The C4532C0G2E333JT000N is a multilayer ceramic capacitor (MLCC) manufactured by TDK Corporation. This capacitor features a capacitance of 0.033µF (33nF), a voltage rating of 250V, and a C0G (NP0) dielectric material. The case size is 4532, corresponding to dimensions of 4.5mm x 3.2mm (or 1812 in imperial units). It is designed for applications requiring highly stable capacitance and a relatively high voltage rating, making it suitable for precision circuits, high-voltage applications, and circuits sensitive to capacitance drift.

Applications:

• High-voltage power supplies
• Snubber circuits
• Precision timing circuits
• High-frequency filters
• Analog circuits requiring stable components

Features:

• Capacitance: 0.033µF (33nF)
• Voltage Rating: 250V
• Dielectric Material: C0G (NP0)
• Case Size: 4532 (1812)
• Extremely stable capacitance
• Low ESR (Equivalent Series Resistance)
• High Q factor

Benefits:

• Precise and stable circuit performance due to minimal capacitance variation
• Reliable operation at higher voltages
• Low losses and high efficiency in high-frequency applications
• Suitable for demanding applications where stability and voltage rating are critical

Additional Details:

The C0G (NP0) dielectric offers exceptional stability, with capacitance varying by no more than ±30 ppm/°C over the operating temperature range. The 4532 case size provides a balance between capacitance value and size while accommodating the higher voltage requirements. The C4532C0G2E333JT000N is often used in industrial equipment, medical devices, and other applications requiring high precision and reliability. The terminations are typically nickel barrier with tin plating for excellent solderability. The high voltage rating makes it useful in applications where transient voltage spikes or high continuous voltages are present.

This capacitor is an excellent choice for applications demanding both high voltage rating and exceptional capacitance stability. The C0G dielectric ensures consistent performance in critical circuit functions, and the high voltage rating provides a safety margin for demanding applications.