199D475X0010A2V1E3

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 a type of capacitor that typically consists of a pellet of tantalum metal as an anode, covered by an insulating oxide layer that forms the dielectric, surrounded by a conductive electrolyte as the cathode. The small size and lightweight structure of tantalum capacitors make them a preferred choice for many types of electrical engineering applications. The 199D475X0010A2V1E3 capacitor is specifically a low-profile molded tantalum capacitor with organic slug-type technology, offering increased reliability and safety in higher temperature environments.

The 199D475X0010A2V1E3 capacitor is designed to meet the requirements of MIL-PRF-55365/3, and is often utilized in military and aerospace programs where the most stringent quality and performance requirements are essential. It is also often used in other challenging applications with an increased demand for safety, reliability, long service life and emergency readiness, such as medical and industrial equipment.

The combination of organic slug technology and anodized tantalum allows for powerful performance capabilities, with a current rating of up to 200°C andmaximum seismic and thermal shock tolerance up to only 24mil (.6mm). This particular capacitor also offers higher capacitance, but the electrolytic dielectric can also ensure superior protection against short-circuiting and electrostatic discharge.

The 199D475X0010A2V1E3 capacitor is extremely reliable and resilient in a variety of extreme and hostile operating conditions, and its low ESR and low ESL allows for faster response times and and better performance. The construction and design allows for extremely low resistance and a high energy density, and its structure also benefits from superior soldering and cleaning capability that removes harsh environmental elements.

In terms of its working principle, the 199D475X0010A2V1E3 capacitor uses the electrical field created by the dielectric oxygen to store electrical energy between the anode and the cathode. This electrical field is constantly opposing the current passing through the capacitor, and the strength of this field is based on the voltage applied over the capacitor, since the amount of energy stored is directly proportional to the voltage across the capacitor. This electrical field creates a current flowing through the capacitor and creates an electric dipole across the dielectric, thus allowing for the capacitor to store charge.

The capacitance of the capacitor depends on the area of the plates and the dielectric layer between them. A greater area means more charge can be stored, and the dielectric layer with higher dielectric constant material provides more storage capacity within a given area, thus delivering better performance. The amount of charge stored within the capacitor is measured in coulombs, and this is proportional to both the area of the plates and the dielectric permittivity. Ultimately, the presence of such a high-performance capacitor such as the 199D475X0010A2V1E3 allows for more robust electrical circuits to be built, and better performance and efficiency to be achieved.

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