Company Filing History:
Years Active: 2023
Title: Mitradatta Misra: Innovator in Power Systems
Introduction
Mitradatta Misra is a notable inventor based in Taoyuan, Taiwan. He has made significant contributions to the field of power systems, particularly through his innovative patent. His work reflects a deep understanding of electrical engineering and its applications in modern technology.
Latest Patents
Mitradatta Misra holds a patent for a "Power system and pulse width modulation method therefor." This invention includes a power system that features a pulse width modulation device. The device outputs first, second, third, and fourth driving signals while receiving a control signal. The control signal is divided into a positive periodic signal and a negative periodic signal. A portion of the positive periodic signal that is higher than or equal to a maximum threshold voltage is clamped to generate a first comparison waveform. Additionally, the positive periodic signal is clamped as the reference voltage level to create a second comparison waveform. Based on these waveforms, a first ramp signal and a first pulse width modulation signal are generated, allowing for the adjustment of the driving signals accordingly. This patent showcases his innovative approach to enhancing power system efficiency.
Career Highlights
Mitradatta Misra is currently employed at Delta Electronics, Inc., where he continues to develop cutting-edge technologies in power systems. His role at the company allows him to apply his expertise and contribute to advancements in the field.
Collaborations
Mitradatta has collaborated with notable colleagues such as Kai-Wei Hu and Ping-Heng Wu. These partnerships have fostered a creative environment that encourages innovation and the sharing of ideas.
Conclusion
Mitradatta Misra is a distinguished inventor whose work in power systems has led to valuable advancements in technology. His patent reflects his commitment to innovation and his ability to solve complex engineering challenges. His contributions will undoubtedly influence the future of power systems.