The 293D476X9010D2T is a solid tantalum chip capacitor manufactured by Vishay. It's part of the 293D series, known for its molded case and high volumetric efficiency. This capacitor offers stable performance and reliability in a variety of applications.

Applications

• Decoupling capacitor in power supplies
• Filtering capacitor in signal processing circuits
• Bulk capacitance in embedded systems
• Timing circuits
• DC-DC converters

Features

• Molded Case Construction: Provides robust protection and precise dimensions for automated assembly.
• Solid Tantalum Element: Offers inherent reliability and stability compared to other capacitor technologies.
• RoHS Compliant: Meets environmental regulations for lead-free manufacturing.
• High Volumetric Efficiency: Delivers high capacitance values in a small package size.
• Operating Temperature Range: Usually specified between -55°C to +125°C, depending on the exact datasheet.
• Capacitance Value: 47µF (microfarads)
• Voltage Rating: 10V (volts)

Benefits

• Reliable Performance: Solid tantalum construction provides consistent performance over a wide range of temperatures and frequencies.
• Long Lifespan: Tantalum capacitors exhibit long operational life, contributing to overall system reliability.
• Compact Size: The molded case design and high volumetric efficiency allow for space-saving designs.
• Easy Assembly: Precise dimensions and surface-mount compatibility facilitate automated assembly processes.
• Stable Electrical Characteristics: Offers stable capacitance and low ESR (Equivalent Series Resistance) for efficient circuit operation.

Additional Details

The 293D series tantalum capacitors are commonly used in industrial, commercial, and consumer electronic applications where high reliability and stable performance are critical. The "D2T" suffix often denotes the packaging type (e.g., tape and reel) for automated assembly. The 476 indicates the capacitance value of 47 microfarads, and the 9010 indicates the voltage rating of 10V. Consult the datasheet for specific ESR, ripple current, and other detailed specifications.