CDLC101K2R7SR

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Electric Double Layer Capacitors (EDLC) and Supercapacitors are energy storage devices that are widely used in different industries. Their ability to store and release energy quickly and efficiently makes them an attractive option for a variety of applications, from consumer electronics to power generation and back-up systems. The CDLC101K2R7SR is one example of an EDLC and Supercapacitor that is popular in many industries. In this article, we will look at what the CDLC101K2R7SR is, what its application field is, and what the working principle is.

The EDLCs and Supercapacitors are known for their ability to store and deliver electrical energy quickly and efficiently, at times of peak demand. The CDLC101K2R7SR is an electrostatic type and is designed to work in a wide range of temperatures, from -30℃ to +70℃. Its structure has two concentric layers: one made of an anode and the other composed of a cathode. The distance between the layers acts as a dielectric layer, storing electrical energy as a “double-layer”. This EDLC and Supercapacitor has a high energy density of 50 Wh/Kg and 3V/µF capacitance.

The CDLC101K2R7SR EDLC and Supercapacitor has a wide variety of applications, including solar and wind power systems, automobiles, renewable energy projects, back-up power supplies, and consumer electronics. The high energy density and low equivalent series resistance of the EDLCs combined with the low profile and self-discharge characteristics make them suitable for rapid power delivery in a variety of applications. The wide range of temparatures in which the EDLCs and Supercapacitors can operate makes them an attractive option in a variety of industrial areas, such as aerospace, automotive, and consumer electronics.

The working principle of the CDLC101K2R7SR EDLC and Supercapacitor is based on the reaction of ions on a porous material, also known as electrodes. In this reaction, the electrical energy produced is stored in the form of the double-layer of ions on the surface of the electrodes. The ions are held in place by the force of the electrostatic field across the gap between the electrodes and the electrostatic attraction of the dielectric medium. This reaction can be reversed to discharge and store energy, making the EDLC and Supercapacitor a valuable asset in energy storage systems.

In conclusion, the CDLC101K2R7SR EDLC and Supercapacitor has a wide variety of applications and a working principle based on the reaction of ions on a porous material. The wide range of temperatures in which the EDLCs and Supercapacitors can operate, combined with their high energy density and low equivalent series resistance make them an excellent choice for rapid power delivery. They are becoming increasingly popular in many industries, such as aerospace, automotive, and consumer electronics.

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