Company Filing History:
Years Active: 2006
Title: **Ray Auyeung: Innovator in Embedded Electronics Technology**
Introduction
Ray Auyeung is a notable inventor based in Alexandria, VA, whose work is significantly advancing the field of electronics. With a focus on innovative techniques for embedding electronic components, his contributions are paving the way for new methodologies in circuit board manufacturing.
Latest Patents
Ray Auyeung holds one patent titled "Laser-based technique for producing and embedding electrochemical cells and electronic components directly into circuit board materials." This patent presents a method for embedding electronic components, including electrochemical cells within circuit board substrates. The process involves micromachining the printed circuit board substrate to create a recess, into which a component is inserted. Subsequently, an electrical connection is established between the component and the metallized pattern of the circuit board substrate using techniques such as laser direct-write.
Career Highlights
Ray Auyeung works for the United States of America, as represented by the Secretary of the Navy. His career is marked by innovative developments that enhance the efficiency and functionality of electronic devices. His expertise in micromachining and circuit integration has been instrumental in advancing the technology used in various applications.
Collaborations
In his professional journey, Ray has worked alongside esteemed colleagues such as Craig B. Arnold and Alberto Pique. Their collaborative efforts contribute to groundbreaking advancements in the field of electronics, emphasizing the importance of teamwork in driving innovation.
Conclusion
Ray Auyeung exemplifies the spirit of innovation through his patent and professional contributions. His work in the development of laser-based techniques for embedding electronic components in circuit boards represents a significant step forward in electronics manufacturing. As technology continues to evolve, influencers like Auyeung are essential in shaping the future of electronic engineering.