593D476X96R3C2TE3 Datasheet/PDFTantalum Capacitors
Tantalum capacitors are a type of electrolytic capacitor that uses the metal tantalum for its anode material. They offer a number of advantages over other types of electrolytic capacitors including higher capacitance, higher voltage ratings and lower cost. While they are not as widely used as aluminium electrolytic capacitors, tantalum capacitors are especially popular in low voltage, high temperature and/or harsh environment applications such as automotive, aerospace and military applications.
593D476X96R3C2TE3 application field and working principle
The 593D476X96R3C2TE3 is a type of polarized tantalum capacitor, usually found in applications that require high capacitance, high impedance, a wide range of ESR, and low noise. These capacitors are suitable for automotive, military, and aerospace applications because of the high stability and often provide high reliability and low current leakage. They are also great for low impedance circuit applications and filtering, as well as for signal line bypassing purposes. The 593D476X96R3C2TE3 can also be used for noise filtering, which reduces resonance and improves signal integrity.
The working principle of a 593D476X96R3C2TE3 is based on that of a traditional electrolytic capacitor. However, instead of using aluminum or other dielectric electrolytes, the tantalum capacitor utilizes a tantalum and dielectric layer to store energy. The capacitor works by applying a voltage to the device which causes the voltage induced field to build up in the dielectric layer, thus storing an electrical charge. The capacitance of the capacitor depends on the amount of charge stored in the dielectric layer, as well as the size and thickness of the layer. Over time, the capacitor will slowly lose its charge as it slowly dissipates its electrical energy into the surrounding environment.
Tantalum capacitors are renowned for their reliability and performance, making the 593D476X96R3C2TE3 a great choice for many applications. These capacitors offer high capacitance and can withstand higher voltages than traditional electrolytic capacitors, making them ideal for uses where a high degree of stability is required. By using a dielectric layer made from tantalum instead of aluminum, the device is both more reliable and offers a longer life compared to traditional capacitors.