Company Filing History:
Years Active: 1989
Title: A J Clement: Innovator in Radio Transmission Antenna Systems
Introduction
A J Clement is a notable inventor based in McFarland, California. He has made significant contributions to the field of radio transmission technology. His innovative work focuses on enhancing the efficiency and effectiveness of antenna systems.
Latest Patents
Clement holds a patent for an "Azimuth array of rotary antennas with selectable lobe patterns." This invention pertains to a radio transmission antenna system and method of transmitting radio signals. The antenna system features an array of separately rotatable directional antennas spaced along an azimuth line. These antennas can be rotated to direct their major lobes of transmitted RF energy along parallel lines in a selected direction relative to the azimuth line.
The patent describes two separate adjustments made to the phase of identical RF signals fed to each antenna in the array. The first phase adjustment is crucial for producing a coherent wave-front transmitted in the selected direction. This adjustment shifts the phase of the signals fed to adjacent antennas by 180 degrees, establishing a radiation pattern in any given azimuth quadrant. The second adjustment changes the phase of the signals fed to antennas spaced equally from the geographic center of the array by equal, opposite magnitudes. This adjustment allows for the wobbling of the major lobe direction on either side of the first adjustment.
Career Highlights
A J Clement is associated with Tri-Ex Tower Corporation, where he applies his expertise in antenna technology. His work has contributed to advancements in radio transmission systems, making them more versatile and efficient.
Collaborations
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Conclusion
A J Clement's innovative contributions to radio transmission antenna systems exemplify the importance of advancements in communication technology. His patent reflects a significant step forward in the field, showcasing his dedication to improving radio signal transmission methods.