Patents Examined by Shawn Riley
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Patent number: 8222764Abstract: Embodiments of the present invention relate to a method and device for regulating a series resonant inverter with controlled rectification. It also relates to a resonant inverter equipped with such a device. The synchronous series resonant inverter includes a primary winding having across its terminals a periodic voltage V(t) of period T, this primary winding being coupled to at least one secondary winding providing the output voltage Vs. The establishment of the current IT(t) in the secondary winding is controlled within the period T. The output voltage Vs is regulated as a function of the phase shift angle ? between the zero crossing of the voltage V(t) across the terminals of the primary winding and the instant of establishment of the current IT(t) in the secondary winding. Embodiments include the production of isolated switched power supplies having a high level of integration, operating at a switching frequency of several megahertz.Type: GrantFiled: June 22, 2007Date of Patent: July 17, 2012Assignee: ThalesInventors: Philippe Thomas, Jean-Michel Jarrousse, Eric Laboure
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Patent number: 8222875Abstract: The power supply apparatus realizes a high-speed response, a stable operation, and a low output ripple with low power consumption. The first stage switching regulator receives an input voltage and forms a first voltage. The second stage switching regulator receives the first voltage and forms a second voltage. The second stage switching regulator includes an N-phase (N is two or more) switching regulator, and the first voltage is set to be N times a target value of the second voltage. The input voltage is set to be higher than the first voltage.Type: GrantFiled: May 6, 2011Date of Patent: July 17, 2012Assignee: Renesas Electronics CorporationInventor: Ryotaro Kudo
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Patent number: 8222881Abstract: A converter (10) for converting a first DC voltage (VDD) to a second DC voltage (VOUT) includes an output stage (40) for producing the second DC voltage (VOUT) in response to both the first DC voltage (VDD) and an output of an error amplifier (20). A sampling circuit (15) periodically energizes a voltage divider (R0,R1) by periodically coupling a first terminal thereof to the second DC voltage and periodically coupling an output (14) of the energized voltage divider to a feedback conductor (7) to refresh a feed back capacitor (C0) coupled between the second DC voltage and the feedback conductor. The feedback conductor is coupled to an input of the error amplifier.Type: GrantFiled: January 22, 2010Date of Patent: July 17, 2012Assignee: Texas Instruments IncorporatedInventors: Vadim V. Ivanov, Timothy V. Kaithoff
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Patent number: 8217638Abstract: A linear regulator and methods of regulation are provided. In one implementation, a linear regulator is provided. The linear regulator can receive an input voltage, generate an internal bias voltage in response to the received input voltage. The linear regulator can determine if the input voltage meets one or more first criteria and second criteria, and adjust an output voltage based on the internal bias voltage if the input voltage meets the one or more first criteria. The linear regulator also can supply the input voltage directly to the load if the input voltage meets the one or more second criteria. In some implementations, the linear regulator can generate an internal bias voltage that is clamped within a desired operating range if the input voltage meets the one or more first criteria, and adjusts one or more electronic circuits using the internal bias voltage to provide the adjusted output voltage.Type: GrantFiled: August 18, 2010Date of Patent: July 10, 2012Assignee: Marvell International Ltd.Inventors: Ying Tian Li, Sakti P. Rana, Kuong Hoo, legal representative
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Patent number: 8212536Abstract: Embodiments for at least one method and apparatus of generating a regulated voltage are disclosed. One method includes generating the regulated voltage though controlled closing and opening of a series switch element and shunt switch element, the series switch element being connected between a first voltage supply and a common node, and the shunt switch being connected between the common node and a second supply voltage. The series switch element includes an NMOS series switching transistor stacked with an NMOS series protection transistor, and closing the series switch element during a first period includes applying a switching gate voltage to a gate of the NMOS series switch transistor of the series switch element, wherein the switching gate voltage has a voltage potential of at least a threshold voltage greater than a voltage potential of the common node.Type: GrantFiled: December 23, 2009Date of Patent: July 3, 2012Assignee: R2 Semiconductor, Inc.Inventors: Lawrence M. Burns, David Fisher
