CD30FD912GO3 Datasheet/PDFMica and PTFE capacitors are two of the most commonly used types of capacitors as they have high working voltages and superior temperature properties. The CD30FD912GO3 is one of the most reliable and durable mica and PTFE capacitors and offers a variety of benefits and features that make it the ideal solution for various applications. This article will discuss the application field and working principles of the CD30FD912GO3 mica and PTFE capacitors.
A mica and PTFE capacitor is constructed using an anode and a cathode and the two electrodes are separated by a dielectric. Mica and PTFE are two of the most commonly used dielectrics and they provide excellent performance in terms of temperature and voltage and feature a low dielectric constant and low loss of energy. The CD30FD912GO3 is a special type of mica and PTFE capacitor that has a very low internal resistance. This ensures a high degree of accuracy and stability when measuring high frequency signals.
Applications
The CD30FD912GO3 is normally used in high-frequency radio communication applications such as base station RF receivers, radio transmitters, and other related devices that measure fast and/or short time signals. The capacitor is also used in transmitters, receivers, and oscillators for television sets and satellite receiving systems. It is also used as a high voltage filter in electronic circuits and as a snubber capacitor for power control systems.
The CD30FD912GO3 mica and PTFE capacitor can also be used in high-frequency power supply applications such as inverters and high-frequency switching power supplies. It can also be used as a bypass capacitor in switching circuits operating up to a few hundred MHz. The advantage of this use is that the CD30FD912GO3 has a very low EMI because of its low impedance due to its low internal resistance.
Working Principle
A mica and PTFE capacitor works by allowing an electric current to pass through it. The current is formed by the electrons being attracted to and repelled from the capacitor’s two electrodes that are separated by the dielectric material. The electrons are repelled if the applied voltage is of the same polarity as the voltage of the capacitor’s electrodes, and attracted if the applied voltage is of the opposite polarity.
The CD30FD912GO3 mica and PTFE capacitor is able to achieve a very low internal resistance due to its special design which helps to reduce the losses of energy by allowing a larger current to pass through it. The capacitor’s low internal resistance ensures a high degree of accuracy and stability when measuring high frequency signals with a wide band amplifier. Its excellent dielectric properties make it the ideal choice for high power applications.
Conclusion
The CD30FD912GO3 is one of the most reliable and durable mica and PTFE capacitors and is the ideal choice for a variety of applications such as high frequency radio communication, television sets, satellite receiving systems, high-frequency power supply applications, and switching circuits. The capacitor works by allowing an electric current to pass through it and its low internal resistance ensures a high degree of accuracy and stability when measuring high frequency signals.