REFLECT ARRAY AND WIRELESS COMMUNICATION APPARATUS

Organization Name

AGC Inc.

Inventor(s)

Akira Kumagai of Tokyo (JP)

Kotaro Enomoto of Tokyo (JP)

Osamu Kagaya of Tokyo (JP)

Yutaka Ui of Tokyo (JP)

REFLECT ARRAY AND WIRELESS COMMUNICATION APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18401820 titled 'REFLECT ARRAY AND WIRELESS COMMUNICATION APPARATUS

Simplified Explanation:

This patent application describes a reflect array that can adjust the reflection angle of radio waves to be different from the angle of specular reflection. The array consists of cells with main resonant elements and parasitic resonant elements that can modify the reflection phase of the array surface.

• The reflect array adjusts the reflection angle of radio waves.
• It includes cells with main and parasitic resonant elements.
• The parasitic elements can change the resonant frequency and reflection phase of the array.
• By adjusting the resonant frequency of adjacent main elements, the parasitic elements alter the reflection angle.

Key Features and Innovation:

• Ability to set reflection angle of radio waves differently from specular reflection angle.
• Utilizes main and parasitic resonant elements in array cells.
• Parasitic elements adjust resonant frequency and reflection phase of the array surface.
• Enables precise control over reflection angles for improved performance.

Potential Applications:

• Telecommunications for beamforming and signal processing.
• Radar systems for target detection and tracking.
• Satellite communications for signal transmission.
• Wireless networks for improved coverage and connectivity.

Problems Solved:

• Overcoming limitations of fixed reflection angles in traditional reflect arrays.
• Enhancing flexibility and adaptability in directing radio waves.
• Improving performance and efficiency of radio wave systems.

Benefits:

• Enhanced control over reflection angles for optimized signal transmission.
• Increased flexibility in adjusting radio wave propagation.
• Improved performance and efficiency of communication systems.

Commercial Applications:

Reflect arrays with adjustable reflection angles can be used in various industries such as telecommunications, radar systems, satellite communications, and wireless networks. This technology offers improved performance and efficiency in signal processing and transmission, making it valuable for companies seeking advanced communication solutions.

Questions about Reflect Arrays:

1. How do reflect arrays with adjustable reflection angles differ from traditional fixed-angle reflect arrays? 2. What are the key advantages of using parasitic resonant elements in reflect arrays for adjusting reflection angles?

Original Abstract Submitted

A reflect array that sets a reflection angle of a radio wave to an angle that is different from an angle of specular reflection. The reflect array includes a plurality of cells arranged in an array. Each of the plurality of cells includes at least two main resonant elements and a parasitic resonant element coupled to the at least two main resonant elements. The parasitic resonant element is configured to adjust a resonant frequency of the parasitic resonant element and adjust a reflection phase of a surface of the reflect array by adjusting a resonant frequency of the at least two main resonant elements each adjacent to the parasitic resonant element, to which the parasitic resonant element is coupled.