The S472K69X7RP65K7 is a ceramic multilayer capacitor (MLCC) manufactured by Vishay. This capacitor is designed for surface mount technology (SMT) and offers a combination of high capacitance, small size, and reliable performance, making it suitable for a broad range of applications.

Applications

• Bypass and decoupling in digital circuits
• Filtering in power supplies
• Timing circuits
• Automotive electronics
• Industrial control systems

Features

• Multilayer ceramic construction
• Surface mount device (SMD)
• High capacitance value (4.7 nF)
• Voltage rating of 63V
• X7R dielectric material
• Operating temperature range: -55°C to +125°C

Benefits

• Efficiently decouples noise in digital circuits.
• Suitable for applications requiring stable capacitance over temperature and voltage variations.
• Compact size allows for high-density circuit designs.
• Designed for automated assembly processes.
• High reliability for demanding industrial and automotive applications.

Detailed Specifications

The S472K69X7RP65K7 capacitor has a capacitance value of 4.7 nF (nanoFarads), indicated by the '472' in the part number. The 'K' signifies a capacitance tolerance of ±10%. Its voltage rating is 63V, suitable for various low to medium voltage applications. The X7R dielectric material provides stable performance across a temperature range of -55°C to +125°C, with a capacitance variation of ±15%. The component is designed for surface mount soldering, and its compact size allows for efficient use of board space. The part is commonly used in automotive applications.

This Vishay MLCC is a reliable and versatile component used in a wide array of electronic circuits. Its combination of high capacitance, stable performance, and small size makes it an excellent choice for modern electronic designs. The X7R dielectric ensures minimal capacitance drift with temperature and voltage, guaranteeing consistent performance over the capacitor's lifespan. Its suitability for automotive and industrial applications highlights its robustness and reliability in demanding environments.