Patents Assigned to Volterra Semiconductor Corporation
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Patent number: 9013259Abstract: A multi-phase coupled inductor includes a magnetic core formed of a powder magnetic material and first, second, third, and fourth terminals. The coupled inductor further includes a first winding forming at least one turn and at least partially embedded in the core and a second winding forming at least one turn and 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: May 24, 2010Date of Patent: April 21, 2015Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8975995Abstract: A coupled inductor includes a ladder magnetic core, a first common leakage plate formed of a magnetic material, and N windings, where N is an integer greater than one. The ladder magnetic core includes first and second rails and N rungs, where each of the N rungs connects the first and second rails. Each of the N windings includes a respective first portion. Each of the N windings is wound around a respective one of the N rungs, and at least two of the N windings are wrapped at least partially around the first common leakage plate such that a first portion of the winding is disposed between an outer surface of the first rail and an outer surface of the first common leakage plate.Type: GrantFiled: August 29, 2012Date of Patent: March 10, 2015Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8969158Abstract: A method of fabricating a vertical gate region in LDMOS transistor includes depositing a first masking layer on an n-well region implanted on a substrate, patterning the first masking layer to define an area, depositing a second masking layer over the area, etching through the second masking layer in a first portion of the area to expose the n-well region, and etching the exposed n-well region to form a first trench. The first trench, extending from a surface of the n-well region to a first depth, is filled with an oxide. The second masking layer is etched through in a second portion of the area to expose the n-well region. A second trench is formed in the n-well, the second trench extending from the surface to a second depth, less than the first depth. An asymmetric vertical gate is formed by filling the second trench with a conductive material.Type: GrantFiled: January 28, 2014Date of Patent: March 3, 2015Assignee: Volterra Semiconductor CorporationInventors: Marco A. Zuniga, Yang Lu, Badredin Fatemizadeh, Jayasimha Prasad, Amit Paul, Jun Ruan
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Patent number: 8952776Abstract: 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: May 13, 2011Date of Patent: February 10, 2015Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8946937Abstract: An integrated circuit chip includes a first input port, a first output port, and first and second transistors electrically coupled in series across the first input port. The second transistor is also electrically coupled across the first output port and is adapted to provide a path for current flowing through the first output port when the first transistor is in its non-conductive state. The integrated circuit chip additionally includes first driver circuitry for driving gates of the first and second transistors to cause the transistors to switch between their conductive and non-conductive states. The integrated circuit chip further includes first controller circuitry for controlling the first driver circuitry such that the first and second transistors switch between their conductive and non-conductive states to at least substantially maximize an amount of electric power extracted from an electric power source electrically coupled to the first input port.Type: GrantFiled: August 17, 2011Date of Patent: February 3, 2015Assignee: Volterra Semiconductor CorporationInventors: Anthony J. Stratakos, Michael D. McJimsey, Ilija Jergovic, Alexandr Ikriannikov, Artin Der Minassians, Kaiwei Yao, David B. Lidsky, Marco A. Zuniga, Ana Borisavljevic
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Patent number: 8872384Abstract: An electric power system includes N electric power sources and N switching circuits, where N in an integer greater than one. Each switching circuit includes an input port electrically coupled to a respective one of the N electric power sources, an output port, and a first switching device adapted to switch between its conductive and non-conductive states to transfer power from the input port to the output port. The output ports of the N switching circuits are electrically coupled in series and to a load to establish an output circuit. Each of the N switching circuits uses an interconnection inductance of the output circuit as a primary energy storage inductance of the switching circuit.Type: GrantFiled: August 17, 2011Date of Patent: October 28, 2014Assignee: Volterra Semiconductor CorporationInventors: Anthony J. Stratakos, Michael D. McJimsey, Ilija Jergovic, Alexandr Ikriannikov, Artin Der Minassians, Kaiwei Yao, David B. Lidsky, Marco A. Zuniga, Ana Borisavljevic
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Patent number: 8847722Abstract: Methods and structures for constructing a magnetic core of a coupled inductor. The method provides for constructing N-phase coupled inductors as both single and scalable magnetic structures, where N is an integer greater than 1. The method additionally describes how such a construction of the magnetic core may enhance the benefits of using the scalable N-phase coupled inductor. The first and second magnetic cores may be formed into shapes that, when coupled together, may form a single scalable magnetic core. For example, the cores can be fashioned into shapes such as a U, an I, an H, a ring, a rectangle, and a comb, that cooperatively form the single magnetic core.Type: GrantFiled: December 21, 2012Date of Patent: September 30, 2014Assignee: Volterra Semiconductor CorporationInventors: Jieli Li, Charles R. Sullivan, Anthony J. Stratakos
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Publication number: 20140266113Abstract: A voltage regulator has an input terminal and a ground terminal. The voltage regulator includes a high-side device, a low side device, and a controller. The high-side device is coupled between the input terminal and an intermediate terminal. The high-side device includes first and second transistors each coupled between the input terminal and the intermediate terminal, such that the first transistor controls a drain-source switching voltage of the second transistor. The low-side device is coupled between the intermediate terminal and the ground terminal. The controller drives the high-side and low-side devices to alternately couple the intermediate terminal to the input terminal and the ground terminal.Type: ApplicationFiled: March 14, 2014Publication date: September 18, 2014Applicant: Volterra Semiconductor CorporationInventors: Marco A. Zuniga, Chiteh Chiang, Yang Lu, Badredin Fatemizadeh, Amit Paul, Jun Ruan, Craig Cassella
