Recent Trends in Electronics and Communication Systems

Abstract: The conventional two-level inverter is most commonly used for AC drive systems. The inverter produces harmonics, which will cause heating of the power electronic devices as well as load and deteriorate the life of it. Thus, anyhow harmonics should be suppressed or removed, the most common or well-known method to filter out harmonics are introduction of various filters between inverter and load according to requirements. The filters are mainly designed with L and C connection in different ways, the use of filters become more bulky and costly. To design accurate desired response filters are complex. These issues of filters for the high voltage ratings and higher power applications can be solved by multilevel (ML) inverters topology. In this paper cascaded 5-level and 7-level single phase inverter is being compared with conventional 2-level single phase inverter through proposed simulation model. MLI using cascaded H-Bridge is more advantageous than conventional 2-level such as reduced dv/dt stress improves the EMC problem. Multilevel inverters are more reliable than two-level inverters at lower speed. Voltage rating of each cell in cascaded H-Bridge inverter topology are of low values to obtain 230 AC output MLI is mostly used for stored power in batteries and fuel cell. The inverter can generate different level stepped staircase output voltages at load side to produce more sinusoidal voltage signals and to reduce the THD value. THD value of MLI using cascaded H-Bridge topology reduces on increasing number of levels.

Keywords: Total harmonic distortion (THD), electromagnetic compatibility (EMC), and multilevel inverter (MLI)

Cite this Article Vijay Shankar, Ankur Kumar, A.N. Tiwari. Harmonics Analysis of Single Phase VSI with 5-level and 7-level Inverter. Recent Trends in Electronics & Communication Systems. 2019; 6(1): 16–23p.