ELECTROMAGNETIC BANDGAP STRUCTURE

Organization Name

huawei technologies co., ltd.

Inventor(s)

Jamal Mohamed Ahmouda Zaid of Ottawa (CA)

Ahmed Ashoor of Ottawa (CA)

ELECTROMAGNETIC BANDGAP STRUCTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240313394 titled 'ELECTROMAGNETIC BANDGAP STRUCTURE

Simplified Explanation: The patent application describes an array with an electromagnetic bandgap structure that includes a dielectric substrate and multiple conductive patches to suppress surface waves.

• The array includes a first and second conductive patch, with the second patch shaped as a polygon with at least three corners.
• The second conductive patch is spaced from and electromagnetically coupled to the first conductive patch.

Key Features and Innovation:

• Electromagnetic bandgap structure with dielectric substrate.
• Multiple conductive patches for suppressing surface waves.
• Second conductive patch shaped as a polygon with at least three corners.

Potential Applications: This technology could be used in:

• Antennas
• Radar systems
• Wireless communication devices

Problems Solved:

• Suppressing surface waves traveling across conductive patches.
• Enhancing electromagnetic coupling between patches.

Benefits:

• Improved signal quality.
• Reduced interference.
• Enhanced performance of electronic devices.

Commercial Applications: Potential commercial uses include:

• Telecommunications industry
• Defense sector
• Electronics manufacturing

Prior Art: Researchers can explore prior art related to electromagnetic bandgap structures and conductive patch arrays in the field of antenna design and electromagnetic wave suppression.

Frequently Updated Research: Stay updated on advancements in electromagnetic bandgap structures and their applications in various industries for improved performance and efficiency.

Questions about Electromagnetic Bandgap Structures: 1. How do electromagnetic bandgap structures differ from traditional antenna designs? 2. What are the key advantages of using multiple conductive patches in suppressing surface waves?

Original Abstract Submitted

an array includes an electromagnetic bandgap structure having a dielectric substrate and multiple conductive patches on the dielectric substrate and for suppressing surface waves travelling across the conductive patches. the conductive patches include a first conductive patch and a second conductive patch spaced from, and electromagnetically coupled to, the first conductive patch. the second conductive patch is shaped as a polygon comprising at least three corners.