The C1210C233J1GAC7800 is a ceramic capacitor manufactured by Kemet. As a multilayer ceramic capacitor (MLCC), it is designed for various applications in electronic circuits, offering stable capacitance characteristics over a broad range of temperatures and voltages. This component's construction utilizes a ceramic dielectric material, and it is packaged for surface mount technology (SMT) assembly.

Applications

• Decoupling and bypass in electronic circuits
• Filtering in power supplies
• Smoothing in analog circuits
• Timing circuits
• High-frequency applications

Features

• Surface Mount Device (SMD): Designed for automated assembly on printed circuit boards.
• High Capacitance Stability: Provides consistent performance over temperature and voltage variations.
• Reliable Performance: Constructed with high-quality materials and processes for long-term reliability.
• Compact Size: Allows for high-density circuit board layouts.
• RoHS Compliant: Meets environmental regulations with lead-free terminations.

Benefits

• Effective Noise Reduction: Decoupling and bypass applications minimize noise in electronic circuits.
• Stable Circuit Operation: Consistent capacitance values ensure reliable circuit performance.
• Efficient Assembly: Surface mount design enables automated and high-volume assembly processes.
• Space Saving: Compact size allows for denser circuit designs and smaller electronic devices.
• Environmentally Safe: RoHS compliance ensures the device meets environmental standards.

Additional Details

The C1210C233J1GAC7800 capacitor features a capacitance value of 0.023µF (microfarads) with a tolerance of ±5%. It is rated for a voltage of 100V. The dielectric material is typically C0G (NP0), known for its high stability and low loss characteristics, which are critical for high-frequency applications and precision circuits. The operating temperature range is typically from -55°C to +125°C. The '1210' case size indicates the physical dimensions according to EIA standards.

This capacitor is particularly well-suited for applications requiring minimal capacitance change with temperature and voltage variations. Because of its stability and reliability, it is often used in critical timing circuits, RF circuits, and other applications where precision is essential. Refer to the datasheet for full specifications including ESR (Equivalent Series Resistance), Q factor, and other performance metrics to ensure suitability for specific application requirements.