COIL COMPONENT

Organization Name

Murata Manufacturing Co., Ltd.

Inventor(s)

Hiromitsu Yamanaka of Nagaokakyo-shi (JP)

Masayuki Oishi of Nagaokakyo-shi (JP)

COIL COMPONENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18400597 titled 'COIL COMPONENT

The abstract describes a coil component with stress relief and stable coil positioning, consisting of a base body with laminated magnetic layers and a coil with laminated coil wirings, alternating between the magnetic layers and coil wirings with gap portions in between.

• The coil component includes a base body with laminated magnetic layers and a coil with laminated coil wirings.
• The magnetic layers and coil wirings are alternately laminated with gap portions in between.
• Part of the coil wirings contacts the magnetic layers, and a region with metal oxide is present on the surface of each coil wiring.

Potential Applications: - Electrical transformers - Inductors in electronic circuits - Motors and generators

Problems Solved: - Stress relief in coil components - Stable positioning of coils - Enhanced performance and durability

Benefits: - Improved reliability and longevity - Enhanced efficiency in electrical devices - Reduced maintenance and repair costs

Commercial Applications: Title: "Advanced Coil Components for High-Performance Electronics" This technology can be used in various industries such as electronics, automotive, and power generation for more efficient and reliable devices.

Prior Art: There may be existing patents related to coil components with stress relief and stable positioning, but this specific combination of laminated magnetic layers and coil wirings with metal oxide regions may be unique.

Frequently Updated Research: Stay updated on advancements in coil component design, materials science, and electrical engineering for potential improvements in performance and efficiency.

Questions about Coil Components: 1. How does the presence of metal oxide regions on the coil wirings contribute to the overall performance of the component? - The metal oxide regions on the coil wirings may enhance conductivity and reduce resistance, leading to improved efficiency and performance.

2. What are the key factors to consider when designing coil components for specific applications? - Factors such as the operating environment, required power output, and size constraints play a crucial role in designing coil components for optimal performance.

Original Abstract Submitted

A coil component in which stress is relieved and a coil is stably positioned is to be provided. A coil component of the present disclosure includes a base body; and a coil provided in the base body. The base body includes a plurality of laminated magnetic layers. The coil includes a plurality of laminated coil wirings. The magnetic layers and the coil wirings are alternately laminated. A gap portion is provided between each of the magnetic layers and each of the coil wirings. Part of the coil wirings contacts the magnetic layers, and a region containing a metal oxide is present on part of a surface of each of the coil wirings on a side of the gap portion.