Research and Applications: Embedded System (e-ISSN:2582-2993)

Full-bridge converters have two functions: an inverter and a rectifier. In electric vehicles, this dc–dc converter is an excellent choice. Some of the system's advantages include a simple control, high efficiency, and no additional devices. Energy Storage System and DC Load are the three parts of the proposed system. In order to maintain the PV/battery hybrid power system's balance of power output, the Fuel Cell can be charged or discharged. The PV-to-load DC-DC converter includes a bidirectional buck/boost converter that switches power in both directions. A fuel cell is used to transform an AC power source into a DC power source. Fuel cell vehicles and power generation require lightweight, compact, and highly efficient converters because of their high power and high current demands. Using a converter is necessary. Pulses are being generated using the PWM technique.

Habib Ur Rahman Habib, Shaorong Wang, Muhammad Tajamul Aziz, “PV-Wind- Battery Based Standalone Microgrid System with MPPT for Green and Sustainable Future”, 2019 IEEE.

Amr Ahmed A. Radwan and Yasser Abdel-Rady I. Mohamed, “Grid- Connected Wind-Photovoltaic Cogeneration Using Back-to-Back Voltage Source Converters”, IEEE Transactions on Sustainable Energy, 2019.

Adhiya N N, Nayana G S Nair, Silindas C, Remanikanth S, “Hybrid power generation using dual axis solar tracking system and wind energy system”, International Journal of Advance Research, Ideas and Innovations in Technology, Volume 4, Issue 3, pp 2381-2384, 2018.

Pooja Patel, Dr. Vijay Bhuria, “Power Quality Issues in Grid Integrated Solar and Wind Hybrid System: A Review”, International Journal of Engineering Development and Research, Volume 6, Issue 3, pp 505-509, 2018.

Ravikumar S and Dr. H Vennila, “Hybrid Wind Solar System for Efficient Power Generation”, International Conference on Electronics, Communication and Aerospace Technology, 2017 IEEE.

Lalit Yashwant Bacchav and Dr. Asha Gaikwad, “MATLAB Implementation of Standalone Hybrid Wind-Solar Power Generation with and Without Dump Power Control”, International Conference on Energy, Communication, Data Analytics and Soft Computing (ICECDS-2017), pp 3069-3073, 2017 IEEE.

Akshay B. Zade, Asha Gaikwad, Prachi M. Jeevane and Ganesh Lohote, “Hybrid Solar and Wind Power Generation with Grid Interconnection System for ImprovingPower Quality”, 1st IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems, pp 1-6, July 2016.

R.Karthick, S.Manoharan, “grid interconnection of hybrid power system with power quality improvement features”, International Journal of Advanced Engineering Technology, Vol. VII, Issue I, pp 121- 124, Jan-March 2016.

Varun Kumar, A.S. Pandey, S.K. Sinha, “Grid Integration and Power Quality Issues of Wind and Solar Energy System: A Review”, International Conference on Emerging Trends in Electrical, Electronics and Sustainable Energy Systems, pp 71- 80, 2016 IEEE.

N. Kumar, I. Hussain, B. Singh, and B. K. Panigrahi, ‘‘Selfadaptive incremental conductance algorithm for swift and ripple-free maximum power harvesting from PV array,’’ IEEE Trans. Ind. Informat., vol. 14, no. 5, May 2018.