18152093. HIGH GAIN AND LARGE BANDWIDTH ANTENNA INCORPORATING A BUILT-IN DIFFERENTIAL FEEDING SCHEME simplified abstract (SAMSUNG ELECTRONICS CO., LTD.)
Contents
HIGH GAIN AND LARGE BANDWIDTH ANTENNA INCORPORATING A BUILT-IN DIFFERENTIAL FEEDING SCHEME
Organization Name
Inventor(s)
Hamid Reza Memar Zadeh Tehran of Richardson TX (US)
Jianzhong Zhang of Plano TX (US)
HIGH GAIN AND LARGE BANDWIDTH ANTENNA INCORPORATING A BUILT-IN DIFFERENTIAL FEEDING SCHEME - A simplified explanation of the abstract
This abstract first appeared for US patent application 18152093 titled 'HIGH GAIN AND LARGE BANDWIDTH ANTENNA INCORPORATING A BUILT-IN DIFFERENTIAL FEEDING SCHEME
Simplified Explanation
The patent application describes an antenna and a base station that includes the antenna. The antenna consists of a sub-array with two unit cells and a feed network. The unit cells are quadrilateral patches, with the first patch in the first unit cell and the second patch in the second unit cell. The feed network includes four transmission lines that terminate at specific corners of the patches.
- The antenna design includes a sub-array with two unit cells and a feed network.
- The unit cells consist of quadrilateral patches, with the first patch in the first unit cell and the second patch in the second unit cell.
- The feed network consists of four transmission lines that terminate at specific corners of the patches.
Potential applications of this technology:
- Wireless communication systems
- Mobile networks
- Satellite communication systems
Problems solved by this technology:
- Improved antenna performance
- Enhanced signal reception and transmission
- Increased coverage and range
Benefits of this technology:
- Higher data transfer rates
- Improved signal quality
- Enhanced network connectivity
- Expanded coverage area
Original Abstract Submitted
An antenna and a base station including the antenna. The antenna includes a sub-array that includes first and second unit cells and a feed network. The first and second unit cells comprise first and second patches, respectively, having quadrilateral shapes. The feed network comprises a first transmission line terminating below first corners of the first and second patches, respectively; a second transmission line terminating below third corners of the first and second patches, respectively; a third transmission line terminating below a second corner of the first patch and a fourth corner of the second patch; and a fourth transmission line terminating below a fourth corner of the first patch and a second corner of the second patch. The first corners are opposite the third corners on the respective first and second patches and the second corners are opposite the fourth corners on the respective first and second patches.