The CL32B225KCJNNNE is a multilayer ceramic capacitor (MLCC) manufactured by Samsung Electro-Mechanics. This capacitor is designed for general-purpose applications in electronic circuits, providing decoupling, bypassing, and filtering functionalities. It features a standard 1210 case size, offering a balance between size and capacitance value.

Applications

• Power supply decoupling: Used to filter noise and provide stable voltage to integrated circuits.
• Bypassing: Employed to bypass high-frequency signals to ground, reducing noise and interference.
• Filtering: Integrated into filter circuits for signal conditioning and noise reduction.
• General-purpose applications: Suitable for a wide range of applications in electronic devices.
• Consumer electronics: Found in TVs, set-top boxes, audio equipment, and other consumer products.

Features

• Capacitance: 2.2 µF (Microfarads). This indicates the capacitor's ability to store electrical charge.
• Voltage Rating: 16V (Volts). This is the maximum DC voltage that the capacitor can withstand without failing.
• Case Size: 1210 (EIA). This refers to the physical dimensions of the capacitor, which are 0.12 inches in length and 0.10 inches in width.
• Dielectric Material: X7R. X7R is a temperature-stable ceramic dielectric material that offers good performance over a wide temperature range.
• Tolerance: 10%. The actual capacitance value can vary by ±10% from the nominal value of 2.2 µF.

Benefits

• Stable Performance: The X7R dielectric ensures stable capacitance and performance over a wide temperature range (-55°C to +125°C).
• General Purpose: Suitable for wide range of application
• Wide operating temperatures: Can reliably operate from -55°C to +125°C
• Reliable Operation: Samsung is a reputable manufacturer known for producing high-quality and reliable electronic components.
• RoHS Compliant: Complies with the Restriction of Hazardous Substances (RoHS) directive, making it environmentally friendly.

Additional Details

The CL32B225KCJNNNE capacitor is commonly used in power supply circuits for decoupling, filtering noise from power rails, and bypassing high-frequency signals. Proper soldering techniques should be used to ensure reliable connection to the circuit board. Refer to the manufacturer's datasheet for detailed specifications and application notes.