Bo-Wen Wang

Title: Bo-Wen Wang: Innovator in Shift-Register Circuits and Unit Gain Buffers

Introduction

Bo-Wen Wang is a prominent inventor based in Taipei, Taiwan. He has made significant contributions to the field of electronics, particularly in the development of shift-register circuits and unit gain buffers. With a total of 3 patents to his name, Wang continues to push the boundaries of innovation in technology.

Latest Patents

Wang's latest patents include a shift-register circuit and a shift-register unit. The shift-register unit features a first transistor with a source/drain coupled to a terminal and a gate that responds to a reset signal, halting the output of a pulse signal. Additionally, the second transistor is designed to couple with the first source/drain and a second terminal, utilizing a setting signal to initialize the unit. The third transistor is responsible for outputting the pulse signal, while the fourth transistor manages the voltage level during standby mode. Another notable invention is the unit gain buffer, which is integral to driving data lines in LCD data drivers. This innovation employs multiple PMOS transistors to ensure that the output voltage closely matches the input voltage, eliminating the need for feedback connections and reducing the layout area of the LCD driver.

Career Highlights

Bo-Wen Wang is currently affiliated with the Industrial Technology Research Institute, where he applies his expertise in electronics to advance research and development. His work has been instrumental in improving technologies related to low-temperature poly-silicon TFT-LCD processing.

Collaborations

Wang has collaborated with notable colleagues such as Shang-Li Chen and Jun-Ren Shih, contributing to various projects that enhance the capabilities of electronic devices.

Conclusion

Bo-Wen Wang's innovative work in shift-register circuits and unit gain buffers showcases his commitment to advancing technology in the electronics field. His contributions continue to influence the development of efficient electronic systems.