T86C105M050EASS

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Tantalum capacitors, also known as tantalum electrolytic capacitors, are one of the most widely used components in the electronics industry today. The T86C105M050EASS is an example of a popular tantalum capacitor, characterized by its high quality, reliability, and long-term stability. This article will cover the application field and working principle of the T86C105M050EASS.

What Is the T86C105M050EASS

The T86C105M050EASS is a tantalum capacitor that has an operation temperature range of –55°C to +125°C and a voltage rating of 10Vdc. It has a high capacitance relative to its size, making it an ideal choice for high-density applications. The T86C105M050EASS is available in various sizes and ratings. It is commonly used in power supplies, welding machines, consumer electronics, and automotive electronics.

Application Field

The T86C105M050EASS is primarily used for decoupling and buffering current in power supply circuits. This capacitor is designed to withstand high voltage, making it an ideal choice for these applications. The T86C105M050EASS is also used to reduce EMI/RFI interference in sensitive areas such as medical equipment and military equipment. In addition, it is used in filter circuits and for smoothing out ripple in power supplies.

Working Principle

Tantalum capacitors work on the same basic electronic principles as other types of capacitors. When connected to a power source, a tantalum capacitor will hold a small charge, which is known as capacitance. This charge acts like a buffer that can absorb sudden spikes in current, while allowing a steady current to pass through.The T86C105M050EASS has a unique structure which makes it very efficient at holding a charge. It consists of three main parts: the anode, the cathode, and the electrolyte. The anode is a tantalum wire mesh, while the cathode is typically a metal oxide coating which is in contact with the electrolyte. The electrolyte acts as a bridge between the anode and the cathode, and allows the flow of electrons from the anode to the cathode.When an alternating current, or AC, is applied to the capacitor, the anode and the cathode will generate an opposite charge which will create an electric field. This field will cause molecules of the electrolyte to move and create a capacitive charge. This charge will be held until the current in the circuit is reversed. As the current reverses, the electrons will move to the opposite electrodes and the charge will be released.

Conclusion

The T86C105M050EASS is a reliable and versatile tantalum capacitor that is commonly used in electronic devices. It is capable of withstanding high voltage, making it an ideal choice for decoupling and buffering current in power supply circuits. Its unique structure, consisting of an anode, a cathode, and an electrolyte, makes it highly efficient at holding a charge. That makes it well-suited for applications that require high capacitance in a small size.

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