T498D106K050ATE1K0

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Tantalum Capacitors

Tantalum capacitors are a type of electrolytic capacitor. They are made from two plates of tantalum, which are separated by a dielectric oxide layer. The oxide layer is made from a tantalum oxide that has been sputtered onto the surfaces of the plates, forming a thin film coating. The tantalum plates are then connected to a lead which is connected to the inner surface of the capacitor. Tantalum capacitors are commonly used in electronic devices such as cell phones, digital television receivers, and other electronics.

T498D106K050ATE1K0 Application Field

T498D106K050ATE1K0 is a tantalum polymer capacitor by Vishay. It is a surface mount device designed for high-frequency, high-current applications. Its low leakage current, high operating voltage, and low temperature coefficient provide significant advantages for designers in photography and medical imaging, as well as in other high-frequency, high-current applications.

In photography and medical imaging, T498D106K050ATE1K0 is particularly used to filter low-level frequency noise from imaging systems. With its excellent noise suppression performance, the capacitor helps provide clean and sharp images. Additionally, it is also ideally suited for power management systems. For example, in automotive applications, the capacitor helps form an efficient power rail to reduce power noise and improve the system performance.

T498D106K050ATE1K0 Working Principle

T498D106K050ATE1K0 capacitors have high capacitance density, and they rely on electric field stress to reduce the equivalent series resistance and equivalent series inductance of the circuit. This reduces signal errors and ensures that the system runs with optimal efficiency and precision.

The operation of a T498D106K050ATE1K0 capacitor starts with the plates, which are separated by an oxide layer. When a voltage is applied, electrons from the anode plate pass through the oxide layer, thus forming an electrical field. This field attracts oxide anions from the oxide layer and, thus, creates a double layer at the oxide interface. This double layer, also known as a dielectric, stores charge and provides an electrical connection between the two plates.

The capacitance of the capacitor is determined by the area of the plates and the thickness of the oxide layer. The thicker the oxide layer, the higher the capacitance. Since capacitors with higher capacitance are better suited for high frequency applications, they are typically more expensive. In general, T498D106K050ATE1K0 capacitors have excellent performance in high-frequency environments.

Conclusion

Tantalum capacitors, like T498D106K050ATE1K0, have a variety of applications. They are typically used in high-frequency, high-current applications such as imaging systems, power management systems, and automotive systems. Moreover, their performance in such applications is excellent, as they have a high capacitance density and low leakage current. In summary, T498D106K050ATE1K0 capacitors provide a great solution for applications where high-frequency performance is required.

The specific data is subject to PDF, and the above content is for reference