T86E227M6R3ESSL

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Tantalum capacitors, commonly known as tantalum electrolytic capacitors, are very common in our daily lives. They are made from tantalum minerals, and are widely used in aerospace and medical fields, as they offer great performance characteristics. The T86E227M6R3ESSL is a type of multi-anode tantalum electrolytic capacitor. It is a high temperature grade capacitor, designed to offer superior performance in extreme temperature environments. The T86E227M6R3ESSL has a maximum capacitance value of 6.8 µF (6.8 microfarads).

Application Field

The T86E227M6R3ESSL is typically used in military and industrial grade applications where maximum reliability is essential. It is especially well suited to applications which operate in challenging environments, such as very high temperatures and under extreme shock or vibration. The tantalum capacitors’ ability to hold up to different stresses makes them a good choice for these applications.

The T86E227M6R3ESSL is suitable for use in military grade air borne platforms, such as radar systems, and aviation electronics. It is also utilized in industrial control, automation and communications devices which operate in high-temperature environments. Its low ESL (equivalent series inductance) value enables it to provide consistent performance in critical switching applications. The low ESL value also supports the operation of high frequency circuits, without introducing noise.

The T86E227M6R3ESSL is also extensively used as a filter capacitor for smoothing out high frequency transients. It helps to minimize transient interference by suppressing high frequency disturbances in the power supply.

Working Principle

Tantalum capacitors work on the same basic principle as any other capacitor: two conductive plates separated by a dielectric material store energy as an electrostatic field. However, the tantalum capacitor differs from other capacitors in certain ways. The two plates are made of a tantalum ore mineral, a material that is even more electrically conductive than aluminum. This allows the device to hold greater charges than other capacitors. The dielectric material is made of oxide, which allows the separation between the plates to be extremely thin. Although the device comes in different sizes, the dielectric inside remains the same, and keeps the charges separated. The oxide also contains electrolytic ions, which provide the capacitance of the device.

In use, the capacitor is connected in series with a device’s power supply, storing energy in the form of electrostatic charges. As the device draws power from the power supply, the capacitor maintains its voltage level. When the device shuts down, the capacitor continues to hold a voltage. This enables fast reaction times when power is needed.

The T86E227M6R3ESSL is an impressive example of modern technology. Its ability to withstand extreme temperatures, shocks and vibrations, makes it ideal for use in difficult or hazardous environments. Its high capacitance capacity and low ESL values make it perfect for high frequency applications and filtering.

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