The TEESVC1C476M12R is a tantalum electrolytic capacitor manufactured by NEC, which is now Renesas Electronics. This surface-mount device (SMD) is used in a variety of electronic circuits that require a stable and reliable capacitance. Its compact size and robust characteristics make it suitable for applications where space is limited and performance is critical.

Applications:

• Power Supply Filtering: Smooths the DC output of power supplies, reducing noise and ripple.
• Bypass Applications: Reduces noise and voltage variations in electronic circuits.
• Decoupling for ICs: Provides a local energy source for integrated circuits, ensuring stable operation.
• Timing Circuits: Used in applications requiring precise and stable timing.
• DC-DC Converters: Smooths the input and output voltages of DC-DC converters.

Features:

• Surface Mount Device (SMD): Designed for automated assembly, saving time and reducing errors.
• Tantalum Electrolytic Capacitor: Offers a high capacitance-to-volume ratio.
• Stable Capacitance: Provides consistent performance under varying conditions.
• Low ESR (Equivalent Series Resistance): Improves ripple current handling and minimizes power loss.
• RoHS Compliant: Complies with regulations regarding the use of hazardous materials.

Benefits:

• Reliable Performance: Ensures stable operation of electronic devices.
• Compact Size: Enables smaller and more compact electronic designs.
• Long Life: Offers extended operational lifespan.
• Efficient Filtering: Effectively reduces noise and voltage ripple.
• Simplified Assembly: Streamlines the manufacturing process.

Additional Details:

The '476' in the part number generally relates to the capacitance (47 x 10^6 pF or 47uF), while the '1C' indicates the voltage rating. For exact specifications, such as tolerance and operating temperature range, refer to the official datasheet from Renesas. Tantalum capacitors like the TEESVC1C476M12R offer stable performance over temperature, making them suitable for a wide range of environmental conditions. Their low ESR contributes to their efficiency in filtering applications.