Optimized method for determining remaining life cycles in a rechargeable battery
First Claim
1. A method for estimating remaining life cycles in a battery pack having an internal battery cell, a memory device, and battery pack circuitry, including the steps of:
- storing battery pack circuitry impedance (Zcircuit) into memory;
measuring total battery pack impedance (Ztotal);
determining an impedance value of the internal battery cell (Zcell) by subtracting off the stored battery pack circuitry impedance (Zcircuit) from the total battery pack impedance (Ztotal);
measuring the battery pack temperature;
compensating the internal battery cell impedance (Zcell) based on the temperature; and
estimating the remaining battery life based on the compensated internal battery cell impedance.
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Accused Products
Abstract
A method (200) of estimating existing and/or remaining life cycles of a battery pack (102) having an internal battery cell (104) and battery pack circuitry (110) is based on determining an impedance value of the internal battery cell (Zcell) (104), measuring the battery pack temperature (212), compensating the internal battery cell impedance based on the temperature (218), and estimating the remaining battery life based on the compensated internal battery cell impedance (220). The estimated life cycle value is then communicated to a user through either a charger or radio (112).
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Citations
6 Claims
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1. A method for estimating remaining life cycles in a battery pack having an internal battery cell, a memory device, and battery pack circuitry, including the steps of:
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storing battery pack circuitry impedance (Zcircuit) into memory; measuring total battery pack impedance (Ztotal); determining an impedance value of the internal battery cell (Zcell) by subtracting off the stored battery pack circuitry impedance (Zcircuit) from the total battery pack impedance (Ztotal); measuring the battery pack temperature; compensating the internal battery cell impedance (Zcell) based on the temperature; and estimating the remaining battery life based on the compensated internal battery cell impedance.
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2. A method of determining remaining life cycles of a battery pack having at least one internal battery cell, a memory device, and battery pack circuitry, including the steps of:
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storing baseline battery cell impedance versus estimated life cycle information into memory; storing the battery pack circuitry impedance (Zcircuit)into memory; storing characteristic internal battery cell impedance versus temperature into memory; measuring the internal battery cell impedance (Zcell); measuring the battery pack temperature; determining the characteristic internal cell impedance based on the measured temperature and the characteristic battery cell impedance versus temperature stored into memory; comparing the determined characteristic internal cell impedance to a room temperature cell impedance by taking a delta; compensating the measured internal battery cell impedance with the delta; and estimating the remaining life cycles based on the compensated internal battery cell impedance and the stored baseline battery cell impedance versus estimated life cycle information. - View Dependent Claims (3, 4, 5, 6)
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Specification