The TPSC335K035R0100 is a tantalum capacitor manufactured by AVX Corporation as part of their TPS series. These capacitors are valued for their reliability and stable electrical characteristics, making them suitable for a wide range of applications where consistent performance is critical. They are often used in power management, filtering, and decoupling circuits.

Applications

• DC-DC converters and voltage regulators
• Power supply filtering
• Bypass capacitors in high-frequency circuits
• Decoupling capacitors in digital and analog circuits
• General-purpose applications requiring stable capacitance

Features

• Surface mount device (SMD) for automated assembly
• Tantalum anode material provides stable electrical properties
• Capacitance value: 3.3 μF (335 indicating 33 x 10^5 pF)
• Voltage rating: 35V DC
• Low Equivalent Series Resistance (ESR) for efficient power transfer
• Operating temperature range: -55°C to +125°C
• RoHS compliant, minimizing environmental impact

Benefits

• High stability over a wide temperature range ensuring consistent performance in various environments.
• Low ESR reduces power losses, improving the efficiency of the circuit.
• Surface mount design enables compact and high-density board layouts.
• Effective filtering and decoupling due to stable capacitance value.
• Reliable operation in applications up to 35V DC.

Additional Details

The TPSC series tantalum capacitors from AVX are manufactured using a high-reliability manufacturing process, resulting in a long operational lifespan. The 'K' in the part number signifies a capacitance tolerance of ±10%. The R0100 designation indicates specific dimensions and packaging details for this particular part. These capacitors find common use in industrial, telecommunications, and automotive electronics, where dependable and consistent performance is essential. The TPSC335K035R0100 provides a higher capacitance value compared to some other parts in the series, making it suitable for applications requiring more effective filtering or decoupling. Its low ESR also makes it well-suited for power-sensitive applications where minimizing power loss is crucial.