Patents by Inventor James Thomas Doyle

James Thomas Doyle 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).

  • Patent number: 10470309
    Abstract: An integrated circuit device, such as a system-on-a-chip (SOC) device that includes an integrated or embedded voltage regulator, comprises an integrated capacitor and an integrated inductor having a magnetic core that can be fabricated in the same process as the capacitive structure of the integrated capacitor.
    Type: Grant
    Filed: September 20, 2015
    Date of Patent: November 5, 2019
    Assignee: QUALCOMM Incorporated
    Inventors: Mete Erturk, Farsheed Mahmoudi, James Thomas Doyle, Ravindra Vaman Shenoy, Jitae Kim
  • Patent number: 10199152
    Abstract: An inductor can include a first substrate, a magnetic piece, and a conductor. The first substrate can be formed within a second substrate. The magnetic piece can be connected to a first side of the first substrate. The conductor can be formed within the second substrate, on the second substrate, or both. The conductor can have an input and an output. The conductor can be configured to surround the first substrate without being in contact with the first substrate and without being in contact with the magnetic piece.
    Type: Grant
    Filed: June 18, 2015
    Date of Patent: February 5, 2019
    Assignee: QUALCOMM Incorporated
    Inventors: Mete Erturk, Ravindra Vaman Shenoy, Kwan-yu Lai, Jitae Kim, Donald William Kidwell, Jr., Jon Bradley Lasiter, James Thomas Doyle, Omar James Bchir
  • Patent number: 10115661
    Abstract: Some novel features pertain to an inductor structure that includes a first inductor winding, a second inductor winding and a filler. The first inductor winding includes an electrically conductive material. The second inductor winding includes an electrically conductive material. The filler is laterally located between the first inductor winding and the second inductor winding. The filler is configured to provide structural coupling of the first and second inductor windings. In some implementations, the first inductor winding is laterally co-planar to the second inductor winding. In some implementations, the first inductor winding has a first spiral shape and the second inductor winding has a second spiral shape. In some implementations, the first inductor winding and the second inductor winding have an elongated circular shape. In some implementations, the filler is an epoxy.
    Type: Grant
    Filed: March 8, 2013
    Date of Patent: October 30, 2018
    Assignee: QUALCOMM Incorporated
    Inventors: James Thomas Doyle, Farsheed Mahmoudi, Amirali Shayan Arani
  • Patent number: 9891646
    Abstract: Operational mode changes in a system-on-a-chip (SoC) integrated circuit in a complex device such as a mobile phone cause spikes in current demand which can cause voltage droops that disrupt operation of the SoC. A hybrid parallel power supply capacitively couples a switching-mode power supply and a low-dropout voltage regulator in parallel to provide high efficiency and fast response times. The low-dropout voltage regulator may include a class-AB operational transconductance amplifier driving the coupling capacitor. The switching-mode power supply and the low-dropout voltage regulator can regulate their outputs to slightly difference voltage levels. This can allow the switching-mode power supply to supply most of the SoC's current demands.
    Type: Grant
    Filed: January 27, 2015
    Date of Patent: February 13, 2018
    Assignee: QUALCOMM Incorporated
    Inventors: Zhengming Fu, James Thomas Doyle, Nazanin Darbanian, Shree Krishna Pandey, Yi Cao
  • Patent number: 9843259
    Abstract: A circuit including: a three-level buck converter having: a plurality of input switches and an inductor configured to receive a voltage from the plurality of input switches, the plurality of input switches coupled with a first capacitor and configured to charge and discharge the first capacitor; a second capacitor at an output of the buck converter; and a switched capacitor at an input node of the inductor, wherein the switched capacitor is smaller than either the first capacitor or the second capacitor.
