Capacitive Energy Conversion With Circuits Implementing a Rectangular Charge-Voltage Cycle Part 2: Electromechanical and Nonlinear Analysis PROJECT TITLE :Capacitive Energy Conversion With Circuits Implementing a Rectangular Charge-Voltage Cycle Part 2: Electromechanical and Nonlinear AnalysisABSTRACT:In this paper, we have a tendency to explore and describe the electromechanical coupling that results from eKEH conditioning circuits implementing an oblong QV cycle, as well as but not limited to the charge pump and Bennet’s doubler circuits. We have a tendency to gift numerical and semi-analytical analyses describing the nonlinear relationship between the oscillating mass and the conditioning circuit. We have a tendency to believe this is a poorly understood facet of the device and, as we can portray, affects the potential harvested energy. An approach to see the frequency shift due to the electromechanical coupling is presented and compared with novel experimental results. We have a tendency to provide some samples of bifurcation behavior and show that the only source of nonlinearity is during the coupling between the electrical and mechanical domains. This work continues from the electrical analysis presented in Part one, providing a full insight into the complicated behavior of the electromechanical coupling. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest On Design and Performance Analysis of a Load Balanced Optical Switch Based on Polarization Division Multiplexing