Location History:
- Bridgewater, NJ (US) (2007 - 2009)
- Hsinchu, TW (2010)
Company Filing History:
Years Active: 2007-2010
Title: Steve Ming Ting: Innovator in Semiconductor Technology
Introduction
Steve Ming Ting is a prominent inventor based in Bridgewater, NJ (US). He has made significant contributions to the field of semiconductor technology, holding a total of 4 patents. His work focuses on improving device performance and reliability through innovative methods in semiconductor fabrication.
Latest Patents
Among his latest patents is the invention titled "Ultra shallow junction formation by solid phase diffusion." This patent describes an ultra shallow junction (USJ) FET device and a method for forming it, which enhances control over source/drain (SDE) or lightly doped drain (LDD) region interfaces. The method involves providing a semiconductor substrate, forming a gate structure, and thermally treating doped semiconductor layers to create doped regions in the substrate.
Another notable patent is the "Method for forming fully silicided gate electrodes and unsilicided poly resistors." This invention outlines a process for creating silicided gate electrodes while protecting unsilicided poly resistors. The method includes patterning semiconductor material, applying dielectric layers, and performing silicidation to achieve the desired electrical properties.
Career Highlights
Steve Ming Ting is currently employed at Taiwan Semiconductor Manufacturing Company Limited, where he continues to innovate in semiconductor technologies. His expertise and inventions have contributed to advancements in the industry, making him a valuable asset to his company.
Collaborations
Steve has collaborated with notable colleagues, including Chih-Hao Wang and Yen-Ping Wang. Their combined efforts in research and development have furthered the progress of semiconductor technology.
Conclusion
Steve Ming Ting is a distinguished inventor whose work in semiconductor technology has led to multiple patents and significant advancements in the field. His contributions continue to shape the future of electronic devices and their performance.