T86C106K016EBSL

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Tantalum capacitors are one of the most widely used passive components in today\'s electronic circuits. The T86C106K016EBSL is a tantalum capacitor that can be used for many applications. This article will describe the application field of this capacitor and the working principles behind it.

Application Field

The T86C106K016EBSL is a surface mount capacitors and is used in many applications such as DC blocking, AC timing suppression, decoupling, and energy storage. This capacitor is designed to work in a temperature range of -55°C to +125°C and is suitable for most consumer and industrial level applications. It is highly resistant to heat, moisture, and vibration, making it a great choice for many types of environments. This capacitor also has a high capacitance retention rate, ensuring that it will operate reliably over time.

Working Principle

The working principle behind the T86C106K016EBSL is based on the capacitance of two metal plates separated by a dielectric material. When a voltage is applied to the capacitor, an electric field is generated between the two plates which attracts and stores electric charge. The amount of stored charge is proportional to the capacitance value, and the greater the capacitance, the more charge can be stored. As the voltage is increased, the capacitance increases as well, allowing for greater charge storage capacity.

When the capacitor is being discharged, the electric field between the two plates will dissipate and the capacitance will decrease. This is known as the dielectric breakdown voltage, and it is important to ensure that the applied voltage does not exceed this value to prevent damage to the capacitor. The capacitor will then be able to store charge again when the voltage is decreased.

Conclusion

The T86C106K016EBSL is a tantalum capacitor designed for use in many types of applications. With its high capacitance retention rate, its resistance to heat, moisture, and vibration, and its extended temperature range, this capacitor is a great choice for many low-power applications. In addition, it operates using a familiar capacitance and dielectric breakdown principle, and can be used for DC blocking, AC timing suppression, decoupling, and energy storage.

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