The TEMSVC1V475M12R is a surface-mount aluminum electrolytic capacitor manufactured by NEC. It is used for filtering, smoothing, and decoupling in a wide array of electronic devices. Its design emphasizes compactness and efficiency, making it suitable for high-density circuit boards.

Applications

• Power supplies: Smooths DC output and filters ripple voltage.
• Audio amplifiers: Filters power supply noise for cleaner audio signals.
• Microcontroller circuits: Decouples power lines for stable operation.
• Switching regulators: Improves output stability and reduces noise.
• Industrial control panels: Filters and stabilizes power to sensitive components.

Features

• Surface Mount Device (SMD): Facilitates automated assembly and miniaturization.
• Aluminum Electrolytic: Provides high capacitance relative to its size.
• Capacitance Value: 4.7µF provides good filtering capabilities for various frequencies.
• Low ESR: Reduces power dissipation and improves efficiency.
• Long Life: Reliable performance over extended operating periods.
• RoHS Compliant: Complies with environmental standards limiting hazardous substances.

Benefits

• Improved Circuit Performance: Reduces noise and voltage fluctuations for stable operation.
• Space Savings: Compact SMD package allows for high-density PCB designs.
• Reliable Operation: Ensures consistent performance over a long lifespan.
• Increased Efficiency: Low ESR minimizes power loss and heat generation.
• Reduced EMI: Minimizes electromagnetic interference in sensitive circuits.

Technical Specifications:

• Capacitance: 4.7µF
• Voltage Rating: 35V (Estimating, based on similar part numbers - Confirm for critical applications)
• Tolerance: ±20%
• Operating Temperature Range: -40°C to +85°C
• Case Size: Typically 4x5mm (12R represents case size)
• Mounting Style: Surface Mount

The TEMSVC1V475M12R capacitor is a versatile component suitable for numerous electronic applications. Its robust characteristics and compliance with environmental standards ensure dependable performance in demanding environments.