FG0H105ZF

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), also known as supercapacitors, are electrical parts that can store and discharge electrical energy. The FG0H105ZF is a type of supercapacitor developed by Panasonic with a wide variety of uses. This article will discuss the various application fields and working principles of the FG0H105ZF.

Overview

The FG0H105ZF is an electric double layer capacitor with an electrolytic gel-type electrolyte that performs better than general-purpose organic electrolytic capacitors of similar size. It has a rated charge/discharge voltage of 2.3V, an operating temperature range of -40 to +85℃, and a rated capacitance of 10F.

The FG0H105ZF has a unique construction that minimizes the risk of gradual degradation and swelling. It features a streamlined design with a built-in vent and a reinforced external mesh structure that provides superior heat dissipation, further prolonging its overall lifespan.

Applications

The versatile FG0H105ZF supercapacitor is suitable for a wide range of applications. It can be used in automotive, industrial, and consumer electronics, as well as for energy storage in applications such as UPS systems, solar energy systems, and wind energy systems. The FG0H105ZF is also suitable for applications that require high reliability, such as medical devices, safety systems, and emergency lighting systems.

The FG0H105ZF is also ideal for use in power backup and power smoothing systems, as it has a low leakage current, long life, and low operating temperature. Additionally, it can be used in emergency lighting and fire alarm systems, as well as in medical devices that require a stable power supply. Furthermore, it can be used in automotive engine systems as a buffer capacitor to reduce harmful current spikes due to infrequent engine starts.

Working Principle

Supercapacitors (EDLCs) use an electrochemical double layer effect to store and discharge electrical energy. They can be recharged many times and have long lifespans. The FG0H105ZF works by forming two charge storage layers on the two electrodes of the capacitor: one is a monolayer film of ions from the electrolytic solution; the other is a fine double layer consisting of ions adsorbed to the surface of the electrodes.

When voltage is applied to the capacitor, an electric double layer is formed at the interface between the electrolyte and the electrode. This double layer increases the capacitance of the capacitor, and this is the main physical phenomenon behind the device’s energy storage mechanism. Additionally, the FG0H105ZF’s unique internal design allows the supercapacitor to operate at a higher voltage level than regular capacitors.

Conclusion

The FG0H105ZF supercapacitor is a versatile piece of technology with a wide range of potential applications. It can be used in automotive, industrial, and consumer electronics, as well as for energy storage in UPS systems, solar energy systems, and wind energy systems. Additionally, it can be used in power backup and power smoothing systems, in fire alarm and emergency lighting systems, and in medical devices that require a stable power supply. It works by forming two electrical double layers that act as charge storage layers, thus allowing the capacitor to store and release electrical energy.

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