Company Filing History:
Years Active: 2017-2022
Title: Innovations by Yu-Jen Chen
Introduction
Yu-Jen Chen is a notable inventor based in Hsin-Chu, Taiwan. He has made significant contributions to the field of display technology, holding a total of 3 patents. His work focuses on enhancing the performance and efficiency of display devices.
Latest Patents
One of Yu-Jen Chen's latest patents is a gate driving circuit. This circuit includes a plurality of shift registers coupled in series. An nth shift register comprises a driving circuit and a pull-down circuit. The driving circuit is electrically coupled to an output node and a first node. It is configured to receive a first clock signal and output a gate signal according to this signal. The pull-down circuit is also electrically coupled to the output node. It is designed to receive an (n−m)th gate signal and an (n+m)th gate signal, pulling down the gate signal to a low voltage level based on one of these signals, where m and n are positive integers.
Another significant patent involves a display device with improved pixel electrode charging. This device features a plurality of pixel electrodes arranged in an array. It includes a first switch connected to a first pixel electrode and a second switch connected to a second pixel electrode. The second switch is positioned between the first switch and a data line, with the first pixel electrode and the second pixel electrode located in non-adjacent rows of the pixel electrodes.
Career Highlights
Yu-Jen Chen is currently employed at AU Optronics Corporation, a leading company in the display technology sector. His work has contributed to advancements in display performance and efficiency.
Collaborations
He has collaborated with notable coworkers, including Meng-Chieh Tsai and Wei-Chien Liao, who have also made significant contributions to the field.
Conclusion
Yu-Jen Chen's innovative work in display technology, particularly through his patents, showcases his expertise and commitment to advancing the industry. His contributions continue to influence the development of more efficient display devices.