Company Filing History:
Years Active: 2012
Title: Innovations by Shayne M Zum: Pioneering Electrical Microfilament Technology
Introduction
Shayne M Zum, an accomplished inventor based in Salt Lake City, UT, has made notable contributions to the field of microelectronics. With a focus on advancing electrical interconnections, he has secured a patent that showcases his innovative approach to enhancing circuit interfaces.
Latest Patents
Shayne's patent, titled "Electrical microfilament to circuit interface," describes devices and methods for the electrical interconnection of microelectronic circuits. This invention outlines a method where a bundle of microfilaments is formed, with at least two microfilaments featuring electrically conductive portions along their lengths. The method involves bonding these microfilaments to corresponding bond pads on a microelectronic circuit substrate, establishing efficient electrical connections. The resulting microelectronic circuit integrates a bundle of microfilaments bonded to bond pads, significantly improving the electrical connectivity within microelectronic systems.
Career Highlights
Shayne M Zum is associated with Raytheon Company, where he has leveraged his expertise in microelectronics to drive innovation. His work not only represents his individual creativity but also aligns with the company's commitment to technological advancement in the defense and aerospace sectors.
Collaborations
Throughout his career, Shayne has collaborated with talented colleagues such as Stephen C Jacobsen and David P Marceau. These partnerships have likely contributed to fruitful discussions and developments, fostering an environment ripe for innovation in their shared field.
Conclusion
With his groundbreaking patent on electrical microfilament technology, Shayne M Zum exemplifies the spirit of innovation in the microelectronics domain. His work at Raytheon Company, combined with valuable collaborations, positions him as a forward-thinking inventor dedicated to enhancing the functionality and efficiency of microelectronic circuits.