The CM21B106M06AT is a multilayer ceramic capacitor (MLCC) manufactured by AVX Corp/Kyocera Corp. MLCCs are ubiquitous components in modern electronics, prized for their reliability, small size, and wide range of applications. This particular capacitor belongs to the CM series, suggesting specific performance characteristics and intended use cases.

Applications

• Bypass capacitors in digital circuits: Filters noise and provides a stable voltage supply to integrated circuits.
• Decoupling capacitors in power supplies: Reduces ripple and stabilizes the output voltage.
• Filtering in audio circuits: Removes unwanted frequencies and improves signal quality.
• Timing circuits: Used in oscillators and timers to set the frequency or duration.
• Smoothing capacitors in rectifier circuits: Reduces voltage fluctuations after rectification.

Features

• Multilayer ceramic construction: Offers high capacitance in a small package.
• High capacitance value: 10µF capacitance.
• Voltage rating: 6.3V voltage rating.
• Surface-mount technology (SMT): Designed for automated assembly on PCBs.
• RoHS compliant: Complies with environmental regulations.

Benefits

• Stable performance over temperature: Maintains consistent capacitance across a wide temperature range.
• Low equivalent series resistance (ESR): Minimizes power losses and improves efficiency.
• Small size: Saves space on the PCB and enables more compact designs.
• High reliability: Ensures long-term performance and reduces failures.
• Easy to assemble: Compatible with automated SMT assembly processes.

Additional Details

The CM21B106M06AT likely has a case size of 0805 or similar, indicating its physical dimensions. The '106' in the part number signifies a capacitance of 10 x 10^6 pF, which translates to 10 µF (microfarads). The 'M' indicates a capacitance tolerance of ±20%. The '06' refers to the voltage rating of 6.3V. This capacitor is particularly suitable for applications requiring a high capacitance value in a small form factor, such as portable electronic devices and power management circuits.