MLP2012HR47MT

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Fixed inductors are components that are used to oppose (inductively) the flow of the current through a circuit. They usually take the form of a coil or wire wound around a core material, such as ferrite or iron powder. Fixed inductors are also used to store energy in the form of magnetic fields. In order to meet the increasing demands of applications, there is a need for improved components with higher current ratings, lower power losses, and increased output voltages.

MLP2012HR47MT is one of the most popular fixed inductors available on the market. It is designed to handle up to 3.5 amperes (A) of current and is capable of suppressing erratic interference. The component has a maximum DC resistance of 0.08 ohms and a relatively small maximum inductance of 12.7 millihenrys (mH). It features a ceramic core, gold plated copper connections for increased efficiency, and low thermal resistance for maximum heat dissipation.

MLP2012HR47MT inductor has a wide range of applications, such as in automotive, industrial, LED lighting, consumer electronics, and audio-video products. The component is widely used in memory modules, switching power supplies, and automotive ECU systems. Moreover, it can be used in power factor correction circuits for AC-DC converters, as well as in high-power DC-DC converters. It is also employed in signal filter circuits due to its low power losses.

The working principle of MLP2012HR47MT inductor is based on Faraday’s law of induction. This law states that a changing magnetic field generates an electromotive force (EMF) in a circuit. In a fixed inductor, a coil or wire carrying a current generates a magnetic field, which then induces an EMF in the coil or wire due to Faraday’s law of induction. The magnitude of the EMF depends on the strength of the magnetic field, the number of turns of the coil, and the rate at which the magnetic field is changing.

The most important parameter resulting from this concept is the inductance of the component, which is the ratio of the EMF to the rate of change of the current. The greater the inductance of the component, the greater the degree of opposition to changes in current. This opposition, known as inductive reactance, can be tuned to a specific frequency to suppress electrical noise.

MLP2012HR47MT inductor has been designed to take advantage of the principle of Faraday’s law of induction. Its low profile construction, along with its high current, low power dissipation, and wide range of applications make it a popular choice for a variety of different fixed inductor applications. It is widely used in automotive, consumer electronics, and audio-video products, as well as in a variety of other applications.

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