Company Filing History:
Years Active: 2017
Title: Ilyoung Sohn: Innovator in Power Conversion Technology
Introduction
Ilyoung Sohn is a notable inventor based in Seongham-si, South Korea. He has made significant contributions to the field of power conversion technology, particularly through his innovative patent.
Latest Patents
Ilyoung Sohn holds a patent for a "Power converting circuit and hysteresis buck converter with changing response characteristic based on transient state of output voltage." This invention includes a voltage converting circuit, a feedback circuit, a driving signal generator, a transient state detector, and a resistance value adjuster. The voltage converting circuit changes the voltage level of an input voltage responsive to a driving signal, outputting an output voltage according to the changed voltage level. The feedback circuit divides the output voltage to output a divided output voltage as a feedback voltage. The driving signal generator compares the level of the feedback voltage with a reference voltage and outputs the driving signal. The transient state detector compares the feedback voltage level with the reference voltage and outputs a transient state signal corresponding to the transient state of the output voltage. The resistance value adjuster adjusts the feedback resistance value, which divides the output voltage, responsive to the transient state signal.
Career Highlights
Ilyoung Sohn is currently employed at Samsung Electronics Co., Ltd., where he continues to develop innovative technologies in power conversion. His work has contributed to advancements in electronic devices and energy efficiency.
Collaborations
Ilyoung has collaborated with notable coworkers such as Takahiro Nomiyama and Suho Lee, enhancing the innovation process through teamwork and shared expertise.
Conclusion
Ilyoung Sohn's contributions to power conversion technology exemplify the impact of innovative thinking in the electronics industry. His patent reflects a commitment to advancing technology and improving energy efficiency in electronic devices.