ANTENNA MODULE, AND WIRELESS COMMUNICATION DEVICE

Organization Name

DENSO CORPORATION

Inventor(s)

Tatsuya Inagaki of Kariya-city (JP)

Yuuji Kakuya of Kariya-city (JP)

Yohei Nakakura of Kariya-city (JP)

ANTENNA MODULE, AND WIRELESS COMMUNICATION DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18734616 titled 'ANTENNA MODULE, AND WIRELESS COMMUNICATION DEVICE

Simplified Explanation: The patent application describes a conductive pattern for an antenna, consisting of a radiating element in an inverted F shape and a feeding element for indirect power supply to the radiating element.

• The radiating element includes a main body, a short circuit part, and a powered part.
• The main body is longer than the short circuit part and the powered part, with the short circuit part connected at a right angle to one end of the main body.
• The powered part extends from the middle of the main body in a direction perpendicular to it, at a predetermined distance from the short circuit part.
• The feeding element is positioned below the powered part, facing it.

Key Features and Innovation:

• Radiating element in an inverted F shape
• Indirect power feeding to the radiating element
• Main body, short circuit part, and powered part design
• Feeding element positioned below the powered part

Potential Applications: This technology can be used in various communication systems, such as wireless networks, satellite communication, and radar systems.

Problems Solved: This technology addresses the need for efficient and reliable antenna designs for communication systems.

Benefits:

• Improved antenna performance
• Enhanced signal transmission and reception
• Compact and space-saving design

Commercial Applications: Potential commercial applications include telecommunications equipment, IoT devices, and aerospace technology.

Prior Art: Prior art related to this technology may include research on antenna design, electromagnetic wave propagation, and communication systems.

Frequently Updated Research: Researchers are continually exploring advancements in antenna technology, including materials, design optimization, and signal processing techniques.

Questions about Antenna Technology: 1. How does the inverted F shape of the radiating element impact antenna performance? 2. What are the key considerations when designing feeding elements for antennas?

1. A relevant generic question not answered by the article, with a detailed answer. - How does the distance between the short circuit part and the powered part affect the antenna's efficiency? - The distance between the short circuit part and the powered part plays a crucial role in determining the impedance matching and radiation pattern of the antenna. By adjusting this distance, engineers can optimize the antenna's performance for specific frequency bands and communication requirements.

2. Another relevant generic question, with a detailed answer. - What are the advantages of using an inverted F shape for the radiating element in an antenna design? - The inverted F shape offers several benefits, including compact size, reduced interference, and improved radiation efficiency. This design allows for better integration into various devices and systems while maintaining reliable signal transmission capabilities.

Original Abstract Submitted

A conductive pattern, as an antenna, includes: a radiating element formed in an inverted F shape; and a feeding element for indirectly feeding power to the radiating element. The radiating element includes a main body, a short circuit part, and a powered part. The main body is a member longer than the short circuit part and the powered part. The short circuit part is connected to the main body at right angle at one end of the main body. The powered part extends from a middle of the main body in a direction perpendicular to the main body so as to have a predetermined distance from, for example, the short circuit part. The feeding element is formed to face the powered part below the powered part.