BZ019A333ZSB

Electric Double Layer Capacitors (EDLC)

Electric double layer capacitors, also known as EDLC, were invented in 1966 and are commonly used as energy storage devices. EDLCs have a high energy density relative to normal capacitors and are used in many different applications, from consumer electronics to renewable energy to automotive applications. The BZ019A333ZSB is an example of a double-layer supercapacitor, and it is used for energy storage in applications such as automotive electronics, consumer electronics, power tools, and more.

An EDLC consists of two layers of electrodes separated by an electrolyte, usually a porous separator material. When a voltage is applied across the electrodes, ions from the electrolyte attach to the surface of the electrode, forming a double-layer on each electrode. This double-layer stores the charge and enables the capacitor to store energy. The capacitance of an EDLC depends on the iodine density of the electrolyte, the surface area of the electrodes, and the thickness of the separator material.

Supercapacitors

Supercapacitors are a type of capacitor that can store significantly more energy than normal capacitors. They are constructed from two electrodes, typically formed from an activated carbon material, with a separator between them, soaked in an electrolyte. When a voltage is applied, an electric field is created between the two electrodes, resulting in the electric double layer capacitance. The BZ019A333ZSB is an example of a supercapacitor.

Supercapacitors have many advantages over traditional capacitors. They are able to store more energy than traditional capacitors, and they have a longer life span. They are also able to be recharged quickly, and they are highly resistant to degradation, making them suitable for a wide range of applications. The BZ019A333ZSB supercapacitor is an ideal choice for automotive electronics, consumer electronics, medical equipment, and other applications that require reliable energy storage.

Working Principle

The BZ019A333ZSB supercapacitor works by utilizing the electric double layer capacitance (EDLC) of two activated carbon electrodes, which are connected in a series with a separator soaked in an electrolyte. When a voltage is applied, ions from the electrolyte attach to the surface of the electrodes, forming a double-layer on each electrode. This double-layer stores the electrical energy and enables the capacitor to store energy, even when the voltage is removed.

The energy stored in the BZ019A333ZSB is then released when a current is applied. This current passes through the electrodes, causing the double-layer to collapse and releasing the stored energy. This energy is then used to power the device or application that the supercapacitor is connected to. The BZ019A333ZSB has a very low leakage current, which means that it can store energy for long periods without losing a significant amount of energy.