T86C685K016EBSS Capacitors

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 are polarized components generally used to store electrical energy in electrochemical form. They are ideal for a wide variety of applications, from aerospace to medical electronics. T86C685K016EBSS is a type of high-room-temperature-supporting, low-ESR, small surface-mounting Ta-series capacitor. It is typically used in high-end RF transceiver applications, medical equipment, and high-reliability systems.

As a type of capacitance, the core feature of T86C685K016EBSS is its special packaging, which fits into a 0201 compact package, which is smaller than SMD components but with a larger capacitance value. This allows it to be used in even tighter packing space. Furthermore, the operating temperature range of these capacitors is between -40℃ to 85℃, and it provides better capacitance performance at higher temperatures. This makes it ideal for use in high-temperature applications, such as those used in active RF transceiver circuitry, medical equipment, and in automotive applications.

The working principle of T86C685K016EBSS is based on the theory of dielectric. All dielectric materials contain a certain amount of electric energy, and the dielectric constants are different depending on the materials used. When an electric field is applied, the atoms in the material rearranges itself to form an electric dipole, which has the ability to store electric energy and also can create an electrical field. The electric dipole has the ability to alter the electromagnetic field around it which makes it capable to resonate with an applied voltage. Therefore, when the applied voltage is changing, the electric dipole alters the resonant driving force of the electric field and this is how it stores the electrical energy.

In circuit terms, when an voltage is applied on a T86C685K016EBSS, the capacitor will charge up until it reaches the peak, at which time the current flowing through the capacitor will fall off. The amount of capacitance that a capacitor has is determined by the area of the dielectric material used and the dielectric constant of the material. The larger the dielectric constant, the higher the capacitance. The smaller the dielectric area, the lower the capacitance, so the T86C685K016EBSS has a small dielectric area and thus a low capacitance value.

In conclusion, T86C685K016EBSS is a type of small surface-mounting tantalum capacitor which is ideal for high temperature applications, such as RF transceiver and medical equipment, due to its low ESR and its small size. The working principle of the T86C685K016EBSS is based on the theory of dielectric, which is a method of storing electrical energy by rearranging its atoms into an electric dipole.

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