The Format of the IJOPCM, first submission

[Virtual Presenter] This presentation will discuss the research conducted by Ali Alzaidi, Azli Yahya and Tian Swee Tan on the development of a high frequency generator for a bipolar electrosurgical unit. We will explore the development process, results and implications of this research. Let's begin our presentation!.

[Virtual Presenter] Medical technology has seen considerable advancement in recent years, and the development of high-frequency generators for bipolar electrosurgical units is a prime example. Through the use of energy, these generators are able to cut cells while simultaneously boiling the waters within them, resulting in minimal damage to the cells. In this paper, a Buck-Boost topology DC to DC converter is discussed, aiming to improve overall performance and power density. This converter has the potential to deliver high efficient output power in a high resonance capacity, thus revolutionizing the medical field..

[Audio] Discussions have focused on the development of a high frequency generator for bipolar electrosurgical units. To realise the required voltage and frequencies, research has centred on the converter DC-DC voltage and radio frequency amplifier. Components such as the Boost Converter, Inverter and Full-Wave Rectifier have been accounted for. A 91% efficiency has been estimated for the Output Transformer, which will provide amplification and isolation. The development of the system has been monitored using a SIMULINK in MATLAB. With the potential to create a 50W radio frequency for electro surgery, the generator could reduce form factor in operating rooms as well as improve existing efficiency levels..

[Audio] I will be discussing the development of a high frequency generator for a bipolar electrosurgical unit. An ac bipolar pulsed power supply for reactive magnetron sputtering was designed through the IEEE transactions on Plasma Science. Furthermore, a new generator for RFG and ESU power supply was designed and developed to increase efficiency, which was simulated using MATLAB and SIMULINK add-on. The developed ESG will be utilized in experimental analysis, to determine the RF stage pattern for a larger survival rate of ESG. In conclusion, this generator can supply an efficient and high performance source for bipolar electrosurgical unit..

[Audio] This presentation has highlighted the development of a high frequency generator for a bipolar electrosurgical unit. Four authors contributed to this research, including Ali Alzaidi from the University of Bridgeport, Azli Yahya from Universiti Teknologi Malaysia, Tian Swee Tan from Universiti Teknologi Malaysia, and J. Sun from the Dynamics and Control of Switched Electronic Systems. The research discussed pulse-width modulation, modeling of flyback converters for micro machining biomedical components, and a versatile multilevel converter platform for cancer treatment. It is evident that this body of research has significance in the field of electrosurgical units. A special thanks to the authors for their commitment to making this presentation a success. The presentation has highlighted the development of a high frequency generator for a bipolar electrosurgical unit. Four authors contributed to this research, Ali Alzaidi from the University of Bridgeport, Azli Yahya from Universiti Teknologi Malaysia, Tian Swee Tan from Universiti Teknologi Malaysia, and J. Sun from the Dynamics and Control of Switched Electronic Systems. The research discussed pulse-width modulation, modeling of flyback converters for micro machining biomedical components, and a versatile multilevel converter platform for cancer treatment. It is evident that this body of research has significance in the field of electrosurgical units. Much appreciation to the authors for their commitment to making this presentation a success..