Company Filing History:
Years Active: 1976-1983
Title: Joseph A. Zenel: Innovator in Marine E.L.F. Radio Technology
Introduction
Joseph A. Zenel is a notable inventor based in Princeton, NJ (US). He has made significant contributions to the field of marine extremely low frequency (E.L.F.) radio technology. With a total of 2 patents, Zenel's work focuses on innovative antenna designs that enhance radio reception capabilities.
Latest Patents
Zenel's latest patents include a unique antenna cable design. This distributed loop antenna is embodied in a flexible cable structure specifically for marine E.L.F. radio reception. The patent describes several distributed loop and magnetic core configurations that provide 'side-looking' reception. Additionally, it highlights the ability of flexible distributed loops to minimize the induction of noise voltages in the antenna. Another significant patent is for a core design for a flexible H-sensor for E.L.F. This design features a counterwound magnetic core for a towed-cable, helically wound E.L.F. antenna. It comprises a cylindrical, plastic center insert, with or without a center conductor, and two strips of magnetic material counterwound around it. This innovative design reduces magnetostrictive noise by providing alternate flux paths down the core, thus enhancing performance under stress.
Career Highlights
Zenel works for the USA as represented by the Secretary of the Navy. His role involves developing advanced technologies that support naval operations and enhance communication capabilities. His expertise in antenna design has positioned him as a key contributor to the field.
Collaborations
Throughout his career, Zenel has collaborated with notable colleagues, including William G. McGuffin and William E. Barnette. These collaborations have fostered innovation and have led to advancements in E.L.F. radio technology.
Conclusion
Joseph A. Zenel's contributions to marine E.L.F. radio technology through his innovative patents demonstrate his commitment to enhancing communication systems. His work continues to influence the field and supports critical naval operations.