Murata Chip Multilayer Ceramic Capacitor (MLCC) Design Kit

The Murata Chip Multilayer Ceramic Capacitor (MLCC) Design Kit is an essential resource for engineers and designers involved in electronic circuit development. This comprehensive kit offers a curated selection of Murata’s high-quality MLCCs, facilitating efficient prototyping and design validation.

Comprehensive Component Selection

The kit includes a diverse range of MLCCs, encompassing various capacitance values, voltage ratings, and package sizes. This variety ensures compatibility with a wide array of applications, from general electronic equipment to specialized automotive systems.

High-Quality Capacitors

Murata’s MLCCs are renowned for their durability and reliability. Key features include:

• High Insulation Resistance: Ensures minimal leakage current, enhancing circuit performance.
• Voltage Proof: Capable of withstanding specified voltage levels without degradation.
• Vibration Proof: Maintains performance under mechanical stress, suitable for dynamic environments.
• Resistance to Soldering Heat: Withstands high temperatures during soldering processes without compromising integrity.
• Strong Adhesive Strength of Termination: Ensures secure attachment to circuit boards, reducing the risk of detachment.
• High Temperature and Humidity Resistance: Operates reliably in challenging environmental conditions.

Design Support Tools

To assist in the design process, Murata provides the “SimSurfing” tool, which allows users to simulate and analyze the characteristics of MLCCs under various conditions. This tool aids in selecting the appropriate capacitor for specific applications, optimizing circuit performance.

Applications

The MLCCs included in the design kit are suitable for a broad spectrum of applications, including:

• General electronic equipment
• Automotive electronic systems
• Industrial machinery
• Communication devices
• Consumer electronics

By providing a versatile selection of capacitors, the Murata Chip MLCC Design Kit empowers designers to develop and refine electronic circuits with confidence, ensuring optimal performance and reliability.