Battery condition monitor and monitoring method
First Claim
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1. A battery condition monitor for a storage battery into and out of which currents flow, said currents having components of different frequencies, comprising:
- means for detecting a terminal voltage of the storage battery;
first means for extracting voltage frequency components from the detected terminal voltage;
means for detecting an amperage of the currents;
second means for extracting amperage frequency components at the same frequencies as said voltage frequency components from the detected amperage;
means for computing internal impedances of the storage battery at each of said frequencies from the voltage and amperage frequency components;
means for storing predetermined relationships between the internal impedance, remaining capacity and remaining service life of the storage battery for each of said frequencies; and
means for determining the remaining capacity and remaining service life values of the storage battery at said frequencies from the computed internal impedances and said predetermined relationships.
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Abstract
A battery condition monitor and monitoring method uses known relationships between battery impedance, remaining capacity and remaining service life at different frequencies to detect remaining capacity and remaining service life. The monitor includes a computer for computing internal impedances of the storage battery from different frequency components of voltage and amperage signals from the battery, a memory for storing predetermined relationships between the internal impedance, remaining capacity and remaining service life of the storage battery for each of the frequencies and a device for determining the remaining capacity and remaining service life values for the storage battery in agreement at both or all frequency values derives from the computed internal impedances. The exact remaining capacity and service life of the storage battery are continuously monitored.
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Citations
7 Claims
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1. A battery condition monitor for a storage battery into and out of which currents flow, said currents having components of different frequencies, comprising:
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means for detecting a terminal voltage of the storage battery; first means for extracting voltage frequency components from the detected terminal voltage; means for detecting an amperage of the currents; second means for extracting amperage frequency components at the same frequencies as said voltage frequency components from the detected amperage; means for computing internal impedances of the storage battery at each of said frequencies from the voltage and amperage frequency components; means for storing predetermined relationships between the internal impedance, remaining capacity and remaining service life of the storage battery for each of said frequencies; and means for determining the remaining capacity and remaining service life values of the storage battery at said frequencies from the computed internal impedances and said predetermined relationships. - View Dependent Claims (5, 6)
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2. A battery condition monitor for a storage battery in an automotive vehicle connected to an alternator, the storage battery receiving and supplying currents having components of different frequencies, comprising:
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means for detecting a terminal voltage of the storage battery; first means for extracting voltage frequency components from the detected terminal voltage; means for detecting an amperage of the currents, one input of said amperage detecting means being connected to a terminal of the storage battery and another input of said amperage detecting means being connected to an output terminal of the alternator; second means for extracting amperage frequency components at the same frequencies as said voltage frequency components from the detected amperage; means for computing internal impedances of the storage battery at each of said frequencies from the voltage and amperage frequency components; means for storing predetermined relationships between the internal impedance, remaining capacity and remaining service life of the storage battery for each of said frequencies; and means for determining the remaining capacity and remaining service life values of the storage battery at said frequencies from the computed internal impedances and said predetermined relationships. - View Dependent Claims (3)
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4. A method for monitoring the condition of a storage battery into and out of which currents flow, said currents having components of different frequencies, comprising the steps of:
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detecting a terminal voltage of the storage battery; detecting an amperage of the currents; extractng frequency components the detected terminal voltage and amperage signals at predetermined frequencies; computing internal impedances of the storage battery at said predetermined frequencies from the voltage and amperage frequency components; and determining the remaining capacity and remaining service life of the storage battery at said predetermined frequencies derived from the computed internal impedances, said determining step being carried out in accordance with predetermined relationships between the internal impedance, remaining capacity and remaining service life of the storage battery for each of said frequencies. - View Dependent Claims (7)
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Specification
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Current AssigneeNissan Motor Co., Ltd.
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Original AssigneeNissan Motor Co., Ltd.
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InventorsMuramatsu, Kunihiro
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Primary Examiner(s)Eisenzopf, Reinhard J.
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Assistant Examiner(s)Solis, Jose M.
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Application NumberUS06/806,772Time in Patent Office575 DaysField of Search320/48, 340/636, 324/57 SS, 324/426-431US Class Current324/427CPC Class CodesG01R 31/006 on road vehicles, e.g. auto...G01R 31/3648 comprising digital calculat...G01R 31/3842 combining voltage and curre...G01R 31/386 using test-loadsG01R 31/389 Measuring internal impedanc...
