Olutayo Omotoso
Aim: PhD in Engineering
Topic: Wide Bandgap Power Electronics
My supervisors are: Professor Richard McMahon | Professor Oleh Kiselychnyk
My research is sponsored by:
Biography
Omotoso Olutayo Olusogo graduated as the overall best student in MSc Electrical Power — with Distinction from UK in 2019. He received a BSc degree in Electrical and Electronic Engineering with First Class honours at (Nigeria) in 2017.
He is currently a Doctoral Student at the Centre for Doctoral Training: To advance the deployment of Future Mobility Technology (CDT - FMT), University of 糖心TV under the sponsorship of . His research focuses on converters (AC-DC, DC-DC, AC-AC): design, implementation and prototyping using Wide Bandgap Power Electronics as the underpinning technology. He led the CDT-FMT鈥檚 2020 Cohort Project where he worked on the 鈥淒esign and Integrity Monitoring for Powertrain of an Electric Vehicle鈥. Olutayo also renders Graduate Teaching Assistance (GTA) in School of Engineering.
He was a Technologist at The Federal Polytechnic, Ado-Ekiti (Nigeria) where he worked on power systems projects. He also worked as an Engineer at Living Witness Ltd (Nigeria) between 2007 and 2013, where he supervised production operation of foods. Presently, he is a Member of the (MIET), UK.
My News and Interests
Blog: The Future Mobility Technology: Everyone is a stakeholder
Recent Award
Olutayo wins the 2nd Prize in Poster Presentation at the Annual Conference 2021.
My Research
At the moment and going into the future, the quest for sustainable development and mitigation of the effect of climate change is on pressing demand. The — Banning the petrol and diesel cars on the UK roads by 2030 and replacing them with pure electric cars — has put every stakeholders (government, car manufacturers and suppliers, and researchers alike) on their toes.
Researchers and industry sponsors at the Centre for Doctoral Training: To advance the deployment of Future Mobility Technology (CDT - FMT) are key drivers of this vision. As a Doctoral Researcher sponsored by and supervised by Professor Richard McMahon and Prof Oleh Kiselychnyk my research focuses on applying the underpinning technology in Wide Bandgap Power Electronics in developing efficient, cost effective and durable converters/inverters for automotive and other applications.
Recent Publications
[1] O. Omotoso, O. Kiselychnyk, R. McMahon, P. Mawby, P. James and M. Mawby, "The challenges in the implementation and voltage ripple analysis of quasi-three-phase dual active bridge converter," 2022 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM), 2022, pp. 561-567, doi: 10.1109/SPEEDAM53979.2022.9842151. .
[2] O. Omotoso, O. Kiselychnyk, R. McMahon, J. Wang and S. B. Karanki, "Featured properties of PV array – dual active bridge system for efficient MPPT implementation," 11th International Conference on Power Electronics, Machines and Drives (PEMD 2022), 2022, pp. 47-51, doi: 10.1049/icp.2022.1013. .
[3] O. Omotoso, O. Kiselychnyk, R. McMahon, P. Mawby, P. James and M. Mawby, "The challenges of determining the optimum transformation ratio for a triangular modulated dual active bridge converter," 2022 IEEE Workshop on Wide Bandgap Power Devices and Applications in Europe (WiPDA Europe), 2022, pp. 1-5, doi: 10.1109/WiPDAEurope55971.2022.9936454. .
[4] O. Omotoso, O. Kiselychnyk, R. McMahon, O. Adeoye, "Determination of the optimum transformation ratio for a trapezoidal modulated dual active bridge converter," 2022 IEEE Industrial Electronics Society annual On-line Conference, ONCON-2022 (in press; accepted for publication).
[5]
Ade-Ikuesan, O.O | Omotoso, O.O | Osifeko, M.O | Okakwu, I.K | Alao, P.O.