The T495E337M010AT4860 is a surface-mount solid tantalum capacitor from Kemet's T495 series. It's designed for robust performance and reliability in demanding applications. The capacitor features a 330µF capacitance and a 10V voltage rating, making it suitable for filtering, decoupling, and energy storage in various electronic circuits. The 'AT4860' suffix denotes specific characteristics, likely related to ESR, surge current testing, and packaging, tailored for particular application requirements.

Applications:

• Power supply filtering
• Decoupling in digital and analog circuits
• Energy storage in low-power applications
• DC-DC converters
• Industrial control systems

Features:

• Surface-mount technology (SMT) for automated assembly
• Solid tantalum capacitor construction for reliability
• 330µF capacitance
• 10V voltage rating
• 'AT4860' ESR and surge current characteristics
• High volumetric efficiency
• RoHS compliant

Benefits:

• Improved power supply stability
• Reduced noise and voltage spikes
• Reliable operation under varying environmental conditions
• Compact size for high-density circuit boards
• Long operational life
• Enhanced surge current capability (as indicated by 'AT4860')

Additional Details:

The 'E' case size indicates the physical dimensions of the capacitor, influencing its mounting footprint. The 'M' designates a capacitance tolerance of ±20%. The solid tantalum construction of the T495 series provides enhanced stability compared to other capacitor types, ensuring consistent performance over time and temperature variations. The 'AT4860' designation suggests that this particular part has been subjected to specific testing or has been designed with particular characteristics to meet certain performance criteria, possibly related to its ESR at different frequencies or its ability to withstand surge currents. This makes it suitable for applications where these parameters are critical. These capacitors find common use in industrial and telecommunications equipment, where robust performance and reliability are essential.