380LX272M080J042 Datasheet/PDFAluminum electrolytic capacitors are among the most common types of capacitors in use today, due to their high capacity and relatively low cost. The 380LX272M080J042 is a specific type of aluminum electrolytic capacitor, which is commonly used in a variety of electronic applications. This article will provide an overview of the specific application fields for the 380LX272M080J042 and its working principle.
Application Field of the 380LX272M080J042 Capacitor
The 380LX272M080J042 is a radial leaded e-cap, which provides a high capacitance density of up to 2.7 microfarads. Thanks to its small size and high capacitance, this type of capacitor is well suited for use in various consumer electronics applications, including portable devices, laptops, mobile phones, and game consoles. Additionally, this type of capacitor has been successfully employed in automotive electronics, such as ABS and airbag control modules, as well as for pulsating current applications, such as inverters, rectifiers, and uninterruptible power supplies (UPS).
Working Principle of the 380LX272M080J042 Capacitor
The 380LX272M080J042 is a type of aluminum electrolytic capacitor, which utilizes an electrolyte, typically made of a liquid suspension of borax, to store electrostatic energy, as opposed to physical charge storage, like most other types of capacitors. This type of capacitor is made up of two electrodes; the anode is composed of an oxidized aluminum foil and the cathode is composed of a thin layer of aluminum foil, which are separated by the electrolyte. When connected to a voltage source, the anode releases electrons, which flow to the cathode and back to the negative terminal on the voltage source. This process of electron exchange produces a capacitive field, creating an electric field between the electrodes, which is what stores the electrostatic energy.
The 380LX272M080J042 capacitor is also generally characterized by its low impedance and low equivalent series resistance (ESR). As a result, it is better able to withstand high-frequency noise and also has better peak power handling abilities than many other capacitor types. Additionally, it has a low self-heating property to reduce its overall temperature rise, making it ideal for use in applications that require high current conduction.
Conclusion
In summary, the 380LX272M080J042 is a type of aluminum electrolytic capacitor with a high capacitance density and low impedance. Thanks to its small size and excellent properties, it is well suited for use in consumer electronics applications, as well as automotive and high-current pulse applications. Its working principle relies on an electrolytic media and electrostatic charge storage, which makes it effective for controlling current, temperatures, and peak power handling.