ANTENNA MODULE AND COMMUNICATION DEVICE

Organization Name

Inventor(s)

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

This abstract first appeared for US patent application 20240186693 titled 'ANTENNA MODULE AND COMMUNICATION DEVICE

Simplified Explanation

A radio-frequency integrated circuit processes a radio-frequency signal for transmission or reception by an antenna. The circuit is implemented on a first substrate, which is then placed on a second substrate. A connector for a cable carrying a modulation signal is located on the second substrate, covered by a shield structure to reduce noise. This setup ensures that antenna characteristics are not affected by connector noise.

The radio-frequency integrated circuit processes radio-frequency signals.
Implemented on a first substrate, which is placed on a second substrate.
A connector for a modulation signal cable is located on the second substrate.
A shield structure covers the connector to reduce noise.
Antenna module designed to minimize the impact of connector noise on antenna characteristics.

Potential Applications

This technology can be used in various wireless communication devices, such as smartphones, IoT devices, and wireless routers. It can also be applied in satellite communication systems and radar systems.

Problems Solved

This innovation addresses the issue of connector noise affecting antenna characteristics in radio-frequency integrated circuits. By shielding the connector and implementing it on a separate substrate, the impact of noise is minimized.

Benefits

- Improved antenna performance - Reduced noise interference - Enhanced signal quality in wireless communication devices

Commercial Applications

Title: "Enhanced Antenna Performance Technology for Wireless Communication Devices" This technology can be utilized in the development of high-performance smartphones, IoT devices, and wireless routers. It can also be integrated into satellite communication systems and radar systems to improve signal quality and overall performance.

Prior Art

There is no specific information available on prior art related to this technology.

Frequently Updated Research

There is ongoing research in the field of radio-frequency integrated circuits and antenna design to further enhance performance and reduce noise interference.

Questions about Radio-Frequency Integrated Circuit with Shielded Connector

Question 1

How does the shielded connector on the second substrate help reduce noise interference in the radio-frequency integrated circuit?

The shielded connector on the second substrate helps reduce noise interference by preventing external signals from affecting the modulation signal transferred to the circuit, thus ensuring that antenna characteristics remain unaffected.

Question 2

What are some potential challenges in implementing this technology in different wireless communication devices?

Some potential challenges in implementing this technology in various wireless communication devices include ensuring compatibility with different device designs, optimizing performance for specific applications, and managing costs associated with the additional shielding and substrate layers.

Original Abstract Submitted

a radio-frequency integrated circuit processes a radio-frequency signal to be transmitted or received by an antenna. the radio-frequency integrated circuit is implemented on a first substrate. the first substrate is implemented on a second substrate. a connector for connection with a cable through which a modulation signal is transferred to the radio-frequency integrated circuit is implemented on the second substrate. a first shield structure covers the connector. an antenna module in which noise due to the connector is less likely to influence antenna characteristics is provided.