Patents by Inventor Alexandr Ikriannikov
Alexandr Ikriannikov 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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Patent number: 8716991Abstract: A switching power converter includes a first and second switching device, an air core coupled inductor, and a controller. The air core coupled inductor includes a first winding electrically coupled to the first switching device and a second winding electrically coupled to the second switching device. The first and second windings are magnetically coupled. The controller is operable to cause the first and second switching devices to repeatedly switch between their conductive and non-conductive states at a frequency of at least 100 kilohertz to cause current through the first and second windings to repeatedly cycle, thereby providing power to an output port. The switching power converter may have a topology including, but not limited to, a buck converter topology, a boost converter topology, and a buck-boost converter topology.Type: GrantFiled: February 28, 2011Date of Patent: May 6, 2014Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Publication number: 20140118965Abstract: An inductor includes a core formed of a magnetic material and a foil winding wound at least partially around or through at least a portion of the core. A first end of the winding extends away from the core to form an extended output tongue configured and arranged to supplement or serve as a substitute for a printed circuit board foil trace. A second end of the winding forms a solder tab. At least a portion of the extended output tongue and the solder tab are formed at a same height relative to a bottom surface of the core. Another inductor includes a core formed of a magnetic material, a winding wound at least partially around or through at least a portion of the core, and a ground return conductor attached to the core. The core does not form a magnetic path loop around the ground return conductor.Type: ApplicationFiled: January 8, 2014Publication date: May 1, 2014Applicant: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8674802Abstract: A multi-winding inductor includes a first foil winding and a second foil winding. One end of the first foil winding extends from a first side of the core and wraps under the core to form a solder tab under the core. One end of the second foil winding extends from a second side of the core and wraps under the core to form another solder tab under the core. Respective portions of each solder tab are laterally adjacent under the magnetic core. A coupled inductor includes a magnetic core including a first and a second end magnetic element and a plurality of connecting magnetic elements disposed between and connecting the first and second end magnetic elements. A respective first and second single turn foil winding is wound at least partially around each connecting magnetic element. Each foil winding has two ends forming respective solder tabs.Type: GrantFiled: October 7, 2011Date of Patent: March 18, 2014Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8674798Abstract: An inductor includes a core formed of a magnetic material and a foil winding wound at least partially around or through at least a portion of the core. A first end of the winding extends away from the core to form an extended output tongue configured and arranged to supplement or serve as a substitute for a printed circuit board foil trace. A second end of the winding fauns a solder tab. At least a portion of the extended output tongue and the solder tab are formed at a same height relative to a bottom surface of the core. Another inductor includes a core formed of a magnetic material, a winding wound at least partially around or through at least a portion of the core, and a ground return conductor attached to the core. The core does not form a magnetic path loop around the ground return conductor.Type: GrantFiled: January 6, 2012Date of Patent: March 18, 2014Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8669809Abstract: A circuit includes a first input terminal for receiving a first pulsed voltage and a second input terminal for receiving a second pulsed voltage. The circuit further includes a load and an LC filter. The LC filter includes a coupled inductor pair that includes a first winding and a second winding magnetically coupled to each other. The first winding is coupled between the first input terminal and the load, and the second winding is coupled between the second input terminal and the load. A frequency of a first current flowing through the first winding is increased by the second pulsed voltage applied to the second winding.Type: GrantFiled: January 5, 2012Date of Patent: March 11, 2014Assignee: Versatile Power, Inc.Inventors: Alexandr Ikriannikov, David Hoffman, Noah A. Wilson
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Publication number: 20140062446Abstract: An electrical assembly includes a substrate, a bridge magnetic device disposed on an outer surface of the substrate, and at least one electrical component. The bridge magnetic device includes (1) a magnetic core disposed over and offset from a first portion of the outer surface of the substrate, (2) N windings wound around at least a portion of the magnetic core and electrically coupled to conductors of the substrate, where N is an integer greater than zero, and (3) a ground return conductor disposed on an outer surface of the magnetic core facing the first portion of the outer surface of the substrate. The at least one electrical component is disposed on the first portion of the outer surface of the substrate.Type: ApplicationFiled: August 29, 2012Publication date: March 6, 2014Inventor: Alexandr Ikriannikov
