ELL-5PM100M Inductors, Coils, Chokes

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Fixed inductors are a type of electronic component whose basic function is to store electrical charge and energy. They are commonly used in circuits to create specific inductances, which can be used to produce a voltage, stabilize currents, or provide a supply of energy in a circuit. This article will explore the application fields and working principle of a specific type of fixed inductor, the ELL-5PM100M.

The ELL-5PM100M is a high-power, surface mount, nanocrystalline-based fixed inductor. It is designed for use in a variety of high-voltage applications. Its primary application areas include energy storage, electronic ballast, inductive power supplies, and motor control circuits, among others.

In energy storage applications, the ELL-5PM100M is used to store electrical energy that is generated from sources such as solar panels and wind turbines. It is designed to store energy in order to be used during periods of peak demand.

In electronic ballast applications, the inductor is used to regulate the current passing through the lamp. This is achieved by providing a constant voltage to the ballast, which ensures a consistent light emitted from an illumination source.

Inductive power supplies use fixed inductors to convert AC power into DC power. This is done by passing alternating current through the inductor, which creates a magnetic field. This magnetic field induces a current in the inductor which produces a regulated DC output voltage.

The ELL-5PM100M can also be used in motor control circuits. These circuits use the inductor to store energy which is then used to drive a motor or manipulate mechanical systems. The inductor is designed to help provide efficient and precise control of a motor’s speed and direction.

The working principle of the ELL-5PM100M is based on Faraday’s law, which states that a changing magnetic field will induce an electric current in a conductor. This is achieved by passing an alternating current through the inductor, which produces a magnetic field. This magnetic field induces a current in the conductor, which produces a regulated voltage output.

In order to function correctly, the ELL-5PM100M must be sized correctly to match the voltage output requirements of the application. Additionally, the value of the inductor must be carefully chosen based on the current that needs to be regulated. Too high a value can cause saturation, resulting in the element not being able to store enough energy. Too low a value can result in excessive voltage drop and a decrease in the efficiency of the circuit.

The ELL-5PM100M is a powerful and versatile fixed inductor suitable for a variety of high-power applications. Its application areas include energy storage, electronic ballast, inductive power supplies, and motor control circuits. It operates on the principle of Faraday’s law, whereby a changing magnetic field induces an electric field in a conductor. The size of the inductor must be chosen based on the application’s voltage output requirements, and the value must be carefully selected based on the current that needs to be regulated.

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