6.3YXG6800MEFCGC18X20

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Aluminum Electrolytic Capacitors

Aluminum electrolytic capacitors are components that store electrical energy in the form of an electrical charge. They are constructed with two metal plates (an anode and cathode) separated by a dielectric material (electrolyte), which forms an insulating barrier between them. The electrolyte used in this type of capacitor must be a liquid, in order for proper conduction to occur. Typically, these devices are used in electronics applications where a large amount of energy needs to be stored in a relatively small device.

The 6.3YXG6800MEFCGC18X20 capacitor is an aluminum electrolytic capacitor and is specifically designed for high temperature applications. This device is composed of a tantalum oxide electrolyte that is augmented by a metallized aluminum film to ensure that even at elevated temperatures it can still provide reliable performance. The device has a low capacitance of 68 μF, which is typically used in situations such as power conversion, filtering, and signal amplification.

The 6.3YXG6800MEFCGC18X20 capacitor is ideal for use in applications that require high temperatures, such as portable and automotive electronics. The device has a minimum operating temperature of 150°C with a surge withstand voltage of 35V. The device also has an effective capacitance range from 0.10µF to 5.0µF, making it well adapted for applications that require a wide range of capacitances.

In terms of performance, the 6.3YXG6800MEFCGC18X20 capacitor offers superior characteristics compared to other aluminum electrolytic capacitors. This is due to its superior leakage current, ESR, and temperature characteristics. Moreover, the device also has excellent solderability, as well as excellent reliability in long-term use. In addition, the construction of the device also ensures that the temperature sensitivity of the unit is kept within acceptable levels.

In terms of the working principle of the 6.3YXG6800MEFCGC18X20 capacitor, the device operates on the electrochemical principle, which entails the transfer of charge from the anode to the cathode through an electrolyte material. The exchange of charge is enabled thanks to the presence of an electrolyte material in between the two surfaces. The electrolyte material used in this type of capacitor is typically a liquid, such as an aqueous solution or an organic solvent. When a voltage is applied to the capacitor, an electric current will flow through the device and the stored energy will be released.

To summarize, the 6.3YXG6800MEFCGC18X20 capacitor is an aluminum electrolytic capacitor that deals with the storage of electrical energy in the form of an electrical charge. The device has a wide applicability in high temperature applications due to its construction which utilizes a tantalum oxide electrolyte and a metallized aluminum film. The device is ideal for use in portable and automotive electronics, and offers superior performance compared to other types of capacitors, thanks to its leak current and temperature characteristics. In terms of its working principle, the device operates on the electrochemical principle, with the charge transferred from the anode to the cathode through an electrolyte material.

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