MULTILAYER CERAMIC CAPACITOR

Organization Name

murata manufacturing co., ltd.

Inventor(s)

Kazuhiro Nishibayashi of Nagaokakyo-shi (JP)

MULTILAYER CERAMIC CAPACITOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240347277 titled 'MULTILAYER CERAMIC CAPACITOR

The abstract describes a multilayer ceramic capacitor with external electrodes, glass films, fired layers, and plating films.

• Metal layers cover internal electrodes on first and second end surfaces.
• Glass films are adjacent to the metal layers and extend around them.
• Fired layers, including glass and metal, cover the metal layers.
• Plating films cover the fired layers.
• The fired layers contain voids with plating material in at least a portion.

Potential Applications: - Electronic devices - Circuit boards - Power supplies

Problems Solved: - Improved capacitor performance - Enhanced durability - Efficient energy storage

Benefits: - Higher capacitance - Increased reliability - Longer lifespan

Commercial Applications: Title: Advanced Ceramic Capacitors for Electronics Industry This technology can be used in various electronic devices, circuit boards, and power supplies, improving their performance and longevity in the market.

Questions about Multilayer Ceramic Capacitors: 1. How do multilayer ceramic capacitors differ from other types of capacitors? Multilayer ceramic capacitors are made of multiple layers of ceramic material, providing higher capacitance and better performance compared to other types of capacitors.

2. What are the key advantages of using multilayer ceramic capacitors in electronic devices? Multilayer ceramic capacitors offer higher capacitance, improved reliability, and longer lifespan, making them ideal for various electronic applications.

Original Abstract Submitted

an multilayer ceramic capacitor includes external electrodes including metal layers on first and second end surfaces so as to cover internal electrodes extending to the first and second end surfaces, respectively, glass films on the first and second end surfaces, adjacent to the metal layers and extending around the metal layers, fired layers including glass and metal, and covering the metal layers, and plating films covering the fired layers. the fired layers include voids including plating material in at least a portion thereof.