OPTICAL APPARATUS, LIGHT EMITTING APPARATUS, OPTICAL CABLE, AND METHOD OF CONNECTING OPTICAL APPARATUS

Organization Name

SUMITOMO ELECTRIC INDUSTRIES, LTD.

Inventor(s)

Kuniyuki Ishii of Yokohama-shi (JP)

Hiromi Kurashima of Osaka-shi (JP)

Hideaki Kamisugi of Yokohama-shi (JP)

Tomomi Sano of Osaka-shi (JP)

Tetsuya Nakanishi of Osaka-shi (JP)

Hong Nguyen of Osaka-shi (JP)

Hajime Arao of Osaka-shi (JP)

Dai Sasaki of Osaka-shi (JP)

Takuro Watanabe of Osaka-shi (JP)

OPTICAL APPARATUS, LIGHT EMITTING APPARATUS, OPTICAL CABLE, AND METHOD OF CONNECTING OPTICAL APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17600337 titled 'OPTICAL APPARATUS, LIGHT EMITTING APPARATUS, OPTICAL CABLE, AND METHOD OF CONNECTING OPTICAL APPARATUS

Simplified Explanation

The optical apparatus described in the patent application consists of a light emitting apparatus and a host apparatus, where the light emitting apparatus includes a housing, a light emitting device, an optical connector, and an electrical connector. The host apparatus includes a host optical connector, a host electrical connector, and a host board.

• The light emitting apparatus includes a housing, a light emitting device, an optical connector, and an electrical connector.
• The host apparatus includes a host optical connector, a host electrical connector, and a host board.
• The light emitting apparatus is connected to the host apparatus in the optical apparatus.

Potential Applications

The technology described in the patent application could be used in various applications such as optical communication systems, medical devices, automotive lighting, and industrial equipment.

Problems Solved

This technology solves the problem of efficiently connecting a light emitting apparatus to a host apparatus in an optical system, ensuring proper optical and electrical connections are made.

Benefits

The benefits of this technology include improved optical performance, reliable electrical connections, ease of installation, and overall system efficiency.

Potential Commercial Applications

The technology could be commercially applied in industries such as telecommunications, healthcare, automotive, and manufacturing for improved optical and electrical connections in various systems.

Possible Prior Art

One possible prior art for this technology could be existing optical connector systems used in telecommunications or medical devices that provide similar functionalities.

=== What are the specific technical specifications of the light emitting device used in the apparatus? The specific technical specifications of the light emitting device, such as power output, wavelength range, and efficiency, are not provided in the abstract.

=== How does the optical connector ensure proper optical coupling between the light emitting apparatus and the host apparatus? The abstract does not detail the specific mechanism by which the optical connector ensures proper optical coupling between the light emitting apparatus and the host apparatus.

Original Abstract Submitted

An optical apparatus includes a light emitting apparatus and a host apparatus. The light emitting apparatus includes a housing extending in a first direction, a light emitting device mounted in the housing, an optical connector including a first optical connection part provided at one end of the housing, and an electrical connector including a first electrical connection part provided at one end of the housing and receiving a voltage to drive the light emitting device. The host apparatus includes a host optical connector including a second optical connection part which faces the first optical connection part and is optically coupled thereto, a host electrical connector including a second electrical connection part facing the first electrical connection part and being electrically connected to the first electrical connection part, and a host board mounting the host optical connector and the host electrical connector thereon. The light emitting apparatus is connected to the host apparatus in the optical apparatus.