http://www.ijojournals.com/index.php/eee <p>The <strong>IJO Journal</strong> of <strong>Electrical&nbsp;and&nbsp;Electronic&nbsp;Engineering&nbsp;</strong>aims to foster a wider academic interest in electrical and electronics engineering, including its intersection with physics. The journal publishes original research papers in the fields of Electrical and Electronic Engineering and in related disciplines. Areas included (but not limited to) are electronics and communications engineering, electric energy, automation, control and instrumentation, computer and information technology, and the electrical engineering aspects of building services and aerospace engineering.</p> en-US <p>Author(s) and co-author(s)&nbsp;jointly&nbsp;and severally represent and warrant that the Article is original with the author(s) and does not infringe any&nbsp;copyright or violate any other right of any third parties and that the Article has not been published&nbsp;elsewhere.&nbsp;Author(s) agree to the terms that the <strong>IJO Journal</strong> will have the full right to remove the published article on any misconduct found in the published article.</p> info@ijojournals.com (Rahul Khan) editor@ijojournals.com (Aasik Hussain) Wed, 31 Aug 2022 11:15:25 +0000 OJS 3.1.1.4 http://blogs.law.harvard.edu/tech/rss 60 http://www.ijojournals.com/index.php/eee/article/view/573 <p><strong><em>This study describes a series resonant converter for an all-purpose EV charger that is controlled by pulse width modulation (PWM). The boost mode of a series resonant converter is the topic of this work. A series resonant converter may span a huge range of gain with a high and flat efficiency curve by adopting two PWM boost switches with a complete bridge rectifier. The suggested converter's secondary side rectifier progressively changes from a complete bridge rectifier to a voltage doubler rectifier as the output voltage rises.With complete bridge and voltage doubler rectifiers, the proposed converter automatically achieves "two peak efficiency points" since the switching frequency is locked to the resonant frequency in boost mode. The suggested converter provides a high and flat efficiency curve because two peak efficiency points restrict the efficiency decline across a broad range of gain. On a prototype with an 800 V input and 200-950 V/3.3 kW output, the efficacy of the suggested converter and control has been confirmed.</em></strong></p> Aneerudh A ##submission.copyrightStatement## https://creativecommons.org/licenses/by-nc-nd/4.0/ http://www.ijojournals.com/index.php/eee/article/view/573 Wed, 31 Aug 2022 11:12:03 +0000