The TMK107F104ZA-L is a multilayer ceramic capacitor (MLCC) manufactured by Taiyo Yuden. It's designed for a variety of applications requiring stable capacitance over a wide temperature range.

Applications:

• Decoupling capacitors: Stabilizes voltage rails by filtering out noise.
• Bypass capacitors: Bypasses high-frequency signals to ground.
• Filtering circuits: Used in signal filtering applications.
• Resonant circuits: Can be used in resonant circuits.
• General-purpose applications: Suitable for a wide range of electronic circuits.

Features:

• Multilayer ceramic construction: Enables high capacitance in a small footprint.
• Surface mount device (SMD): Designed for automated assembly.
• Capacitance: 0.1 µF (microfarads).
• Voltage rating: Typically 25V or 50V (check the datasheet for confirmation).
• Temperature characteristic: X7R (Stable capacitance over temperature).
• RoHS compliant: Environmentally friendly.

Benefits:

• Stable performance: Maintains capacitance over temperature variations.
• Compact size: Ideal for space-constrained applications.
• Easy assembly: Suitable for automated pick-and-place processes.
• High reliability: Durable and long-lasting performance.
• Reduced noise: Effective for decoupling and bypassing.

Additional Details:

The TMK107F104ZA-L features a capacitance of 0.1 µF (100 nF). The X7R temperature characteristic indicates a capacitance variation of ±15% over the temperature range of -55°C to +125°C. The case size is typically 0603 (1608 metric), but verify with the datasheet. The 'ZA-L' suffix may indicate specific packaging or termination characteristics. As an MLCC, it is non-polarized. This capacitor is often used in demanding applications where consistent performance across a range of temperatures is required, such as in automotive or industrial electronics. The low ESR (Equivalent Series Resistance) of MLCCs contributes to their effectiveness in high-frequency applications. Always consult the official Taiyo Yuden datasheet for the most precise specifications and application guidelines, including voltage derating recommendations at higher temperatures.