T540D477K003DH87057610 Datasheet/PDFTantalum - Polymer Capacitors
T540D477K003DH87057610 is one of the type of capacitors most commonly used in a wide range of applications. From consumer and automotive electronics, aerospace, medical and industrial applications, this capacitor offers a great number of advantages and features.
Application Field
The applications for this tantalum - polymer capacitor T540D477K003DH87057610 are many, with each capacitor type offering its own distinct benefits. This capacitor is especially suitable for applications that require high power, high stability, and ample protection from voltage, temperature and humidity. It can be used in consumer products such as TVs, camcorders and smart phones, automotive electronics such as anti-lock braking systems, and industrial equipment such as automation controllers, chargers and power-supply systems. It can also be found in computers, medical equipment, and military equipment.
Working Principle
The T540D477K003DH87057610is a through-hole tantalum - polymer capacitor constructed with a metal film dielectric layer. This type of capacitor contains several important parts, including a metal plate or anode, a conductive polymer layer, and an anode lead. The metal anode is usually made of tantalum, while the conductive polymer layer contains a variety of polymer compounds. When a voltage is applied across the metal anode and the conductive polymer layer, the two materials work together to store electrical energy. The Tantalum - Polymer capacitor circuit is based on Faraday’s law of electrostatics: when an electric field is created around a metal plate or anode due to the application of an external voltage, the electric field causes an induced charge to be stored onto the surface of the plate or anode.
Advantages and Disadvantages
The advantages of T540D477K003DH87057610 are many. It is the most stable capacitor technology available, with excellent low impedance and very low leakage current. It has a high capacitance density, so it can be used in high-power applications. It is also highly temperature and voltage stable, withstanding temperatures up to 125°C. It has a relatively small size and low cost, making this capacitor suitable for a wide variety of applications. However, there are some drawbacks to using this capacitor technology. It is somewhat vulnerable to thermal and electrical shock, and the lifetime of the capacitor is shortened when placed in direct sunlight or near other high-temperature materials. The cost of the capacitor is also higher than other types of capacitors.
Conclusion
The T540D477K003DH87057610 is a type of tantalum - polymer capacitor that is widely used in a wide range of applications. It offers excellent stability, low impedance, and high capacitance density. It is also highly temperature and voltage stable, withstanding temperatures up to 125°C. This capacitor is suitable for applications that require high power, high stability, and ample protection from voltage, temperature and humidity. However, this capacitor technology is vulnerable to thermal and electrical shock and the lifetime of the capacitor is shortened when placed in direct sunlight or near other high-temperature materials.