Patents Assigned to Quanta Technology, LLC
  • Patent number: 12614922
    Abstract: A cloud computing system is provided for testing a Distributed Energy Resource (DER) Management System (DERMS) that manages operation of DERs connected to a power system. The cloud system implements a DERMS testing platform on virtualized cloud computing resources of the system. The platform tests the DERMS and is modularized. In some embodiments, the DERMS is modularized into at least a simulation module and a communication module, where the simulation module is configured to simulate DER(s) of power system and the communication module communicatively interfaces DERMS with DER(s) via communication network(s). The simulation module also simulates the power system under test conditions as the DERMS manages operation of DER(s) via the communication module. The cloud computing system exposes the platform as a service for testing the DERMS under test conditions. The cloud system scales the resources allocated to the platform with the number of DER(s) simulated under different test conditions.
    Type: Grant
    Filed: June 20, 2023
    Date of Patent: April 28, 2026
    Assignee: Quanta Technology, LLC
    Inventors: Syed Qaseem Ali, Bora Togay, Johannes Kruger, Farid Katiraei, Shadi Chuangpishit
  • Patent number: 12573848
    Abstract: Methods for detecting power system events in an electrical power system. An example method comprises determining a signal envelope for each of at least first and second power system signals and performing density-based spatial clustering of a series of points formed by combining respective values of the signal envelopes for at least the first and second power system signals. The example method further comprises detecting one or more power system events by identifying outlier points or groups of points in the spatial clustering.
    Type: Grant
    Filed: April 5, 2023
    Date of Patent: March 10, 2026
    Assignee: Quanta Technology, LLC
    Inventors: Zheyuan Cheng, James Jeffery Schmidt, Yi Hu, David Hart, Juergen Holbach
  • Patent number: 12553926
    Abstract: A local electric power system (EPS) field tester is provided for field testing of a local EPS. The local EPS has distributed energy resources (DERs) and is capable of operating in conjunction with, or independently from, an external power system while supplying load(s). The local EPS field tester comprises local EPS testing equipment deployed in and/or on mobile deployment equipment. The local EPS testing equipment includes a gateway (for relaying signaling between the local EPS field tester and a local EPS controller of the local EPS), a power distribution busbar, and various switchgear including local EPS connection switchgear, DER connection switchgear, and load connection switchgear. The local EPS testing equipment further includes load controller equipment configured to emulate or simulate a load controller of the local EPS, according to signaling from the local EPS controller or an emulated or simulated SCADA/DMS system as relayed by the gateway.
    Type: Grant
    Filed: December 1, 2023
    Date of Patent: February 17, 2026
    Assignee: Quanta Technology, LLC
    Inventors: Farid Katiraei, Aghil Davari, Shadi Chuangpishit, Amin Zamani
  • Patent number: 12259413
    Abstract: A fault protection system is configured to detect a fault in an electric power system. The fault protection system obtains a differential measurement signal. The differential measurement signal may, for example, indicate, as a function of time, the difference between currents or voltages measured at two or more terminals or boundaries of a fault protection zone of the electric power system. Regardless, the fault protection system generates a fault detection signal by cross-correlating the differential measurement signal with a reference signal. The reference signal may for instance be the differential measurement signal that is expected upon occurrence of a fault. The fault protection system performs fault detection, for detecting a fault internal to the fault protection zone, as a function of the fault detection signal.
    Type: Grant
    Filed: February 4, 2022
    Date of Patent: March 25, 2025
    Assignee: Quanta Technology, LLC
    Inventor: Eric Udren
  • Patent number: 12254023
    Abstract: Equipment is provided for converting a phasor-domain model of a power system to a time-domain model. The equipment obtains the phasor-domain model and a raw file that represents a representable subset of parameters of the phasor-domain model. The equipment modifies the raw file as needed for the raw file to accurately represent the representable subset of parameters. The equipment generates a supplementary file that represents a non-representable subset of parameters of the phasor-domain model which is not representable by the raw file. The equipment also obtains a time-domain specific parameter file that represents parameters specific for modeling the power system in the time-domain. The equipment converts the phasor-domain model to the time-domain model, based on the raw file as modified, the supplementary file, and the time-domain specific parameter file. The equipment may also perform fault simulation-based quality verification of the time-domain model.
    Type: Grant
    Filed: March 24, 2023
    Date of Patent: March 18, 2025
    Assignee: Quanta Technology, LLC
    Inventors: Hadi Khani, David G. Hart
  • Patent number: 9588156
    Abstract: A voltage stability monitoring apparatus monitors the voltage stability of a transmission corridor through which power flows between different parts of a power system. The apparatus monitors an equivalent load impedance at an interface between the transmission corridor and a part of the power system designated as generating the power. This equivalent load impedance at the interface comprises a ratio of a voltage phasor at the interface to a current phasor at the interface. The apparatus tracks a Thevenin equivalent voltage and impedance of the designated part by separately updating that voltage and impedance. Notably, the apparatus updates the imaginary part of the Thevenin equivalent voltage to reflect the magnitude of any changes in the voltage phasor that are associated with large variations in the magnitude of the equivalent load impedance at the interface. The apparatus computes an index indicating the voltage stability as a function of this tracked Thevenin equivalent voltage and impedance.
    Type: Grant
    Filed: February 23, 2016
    Date of Patent: March 7, 2017
    Assignee: Quanta Technology, LLC
    Inventors: Mevludin Glavic, Vahid Madani, Damir Novosel
  • Patent number: 9291655
    Abstract: A voltage stability monitoring apparatus monitors the voltage stability of a transmission corridor through which power flows between different parts of a power system. The apparatus monitors an equivalent load impedance at an interface between the transmission corridor and a part of the power system designated as generating the power. This equivalent load impedance at the interface comprises a ratio of a voltage phasor at the interface to a current phasor at the interface. The apparatus tracks a Thevenin equivalent voltage and impedance of the designated part by separately updating that voltage and impedance. Notably, the apparatus updates the imaginary part of the Thevenin equivalent voltage to reflect the magnitude of any changes in the voltage phasor that are associated with large variations in the magnitude of the equivalent load impedance at the interface. The apparatus computes an index indicating the voltage stability as a function of this tracked Thevenin equivalent voltage and impedance.
    Type: Grant
    Filed: May 19, 2014
    Date of Patent: March 22, 2016
    Assignee: Quanta Technology, LLC
    Inventors: Mevludin Glavic, Vahid Madani, Damir Novosel