The T520A336M006AE080 is a solid electrolytic capacitor from Kemet’s T520 series, renowned for its high-performance characteristics and exceptional reliability. With a capacitance of 33µF and a voltage rating of 6.3V, this capacitor is ideally suited for filtering, decoupling, and energy storage in a wide array of electronic circuits, particularly those demanding stable and consistent performance.

Applications

• Power management systems within portable devices
• DC-DC converters and voltage regulation circuits
• High-frequency filtering applications
• Decoupling in digital circuit designs
• Use in battery-powered electronics

Features

• Excellent capacitance stability across temperature variations
• Ultra-low Equivalent Series Resistance (ESR)
• Robust solid electrolytic construction for superior reliability
• Surface mount design for streamlined board assembly
• RoHS compliant, ensuring environmental responsibility
• Extended operational lifespan
• Utilizes advanced polymer cathode technology

Benefits

• Improved circuit performance due to reduced ripple and noise from the low ESR
• Enhanced reliability and longer operational life compared to traditional capacitors
• Optimized for high-frequency applications, preserving signal integrity
• Reduces board space requirements due to its compact surface mount design
• Environmentally friendly due to RoHS compliance
• Stable performance under diverse temperature conditions
• Minimizes voltage derating needs

Technical Specifications

The T520A336M006AE080 capacitor features a capacitance of 33µF with a tolerance of ±20%. Its voltage rating is 6.3V, and it boasts a low ESR of 80 mΩ. The operating temperature range spans from -55°C to +105°C. Packaged in an A case size, it is designed for surface mount assembly. This component incorporates a polymer cathode, which significantly enhances volumetric efficiency and contributes to overall reliability. This capacitor is particularly well-suited for applications where stable performance and a long service life are critical requirements. Its low ESR ensures efficient power delivery and minimizes heat generation within the circuit, while the ripple current rating is carefully optimized for excellent performance in high-frequency environments.