US Patent Application 18191868. LAMINATED COIL COMPONENT simplified abstract

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LAMINATED COIL COMPONENT

Organization Name

Murata Manufacturing Co., Ltd.


Inventor(s)

Reiji Ozawa of Nagaokakyo-shi (JP)


Shoyo Yamada of Nagaokakyo-shi (JP)


Maasa Nakano of Nagaokakyo-shi (JP)


LAMINATED COIL COMPONENT - A simplified explanation of the abstract

  • This abstract for appeared for US patent application number 18191868 Titled 'LAMINATED COIL COMPONENT'

Simplified Explanation

The abstract describes a laminated coil component that consists of an element body made up of insulating layers, a coil inside the body, and an external electrode on the body's surface. The coil is made up of coil conductors that are connected through a via conductor that penetrates the insulating layer. The coil conductors have a section where they overlap each other, and this section is connected in parallel by the via conductor. The coil is also connected to the external electrode through lead-out conductors that have small diameter via conductors penetrating the insulating layer.


Original Abstract Submitted

A laminated coil component includes an element body formed by laminating insulating layers in a lamination direction, a coil inside the body, and an external electrode on a surface of the body and electrically connected to the coil. The coil includes coil conductors laminated in the lamination direction and electrically connected via a via conductor penetrating the insulating layer in the lamination direction. The coil conductors include a laminated portion including adjacent coil conductors. The laminated portion has a parallel section in which all the coil conductors constituting the laminated portion overlap each other when viewed from the lamination direction. The parallel sections are connected in parallel by the via conductor. The coil is electrically connected to the same external electrode via lead-out conductors, each including a lead-out via conductor having a diameter of 100 µm or less and penetrating the insulating layer in the lamination direction.