DGH106Q2R7B

Electric Double Layer Capacitors (EDLC), sometimes referred to as supercapacitors, are a type of electrical device capable of storing large amounts of energy in a relatively small amount of space. In particular, EDLCs offer higher power density than traditional batteries and can provide quick bursts of energy, allowing for sustained use. The DGH106Q2R7B is a EDLC with a wide range of potential applications. In this article, we will explore the application field and working principle of the DGH106Q2R7B.

The DGH106Q2R7B is a 20V EDLC with a capacitance rating of 1300 Farads. It features a positive and negative electrode connected by an electrolyte, which allows electric charges to be transferred between them. The electrolyte is composed of a conductive carbon material that is electrochemically active, allowing ions from the electrolyte to move between the electrodes and store energy. Due to its high capacitance rating, the DGH106Q2R7B is well-suited for applications that require large amounts of energy to be stored in a small space.

One example of a potential application for the DGH106Q2R7B is in electric vehicles. The onboard battery of an electric vehicle is limited in terms of capacity and lifespan, and the DGH106Q2R7B could be used to supplement this and provide bursts of power for acceleration. The EDLC would be able to provide the needed energy with a high power density in a much smaller package than a traditional battery, allowing the vehicle to retain its smaller size. Additionally, due to EDLCs having a much longer lifecycle than a traditional battery, the energy can be stored for longer periods of time with less deterioration.

The DGH106Q2R7B can also be used as a dynamic brake for industrial equipment. The EDLC can absorb energy from the motion of the equipment, storing it and releasing it slowly, instead of the sudden jolt to the braking system. This is beneficial for applications where the total power output of the system needs to be maintained at a constant level. By storing and releasing energy slowly, the EDLC can help to keep the total power consumption of the system in check.

In addition to these uses, the DGH106Q2R7B can also be used as a backup power source in cases of power outage or grid failure. EDLCs can absorb the bulk of the energy needed to keep a system running, before the backup power source kicks in. This can help to improve system reliability and provide more consistent performance.

The working principle of the DGH106Q2R7B is deceptively simple. When connected to a power source, ions from the electrolyte will be pulled towards one of the electrodes, giving it an electric charge. When the power source is removed, the charge will slowly dissipate. This allows the EDLC to store and release energy efficiently, making it ideal for applications where a quick burst of energy is needed.

In conclusion, the DGH106Q2R7B is a 20V EDLC with a capacitance of 1300 Farads. It can be used for a variety of applications, such as providing supplemental power for electric vehicles, serving as a dynamic brake for industrial equipment, and providing back-up power when the main power source fails. The working principle of the EDLC is quite simple: when power is applied, ions are drawn to one of the electrodes, and when the power is removed, the charge dissipates, allowing the EDLC to store and release energy.