Patents by Inventor Mark Muccini

Mark Muccini 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: 10152106
    Abstract: A power excursion tolerant power system includes at least one powered component. A system capacitance and at least one power supply are coupled to the at least one powered component. The at least one power supply is operable as a voltage controlled current source to supply power to the at least one powered component when a system load is below a predetermined threshold. The at least one power supply is operable as a constant current source, and together with the system capacitance, to supply power to the at least one powered component when the system load is above the predetermined threshold. A load reduction mechanism is coupled to the at least one powered component and operable to perform at least one load reduction action when the system load is above the predetermined threshold.
    Type: Grant
    Filed: April 21, 2016
    Date of Patent: December 11, 2018
    Assignee: Dell Products L.P.
    Inventors: Mark Muccini, Shawn Joel Dube
  • Patent number: 9910103
    Abstract: A power supply unit (PSU) performs a PSU fault diagnosis using a PSU fault detection module. The PSU fault detection module detects a diagnostic trigger event and initiates a series of checks of selected sub-systems. The PSU fault detection module determines whether the trigger event occurred while the PSU was connected within an information handling system (IHS) or physically removed from the IHS. If the trigger event occurred while the PSU was connected within an information handling system (IHS), the PSU fault detection module electrically isolates the PSU from the IHS using an ORing device, which blocks current flowing into the PSU. The PSU fault detection module determines whether a short circuit exists within the electrically isolated PSU. If a short circuit is identified, the PSU fault detection module determines that the PSU is not functioning properly and provides a notification of a malfunction of the PSU.
    Type: Grant
    Filed: December 1, 2015
    Date of Patent: March 6, 2018
    Assignee: Dell Products, L.P.
    Inventors: Mehran Mirjafari, Mark Muccini, Scott Michael Ramsey, Wei Chen, Bhavesh Govindbhai Patel
  • Publication number: 20170153294
    Abstract: A power supply unit (PSU) performs a PSU fault diagnosis using a PSU fault detection module. The PSU fault detection module detects a diagnostic trigger event and initiates a series of checks of selected sub-systems. The PSU fault detection module determines whether the trigger event occurred while the PSU was connected within an information handling system (IHS) or physically removed from the IHS. If the trigger event occurred while the PSU was connected within an information handling system (IHS), the PSU fault detection module electrically isolates the PSU from the IHS using an ORing device, which blocks current flowing into the PSU. The PSU fault detection module determines whether a short circuit exists within the electrically isolated PSU. If a short circuit is identified, the PSU fault detection module determines that the PSU is not functioning properly and provides a notification of a malfunction of the PSU.
    Type: Application
    Filed: December 1, 2015
    Publication date: June 1, 2017
    Applicant: DELL PRODUCTS, L.P.
    Inventors: MEHRAN MIRJAFARI, MARK MUCCINI, SCOTT MICHAEL RAMSEY, WEI CHEN, BHAVESH GOVINDBHAI PATEL
  • Publication number: 20160320820
    Abstract: A power excursion tolerant power system includes at least one powered component. A system capacitance and at least one power supply are coupled to the at least one powered component. The at least one power supply is operable as a voltage controlled current source to supply power to the at least one powered component when a system load is below a predetermined threshold. The at least one power supply is operable as a constant current source, and together with the system capacitance, to supply power to the at least one powered component when the system load is above the predetermined threshold. A load reduction mechanism is coupled to the at least one powered component and operable to perform at least one load reduction action when the system load is above the predetermined threshold.
    Type: Application
    Filed: April 21, 2016
    Publication date: November 3, 2016
    Inventors: Mark Muccini, Shawn Joel Dube
  • Patent number: 9411388
    Abstract: A power system is coupled to a powered system and a system capacitance. The power system includes a power system output sensor, a power conversion device, and a power system output controller. The power system output controller includes a powered system threshold that is related to a power excursion capability of the powered system. The power system output controller is operable, in response to receiving a power system output signal from the power system output sensor that exceeds the powered system threshold, to control the power conversion device to increase the power system output from the power conversion device in order to increase the energy stored in the system capacitance for use by the powered system during a power excursion. The powered system may include processors that draw power from the system capacitance during power excursions so as to not exceed the limits of the power system.
    Type: Grant
    Filed: December 3, 2015
    Date of Patent: August 9, 2016
    Assignee: Dell Products L.P.
    Inventors: George G. Richards, III, Mark Muccini
  • Patent number: 9342137
    Abstract: A power excursion tolerant power system includes at least one powered component. A system capacitance and at least one power supply are coupled to the at least one powered component. The at least one power supply is operable as a voltage controlled current source to supply power to the at least one powered component when a system load is below a predetermined threshold. The at least one power supply is operable as a constant current source, and together with the system capacitance, to supply power to the at least one powered component when the system load is above the predetermined threshold. A load reduction mechanism is coupled to the at least one powered component and operable to perform at least one load reduction action when the system load is above the predetermined threshold.
    Type: Grant
    Filed: September 28, 2012
    Date of Patent: May 17, 2016
    Assignee: Dell Products L.P.
