{"id":747,"date":"2024-02-02T08:42:34","date_gmt":"2024-02-02T08:42:34","guid":{"rendered":"https:\/\/els-journal.net\/wp\/about\/"},"modified":"2024-02-02T08:46:58","modified_gmt":"2024-02-02T08:46:58","slug":"27204-testing-the-advanced-single-phase-asymmetric-cascaded-multilevel-inverter-topology-using-res","status":"publish","type":"page","link":"https:\/\/els-journal.net\/wp\/?page_id=747","title":{"rendered":"27204 Testing the Advanced Single Phase Asymmetric Cascaded Multilevel Inverter Topology using RES"},"content":{"rendered":"\n\n\n

Vol. 27, No. 2 – December 2023<\/h3>\n

Testing the Advanced Single Phase Asymmetric\nCascaded Multilevel Inverter Topology using RES<\/h3>\n

https:\/\/doi.org\/10.53314\/ELS2327064D<\/h5>\n
Moloy Cgandra Dey, Shamima Akther, Priyangka Talukder, Afshana Begum and Md Moontasir Rashid<\/h5>\n
Abstract<\/b><\/h5>\n
This paper works on developing a model of single phase asymmetrical cascaded multilevel inverter (MLI) which\ncouples\u2019 renewable energy sources (RES) to the electrical or electronic loads of the AC powered transport system applications (e.g.,\nLocomotives, Vehicles). MLI is the most important device as it is\nthe main adaptation stage between the source and the load. Researchers are now more focused on multilevel inverters because of\nits numerous advantages. The prime benefit of a multilevel inverter is obtaining more output voltage levels using a smaller number\nof DC sources. The proposed topology for this work is asymmetric and produces 31-Levels of output which consists of 12 IGBT\nswitches and 4 isolated dc voltage supplies V dc1 , V dc2 , V dc3 and V dc4\n(Ratio of 2:4:8:16). The proposed topology has been processed by\nusing PWM (Pulse Width Modulation) technique. Fundamental switching frequency (50HZ) has been used to achieve better\nquality of output voltage waveform with low harmonic distortion.\nThe proposed topology has been explicitly and thoroughly analyzed throughout the study to demonstrate its superiority over\nalternative MLI topologies. Power loss analysis of the chosen MLI\ntopology is also shown. An adequate comparison is also carried\nout between traditional and the proposed topologies. The comparative analysis shows that the chosen existing topology is better performed than others. According to the theoretical analysis\nconducted, the maximum efficiency obtained is 92.91% along with\nTHD of 4.44% and TSV of 60 V dc . The accuracy of the proposed\ntopology is verified through simulating the entire model in MATLAB-Simulink software.<\/h5>\n
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