Abstract
Multilevel inverters have the capability to produce an AC staircase output waveform without using a bulky passive filter. Therefore, the multilevel inverters are gaining more and more popularity, among the different types of inverters, for photovoltaic applications in the modern era of technology. However, if the switching angle arrangement technique is not selected appropriately then the total harmonic distortion of the voltage output waveform may become undesirable. In this paper, Half-Equal-Phase, Feed-Forward and Selective Harmonics Elimination Pulse Width Modulation switching angle arrangement techniques at different power factors (i.e., 1.0, 0.75 and 0.50) are applied to a cascaded battery-boost inverter. PSIM software is used to evaluate and compare the performance of a 9-level cascaded battery-boost inverter with three switching angle arrangement techniques at power factors of 1.0, 0.75, and 0.50, respectively. Simulation results show that the Selective Harmonics Elimination Pulse Width Modulation technique can produce an output voltage and current waveform with the lowest total harmonic distortion. On the other hand, the output current waveform produced by power factor 0.50 had the lowest total harmonic distortion.
Highlights
Solar energy is probably the dominant renewable energy source available nowadays
1) Half-Equal-Phase (HEP) Method To obtain a good quality output voltage waveform from multilevel inverter, the HEP method has been introduced for determining the switching angles [10]
The simulation results of the 9-level cascaded battery-boost inverter indicated that when the power factor decreases from 1.0 to 0.75, for the HEP and the FF method, the current total harmonic distortion (THD) declined sharply to 60% approximately
Summary
A. Cascaded Battery-Boost Multilevel Inverter The cascaded battery-boost multilevel inverter was proposed in [8] and it has become the most popular inverter topology in standalone PV systems. Figure 1 shows the block diagram of a cascaded battery-boost multilevel inverter.
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