Patents by Inventor Chryssoula Kyriazidou
Chryssoula Kyriazidou has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20130201072Abstract: A tunable projected artificial magnetic minor (PAMM) includes a plurality of artificial magnetic minor (AMM) cells and a control module. The AMM cells collectively produce an artificial magnetic conductor (AMC) having a geometric shape a distance from a surface of the tunable PAMM for an electromagnetic signal in a given frequency range. The control module is operably coupled to the plurality of AMM cells and provides control information to one or more of the AMM cells to tune at least one of the geometric shape of the AMC and the distance of the AMC from the surface of the tunable PAMM.Type: ApplicationFiled: August 30, 2012Publication date: August 8, 2013Applicant: BROADCOM CORPORATIONInventors: Nicolaos G. Alexopoulos, Alfred Grau Besoli, Chryssoula Kyriazidou
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Publication number: 20130200947Abstract: A programmable antenna includes a substrate, metallic inclusions, bidirectional coupling circuits, and a control module. The metallic inclusions are embedded within a region of the substrate. The bidirectional coupling circuits are physically distributed within the region and are physically proximal to the metallic inclusions. The control module activates a set of bidirectional coupling circuits, which, when active, the set of interconnects a set of metallic inclusions to provide a conductive area within the region. The conductive area functions an antenna.Type: ApplicationFiled: August 30, 2012Publication date: August 8, 2013Applicant: BROADCOM CORPORATIONInventors: Nicolaos G. Alexopoulos, Alfred Grau Besoli, Chryssoula Kyriazidou
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Publication number: 20130201068Abstract: An antenna circuit includes a substrate, an antenna, and a projected artificial magnetic minor (PAMM). The antenna is fabricated on the substrate and is positioned in a region of the substrate that has a high permittivity. The PAMM produces an artificial magnetic conductor at a distance above a surface of the substrate to facilitate a radiation pattern for the antenna.Type: ApplicationFiled: August 30, 2012Publication date: August 8, 2013Applicant: BROADCOM CORPORATIONInventors: Nicolaos G. Alexopoulos, Alfred Grau Besoli, Chryssoula Kyriazidou
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Publication number: 20130113673Abstract: Embodiments include antenna systems capable of producing high quality circularly, elliptically, or linearly polarized radiation. Embodiments include single feed (single-ended or differential) or multiple feed antennas. Embodiments can be electronically configured to adjust the type of polarization of the antenna system. In an embodiment, the polarization of the antenna system is adjusted by adjusting at least the position of a grounding node relative to the position of a feed node. In another embodiment, the polarization of the antenna system is adjusted by configuring one or more input nodes of the antenna between feed nodes, grounding nodes, and open nodes. In another embodiment, the polarization of the antenna system is adjusted by adjusting the phase of a single differential feed of the system.Type: ApplicationFiled: January 30, 2012Publication date: May 9, 2013Inventor: Chryssoula A. KYRIAZIDOU
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Publication number: 20130113668Abstract: Embodiments provide systems for focusing and defocusing an antenna. The antenna may be a printed antenna, such as a patch antenna, for example, and may include a single element antenna or a multi-element antenna array. Embodiments include a focusing/defocusing structure, including a plurality of metal rings that form a multi-layer structure, peripheral to the antenna. In an embodiment, the focusing structure is designed to have a horn configuration, with the metal rings having progressively increasing respective widths in the direction away from the antenna. As a result, the forward gain of the antenna element is enhanced. The focusing/defocusing structure may be integrated within the chip on which antenna is mounted. In other embodiments, the focusing structure is built into the chip package, or built as a micro-electro-mechanical system (MEMS)-like structure on Silicon.Type: ApplicationFiled: January 30, 2012Publication date: May 9, 2013Inventor: Chryssoula A. KYRIAZIDOU
