Company Filing History:
Years Active: 1993
Title: Mark L. Ryland: Innovator in Power Coupling Technology
Introduction
Mark L. Ryland is a notable inventor based in Allen, TX (US), recognized for his contributions to power coupling technology. He holds 2 patents that showcase his innovative approach to solving complex engineering challenges. His work primarily focuses on minimizing disturbances in electrical systems, which is crucial for maintaining signal integrity.
Latest Patents
One of Ryland's latest patents is the "Anti-microphonic power coupling apparatus." This invention addresses the issue of vibration-induced movement in power couplers by securing the coupler at two different points along its length. This design not only prevents side-to-side movement but also allows for vertical adjustments. The apparatus maintains a constant impedance, which is essential for effective electrical connections, thereby eliminating connector insertion loss and signal reflections.
Another significant patent is the "Anti-microphonic cavity structure tuning apparatus." This invention utilizes a resilient locking strip embedded in the threads of an adjustable resonator to ensure consistent electrical contact. This design minimizes microphonic disturbances that can affect the resonant frequency, thereby enhancing the performance of RF tuning cavities.
Career Highlights
Mark L. Ryland is currently associated with Alcatel Network Systems, Inc., where he applies his expertise in developing advanced technologies. His innovative spirit and technical knowledge have made him a valuable asset in the field of electrical engineering.
Collaborations
Throughout his career, Ryland has collaborated with talented individuals such as Kirk R. Chandler and Leon Jinich. These partnerships have contributed to the development of groundbreaking technologies in the industry.
Conclusion
Mark L. Ryland's contributions to power coupling technology through his patents reflect his commitment to innovation and excellence. His work continues to influence the field, ensuring that electrical systems operate with greater efficiency and reliability.