The C3225X7R1E106K is a ceramic capacitor manufactured by TDK Corporation. It is designed for general-purpose applications in electronic circuits, providing stable capacitance over a wide range of temperatures and voltages. This capacitor features a high dielectric constant, enabling it to store a significant amount of charge in a compact size.

Applications

• Power supply decoupling
• Filtering in electronic circuits
• Signal smoothing
• Bypass applications
• Resonance circuits

Features

• X7R dielectric material: Provides stable capacitance over a temperature range of -55°C to +125°C.
• High capacitance value: 10µF, suitable for various energy storage and filtering applications.
• Voltage rating: 25V, appropriate for low-voltage circuits.
• Compact size: 1210 (3225 Metric) case size, allows for high-density mounting on PCBs.
• RoHS compliant: Environmentally friendly, adhering to RoHS standards.

Benefits

• Stable performance: The X7R dielectric ensures consistent capacitance over a wide temperature range, enhancing circuit reliability.
• Effective decoupling: Reduces noise and voltage fluctuations in power supplies, improving the performance of sensitive electronic components.
• Space-saving design: The compact 1210 size allows for efficient use of PCB space, ideal for miniaturized devices.
• Versatile application: Suitable for a broad range of electronic circuits, simplifying component selection and reducing inventory costs.
• Environmental compliance: Meets RoHS standards, ensuring environmental responsibility and compliance with international regulations.

Specifications

Capacitance: 10µF
Voltage Rating: 25V
Temperature Coefficient: X7R
Temperature Range: -55°C to +125°C
Case Size: 1210 (3225 Metric)
Tolerance: ±10%
Termination: SMD (Surface Mount Device)

The C3225X7R1E106K capacitor is widely used in various electronic devices due to its reliable performance, compact size, and environmental compliance. Its stable capacitance characteristics make it an excellent choice for demanding applications requiring consistent performance over a broad temperature range.