The 100B102JT500XT is a ceramic capacitor manufactured by AVX Corporation. It is a high-quality, reliable capacitor designed for various general-purpose applications in electronic circuits. Its robust construction and stable electrical characteristics make it a preferred choice for engineers and designers.

Applications

• Bypass Capacitors
• Decoupling Capacitors
• Filtering Circuits
• Timing Circuits
• General Purpose Circuitry

Features

• Ceramic Dielectric Material
• High Capacitance Stability
• Low Equivalent Series Resistance (ESR)
• Surface Mount Device (SMD)
• Compact Size

Benefits

• Effective Noise Reduction: Provides excellent decoupling and bypass functionality, reducing noise and interference in electronic circuits.
• Stable Performance: Maintains consistent electrical characteristics over a wide range of operating conditions and temperatures.
• Efficient Circuit Operation: Low ESR ensures minimal power loss, contributing to efficient circuit operation.
• Easy Assembly: Surface mount design simplifies assembly and allows for high-density circuit layouts.
• Space Saving: Compact size enables use in space-constrained applications.

Additional Details

The 100B102JT500XT has a capacitance value of 1000 pF (102) with a tolerance of ±5% (J). The voltage rating is 500V (500). The dielectric material is likely a stable ceramic compound, providing reliable performance. The capacitor is designed for surface mount technology (SMD) and comes in a standard case size, facilitating automated assembly processes. Its temperature coefficient is within acceptable limits for general applications, ensuring capacitance stability over operating temperatures. The capacitor is suitable for applications requiring stable and reliable performance, such as power supplies, signal processing circuits, and digital logic circuits. AVX Corporation ensures high quality and reliability through rigorous testing and quality control procedures. The product datasheet provides comprehensive electrical and mechanical specifications for design and application purposes.