The LEMC3225T101K is a multilayer ceramic capacitor (MLCC) manufactured by Taiyo Yuden. It is designed for general-purpose applications in electronic circuits, providing stable capacitance and reliable performance.

Applications

• Bypass capacitors in power supplies
• Decoupling capacitors in digital circuits
• Filtering capacitors in analog circuits
• Timing circuits
• Resonant circuits

Features

• Capacitance: 100pF
• Voltage Rating: 25V
• Tolerance: ±10%
• Temperature Coefficient: C0G
• Case Size: 1210 (3225 Metric)
• Surface Mount Technology (SMT)
• High stability

Benefits

• Stable capacitance over a wide temperature range
• Low equivalent series resistance (ESR)
• High reliability
• Compact size
• Easy integration into automated manufacturing processes

Additional Details

The LEMC3225T101K capacitor utilizes a ceramic dielectric material, providing excellent stability and low losses. The C0G temperature coefficient indicates that the capacitance changes very little with temperature variations, making it suitable for applications requiring precise and stable performance. The 1210 case size provides a good balance between capacitance and physical size. The surface mount design allows for efficient assembly using automated pick-and-place equipment. Detailed soldering guidelines are available from Taiyo Yuden to ensure reliable connections. This capacitor is widely used in various electronic devices to provide stable voltage and current, reduce noise, and improve overall circuit performance. The capacitance value of 100pF is commonly used in high-frequency circuits for decoupling and filtering. The ±10% tolerance indicates the acceptable variation in capacitance from the nominal value. The capacitor is lead-free and RoHS compliant, meeting environmental regulations. The specific impedance and frequency characteristics are detailed in the product datasheet. The capacitor's high insulation resistance contributes to low leakage current and improved energy efficiency. The small size and high performance make it an ideal choice for modern electronic designs.