IRF03EBR47M

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Fixed inductors are components that store energy through an external magnetic field. Inductors come in a variety of sizes and shapes, as well as different mounting styles to make them easier to integrate into circuits. There are many fixed inductors available on the market, with the IRF03EBR47M being one of the most popular. This article will discuss the application field and working principle of the IRF03EBR47M inductor.

The IRF03EBR47M fixed inductor is a 3 E-core, through hole, mounting type with a value of 47 millihenries (mH). It is designed for use in applications that require high current, low profile, and little heat dissipation. Examples of such applications include dc/dc converters, switch mode power supplies, and digital circuits. The inductor itself has an internal ferrite core, which allows it to reach and hold high current ratings in a relatively small size. Additionally, the IRF03EBR47M has wide frequency range capability from 50kHz to 10MHz.

The operating principle of the IRF03EBR47M is simple. When a current is passed through the inductor, a magnetic field is formed. This magnetic field increases in strength as the current increases. The magnetic field then stores potential energy, which can be retrieved or released later as needed. This storage and release of energy is what creates an inductor’s voltage drop when current is passed through it.

The IRF03EBR47M is used in applications that require high current and low profile. It is especially useful in applications that require digital circuits, due to its wide frequency range and low profile design. Furthermore, the inductor’s low heat dissipation allows for use in circuits that operate in high temperatures, as it won’t be affected by the heat generated by other components. The inductor also has a low ``Total Harmonic Distortion\'\' (THD) rating, meaning that it won’t interfere with the signal integrity of a circuit.

In conclusion, the IRF03EBR47M is a highly reliable fixed inductor with good performance characteristics. It is often used in applications that require low profile designs, high current ratings, and low THD ratings. The inductor’s operating principle is based on generating and storing a magnetic field in order to store potential energy and create a voltage drop when current is passed through it. Overall, the IRF03EBR47M is a highly reliable and useful component for a variety of applications.

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