I. Balouktsis scite author profile

Abstract-Multiple sets of solutions for the selective harmonic elimination pulse-width modulation method for inverter control exist. These sets present an independent solution to the same problem but further investigation reveals that certain sets may offer an improved overall harmonic performance. In this paper, a minimization method is discussed as a way to obtain these multiple sets of switching angles. A simple distortion harmonic factor that takes into account the first two most significant harmonics present in the generated waveform is considered in order to evaluate the performance of each set. The bipolar waveform is thoroughly analyzed and two cases are considered; single-phase patterns which eliminate all odd harmonics and three-phase counterparts which eliminate only the nontriplen odd harmonics from the line-to-neutral pattern but such harmonics are naturally eliminated from the line-to-line waveform. Experimental results support the theoretical considerations reported in the paper. Index Terms-Selective harmonic elimination pulse-width modulation (SHEPWM).

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On Applying a Minimization Technique to the Harmonic Elimination PWM Control: The Bipolar Waveform

Agelidis

Balouktsis

2004

IEEE Power Electron. Lett.

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Five-Level Selective Harmonic Elimination PWM Strategies and Multicarrier Phase-Shifted Sinusoidal PWM: A Comparison

Agelidis

Balouktsis²,

Balouktsis³

et al. 2005

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The multicarrier phase-shifted sinusoidal pulsewidth modulation (MPS-SPWM) technique is well-known for its important advantage of offering an increased overall bandwidth as the number of carriers multiplied with their equal frequency directly controls the location of the dominant harmonics. In this paper, a five-level (line-to-neutral) multilevel selective harmonic elimination PWM (MSHE-PWM) strategy based on an equal number of switching transitions when compared against the previously mentioned technique is proposed. It is assumed that the four triangular carriers of the MPS-SPWM method have nine per unit frequency resulting in seventeen switching transitions for every quarter period. Requesting the same number of transitions from the MSHE-PWM allows the control of sixteen non-triplen harmonics. It is confirmed that the proposed MSHE-PWM offers significantly higher converter bandwidth along with higher modulation operating range. Selected results are presented to confirm the effectiveness of the proposed technique.

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Load matching in a direct‐coupled photovoltaic system‐application to Thevenin′s equivalent loads

Balouktsis

Karapantsios

Anastasiou

et al. 2006

International Journal of Photoenergy

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A methodology is developed for the assessment of load matching and further estimation of the optimum photovoltaic (PV) arrays arrangement over a prolonged period of time. The method calls for the calculation of the appropriate effectiveness factor defined as the ratio of the load energy over the maximum energy that can be produced by the PV array for a specific time period. The effectiveness factor depends on the PV array characteristics, the load characteristics, and the solar irradiance conditions. To produce realistic predictions for the effectiveness factor and the PV arrays arrangement with validity over long periods of time, the present statistical model describing irradiance employs a stochastic variation of solar radiation over a long period of time and not just a fixed diurnal variation as traditionally done in the past. Simulations are performed for the case of Thevenin's equivalent loads. In order to generalize the analysis, the simulation results are presented in a reduced form based on the values of the voltage and current corresponding to the maximum power of the PV array. The results are presented in multiple-curve comprehensive plots, which allow to determine the optimum photovoltaic array panel's arrangement without engaging sophisticated mathematical calculations.

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I. Balouktsis

Multiple sets of solutions for harmonic elimination PWM bipolar waveforms: analysis and experimental verification

On Applying a Minimization Technique to the Harmonic Elimination PWM Control: The Bipolar Waveform

Five-Level Selective Harmonic Elimination PWM Strategies and Multicarrier Phase-Shifted Sinusoidal PWM: A Comparison

Load matching in a direct‐coupled photovoltaic system‐application to Thevenin′s equivalent loads

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