Patents by Inventor Tim Ng
Tim Ng 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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Publication number: 20250023450Abstract: A multi-phase controller includes a summer circuit configured to sense a plurality of phase currents generated by a plurality of power stages and generate a summed current value representative of a total current generated by the plurality of power stages; and a current limit controller configurable in a current-limit mode or a non-current-limit mode based on the summed current value and configured to limit the total current to a predefined value during the current-limit mode. The current limit controller includes a threshold selector circuit and a mode configuration circuit. The threshold selector circuit selects a first threshold or a second threshold as a selected threshold based on a configuration signal. The mode configuration circuit monitors a duration during which a comparison result indicates that the summed current value satisfies the selected threshold, and generates the configuration signal based on whether the first duration satisfies a duration threshold.Type: ApplicationFiled: July 11, 2023Publication date: January 16, 2025Inventors: Zhiqing YOU, Tim NG, Venkat SREENIVAS
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Patent number: 12176813Abstract: An apparatus such as a power supply includes management hardware. The management hardware monitors operation of multiple power converter phases coupled in parallel to produce an output voltage. Based on the monitored operation, the management hardware determines a status of a series circuit path connecting windings of the multiple power converter phases. The management hardware produces status information indicating the status of the series circuit path.Type: GrantFiled: August 23, 2021Date of Patent: December 24, 2024Assignee: Infineon Technologies Austria AGInventors: Zhiqing You, Tim Ng
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Patent number: 12051974Abstract: A controller for a power converter includes: an estimator configured to estimate or calculate a slew rate of an output voltage of the power converter or a slew rate of an error voltage which corresponds to a difference between the output voltage and a target voltage, during a load transient; and a modulator configured to modify regulation of the output voltage based on the estimated or calculated slew rate. A corresponding voltage regulation method and an electronic system that includes the power converter are also described.Type: GrantFiled: November 13, 2019Date of Patent: July 30, 2024Assignee: Infineon Technologies Austria AGInventors: Zhiqing You, Tim Ng, Sue Perranoski, Benjamim Tang
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Patent number: 11689103Abstract: An apparatus such as a power supply circuit includes an input, a signal generator, and a frequency selector. The input receives a signal indicating a magnitude of current supplied by an output voltage of a voltage converter to power a load. The signal generator produces a frequency selection signal based on the magnitude of the current supplied to the load as indicated by the received signal. Via the frequency selection signal, the frequency selector selects a switching frequency of controlling switches in the voltage converter to produce the output voltage. According to one configuration, the signal generator and frequency selector delay increasing the switching frequency from a first switching frequency setting to a second switching frequency setting subsequent to detecting a change in the magnitude of the current.Type: GrantFiled: March 25, 2021Date of Patent: June 27, 2023Assignee: Infineon Technologies Austria AGInventors: Zhiqing You, Tim Ng
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Publication number: 20230057705Abstract: An apparatus such as a power supply includes management hardware. The management hardware monitors operation of multiple power converter phases coupled in parallel to produce an output voltage. Based on the monitored operation, the management hardware determines a status of a series circuit path connecting windings of the multiple power converter phases. The management hardware produces status information indicating the status of the series circuit path.Type: ApplicationFiled: August 23, 2021Publication date: February 23, 2023Inventors: Zhiqing YOU, Tim NG
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Publication number: 20220311336Abstract: An apparatus such as a power supply circuit includes an input, a signal generator, and a frequency selector. The input receives a signal indicating a magnitude of current supplied by an output voltage of a voltage converter to power a load. The signal generator produces a frequency selection signal based on the magnitude of the current supplied to the load as indicated by the received signal. Via the frequency selection signal, the frequency selector selects a switching frequency of controlling switches in the voltage converter to produce the output voltage. According to one configuration, the signal generator and frequency selector delay increasing the switching frequency from a first switching frequency setting to a second switching frequency setting subsequent to detecting a change in the magnitude of the current.Type: ApplicationFiled: March 25, 2021Publication date: September 29, 2022Inventors: Zhiqing YOU, Tim NG
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Patent number: 11428721Abstract: An apparatus includes a power converter and an estimator. The power converter produces an output voltage to power a load via current through an inductor. The estimator receives a current sense signal from a current monitor resource. The current sense signal represents/indicates a measured magnitude of the current supplied to the load through the inductor over time during one or more power delivery control cycles. Portions of the current sense signal may be an inaccurate representation of an amount of current through the inductor. Via the current sense signal, or portion thereof, the estimator determines (such as calculates) an inductance (value) of the inductor. The estimator then uses the calculated inductance value to estimate a magnitude of the output current supplied through the inductor to the load.Type: GrantFiled: June 3, 2020Date of Patent: August 30, 2022Assignee: Infineon Technologies Austria AGInventors: Zhiqing You, Tim Ng
