EEC-S5R5H105

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Electric Double Layer Capacitors (EDLC) and Supercapacitors are used in a number of applications including automotive, aerospace, energy storage and consumer electronics. The EEC-S5R5H105 is a EDLC/Supercapacitor technology which combines the performance of two separate energy storage components to provide a higher-capacitance energy storage solution. This technology is optimized for power storage and is ideal for applications that require rapid energy delivery and long storage life.

The EEC-S5R5H105 EDLC is composed of two types of materials: an anode material and a cathode material. The anode material is responsible for storage of the charge and is typically composed of a metal oxide. The cathode material is responsible for conduction of the charge and is usually composed of a conducting polymer. These two components are separated by an electrolyte layer which prevents direct ionic contact between them for stability and safety.

The EEC-S5R5H105 EDLCs/Supercapacitors are engineered to provide the highest rated capacity per unit volume and the lowest self-discharge rate of any commercial product currently available. This improved capacity and lower self-discharge rate make the EEC-S5R5H105 the choice for portable and distributed power applications, including medical equipment, consumer electronics, automotive and aerospace applications. The increased energy density of the EEC-S5R5H105 makes them extremely suitable for both stationary and mobile power applications.

The working principle of the EEC-S5R5H105 EDLC/Supercapacitors is based on the electrochemical double layer (EDLC) technology. The EDLC effect occurs when a voltage is applied to the capacitor electrodes. This voltage causes the electrons to accumulate at the surface of the electrodes, creating an electric double layer. The electrons stored in this double layer are what gives the EDLC its energy storage capability.

Unlike a traditional battery, the EDLC/Supercapacitor does not rely on chemical reactions for energy storage, instead, it relies on electro-mechanical action. When a voltage is applied to the EDLC/Supercapacitor, the electric field created by the voltage causes ions to move between the two electrodes creating an electric double layer. This electric double layer stores electrical charge in the form of potential energy that can be used to power electrical devices.

The EEC-S5R5H105 EDLC/Supercapacitor technology offers a high energy storage capacity and low self-discharge rate for applications that require rapid energy delivery and long storage life. For power storage applications that require high energy density and long cycle life, the EEC-S5R5H105 technology is optimized and designed to meet the needs of a wide range of applications.

The EEC-S5R5H105 EDLC/Supercapacitors are a cost efficient and reliable form of energy storage for portable, distributed, and stationary power applications. The products are engineered with the highest rated capacitance in the industry and the lowest self-discharge rate. This advanced technology provides designers with flexibility to reduce the overall component count, lower system cost, and increase efficiency.

The EDLC/Supercapacitor technology offered by EEC-S5R5H105 is ideal for a number of applications, including automotive systems, aerospace systems, and consumer electronics systems. This advanced technology provides an energy storage option that exceeds the performance of traditional batteries and is optimized to meet the needs of a wide range of applications.

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