EEU-FC1H471

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Aluminum Electrolytic Capacitors are electronic components used in electronic circuits and systems. They are used to store electrical energy, often for applications such as powering motors or providing an electrical charge for other components. The EEU-FC1H471 is a type of Aluminum Electrolytic Capacitor specifically used in consumer and industrial electronics. It is available in a wide range of sizes and values, making it a versatile capacitor.

The EEU-FC1H471 is composed of two aluminum foils that are rolled up and placed in a dielectric material. The dielectric material used in the EEU-FC1H471 is an organic solvent like an oil or a mixture of polyphenylene oxide and polycarbonate. This “double-layer” construction of the capacitor allows it to store an electrical charge with a higher capacitance than standard capacitors.

The EEU-FC1H471 has a wide range of applications. In consumer and industrial electronics, it can be used as a power supply for powering systems like motors and other components. It can also be used for filtering noise on power lines. Additionally, it can be used as a buffer for sensitive information in computer systems.

The working principle of the EEU-FC1H471 is based on Faraday’s law of electrolysis. This law states that when a current passes through an electrolyte, it separates the electrolyte molecules into their ions and they accumulate on opposite electrodes. This allows the capacitor to store an electrical charge.

The capacitance of the EEU-FC1H471 is determined by the size of the two aluminum foils, the distance between them, and the type of dielectric material used. The larger thefoils and the thicker the dielectric material, the higher the capacitance. Additionally, the capacitance of the capacitor can be adjusted by changing the distance between the two foils.

The EEU-FC1H471 is a versatile aluminum electrolytic capacitor that is used for a variety of applications in consumer and industrial electronics. It is composed of two aluminum foils rolled up and placed in a dielectric material. The working principle of the capacitor is based on Faraday’s law of electrolysis and its capacitance is determined by the size of the foils, the distance between them, and the type of dielectric material used.

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