Unknown Organization (20240213688). PLANAR TIGHTLY COUPLED ARRAYS AND ANTENNA ELEMENTS THEREOF simplified abstract
Contents
PLANAR TIGHTLY COUPLED ARRAYS AND ANTENNA ELEMENTS THEREOF
Organization Name
Inventor(s)
Muhammad Hamza of Miami FL (US)
Stavros Georgakopoulos of Miami FL (US)
Constantinos L. Zekios of Miami FL (US)
PLANAR TIGHTLY COUPLED ARRAYS AND ANTENNA ELEMENTS THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240213688 titled 'PLANAR TIGHTLY COUPLED ARRAYS AND ANTENNA ELEMENTS THEREOF
The patent application describes fully planar ultra-wideband (UWB) arrays, specifically fully-planar inverted-L element (FILE) arrays that are tightly coupled arrays (TCAs) for realizing UWB tightly coupled apertures in the W and higher millimeter wave (mmWave) bands. The unit cell architecture of the FILE array consists of an inverted-L shaped antenna and a capacitively coupled via-fence.
- Fully planar ultra-wideband (UWB) arrays
- Utilize fully-planar inverted-L element (FILE) arrays
- Tightly coupled arrays (TCAs) for UWB tightly coupled apertures in W and higher mmWave bands
- Unit cell architecture includes inverted-L shaped antenna and capacitively coupled via-fence
Potential Applications: - Telecommunications - Radar systems - Wireless communication networks
Problems Solved: - Achieving UWB performance in mmWave bands - Enhancing array efficiency and performance
Benefits: - Increased data transfer rates - Improved signal quality - Enhanced communication range
Commercial Applications: Title: "Innovative Ultra-Wideband Arrays for Advanced Communication Systems" This technology can be applied in 5G networks, satellite communications, and autonomous vehicles, among other commercial uses. The market implications include improved connectivity, faster data transmission, and enhanced network reliability.
Prior Art: Readers can explore prior research on UWB arrays, planar antenna designs, and mmWave communication systems to gain a deeper understanding of the technology landscape.
Frequently Updated Research: Stay informed about the latest advancements in UWB array technology, planar antenna innovations, and mmWave communication research to stay at the forefront of this field.
Questions about Ultra-Wideband Arrays: 1. How do fully planar UWB arrays differ from traditional antenna arrays? Fully planar UWB arrays offer improved performance and efficiency compared to traditional antenna arrays due to their tightly coupled architecture and optimized design.
2. What are the key advantages of utilizing TCAs in UWB applications? TCAs provide enhanced aperture efficiency, reduced interference, and improved signal quality in UWB systems, making them ideal for advanced communication networks.
Original Abstract Submitted
ultra-wideband (uwb) arrays that are fully planar are provided. fully-planar inverted-l element (file) arrays that are tightly coupled arrays (tcas) can realize uwb tightly coupled apertures in the w and higher millimeter wave (mmwave) bands. the unit cell architecture of the file array, (which can have any desired size, can be comprised of an inverted-l shaped antenna and a capacitively coupled via-fence.
