The SN471M6R3ST is an aluminum electrolytic capacitor manufactured by Cornell Dubilier Electronics (CDE). It belongs to the SN series, known for its small size and high performance. This capacitor is designed for surface mount applications and is suitable for use in a wide range of electronic devices.

Applications

• Bypass Capacitors: Used to filter out unwanted AC noise in electronic circuits.
• Decoupling Capacitors: Provide a stable voltage supply to integrated circuits.
• Timing Circuits: Used in timing circuits for accurate timing and frequency control.
• Filtering: Used in filtering circuits to attenuate specific frequency components.
• Smoothing: Smoothing voltage ripple in power supplies.

Features

• Small Size: Compact design allows for high-density mounting on printed circuit boards.
• High Performance: Provides stable and reliable performance in various electronic circuits.
• Surface Mount Design: Facilitates automated assembly processes.
• RoHS Compliant: Complies with environmental regulations, ensuring it is free from hazardous substances.
• Wide Operating Temperature Range: Operates reliably over a broad temperature range.

Benefits

• Improved Circuit Performance: Provides stable and reliable performance in various electronic circuits.
• Reduced Noise: Effectively filters out unwanted noise and voltage fluctuations.
• Space Savings: Compact size allows for efficient use of board space.
• Cost-Effective: Offers a cost-effective solution for capacitance requirements.
• Easy Assembly: Surface mount design simplifies the assembly process.

Additional Details

The SN471M6R3ST has a capacitance of 470µF, a voltage rating of 6.3V. It utilizes an aluminum electrolytic construction, providing good performance characteristics for general-purpose applications. The operating temperature range typically spans from -40°C to +85°C. These capacitors are commonly used in applications where size, performance, and reliability are important factors. The part is supplied in tape and reel packaging for automated pick and place assembly.