Fixed Inductors

Fixed inductors are electrical components composed of coils and magnetically conductive cores, used to conduct current from one circuit to another. Fixed inductors are available in a variety of shapes and sizes and offer a wide range of applications.

One of the most common types of fixed inductors is the IRF01RU100K. This type of inductor is designed to allow for greater current carrying capacity and higher efficiency than other types of inductors.

Application Field of IRF01RU100K

The most common application for an IRF01RU100K is in high-power and high-frequency Switch mode power supply (SMPS). This type of fixed inductor is frequently used for DC-DC converters, DC-AC converters, and driver circuits. It is also used in LED applications, DC-to-DC boost converters, and other power electronics.

The IRF01RU100K is designed to meet all the necessary requirements for high-power, high-frequency applications. It features low profile, high saturation current, low DC resistance, low leakage inductance, and high Q value. This type of fixed inductor is also highly reliable and offers higher efficiency than other inductors.

In addition, the IRF01RU100K can be used in various types of DC motors, such as brushed and brushless, for applications requiring high acceleration. With its high saturation current and low DC resistance, it is the ideal inductor for applications with demanding performance requirements.

Working Principle of IRF01RU100K

The working principle of an IRF01RU100K is based on Faraday\'s Law of Induction. According to Faraday\'s Law, when a changing magnetic field is applied to a coil, an induced voltage is produced. This induced voltage causes a current to flow in the coil, thus creating a magnetic field.

An IRF01RU100K is a type of fixed inductor that comprises two distinct parts: the windings that form the coil, and the magnetically conductive core. When an alternating current is passed through the windings of the inductor, it creates a varying magnetic field that interacts with the magnetically conductive core. The core’s magnetic field creates a changing current in the windings, which induces a voltage.

The core of the inductor serves to amplify the voltage change in the windings. This amplified voltage is then applied to a circuit, thus providing a major advantage over other types of inductors where the induced voltage is relatively small.

Additionally, the core of the IRF01RU100K is designed to enable the inductor to quickly and efficiently store and release energy. This makes it ideal for applications that require very high currents and/or very rapid energy recovery.