IHB4EB102K

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Fixed Inductors are devices that store electrical energy in the form of magnetic fields, which are produced around the inductor\'s coils. Fixed inductors are constructed with one or more coils and may also be called chokes. The inductance of a fixed inductor is determined by the number of turns in the coil and the core material that is used. The IHB4EB102K is a size 4, high frequency, ferrite core, power inductor designed for automotive applications.

The IHB4EB102K is rated up to 100A, 10μH, and 70mOhm, and designed to handle high-power applications such as in-line power supplies, output filters, and other applications that require power inductors with high current ratings. The design of the IHB4EB102K makes it ideal for automotive applications such as 12V auxiliary electrical systems, low-side power supplies, and power conversion. The inductor features a ferrite core and a steel housing that is designed to handle extreme temperatures, vibrations and impact.

The IHB4EB102K has a working principle based on Faraday’s law of induction. In this law, a changing magnetic field causes an electric current to be induced in a conductor. The inductor works similarly, but in reverse. An alternating electric current interacts with the inductor’s core material to create a magnetic field. This magnetic field induces an electric current in the inductor’s coils. As the current changes direction, the magnetic field also changes direction, thereby storing and releasing energy.

The electric current is passed through the inductor in the form of an alternating electric field. This alternating electric field is created by a series of coils which pass electric current in the transverse direction. The alternating electric field induces a magnetic field in the coils of the inductor. The induced magnetic field produces an opposing electric field which opposes the change in the main electric field. Thus, the inductor can store or release energy.

The IHB4EB102K is designed to operate in a wide temperature range of -40°C to 125°C and can handle up to 6A of continuous current. The inductor is constructed with open frame construction, which dissipates heat and prevents heat stress on the ferrite core. This type of construction allows the use of higher current ratings while keeping the base inductance low. The inductance is measured in microhenrys (µH) and is determined by the number of turns in the coil and the core material used.

The IHB4EB102K is designed to work in extremely high frequency applications such as power converters and output filters. Due to its high frequency response, the inductor is well suited for applications such as engine ECUs and other applications that require inductors to handle high frequencies. The inductor is also designed to withstand extreme vibration and shock. The housing of the IHB4EB102K is constructed with a reinforced steel material that can withstand up to 10G of shock.

In conclusion, the IHB4EB102K is an automotive-grade size 4, high-frequency, ferrite core, power inductor. It is ideal for high-power applications such as in-line power supplies and output filters. The inductor is rated up to 100A, 10μH, and 70mOhm. It has a working principle based on Faraday’s law of induction and is designed to operate in a wide temperature range of -40°C to 125°C. The IHB4EB102K is constructed with open frame construction, which dissipates heat and prevents heat stress on the ferrite core. It is also designed to withstand extreme vibration and shock.

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