The KEMET T510X337K010ATE035 is a tantalum surface mount capacitor designed for general purpose applications. It's part of KEMET's T510 series, known for their robust performance and reliability. This capacitor provides stable capacitance over a wide range of temperatures and frequencies, making it suitable for various electronic circuits.

Applications

• Bypass and decoupling in power supplies
• Filtering in signal lines
• Timing circuits
• DC-DC converters
• General purpose applications in electronic circuits

Features

• Surface mount design for automated assembly
• Tantalum capacitor with solid electrolyte
• High capacitance stability
• Low Equivalent Series Resistance (ESR)
• Operating temperature range: -55°C to +125°C
• RoHS compliant

Benefits

• Effective noise filtering and voltage stabilization
• Improved circuit performance and reliability
• Reduced size and weight compared to traditional capacitors
• Long operational lifespan
• Easy integration into modern electronic designs
• Stable performance across varying environmental conditions

Additional Details

The T510X337K010ATE035 features a capacitance of 330µF (microfarads) with a tolerance of ±10%. Its voltage rating is 10V (volts). The ESR (Equivalent Series Resistance) is a key parameter, indicating the capacitor's ability to handle ripple current and maintain voltage stability. Refer to KEMET's datasheet for the specific ESR value and other detailed electrical characteristics. Tantalum capacitors are known for their volumetric efficiency, meaning they offer high capacitance values in a small physical size. They are widely used in applications where space is limited and reliable performance is critical. The solid electrolyte ensures long-term stability and prevents liquid leakage, making them suitable for demanding environments. The surface mount packaging simplifies assembly and reduces manufacturing costs, making them a popular choice for modern electronic designs. These capacitors are commonly used in consumer electronics, industrial equipment, and telecommunications systems.