CDHC821K2R3SR

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Electric Double Layer Capacitors (EDLC) and Supercapacitors are typically composed of two electronic conductors sandwiching an electrolyte material. Called the "active material" or "dielectric", they store energy within this material like a rechargeable battery, but unlike a battery they hold charge much faster and can withstand greater temperatures, making them attractive for many applications. CDHC821K2R3SR is one example of an EDLC or Supercapacitor, and is used for a variety of purposes. This article will discuss the application fields and working principles of CDHC821K2R3SR.

The application fields of EDLC or Supercapacitors vary significantly depending on desired outcomes. For instance, CDHC821K2R3SR is ideal for energy recovery and storing activities because it has extremely low discharge rates. This makes it an attractive choice for micro-hybrid automotive systems since it helps capture kinetic energy produced during braking that can later be used to power certain functions of the car. The extremely low discharge rate also helps increase battery life by reducing electric load on the battery, while also providing higher power and faster delivery.

Additionally, CDHC821K2R3SR is widely used for residential energy storage. For example, it can help store electricity produced by solar panels during the day and release it during peak hours when the demand is higher. This helps reduce peak power consumption and ensures greater reliability and stability of the grid during periods of high load. These features make CDHC821K2R3SR an ideal choice for home renewable energy storage systems.

Finally, CDHC821K2R3SR is widely used in advanced energy-saving solutions. For instance, it is often used to store energy produced by wind turbines or diesel generators. This helps reduce the demand fluctuations on a distributed network and helps maintain a smooth output of energy. This ensures reliable and secure energy provision to residential and industrial customers.

In addition to its application fields, it is important to understand the working principles of CDHC821K2R3SR. At its core, it relies on an electrochemical process called capacitance in order to store energy. In this process, two electric conductors with an electrolyte material sandwiched between them are charged with a voltage. This causes the positive and negative ions on the surface of the plates react and create an electric double layer. This energy is stored in the double layer, and can be used for a variety of different purposes. This process occurs with EDLC or Supercapacitor technology.

Due to its high energy storage capacity, rapid charging capabilities, and low self-discharge rate, CDHC821K2R3SR is highly versatile and can be used for a wide range of applications. It is widely used in micro-hybrid automotive systems, home renewable energy storage systems, and advanced energy-saving solutions. Understanding the working principles is essential to getting the most out of this technology, making it an attractive choice for many organizations looking to improve their energy efficiency.

The specific data is subject to PDF, and the above content is for reference