Company Filing History:
Years Active: 2025
Title: Ju Hee Jeon: Innovator in Feedback Field-Effect Transistor Technology
Introduction
Ju Hee Jeon is a prominent inventor based in Seoul, South Korea. He has made significant contributions to the field of electronics, particularly in the development of innovative technologies that enhance circuit performance. His work is characterized by a focus on feedback field-effect transistors, which are crucial in modern electronic applications.
Latest Patents
Ju Hee Jeon holds a patent for a groundbreaking invention titled "Ring oscillators based on feedback field-effect transistors." This patent describes a feedback field-effect transistor-based ring oscillator that includes multiple feedback field-effect transistors. Each transistor features a diode structure with n-type and p-type doped channel regions situated between the drain and source terminals. The gate terminal is integrated within the diode structure, allowing the transistors to operate in both p-channel and n-channel modes depending on the gate terminal's position. The oscillation operation is facilitated by the supply voltage applied through the drain and source terminals, showcasing a novel approach to oscillator design.
Career Highlights
Ju Hee Jeon is affiliated with the Korea University Research and Business Foundation, where he continues to advance his research and development efforts. His work has garnered attention for its potential applications in various electronic devices, contributing to the evolution of circuit technology.
Collaborations
Ju Hee Jeon has collaborated with notable colleagues, including Sang Sig Kim and Kyoung Ah Cho. These partnerships have fostered a collaborative environment that enhances innovation and drives research forward.
Conclusion
Ju Hee Jeon's contributions to the field of electronics, particularly through his patent on feedback field-effect transistors, highlight his role as an influential inventor. His work not only advances technology but also paves the way for future innovations in electronic circuit design.