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Patent number: 8213192Abstract: A switching voltage regulator samples signals corresponding to a flyback voltage on an auxiliary winding on a primary side of the switching voltage regulator. The flyback voltage functions as feedback from the output voltage on the secondary side. On detection of presence of the flyback voltage, samples corresponding to the flyback voltage are stored until the flyback voltage falls below a threshold voltage. A history of N samples of the flyback voltage is thus maintained. A sample older than the most recently stored sample is used to generate control for generation of the output voltage of the switching voltage regulator. Use of the older sample ensures that the flyback voltage sample used is one that is close to, but before the current in the secondary winding goes to zero.Type: GrantFiled: December 30, 2009Date of Patent: July 3, 2012Assignee: Silicon Laboratories Inc.Inventors: Pavel Konecny, Yeshoda Yedevelly
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Patent number: 8212539Abstract: The present invention includes: an input voltage detector detecting an input voltage of a parallel converter and outputting an input voltage signal; an output voltage detector detecting an output voltage of the parallel converter; and a controller. The controller includes an error amplifier comparing the output voltage signal and a reference voltage and outputting an error amplification signal; an arithmetic operator generating an ON time signal and an OFF time signal based on the input and output voltage signals and the error amplification signal; a phase signal generator generating plural phase signals having different phases based on the ON and OFF time signals and the error amplification signal; a pulse generator generating plural pulse-train signals synchronized with the respective phase signals based on the ON time signal, the error amplification signal and the phase signals; and a driver driving the switching units in accordance with the pulse-train signals.Type: GrantFiled: February 26, 2010Date of Patent: July 3, 2012Assignee: Sanken Electric Co., Ltd.Inventor: Shohei Osaka
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Patent number: 8207714Abstract: A switching regulator integrated circuit (IC) is disclosed that includes a switch circuit that further includes a first switch and a second switch, a mode selector circuit controlled by external circuitry to select between a first mode and a second mode, and a control circuit. In response to a feedback signal from the switch circuit, when the first mode is selected, the control circuit toggles the first switch and the second switch ON and OFF alternately at a fixed first frequency. When a second mode is selected, the control circuit causes the second switch to turn OFF completely and the first switch to switch ON and OFF at a variable second frequency.Type: GrantFiled: March 5, 2010Date of Patent: June 26, 2012Assignee: Monolithic Power Systems, Inc.Inventor: Wei Chen
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Method and device for sensing a current flowing through an output inductor of a PWM driven converter
Patent number: 8199536Abstract: A device generates a signal representative of a current flowing through a load inductor of a converter, the converter having a first transformer including a primary winding driven with a pulse width modulated (PWM) voltage signal. The device may include a sense inductor magnetically coupled to the load inductor, and an integrator configured to integrate a voltage drop on the sense inductor and to generate a first signal representative of the current flowing through the load inductor with an offset. The device may further include a second transformer to be magnetically coupled to the primary winding of the first transformer and generating a second signal representative of a current flowing through the primary winding, and a peak detector configured to sample and hold a peak value of the second signal at every cycle of the PWM voltage signal.Type: GrantFiled: December 16, 2009Date of Patent: June 12, 2012Assignee: STMicroelectronics S.R.L.Inventors: Giovanni Mangraviti, Mario Di Guardo -
Patent number: 8193785Abstract: A switching regulator for regulating an ac signal, and method of supplying power thereto wherein the regulator includes a positive half cycle part and a negative half-cycle part arranged to regulate the respective parts of an input ac signal. Each half-cycle part includes a modulating transistor, having an associated modulator diode, and a clamping diode arranged to protect the modulating transistor from reverse-bias voltages and having an associated clamp switch. The regulator further has a first switching controller operable to cause the modulating transistors to switch and a second, separate switching controller operable to cause the clamp switches to switch.Type: GrantFiled: December 28, 2006Date of Patent: June 5, 2012Assignee: Microgen Engine Corporation Holding B.V.Inventor: Raymond John Peto
