Years Active: 2025
Title: Clency Lee-Yow: Innovator in Vehicular Communication Antennas
Introduction
Clency Lee-Yow is a notable inventor based in Niwot, Colorado. He has made significant contributions to the field of vehicular communications through his innovative designs. His work focuses on enhancing communication systems for various demanding applications.
Latest Patents
Clency Lee-Yow holds a patent for an "Annular ring antenna with contiguous radiating elements for enhancing vehicular communications at multiple frequency bands." This patent describes a contiguous radiating ring antenna structure suitable for vehicles. The antenna features a curved shape with multiple radiating rings, sectors, a connecting unit, and frequency barriers. It achieves a phase variation of less than 2° over 360° of azimuth coverage and approximately +/−85° of elevation coverage. The design is compact, with a thickness of less than 0.5 inches, making it ideal for demanding vehicular applications, including missiles, rockets, and aircraft. The antenna also includes a beam forming network, which can be integrated into a printed antenna board to enhance vehicular communications.
Career Highlights
Throughout his career, Clency Lee-Yow has demonstrated a commitment to advancing technology in the field of communications. His innovative designs have paved the way for improved communication systems in various vehicles. His work is characterized by a focus on efficiency and performance, ensuring that his inventions meet the rigorous demands of modern applications.
Collaborations
Clency has collaborated with notable individuals in his field, including Maxim Vladimirovich Ignatenko and Philip Elwood Venezia. These collaborations have contributed to the development of cutting-edge technologies in vehicular communications.
Conclusion
Clency Lee-Yow's contributions to the field of vehicular communication antennas highlight his innovative spirit and dedication to advancing technology. His patent for the annular ring antenna exemplifies his ability to create solutions that meet the needs of demanding applications. His work continues to influence the future of vehicular communications.