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Publication number: 20140266086Abstract: A coupled inductor includes a ladder magnetic core including two opposing rails extending in a lengthwise direction and joined by a plurality of rungs. The coupled inductor further includes a respective winding wound around each of the plurality of rungs. The plurality of rungs are divided into at least two groups of rungs, and a lengthwise separation distance between adjacent rungs in each group of rungs is less than a lengthwise separation distance between adjacent rungs of different groups of rungs.Type: ApplicationFiled: March 13, 2013Publication date: September 18, 2014Applicant: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Publication number: 20140266091Abstract: This document describes systems and techniques related to voltage regulators. The subject matter of this document can be embodied in a method that includes measuring an output current of a switching regulator. The switching regulator includes a high-side transistor and a low side-transistor wherein the high-side transistor and the low-side transistor are driven using a first gate voltage and a second, different gate voltage, respectively. The method also includes adjusting a direct-current (DC) voltage source of the switching regulator such that the first gate voltage is adjusted in accordance with the measured output current.Type: ApplicationFiled: March 14, 2013Publication date: September 18, 2014Applicant: Volterra Semiconductor CorporationInventors: Marco A. Zuniga, Chiteh Chiang, William Numann, Yang Lu, Jun Ruan
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Publication number: 20140266130Abstract: The subject matter of this document can be embodied in a method that includes a voltage regulator having an input terminal and an output terminal. The voltage regulator includes a high-side transistor between the input terminal and an intermediate terminal, and a low-side transistor between the intermediate terminal and ground. The voltage regulator includes a low-side driver circuit including a capacitor and an inverter. The output of the inverter is connected to the gate of the low-side transistor. The voltage regulator also includes a controller that drives the high-side and low-side transistors to alternately couple the intermediate terminal to the input terminal and ground. The controller is configured to drive the low-side transistor by controlling the inverter. The voltage regulator further includes a switch coupled to the low-side driver circuit. The switch is configured to block charge leakage out of the capacitor during an off state of the low-side transistor.Type: ApplicationFiled: March 14, 2013Publication date: September 18, 2014Applicant: VOLTERRA SEMICONDUCTOR CORPORATIONInventors: Chiteh Chiang, Marco A. Zuniga, Yang Lu
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Patent number: 8836461Abstract: 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: March 10, 2013Date of Patent: September 16, 2014Assignee: Volterra Semiconductor CorporationInventors: Jieli Li, Charles R. Sullivan, Angel Gentchev
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Patent number: 8836463Abstract: Single phase inductors have non-linear inductance values, and M-phase coupled inductors having non-linear leakage inductance values. Each inductor includes, for example, at least one of the following: a saturable magnetic element, a gap of non-uniform thickness, a core formed of a distributed gap material, or a non-homogeneous core. A DC-to-DC converter includes an inductor having a non-linear inductance value, a switching subsystem, and an output filer. Another DC-to-DC converter includes an output filter, a coupled inductor having non-linear leakage inductance values, and switching subsystems.Type: GrantFiled: March 16, 2009Date of Patent: September 16, 2014Assignee: Volterra Semiconductor CorporationInventors: Alexandr Ikriannikov, Ognjen Djekic
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Patent number: 8829866Abstract: DC to DC converters are described that include two converters interconnected and operated to mitigate at least some of the effects of low duty cycle operation.Type: GrantFiled: December 14, 2011Date of Patent: September 9, 2014Assignee: Volterra Semiconductor CorporationInventor: Patrice Lethellier
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Publication number: 20140247104Abstract: 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: ApplicationFiled: May 13, 2014Publication date: September 4, 2014Applicant: Volterra Semiconductor CorporationInventors: Jieli Li, Charles R. Sullivan, Angel Gentchev
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Patent number: 8816811Abstract: 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: January 8, 2014Date of Patent: August 26, 2014Assignee: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8785282Abstract: A method of making a transistor includes etching a first side of a gate, the gate including an oxide layer formed over a substrate and a conductive material formed over the oxide layer, the etching removing a first portion of the conductive material, implanting an impurity region into the substrate such that the impurity region is self-aligned, and etching a second side of the gate to remove a second portion of the conductive material.Type: GrantFiled: December 2, 2013Date of Patent: July 22, 2014Assignee: Volterra Semiconductor CorporationInventor: Marco A. Zuniga
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Patent number: 8786395Abstract: 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: March 10, 2013Date of Patent: July 22, 2014Assignee: Volterra Semiconductor CorporationInventors: Jieli Li, Charles R. Sullivan, Angel Gentchev
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Publication number: 20140198461Abstract: 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: March 17, 2014Publication date: July 17, 2014Applicant: Volterra Semiconductor CorporationInventor: Alexandr Ikriannikov
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Patent number: 8779885Abstract: 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: March 10, 2013Date of Patent: July 15, 2014Assignee: Volterra Semiconductor CorporationInventors: Jieli Li, Charles R. Sullivan, Angel Gentchev