Aluminum - Polymer capacitors are designed for use in high current and high temperature applications. The 16SVPE470M is an aluminum - polymer capacitor that has a wide range of applications. It is a surface mount, radial-leaded device that can handle voltage up to 12 volts and can handle up to 4.7F of capacitance. The 16SVPE470M is a multi-layer construction capacitor with an electroceramic dielectric layer and a robust aluminum-based electrode. The electrode is a single layer construction with a conductive coating electroplated onto it.
The capacitance of the 16SVPE470M is proportional to its physical size; therefore it is important to consider the physical size when selecting this capacitor. It is available in sizes ranging from 0402 to 2220. The 16SVPE470M also features a high temperature rating of up to 105ºC and is resistant to extreme temperature changes. This makes it ideal for applications where high temperature operation is required.
The working principle of the 16SVPE470M is based on the principle of electrostatic induction. The capacitor consists of two metallic plates, separated by an insulating material. When a voltage is applied across the two plates, an electric field is generated, which causes a charge to be stored in the form of electrical field energy. This energy is stored in the capacitor, in the form of electrical potential energy (charge).
The 16SVPE470M is used in a number of applications, including automotive, high-frequency circuits, and battery-backed designs. In automotive applications, it can be used to improve resistance to voltage spikes and reduce board level noise. It can also be used in high-frequency circuits to provide stable timing and reduce electromagnetic interference. In battery-backed designs, it can be used to provide added power backup in case of power failure.
The 16SVPE470M is an ideal capacitor for a wide range of applications where high current and temperature demands are required. It is available in a variety of sizes and can handle both low and high voltage. Its high temperature rating and robust design make it suitable for use in extreme temperature applications. With its multi-layer construction and robust electrode, it is capable of handling high current requirements as well as offering long-term reliability.