PE-1008CD470KTT

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Fixed Inductors

Inductors are one of the most basic passive electronic components, widely used in various applications. In this article, we will analyze the PE-1008CD470KTT fixed inductor and examine its application fields and working principles.

Inductors are also known as coils, chokes, or reactors. The core of the inductor is a coil that stores, or contains, electromagnetic energy in the form of a magnetic field. Inductors are used for various applications such as filtering, voltage stabilization, impedance matching, or RF signal isolation. The PE-1008CD470KTT is a type of fixed inductor that has a maximum voltage of 50 volts and a maximum current of 380 mA. It is a surface-mount device that comes in a a large variety of packages, including the 8-pin 0.635 mm thick DIP package.

The PE-1008CD470KTT is mainly used in high frequency applications, such as wireless LAN equipment, radio systems, and cellular telephones. Its excellent characteristics, such as low DC resistance and high inductance stability, allow it to be used for various purposes, such as interference suppression, filtering, and impedance matching. Its wide utilization range can be attributed to its suitable size and small cost.

In terms of working principle, an inductor forms a magnetic field when a current passes through it. This magnetic field is then capable of inducing a voltage in a conductor which is placed within the vicinity of that magnetic field. This induced voltage is proportional to the rate of change of the current in the inductor. This is a phenomenon known as Faraday\'s Law of induction. This law can be further understood by examining the relationship between an inductor and an AC signal.

When an AC signal is passed through an inductor, the current through the inductor follows the change in the voltage across it. As the current changes, the magnetic field within the inductor increases and decreases. The magnetic field is generated by the current through the inductor, and the strength of the magnetic field is proportional to the current. The $\displaystyle \emph{rate of change}$ of this current is proportional to the magnitude of the AC signal.

This means that the magnitude of the voltage induced within the inductor will depend on the magnitude of the AC signal and the size of the inductor. This is the basis of how an inductor works and explains why it is used in various applications. The PE-1008CD470KTT is a type of fixed inductor that is capable of responding to frequencies up to 1-2 GHz and is ideal for high frequency applications.

In summary, the PE-1008CD470KTT is a type of fixed inductor that is mainly used in high frequency applications. Its wide usage range and excellent characteristics make it suitable for various purposes, such as interference suppression, filtering, and impedance matching. In terms of working principle, the magnetic field generated by the current through the inductor is capable of inducing a voltage within the conductor placed within its vicinity. This voltage is directly proportional to the rate of change of the current in the inductor. This principle explains why the PE-1008CD470KTT is able to respond to frequencies up to 1-2GHz and is suitable for high frequency applications.

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