ECA-2CHG2R2B

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Aluminum Electrolytic Capacitors are one of the most commonly used capacitors in the electronics industry. They have several advantages over other types of capacitors, including their relatively high capacitance and low cost. They also provide a high dielectric strength, with good temperature stability, and are able to withstand high current and voltage peaks. In addition, aluminum electrolytic capacitors can be used in both low and high frequencies with proper design considerations.

The ECA-2CHG2R2B is an aluminum electrolytic capacitor specifically designed for use in high temperature and/or high voltage applications such as engines, generators, and power supplies. The capacitor features a rated capacitance of 2.2mF (2,200µF), two-voltage rating of 2V DC, and a rated operating temperature range of -40C to +85C. It is designed to provide reliable performance and capacitance stability in a wide range of environments.

The working principle of an aluminum electrolytic capacitor is based on the Faraday’s law of induction. When a potential difference is applied between the two electrodes of the capacitor, electric current flows through the electrolyte between them, creating an electric field which stores energy as a capacitor. This energy is then released as a current when the potential difference is removed. When the terminals of the capacitor are returned to their original voltage state, the electric current flows back through the electrolyte, restoring it to its original state.

The aluminum electrolyte that is used in ECA-2CHG2R2B ensures that the capacitor can handle a wide range of voltages and temperatures as well as provide superior capacitance stability. The capacitor also features a snap-in mounting system which ensures that the capacitor can be easily installed without the need for any special tools. This design also eliminates the need for additional attaching hardware.

In summary, the ECA-2CHG2R2B is an ideal aluminum electrolytic capacitor for high temperature and/or high voltage applications. It features high capacitance, good temperature stability, and snap-in mounting. The capacitor utilizes Faraday’s law of induction to store energy and release it as a current when the terminals of the capacitor are returned to their original voltage state. It also features an aluminum electrolyte to provide good capacitance stability and durability.

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