Patents by Inventor Gunter Prochart
Gunter Prochart 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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Patent number: 11245334Abstract: Various aspects of the present disclosure are directed to energy accumulator emulators. In one embodiment, an energy accumulator emulator is disclosed including a DC-to-DC converter having a number of power switches, a control unit that calculates a reference current from electrical variables of the DC-to-DC converter, and a battery model connected to the control unit. The battery model receives and processes the reference current and communicates a referenced voltage to the control unit. The control unit includes a voltage controller that processes the reference voltage and controls a current, on the basis of which the control unit controls the power switches via switching pulses to control an output voltage. The energy accumulator emulator further includes a PPPC unit that is connected to the voltage controller. The PPPC unit provides a number of pulse patterns, selects a pulse pattern, and controls the power switches according to the selected pulse pattern.Type: GrantFiled: August 31, 2018Date of Patent: February 8, 2022Assignee: AVL List GmbHInventors: Oliver König, Wolfgang Falmbigl, Stefan Jakubek, Alexander Eder, Günter Prochart
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Publication number: 20200412249Abstract: Various aspects of the present disclosure are directed to energy accumulator emulators. In one embodiment, an energy accumulator emulator is disclosed including a DC-to-DC converter having a number of power switches, a control unit that calculates a reference current from electrical variables of the DC-to-DC converter, and a battery model connected to the control unit. The battery model receives and processes the reference current and communicates a referenced voltage to the control unit. The control unit includes a voltage controller that processes the reference voltage and controls a current, on the basis of which the control unit controls the power switches via switching pulses to control an output voltage. The energy accumulator emulator further includes a PPPC unit that is connected to the voltage controller. The PPPC unit provides a number of pulse patterns, selects a pulse pattern, and controls the power switches according to the selected pulse pattern.Type: ApplicationFiled: August 31, 2018Publication date: December 31, 2020Inventors: Oliver König, Wolfgang Falmbigl, Stefan Jakubek, Alexander Eder, Günter Prochart
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Patent number: 10324136Abstract: A method for testing electrical energy storage systems for driving vehicles provides that the load current of the energy storage system traces by means of a control loop, if possible without delay, a reference current that varies over time according to predetermined test cycles. The control loop is created by means of a model-based controller design method in which a model of the impedance of the energy storage system is integrated in the model of the controlled system.Type: GrantFiled: May 24, 2013Date of Patent: June 18, 2019Assignee: AVL LIST GMBHInventors: Oliver König, Stefan Jakubek, Günter Prochart, Kurt Gschweitl
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Patent number: 10216153Abstract: For an easily implementable method for model predictive control of a DC/DC converter, and a corresponding controller, with which the optimization problem of the model predictive control can also be solved sufficiently quickly with large prediction horizons, the optimization problem is divided into two optimization problems by a model predictive output variable control and a model predictive choke current control being implemented in the control unit (10), wherein: the strands of the multiphase DC/DC converter (12) for the output variable control are combined into a single strand; a time-discrete state space model is produced therefrom; and the output variable control predicts the input voltage (uv,k+1) of the next sampling step (k+1) for this single strand on the basis of a first cost function (Jv) of the optimization problem of the output variable control, said input voltage being given to the choke current control as a setpoint and the choke current control determining therefrom the necessary switch positioType: GrantFiled: March 3, 2015Date of Patent: February 26, 2019Assignee: AVL LIST GMBHInventors: Martin Batliner, Oliver König, Stefan Jakubek, Günter Prochart
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Patent number: 9958356Abstract: In a process for testing the powertrain of vehicles that are at least in part electrically driven, the voltage supplied to the powertrain is controlled by a controller coupled with a simulation system for the energy storage system in a way that the voltage acts dynamically as for a real energy storage system. The controller is designed with a model based controller design method, with a load model of the powertrain being used in the model of the controlled system.Type: GrantFiled: May 24, 2013Date of Patent: May 1, 2018Assignee: AVL LIST GmbHInventors: Oliver König, Stefan Jakubek, Günter Prochart, Kurt Gschweitl, Gregor Gregorcic
