IM06BH330J

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Fixed inductors are components used in electronic circuitry to store energy in the form of a magnetic field. They are typically composed of a coil of wire wrapped around a magnetic core or semiconductor material. The IM06BH330J is a fixed inductor made by ERNI Electronics.

The IM06BH330J is a ferrite core inductor with a 10.0 Mohm | 300.0 nH nominal inductance, a maximum inductance range of 303.0 nH, and a maximum coil current rating of 0.22 A. It has a maximum DC resistance of 0.3 Ohm, a self-resonant frequency of 24.0-65.0 MHz, and a temperature range of -25°C to +85°C. Furthermore, the inductor is printed with two colors (green-brown) for easy identification.

The IM06BH330J is most often used in filtering circuits and high-frequency switching applications. It can also be used in radio communication circuits for both transmitters and receivers, and is particularly effective at reducing noise in sensitive circuits. The IM06BH330J is designed to operate in most environments and can withstand vibration and shock without damaging the core or coil.

The working principle of the IM06BH330J is electromagnetic induction. When an alternating current (AC) is passed through the coil of wire, it creates an alternating magnetic field. This field then induces a voltage in any nearby conductor that is proportional to the rate of change of the magnetic field. The amount of voltage induced depends on the rate of change of the magnetic field as well as the number of turns of the wire coil and the size of the core.

The IM06BH330J is well-suited for use in high-performance and sensitive circuits, as it is able to filter out noise and reduce distortion. It is also relatively small in size, making it suitable for use in portable and compact electronic devices. Furthermore, the robust construction makes it suitable for use in demanding environments.

In conclusion, the IM06BH330J is an efficient fixed inductor with a wide range of applications, including filtering, high-frequency switching, and radio communication circuits. Its working principle is based on electromagnetic induction, and it has a low DC resistance, a high self-resonant frequency, and a temperature resistance range. Its small size and robust construction make it suitable for use in demanding environments and portable electronic devices.

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