Title :
Modeling and optimization of high-frequency ultrasound transducers
Author :
Lockwood, Geoffrey R. ; Foster, F. Stuart
Author_Institution :
Sunnybrook Health Sci. Center, Toronto, Ont., Canada
fDate :
3/1/1994 12:00:00 AM
Abstract :
Obtaining an accurate transducer model for a high-frequency transducer can be troublesome using traditional models, such as the KLM model, since it is often difficult to measure precisely the piezoelectric, dielectric, and mechanical properties of the transducer. This paper describes an alternative method of modeling transducers using network theory. The network theory model for a transducer is determined from a measurement of the transducer impedance in water and the pulse-echo response of the system for a given electrical source and load. A discussion of how this model can be used to optimize the design of an electrical matching circuit is given. This method is illustrated by designing a two-element transmission line matching circuit for a miniature 53 MHz transducer. Excellent agreement between the network model prediction and the experimental response is obtained.<>
Keywords :
distributed parameter networks; equivalent circuits; impedance matching; linear network analysis; linear network synthesis; modelling; optimisation; ultrasonic transducers; 53 MHz; HF ultrasonic transducers; electrical matching circuit; high-frequency US transducers; network theory model; optimization; pulse-echo response; transducer impedance; transducer model; two-element transmission line matching circuit; Circuits; Dielectric measurements; Impedance measurement; Mechanical factors; Mechanical variables measurement; Piezoelectric transducers; Pulse measurements; Ultrasonic imaging; Ultrasonic transducers; Ultrasonic variables measurement;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