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Patent number: 11411500Abstract: A controller for a power converter includes: a first sense terminal and a second sense terminal for sensing an output voltage of the power converter; a bridging circuit configured to electrically couple the first sense terminal to the second sense terminal in a first state and electrically decouple the first sense terminal from the second sense terminal in a second state; and control circuitry configured to set the bridging circuit in the first state during a portion of a voltage ramp of the power converter, and to determine whether an open or short fault condition is present at either the first sense terminal or the second sense terminal based on a voltage across the bridging circuit in the first state.Type: GrantFiled: November 12, 2019Date of Patent: August 9, 2022Assignee: Infineon Technologies Austria AGInventors: Mattia Oddicini, Kelsey Curtis, Tim Ng, Cha-Fu Tsai
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Publication number: 20210382094Abstract: An apparatus includes a power converter and an estimator. The power converter produces an output voltage to power a load via current through an inductor. The estimator receives a current sense signal from a current monitor resource. The current sense signal represents/indicates a measured magnitude of the current supplied to the load through the inductor over time during one or more power delivery control cycles. Portions of the current sense signal may be an inaccurate representation of an amount of current through the inductor. Via the current sense signal, or portion thereof, the estimator determines (such as calculates) an inductance (value) of the inductor. The estimator then uses the calculated inductance value to estimate a magnitude of the output current supplied through the inductor to the load.Type: ApplicationFiled: June 3, 2020Publication date: December 9, 2021Inventors: Zhiqing YOU, Tim Ng
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Patent number: 11196342Abstract: According to an embodiment, a multiphase regulator includes a plurality of output phases each of which is operable to deliver a phase current through a separate inductor to a load connected to the output phases via the inductors and an output capacitor. A controller is operable to regulate a voltage delivered to the load by adjusting the phase currents delivered to the load by the output phases, monitor the phase currents delivered to the load by the output phases, test the output phases in a predetermined sequence, and determine if the phase currents respond in a predetermined way.Type: GrantFiled: August 12, 2019Date of Patent: December 7, 2021Assignee: Infineon Technologies Austria AGInventors: Benjamim Tang, Richard Pierson, Scott Southwell, Tim Ng, Yi-Yuan Liu, Brian Molloy, Kenneth Ostrom, Amir Babazadeh
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Patent number: 11070125Abstract: A fault-tolerant multiphase voltage regulator includes a plurality of power stages, each of which is configured to deliver a phase current to a processor, and a controller. The controller is configured to: control the plurality of power stages to regulate an output voltage provided to the processor; detect and disable a faulty power stage; generate a throttling signal to indicate that one or more of the power stages is faulty and disabled; communicate the throttling signal to the processor over a physical line running between the processor and the controller; and place the multiphase voltage regulator in a self-test mode in which the processor is operated at a known computational load and the controller operates each power stage independently to determine if any of the power stages is faulty under the known computational load. A corresponding method of operating a fault-tolerant power distribution system is also described.Type: GrantFiled: October 29, 2019Date of Patent: July 20, 2021Assignee: Infineon Technologies Austria AGInventors: Benjamim Tang, Jinghong Guo, Harrison Hu, Tim Ng, Mattia Oddicini, Herbert Zojer
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Publication number: 20210143740Abstract: A controller for a power converter includes: a first sense terminal and a second sense terminal for sensing an output voltage of the power converter; a bridging circuit configured to electrically couple the first sense terminal to the second sense terminal in a first state and electrically decouple the first sense terminal from the second sense terminal in a second state; and control circuitry configured to set the bridging circuit in the first state during a portion of a voltage ramp of the power converter, and to determine whether an open or short fault condition is present at either the first sense terminal or the second sense terminal based on a voltage across the bridging circuit in the first state.Type: ApplicationFiled: November 12, 2019Publication date: May 13, 2021Inventors: Mattia Oddicini, Kelsey Curtis, Tim Ng, Cha-Fu Tsai
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Publication number: 20210143735Abstract: A controller for a power converter includes: an estimator configured to estimate or calculate a slew rate of an output voltage of the power converter or a slew rate of an error voltage which corresponds to a difference between the output voltage and a target voltage, during a load transient; and a modulator configured to modify regulation of the output voltage based on the estimated or calculated slew rate. A corresponding voltage regulation method and an electronic system that includes the power converter are also described.Type: ApplicationFiled: November 13, 2019Publication date: May 13, 2021Inventors: Zhiqing You, Tim Ng, Sue Perranoski, Benjamim Tang
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Patent number: 10873261Abstract: A controller of a switching voltage regulator estimates a load current based upon a current within the voltage regulator, a change in the output voltage of the voltage regulator, and the capacitance and/or equivalent series resistance (ESR) of an output capacitor. For sharp drops in the output voltage, the output capacitor's ESR provides a better estimate of the load current, whereas the output capacitance provides a better estimate for moderate output voltage drops. These techniques allow the voltage regulator controller to more quickly detect excessive load current, and issue an over current warning to the load with little latency. The fast response afforded by these techniques provides the load, e.g., a CPU or GPU, sufficient time to reduce its current, thereby avoiding a complete shutdown due to excessive load current.Type: GrantFiled: May 9, 2019Date of Patent: December 22, 2020Assignee: Infineon Technologies Austria AGInventors: Zhiqing You, Tim Ng
