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Design of High Voltage Full-Bridge Inverter Using Marx Derived Switches

Abstract : This paper presents a high–voltage (HV) inverter to generate bipolar voltages with variable duty-cycle and frequency for HV pulsed power or HV electrical network applications. Each one of the four HV inverter switches is built with a series stack of semiconductor devices, derived from the Marx generator concept, using small capacitors to equally share the voltage among the individual series stacked semiconductors. A sliding mode control is used to control the output voltage and a delay technique is used to reduce dU/dt at the HV inverter output and to balance the capacitor voltages. The design and structure of the HV inverter switches is described together with the delay technique. Steady-state and dynamic behavior is evaluated. Simulation results are presented (using MATLAB/Simulink software) and discussed.
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Nelson Santos, J. Silva, Vasco Soares, Sónia Pinto, Duarte Sousa. Design of High Voltage Full-Bridge Inverter Using Marx Derived Switches. 6th Doctoral Conference on Computing, Electrical and Industrial Systems (DoCEIS), Apr 2015, Costa de Caparica, Portugal. pp.494-501, ⟨10.1007/978-3-319-16766-4_53⟩. ⟨hal-01343523⟩

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