Comparative Study of Three level and Five level Inverter (original) (raw)
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International Journal of Engineering & Technology
Recently, almost all industrial devices are mostly built on electronic devices which are precisely sensitive to harmonic. In order to meet the requirement from the industries demand aimed at a free-harmonics and high power rating source is remarkably increased in past few years. An inverter which a device or electric circuit that convert direct current to alternating current is one of the electronic devices that give concern to researchers for improvement of generating a neat power source. The inverter can be categorized into a single level and multilevel inverter. As compared to single level inverter, multilevel inverter offers minimum harmonic distortion and higher power output. This paper presents a model of multilevel inverter using 7-level Cascaded H-Bridge of multilevel DC-AC inverter to reduce total harmonic distortion with different sinusoidal pulse width modulation such as phase disposition and phase opposition disposition. Simulation output of single phase multilevel inver...
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The electric drives and its application requires advanced power electronic converter to meet the high power demands. As a result, multilevel inverter structure has been introduced for high power and medium voltage applications. A multilevel inverter improves the performance of the system in terms of harmonics, dv/dt stress and Electro Magnetic Compatibility (EMC). The multilevel topologies are (1) Diode clamped (2) Flying capacitor and (3) Cascade H-bridge. According to literature review, Cascade H-bridge multilevel inverter with separate DC source is most commonly used for medium voltage and high power application. This configuration has several identical single phase H-bridge cells which are cascaded in series at its output side. In this project different level of cascade H-bridge multilevel inverter are simulated by using MATLAB software and analysis of total harmonic distortion (THD) is calculated.