INDUCTOR COMPONENT

Organization Name

Murata Manufacturing Co., Ltd.

Inventor(s)

Atsushi Seko of Nagaokakyo-shi (JP)

INDUCTOR COMPONENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18403330 titled 'INDUCTOR COMPONENT

The inductor component described in the patent application consists of a base body with an insulating layer, internal wiring forming a coil, and an outer electrode connected to the coil. The insulating layer features a groove that starts from the interface between the internal wiring and the insulating layer and extends obliquely with respect to the wiring's surface.

• The inductor component includes a base body with an insulating layer.
• Internal wiring inside the base body forms a coil.
• The coil is spirally wound and electrically coupled to at least part of the internal wiring.
• An outer electrode is electrically connected to the coil.
• The insulating layer has a groove that starts from the interface between the internal wiring and the insulating layer.
• The groove extends obliquely with respect to the surface of the internal wiring.

Potential Applications: - Electronics manufacturing - Power supply systems - Circuit design

Problems Solved: - Efficient coil winding - Improved electrical coupling - Enhanced component durability

Benefits: - Increased efficiency in inductor performance - Enhanced reliability in electronic devices - Simplified manufacturing processes

Commercial Applications: Title: Advanced Inductor Components for Enhanced Electronics Performance This technology can be utilized in various industries such as consumer electronics, automotive, telecommunications, and renewable energy sectors. The improved inductor component can lead to more reliable and efficient electronic devices, ultimately benefiting manufacturers and end-users.

Questions about inductor components: 1. How does the groove in the insulating layer contribute to the performance of the inductor component? The groove in the insulating layer helps in improving the electrical coupling and efficiency of the coil within the inductor component. 2. What are the key advantages of using an outer electrode in conjunction with the coil in the inductor component? The outer electrode provides a means for electrical connection and enhances the overall functionality and performance of the inductor component.

Original Abstract Submitted

An inductor component includes a base body including an insulating layer, internal wiring provided inside the base body and constituting a coil spirally wound by electrically coupling at least part of the internal wiring, and an outer electrode electrically coupled to the coil. The insulating layer is provided with a groove starting from an interface, as a point of origin, between the internal wiring and the insulating layer and extending obliquely with respect to a surface of the internal wiring.