The C3225Y5V1H475ZT000N is a ceramic capacitor manufactured by TDK Corporation. It's part of TDK's C3225 series, which are known for their small size and suitability for various applications. This specific capacitor uses a Y5V dielectric, offering high capacitance values in a compact form factor. It is particularly suitable for decoupling and filtering applications where capacitance value is prioritized over stability.

Applications

• Decoupling capacitors in power supplies.
• Smoothing capacitors in DC-DC converters.
• General filtering applications.
• Bypass capacitors in digital circuits.
• Noise suppression in electronic circuits.

Features

• High Capacitance: Offers a capacitance of 4.7µF, providing a large charge storage capacity.
• Compact Size: 3225 (1210) case size, suitable for space-constrained designs.
• Y5V Dielectric: Provides high capacitance value but with less stability over temperature compared to X7R or COG dielectrics.
• Voltage Rating: Rated for 50V, suitable for many low-voltage applications.
• RoHS Compliant: Complies with Restriction of Hazardous Substances directive.

Benefits

• High Capacitance in Small Size: Provides a large capacitance value in a compact form factor, making it ideal for miniaturized devices.
• Effective Decoupling: Excellent for decoupling noise from power lines, improving circuit stability.
• Cost-Effective Solution: Y5V dielectric offers a cost-effective solution for applications where capacitance value is more critical than stability.
• Reliable Performance: TDK is a reputable manufacturer, known for producing high-quality and reliable components.
• Wide Application Range: Can be used in a variety of applications, including consumer electronics, industrial equipment, and automotive systems.

Additional Details

The C3225Y5V1H475ZT000N capacitor has a tolerance of +80/-20%. The termination is made of nickel barrier with tin plating. Its operating temperature range is -30°C to +85°C. The Y5V dielectric indicates that the capacitance can vary significantly over the operating temperature range. It is commonly used in applications where large capacitance is needed and where the temperature variation is relatively small or where the capacitance variation is acceptable. It's not suitable for applications requiring high stability or precision.