IMS02WWDBH121K40

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Fixed inductors are electrical components used in circuit boards that store energy in a magnetic field when conducting an electric current. The IMS02WWDBH121K40 is an example of a fixed inductor, and it is used in a variety of applications, as well as having a unique working principle.

Applications

The IMS02WWDBH121K40 has multiple applications, but it is generally used in high-frequency applications requiring stable inductance and energy storage. It is usually used in the radio frequency field, such as filters, resonators, and antenna tuners. Additionally, these fixed inductors can also be used in telecommunication applications, such as cell phone base stations and digital signal processing.

Moreover, the IMS02WWDBH121K40 inductors are also used in the automotive industry, in components such as anti-theft locks, engine controllers, and infotainment systems. This is due to their high reliability, which enables them to cope with the harsh environments that automobiles operate in. Furthermore, these inductors are also used in medical devices, which require accurate and reliable components for proper functioning of the equipment. For example, the IMS02WWDBH121K40 is used in cardiopulmonary resuscitation (CPR) devices to ensure accurate power levels and signal transmission.

Working Principle

The working principle of the IMS02WWDBH121K40 fixed inductor is based on Faraday\'s law of induction, which states that when a current flows through an inductor, it produces a magnetic field that stores energy. This energy is then released back into the circuit when the current is reduced or reversed. This is known as inductive reactance, which is the resistance to the flow of current produced by a varying magnetic field.

When current is applied to the IMS02WWDBH121K40 inductor, its magnetic field stores energy. This energy is then released back into the circuit in the form of a magnetic field collapsing. This collapsing field creates a back-EMF (electromotive force), which opposes the current and causes the current to decrease. This is known as inductive resistance, which is the resistance to the flow of current caused by the presence of a magnetic field. By controlling the current, the IMS02WWDBH121K40 inductor is able to regulate power input into a circuit.

Summary

The IMS02WWDBH121K40 is a fixed inductor that is used in a variety of applications, such as radio frequency applications, telecommunication, automotive, and medical devices. Its working principle is based on Faraday\'s law of induction, which states that when a current flows through an inductor, it produces a magnetic field that stores energy, and releases it back into the circuit when the current decreases or reverses. This energy is released in the form of a back-EMF, which opposes the current and decreases it. By controlling the current, the IMS02WWDBH121K40 inductor is able to regulate power input into a circuit.

The specific data is subject to PDF, and the above content is for reference