CDV30FF752FO3

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Mica and PTFE capacitors have found a wide range of applications across numerous industries as a result of their power ratings, voltage stability, relatively small size and non-inductive characteristics. The CDV30FF752FO3 capacitor is one such device, and is often used in applications which require a reliable and stable power source, such as in telecommunications or radio broadcast. In this article, we will explore the CDV30FF752FO3 application field and working principle in greater detail.

CDV30FF752FO3 Application Field

One of the main features of the CDV30FF752FO3 capacitor is that it is extremely resistant to dielectric absorption, with a leakage current of 0.005 µA. This makes it ideal for use in communications systems such as telephones and radios, where signals are constantly being sent and received. The CDV30FF752FO3 is also capable of withstanding large voltages, up to 1200 V, making it perfect for applications that require a stable power source, such as in power supplies or voltage regulators.

In addition, the CDV30FF752FO3 is often used in audio systems, due to its low noise characteristics. This allows it to be used in high fidelity applications, where signal quality is of paramount importance. The CDV30FF752FO3 has also found applications in the television broadcast industry, where frequencies of up to 900 MHz can be accentuated, resulting in higher picture and sound quality.

The CDV30FF752FO3 is also suitable for other industrial applications, such as in relays and solid state drives. Its low power consumption makes it especially desirable in these scenarios, and it is also relatively less expensive compared to other capacitors. Its small size also makes it easier to mount in limited or tight spaces.

CDV30FF752FO3 Working Principle

The CDV30FF752FO3 uses a combination of mica and polytetrafluoroethylene (PTFE) to form its dielectric. It is constructed from two layers of PTFE separated by mica, which acts as a dielectric layer. When an electric current is passed through the capacitor, two layers of mica react with each other to form an electrostatic field between them. This electrostatic field is what is responsible for the capacitor’s ability to store electric charge.

The CDV30FF752FO3 is designed with an internal electrical connection which is connected to one of the layers of mica. This connection is responsible for providing the CDV30FF752FO3 with a voltage supply. When a voltage is applied, the electrostatic field is increased, thus allowing the capacitor to store a larger amount of charge. This ability to store charge makes the CDV30FF752FO3 useful for applications such as power supplies and voltage regulators.

The CDV30FF752FO3 is also capable of withstanding a wide range of temperatures, from -53 °C to +85 °C, making it suitable for use in a variety of environments. In addition, the CDV30FF752FO3 is also relatively resistant to vibration, making it suitable for use in mobile or outdoor applications.

Conclusion

The CDV30FF752FO3 capacitor is a highly versatile device, with a wide range of applications across various industries. Its combination of mica and PTFE allows it to be used in a range of temperature and vibration conditions. In addition, the CDV30FF752FO3 is particularly well suited to applications which require a reliable and stable power source, and its low power consumption makes it cost effective. As such, the CDV30FF752FO3 capacitor is one of the most popular devices of its type in the mica-PTFE capacitors range.

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