2019
DOI: 10.3390/electronics8020169
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A Review of Electric Impedance Matching Techniques for Piezoelectric Sensors, Actuators and Transducers

Abstract: Any electric transmission lines involving the transfer of power or electric signal requires the matching of electric parameters with the driver, source, cable, or the receiver electronics. Proceeding with the design of electric impedance matching circuit for piezoelectric sensors, actuators, and transducers require careful consideration of the frequencies of operation, transmitter or receiver impedance, power supply or driver impedance and the impedance of the receiver electronics. This paper reviews the techn… Show more

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Cited by 107 publications
(71 citation statements)
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References 163 publications
(184 reference statements)
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“…DOI: 10.20535/2523-4455.2019.24.5.190452 вихідних параметрів ПЕП. Наприклад, використовувати інший тип п'єзокераміки [15], змінити форму накладок на більш енергоефективну [16]. Також має значення робоча частота перетворювача.…”
Section: вступunclassified
“…DOI: 10.20535/2523-4455.2019.24.5.190452 вихідних параметрів ПЕП. Наприклад, використовувати інший тип п'єзокераміки [15], змінити форму накладок на більш енергоефективну [16]. Також має значення робоча частота перетворювача.…”
Section: вступunclassified
“…Electrical impedance also affects the power transmission efficiency and SNR of the converted signal. Such electrical match is achieved using a matching network that can be realized using a material with high dielectric constant [49,50]. Moreover, a high dielectric constant is essential to improve the coupling coefficient [51].…”
Section: Ultrasound Transducer Characteristicsmentioning
confidence: 99%
“…A numerical model is formulated to calculate the electrical input impedance of Langevin transducers over a certain frequency range. There are various equivalent models for representing the complex behavior of the piezoelectric material including Krimholtz, Leedom, and Matthae (KLM), Mason, Van Dyke, and Leach models [13][14][15]. Among them, the Mason model exhibits simpler electrical analogy than the others, consisting of two terminal impedances, a cross-impedance, and a clamped capacitance separated through an ideal transformer.…”
Section: Equivalent Circuit Modelmentioning
confidence: 99%