Julie I. Metri scite author profile

Abstract-In this paper a model predictive control (MPC) has been designed and implemented on the Packed U-Cell (PUC) inverter which has one isolated DC source and one capacitor as an auxiliary DC link. The MPC is designed to regulate the capacitor voltage at the desired magnitude to have seven voltage levels at the output of the inverter. Since grid-connected application is targeted by this application, the inverter should be capable of supplying requested amount of active and reactive power at the point of common coupling (PCC) as well. Therefore, MPC should also consider the line current control in order to monitor the exchange of reactive power with the grid while injecting appropriate active power at low THD. Various experimental tests including change in DC source voltage, active power variation and operation at different power factor (PF) have been performed on a laboratory prototype to validate the good performance obtained by the proposed MPC. The dynamic performance of the controller during sudden changes in dc capacitor voltage, supply current and PF demonstrates the fast and accurate response and the superior operation of the proposed controller.

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Model predictive control for the packed U-Cells 7-level grid connected inverter

Metri

Vahedi

Kanaan

et al. 2016

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Design, control and simulation of a fuel-cell-fed power conversion system for electric vehicles

Metri

Saadeh

Kanaan

2014

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Solar energy processor based on Packed U-Cells 7-level inverter for grid applications

Metri

Vahedi

Kanaan

et al. 2016

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Julie I. Metri

Real-Time Implementation of Model-Predictive Control on Seven-Level Packed U-Cell Inverter

Model predictive control for the packed U-Cells 7-level grid connected inverter

Design, control and simulation of a fuel-cell-fed power conversion system for electric vehicles

Solar energy processor based on Packed U-Cells 7-level inverter for grid applications

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