    Type: Grant
    Filed: August 26, 2016
    Date of Patent: December 12, 2017
    Assignee: QUALCOMM Incorporated
    Inventors: Chuang Zhang, James Thomas Doyle, Farsheed Mahmoudi, Amirali Shayan Arani
  • Patent number: 9793804
    Abstract: A circuit including: a control system for a three-level buck converter, the three-level buck converter including multiple input switches, each of the input switches receiving one of a plurality of different pulse width modulated signals, the control system including: a first clock signal and a second clock signal, the second clock signal being a phase-shifted version of the first clock signal; ramp generating circuitry receiving the first and second clock signals and producing first and second ramp signals, respectively, from the first and second clock signals; a first comparing circuit receiving the first ramp signal and producing a first one of the pulse width modulated signals therefrom; and a second comparing circuit receiving the second ramp signal and producing a second one of the pulse width modulated signals therefrom.
    Type: Grant
    Filed: February 24, 2015
    Date of Patent: October 17, 2017
    Assignee: QUALCOMM Incorporated
    Inventors: Chuang Zhang, James Thomas Doyle, Farsheed Mahmoudi, Amirali Shayan Arani
  • Patent number: 9785222
    Abstract: Operational mode changes in a system-on-a-chip (SoC) integrated circuit in a complex device such as a mobile phone cause spikes in current demand which can cause voltage droops that disrupt operation of the SoC. A hybrid parallel power supply connects a switching-mode power supply and a low-dropout voltage regulator in parallel to provide high efficiency and fast response times. Integration of the voltage regulator on the SoC reduces parasitic impedance be between the voltage regulator and the load to aid in reducing voltage droops. The switching-mode power supply and the low-dropout voltage regulator can regulate their outputs to slightly difference voltage levels. This can allow the switching-mode power supply to supply most of the SoC's current demands.
    Type: Grant
    Filed: December 22, 2014
    Date of Patent: October 10, 2017
    Assignee: QUALCOMM Incorporated
    Inventors: James Thomas Doyle, Zhengming Fu, Farsheed Mahmoudi, Amirali Shayan Arani, Nazanin Darbanian
  • Patent number: 9748847
    Abstract: An apparatus and method are disclosed for providing efficient operation in a feedback loop having a synchronous buck converter. The synchronous buck converter includes a plurality of individually selectable phases, where each of the phases has a plurality of individually selectable and parallel switching legs. The circuit stores information that associates multiple different load values with respective configuration settings that each define a number of phases and a number of switching legs. As the load changes, the circuit measures the load and selects an appropriate configuration setting. The circuit applies the selected configuration setting to operate the number of phases and a number of parallel switching legs in the buck converter.
    Type: Grant
    Filed: September 23, 2015
    Date of Patent: August 29, 2017
    Assignee: QUALCOMM Incorporated
    Inventors: Farsheed Mahmoudi, James Thomas Doyle, Chuang Zhang, Zhengming Fu
  • Patent number: 9654002
    Abstract: An apparatus and method are disclosed for efficiently using power at a voltage regulator, such as a synchronous buck converter. The synchronous buck converter includes a first switch and a second switch operated by a first control signal and a second control signal, respectively, where the first and second control signals have a corresponding phase difference. A logic circuit measures a duty cycle of an input pulse width modulated (PWM) signal against iterative changes of the phase difference between the first control signal and the second control signal. The logic circuit selects a phase difference corresponding to a minimum value of the PWM signal, thereby optimizing dead time at the synchronous buck converter. The logic circuit may include a Digital Pulse Width Modulator.
    Type: Grant
    Filed: October 21, 2015
    Date of Patent: May 16, 2017
    Assignee: QUALCOMM Incorporated
    Inventors: James Thomas Doyle, Farsheed Mahmoudi, Chuang Zhang, Zhengming Fu, Sassan Shahrokhinia
  • Patent number: 9641073
    Abstract: A switch-mode power supply is provided that includes a comparator for producing a pulse-width modulated (PWM) controller clock signal for controlling a power switch in the switch-mode power supply. The switch-mode power supply is configured to superimpose a DC-free version of a ramp voltage with an error voltage to produce a combined voltage. The comparator compares the combined voltage to a reference voltage to produce the PWM controller clock signal.
