Patents by Inventor Peter A. Kinsella

Peter A. Kinsella 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: 11181875
    Abstract: A system for monitoring and controlling a central plant includes a high level optimizer, a subplant monitor, a user interface, and a dispatch graphical user interface (GUI) generator. The central plant includes a plurality of subplants configured to serve a thermal energy load. The high level optimizer is configured to determine recommended subplant loads for each of the plurality of subplants. The subplant monitor is configured to monitor the central plant and identify actual subplant loads for each of the plurality of subplants. The user interface is configured to receive manual subplant loads specified by a user. The dispatch GUI generator is configured to generate a dispatch GUI and present the dispatch GUI via the user interface. The dispatch GUI includes the recommended subplant loads, the actual subplant loads, and the manual subplant loads.
    Type: Grant
    Filed: December 21, 2016
    Date of Patent: November 23, 2021
    Assignee: Johnson Controls Tyco IP Holdings LLP
    Inventors: James P. Kummer, Matthew J. Asmus, Michael J. Wenzel, Carol T. Tumey, Lisa E. Strand, Dennis J. Flood, Nicole A. Madison, Peter A. Kinsella, Joseph P. Carmody
  • Patent number: 9835347
    Abstract: A state-based control system for an air handling unit (AHU) includes a finite state machine configured to transition between a high cooling load state and a low cooling load state. In the high cooling load state, the system maintains the temperature of a supply airstream provided by the AHU at a fixed setpoint and controls the temperature of a building zone by modulating the speed of a supply air fan. In the low cooling load state, the system operates the supply air fan at a fixed speed and controls the zone temperature by modulating an amount of cooling applied to the supply airstream by one or more cooling stages. A feed-forward module manages disturbances caused by adding or shedding cooling stages by applying a feed-forward gain to the supply air fan setpoint.
    Type: Grant
    Filed: December 8, 2014
    Date of Patent: December 5, 2017
    Assignee: Johnson Controls Technology Company
    Inventors: Matthew J. Asmus, Peter A. Kinsella
  • Publication number: 20170212488
    Abstract: A system for monitoring and controlling a central plant includes a high level optimizer, a subplant monitor, a user interface, and a dispatch graphical user interface (GUI) generator. The central plant includes a plurality of subplants configured to serve a thermal energy load. The high level optimizer is configured to determine recommended subplant loads for each of the plurality of subplants. The subplant monitor is configured to monitor the central plant and identify actual subplant loads for each of the plurality of subplants. The user interface is configured to receive manual subplant loads specified by a user. The dispatch GUI generator is configured to generate a dispatch GUI and present the dispatch GUI via the user interface. The dispatch GUI includes the recommended subplant loads, the actual subplant loads, and the manual subplant loads.
    Type: Application
    Filed: December 21, 2016
    Publication date: July 27, 2017
    Applicant: Johnson Controls Technology Company
    Inventors: James P. Kummer, Matthew J. Asmus, Michael J. Wenzel, Carol T. Tumey, Lisa E. Strand, Dennis J. Flood, Nicole A. Madison, Peter A. Kinsella, Joseph P. Carmody
  • Publication number: 20160161139
    Abstract: A state-based control system for an air handling unit (AHU) includes a finite state machine configured to transition between a high cooling load state and a low cooling load state. In the high cooling load state, the system maintains the temperature of a supply airstream provided by the AHU at a fixed setpoint and controls the temperature of a building zone by modulating the speed of a supply air fan. In the low cooling load state, the system operates the supply air fan at a fixed speed and controls the zone temperature by modulating an amount of cooling applied to the supply airstream by one or more cooling stages. A feed-forward module manages disturbances caused by adding or shedding cooling stages by applying a feed-forward gain to the supply air fan setpoint.
    Type: Application
    Filed: December 8, 2014
    Publication date: June 9, 2016
    Applicant: JOHNSON CONTROLS TECHNOLOGY COMPANY
    Inventors: Matthew J. Asmus, Peter A. Kinsella