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Bibliografische Daten Dokument US000009590742B2 (Seiten: 73)

INID	Kriterium	Feld	Inhalt
54	Titel	TI	[EN] Thyristor-based optical XOR circuit
71/73	Anmelder/Inhaber	PA	OPEL SOLAR INC, US ; UNIV CONNECTICUT, US
72	Erfinder	IN	TAYLOR GEOFF W, US
22/96	Anmeldedatum	AD	22.12.2014
21	Anmeldenummer	AN	201414578805
	Anmeldeland	AC	US
	Veröffentlichungsdatum	PUB	07.03.2017
33 31 32	Priorität	PRC PRN PRD
51	IPC-Hauptklasse	ICM	G02F 3/00 (2006.01)
51	IPC-Nebenklasse	ICS	G02B 6/10 (2006.01) H03K 19/21 (2006.01) H04B 10/66 (2013.01)
	IPC-Zusatzklasse	ICA
	IPC-Indexklasse	ICI
	Gemeinsame Patentklassifikation	CPC	G02B 6/10 G02F 3/00 H03K 19/215 H04B 10/66
	MCD-Hauptklasse	MCM	G02F 3/00 (2006.01)
	MCD-Nebenklasse	MCS	G02B 6/10 (2006.01) H03K 19/21 (2006.01) H04B 10/66 (2013.01)
	MCD-Zusatzklasse	MCA
57	Zusammenfassung	AB	[EN] An optical XOR circuit that includes a thyristor and control circuitry operably coupled to terminals of the thyristor. The control circuitry is configured to control switching operation of the thyristor in response to the ON/OFF states of two digital optical signal inputs such that the thyristor produces a digital signal output that is the XOR function of the two digital optical signal inputs.
56	Entgegengehaltene Patentdokumente/Zitate, in Recherche ermittelt	CT	US000004999688A US000005204871A US000005315105A US020100123121A1 US020100275971A1 US020120038960A1
56	Entgegengehaltene Patentdokumente/Zitate, vom Anmelder genannt	CT	US000006031243A US000006479844B2 US000006841795B2 US000006841806B1 US000006853014B2 US000006870207B2 US000005355243A US000006849866B2 US000006873273B2 US000006954473B2 US000006995407B2 US000007332752B2 US000007333731B2 US020140050242A1 WO002002071490A1 WO002013025964A1
56	Entgegengehaltene Nichtpatentliteratur/Zitate, in Recherche ermittelt	CTNP	Semiconductors: The Foundation of Modern Electronics. As archived from, Sep. 8, 2013, accessible at: http://web.archive.org/web/20130708220436/http://edisontechcenter.org/semiconductors.html. 0
56	Entgegengehaltene Nichtpatentliteratur/Zitate, vom Anmelder genannt	CTNP	"Tunable Bragg reflectors on silicon-on-insulator rib waveguides", Ivano Giutoni et al., Oct. 12, 2009 / vol. 17, No. 21, Optics Express 18518-18524. 1; 1 Gbit/s PSK Homodyne Transmission System Using Phase-Locked Semiconductor Lasers, J.M. Kahn, IEEE Photonics Technology Letters, vol. 1, No. 10, Oct. 1989. 1; Charge-Pump Phase-Locked Loop-A Tutorial-Part 1, Jeffrey S. Pattavina, EE Times, Jun. 30, 2011. 1; GaAs-based long-wavelength InAs quantum dots on multi-step-graded InGaAs metamorphic buffer grown by molecular beam epitaxy, He Ji-Fang et al., Journal of Physics D: Applied Physics, J.Phyus. D: Appl.Phys. 44(2011) 335102 (5pp). 1; Hands, M. A., et al. "A case study for the implementation of a stochastic bit stream neuron; the choice between electrical and optical interconnects." Massively Parallel Processing Using Optical Interconnections, 1995., Proceedings of the Second International Conference on. IEEE, 1995. 1; Integrated-Optics Directional Couplers for Optical Coherence Tomography (Chapter 4), D.V. Nguyen, Dissertation, UVA-DARE, 2013. 1; International Search Report dated Apr. 15, 2016. 1; K. Hara et al., 'Optical flip-flop based on parallel-connected AIGaAs/GaAs pnpn structures', In: Optics letters, Jul. 1, 1990, vol. 15, Issue 13, pp. 749-751. 1; U.S. Appl. No. 08/949,504, Geoff W. Taylor, filed Oct. 19, 1997. 1; U.S. Appl. No. 09/710,217, Geoff W. Taylor, filed Nov. 11, 2000. 1
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