Method of battery chemistry identification through analysis of voltage behavior
First Claim
1. A method of identifying a battery chemistry of a battery in an electronic device comprising the steps of:
- applying a moderately high load to a battery for a load period of time;
removing the load;
just as the load is removed, monitoring voltage of the battery for a recovery time period at time intervals that are shorter than the recovery period; and
determining the battery chemistry of the battery from voltage recovery with time data obtained in the step of monitoring.
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Abstract
A method of identifying battery chemistry of a battery in an electronic device monitors voltage behavior of the battery in response to a stimulus. The method can be performed in the electronic device while the device is in normal operation without affecting battery life or the user'"'"'s enjoyment. Further, the method can be performed many times within the device also without compromising battery life or user enjoyment. A system implements the method in the electronic device. The present invention provides for more accurate battery fuel gauging, such that a battery'"'"'s end of life is more readily determinable, and allows for various battery chemistries to be drained to their optimal cutoff voltage, and allows for the safe in-device charging of rechargeable batteries that are the same size and shape as non-rechargeable batteries.
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Citations
20 Claims
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1. A method of identifying a battery chemistry of a battery in an electronic device comprising the steps of:
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applying a moderately high load to a battery for a load period of time;
removing the load;
just as the load is removed, monitoring voltage of the battery for a recovery time period at time intervals that are shorter than the recovery period; and
determining the battery chemistry of the battery from voltage recovery with time data obtained in the step of monitoring. - View Dependent Claims (2, 3, 9, 13)
generating a measured recovery voltage slope from the voltage recovery with time data; and
comparing the measured recovery voltage slope to a set of reference slope values for different battery chemistries, wherein the battery chemistry is identified by the reference slope that most closely matches the measured recovery voltage slope.
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3. The method of claim 1, wherein the step of determining comprises the steps of:
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generating a measured recovery voltage slope and a final recovered voltage from the voltage recovery with time data; and
comparing the measured recovery voltage slope and the final recovered voltage to a set of reference recovery voltage slope and final recovered voltage values for different battery chemistries, wherein the battery chemistry is identified by the reference recovery voltage slope and the recovered voltage value that most closely match the measured recovery voltage slope and the final recovered voltage.
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9. The method of claim 1, wherein in the step of determining, a rechargeable battery chemistry is distinguished from a non-rechargeable battery chemistry, and non-rechargeable battery chemistries are distinguished from each other later in a discharge period.
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13. The method of claim 1 implemented in an electronic device with a system that comprises:
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a monitoring subsystem that collects the voltage recovery with time data of the battery during the recovery period; and
a calculation subsystem that calculates a voltage recovery slope from the voltage recovery with time data and compares the voltage recovery slope to a set of reference voltage recovery slope values stored in a look-up table.
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4. A method of identifying a battery chemistry of a battery in an electronic device comprising the steps of:
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applying a moderately high load to a battery during a load period;
just as the load is applied, monitoring voltage of the battery for a decline period at time intervals of less than the decline period; and
determining the battery chemistry of the battery from voltage decline with time data obtained during the step of monitoring. - View Dependent Claims (5, 6, 10, 12, 14)
generating a measured voltage depression slope from the voltage decline with time data; and
comparing the measured voltage depression slope to a set of reference voltage decline slope values for different battery chemistries, wherein the battery chemistry is identified by the reference voltage decline slope that most closely matches the measured voltage depression slope.
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6. The method of claim 4, wherein the step of determining comprises the steps of:
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generating a measured voltage depression slope and a final depressed voltage generated from the voltage decline with time data; and
comparing the measured voltage depression slope and the final depressed voltage to a set of reference voltage decline slope and final depressed voltage values for different battery chemistries, wherein the battery chemistry is identified by the reference voltage decline slope and recovered voltage values that most closely match the measured voltage depression slope and the final depressed voltage.
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10. The method of claim 4, wherein in the step of determining, a rechargeable battery chemistry is distinguished from a non-rechargeable battery chemistry, and non-rechargeable battery chemistries are distinguished from each other.
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12. The method of claim 4, further comprising before the step of determining the steps of:
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measuring during the decline period a first slope of the voltage from the voltage decline with time data obtained in the step of monitoring with the load applied;
removing the load;
just as the load is removed, monitoring the voltage of the battery for a recovery period at other time intervals that are less than the recovery period;
measuring a second slope of the voltage during the recovery period from voltage data obtained during the step of monitoring while the load is removed; and
wherein the step of determining comprises determining the battery chemistry of the battery from the measured first slope and the measured second slope.
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14. The method of claim 4 implemented in an electronic device with a system that comprises:
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a monitoring subsystem that collects the voltage decline with time data of the battery during the load period; and
a calculation subsystem that calculates a voltage depression slope from the voltage decline with time data and compares the voltage depression slope to a set of reference voltage decline slope values stored in a look-up table.
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7. A method of identifying a battery chemistry of a battery in an electronic device comprising the steps of:
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applying a moderately high load to a battery for a load period of time;
just as the load is applied, monitoring voltage of the battery for a decline period at first time intervals that are less than the decline period;
measuring a first slope of the voltage from voltage decline data obtained in the step of monitoring with the load applied;
removing the load;
just as the load is removed, monitoring the voltage of the battery for a recovery period at other time intervals that are less than the recovery period;
measuring a second slope of the voltage from voltage recovery data obtained during the step of monitoring while the load is removed; and
determining the battery chemistry of the battery from the first slope and the second slope. - View Dependent Claims (8, 11, 15)
comparing the first slope and the second slope to a set of reference slopes for voltage depression and voltage recovery for different battery chemistries; and
identifying the battery chemistry from the reference slopes that most closely match the first slope and the second slope.
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11. The method of claim 7, wherein in the step of determining, a rechargeable battery chemistry is distinguished from a non-rechargeable battery chemistry.
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15. The method of claim 7 implemented in an electronic device with a system that comprises:
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a monitoring subsystem that collects the voltage decline data and the voltage recovery data of the battery; and
a calculation subsystem that calculates the first slope and the second slope from measured data, and compares the first slope and the second slope to a set of reference slopes for voltage depression and voltage recovery stored in a look-up table.
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16. A system of battery chemistry identification implemented in an electronic device as a part of normal device operation comprising:
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a monitoring subsystem that collects voltage data measured over time from a battery in the electronic device in response to a moderately high load during normal operation; and
a calculation subsystem that calculates a slope comprising changes in voltage with changes in time from the collected voltage data, and compares the slope to reference voltage data. - View Dependent Claims (17, 18, 19, 20)
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Specification