Company Filing History:
Years Active: 2021
Title: Ji-Ting Lai: Innovator in Frequency Modulation Technology
Introduction
Ji-Ting Lai is a prominent inventor based in Taipei, Taiwan. He has made significant contributions to the field of frequency modulation technology, particularly in the context of pulse-width modulation systems. His innovative approach has led to the development of a unique patent that enhances the efficiency of frequency modulation.
Latest Patents
Ji-Ting Lai holds a patent for an "Automatic frequency modulation circuit and automatic frequency modulation method applied to pulse-width modulation system." This invention discloses an automatic frequency modulation circuit that utilizes efficiency statistics as a reference for frequency modulation. The circuit comprises an oscillator unit, an on-time generating unit, a frequency adjusting unit, and a frequency selecting unit. The oscillator unit generates a clock signal based on a reference current. The on-time generating unit produces an on-time signal by receiving a reference voltage and a voltage from the oscillator unit. The frequency adjusting unit generates a frequency adjusting signal based on the on-time signal and a PWM signal. Finally, the frequency selecting unit automatically adjusts the original frequency according to the frequency adjusting signal to produce an adjusted frequency.
Career Highlights
Ji-Ting Lai is currently employed at Raydium Semiconductor Corporation, where he continues to innovate in the semiconductor industry. His work focuses on enhancing the performance and efficiency of electronic systems through advanced modulation techniques.
Collaborations
Throughout his career, Ji-Ting Lai has collaborated with notable colleagues, including Shen-Xiang Lin and Chih-Jen Hung. These collaborations have contributed to the advancement of technology in their respective fields.
Conclusion
Ji-Ting Lai's contributions to frequency modulation technology exemplify his innovative spirit and dedication to advancing electronic systems. His patent reflects a significant step forward in the efficiency of pulse-width modulation systems.