36401E1N6ATDF

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Fixed inductors are electrical passive components that are primarily used to store electrical energy in the form of potential energy in the form of an electromagnetic field. Fixed inductors are typically composed of loops of wire that are wound in either a ring or a cylinder form, and that can be made out of either metal wire or ceramic. Fixed inductors are generally used in various kinds of electrical circuits to restrict the flow of currents and for filtering of signals.

The 36401E1N6ATDF is a fixed inductor that is constructed from a ferrite core and enameled copper wire. The ferrite core material is heat treated and has a coating of ulstrasonic material that makes it resistant to corrosion. It has an inductance of 1.6 µH and can operate under a maximum current of 1.6 A. The maximum operating temperature of the inductor is 140°C, and it has a maximum DC resistance of 0.026 Ohm. It also has an initial tolerance of 20 percent (where initial tolerance is the tolerance at the start of an inductor’s life).

The 36401E1N6ATDF inductor is commonly used in power systems, power supplies, and in applications that require filtering of signals or restriction of current flow. It can also be used in linear and switching regulators, insurance circuits, and as part of filters and snubbers. Its main purpose is to limit the high frequency ripple currents that cause distress in power supplies and to protect related components.

The working principle of the 36401E1N6ATDF inductor is based on the principle of self-induction. When electrical current is passed through a wire, a magnetic field is created. This magnetic field, in turn, induces an electromotive force (EMF) in the wire. The EMF so produced is called the self-induction current, and it acts in the opposite direction to the imposed current. Thus, when a current is passed through the inductor, the self-induction EMF opposes the imposed current. The extent to which the current is opposed depends on the number of windings of the inductor and the nature of the material. The stronger the magnetic field, the greater the self-induction current will be.

In addition, the 36401E1N6ATDF inductor is able to effectively absorb and filter high-frequency current spikes. This helps in preventing excessive and damaging currents from flowing through the circuit, protecting components from possible damage that could be caused by these spikes. The 36401E1N6ATDF also has a high self-resonant frequency, which means that it is able to filter out signals above its self-resonant frequency. This helps in preventing unwanted signals from entering and disrupting the circuit.

The 36401E1N6ATDF fixed inductor is a versatile and useful component that can be used in various kinds of electrical circuits. Its main purpose is to limit the high frequency ripple currents that cause distress in power supplies and to protect related components. It can also be used for filtering of signals or restriction of current flow. With a maximum operating temperature of 140°C and a maximum DC resistance of 0.026 Ohm, the 36401E1N6ATDF is an efficient and reliable component that is ideal for a variety of applications.

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