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Patent number: 8638187Abstract: An inductor includes a core formed of a magnetic material and a foil winding wound at least partially around or through at least a portion of the core. A first end of the winding extends away from the core to form an extended output tongue configured and arranged to supplement or serve as a substitute for a printed circuit board foil trace. A second end of the winding forms a solder tab. At least a portion of the extended output tongue and the solder tab are formed at a same height relative to a bottom surface of the core. Another inductor includes a core formed of a magnetic material, a winding wound at least partially around or through at least a portion of the core, and a ground return conductor attached to the core. The core does not form a magnetic path loop around the ground return conductor.Type: GrantFiled: November 15, 2011Date of Patent: January 28, 2014Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8547076Abstract: A control system for regulating an output voltage of a DC-DC converter having N phases, where N is an integer greater than one, includes a pulse generator and a frequency divider. The pulse generator generates a stream of fixed on-time pulses, each pulse triggered in response to current through an alternating one of the N phases falling to a threshold value. The frequency divider divides the stream of fixed on-time pulses into N phase signals for controlling the N phases. A method for regulating an output voltage of a DC-DC converter having N phases, includes the following steps: (1) generating a stream of fixed on-time pulses, each pulse triggered in response to current through an alternating one of the N phases falling to a threshold value, and (2) dividing the stream of fixed on-time pulses into N phase signals for controlling the N phases.Type: GrantFiled: March 10, 2011Date of Patent: October 1, 2013Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8487604Abstract: An asymmetrical coupled inductor includes a first and a second winding and a core. The core is formed of a magnetic material and magnetically couples together the windings. The core is configured such that a leakage inductance value of the first winding is greater than a leakage inductance value of the second winding. The coupled inductor is included, for example, in a multi-phase DC-to-DC converter. A DC-to-DC converter including a symmetrical coupled inductor includes at least one additional inductor electrically coupled in series with one or more of the coupled inductor's windings. A controller for a DC-to-DC converter including a first phase having an effective inductance value greater than an effective inductance value of a second phase is configured to shut down the second phase while the first phase remains operational during a light load operating condition.Type: GrantFiled: December 10, 2012Date of Patent: July 16, 2013Assignee: Volterra Semiconductor CorporationInventors: Alexandr Ikriannikov, Ognjen Djekic
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Publication number: 20130127434Abstract: A coupled inductor array includes a magnetic core and N windings, where N is an integer greater than one. The magnetic core has opposing first and second sides, and a linear separation distance between the first and second sides defines a length of the magnetic core. The N windings pass at least partially through the magnetic core in the lengthwise direction, and each of the N windings forms a loop in the magnetic core around a respective winding axis. Each winding axis is generally perpendicular to the lengthwise direction and parallel to but offset from each other winding axis. Each winding has opposing first and second ends extending towards at least the first and second sides of the magnetic core, respectively. One possible application of the coupled inductor array is in a multi-phase switching power converter.Type: ApplicationFiled: November 22, 2011Publication date: May 23, 2013Inventor: Alexandr Ikriannikov
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Patent number: 8416043Abstract: A multi-phase coupled inductor includes a powder core material magnetic core and first, second, third, and fourth terminals. The coupled inductor further includes a first winding at least partially embedded in the core and a second winding at least partially embedded in the core. The first winding is electrically coupled between the first and second terminals, and the second winding electrically is coupled between the third and fourth terminals. The second winding is at least partially physically separated from the first winding within the magnetic core. The multi-phase coupled inductor is, for example, used in a power supply.Type: GrantFiled: February 9, 2011Date of Patent: April 9, 2013Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8362867Abstract: A multi-winding inductor includes a first foil winding and a second foil winding. One end of the first foil winding extends from a first side of the core and wraps under the core to form a solder tab under the core. One end of the second foil winding extends from a second side of the core and wraps under the core to form another solder tab under the core. Respective portions of each solder tab are laterally adjacent under the magnetic core. A coupled inductor includes a magnetic core including a first and a second end magnetic element and a plurality of connecting magnetic elements disposed between and connecting the first and second end magnetic elements. A respective first and second single turn foil winding is wound at least partially around each connecting magnetic element. Each foil winding has two ends forming respective solder tabs.Type: GrantFiled: July 1, 2011Date of Patent: January 29, 2013Assignee: Volterra Semicanductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8330567Abstract: An asymmetrical coupled inductor includes a first and a second winding and a core. The core is formed of a magnetic material and magnetically couples together the windings. The core is configured such that a leakage inductance value of the first winding is greater than a leakage inductance value of the second winding. The coupled inductor is included, for example, in a multi-phase DC-to-DC converter. A DC-to-DC converter including a symmetrical coupled inductor includes at least one additional inductor electrically coupled in series with one or more of the coupled inductor's windings. A controller for a DC-to-DC converter including a first phase having an effective inductance value greater than an effective inductance value of a second phase is configured to shut down the second phase while the first phase remains operational during a light load operating condition.Type: GrantFiled: January 14, 2010Date of Patent: December 11, 2012Assignee: Volterra Semiconductor CorporationInventors: Alexandr Ikriannikov, Ognjen Djekic
