milliseconds.…”

Editorial for the Special Issue on Electronics for Sensors II

Simple-Z: A Low-Cost Portable Impedance Analyzer