ANTENNA APPARATUS AND RADOME

Organization Name

NEC Corporation

Inventor(s)

Tsuyoshi Sukegawa of Tokyo (JP)

ANTENNA APPARATUS AND RADOME - A simplified explanation of the abstract

This abstract first appeared for US patent application 18511147 titled 'ANTENNA APPARATUS AND RADOME

Simplified Explanation

The antenna apparatus described in the patent application includes a conductive plate with a feeder circuit, and a radome with thermal conductivity on both surfaces. The feeder circuit consists of a feed line connected to an antenna member and a ground portion connected to the feed line via a short stub. The first case of the radome includes a cover portion and a first support portion with a heat radiation fin.

• Feeder circuit with feed line and ground portion connected via a short stub
• Radome with thermal conductivity on both surfaces and a heat radiation fin

Potential Applications

The technology described in this patent application could be used in various communication systems, such as satellite communication, radar systems, and wireless networks.

Problems Solved

This technology helps in improving the performance and efficiency of antennas by providing thermal conductivity and heat dissipation capabilities, reducing interference and signal loss.

Benefits

The antenna apparatus offers improved signal transmission, reduced interference, and enhanced durability due to the thermal conductivity and heat dissipation features of the radome.

Potential Commercial Applications

Potential commercial applications of this technology include telecommunications equipment, aerospace and defense systems, and IoT devices requiring reliable and efficient antenna systems.

Possible Prior Art

One possible prior art could be antenna systems with radomes for protection and signal enhancement, but the specific design and features of the feeder circuit and radome in this patent application may be unique.

Unanswered Questions

How does the design of the radome impact the overall performance of the antenna apparatus?

The design of the radome, including the thermal conductivity and heat radiation fin, plays a crucial role in maintaining the temperature and efficiency of the antenna system. Further research and testing could provide insights into the specific effects of the radome design on performance.

What materials are used in the construction of the conductive plate and radome, and how do they contribute to the functionality of the antenna apparatus?

The choice of materials for the conductive plate and radome can affect the durability, thermal conductivity, and overall performance of the antenna apparatus. Understanding the material properties and their impact on the functionality of the system could lead to further optimizations and improvements in the design.

Original Abstract Submitted

An antenna apparatus according to the present disclosure includes a conductive plate including a feeder circuit, and a radome including a first case being disposed on a first surface side of the conductive plate and having thermal conductivity and a second case being disposed on a second surface side on an opposite side of the first surface and having thermal conductivity. The feeder circuit includes a feed line being connected to an antenna member, and a ground portion surrounding the feed line and being connected to the feed line via a short stub. The first case includes a cover portion being disposed apart from the feed line and the short stub, and a first support portion being connected to the ground portion and including a heat radiation fin.