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Publication number: 20200358354Abstract: A controller of a switching voltage regulator estimates a load current based upon a current within the voltage regulator, a change in the output voltage of the voltage regulator, and the capacitance and/or equivalent series resistance (ESR) of an output capacitor. For sharp drops in the output voltage, the output capacitor's ESR provides a better estimate of the load current, whereas the output capacitance provides a better estimate for moderate output voltage drops. These techniques allow the voltage regulator controller to more quickly detect excessive load current, and issue an over current warning to the load with little latency. The fast response afforded by these techniques provides the load, e.g., a CPU or GPU, sufficient time to reduce its current, thereby avoiding a complete shutdown due to excessive load current.Type: ApplicationFiled: May 9, 2019Publication date: November 12, 2020Inventors: Zhiqing You, Tim Ng
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Patent number: 10693361Abstract: A multiphase voltage regulator includes a plurality of power stages, a plurality of current sense circuits, a controller and a current sense interface running between the controller and one or more of the current sense circuits. The current sense interface includes a separate line for each current sense circuit coupled to the current sense interface and which is configured to support single-ended or differential current sense. The regulator also includes a plurality of pullup circuits, each of which is connected to one of the current sense interface lines and has a higher impedance than the line to which it is connected. A fault detection circuit of the controller determines if an individual one of the current sense interface lines has an open fault, based on the pullup circuit connected to the line with the open fault pulling up the voltage on the line by more than a predetermined amount.Type: GrantFiled: August 1, 2018Date of Patent: June 23, 2020Assignee: Infineon Technologies Austria AGInventors: Jinghong Guo, Harrison Hu, Tim Ng, Mattia Oddicini, Benjamim Tang, Herbert Zojer
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Patent number: 10651743Abstract: A method is provided for configuring a controller for a voltage regulator system having an output filter response set by an inductance (L) and a capacitance (C). The method includes applying one or more pulses of known on-time and off-time to the voltage regulator system, and taking measurements of the voltage regulator system in response to the one or more pulses of known on-time and off-time. The method further includes constructing a model of the output filter response of the voltage regulator system based on the measurements, and setting one or more control loop parameters of the controller based on the model of the output filter response.Type: GrantFiled: March 19, 2019Date of Patent: May 12, 2020Assignee: Infineon Technologies Austria AGInventors: Zhiqing You, Tim Ng, Benjamim Tang
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Patent number: 10608537Abstract: A voltage regulator includes a power stage electrically coupled to an input voltage terminal, a controller for controlling the power stage and a shunt resistor of a sense network connected in series between the input voltage terminal and the power stage. In a non-calibration mode, a first level shifting resistor of the sense network is electrically connected in series between a first terminal of the shunt resistor and a first sense pin of the controller and a second level shifting resistor of the sense network is electrically connected in series between a second terminal of the shunt resistor and a second sense pin of the controller. In a calibration mode, the first sense pin and the second sense pin of the controller are electrically connected to the same terminal of the shunt resistor via the first level shifting resistor and the second level shifting resistor of the sense network.Type: GrantFiled: July 5, 2019Date of Patent: March 31, 2020Assignee: Infineon Technologies Austria AGInventors: Zhiqing You, Tim Ng
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Publication number: 20200064878Abstract: A fault-tolerant multiphase voltage regulator includes a plurality of power stages, each of which is configured to deliver a phase current to a processor, and a controller. The controller is configured to: control the plurality of power stages to regulate an output voltage provided to the processor; detect and disable a faulty power stage; generate a throttling signal to indicate that one or more of the power stages is faulty and disabled; communicate the throttling signal to the processor over a physical line running between the processor and the controller; and place the multiphase voltage regulator in a self-test mode in which the processor is operated at a known computational load and the controller operates each power stage independently to determine if any of the power stages is faulty under the known computational load. A corresponding method of operating a fault-tolerant power distribution system is also described.Type: ApplicationFiled: October 29, 2019Publication date: February 27, 2020Inventors: Benjamim Tang, Jinghong Guo, Harrison Hu, Tim Ng, Mattia Oddicini, Herbert Zojer
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Publication number: 20200044553Abstract: A multiphase voltage regulator includes a plurality of power stages, a plurality of current sense circuits, a controller and a current sense interface running between the controller and one or more of the current sense circuits. The current sense interface includes a separate line for each current sense circuit coupled to the current sense interface and which is configured to support single-ended or differential current sense. The regulator also includes a plurality of pullup circuits, each of which is connected to one of the current sense interface lines and has a higher impedance than the line to which it is connected. A fault detection circuit of the controller determines if an individual one of the current sense interface lines has an open fault, based on the pullup circuit connected to the line with the open fault pulling up the voltage on the line by more than a predetermined amount.Type: ApplicationFiled: August 1, 2018Publication date: February 6, 2020Inventors: Jinghong Guo, Harrison Hu, Tim Ng, Mattia Oddicini, Benjamim Tang, Herbert Zojer