The vibration solution of the Cymbal transducer stack under periodic uniform loading is proposed. The equivalent stiffness for the Cymbaltransducer stack is derived based on the Kirchhoff plate theory. The damping factor is determined experimentally with the decaying amplitude method. Results show that the natural frequencies and the vibration displacement calculated from the analytical solution are in agreement with that of finite element analysis results and the experimental data. The vibration analysis and experimental study on the Cymbal transducer stack provides a foundation for the design of this type energy harvesting devices and the understanding of electromechanical conversion mechanism.