The 900C223KW300X is a high-performance ceramic multilayer capacitor manufactured by ATC (American Technical Ceramics). It is designed for critical applications requiring high reliability and stable performance.

Applications:

• RF and Microwave Circuits
• High-Frequency Power Amplifiers
• Filter Networks
• Medical Electronics
• Aerospace and Defense Systems

Features:

• High Q Factor: Ensures minimal energy loss in high-frequency circuits.
• Low ESR (Equivalent Series Resistance): Improves circuit efficiency and reduces heat generation.
• High Self-Resonance Frequency: Enables operation at higher frequencies.
• Small Size: Allows for compact circuit designs.
• Excellent Temperature Stability: Maintains stable performance over a wide temperature range.
• High Voltage Rating: Suitable for high-power applications.

Benefits:

• Improved Circuit Performance: The high Q factor and low ESR minimize losses and enhance circuit efficiency.
• Enhanced Reliability: ATC capacitors are known for their robustness and long-term reliability in demanding environments.
• Compact Designs: The small size allows for miniaturization of electronic devices.
• Stable Performance: The excellent temperature stability ensures consistent performance across varying operating conditions.
• High Power Handling: The high voltage rating enables use in high-power applications.

Additional Details:

The 900C series of capacitors from ATC are designed for applications demanding exceptional performance and reliability. The '223K' in the part number indicates a capacitance value of 22,000 pF (picofarads) or 0.022 µF with a ±10% tolerance. The 'W' designates the case size and termination style. The '300X' indicates a voltage rating of 300 VDC. These capacitors are manufactured using high-quality ceramic materials to achieve their superior electrical characteristics. They are available with various termination options to suit different mounting techniques. They are commonly used in bypassing, decoupling, and filtering applications in high-frequency circuits. They are designed to minimize parasitic inductance, which is crucial for optimal performance at high frequencies. The high voltage rating makes them suitable for use in power amplifiers and other high-power circuits. The devices exhibit excellent aging characteristics, ensuring long-term stability and reliability.