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Patent number: 8194417Abstract: A two-stage switching power supply includes a first-stage power circuit, a second-stage power circuit, an output detecting circuit and a power control unit. The first-stage power circuit includes a first switching circuit. By conducting or shutting off the first switching circuit, an input voltage is converted into a bus voltage. The second-stage power circuit includes a second switching circuit. By conducting or shutting off the second switching circuit, the bus voltage is converted into an output voltage. The output detecting circuit generates an output detecting signal according to the output voltage. The power control unit controls operations of the first and second switching circuits according to the output detecting signal. A first-stage voltage gain value of the first-stage power circuit and a second-stage voltage gain value of the second-stage power circuit are altered with the output detecting signal, so that the output voltage is maintained at a rated value.Type: GrantFiled: January 25, 2010Date of Patent: June 5, 2012Assignee: Delta Electronics, Inc.Inventor: Shih-Hsien Chang
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Patent number: 8194422Abstract: In one aspect, a power supply regulator includes a feedback terminal, a node, a control circuit, a first current source, and a second current source. The node is coupled to the feedback terminal to provide a feedback state signal in response to a feedback current through the feedback terminal. The feedback state signal has feedback states that represent an output of the power supply. The control circuit is to be coupled to a power switch and to receive the feedback state signal to regulate the output of the power supply. The first current source is coupled to the node to provide a first current to the node. The second current source is coupled to the node to selectively remove a second current from the node to modulate the feedback current and to alter the feedback state of the feedback state signal.Type: GrantFiled: October 6, 2010Date of Patent: June 5, 2012Assignee: Power Integrations, Inc.Inventors: Alex B. Djenguerian, Andrew J. Morrish, Arthur B. Odell, Kent Wong
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Patent number: 8189352Abstract: The present invention concerns a single stage inverter device for power converters, comprising switching means (M1-M4) capable to periodically connect an energy source, in particular a photovoltaic one, to an electric network or grid, the switching means (M1-M4) being controlled by controlling electronic means operating according to a single switching cycle control of the switching means (M1-M4), the operative and circuit device parameters being such to fulfill a series of constraints simultaneously optimizing both the maximum power point tracking or MPPT (Maximum Power Point Tracking) and the output power factor or PF-out (Power Factor-output) for one or more operation conditions. The present invention further concerns the related method of controlling and the related method of scaling such device.Type: GrantFiled: December 20, 2005Date of Patent: May 29, 2012Assignee: Universita' Degli Studi di SalernoInventors: Luigi Egiziano, Nicola Femia, Domenico Granozio, Giovanni Petrone, Giovanni Spagnuolo, Massimo Vitelli
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Patent number: 8188725Abstract: A voltage regulator (10) comprises a first transistor (13) which couples an input terminal (11) of the voltage regulator (10) to an output terminal (12) of the voltage regulator (10) and a second transistor (16). The first and the second transistors (13, 16) form a current mirror structure. Further on, the voltage regulator (10) comprises a control node (17) which is coupled to the input terminal (11) of the voltage regulator (10) via the second transistor (16) and which is coupled to the output terminal (12) of the voltage regulator (10) via a feedback circuit (28). Furthermore, the voltage regulator (10) comprises an amplifier (22) with an input terminal (23) which is coupled to the control node (17) and an output terminal (24) which is coupled to a control terminal (21) of the second transistor (16).Type: GrantFiled: August 25, 2008Date of Patent: May 29, 2012Assignee: austriamicrosystems AGInventors: Paolo Draghi, Andrea Pierin
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Patent number: 8178996Abstract: As a result of a path being connected to an input terminal to allow a first intermediate voltage from a power-side regulator or another external source that does not pass through the power-side regulator to be selectively inputted into any supply-side regulator, a supply voltage can be generated based on the inputted voltage. Therefore, as a result of the relevant supply-side regulator being connected to a path by which the other external source is inputted, a supply voltage having a voltage value differing from that when the first intermediate voltage is inputted can be generated. As a result of the voltage inputted into the supply-side regulator being changed, only the voltage value of the supply voltage generated by the supply-side regulator is changed. Therefore, the variation of the voltage value of the supply voltage that can be provided by a power supply unit can be changed.Type: GrantFiled: August 4, 2009Date of Patent: May 15, 2012Assignee: Denso CorporationInventors: Ryotaro Kuno, Toru Itabashi
