MULTILAYER INDUCTOR

Organization Name

TDK Corporation

Inventor(s)

Takahiro Yata of Tokyo (JP)

Masashi Shimoyasu of Tokyo (JP)

Masataka Yamamoto of Tokyo (JP)

Hiroyuki Abe of Yurihonjo-city (JP)

Daiki Saito of Yurihonjo-city (JP)

Akihiko Oide of Tokyo (JP)

MULTILAYER INDUCTOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18599410 titled 'MULTILAYER INDUCTOR

Simplified Explanation: The multilayer inductor described in the patent application consists of an element body with end surfaces facing each other and a side surface connecting them. Inside the element body, there is a through conductor extending in the facing direction. The element body is divided into a first portion surrounding the through conductor and a second portion positioned outward of the first portion. These portions have different magnetic permeabilities.

• The inductor has an element body with end surfaces and a side surface connecting them.
• Inside the element body, there is a through conductor extending in the facing direction.
• The element body is divided into a first portion surrounding the through conductor and a second portion with different magnetic permeabilities.

Potential Applications: 1. Electronics: The multilayer inductor can be used in various electronic devices such as smartphones, laptops, and tablets. 2. Automotive: This technology can be applied in automotive systems for improved performance. 3. Industrial: Industrial equipment and machinery can benefit from the use of this inductor for enhanced functionality.

Problems Solved: 1. Improved Efficiency: The multilayer inductor offers better efficiency in electronic circuits. 2. Space-saving: The compact design of the inductor saves space in devices. 3. Enhanced Performance: The different magnetic permeabilities of the portions contribute to improved performance.

Benefits: 1. Increased Efficiency: The inductor enhances the efficiency of electronic systems. 2. Space Optimization: The compact size of the inductor saves space in devices. 3. Improved Performance: The technology leads to enhanced performance in various applications.

Commercial Applications: The multilayer inductor can be utilized in a wide range of commercial applications, including consumer electronics, automotive systems, and industrial machinery. Its compact design, improved efficiency, and enhanced performance make it a valuable component in modern technology.

Questions about Multilayer Inductor: 1. How does the different magnetic permeabilities of the portions in the multilayer inductor contribute to its performance? 2. What are the key advantages of using a through conductor in the element body of the inductor?

Original Abstract Submitted

A multilayer inductor includes: an element body having a pair of end surfaces facing each other, and a side surface extending in a facing direction of the pair of end surfaces in such a way as to connect the pair of end surfaces; and a through conductor disposed inside the element body and extending in the facing direction. The element body includes a first portion surrounding the through conductor and a second portion positioned outward of the first portion, when viewed in the facing direction. The first portion is disposed spaced from the side surface. The first portion and the second portion have different magnetic permeabilities from each other.