T86D157M004ESSL

Tantalum capacitors are widely used in a variety of electronic applications due to the fact that they have a high dielectric constant, excellent temperature and voltage coefficients, low ESR, excellent stability, and low cost. The T86D157M004ESSL is one type of tantalum capacitors, and is designed for application in electronic circuits in both military and commercial fields. Its application fields include high voltage power supplies, medical equipment, consumer electronics, and industrial automation applications.

The T86D157M004ESSL is often referred to as an "electrolytic-type" capacitor because it utilizes an electrolyte as the medium between the two electrode plates. This media allows for a high capacitance in a relatively small physical size, which is especially beneficial in tight-fitting electronic spaces. The capacitor is rated to operate at its factory-specified voltage and temperature ratings over the entire life of its operation and offers excellent resistance to both strain and corrosion. It is engineered for excellent power density in high voltage applications, making it a great choice for a variety of applications.

The working principle of the T86D157M004ESSL is based on two metal plates that are connected to each other and separated by an electrolyte. As electricity flows from one plate to the other, the electrical charge accumulates around the plates, resulting in a capacitance that is related to the physical size of the device. The electrolyte serves to keep the voltage constant on the plates by providing a continuous path for the flow of current. By carefully controlling the flow of current through the electrolyte, the rate of charge accumulation can be controlled to provide the desired capacitance for the device. Additionally, the dielectric properties of the electrolyte between the plates ensure that the device remains stable over a wide range of temperatures and frequencies.

In summary, the T86D157M004ESSL is a type of tantalum capacitor that is designed for application in both military and commercial applications. Its application fields include high voltage power supplies, medical equipment, consumer electronics, and industrial automation applications. It has excellent dielectric properties, and is designed to operate over its entire life at its factory-specified voltage and temperature ratings. Its working principle is based on two metal plates that are separated by an electrolyte, which allows for a high capacitance in a relatively small physical size. The dielectric properties of the electrolyte ensures that the device remains stable over a wide range of temperatures and frequencies.