106-100K

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Fixed inductors play a key role in power supply circuits, but knowing how to use them properly is important. The 106-100K application field and working principle explained in this article will help you identify and select the best inductor for your power supply needs.

The main purpose of a fixed inductor is to store energy in the form of a magnetic field. This is done by passing an electric current through the device using a single wire. The resulting magnetic field is then used to store energy when the current is turned off. Typically, these inductors are winded with a coil and a core material. The core material of the 106–100K device is ferrite (which can be composed of either iron oxide, zinc oxide, or another material).

The 106–100K application field depends on the inductance level, which measures the effectiveness of the energy storage mechanism. The higher the inductance level, the more energy that can be stored. Generally, these devices are used in circuits that require higher frequencies (when the frequency is higher than the inductance level). For example, they are frequently used in radio-frequency circuits and certain types of switching power supplies.

The 106–100K working principle is based on Faraday\'s law of induction, which states that when an electric current passes through the device, it induces a magnetic field. When the current stops, the magnetic field collapses and the energy stored is released. This stored energy is then used to power a circuit, depending on the type of current generated.

The 106–100K device is also known as an air core inductor, since it does not use a ferrite core. Instead, it is usually comprised of several turns of stiff copper wire. Although it is less efficient than the ferrite core, it offers a higher level of flexibility and is often used in applications that require low-noise operation or a wide range of inductance values.

When selecting the 106–100K inductor, the primary consideration is usually the level of current. The higher the current level, the higher the inductance level needed. Since the inductance level determines how much energy is stored, it is important to ensure that the current level is adequate. Some applications may also require a specific operating frequency, which must also be taken into consideration.

In addition, it is important to check the temperature rating of the device before making a selection. This is because the temperature rating determines how much power the device can safely handle. If the device is exposed to temperatures above its rating, it could overheat and become damaged.

In conclusion, the 106–100K application field and working principle offer a versatile and reliable energy storage option for many applications. As long as the current and temperature ratings are properly considered, this device can be a reliable way to store energy in power supply circuits.

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