EEC-F5R5U155N

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Electric Double Layer Capacitors (EDLC), also known as supercapacitors, are energy storage devices whose capacitance is several orders of magnitude larger than that of conventional capacitors. These devices can provide high power delivery within a short time and can be used in applications where batteries or large capacitors are not suitable. The EEC-F5R5U155N is a type of EDLC with its own unique characteristics.

The EDLC is composed of a separator that is electrolyte-impregnated, consisting of two electrodes that are layered with a layer of active material. The positive electrode is made of an electroactive material, while the negative electrode is an inert material. The electrodes are then connected to an external conductor or lead which allow current flow between the electrodes, providing a source of electrical energy storage.

The EEC-F5R5U155N utilizes Faradaic Nano-structured Graphene (FNG) as the active material for the EDLC. This material offers superior performance in terms of capacitance, power delivery, and charge/discharge cycling. FNG also has a higher volumetric and gravimetric energy density compared to other materials. This means that the EEC-F5R5U155N has a larger energy density, allowing it to store more energy than conventional EDLCs.

The EEC-F5R5U155N is well-suited for a variety of applications such as energy harvesting, peak load compensation, buffering, and energy storage systems. It can be used to store and deliver high-power pulses for short durations such as regenerative braking systems in electric vehicles, uninterruptible power supplies, and robotics control. Its high energy density and high capacitance make it ideal for applications requiring high power delivery over short time periods.

The working principle of the EEC-F5R5U155N is that when a potential is applied across its terminals, a layer of ionic charge is accumulated at the interface between its two electrodes, forming a double-layer effect. This double layer effect is responsible for the high capacitance of the device. The charge stored in the device can then be discharged when needed, providing a source of energy for various applications.

The EEC-F5R5U155N has a number of advantages over conventional EDLCs. Its higher energy and power densities, higher capacitance, and robust construction make it perfect for applications that require a high-performance energy-storage device. Its wide temperature range and long service life make it a reliable and durable energy source for a number of applications.

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