Company Filing History:
Years Active: 2011
Title: Innovator Spotlight: Hernan A. Reuda
Introduction
Hernan A. Reuda is a notable inventor based in Phoenix, Arizona, who has made significant contributions to the field of semiconductor technology. He holds one patent that showcases his innovative approach to enhancing electronic components, particularly varactor diodes.
Latest Patents
Reuda's patent titled "Varactor Structures" describes an improved varactor diode design, which involves an intricate arrangement of isolation regions and doping techniques. The invention details a substrate with a first surface where the isolation regions separate the first and second parts of the diode. A varactor junction is formed in the first part, allowing for superior performance. This design provides an enhanced tuning ratio, operating frequency, and breakdown voltage while maintaining adequate quality factor (Q).
Career Highlights
Hernan is currently affiliated with Freescale Semiconductor, Inc., a pioneering company in the field of embedded processing solutions. His work at Freescale involves pushing the boundaries of semiconductor innovations and addressing the increasing demands for improved electronic components. His patent further emphasizes his expertise in developing advanced electronic systems.
Collaborations
Throughout his career, Reuda has collaborated with talented engineers and researchers, including coworkers Pamela J. Welch and Wen Ling M. Huang. Together, they have contributed to advancements in semiconductor technologies, working as a cohesive unit to bring innovative solutions to fruition.
Conclusion
Hernan A. Reuda stands out as a prominent inventor in the semiconductor field, demonstrating the power of innovation through his patent for varactor structures. His commitment to excellence at Freescale Semiconductor and his collaborative spirit with colleagues underline his contributions to the technological landscape. Through his work, Reuda continues to influence the advancement of electronic devices, enhancing their performance and efficiency.