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
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Bernard D. H. TellegenBias teeBond graphCoplanar waveguideCurrent differencing transconductance amplifierDelft_University_of_TechnologyElectrical elementElectrical resistance and conductanceFerrimagnetismFrequency dependent negative resistorGyrator–capacitor modelImpedance analogyIndex of electronics articlesInductanceInductorIntegrated circuitIsolator (microwave)Lester HoganList of Delft University of Technology facultyList of Dutch inventions and innovationsList of the Delft University of Technology AlumniMOSFETMOSFET applicationsMechanical–electrical analogiesMicroelectronicsMiller theoremNegative impedance converterNegative resistanceNetwork synthesisOldambt_(municipality)Positive impedance inverterSergei Tretyakov (scientist)Simulated inductorSoviet integrated circuit designation
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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
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A gyrator is a passive, linear ...... er design and miniaturization.
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Als Gyrator bezeichnet man in ...... ller Positiv-Impedanzinverter.
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Een gyrator is een elektrische ...... eert in een luchtspoel van 4 H
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Girator atau pembalik impedans ...... aktif dan pengompakan sirkuit.
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Il giratore è un doppio bipolo ...... rogettazione di filtri attivi.
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O gyrator é um circuito elétri ...... ita-faixa, e assim por diante.
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Un girador es un cuadrupolo ca ...... filtros electrónicos activos.
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Żyrator jest układem elektroni ...... kiem opisanym większą od zera.
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Гиратор (англ. gyrator, от гре ...... как режекторный фильтр и т. п.
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ジャイレータとは、インピーダンスを反転させる回路網のことであ ...... となり、側から見るとのインダクタンスとなる。 (はヘンリー)
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1,012,901,972
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ANSI Y32 & IEC standards
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Customary
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Two versions of the symbol use ...... hift in the reverse direction.
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A gyrator is a passive, linear ...... of necessary linear elements
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Als Gyrator bezeichnet man in ...... ller Positiv-Impedanzinverter.
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Een gyrator is een elektrische ...... = 100 kilo-ohm dan L = 1 henry
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Girator atau pembalik impedans ...... aktif dan pengompakan sirkuit.
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Il giratore è un doppio bipolo ...... rogettazione di filtri attivi.
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O gyrator é um circuito elétri ...... utor e o transformador ideal).
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Un girador es un cuadrupolo ca ...... filtros electrónicos activos.
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Żyrator jest układem elektroni ...... kiem opisanym większą od zera.
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Гиратор (англ. gyrator, от гре ...... как режекторный фильтр и т. п.
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ジャイレータとは、インピーダンスを反転させる回路網のことであ ...... となり、側から見るとのインダクタンスとなる。 (はヘンリー)
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Girador
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Girator
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Giratore
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Gyrator
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Gyrator
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Gyrator
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Gyrator
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Żyrator
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Гиратор (электрическая цепь)
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ジャイレータ
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