TRANSPARENT UNIPLANAR ANTENNA

Organization Name

Meta Platforms Technologies, LLC

Inventor(s)

Wei Huang of San Diego CA (US)

Yasuo Morimoto of Cupertino CA (US)

Jiang Zhu of Cupertino CA (US)

Boon Shiu of Palo Alto CA (US)

TRANSPARENT UNIPLANAR ANTENNA - A simplified explanation of the abstract

This abstract first appeared for US patent application 18421385 titled 'TRANSPARENT UNIPLANAR ANTENNA

The disclosed antenna device includes a substrate with a uniplanar transparent conductive material, consisting of an active segment, a capacitive active segment, a dummy segment, and a tuning active segment.

• The active segment is fed capacitively by the capacitive active segment and is separated from it by the dummy segment.
• The tuning active segment is designed to create a 90-degree phase difference between electric field components of two edges of the active segment at the desired frequency.
• The antenna device resonates at a specific frequency due to the dimensions of the tuning active segment.

Potential Applications:

• Communication systems
• Wireless technology
• IoT devices
• Radar systems
• Satellite communication

Problems Solved:

• Improved antenna performance
• Enhanced signal reception
• Better frequency tuning
• Increased efficiency in communication systems

Benefits:

• Higher signal quality
• Improved data transmission
• Enhanced connectivity
• Better overall performance

Commercial Applications:

• Telecommunications companies
• Electronics manufacturers
• Defense industry
• Satellite communication providers

Questions about Antenna Device: 1. How does the tuning active segment create a 90-degree phase difference in the electric field components? 2. What are the advantages of using a uniplanar transparent conductive material in antenna design?

Frequently Updated Research: Ongoing research focuses on optimizing the dimensions and materials used in the antenna device to further enhance its performance and efficiency.

Original Abstract Submitted

The disclosed antenna device may include a substrate and a uniplanar transparent conductive material on the substrate. The uniplanar transparent conductive material may include an active segment, a capacitive active segment to capacitively feed the active segment and separated from the active segment by a dummy segment, and a tuning active segment configured with dimensions to create a substantially 90-degree phase difference between electric field components of two edges the active segment when the antenna device resonates at a desired frequency. Various other methods, systems, and computer-readable media are also disclosed.