FT0H474ZF

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Electric Double Layer Capacitors (EDLC) and Supercapacitors have become essential components in today\'s energy industry as the demand for reliable and safe energy storage and delivery increases. The FT0H474ZF is an example of these type of capacitors that provides great performance and reliability. This capacitor is designed to provide a robust solution for energy storage and delivery applications.

A capacitor consists of two metal plates separated by an insulating dielectric material. The FT0H474ZF is a ceramic capacitor that has two layers of dielectric material. This double layer structure provides a higher capacitance than a single layer capsule. It also has a greater range of useful temperatures, from -55°C (-67°F) up to 125°C (257°F).

The FT0H474ZF is designed to offer a high competitive advantage in energy storage, allowing for high power and energy storage in a small package. This capacitor offers a fast charging and discharging capability with low ESR (Equivalent Series Resistance). This makes it ideal for applications such as fuel cell technology and energy recovery systems. The increased capacitance also allows for a larger voltage range, up to six volts.

The FT0H474ZF is designed to be more reliable in adverse conditions than traditional capacitors. It has a robust construction and is able to withstand operating temperatures up to 125°C (257°F). This makes it ideal for applications that require high temperature operations. It also has a higher power density than traditional capacitors, giving it the ability to store more energy in a smaller form factor.

The FT0H474ZF has a wide range of applications. It is primarily used for energy storage and energy recovery systems in fuel cells. The increased power density and fast charge and discharge time make it suitable for use in hybrid electric vehicles, as well as hand-held power tools and security systems. It is also used in UPS (Uninterruptible Power Supply) systems, energy storage for renewable energy systems, and energy storage for telecom and automotive electronics.

The working principle of the FT0H474ZF has similarities to a traditional capacitor. It stores energy through a two-layer structure consisting of two metal plates separated by an insulator or dielectric material. When a voltage is applied across the electrodes, an electric field is created. This electric field stores energy in the form of an electric double layer on either side of the capacitor. The electric double layer is composed of two thin layers of charges that are separated by the capability of free electrons to move between them. When the voltage is applied to the capacitor, the electrons move from one electrode to the other and create a charge imbalance. When the voltage is removed, the capacitor discharges the stored energy. As the electrolyte ions migrate across the double layer, the stored energy is discharged and the capacitor returns to its original state.

The FT0H474ZF is an excellent choice for energy storage and delivery applications. It offers a high capacitance with a wide operating temperature range and fast charging and discharging times. It also ensures a robust and reliable solution for energy storage and energy recovery applications. This makes it ideal for applications such as hybrid electric vehicles, hand-held power tools, and UPS systems.

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