Development of a Design Tool for Optimization of Voltage Generation from a Bimorph Piezoelectric Cantilever Beam

Mukhanov, A.; Abdigaliyev, A.; Jangeldinov, B.; Zhussip, M.; Zhapparov, R.; Ruderman, A.; Adair, D.; A., Mukhanov

Development of a Design Tool for Optimization of Voltage Generation from a Bimorph Piezoelectric Cantilever Beam

Date

2017-01-01

Authors

Mukhanov, A.

A., Mukhanov

Abdigaliyev, A.

Jangeldinov, B.

Zhussip, M.

Zhapparov, R.

Ruderman, A.

Adair, D.

Publisher

Materials Today: Proceedings

Abstract

Abstract Mechanical energy is one of the most common forms of energy which can be harvested from our everyday environment, and, piezoelectric (PZT) materials are widely used as transducers for converting mechanical energy, often in the form ambient motion (usually vibration) into electrical energy. Central to the design process of the energy harvesting device, which involves various interrelated parameters, is the need to quickly and efficiently optimize the key design parameters using validated analytical modelling. Hence in this work, a design tool built on vibration theory of an Euler-Bernoulli cantilever beam, and, a realistic equivalent circuit model for a piezoelectric generator with a resistive load is developed.

Keywords

Piezoelectric, Euler-Bernoulli, design, energy

Citation

A. Mukhanov, A. Abdigaliyev, B. Jangeldinov, M. Zhussip, R. Zhapparov, A. Ruderman, D. Adair, Development of a Design Tool for Optimization of Voltage Generation from a Bimorph Piezoelectric Cantilever Beam, In Materials Today: Proceedings, Volume 4, Issue 3, Part A, 2017, Pages 4477-4490