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Publication number: 20110248180Abstract: A projected artificial magnetic mirror (PAMM) waveguide includes a substrate, metal patches, a metal backing, multiple dielectric materials, and a waveguide area. The metal patches are on a first layer of a substrate and the metal backing is on a second layer of the substrate. The first dielectric material is between the first and second layers of the substrate. The metal patches are electrically coupled to the metal backing to form an inductive-capacitive network that substantially reduces surface waves along a surface of the substrate within a given frequency band. The second dielectric material juxtaposed to the metal patches, where the waveguide area is between the second and third dielectric materials and includes the surface of the substrate. The inductive-capacitive network, the second dielectric material, and/or the third dielectric material facilitate confining an electromagnetic signal within the waveguide area.Type: ApplicationFiled: February 28, 2011Publication date: October 13, 2011Applicant: BROADCOM CORPORATIONInventors: Nicolaos G. Alexopoulos, Chryssoula A. Kyriazidou
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Publication number: 20110248798Abstract: A projected artificial magnetic mirror (PAMM) includes conductive coils, a metal backing, and a dielectric material. The conductive coils are arranged in an array on a first layer of a substrate and the metal backing is on a second layer of the substrate. The dielectric material is between the first and second layers of the substrate. The conductive coils are electrically coupled to the metal backing to form an inductive-capacitive network that, for a third layer of the substrate and within a given frequency band, substantially reduces surface waves along the third layer.Type: ApplicationFiled: February 25, 2011Publication date: October 13, 2011Applicant: BROADCOM CORPORATIONInventors: Nicolaos G. Alexopoulos, Chryssoula A. Kyriazidou
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Publication number: 20110248901Abstract: A multiple frequency projected artificial magnetic mirror (PAMM) includes a plurality of metal traces, a metal backing, and a dielectric material. The plurality of metal traces is on one or more layers of a substrate and the metal backing is on another layer of the substrate. The dielectric material is between the metal backing and the plurality of metal traces, which is electrically coupled to the metal backing. At least some of the plurality of metal traces is of various sizes and of various positioning and spacing to create a distributed inductor-capacitor network having a first frequency band of operation and a second frequency band of operation.Type: ApplicationFiled: February 28, 2011Publication date: October 13, 2011Applicant: BROADCOM CORPORATIONInventors: Nicolaos G. Alexopoulos, Chryssoula A. Kyriazidou
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Publication number: 20110250838Abstract: A communication device includes a processing module, a transmitter section, a receiver section, a wireless communication structure, a projected artificial magnetic mirror (PAMM) array, and a metal backing. The transmitter section and the receiver section are on a first layer. The wireless communication structure is on a second layer, the PAMM array is on a third layer, and the metal backing is on a fourth layer. The PAMM array includes a non-conductive area to support coupling of the wireless communication structure to at least one of the transmitter section and the receiver section. In addition, the PAMM array provides electromagnetic shielding of the at least one of the transmitter section and the receiver section from the wireless communication structure.Type: ApplicationFiled: February 28, 2011Publication date: October 13, 2011Applicant: BROADCOM CORPORATIONInventors: Nicolaos G. Alexopoulos, Chryssoula A. Kyriazidou
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Publication number: 20110248897Abstract: A flat dish antenna includes a plurality of concentric coils, a plurality of eccentric coils, a metal backing, a dielectric material, and an antenna structure. The pluralities of concentric coils and eccentric coils are on a layer of a substrate. A concentric coil has a radiation pattern that is substantially normal to a plane of the concentric coil and an eccentric coil has a radiation pattern that's is offset from normal to a plane of the eccentric coil. The metal backing is on another layer of the substrate and the dielectric material is between the layer and the other layer of the substrate. The concentric coils and the eccentric coils are electrically coupled to the metal backing to produce a distributed inductor-capacitor networking that provides a focal point based on a combination of their radiation patterns. The antenna structure is located proximal to the focal point.Type: ApplicationFiled: February 28, 2011Publication date: October 13, 2011Applicant: BROADCOM CORPORATIONInventors: Nicolaos G. Alexopoulos, Chryssoula A. Kyriazidou
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Patent number: 8018375Abstract: A projected artificial magnetic mirror (PAMM) radar device includes a transceiver module, a shaping module, and an antenna structure. The antenna structure includes a plurality of metal patches, a metal backing, a dielectric material, and one or more antennas. The metal patches are electrically coupled to the metal backing to form an inductive-capacitive network that, for the one or more antennas and within a given frequency band, substantially reduces surface waves to obtain a detectable angle of incidence of approximately ninety degrees.Type: GrantFiled: February 28, 2011Date of Patent: September 13, 2011Assignee: Broadcom CorporationInventors: Nicolaos G. Alexopoulos, Chryssoula A. Kyriazidou
