Correction of amplitude-frequency response of piezoelectric transducers for medical diagnostic employment of electric and acoustic matching elements
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Abstract
The choice of matching elements to extend the frequency bandwidth of the piezoelectric transducer is substantiate. Using the method of equivalent quadripoles and statistical optimization methods obtain optimal parameters of the converter for maximum band frequency response with a given allowable irregularity.
References 8, figures 3, tables 1.
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References
Alekseev B.N., Dianov D. B. (1974), [Effect of electromechanical coupling coefficient for bandwidth core piezoelectric transducers with a transition layer]. Acoustical Journal, Vol.20, no 3, pp. 469-470 (Rus)
Alekseev B.N., Dianov D. B. (1974), [The extension of the bandwidth of piezoelectric transducers with transitional layers]. Acoustical Journal, Vol.20, no 5, pp. 663-668. (Rus)
Domarkas V.I. (1975), [Gauging piezoelectric transducers]. Vilnius: Mintis, P. 255. (Rus)
Zaleski V. V. (1971). [Analysis and synthesis of piezoelectric transducers]. Rostov: Publisher of Rostov University. P. 152. (Rus)
Kasatkin B. A., Pavin N. Y. (1980), [Multiparametric optimization and energy estimates of broadband piezoelectric transducers]. Acoustical Journal, Vol.26, no 5, pp. 721-725. (Rus)
Kasatkin B. A., Pavin N. Y. (1979), [Comparative analysis and energy estimates of broadband piezoelectric transducers]. Defectoscopy, no 1, pp. 61-66. (Rus)
Korolev M. V., Karpelson A. E. (1982), [Broadband ultrasound transducers]. Mashinostroenie, P.157. (Rus)
Naida S.A., Korzhik A.V., Zhelyaskova T.N. (2012), [Statistical methods for optimizing the parameters of the piezoelectric transducer]. Systems of processing information, no2 (100). pp. 241-245. (Rus)