    Type: Grant
    Filed: September 4, 2015
    Date of Patent: May 2, 2017
    Assignee: QUALCOMM Incorporated
    Inventors: Farsheed Mahmoudi, James Thomas Doyle, Amirali Shayan
  • Publication number: 20170086295
    Abstract: An integrated circuit device, such as a system-on-a-chip (SOC) device that includes an integrated or embedded voltage regulator, comprises an integrated capacitor and an integrated inductor having a magnetic core that can be fabricated in the same process as the capacitive structure of the integrated capacitor.
    Type: Application
    Filed: September 20, 2015
    Publication date: March 23, 2017
    Inventors: Mete ERTURK, Farsheed MAHMOUDI, James Thomas DOYLE, Ravindra Vaman SHENOY, Jitae KIM
  • Publication number: 20170070141
    Abstract: A switch-mode power supply is provided that includes a comparator for producing a pulse-width modulated (PWM) controller clock signal for controlling a power switch in the switch-mode power supply. The switch-mode power supply is configured to superimpose a DC-free version of a ramp voltage with an error voltage to produce a combined voltage. The comparator compares the combined voltage to a reference voltage to produce the PWM controller clock signal.
    Type: Application
    Filed: September 4, 2015
    Publication date: March 9, 2017
    Inventors: Farsheed Mahmoudi, James Thomas Doyle, Amirali Shayan
  • Publication number: 20170052552
    Abstract: Low dropout (LDO) regulators are described herein for providing regulated voltages for multiple voltage domains. In one embodiment, a voltage regulator comprises a plurality of pass transistors, each of the plurality of pass transistors being coupled between an input supply rail and a respective one of a plurality of regulator outputs. The voltage regulator also comprises a plurality of averaging resistors configured to average a plurality of feedback voltages to generate an average feedback voltage, wherein each of the plurality of feedback voltages provides voltage feedback for a respective one of the plurality of regulator outputs. The voltage regular further comprises an amplifier having a first input coupled to the average feedback voltage, and a second input coupled to a reference voltage, wherein the amplifier is configured to drive the plurality of pass transistors in a direction that reduces a difference between the reference voltage and the average feedback voltage.
    Type: Application
    Filed: August 21, 2015
    Publication date: February 23, 2017
    Inventors: Farsheed Mahmoudi, Sassan Shahrokhinia, James Thomas Doyle
  • Publication number: 20160380543
    Abstract: A circuit including: a three-level buck converter having: a plurality of input switches and an inductor configured to receive a voltage from the plurality of input switches, the plurality of input switches coupled with a first capacitor and configured to charge and discharge the first capacitor; a second capacitor at an output of the buck converter; and a switched capacitor at an input node of the inductor, wherein the switched capacitor is smaller than either the first capacitor or the second capacitor.
    Type: Application
    Filed: August 26, 2016
    Publication date: December 29, 2016
    Inventors: Chuang Zhang, James Thomas Doyle, Farsheed Mahmoudi, Amirali Shayan Arani
  • Patent number: 9450491
    Abstract: A circuit including: a three-level buck converter having: a plurality of input switches and an inductor configured to receive a voltage from the plurality of input switches, the plurality of input switches coupled with a first capacitor and configured to charge and discharge the first capacitor; a second capacitor at an output of the buck converter; and a switched capacitor at an input node of the inductor, wherein the switched capacitor is smaller than either the first capacitor or the second capacitor.
    Type: Grant
    Filed: February 24, 2015
    Date of Patent: September 20, 2016
    Assignee: QUALCOMM Incorporated
    Inventors: Chuang Zhang, James Thomas Doyle, Farsheed Mahmoudi, Amirali Shayan Arani
  • Publication number: 20160216723
    Abstract: Operational mode changes in a system-on-a-chip (SoC) integrated circuit in a complex device such as a mobile phone cause spikes in current demand which can cause voltage droops that disrupt operation of the SoC. A hybrid parallel power supply capacitively couples a switching-mode power supply and a low-dropout voltage regulator in parallel to provide high efficiency and fast response times. The low-dropout voltage regulator may include a class-AB operational transconductance amplifier driving the coupling capacitor. The switching-mode power supply and the low-dropout voltage regulator can regulate their outputs to slightly difference voltage levels. This can allow the switching-mode power supply to supply most of the SoC's current demands.
