MULTILAYER CERAMIC CAPACITOR

Organization Name

Murata Manufacturing Co., Ltd.

Inventor(s)

Takashi Ohara of Nagaokakyo-shi (JP)

Hideyasu Onishi of Nagaokakyo-shi (JP)

MULTILAYER CERAMIC CAPACITOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18608994 titled 'MULTILAYER CERAMIC CAPACITOR

The abstract describes a patent application for a multilayer ceramic capacitor with inner electrodes made of CuTiO, CoTiO, or CrTiO, and a conductive metal, preferably copper.

• Simplified Explanation:

A multilayer ceramic capacitor has a unique design with inner electrodes made of specific materials and a conductive metal.

• Key Features and Innovation:

- Multilayer body with ceramic dielectric layers - Inner electrodes along interfaces between dielectric layers - Inner electrodes made of CuTiO, CoTiO, or CrTiO, and copper

• Potential Applications:

- Electronics manufacturing - Energy storage systems - Automotive industry

• Problems Solved:

- Improved capacitor performance - Enhanced durability and reliability - Efficient energy storage

• Benefits:

- Higher capacitance - Better electrical properties - Increased product lifespan

• Commercial Applications:

- Title: "Advanced Multilayer Ceramic Capacitors for Enhanced Performance" - Potential use in consumer electronics, telecommunications, and aerospace industries - Market implications include improved product quality and reliability

• Prior Art:

- Readers can explore prior patents related to multilayer ceramic capacitors and electrode materials for further research.

• Frequently Updated Research:

- Stay updated on advancements in ceramic capacitor technology and materials for potential future improvements.

Questions about Multilayer Ceramic Capacitors: 1. What are the main advantages of using CuTiO, CoTiO, or CrTiO in inner electrodes? - These materials offer specific electrical properties that enhance capacitor performance.

2. How does the use of a conductive metal like copper impact the overall functionality of the capacitor? - Copper provides excellent conductivity, contributing to the efficiency of the capacitor.

Original Abstract Submitted

A multilayer ceramic capacitor includes a multilayer body including dielectric layers made of ceramic and stacked together, and inner electrodes arranged along interfaces between the dielectric layers with each inner electrode extending along a respective interface. The inner electrodes include at least one of CuTiO, CoTiO, or CrTiO, and a conductive metal that is preferably copper.