The T212C226K035MS7653 from Kemet is a solid tantalum capacitor designed for general-purpose applications requiring stable capacitance and reliable performance. These capacitors are known for their compact size, high capacitance-to-volume ratio, and excellent temperature stability.

Applications:

• Bypass capacitors in digital circuits.
• Decoupling capacitors in power supplies.
• Timing circuits.
• Filtering applications.
• General-purpose use in electronic circuits.

Features:

• Solid tantalum construction: Provides stable and reliable performance.
• Surface mount technology (SMT): Facilitates automated assembly and reduces manufacturing costs.
• Compact size: Allows for integration into densely populated circuit boards.
• High capacitance-to-volume ratio: Provides high capacitance in a small package.
• Excellent temperature stability: Maintains stable performance over a wide temperature range.
• Low ESR (Equivalent Series Resistance): Minimizes power loss and improves performance in high-frequency applications.

Benefits:

• Improved circuit performance: Stable capacitance and low ESR contribute to reliable operation.
• Simplified board design: Compact size allows for high-density circuit layouts.
• Reduced component count: High capacitance-to-volume ratio minimizes the need for multiple capacitors.
• Increased system reliability: Robust construction ensures stable performance over time and under varying conditions.
• Cost-effective solution: Combines high performance with an affordable price point.

The T212C226K035MS7653 has a capacitance value of 22µF and a voltage rating of 35V. The tolerance is 10%. They are designed for surface mount applications and are constructed with high-quality materials to ensure reliability and consistent performance. Its compact size and robust construction make it a versatile choice for a wide range of electronic applications. These capacitors are ideal for applications where stable performance and long-term reliability are critical, such as in industrial control systems and medical devices. The part's miniature size allows for high-density circuit board designs, saving valuable board space.