gyrator การใช้

• In the impedance analogy such a transducer is a gyrator.
• A gyrator can be used to transform a load capacitance into an inductance.
• This is known as the gyrator-capacitor model.
• An example of a gyrator simulating inductance, with an approximate equivalent circuit below.
• The gyrator was invented by him around 1948.
• The gyrator is useful to simulate the effect of an inductor without using a coil.
• If bidirectionality over a very board band is required, you can use a gyrator.
• The element is usually implemented from a generalized impedance converter ( GIC ) or gyrator.
• The gyrator-capacitor model is a lumped-element model for analysis of magnetic fields.
• The two-port element in the electrical domain that does this is called a gyrator.
• He became interested in tuners such as a gyrator and a phase-locked loop ( PLL ).
• Real inductors are increasingly being replaced by active circuits such as the gyrator which can synthesize inductance using capacitors.
• By analogy, a transducer that converts non-analogous variables between energy domains is also called a gyrator.
• The gyrator, on the other hand, maps a voltage at one port to a current at the other.
• Gyrator inductors typically have higher accuracy than physical inductors, due to the lower cost of precision capacitors than inductors.
• The gyrator is a necessary element in analysis because it is not practical gyrator must be constructed as an active circuit.
• The gyrator is a necessary element in analysis because it is not practical gyrator must be constructed as an active circuit.
• Since gyrators use active circuits, they only function as a gyrator within the power supply range of the active element.
• At low frequencies and low powers, the behaviour of the gyrator can be reproduced by a small op-amp circuit.
• In typical applications, both the inductance and the resistance of the gyrator are much greater than that of a physical inductor.