Toomas Parve scite author profile

An impedance spectrum of dynamic systems is time dependent. Fast impedance changes take place, for example, in high throughput microfluidic devices and in operating cardiovascular systems. Measurements must be as short as possible to avoid significant impedance changes during the spectrum analysis, and as long as possible for enlarging the excitation energy and obtaining a better signal-to-noise ratio (SNR). The authors propose to use specific short chirp pulses for excitation. Thanks to the specific properties of the chirp function, it is possible to meet the needs for a spectrum bandwidth, measurement time and SNR so that the most accurate impedance spectrogram can be obtained. The chirp wave excitation can include thousands of cycles when the impedance changes slowly, but in the case of very high speed changes it can be shorter than a single cycle, preserving the same excitation bandwidth. For example, a 100 kHz bandwidth can be covered by the chirp pulse with durations from 10 µs to 1 s; only its excitation energy differs also 10(5) times. After discussing theoretical short chirp properties in detail, the authors show how to generate short chirps in the microsecond range with a bandwidth up to a few MHz by using digital synthesis architectures developed inside a low-cost standard field programmable gate array.

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Synchronous Sampling and Demodulation in an Instrument for Multifrequency Bioimpedance Measurement

Min

Parve

Ronk

et al. 2007

IEEE Trans. Instrum. Meas.

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Impedance Detection

Min¹,

Parve²,

Pliquett³

2015

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Lock-in measurement of bio-impedance variations

Min¹,

Märtens²,

Parve³

2000

Measurement

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Toomas Parve

Improvement of Lock-in Electrical Bio-Impedance Analyzer for Implantable Medical Devices

Broadband spectroscopy of dynamic impedances with short chirp pulses

Synchronous Sampling and Demodulation in an Instrument for Multifrequency Bioimpedance Measurement

Impedance Detection

Lock-in measurement of bio-impedance variations

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