PHV1245-5R4176-2B

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Electric Double Layer Capacitors (EDLC), Supercapacitors

Electric Double Layer Capacitors (EDLC), Supercapacitors, have become increasingly popular in the world with their fast charging, light weight and easy to use characteristics. The PHV1245-5R4176-2B Supercapacitor is one such example of this type of capacitor and is designed for use in a range of applications including automotive, portable electronics, medical and energy storage devices. In this article, we will discuss the application field and working principle behind the PHV1245-5R4176-2B Supercapacitor.

Application Field

The PHV1245-5R4176-2B Supercapacitor has been specially designed for use in automotive, portable electronics, medical and energy storage devices. This makes it particularly suitable for use in applications where a high power capacity and fast charging are required such as in electric cars, hybrid cars and battery powered devices. It can also be used in more static settings, such as in backup power systems, where it can provide an extended charging time during peak power use.

It can also be used in medical equipment such as medical disc machines which require reliable, constant power to supply constant current. The PHV1245-5R4176-2B is also suitable for use in portable medical devices, such as defibrillators, due to its light weight and low cost. The capacitors are able to store a large amount of energy and discharge it quickly, making them an ideal choice for applications requiring a large but short burst of power.

Working Principle

The PHV1245-5R4176-2B Supercapacitor operates on the same principle as a normal capacitor but is able to store more energy due to the fact that it uses both electrical and chemical processes to store energy. The capacitor works by storing electrical charge between two conductive surfaces and works on the principle of a double layer capacitor (EDLC). This is created by two layers of electrolyte with a porous separator between them, one layer facing the internal surface of the capacitor and the other facing its external surface. The ions present in the electrolyte then move freely between the two charge surfaces allowing the capacitor to store energy.

When the device is connected to a power source, electrons flow freely between the two charge surfaces and are stored on them. These electrons remain on the charge surfaces until they are discharged back into the power source when energy is being used. This allows for a large amount of energy to be stored in a small size capacitor, allowing this type of capacitor to be used in a range of applications.

Conclusion

The PHV1245-5R4176-2B Supercapacitor is an ideal device for a range of applications due to its ability to store a large amount of energy in a small size, while also providing fast charging and light weight characteristics. The device works on the principle of an Electric Double Layer Capacitor (EDLC), which stores energy between two conductive surfaces. This makes it particularly suitable for use in portable and automotive electronics, as well as medical and energy storage devices. In conclusion, the PHV1245-5R4176-2B Supercapacitor is a great choice for anyone looking for an efficient and cost-effective way to store and discharge energy.

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