Aluminum Electrolytic Capacitors are an essential element of nearly all electronic devices - from small signals to large power grids. This capacitor type is usually constructed from two aluminum foil electrodes, which are separated by a dielectric, making them very compact and efficient.
The 35MH722MEFCTZ6.3X7 is a radial-lead, non-polarized aluminum electrolytic capacitor designed for use in commercial and industrial applications. The capacitor has a capacitance value of 35 uF, a voltage rating of 25 volts and a tolerance of +/-10%. It is also designed with a long-term stability of +/-0.5% under typical operating temperatures.
The 35MH722MEFCTZ6.3X7 application field includes decoupling and filtering, power supplies, electric circuits, timing circuits, pulse circuits, and switching circuits. It is suitable for low-frequency AC circuits, rectifying circuit, and smoothing, decoupling and filtering circuit. The capacitor is specifically designed for DC memory backup in automated controls and motor applications, where it is used to store energy and provide essential operational power.
The working principle for this capacitor is based on electrolytic conduction, which is the flow of current through an electrolyte solution. The electrolyte solution is usually an acid-based or alkaline-based solution which is held between two conductive plates. When a voltage is applied to the electrolyte, the ions in the solution will move, creating an electric current. The electrical current then moves between the two conductive plates which creates a capacitance.
The 35MH722MEFCTZ6.3X7 is a commercial grade electrolytic capacitor manufactured with premium grade aluminum-foil electrolyte. It has a very low impedance, low leakage, and high energy density. The capacitor also provides excellent temperature and frequency stability.
In conclusion, the 35MH722MEFCTZ6.3X7 is a radial-lead, non-polarized aluminum electrolytic capacitor that is designed for use in commercial and industrial applications. Its application field includes decoupling and filtering, power supplies, electric circuits, timing circuits, pulse circuits, and switching circuits. The working principle for this capacitor is based on electrolytic conduction, where a voltage is applied to the electrolyte solution and ions in the solution move to create an electric current.