The T520A336M006AE070 is a high-performance solid electrolytic capacitor from KEMET’s T520 series, meticulously designed for demanding applications requiring superior reliability and extended operational life. Featuring a capacitance of 33µF and a voltage rating of 6.3V, this capacitor provides a robust solution for filtering, decoupling, and energy storage in a variety of electronic circuits.

Applications

• Power management systems
• DC-DC converters and voltage regulators
• High-frequency filtering circuits
• Microprocessor decoupling
• Portable electronic devices requiring stable power

Features

• Highly stable capacitance over a wide range of temperatures
• Ultra-low Equivalent Series Resistance (ESR)
• Solid electrolytic construction for enhanced reliability and longevity
• Surface mount technology (SMT) compatible for easy integration
• RoHS compliant, ensuring lead-free composition for environmental responsibility
• Extended lifespan under demanding operational conditions
• Advanced polymer cathode technology for superior performance

Benefits

• Improved circuit efficiency and reduced noise due to the exceptionally low ESR
• Enhanced reliability, minimizing failures and extending equipment life
• Optimized performance in high-frequency applications, maintaining signal integrity
• Space-saving design allows for denser component placement
• Environmentally responsible choice aligns with sustainability standards
• Consistent performance under varying temperature conditions ensures reliable operation
• Reduced voltage derating requirements, simplifying design and maximizing efficiency

Technical Specifications

The T520A336M006AE070 features a capacitance of 33µF with a tolerance of ±20%. Its voltage rating is 6.3V, and it boasts an ESR of 70 mΩ. It is engineered to operate within a temperature range of -55°C to +105°C. The case size is A, making it ideal for surface mount assembly. The capacitor utilizes a polymer cathode, contributing to higher volumetric efficiency and improved reliability. This component is particularly suitable for applications where stable performance and extended lifespan are crucial. Its low ESR contributes to efficient power delivery and minimizes heat generation, while the ripple current rating is optimized for high-frequency performance.