Hsin-Kai Chiang

Title: Hsin-Kai Chiang: Innovator in Semiconductor Technology

Introduction

Hsin-Kai Chiang is a prominent inventor based in Hsinchu, Taiwan. He has made significant contributions to the field of semiconductor technology, holding a total of 3 patents. His work focuses on innovative methods and devices that enhance the efficiency and functionality of semiconductor applications.

Latest Patents

Hsin-Kai Chiang's latest patents include a semiconductor device and a method for fabricating the same. This patent discloses a method that involves providing a substrate, forming a fin-shaped structure on the substrate, and creating a shallow trench isolation (STI) around the fin-shaped structure. Additionally, it details the formation of a gate structure on the fin-shaped structure, which includes a first epitaxial layer, as well as the creation of source and drain regions with different conductive types adjacent to the gate structure. Another notable patent is a dimming control circuit and method for generating analog and digital signals based on an analog control signal. This invention comprises an input for receiving an analog control signal, a digital dimming circuit, and an analog dimming circuit, which work together to convert supply voltage to an output voltage according to the generated analog signal.

Career Highlights

Throughout his career, Hsin-Kai Chiang has worked with notable companies such as United Microelectronics Corporation and Richtek Technology Corporation. His experience in these organizations has allowed him to develop and refine his expertise in semiconductor technologies.

Collaborations

Hsin-Kai Chiang has collaborated with several talented individuals in his field, including Kai-Ling Chiu and Victor-Chiang Liang. These collaborations have contributed to the advancement of innovative solutions in semiconductor technology.

Conclusion

Hsin-Kai Chiang is a distinguished inventor whose work in semiconductor technology has led to multiple patents and significant advancements in the field. His contributions continue to influence the development of efficient semiconductor devices and methods.