Impedance based battery parameter estimation
First Claim
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1. A hybrid powertrain system comprising:
- a controller programmed to control operation of a battery according to a mean electrical impedance (MEI) and an average internal resistance each corresponding to a sliding window time period and respectively derived from a quotient of FFTs of battery voltage output and battery current input, and a real component magnitude of the MEI if a ratio of imaginary and real components of the MEI is less than a predetermined value.
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Abstract
A hybrid powertrain system includes a battery cell and at least one controller programmed to output an average internal resistance of the cell for a sliding window time period. A mean electrical impedance is calculated by the controller based on a quotient of a Fast Fourier Transform (FFT) of a voltage output by the cell and a FFT of current input to the cell. An average internal resistance is calculated by the controller based on the mean electrical impedance. The controller may further control the cell according to the average internal resistance.
10 Citations
9 Claims
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1. A hybrid powertrain system comprising:
a controller programmed to control operation of a battery according to a mean electrical impedance (MEI) and an average internal resistance each corresponding to a sliding window time period and respectively derived from a quotient of FFTs of battery voltage output and battery current input, and a real component magnitude of the MEI if a ratio of imaginary and real components of the MEI is less than a predetermined value. - View Dependent Claims (2, 3, 4, 5)
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6. A hybrid powertrain system comprising:
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a controller programmed to output a mean electrical impedance of a traction battery for a sliding window time period based on a quotient of a Fast Fourier Transform (FFT) of voltage output by the battery and a FFT of current input to the battery, output an average internal resistance of the battery for the time period based on a magnitude of a real component of the mean electrical impedance if a magnitude of a ratio of an imaginary component of the mean electrical impedance and the real component is less than or equal to a predetermined value, output an average internal resistance of the battery for the time period based on a product of a correction factor and the magnitude of the real component if the magnitude of the ratio is greater than the predetermined value, and control operation of the battery according to the average internal resistance. - View Dependent Claims (7, 8, 9)
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Specification
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Current AssigneeFord Global Technologies, LLC (Ford Motor Company)
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Original AssigneeFord Global Technologies, LLC (Ford Motor Company)
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InventorsLee, Tae-Kyung
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Primary Examiner(s)Khatib, Rami
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Assistant Examiner(s)BOOMER, JEFFREY C
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Application NumberUS14/154,854Publication NumberTime in Patent Office959 DaysField of SearchNoneUS Class Current1/1CPC Class CodesB60L 2210/10 DC to DC convertersB60L 2210/40 DC to AC convertersB60L 2240/545 TemperatureB60L 2240/547 VoltageB60L 2240/549 CurrentB60L 2240/80 Time limitsB60L 2260/44 by parameter estimationB60L 3/0046 relating to electric energy...B60L 3/04 Cutting off the power suppl...B60L 3/12 Recording operating variabl...B60L 50/16 with provision for separate...B60L 50/66 Arrangements of batteriesB60L 58/10 for monitoring or controlli...B60L 58/14 Preventing excessive discha...B60L 58/15 Preventing overchargingB60L 58/16 responding to battery agein...B60L 58/20 having different nominal vo...B60L 58/21 having the same nominal vol...B60L 7/14 for vehicles propelled by a...B60W 20/00 Control systems specially a...View All