    Type: Application
    Filed: January 27, 2015
    Publication date: July 28, 2016
    Inventors: Zhengming Fu, James Thomas Doyle, Nazanin Darbanian, Shree Krishna Pandey, Yi Cao
  • Publication number: 20160179181
    Abstract: Operational mode changes in a system-on-a-chip (SoC) integrated circuit in a complex device such as a mobile phone cause spikes in current demand which can cause voltage droops that disrupt operation of the SoC. A hybrid parallel power supply connects a switching-mode power supply and a low-dropout voltage regulator in parallel to provide high efficiency and fast response times. Integration of the voltage regulator on the SoC reduces parasitic impedance be between the voltage regulator and the load to aid in reducing voltage droops. The switching-mode power supply and the low-dropout voltage regulator can regulate their outputs to slightly difference voltage levels. This can allow the switching-mode power supply to supply most of the SoC's current demands.
    Type: Application
    Filed: December 22, 2014
    Publication date: June 23, 2016
    Inventors: James Thomas Doyle, Zhengming Fu, Farsheed Mahmoudi, Amirali Shayan Arani, Nazanin Darbanian
  • Publication number: 20160163443
    Abstract: An inductor can include a first substrate, a magnetic piece, and a conductor. The first substrate can be formed within a second substrate. The magnetic piece can be connected to a first side of the first substrate. The conductor can be formed within the second substrate, on the second substrate, or both. The conductor can have an input and an output. The conductor can be configured to surround the first substrate without being in contact with the first substrate and without being in contact with the magnetic piece.
    Type: Application
    Filed: June 18, 2015
    Publication date: June 9, 2016
    Inventors: Mete ERTURK, Ravindra Vaman SHENOY, Kwan-yu LAI, Jitae KIM, Donald William KIDWELL JR., Jon Bradley LASITER, James Thomas DOYLE, Omar James BCHIR
  • Publication number: 20160118893
    Abstract: An apparatus and method are disclosed for efficiently using power at a voltage regulator, such as a synchronous buck converter. The synchronous buck converter includes a first switch and a second switch operated by a first control signal and a second control signal, respectively, where the first and second control signals have a corresponding phase difference. A logic circuit measures a duty cycle of an input pulse width modulated (PWM) signal against iterative changes of the phase difference between the first control signal and the second control signal. The logic circuit selects a phase difference corresponding to a minimum value of the PWM signal, thereby optimizing dead time at the synchronous buck converter. The logic circuit may include a Digital Pulse Width Modulator.
    Type: Application
    Filed: October 21, 2015
    Publication date: April 28, 2016
    Inventors: James Thomas Doyle, Farsheed Mahmoudi, Chuang Zhang, Zhengming Fu, Sassan Shahrokhinia
  • Publication number: 20160118895
    Abstract: An apparatus and method are disclosed for providing efficient operation in a feedback loop having a synchronous buck converter. The synchronous buck converter includes a plurality of individually selectable phases, where each of the phases has a plurality of individually selectable and parallel switching legs. The circuit stores information that associates multiple different load values with respective configuration settings that each define a number of phases and a number of switching legs. As the load changes, the circuit measures the load and selects an appropriate configuration setting. The circuit applies the selected configuration setting to operate the number of phases and a number of parallel switching legs in the buck converter.
    Type: Application
    Filed: September 23, 2015
    Publication date: April 28, 2016
    Inventors: Farsheed Mahmoudi, James Thomas Doyle, Chuang Zhang, Zhengming Fu