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Patent number: 7555278Abstract: An unconditionally stable on-chip filter includes a filtering section and at least one negative resistance module. The filtering section is operably coupled to filter a signal and includes realizable integrated circuit passive components. The at least one negative resistance module is operably coupled to compensate for integrated circuit losses of the filtering section. The realizable integrated circuit passive components have values that are robust, in comparison to parasitic values, have minimal integrated circuit real estate, and provide realizable values for various integrated circuit manufacturing processes including CMOS technology.Type: GrantFiled: July 15, 2005Date of Patent: June 30, 2009Assignee: Broadcom CorporationInventors: Harry Contopanagos, Chryssoula Kyriazidou, Jacob Rael, Ahmadreza Rofougaran
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Patent number: 7116202Abstract: An inductor circuit includes a magnetic interface generator that generates a magnetic interface at a center frequency f0. The magnetic interface generator is a passive array of spirals that are deposited on one layer of a multi-layer substrate. The magnetic interface is generated in a plane at a distance Z above the surface of the substrate layer that it is printed on, where the antenna is printed on a second layer of the multi-layer substrate. The distance Z where the magnetic interface is created is determined by the cell size of the spiral array, where the cell size is based on the spiral arm length and the spacing S between the spirals. The center frequency of the magnetic interface is determined by the average track length DAV of the spirals in the spiral array. The spacing S of the spiral array is chosen to project the magnetic interface to the second layer in the multi-layer substrate so as to effect performance of an inductor that printed on the second layer.Type: GrantFiled: January 28, 2005Date of Patent: October 3, 2006Assignee: Broadcom CorporationInventors: Nicolaos G. Alexopoulos, Harry Contopanagos, Chryssoula Kyriazidou
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Patent number: 7109947Abstract: A magnetic interface generator generates a magnetic interface at a center frequency f0. The magnetic interface generator is a passive array of spirals that are deposited on a substrate surface. The magnetic interface is generated in a plane at a distance Z above the surface of the substrate. The distance Z where the magnetic interface is created is determined by the cell size of the spiral array, where the cell size is based on the spiral arm length and the spacing S between the spirals. The center frequency of the magnetic interface is determined by the average track length DAV of the spirals in the spiral array. In embodiments, the spiral array is one sub-layer in a multi-layer substrate. The spacing S of the spiral array is chosen to project the magnetic interface to another layer in the multi-layer substrate so as to improve performance of a circuit in the plane of the magnetic interface.Type: GrantFiled: March 29, 2005Date of Patent: September 19, 2006Assignee: Broadcom CorporationInventors: Nicolaos G. Alexopoulos, Harry Contopanagos, Chryssoula Kyriazidou
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Patent number: 7091814Abstract: An on-chip differential multi-layer inductor includes a 1st partial winding on a 1st layer, a 2nd partial winding on the 1st layer, a 3rd partial winding on a 2nd layer, a 4th partial winding on the 2nd layer, and an interconnecting structure. The 1st and 2nd partial windings on the 1st layer are operably coupled to receive a differential input signal. The 3rd and 4th partial windings on the 2nd layer are each operably coupled to a center tap. The interconnecting structure couples the 1st, 2nd, 3rd and 4th partial windings such that the 1st and 3rd partial windings form a winding that is symmetrical about the center tap with a winding formed by the 2nd and 4th partial windings. By designing the on-chip differential multi-layer inductor to have a desired inductance value, a desired Q factor, and a desired operating rate, a desired resonant frequency and corresponding desired capacitance value can be determined.Type: GrantFiled: December 4, 2003Date of Patent: August 15, 2006Assignee: Broadcom CorporationInventor: Chryssoula Kyriazidou
