EDLSG155H5R5C

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Electric Double Layer Capacitors (EDLC), commonly known as Supercapacitors, are energy-storing devices that can quickly store and release large amounts of energy. EDLSG155H5R5C, a type of EDLC, has been widely used in applications such as vehicle starting, industrial power supply, and energy storage and recovery. They offer a number of advantages over traditional capacitors and batteries, including high power density, fast charge and discharge rates, good temperature stability, and long lifetime. This article will discuss the application field and working principle of EDLSG155H5R5C.

Application Field

EDLSG155H5R5C is typically used in commercial and industrial applications as it supports high current discharge and a wide range of operating temperatures. The remarkable ability of this EDLC to provide high energy power delivery makes it a great option for a range of applications, including:

• Vehicle Starting: Supercapacitors are widely popular among automotive engineers as they have a high charge and discharge capacity and provide a good performance. EDLSG155H5R5C can provide the required burst of energy to start vehicles, which is why it is used in commercial vehicles, buses, and other automobiles.
• Industrial Power Supply: Supercapacitors have the ability to provide immediate energy and their low internal resistance make them ideal for backup power supply applications. They can act as emergency power sources for safety and security systems in industries and can be used to maintain power in moments when the main supply is disrupted.
• Energy Storage and Recovery: EDLSG155H5R5C can be used in energy storage and recovery applications such as solar power plants. Supercapacitors can be used to store the energy generated from solar cells during the day and quickly release it during peak hours, making them a great asset for renewable energy initiatives.

Working Principle

EDLSG155H5R5C is made up of two metal plates, or electrodes, which are separated by a porous insulator called the separator. These electrodes attract and hold ionized particles of opposite charge, resulting in an electrolytic deposit that forms a "double-layer" near the surface of each electrode. This double-layer can efficiently store energy in both electrical and electrostatic form, allowing it to discharge energy quickly and recharge quickly.

The storage capacity of EDLSG155H5R5C is determined by the size and capacitance of the device. The greater the size and capacitance, the greater the storage capacity of the device. The device can be charged and discharged hundreds of thousands of times over a long lifetime, making it an ideal energy storage solution for many industrial and commercial applications.

Conclusion

EDLSG155H5R5C is a type of EDLC that is widely used in applications such as vehicle starting, industrial power supply, and energy storage and recovery. The device has many advantages over traditional capacitors and batteries, including high power density, fast charge and discharge rates, good temperature stability, and long lifetime. The working principle of EDLSG155H5R5C is based on two metal plates that attract and hold ionized particles of opposite charge, resulting in a "double-layer" near the surface of each electrode that can efficiently store energy.

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