FYD0H474ZF

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Electric Double Layer Capacitors (EDLC), Supercapacitors, are the highest capacitance electrochemical capacitors available on the market and are widely used for a variety of applications. A typical supercapacitor, such as the FYD0H474ZF, is a two terminal device with a small active area and a larger outer area that is usually larger than that of other types of capacitors. Unlike traditional capacitors, which rely on dielectric materials to store a charge, EDLCs use an electric double layer of ions to store energy.

The electric double-layer capacitors (EDLC) use two electrodes: a positive electrode and a negative electrode separated by an ionic electrolyte. When a voltage is applied to the two electrodes, ions on the positively charged electrode migrate towards the negative electrode and become immobilized. Similarly, when the voltage is reversed, ions on the negatively charged electrode migrate to the positively charged electrode. This migration is called charging. During the charging, a thin ion-rich layer (double-layer) forms between the two electrodes, resulting in the charge stored. The charge stored can then be released by reversing the voltage, resulting in the ions re-migrating across the electrolyte to their respective electrodes.

The FYD0H474ZF supercapacitor is a double-layer capacitor, and it is usually made of activated carbon material. The FYD0H474ZF has an extremely high energy density and is able to store a large amount of charge. It is also able to release the stored energy very quickly. This makes it an ideal for device for storing energy for use in a variety of applications, such as backup power supplies, automotive applications, and energy storage in renewable energy sources.

In addition to the high energy density, the FYD0H474ZF also has the capability to operate over a wide temperature range and can have a long life, up to 10 years. These advantages make the FYD0H474ZF an ideal choice for applications requiring long life and wide-temperature operation.

The FYD0H474ZF is used in a number of applications. It is widely used in automotive applications, particularly for starting or more accurately charging the battery when key-off applications require a lot of energy but cannot depend on the vehicle’s alternator. It is also commonly used in backup power supplies for portable electronics, such as mobile phones, laptops, and medical devices. It is a common choice in renewable energy systems, and is used in applications such as photovoltaic power systems , wind energy systems, and hybrid and electric vehicle systems.

In conclusion, the FYD0H474ZF is an electric double-layer capacitor that offers a high energy density and excellent wide-temperature performance. It is commonly used in automotive, renewable energy, and backup power applications, as well as mobile devices and other portable electronics. The long life of the FYD0H474ZF makes it an ideal choice for applications that require long-term performance.

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