    Inventors: Mark Muccini, Shawn Joel Dube
  • Patent number: 9304565
    Abstract: An information handling system power supply dynamically adapts thermal and power output protection constraints based upon thermal and power output conditions measured at the power supply. In the event of changing conditions at the information handling system, such as an increase in ambient temperature or an increase in power consumption, a power constraint adaptive module adjusts constraints at which the power supply will shut down in order to maintain power to an information handling system outside of a normal power and thermal constraint operating envelope for the power supply.
    Type: Grant
    Filed: December 23, 2014
    Date of Patent: April 5, 2016
    Assignee: Dell Products L.P.
    Inventors: Pradeep Mistry, Mark Muccini
  • Publication number: 20160085282
    Abstract: A power system is coupled to a powered system and a system capacitance. The power system includes a power system output sensor, a power conversion device, and a power system output controller. The power system output controller includes a powered system threshold that is related to a power excursion capability of the powered system. The power system output controller is operable, in response to receiving a power system output signal from the power system output sensor that exceeds the powered system threshold, to control the power conversion device to increase the power system output from the power conversion device in order to increase the energy stored in the system capacitance for use by the powered system during a power excursion. The powered system may include processors that draw power from the system capacitance during power excursions so as to not exceed the limits of the power system.
    Type: Application
    Filed: December 3, 2015
    Publication date: March 24, 2016
    Inventors: George G. Richards, III, Mark Muccini
  • Patent number: 9213385
    Abstract: A supplemental power system includes a powered component, a removable module interface with a plurality of pins, and a plurality of system connections. A system controller detects a first type removable module coupled to the removable module interface and allows signals from the system connections to be transmitted to the first type removable module through the plurality of pins. The system controller detects a second type removable module coupled to the removable module interface and allows power from the second type removable module that is received through the plurality of pins to be transmitted to the powered component while not allowing signals from the system connections to be transmitted to the second type removable module through the plurality of pins. Power that is stored in the second type removable module may be provided to the powered component in response to a detected power excursion by the powered component.
    Type: Grant
    Filed: April 20, 2015
    Date of Patent: December 15, 2015
    Assignee: Dell Products L.P.
    Inventors: Stuart Allen Berke, George G. Richards, III, Mark Muccini
  • Patent number: 9207739
    Abstract: A power system is coupled to a powered system and a system capacitance. The power system includes a power system output sensor, a power conversion device, and a power system output controller. The power system output controller includes a powered system threshold that is related to a power excursion capability of the powered system. The power system output controller is operable, in response to receiving a power system output signal from the power system output sensor that exceeds the powered system threshold, to control the power conversion device to increase the power system output from the power conversion device in order to increase the energy stored in the system capacitance for use by the powered system during a power excursion. The powered system may include processors that draw power from the system capacitance during power excursions so as to not exceed the limits of the power system.
    Type: Grant
    Filed: October 2, 2012
    Date of Patent: December 8, 2015
    Assignee: Dell Products L.P.
    Inventors: George G. Richards, III, Mark Muccini
  • Publication number: 20150227184
    Abstract: A supplemental power system includes a powered component, a removable module interface with a plurality of pins, and a plurality of system connections. A system controller detects a first type removable module coupled to the removable module interface and allows signals from the system connections to be transmitted to the first type removable module through the plurality of pins. The system controller detects a second type removable module coupled to the removable module interface and allows power from the second type removable module that is received through the plurality of pins to be transmitted to the powered component while not allowing signals from the system connections to be transmitted to the second type removable module through the plurality of pins. Power that is stored in the second type removable module may be provided to the powered component in response to a detected power excursion by the powered component.
    Type: Application
    Filed: April 20, 2015
    Publication date: August 13, 2015
    Inventors: Stuart Allen Berke, George G. Richards, III, Mark Muccini
  • Publication number: 20150113310
    Abstract: An information handling system power supply dynamically adapts thermal and power output protection constraints based upon thermal and power output conditions measured at the power supply. In the event of changing conditions at the information handling system, such as an increase in ambient temperature or an increase in power consumption, a power constraint adaptive module adjusts constraints at which the power supply will shut down in order to maintain power to an information handling system outside of a normal power and thermal constraint operating envelope for the power supply.
    Type: Application
    Filed: December 23, 2014
    Publication date: April 23, 2015
    Applicant: Dell Products L.P.
    Inventors: Pradeep Mistry, Mark Muccini
  • Patent number: 8954610
    Abstract: A power management control system for an information handling system is disclosed. The power management control system includes a power management interface bus interfacing a plurality of devices, where one or more of the devices is each associated with a time clock. The power management control system further includes a management agent interfacing the power management interface bus. The management agent is configured to: receive a system time; synchronize the one or more time clocks based, at least in part, on the system time; and maintain synchronization of the one or more time clocks, at least in part, via a set of telemetric primitives.
    Type: Grant
    Filed: July 10, 2013
    Date of Patent: February 10, 2015
    Assignee: Dell Products L.P.
