Patents by Inventor Philippe Gorisse
Philippe Gorisse 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: 9379667Abstract: A switch mode power supply converter and a parallel amplifier are disclosed. The switch mode power supply converter is coupled to a modulated power supply output and the parallel amplifier has a parallel amplifier output coupled to the modulated power supply output. Further, the parallel amplifier has a group of output stages, such that each output stage is directly coupled to the parallel amplifier output and each output stage receives a separate supply voltage.Type: GrantFiled: November 5, 2013Date of Patent: June 28, 2016Assignee: RF Micro Devices, Inc.Inventors: Nadim Khlat, Michael R. Kay, Philippe Gorisse
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Patent number: 9362818Abstract: A charge pump includes an input, an output, and a fixed voltage node; a first capacitor and at least a second capacitor; and a plurality of switches adapted to selectively couple the first capacitor and the at least the second capacitor to the input, the output, and the fixed voltage node. A switch controller is adapted to switch the plurality of switches in response to at least three phase signals to provide fixed gains. A phase generator is adapted to generate the at least three phase signals, wherein at least one of the at least three phase signals has a duty cycle that is different from at least one other of the at least three phase signals. The phase generator is also adapted to adjust the frequency of a clock signal used to generate the at least three phase signals so that a minimum switching frequency is provided.Type: GrantFiled: January 26, 2011Date of Patent: June 7, 2016Assignee: RF Micro Devices, Inc.Inventors: Philippe Gorisse, Nadim Khlat
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Patent number: 9298198Abstract: A direct current (DC)-DC converter, which includes a parallel amplifier, a radio frequency (RF) trap, and a switching supply, is disclosed. The switching supply includes switching circuitry and a first inductive element. The parallel amplifier has a feedback input and a parallel amplifier output. The switching circuitry has a switching circuitry output. The first inductive element is coupled between the switching circuitry output and the feedback input. The RF trap is coupled between the parallel amplifier output and a ground.Type: GrantFiled: December 27, 2012Date of Patent: March 29, 2016Assignee: RF Micro Devices, Inc.Inventors: Michael R. Kay, Philippe Gorisse, Nadim Khlat, Andrew F. Folkmann, Manbir Singh Nag, Jean-Frederic Chiron
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Publication number: 20160056705Abstract: A direct current (DC) voltage converter configured to transition between operation modes is disclosed. A voltage selection circuitry is provided in a DC voltage conversion circuit to control a buck-boost converter that generates a DC output voltage. As opposed to conventional methods of switching the buck-boost converter between a buck mode and a boost mode based on a single switching threshold, the voltage selection circuitry is configured to switch the buck-boost converter between the buck mode and the boost mode based on multiple voltage thresholds. Each of the multiple voltage thresholds defines a respective range for the DC output voltage. By controlling the buck-boost converter based on multiple voltage thresholds, it is possible to provide a smoother transition between the buck mode and the boost mode, thus reducing voltage errors in the DC output voltage and improving reliability of the DC voltage conversion circuit.Type: ApplicationFiled: August 20, 2015Publication date: February 25, 2016Inventors: Mohammad Ahsanul Adeeb, Philippe Gorisse, Nadim Khlat, Michael R. Kay
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Patent number: 9225231Abstract: A direct current (DC)-DC converter, which includes an open loop ripple cancellation circuit, a switching supply, and a parallel amplifier, is disclosed. During a calibration mode, the parallel amplifier provides a parallel amplifier output current to regulate a power supply output voltage based on a calibration setpoint. The switching supply drives the parallel amplifier output current toward zero using a switching control signal, such that during the calibration mode, an estimate of a current gain is based on the switching control signal. Further, during the calibration mode, the open loop ripple cancellation circuit is disabled. During a normal operation mode, the open loop ripple cancellation circuit provides a ripple cancellation current, which is based on the estimate of the current gain.Type: GrantFiled: September 16, 2013Date of Patent: December 29, 2015Assignee: RF Micro Devices, Inc.Inventors: Philippe Gorisse, Nadim Khlat, Christopher Truong Ngo
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Patent number: 9159516Abstract: The present disclosure provides a system and method for controlling positioning of a movable member of a MEMS microactuator to reduce bouncing and ringing. The system includes control circuitry in communication with the MEMS microactuator. The control circuitry is adapted to linearly increase an actuation signal from a first state to a second state to urge the movable member from a first position to a second position and hold the movable member in the second position. The control circuitry is further adapted to linearly decrease the actuation signal from the second state to the first state to release the movable member to the first position. A transition time is not less than the inverse of one quarter of a natural frequency of the movable member as the movable member moves to the first position.Type: GrantFiled: December 6, 2011Date of Patent: October 13, 2015Assignee: RF Mirco Devices, Inc.Inventors: Jonathan Hale Hammond, Philippe Gorisse
