Optimization of electrical component parameters in energy storage system models
First Claim
1. A system for controlling a vehicle based on a plurality of electrochemical mapping parameters in an energy storage system used to provide at least a portion of motive power to an automobile, the system comprising:
- a memory device and a controller, wherein the controller is programmed to;
provide a plurality of electrochemical mapping parameter sources capable of rendering one or more electrochemical mapping parameters selected from the group consisting of resistance and capacitance, wherein the resistance is selected from the group consisting of diffusion resistance, charge transfer resistance, and ohmic resistance, and wherein the capacitance is selected from the group consisting of double layer capacitance and diffusion capacitance;
select at least one electrochemical mapping parameter source based on the state of the energy storage system, wherein the operating state of the energy storage system is characterized by at least one measurement selected from the group consisting of a voltage measurement, a current measurement, a temperature measurement, and combinations thereof;
determine an adaptive gain;
determine an adaptive factor based on the operating state of the vehicle or the energy storage system; and
adapt the one or more electrochemical mapping parameters based on the adaptive factor and adaptive gain to provide an adapted electrochemical mapping parameter value.
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Abstract
A method of predicting an electrochemical mapping parameter in a vehicle that derives at least a portion of its motive power from an energy storage system is provided. The method may comprise providing a plurality of electrochemical mapping parameter sources capable of rendering one or more electrochemical mapping parameters selected from the group consisting of resistance and capacitance and selecting at least one electrochemical mapping parameter source capable of rendering one or more electrochemical mapping parameters based on the state of the energy storage system. The method may also comprise determining an adaptive gain and determining an adaptive factor based on the operating state of the vehicle or the energy storage system. The method may also comprise adapting the one or more electrochemical mapping parameters based on the adaptive factor and adaptive gain to provide an adapted electrochemical mapping parameter value.
5 Citations
6 Claims
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1. A system for controlling a vehicle based on a plurality of electrochemical mapping parameters in an energy storage system used to provide at least a portion of motive power to an automobile, the system comprising:
a memory device and a controller, wherein the controller is programmed to; provide a plurality of electrochemical mapping parameter sources capable of rendering one or more electrochemical mapping parameters selected from the group consisting of resistance and capacitance, wherein the resistance is selected from the group consisting of diffusion resistance, charge transfer resistance, and ohmic resistance, and wherein the capacitance is selected from the group consisting of double layer capacitance and diffusion capacitance; select at least one electrochemical mapping parameter source based on the state of the energy storage system, wherein the operating state of the energy storage system is characterized by at least one measurement selected from the group consisting of a voltage measurement, a current measurement, a temperature measurement, and combinations thereof; determine an adaptive gain; determine an adaptive factor based on the operating state of the vehicle or the energy storage system; and adapt the one or more electrochemical mapping parameters based on the adaptive factor and adaptive gain to provide an adapted electrochemical mapping parameter value. - View Dependent Claims (2, 3, 4, 5, 6)
Specification