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Patent number: 8179106Abstract: A synchronous-rectifier type DC-DC converter includes a high-side main switch element, a low-side rectifying switch element, and a control drive circuit. The rectifying switch element includes a rectifying transistor element and a rectifying diode element connected in antiparallel with the rectifying transistor element. The control drive circuit detects an input voltage to the main switch element and determines the input voltage or a rate of increase in the input voltage. When the determined value exceeds a predetermined reference value, a complementary ON/OFF operation of the main switch element and the rectifying transistor element is released, and a state where both the main switch element and the rectifying transistor element are kept OFF for a time period that is longer than a dead-time during the complementary ON/OFF operation is set.Type: GrantFiled: September 3, 2009Date of Patent: May 15, 2012Assignee: Denso CorporationInventors: Norihito Tokura, Hisato Kato, Norikazu Kanatake, Masakiyo Horie
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Patent number: 8179105Abstract: A power converter can include a high-side switch coupled to a power supply terminal and selectively coupled to ground via a conduction path. During an on state duration, the high-side switch can be enabled and the conduction path can be disabled. During an off state duration, the high-side switch can be disabled and the conduction path can be enabled. During a skip state duration, the high-side switch and the conduction path both can be disabled. A controller coupled to the high-side switch can control the on state duration and the skip state duration based on a current reference. The controller can further generate a first control signal for controlling the high-side switch and the conduction path according to the on state duration and the skip state duration, and adjust an output current of the power converter to the current reference according to the first control signal.Type: GrantFiled: May 5, 2009Date of Patent: May 15, 2012Assignee: O2Micro, IncInventor: Laszlo Lipcsei
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Patent number: 8179116Abstract: An embodiment of an inductor assembly includes a core, a first conductor, and a second conductor. The core includes first and second members, a first group of one or more forms extending between the members, a second group of one or more forms extending between the members, and an isolating region that magnetically isolates the first group of forms from the second group of forms. The first conductor is wound about a first one of the forms in the first group, and the second conductor is wound about a second one of the forms in the second group. Such an inductor assembly may allow both coupled and uncoupled inductors to be disposed on a common core, thus potentially reducing the cost and size of the inductors as compared to the coupled inductors being disposed on one core and the uncoupled inductors being disposed on another core.Type: GrantFiled: June 9, 2008Date of Patent: May 15, 2012Assignee: Intersil Americas LLCInventors: Jia Wei, Michael Jason Houston
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Patent number: 8169200Abstract: A power converter and method of controlling a power switch therein to improve power conversion efficiency at low output current. In one embodiment, the power converter includes a first power switch coupled to a source of electrical power and a second power switch coupled to the first power switch and to an output terminal of the power converter. The power converter also includes a controller configured to alternately enable conduction of the first and the second power switches with a duty cycle in response to an output characteristic of the power converter. The controller is configured to control a level of current in the first power switch when the second power switch is substantially disabled to conduct.Type: GrantFiled: March 5, 2010Date of Patent: May 1, 2012Assignee: Enpirion, Inc.Inventors: Douglas D. Lopata, Ashraf W. Lotfi
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Patent number: 8164927Abstract: The present invention relates to a switch control device and a switch control method. The present invention controls a switching operation of a power switch that controls output power of a switching mode power supply (SMPS). The present invention generates an operation current corresponding to an input voltage of the SMPS and counts a compensation period in which a power supply voltage generated by the operation current increases from a predetermined counter low-reference voltage to a predetermined counter high-reference voltage. The present invention generates a compensation feedback current depending on the count result, generates a total feedback current by summing a main feedback current having a predetermined value and the compensation feedback current, and generates a power limit current of which a maximum value increases and decreases depending on the total feedback current. Turn-off of the power switch is determined by comparing the current flowing on the power switch with the power limit current.Type: GrantFiled: December 3, 2009Date of Patent: April 24, 2012Assignee: Fairchild Korea Semiconductor Ltd.Inventors: Sang-Cheol Moon, Young-Bae Park