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Patent number: 9024688Abstract: A direct current (DC)-DC converter, which includes switching circuitry, a first parallel amplifier, and a second parallel amplifier, is disclosed. The switching circuitry has a switching circuitry output. The first parallel amplifier has a first feedback input and a first parallel amplifier output. The second parallel amplifier has a second feedback input and a second parallel amplifier output. A first inductive element is coupled between the switching circuitry output and the first feedback input. A second inductive element is coupled between the first feedback input and the second feedback input.Type: GrantFiled: March 1, 2013Date of Patent: May 5, 2015Assignee: RF Micro Devices, Inc.Inventors: Michael R. Kay, Andrew F. Folkmann, Nadim Khlat, Philippe Gorisse
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Patent number: 8981848Abstract: Programmable delay circuitry, which includes an input buffer circuit and variable delay circuitry, is disclosed. The variable delay circuitry includes an input stage, a correction start voltage circuit, and a variable delay capacitor. The input buffer circuit is coupled to the input stage, the correction start voltage circuit is coupled to the input stage, and the variable delay capacitor is coupled to the input stage. The programmable delay circuitry is configured to provide a fixed time delay and a variable time delay.Type: GrantFiled: September 10, 2013Date of Patent: March 17, 2015Assignee: RF Micro Devices, Inc.Inventors: Michael R. Kay, Philippe Gorisse, Nadim Khlat
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Patent number: 8981839Abstract: Circuitry, which includes a first switching transistor element having a first gate, a second switching transistor element having a second gate, a third switching transistor element having a third gate, and a fourth switching transistor element having a fourth gate, is disclosed. The first switching transistor element and the third switching transistor element are coupled in series between a first power source and a first downstream circuit. The second switching transistor element and the fourth switching transistor element are coupled in series between a second power source and the first downstream circuit. A voltage swing at the first gate and a voltage swing at the second gate are both about equal to a first voltage magnitude. A voltage swing at the third gate and a voltage swing at the fourth gate are both about equal to a second voltage magnitude.Type: GrantFiled: June 11, 2013Date of Patent: March 17, 2015Assignee: RF Micro Devices, Inc.Inventors: Michael R. Kay, Manbir Singh Nag, Philippe Gorisse
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Patent number: 8957728Abstract: Embodiments of circuitry, which includes an operational transconductance amplifier and a passive circuit, are disclosed. The passive circuit is coupled to the operational transconductance amplifier. Further, the passive circuit receives an input signal and the operational transconductance amplifier provides an output current, such that the passive circuit and the OTA high-pass filter and integrate the input signal to provide the output signal.Type: GrantFiled: October 9, 2012Date of Patent: February 17, 2015Assignee: RF Micro Devices, Inc.Inventor: Philippe Gorisse
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Patent number: 8947161Abstract: Circuitry, which includes a linear amplifier and a linear amplifier power supply, is disclosed. The linear amplifier at least partially provides an envelope power supply signal to a radio frequency (RF) power amplifier (PA) using a selected one of a group of linear amplifier supply voltages. The linear amplifier power supply provides at least one of the group of linear amplifier supply voltages. Selection of the selected one of the group of linear amplifier supply voltages is based on a desired voltage of the envelope power supply signal.Type: GrantFiled: December 3, 2012Date of Patent: February 3, 2015Assignee: RF Micro Devices, Inc.Inventors: Nadim Khlat, Philippe Gorisse
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Patent number: 8942652Abstract: An envelope tracking power supply and transmitter control circuitry are disclosed. The transmitter control circuitry receives a first envelope power supply control signal and a second envelope power supply control signal. The envelope tracking power supply operates in one of a group of operating modes, which includes a first operating mode and a second operating mode. During both the first operating mode and the second operating mode, a first envelope power supply signal is provided to a driver stage based on the first envelope power supply control signal. During the first operating mode, a second envelope power supply signal is provided to a final stage based on the first envelope power supply control signal. However, during the second operating mode, the second envelope power supply signal is provided to the final stage based on the second envelope power supply control signal.Type: GrantFiled: September 4, 2012Date of Patent: January 27, 2015Assignee: RF Micro Devices, Inc.Inventors: Nadim Khlat, Michael R. Kay, Philippe Gorisse
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Patent number: 8878606Abstract: A direct current (DC)-DC converter, which includes a parallel amplifier and a switching supply, is disclosed. The switching supply includes switching circuitry, a first inductive element, and a second inductive element. The parallel amplifier has a feedback input and a parallel amplifier output. The switching circuitry has a switching circuitry output. The first inductive element is coupled between the switching circuitry output and the feedback input. The second inductive element is coupled between the feedback input and the parallel amplifier output.Type: GrantFiled: October 26, 2012Date of Patent: November 4, 2014Assignee: RF Micro Devices, Inc.Inventors: Nadim Khlat, Michael R. Kay, Philippe Gorisse
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Publication number: 20140097895Abstract: A switch mode power supply converter and a feedback delay compensation circuit are disclosed. The switch mode power supply converter has a switching voltage output and provides a switching voltage at the switching voltage output, such that a target voltage for a power amplifier supply voltage at a power amplifier supply output is based on the switching voltage. Further, the switching voltage is based on an early indication of a change of the target voltage. The feedback delay compensation circuit provides the early indication of the change of the target voltage.Type: ApplicationFiled: December 10, 2013Publication date: April 10, 2014Applicant: RF Micro Devices, Inc.Inventors: Nadim Khlat, Michael R. Kay, Philippe Gorisse
