Abstract
The H-bridge MLI has cascaded to addicted cascaded the diode with switches of lower rated power, consumption of power reactive and active. A new system is being developed to increase effectiveness of MLI (multilevel inverter). within the electricity system, to inverter is critical for DC-AC voltage conversion. MLI focuses more on Industry Needs. MLI is typically used to provide high power at high voltage applications. In comparison to inverters flying capacitors and the diode-clamped, it has the fewest components and the voltage level it same number to achieve the voltage balancing capacitors or diodes any voltage clamping. This design incorporates a multilayer inverter with a cascaded H Bridge based on a Boost circuit (BCCHB). The job of the voltage to increase the boost circuit of the multilevel inverter. Boost circuits are essential in an application of wide range, including photovoltaic and the use of fuel cells. ML Inverter with Cascaded H Bridge is a Voltage Controlled Source Inverter with the advantages of being small in size and having an output waveform that is independent of load type. A cascaded H Bridge prototype model based on a boost circuit is validated, and the results simulation has been compared with the result.
ACKNOWLEDGEMENT
Nothing in this work is acknowledged.
ANIMAL AND HUMAN RIGHTS
Animal and human rights are not being violated.
AUTHORSHIP CONTRIBUTIONS
All authors are contributed equally to this work.
CONSENT TO PARTICIPATE AND ETHICS APPROVAL
This implementation method doesn’t include any human involvement.
CONTRIBUTIONS TO AUTHORSHIP
No one contributed to the writing.
INTEREST-BASED CONFLICT
In this paper, a conflict of interest does not exist.
FUNDING
This project receives no funding.
Additional information
Notes on contributors
K. Sakthidhasan
K. Sakthidhasan received the B.E. degree in Electrical and Electronics Engineering from the Anna University, in 2006, the M.Tech. degree in Industrial Engineering from PSG College of Technology, Anna University, in 2009, and the doing Ph.D. degree from Anna University, Chennai, India. He is currently working as an Assistant Professor with the Electrical and Electronics Engineering (EEE) Department, VelTech Multitech Dr.Rangarajan Dr.Sakunthala Engineering College, Avadi, Chennai, India. He has published around 18 articles in international journals and International Conferences. His research interests include Renewable Energy, Power Systems, Hybrid Vehicle, and Power Electronics. He is also an Active Member ISTE.
K. Mohana Sundaram
K. Mohana Sundaram received the B.E. degree in electrical and electronics engineering from the University of Madras, in 2000, the M.Tech. degree in high voltage engineering from SASTRA University, in 2002, and the Ph.D. degree from Anna University, Chennai, India, in 2014. He is currently working as a Professor with the Electrical and Electronics Engineering (EEE) Department, KPR Institute of Engineering and Technology, India. He has completed funded project of worth Rs.30.79 lakhs sponsored by DST, Government of India. He has produced four Ph.D. candidates under his supervision in Anna University. He has published three books and serving as a reviewer for IEEE, Springer, and Elsevier journals. He has also published around 47 articles in international journals. His research interests include intelligent controllers, power systems, embedded systems, and power electronics. He is also an Active Member of IE, ISTE, and IAENG.
S. Ravishankar
S. Ravishankar (Department of Mechanical Engineering, King Fahd University of Petroleum and Minerals, Dhahran, Dammam, Saudi Arabia) His research interests include material science, refrigeration and air conditioning, solar drying, solar still desalination, IC engines, Nano fluids in heat transfer applications, material characterization, Computational fluid dynamics, phase change materials, energy storage, Alternate fuels, heat and power engineering. He authored and co-authored more than 230 research and review articles in reputed and high impact factor journals and presented 40 articles in international conferences. Working as a Professor. Research area includes Solar desalination techniques for Rural and Urban areas, nano technology and nano materials. Main goal of research is to employ domestic desalination in low cost. Also various effects on environmental aspects has been studied for the overall performance of the product. Other research includes solar thermal storage, renewable energy, waste heat recovery system.