Ta-Yang Lin

Title: Innovations of Ta-Yang Lin in Semiconductor Technology

Introduction

Ta-Yang Lin is a prominent inventor based in Changhua, Taiwan. He has made significant contributions to the field of semiconductor technology, holding a total of 5 patents. His work focuses on methods that enhance the efficiency and effectiveness of semiconductor manufacturing processes.

Latest Patents

Among his latest patents, Ta-Yang Lin has developed a method and apparatus for pretreating a substrate prior to electroplating. This innovative method involves providing a substrate with a contact pad and an under bump metallurgy, along with a photoresist layer that has an opening aligned with the contact pad. The substrate is pretreated with a wetting solution before plating a seed layer over the under bump metallurgy.

Another notable patent is a method to make wafer laser marks visible after the bumping process. This method includes providing a wafer with fields and at least one wafer identification character. A dry film resist is formed over the wafer, and portions are selectively exposed using a mask. This process ensures that the wafer identification character is readable by optical character recognition after solder bumps are formed.

Career Highlights

Ta-Yang Lin is currently employed at Taiwan Semiconductor Manufacturing Company Limited, a leading firm in the semiconductor industry. His work has been instrumental in advancing the techniques used in semiconductor fabrication, contributing to the overall efficiency of the manufacturing process.

Collaborations

Throughout his career, Ta-Yang Lin has collaborated with notable colleagues, including Hsiu-Mei Yu and Charles Tseng. These collaborations have fostered innovation and have led to the development of cutting-edge technologies in the semiconductor field.

Conclusion

Ta-Yang Lin's contributions to semiconductor technology through his patents and collaborations highlight his role as a key innovator in the industry. His work continues to influence the future of semiconductor manufacturing processes.