J. Čorda scite author profile

This letter presents for the first time the application of multilevel dc-link inverter to overcome the problem of partial shading of individual photovoltaic (PV) sources which are connected in series. The "PV permutation algorithm," as a new method, is developed for the control of the inverter so as to extract the maximum power form each PV source under partial shading and to deliver all that power to the load. The algorithm is based on combination of the direct pulsewidth modulation, the sequential permutation PV sources, and the output generation to control the multilevel dc-link inverter. The algorithm is applied successfully to a seven-level inverter with separate maximum power point tracking algorithm for each PV source and under nonuniform irradiance (partial shading). Digital processing unit F28335 eZdsp is used to control the PV system in the real-time mode, and MATLAB-Simulink real-time data exchange is employed to display the extracted power and to control the system parameters via a designed graphical user interface window. The implementation and experimental results are presented.Index Terms-Maximum power point tracking (MPPT), multilevel inverter, photovoltaic partial shading, real-time data exchange (RTDX).

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Experimental Determination of Equivalent-Circuit Parameters of a Tubular Switched Reluctance Machine With Solid-Steel Magnetic Core

Čorda

Jamil

2010

IEEE Trans. Ind. Electron.

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Dynamic modelling of switched reluctance machines with iron losses and phase interactions

Charton

Čorda

Stephenson

et al. 2006

IEE Proc., Electr. Power Appl.

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J. Čorda

Variable-speed switched reluctance motors

Computation of torque and current in doubly salient reluctance motors from nonlinear magnetisation data

Multilevel DC-Link Inverter and Control Algorithm to Overcome the PV Partial Shading

Experimental Determination of Equivalent-Circuit Parameters of a Tubular Switched Reluctance Machine With Solid-Steel Magnetic Core

Dynamic modelling of switched reluctance machines with iron losses and phase interactions

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