T86C475M025EASS

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Tantalum capacitors, otherwise known as Ta-Cap, are electric components which use two conductive plates separated by an insulator composed of tantalum. They are typically used to store electrical charges within an electrical circuit. The Ta-Cap is especially well suited for applications involving high frequencies and low voltages, due to its low parasitics and low inductance properties.

The T86C475M025EASS is a particular type of Ta-Cap that is designed especially for applications that require high temperature and voltage stability. This type of capacitor is typically used in switch-mode power supplies and microelectronic circuits. It is also resistant to temperature shock, humidity, vibration, and ESD.

Like all Ta-Caps, the T86C475M025EASS also uses two parallel plates as its internal components. These plates are made up of a tantalum cathode, which provides for a higher target operating temperature range, and a porous anode, which helps reduce the effective inductance of the component. The capacitor is then filled with electrolyte, which provides for the electrical connectivity between the two plates.

In addition to its internal components, the T86C475M025EASS also has an outer case to provide protection from the environment. This case has a chemical, inert treatment to make it resistant to corrosion and humidity. The packaging also includes an insulating sleeve, allowing the capacitor to be used in high-voltage applications.

The working principle of the T86C475M025EASS is based on the electric field it creates when a charge is applied to it. This charge induces an electrical field between the two parallel plates. This electrical field can be used to store electrical charges, and the size of the capacitor\'s capacity is determined by the distance between the two plates. The value of the stored charge can be adjusted by changing the distance between the plates.

The T86C475M025EASS is typically used for applications requiring high temperature stability and small size requirements. It is also ideal for DC-DC converters and other high frequency applications, as it is capable of withstanding extreme temperatures and harsh environmental conditions. Additionally, due to its low parasitics and inductance characteristics, it is often used in high frequency, low voltage applications.

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