2008
DOI: 10.1177/1045389x08089957
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A General Equivalent Circuit Model for Piezoelectric Generators

Abstract: This article presents an equivalent circuit model for a piezoelectric generator which can include any number of vibrational modes. First the electromechanical equations are formulated using an assumed mode (for example, the Rayleigh-Ritz method), the mechanical equations are then decoupled by the standard eigenvector approach. A set of single degree of freedom equations are thus produced. The electromechanical coupling terms are modeled in the equivalent circuit using an ideal transformer, or a set of current-… Show more

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Cited by 163 publications
(118 citation statements)
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“…In this method the mesh vertices displacement,û, is computed by solving the Laplacian equation in the following form [43,44]: r ( rû) = 0; (16) where is the di usion coe cient. The boundary condition for this equation is: u = ( u s for uid solid interface boundary 0 for other boundaries (17) 3. Numerical results 3.1.…”
Section: Governing Equation Of Uid Ow With Dynamic Mesh Motionmentioning
confidence: 99%
See 1 more Smart Citation
“…In this method the mesh vertices displacement,û, is computed by solving the Laplacian equation in the following form [43,44]: r ( rû) = 0; (16) where is the di usion coe cient. The boundary condition for this equation is: u = ( u s for uid solid interface boundary 0 for other boundaries (17) 3. Numerical results 3.1.…”
Section: Governing Equation Of Uid Ow With Dynamic Mesh Motionmentioning
confidence: 99%
“…Therefore, the mechanical vibrations are one of the most important sources for EH. The mechanical vibration energy can be converted to electrical energy by using electromagnetic [14][15][16], piezoelectric [17][18][19], and electrostatic [20][21][22] mechanisms. The piezoelectric transduction has some advantages such as high power density, very simple design, and very small size [23][24][25][26] in comparison with other alternatives.…”
Section: Introductionmentioning
confidence: 99%
“…This gives rise to ongoing transfer of flow energy to the structural oscillator and is called dynamic instability. Flutter response of a piezoelectrically damped cantilever pipe utilizing such flow instabilities was studied by [6]. Energy harvesting from fluid flows with attached electrical circuit was studied with a more comprehensive model by [19].…”
Section: Flow Driven Piezoelectric Energy Harvestersmentioning
confidence: 99%
“…This prevented accounting for any change in harvester's properties during operating conditions. In another model developed in [6], a coupled FEM-circuit method was presented to account for the modeling of electrical circuits where the energy harvester was modeled using finite elements and the coupled to the electrical part modeled using a SPICE simulator. This method had comparable advantages to the model in [5] but is computationally expensive and does not provide a realistic representation of the strongly-coupled physics.…”
Section: Models Of Piezoelectric Energy Harvesting Devicesmentioning
confidence: 99%
“…However, many of these models usually simplify either the mechanical domain, considering a SDOF spring-mass-damper models and equivalent circuit techniques [2,3,20], or the electrical domain, using a single resistor to represent the external load. Such models may not correspond to reality.…”
Section: Introductionmentioning
confidence: 99%