B32560J6332
Film capacitors with 3.3nF capacity at 400V
Manufacturer: ['epcos', 'tdk']
series introduction
The B32560J6332 Series is an advanced line of film capacitors designed to meet the demands of high-performance electronic applications. Renowned for their reliability and efficiency, these capacitors utilize a polypropylene dielectric that provides excellent electrical properties, including low dissipation factor and high insulation resistance. With a capacitance value of 3.3 µF and a voltage rating of 630 V, the B32560J6332 Series is tailored for applications requiring stable performance under varying environmental conditions.
One of the standout features of the B32560J6332 Series is its robust construction, which ensures durability and longevity. The capacitors are encapsulated in a compact, flame-retardant plastic housing that protects the internal components from mechanical stress and environmental influences. This design characteristic not only enhances the overall reliability but also supports a wide operating temperature range, allowing these capacitors to function effectively in both high and low-temperature environments.
The versatility of the B32560J6332 Series makes it suitable for a variety of use cases across multiple industries. These capacitors excel in power electronics, automotive applications, and renewable energy systems, where they serve in energy storage, filtering, and snubber circuits. Their high voltage rating allows for integration into power supply units and inverter circuits, making them ideal choices for applications in electric vehicles and solar inverters. Additionally, their low self-inductance is beneficial in high-frequency applications, ensuring minimal signal distortion.
In summary, the B32560J6332 Series stands out as a reliable and efficient solution for engineers and designers seeking high-performance capacitors. With their excellent electrical characteristics, robust design, and wide-ranging applications, these capacitors are an essential component in the development of modern electronic systems, ensuring optimal performance in demanding environments.
Images for reference
Image Preview
Image Preview
Image Preview