The C3225X5R1H335K is a multilayer ceramic capacitor (MLCC) manufactured by TDK Corporation. This capacitor features a capacitance of 3.3µF, a voltage rating of 50V, and an X5R dielectric. The case size is 3225, corresponding to dimensions of 3.2mm x 2.5mm (or 1210 in imperial units). This capacitor is designed for general-purpose applications requiring relatively high capacitance and voltage rating in a compact surface-mount package, often used for decoupling, filtering, and voltage smoothing.

Applications:

• Decoupling capacitors in digital circuits
• Power supply filtering
• Smoothing circuits
• Bypass capacitors in various electronic circuits
• General-purpose applications requiring high capacitance and voltage rating

Features:

• Capacitance: 3.3µF
• Voltage Rating: 50V
• Dielectric Material: X5R
• Case Size: 3225 (1210)
• Surface Mount Device (SMD)
• High capacitance and voltage rating in a small size
• RoHS Compliant

Benefits:

• Effective decoupling and filtering performance
• Reduced board space requirements due to compact size
• Good capacitance stability within the operating temperature range of X5R dielectric
• Improved power supply stability
• Easy to assemble using standard SMT processes

Additional Details:

The X5R dielectric offers a good balance between capacitance value, size, and temperature stability. X5R capacitors typically operate reliably within a temperature range of -55°C to +85°C, with capacitance variations within a specified tolerance. The 3225 case size allows for placement in densely populated circuit boards. The C3225X5R1H335K is commonly used in mobile devices, consumer electronics, and industrial equipment. The nickel barrier termination with tin plating provides excellent solderability, ensuring reliable connections to the PCB. The part is designed for reflow soldering processes. The 50V rating provides headroom for voltage fluctuations and transients.

This capacitor excels in applications demanding high capacitance and voltage rating in a small footprint. Its X5R dielectric provides adequate stability for a wide variety of uses, making it a versatile component in modern electronic designs.