100-471K

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Fixed inductors are electrical components used for a variety of applications. They are widely used in the fields of electronics and electrical engineering and are used to store energy in coils of wire or similar components. They are also known as inductors, chokes, or coils.

Inductors are usually round or rectangular in shape. They are composed of an insulating material such as plastic, ceramic, or metal, which is wound with a wire or other conductive material. The wire or other material is usually wound in multiple layers, allowing for a greater inductance capacity.

Inductors are rated by their inductance, which is usually measured in microhenrys (mH) or Henries (H). Larger inductors, such as those used in power supplies, are usually rated in either amperes (amps) or volts. The larger the inductance, the more energy the inductor can store.

Inductors are commonly used in various types of electronic circuits. Their purpose is usually to provide electrical isolation between two or more components of a circuit. For example, they may act as a transmission medium between the input and output circuits of an amplifier. They can also be used for filtering, providing an electrical barrier between two chords or frequencies.

The most common uses of inductors are in power supplies, radio and television receivers, and stereo systems. Because inductors act as a means of storing energy, they are very useful for regulating the voltage of a circuit. For example, they can be used to provide a constant voltage to a power supply to ensure that the circuits connected to the power supply always have a steady power supply.

Inductors also have a wide variety of other applications beyond power supply regulation. Examples include discharging static electricity, preventing “ringing” from telephone lines, providing voltage and current waveforms, providing electrical noise rejection, and providing protection against power surges.

Inductors also have different types of properties, depending on the type of material used for winding them. Inductors can be classified according to their electrical resistance, capacitance, inductance, and the ability to withstand different temperature ranges. Classifications of inductors include fixed inductors, linear inductors, variable inductors, high frequency inductors, and switching inductors.

Fixed inductors are used to provide a steady current or voltage over a specific range of frequencies. They are often used in radio receivers to provide a constant frequency and voltage for the radio signal. Fixed inductors are designed to maintain a steady current or voltage over a given frequency range that does not vary with time or temperature.

Fixed inductors have a wide range of applications, including the conversion of alternating current (AC) to direct current (DC), as well as in controlling the current and voltage through a circuit. Inductors are also used in applications such as timer circuits, noise reduction, and power supplies for electronic devices. They can also be used in various types of transistors, which are switching devices used to regulate the performance of a system.

The working principle of fixed inductors is based on the Law of Electromagnets, which states that a magnet creates an electric field which, in turn, induces an electric current in a coil of wire. This current can be used to generate voltage or power, depending on the type of circuit and the current required.

Due to their wide range of applications, fixed inductors come in various types and sizes with different ranges. Some examples of inductors that range from 100 to 471k include axial inductors, radial inductors, and shielded inductors. Axial inductors are designed for high-frequency use and feature a low resistance and low profile. Radial inductors are ideal for low-frequency applications and feature a high resistance and a deeper profile. Shielded inductors are specially designed for use with radio frequency waves, and they feature a high impedance to reduce noise and interference.

In conclusion, fixed inductors are an important component of many electronic circuits and systems. They are designed to provide a steady current or voltage over a specific range of frequencies. Due to their wide range of applications, fixed inductors come in various types and sizes with different ranges. Fixed inductors are used to provide electrical isolation between two or more components, filter signals, and can even provide protection against power surges.

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