    Inventors: Stuart Allen Berke, George Richards, III, Mark Muccini
  • Patent number: 8934209
    Abstract: An information handling system power supply dynamically adapts thermal and power output protection constraints based upon thermal and power output conditions measured at the power supply. In the event of changing conditions at the information handling system, such as an increase in ambient temperature or an increase in power consumption, a power constraint adaptive module adjusts constraints at which the power supply will shut down in order to maintain power to an information handling system outside of a normal power and thermal constraint operating envelope for the power supply.
    Type: Grant
    Filed: October 20, 2011
    Date of Patent: January 13, 2015
    Assignee: Dell Products L.P.
    Inventors: Pradeep Mistry, Mark Muccini
  • Publication number: 20140108846
    Abstract: A supplemental power system for IHS power excursions includes a processor and a memory coupled to the processor. A power system is coupled to the processor and a plurality of power supply paths. A first power supply path is operable to supply power at a first voltage from the power system to the processor. A second power supply path is operable to store power from the power system at a second voltage that is greater than the first voltage, and the second power supply path is further operable to supply the power stored at the second voltage to the processor during power excursions by the processor. In some embodiments, the second power supply path may include a boost converter to increase power at the first voltage to the second voltage, or may receive power output at the second voltage from a supplemental power rail in the power system.
    Type: Application
    Filed: October 15, 2012
    Publication date: April 17, 2014
    Applicant: Dell Products L.P.
    Inventors: Stuart Allen Berke, George G. Richards, III, Mark Muccini
  • Publication number: 20140095917
    Abstract: A power system is coupled to a powered system and a system capacitance. The power system includes a power system output sensor, a power conversion device, and a power system output controller. The power system output controller includes a powered system threshold that is related to a power excursion capability of the powered system. The power system output controller is operable, in response to receiving a power system output signal from the power system output sensor that exceeds the powered system threshold, to control the power conversion device to increase the power system output from the power conversion device in order to increase the energy stored in the system capacitance for use by the powered system during a power excursion. The powered system may include processors that draw power from the system capacitance during power excursions so as to not exceed the limits of the power system.
    Type: Application
    Filed: October 2, 2012
    Publication date: April 3, 2014
    Applicant: Dell Products L.P.
    Inventors: George G. Richards, III, Mark Muccini
  • Publication number: 20140095903
    Abstract: A power excursion tolerant power system includes at least one powered component. A system capacitance and at least one power supply are coupled to the at least one powered component. The at least one power supply is operable as a voltage controlled current source to supply power to the at least one powered component when a system load is below a predetermined threshold. The at least one power supply is operable as a constant current source, and together with the system capacitance, to supply power to the at least one powered component when the system load is above the predetermined threshold. A load reduction mechanism is coupled to the at least one powered component and operable to perform at least one load reduction action when the system load is above the predetermined threshold.
    Type: Application
    Filed: September 28, 2012
    Publication date: April 3, 2014
    Applicant: Dell Products L.P.
    Inventors: Mark Muccini, Shawn Joel Dube
  • Patent number: 8645739
    Abstract: A power supply system for an information handling system is disclosed. The power supply system includes power supply units electrically coupled via an output line. The power supply units are configured to supply an output voltage to the output line. Each power supply unit receives a feedback signal indicative of a voltage of the output line and a programmed voltage signal indicative of a supply voltage required for the output line. A standby power supply unit is configured to transition between a standby mode and an active mode based, at least in part, on the feedback signal and the programmed voltage signal. Power supply units are configured to transition to a load sharing mode where the power supply units cooperatively supply an output voltage to the output line. The transitioning is based, at least in part, on the feedback signal and the programmed voltage signal.
    Type: Grant
    Filed: February 3, 2010
    Date of Patent: February 4, 2014
    Assignee: Dell Products L.P.
    Inventors: Stuart Allen Berke, Mark Muccini
  • Publication number: 20130311805
    Abstract: A power management control system for an information handling system is disclosed. The power management control system includes a power management interface bus interfacing a plurality of devices, where one or more of the devices is each associated with a time clock. The power management control system further includes a management agent interfacing the power management interface bus. The management agent is configured to: receive a system time; synchronize the one or more time clocks based, at least in part, on the system time; and maintain synchronization of the one or more time clocks, at least in part, via a set of telemetric primitives.
    Type: Application
    Filed: July 10, 2013
    Publication date: November 21, 2013
    Inventors: Stuart Allen Berke, George Richards, III, Mark Muccini
  • Patent number: 8489775
    Abstract: A power management control system for an information handling system is disclosed. The power management control system includes a power management interface bus interfacing a plurality of devices, where one or more of the devices is each associated with a time clock. The power management control system further includes a management agent interfacing the power management interface bus. The management agent is configured to: receive a system time; synchronize the one or more time clocks based, at least in part, on the system time; and maintain synchronization of the one or more time clocks, at least in part, via a set of telemetric primitives.
    Type: Grant
    Filed: July 21, 2010
    Date of Patent: July 16, 2013
    Assignee: Dell Products L.P.
    Inventors: Stuart Allen Berke, George Richards, III, Mark Muccini