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Patent number: 9885759Abstract: For an efficient, economical and at the same time flexibly usable or configurable test arrangement for energy storage devices including a plurality of energy storage modules, each including a plurality of energy storage units, an AC/DC converter (2) is connected on the output side to at least one bidirectional isolated module DC/DC converter (51 . . . 5n), wherein the output of the bidirectional isolated module DC/DC converter (51 . . . 5n) is connected to a plurality of parallel-connected cell DC/DC converters (611 . . . 6nm) and the outputs of the cell DC/DC converters (611 . . . 6nm) are brought out as outputs (A1+, A1? . . . Ax+, Ax?) of the test arrangement (1).Type: GrantFiled: November 11, 2013Date of Patent: February 6, 2018Assignee: AVL List GmbHInventors: Gottfried Schipfer, Günter Prochart
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Publication number: 20170227937Abstract: For an easily implementable method for model predictive control of a DC/DC converter, and a corresponding controller, with which the optimization problem of the model predictive control can also be solved sufficiently quickly with large prediction horizons, the optimization problem is divided into two optimization problems by a model predictive output variable control and a model predictive choke current control being implemented in the control unit (10), wherein: the strands of the multiphase DC/DC converter (12) for the output variable control are combined into a single strand; a time-discrete state space model is produced therefrom; and the output variable control predicts the input voltage (uv,k+1) of the next sampling step (k+1) for this single strand on the basis of a first cost function (Jv) of the optimization problem of the output variable control, said input voltage being given to the choke current control as a setpoint and the choke current control determining therefrom the necessary switch positioType: ApplicationFiled: March 3, 2015Publication date: August 10, 2017Applicant: AVL LIST GMBHInventors: Martin Batliner, Oliver König, Stefan Jakubek, Günter Prochart
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Publication number: 20150293179Abstract: For an efficient, economical and at the same time flexibly usable or configurable test arrangement for energy storage devices consisting of a plurality of energy storage modules each comprising a plurality of energy storage units, it is proposed that an AC/DC converter (2) is connected on the output side to at least one bidirectional isolated module DC/DC converter (51 . . . 5n), wherein the output of the bidirectional isolated module DC/DC converter (51 . . . 5n) is connected to a plurality of parallel-connected cell DC/DC converters (611 . . . 6nm) and the outputs of the cell DC/DC converters (611 . . . 6nm) are brought out as outputs (A1+, A1? . . . Ax+, Ax?) of the test arrangement (1).Type: ApplicationFiled: November 11, 2013Publication date: October 15, 2015Applicant: AVL LIST GmbHInventors: Gottfried Schipfer, Günter Prochart
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Publication number: 20150143885Abstract: In a process for testing the powertrain of vehicles that are at least in part electrically driven, the voltage supplied to the powertrain is controlled by a controller coupled with a simulation system for the energy storage system in a way that the voltage acts dynamically as for a real energy storage system. The controller is designed with a model based controller design method, with a load model of the powertrain being used in the model of the controlled system.Type: ApplicationFiled: May 24, 2013Publication date: May 28, 2015Applicant: AVL LIST GmbHInventors: Oliver König, Stefan Jakubek, Gunter Prochart, Kurt Gschweitl, Gregor Gregorcis
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Publication number: 20150112620Abstract: A method for testing electrical energy storage systems for driving vehicles provides that the load current of the energy storage system traces by means of a control loop, if possible without delay, a reference current that varies over time according to predetermined test cycles. The control loop is created by means of a model-based controller design method in which a model of the impedance of the energy storage system is integrated in the model of the controlled system.Type: ApplicationFiled: May 24, 2013Publication date: April 23, 2015Applicant: AVL LIST GMBHInventors: Oliver König, Stefan Jakubek, Günter Prochart, Kurt Gschweitl