IMS02EBR56K

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Fixed inductors are devices that contain a wire and a core, and the wire is wound around the core to form an inductor. These electrical components are commonly used in the radio-frequency field, as inductors can capture voltage waveforms and convert the voltage waveforms into electrical current. The IMS02EBR56K is a high-performance inductor that is primarily used in switching power supply systems for computers, servers, and other high-performance electrical systems.

The IMS02EBR-56K is designed for high-frequency applications and is ideal for power supplies operating in the range of 50 to 450 kilohertz (kHz). It is built with advanced material technology and utilizes a wire copper alloy suitable for high-frequency applications. These inductors are available in four different sizes, ranging from small (approximately 2mm x 2mm) to large (11mm x 11mm).

When it comes to performance, the IMS02EBR-56K is a superior product. It has a high saturation current (I _pk) rating of 2.3 amps (A), and low resistance (DCR) values ranging from 0.075 to 0.44 ohms (Ω). This makes it suitable for switching power supplies seeking high saturation, low loss, and increased system efficiency.

In terms of applications, the IMS02EBR-56K is primarily used in high-performance and high-efficiency switching power supply systems. It is also often used in the regulation and optimization of current, to ensure the stability and effectiveness of the overall system.

The IMS02EBR-56K also has immense power handling capabilities. It is capable of handling a maximum operating limit of 65 Amps (A) for 2 microseconds due to its ferrite construction. It also has a very low self-inductance (ESL) of 28 nanohenries (nH), which makes it a great choice for bridge and low-side/high-side filter applications.

The working principle of the IMS02EBR-56K is based on Faraday\'s Law of Induction. Faraday’s law states that when a conductor is placed within a changing magnetic field, it produces electricity. This means that, when alternating current is passed through the IMS02EBR-56K inductor, a magnetic field is created around the coil, producing an electric current in the opposite direction. This electric current then flows through the attached circuit.

This, in turn, causes the current in the wire to rise and fall, creating a type of sine wave. The inductance of the IMS02EBR-56K causes a lagging effect on the sine wave, smoothing out the voltage waveform, allowing for a smoother power delivery in the system.

In summary, the IMS02EBR-56K is a robust inductor designed for high-performance switching power supply systems. It has superior power handling capabilities and can provide high saturation current with low-loss properties. The working principle of the IMS02EBR-56K is based on Faraday’s Law of Induction, in which a current is generated when a conductor is placed within a changing magnetic field.

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