Reactors, also known as electrical inductors, are passive electrical components used in electrical and electronic circuits. Their primary function is to store and release energy in the form of a magnetic field. Reactors do not have a specific frequency range or amplitude range on their own. Instead, their behavior depends on the specific application and the characteristics of the circuit they are connected to.
The frequency range and amplitude range associated with reactors can vary widely depending on the circuit's design, intended application, and the specific characteristics of the reactor itself. Some reactors are designed for low-frequency applications, such as power distribution systems, while others are intended for high-frequency applications, such as electronic filters and signal processing circuits.
The amplitude range of a reactor is typically determined by the circuit's voltage and current limits, as well as the specific design parameters of the reactor. Reactors can handle a wide range of amplitudes, but they must be selected and designed appropriately to withstand the expected voltage and current levels in the circuit.
In summary, the frequency and amplitude range of reactors are not fixed values but rather depend on the specific circuit and application they are used in.