Company Filing History:
Years Active: 2007
Title: David Plamondon: Innovator in Antenna Technology
Introduction
David Plamondon is a notable inventor based in Calgary, Canada. He has made significant contributions to the field of antenna technology, particularly with his innovative designs that enhance the performance of satellite communication systems.
Latest Patents
David holds a patent for a "Leaky wave antenna with radiating structure including fractal loops." This advanced antenna is designed to acquire RF signals from various satellite ranging systems, including GPS, GLONASS, GALILEO, and OmniSTAR®. The configuration features a radiating structure composed of multi-arm spiral slots that are terminated with fractal loops. A leaky wave microstrip spiral feed network is utilized to excite the radiating structure of the antenna. The fixed beam phased array of aperture coupled slots is optimized to receive right-hand polarized signals. This innovative antenna is constructed from a single PCB board and demonstrates a uniform phase and amplitude pattern in the azimuth plane from 1.15 to 1.65 GHz, ensuring consistent performance across multiple satellite frequencies. Additionally, it maintains a common phase center across various frequencies from 1175 MHz to 1610 MHz, exhibiting similar radiation pattern and axial ratio characteristics.
Career Highlights
David Plamondon is currently associated with Novatel Inc., where he continues to push the boundaries of antenna technology. His work has been instrumental in developing solutions that improve satellite signal acquisition and communication reliability.
Collaborations
David has collaborated with notable colleagues, including Waldemar Kunysz and Earl Badger, who have contributed to his innovative projects and research endeavors.
Conclusion
David Plamondon is a distinguished inventor whose work in antenna technology has made a significant impact on satellite communication systems. His innovative designs and patents reflect his commitment to advancing the field and enhancing the performance of RF signal acquisition.