Experimental Investigation of a Self-Biased Microstrip Circulator

Experimental Investigation of a Self-Biased Microstrip Circulator

An experimental investigation of an above-ferromagnetic resonant self-biased hexagonal ferrite circulator is detailed in this paper. The concept of the ldquoregion of opportunityrdquo is invoked to establish a relationship between the ferrite's geometry and its MH large-signal data for self-bia...

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Veröffentlicht in:IEEE transactions on microwave theory and techniques 2009-07, Vol.57 (7), p.1669-1674
Hauptverfasser: O'Neil, B.K., Young, J.L.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Circuit properties
Circulation
Circulator
Conductors
Correlation
Devices
Electric, optical and optoelectronic circuits
Electronics
Exact sciences and technology
Ferrite
Ferrite circulators
Ferrites
Geometry
Impedance
Insertion loss
International Space Station
Magnetic resonance
Microstrip
Microwave circuits, microwave integrated circuits, microwave transmission lines, submillimeter wave circuits
Microwaves
Narrowband
Noise levels
Resonance light scattering
self-biased
Stripline
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Zusammenfassung:An experimental investigation of an above-ferromagnetic resonant self-biased hexagonal ferrite circulator is detailed in this paper. The concept of the ldquoregion of opportunityrdquo is invoked to establish a relationship between the ferrite's geometry and its MH large-signal data for self-biased operation. This concept is used to design a working three-port nonreciprocal device that will serve as a basis for experimentally ascertaining best case insertion losses (ILs), return losses (RLs), and/or isolations (ISs) for circulator applications. Furthermore, we show that this nonreciprocal device when externally tuned as a circulator exhibits RLs and ISs of better than 15 dB across a narrow band; the ILs are on the order of 1.5 dB within this same band. This IL is correlated to the best case IL. Results confirm the conclusion that a ferrite with H c = 4.0 kOe, 4piM s = 4.375 kG , and DeltaH = 1.862 kOe is suitable for self-biased circulator applications.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2009.2022588