Design Optimization of Solar Power Inverter

Main Article Content

Sridhar P, K Sashidhar Reddy, K.Maithili, T.Sathish Kumar, Keshaboina Samatha

Abstract

Optimizing the design of solar power inverters aims to improve efficiency, dependability, and performance. Effective circuit design, component selection, and advanced power electronics design are all involved. Effective methods for trouble identification and heat control guarantee long-term dependability. Complex control algorithms and filtering techniques enable the generation of high-quality AC output. Different system sizes can be integrated thanks to scalability. Monitoring and communication features enable remote control and real-time performance monitoring. Safety features adhere to all relevant standards and laws. For the highest return on investment, cost-effective design selections balance performance and affordability.  Check to see if any specific aspects, such as dependability, power quality, scalability, cost-effectiveness, or efficiency, need to be improved. data collection Collect all necessary data, such as details on solar panels, load specifications, grid standards, environmental factors, and any other details that might affect the design. Modelling and simulation an electronic or mathematical model of the solar power inverter system should be created. This model should be able to accurately represent the inverter's electrical properties, control structures, and operating behavior. Utilise simulation tools to assess the system's performance under various conditions. Utilizing optimization techniques, algorithms are used to discover the optimal design solution. These algorithms could be based on methods for machine learning, evolutionary algorithms, or mathematical optimization methods. Define the objective function and constraints of the optimization process. Iterative Refinement for Modify the design in response to the optimization's results. Iterate through the design exploration, performance evaluation, and optimization stages to reach a superior design solution. The parameters of the model are continuously updated and modified as required. Taken as alternate parameter is Air Conditioner, Fan, Iron Box, Laptop Charger, Microwave Oven, UPS, Cooler. Taken as evaluation parameter is Battery, Filter capacitor (C1),      Filter inductor (L1), Switching Frequency, DC link Capacitor (C2) 2 nos.

Article Details

How to Cite
Sridhar P, et al. (2023). Design Optimization of Solar Power Inverter. International Journal on Recent and Innovation Trends in Computing and Communication, 11(10), 1818–1825. https://doi.org/10.17762/ijritcc.v11i10.8758
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Articles
Author Biography

Sridhar P, K Sashidhar Reddy, K.Maithili, T.Sathish Kumar, Keshaboina Samatha

Dr. Sridhar P1, Dr.  K Sashidhar Reddy2, Dr. K.Maithili3, Dr.T.Sathish Kumar4, Keshaboina samatha5,

1Professor, Department of EEE ,Institute of Aeronautical Engineering

Hyderabad Mail : sridharp35@gmail.com

2Professor, EEE Department  CVR College of Engineering

Hyderabad  Mail : shashidhar.kotha5@gmail.com

3Associate  Professor  Department of CSE

KG REDDY COLLEGE OF ENGINEERING &TECHNOLOGY Moinabad, Hyderabad,  Telangana-501504

Mail : drmaithili@kgr.ac.in

4Associate Professor Department of Computer Science and Engineering

Hyderabad Institute of Technology and Management, Hyderabad Mail : sathisht.cse@hitam.org

5Assistant professor, Department of CSE,

MLR Institute of Technology ,Dundigal,Hyderabad. Mail : samathak@mlrinstitutions.ac.in