T86C155M050EASL

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

An Overview of the T86C155M050EASL Application Field and Working Principle

The T86C155M050EASL is a general-purpose tantalum capacitor, which is used in a wide variety of electronic circuits, from consumer electronics to aerospace applications. It stands out from other types of capacitors due to its high level of stability, high capacitance, and low ESR (Equivalent Series Resistance). In this article, we will take a closer look at the application field and working principle of this capacitor.

Tantalum Capacitor

A tantalum capacitor is a type of capacitor that is made of tantalum metal and an electrolyte. Its construction makes it highly stable and reliable. Tantalum capacitors are mainly used in the fields of computers, electronics, and communications. They are used for filter circuits, AC-DC converters, and decoupling. Moreover, while it has a relatively low capacitance range, it provides superior stability and low ESR when compared to other types of capacitors.

The Application Field for T86C155M050EASL

The T86C155M050EASL is an ideal choice for a wide array of applications. Its low ESR, high capacitance, and high stability rate make it suitable for many purposes. The applications for this capacitor include power supplies, voltage regulator modules, overvoltage protection circuits, and data transmission circuits. It is also commonly used in medical equipment due to its high stability and low ESR. Furthermore, this capacitor is also used in high-frequency and high-power circuits, as well as in aerospace projects.

The Working Principle of the T86C155M050EASL

The T86C155M050EASL employs an electrical interface between its two plates, which is made out of a dielectric material. This structure creates a connection between the two plates, which is the basis for its capacitance. The dielectric material provides a high resistance that prevents the capacitor from rapidly discharging its stored energy. A leakage current flows through this material, which allows the capacitor to slowly discharge its energy over time, thus maintaining a constant voltage.

The working principle of the T86C155M050EASL can be further understood by looking at its internal structure. The capacitor has two plates separated by a dielectric material. When a voltage is applied, an electric field is created between the two plates. This field causes the opposite-charged ions to be attracted to the plates, forming two layers of ions, and thus creating a capacitance. As the voltage increases, the electric field also increases, causing more ions to accumulate. This increase in stored charge is what allows the capacitor to store energy.

Conclusion

The T86C155M050EASL belongs to the category of tantalum capacitors and is used for various electronics applications. Its low ESR, high capacitance, and excellent stability make it an ideal choice for many purposes. Its working principle involves the creation of an electric field between two plates, which allows it to store energy. This article has provided a brief overview of the application field and working principle of the T86C155M050EASL.

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