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gyrator - vertaling naar Engels

ANALOG CIRCUIT
Positive impedance inverter; Simulated inductor
  • 1969}}

gyrator         

[dʒai'reitə]

общая лексика

гиратор

Смотрите также

cryotron gyrator; transistor gyrator; two-port gyrator

существительное

специальный термин

гиратор

magnetic inductivity         
  • Three phase transformer with windings and permeance elements.
  • Schematic using gyrator-capacitor model for transformer windings and capacitors for permeance elements
  • Transformer with gap and leakage flux.
  • Gyrator-capacitor model of a transformer with a gap and leakage flux.
  • Definition of Gyrator as used by Hamill in the gyrator-capacitor approach paper.
  • Permeance of a rectangular prism element
  • Circuit equivalence between a magnetic inductance and an electric capacitance.
  • Circuit equivalence between a magnetic impedance and an electric admittance.
SCIENTIFIC INSTRUMENT
Magnetic capacitance; Magnetic inductance; Magnetic reactance; Magnetic impedance; Magnetic complex impedance; Magnetic effective resistance; Full magnetic resistance; Magnetic inductivity; Gyrator-capacitor model; Capacitance permeance analogy

общая лексика

магнитная проницаемость

циркуляция         
СТРАНИЦА ЗНАЧЕНИЙ
f.
circulation, gyration

Wikipedia

Gyrator

A gyrator is a passive, linear, lossless, two-port electrical network element proposed in 1948 by Bernard D. H. Tellegen as a hypothetical fifth linear element after the resistor, capacitor, inductor and ideal transformer. Unlike the four conventional elements, the gyrator is non-reciprocal. Gyrators permit network realizations of two-(or-more)-port devices which cannot be realized with just the conventional four elements. In particular, gyrators make possible network realizations of isolators and circulators. Gyrators do not however change the range of one-port devices that can be realized. Although the gyrator was conceived as a fifth linear element, its adoption makes both the ideal transformer and either the capacitor or inductor redundant. Thus the number of necessary linear elements is in fact reduced to three. Circuits that function as gyrators can be built with transistors and op-amps using feedback.

Tellegen invented a circuit symbol for the gyrator and suggested a number of ways in which a practical gyrator might be built.

An important property of a gyrator is that it inverts the current–voltage characteristic of an electrical component or network. In the case of linear elements, the impedance is also inverted. In other words, a gyrator can make a capacitive circuit behave inductively, a series LC circuit behave like a parallel LC circuit, and so on. It is primarily used in active filter design and miniaturization.

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