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Publication number: 20120300500Abstract: An M-winding coupled inductor includes a first end magnetic element, a second end magnetic element, M connecting magnetic elements, and M windings. M is an integer greater than one. Each connecting magnetic element is disposed between and connects the first and second end magnetic elements. Each winding is wound at least partially around a respective one of the M connecting magnetic elements. The coupled inductor further includes at least one top magnetic element adjacent to and extending at least partially over at least two of the M connecting magnetic elements to provide a magnetic flux path between the first and second end magnetic elements. The inductor may be included in an M-phase power supply, and the power supply may at least partially power a computer processor.Type: ApplicationFiled: August 6, 2012Publication date: November 29, 2012Inventor: Alexandr Ikriannikov
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Patent number: 8299882Abstract: An inductor includes a core formed of a magnetic material and a foil winding wound at least partially around or through at least a portion of the core. A first end of the winding extends away from the core to form an extended output tongue configured and arranged to supplement or serve as a substitute for a printed circuit board foil trace. A second end of the winding forms a solder tab. At least a portion of the extended output tongue and the solder tab are formed at a same height relative to a bottom surface of the core. Another inductor includes a core formed of a magnetic material, a winding wound at least partially around or through at least a portion of the core, and a ground return conductor attached to the core. The core does not form a magnetic path loop around the ground return conductor.Type: GrantFiled: November 5, 2010Date of Patent: October 30, 2012Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8299885Abstract: An M phase coupled inductor includes a magnetic core including a first end magnetic element, a second end magnetic element, and M legs disposed between and connecting the first and second end magnetic elements. M is an integer greater than one. The coupled inductor further includes M windings, where each winding has a substantially rectangular cross section. Each one of the M windings is at least partially wound about a respective leg.Type: GrantFiled: May 13, 2011Date of Patent: October 30, 2012Assignee: Volterra Semiconductor CorporationInventors: Alexandr Ikriannikov, Anthony Stratakos, Charles R. Sullivan, Aaron M. Schultz, Jieli Li
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Patent number: 8294544Abstract: An M-phase coupled inductor including a magnetic core and M windings, where M is an integer greater than one. The magnetic core is formed of a core material, and the magnetic core includes a first outer leg forming a first gap. The first gap includes a first gap material having lower magnetic permeability than the core material. Each winding is wound at least partially around at least a portion of the magnetic core, and each winding has a respective leakage inductance. The first gap causes the leakage inductances to be greater than if the first outer leg did not form the first gap. The coupled inductor may be used in a power supply, and the power supply may be used in a computing apparatus.Type: GrantFiled: March 16, 2009Date of Patent: October 23, 2012Assignee: Volterra Semiconductor CorporationInventors: Alexandr Ikriannikov, Anthony Stratakos
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Publication number: 20120212311Abstract: Two-phase coupled inductors including a magnetic core, at least a first winding, and at least three solder tabs. Power supplies including a printed circuit board, a two-phase coupled inductor affixed to the printed circuit board, and first and second switching circuits affixed to the printed circuit board. Each of the first and second switching circuits are electrically coupled to a respective solder tab of the two-phase coupled inductor affixed to the printed circuit board.Type: ApplicationFiled: April 30, 2012Publication date: August 23, 2012Inventor: Alexandr Ikriannikov
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Patent number: 8237530Abstract: An M-winding coupled inductor includes a first end magnetic element, a second end magnetic element, M connecting magnetic elements, and M windings. M is an integer greater than one. Each connecting magnetic element is disposed between and connects the first and second end magnetic elements. Each winding is wound at least partially around a respective one of the M connecting magnetic elements. The coupled inductor further includes at least one top magnetic element adjacent to and extending at least partially over at least two of the M connecting magnetic elements to provide a magnetic flux path between the first and second end magnetic elements. The inductor may be included in an M-phase power supply, and the power supply may at least partially power a computer processor.Type: GrantFiled: July 6, 2010Date of Patent: August 7, 2012Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Publication number: 20120189028Abstract: A laser device includes a plurality of lasers that includes a first laser and a second laser. The laser device further includes a drive circuit configured to apply a pulsed current to the first laser at a first phase. The drive circuit is further configured to apply the pulsed current to the second laser at a second phase. The first phase and the second phase are different. A total voltage provided to the plurality of lasers during a period between the first and second phases is substantially smaller than a sum of individual voltages provided to the plurality of lasers, respectively, during a pulse period of the pulsed current.Type: ApplicationFiled: January 5, 2012Publication date: July 26, 2012Inventors: David Hoffman, Alexandr Ikriannikov