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Publication number: 20050250467Abstract: An unconditionally stable on-chip filter includes a filtering section and at least one negative resistance module. The filtering section is operably coupled to filter a signal and includes realizable integrated circuit passive components. The at least one negative resistance module is operably coupled to compensate for integrated circuit losses of the filtering section. The realizable integrated circuit passive components have values that are robust, in comparison to parasitic values, have minimal integrated circuit real estate, and provide realizable values for various integrated circuit manufacturing processes including CMOS technology.Type: ApplicationFiled: July 15, 2005Publication date: November 10, 2005Inventors: Harry Contopanagos, Chryssoula Kyriazidou, Jacob Rael, Ahmadreza Rofougaran
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Patent number: 6944435Abstract: An unconditionally stable on-chip filter includes a filtering section and at least one negative resistance module. The filtering section is operably coupled to filter a signal and includes realizable integrated circuit passive components. The at least one negative resistance module is operably coupled to compensate for integrated circuit losses of the filtering section. The realizable integrated circuit passive components have values that are robust, in comparison to parasitic values, have minimal integrated circuit real estate, and provide realizable values for various integrated circuit manufacturing processes including CMOS technology.Type: GrantFiled: June 3, 2002Date of Patent: September 13, 2005Assignee: Broadcom, Corp.Inventors: Harry Contopanagos, Chryssoula Kyriazidou, Jacob Rael, Ahmadreza Rofougaran
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Publication number: 20050168314Abstract: A magnetic interface generator generates a magnetic interface at a center frequency f0. The magnetic interface generator is a passive array of spirals that are deposited on a substrate surface. The magnetic interface is generated in a plane at a distance Z above the surface of the substrate. The distance Z where the magnetic interface is created is determined by the cell size of the spiral array, where the cell size is based on the spiral arm length and the spacing S between the spirals. The center frequency of the magnetic interface is determined by the average track length DAV of the spirals in the spiral array. In embodiments, the spiral array is one sub-layer in a multi-layer substrate. The spacing S of the spiral array is chosen to project the magnetic interface to another layer in the multi-layer substrate so as to improve performance of a circuit in the plane of the magnetic interface.Type: ApplicationFiled: March 29, 2005Publication date: August 4, 2005Applicant: Broadcom CorporationInventors: Nicolaos Alexopoulos, Harry Contopanagos, Chryssoula Kyriazidou
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Publication number: 20050162315Abstract: An antenna includes a magnetic interface generator that generates a magnetic interface at a center frequency f0. The magnetic interface generator is a passive array of spirals that are deposited on one layer of a multi-layer substrate. The magnetic interface is generated in a plane at a distance Z above the surface of the substrate layer that it is printed on, where the antenna in printed on a second layer of the multi-layer substrate. The distance Z where the magnetic interface is created is determined by the cell size of the spiral array, where the cell size is based on the spiral arm length and the spacing S between the spirals. The center frequency of the magnetic interface is determined by the average track length DAV of the spirals in the spiral array. The spacing S of the spiral array is chosen to project the magnetic interface to the second layer in the multi-layer substrate so as to improve performance of the antenna that printed on the second layer.Type: ApplicationFiled: January 28, 2005Publication date: July 28, 2005Applicant: Broadcom CorporationInventors: Nicolaos Alexopoulos, Harry Contopanagos, Chryssoula Kyriazidou
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Patent number: 6906682Abstract: A magnetic interface generator generates a magnetic interface at a center frequency f0. The magnetic interface generator is a passive array of spirals that are deposited on a substrate surface. The magnetic interface is generated in a plane at a distance Z above the surface of the substrate. The distance Z where the magnetic interface is created is determined by the cell size of the spiral array, where the cell size is based on the spiral arm length and the spacing S between the spirals. The center frequency of the magnetic interface is determined by the average track length DAV of the spirals in the spiral array. In embodiments, the spiral array is one sub-layer in a multi-layer substrate. The spacing S of the spiral array is chosen to project the magnetic interface to another layer in the multi-layer substrate so as to improve performance of a circuit in the plane of the magnetic interface.Type: GrantFiled: August 23, 2002Date of Patent: June 14, 2005Assignee: Broadcom CorporationInventors: Nicolaos G. Alexopoulos, Harry Contopanagos, Chryssoula Kyriazidou