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Publication number: 20140077787Abstract: A direct current (DC)-DC converter, which includes an open loop ripple cancellation circuit, a switching supply, and a parallel amplifier, is disclosed. During a calibration mode, the parallel amplifier provides a parallel amplifier output current to regulate a power supply output voltage based on a calibration setpoint. The switching supply drives the parallel amplifier output current toward zero using a switching control signal, such that during the calibration mode, an estimate of a current gain is based on the switching control signal. Further, during the calibration mode, the open loop ripple cancellation circuit is disabled. During a normal operation mode, the open loop ripple cancellation circuit provides a ripple cancellation current, which is based on the estimate of the current gain.Type: ApplicationFiled: September 16, 2013Publication date: March 20, 2014Applicant: RF Micro Devices, Inc.Inventors: Philippe Gorisse, Nadim Khlat, Christopher Truong Ngo
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Publication number: 20140062590Abstract: A switch mode power supply converter and a parallel amplifier are disclosed. The switch mode power supply converter is coupled to a modulated power supply output and the parallel amplifier has a parallel amplifier output coupled to the modulated power supply output. Further, the parallel amplifier has a group of output stages, such that each output stage is directly coupled to the parallel amplifier output and each output stage receives a separate supply voltage.Type: ApplicationFiled: November 5, 2013Publication date: March 6, 2014Applicant: RF Micro Devices, Inc.Inventors: Nadim Khlat, Michael R. Kay, Philippe Gorisse
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Patent number: 8633766Abstract: Embodiments disclosed in the detailed description relate to a pseudo-envelope follower power management system including a parallel amplifier and a switch mode power supply converter cooperatively coupled to generate a power supply voltage at a power supply output coupled to a linear RF power amplifier. The parallel amplifier output is in communication with the power amplifier supply output. The parallel amplifier governs operation of the switch mode power supply converter and regulates the power amplifier supply voltage base on a VRAMP signal. The parallel amplifier circuit includes an open loop high frequency compensation assist circuit that generates a high frequency ripple compensation current based on an estimate of the high frequency ripple currents contained in a ripple current of the power inductor. The high frequency ripple compensation current is injected into the parallel amplifier circuit output to cancel out high frequency ripple currents at the power amplifier supply output.Type: GrantFiled: December 9, 2011Date of Patent: January 21, 2014Assignee: RF Micro Devices, Inc.Inventors: Nadim Khlat, Michael R. Kay, Philippe Gorisse
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Publication number: 20140009200Abstract: Programmable delay circuitry, which includes an input buffer circuit and variable delay circuitry, is disclosed. The variable delay circuitry includes an input stage, a correction start voltage circuit, and a variable delay capacitor. The input buffer circuit is coupled to the input stage, the correction start voltage circuit is coupled to the input stage, and the variable delay capacitor is coupled to the input stage. The programmable delay circuitry is configured to provide a fixed time delay and a variable time delay.Type: ApplicationFiled: September 10, 2013Publication date: January 9, 2014Applicant: RF Micro Devices, Inc.Inventors: Michael R. Kay, Philippe Gorisse, Nadim Khlat
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Publication number: 20130328613Abstract: Circuitry, which includes a first switching transistor element having a first gate, a second switching transistor element having a second gate, a third switching transistor element having a third gate, and a fourth switching transistor element having a fourth gate, is disclosed. The first switching transistor element and the third switching transistor element are coupled in series between a first power source and a first downstream circuit. The second switching transistor element and the fourth switching transistor element are coupled in series between a second power source and the first downstream circuit. A voltage swing at the first gate and a voltage swing at the second gate are both about equal to a first voltage magnitude. A voltage swing at the third gate and a voltage swing at the fourth gate are both about equal to a second voltage magnitude.Type: ApplicationFiled: June 11, 2013Publication date: December 12, 2013Inventors: Michael R. Kay, Manbir Singh Nag, Philippe Gorisse
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Patent number: 8598945Abstract: A high voltage charge-pump includes a plurality of voltage boosting stages, a low voltage input, and at least one clock input. A sensing charge-pump having a voltage detector output has at least one voltage sensing stage that is communicably coupled to at least one of the plurality of voltage boosting stages. A loop filter in a feedback control loop includes a voltage detector input coupled to the voltage detector output, a voltage reference input, and a voltage error output. A voltage controlled oscillator (VCO) with a variable frequency output has a voltage error input coupled to the voltage error output. The feedback control loop also includes at least one driver having a variable frequency input coupled to the variable frequency output and at least one clock output coupled to the at least one clock input.Type: GrantFiled: May 26, 2011Date of Patent: December 3, 2013Assignee: RF Micro Devices, Inc.Inventor: Philippe Gorisse