Panasonic intellectual property management co., ltd. (20240347255). INDUCTOR AND METHOD FOR MANUFACTURING SAME simplified abstract

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INDUCTOR AND METHOD FOR MANUFACTURING SAME

Organization Name

panasonic intellectual property management co., ltd.

Inventor(s)

TOMOHIRO Sugimura of Osaka (JP)

YUYA Ishida of Shiga (JP)

TOMOHIRO Tsubota of Fukui (JP)

KOTARO Akiyama of Hyogo (JP)

TAKUMI Tanikawa of Hyogo (JP)

INDUCTOR AND METHOD FOR MANUFACTURING SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240347255 titled 'INDUCTOR AND METHOD FOR MANUFACTURING SAME

The abstract describes an inductor with a unique design, including a magnetic core, a coil element embedded in the core, and an electrode connected to the coil element.

  • The electrode is bent along the end surface and bottom surface of the magnetic core, with specific regions for connection.
  • The angle between the bottom surface of the magnetic core and the electrode is carefully controlled for optimal performance.
  • The design allows for efficient electrical and mechanical connection between the coil element and the electrode.
  • This innovative inductor design aims to improve performance and reliability in electronic applications.
  • The unique configuration of the electrode and magnetic core sets this inductor apart from traditional designs.

Potential Applications: - Electronic devices - Power supplies - Electric motors

Problems Solved: - Improved electrical connection - Enhanced inductor performance - Increased reliability in electronic systems

Benefits: - Better efficiency - Enhanced reliability - Improved performance in electronic applications

Commercial Applications: Title: Innovative Inductor Design for Enhanced Electronic Performance This technology could be utilized in various electronic devices, power supplies, and electric motors, improving their efficiency and reliability in operation.

Questions about the technology: 1. How does the unique design of this inductor improve its performance compared to traditional designs? 2. What specific electronic applications could benefit the most from this innovative inductor design?


Original Abstract Submitted

an inductor includes a magnetic core, a coil element embedded in the magnetic core and including an end portion protruding from an end surface of the magnetic core, and an electrode electrically and mechanically connected to the end portion of the coil element. the electrode is bent along the end surface and a bottom surface of the magnetic core such that the electrode includes an end-surface portion facing the end surface of the magnetic core and a bottom-surface portion facing the bottom surface of the magnetic core. the end portion of the coil element is placed on the electrode to be connected to the electrode. the end surface of the magnetic core includes: a first region connected to the bottom surface of the magnetic core and having the inner surface of the electrode disposed thereon; and two second regions connected to the bottom surface of the magnetic core and located on both sides of the first region across the first region. an angle formed by the bottom surface of the magnetic core and each of the two second regions of the end surface of the magnetic core is less than 90.0� and is greater than an angle formed by the bottom surface of the magnetic core and the outer surface of the end-surface portion of the electrode.