Abstract
For many years transducer analysis using multiport interconnection techniques has been successfully applied to tonpilz designs and other transducer types in which the vibratory motion is entirely one-dimensional. The analysis of radially vibrating cylindrical ceramic elements has generally used either empirically derived equivalent circuit methods or has started directly from the differential equations of motion. For segmented cylinders it is possible to perform an approximate analysis using linear network analysis methods. This allows the use of standard multiport analysis computer codes such as SEADUCER to perform much of the calculation. Furthermore these methods eliminate the need for empiricism. Calculated radiation impedance and finite mounting surface impedance effects can be directly included. A description of the method and comparison of the results with previous methods will be provided.
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