CAPACITOR

Organization Name

murata manufacturing co., ltd.

Inventor(s)

Haruki Kobayashi of Nagaokakyo-shi (JP)

Akio Masunari of Nagaokakyo-shi (JP)

CAPACITOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240321517 titled 'CAPACITOR

The patent application describes a capacitor with a unique design for improved performance and efficiency.

• The capacitor includes an insulating substrate with a conductive metal porous body, a dielectric film, and a conductive film forming the capacitance part.
• External connection lines are connected to the metal porous body and the conductive film for electrical connectivity.
• A support part in the insulating substrate supports the capacitance part and protrudes towards it, enhancing structural integrity.
• The support part is surrounded by and joined to the capacitance forming part, ensuring stability and durability.

Potential Applications: - Electronics manufacturing - Energy storage systems - Power supply units

Problems Solved: - Enhanced capacitor performance - Improved structural integrity - Increased efficiency in electronic devices

Benefits: - Higher capacitance - Better electrical connectivity - Longer lifespan of capacitors

Commercial Applications: - Capacitor manufacturing industry - Consumer electronics market - Renewable energy sector

Questions about the technology: 1. How does the unique design of this capacitor improve its performance compared to traditional capacitors? 2. What materials are used in the capacitance forming part to achieve the desired results?

Frequently Updated Research: - Ongoing studies on the optimization of capacitor design for various applications.

Original Abstract Submitted

a capacitor that includes: an insulating substrate having a first main surface and a second main surface opposite to the first main surface; a capacitance forming part facing the first main surface, the capacitance forming part comprising a conductive metal porous body, a dielectric film covering a surface of the metal porous body, and a conductive film covering the dielectric film; a first external connection line connected to the conductive metal porous body; a second external connection line connected to the conductive film; and a support part in the insulating substrate, the support part supporting the capacitance forming part and protruding from the first main surface toward the capacitance forming part, and surrounded by and joined to the capacitance forming part.