MOBILE DEVICE AND METHOD FOR EXTENDING BATTERY LIFE
First Claim
1. A mobile electronic device comprising:
- a microprocessor coupled to a system bus;
a wireless transceiver coupled to the system bus;
a power supply manager coupled to the system bus, the power supply manager configured to operate the mobile device for a predetermined discharge time, the power supply manager coupled to a battery for supplying primary power to the mobile electronic device and a fuel cell for supplying auxiliary power, the power supply manager operable to monitor a dynamic capacity discharge rate, wherein the dynamic capacity discharge rate deviates from a baseline capacity discharge rate due to one or more factors; and
a controller coupled to the system bus, the controller configured to operate the fuel cell responsive to the deviation of the dynamic capacity discharge rate from the baseline capacity discharge rate to restore the predetermined discharge time.
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Accused Products
Abstract
A mobile electronic device includes a microprocessor, a wireless transceiver, a power supply manager, and a controller coupled to a system bus. The power supply manager is configured to operate the mobile device for a predetermined discharge time, and is coupled to a battery for supplying primary power to the mobile electronic device. The power supply manager is also coupled to a fuel cell for supplying auxiliary power. The power supply manager monitors a dynamic capacity discharge rate, which deviates from a baseline capacity discharge rate due to one or more factors. The controller operates the fuel cell responsive to the deviation of the dynamic capacity discharge rate from the baseline capacity discharge rate to restore the predetermined discharge time. In one aspect, the deviation is due to the temperature of the battery.
22 Citations
20 Claims
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1. A mobile electronic device comprising:
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a microprocessor coupled to a system bus; a wireless transceiver coupled to the system bus; a power supply manager coupled to the system bus, the power supply manager configured to operate the mobile device for a predetermined discharge time, the power supply manager coupled to a battery for supplying primary power to the mobile electronic device and a fuel cell for supplying auxiliary power, the power supply manager operable to monitor a dynamic capacity discharge rate, wherein the dynamic capacity discharge rate deviates from a baseline capacity discharge rate due to one or more factors; and a controller coupled to the system bus, the controller configured to operate the fuel cell responsive to the deviation of the dynamic capacity discharge rate from the baseline capacity discharge rate to restore the predetermined discharge time. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for achieving a predetermined discharge time for a mobile electronic device, comprising the steps of:
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providing a battery for supplying primary power to the mobile electronic device, and a fuel cell for supplying auxiliary power to the mobile electronic device; monitoring a dynamic capacity discharge rate of the mobile electronic device, the dynamic capacity discharge rate being responsive to one or more factors; determining a forecast discharge time in response to the dynamic capacity discharge rate; comparing the forecast discharge time to the predetermined discharge time and, if the forecast discharge time is less than the predetermined discharge time, drawing power from the fuel cell until the dynamic capacity discharge rate results in the forecast discharge time being greater than or equal to the predetermined discharge time. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for achieving a predetermined discharge time for a mobile electronic device, comprising the steps of:
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providing a battery for supplying primary power to the mobile electronic device, and a fuel cell for supplying auxiliary power to the mobile electronic device; establishing a baseline capacity discharge rate to achieve the predetermined discharge time; monitoring a dynamic capacity discharge rate of the mobile electronic device, the dynamic capacity discharge rate being responsive to one or more factors; comparing the dynamic capacity discharge rate to the baseline capacity discharge rate and, if the dynamic capacity discharge rate differs from the baseline capacity discharge rate, drawing power from the fuel cell to make up the difference. - View Dependent Claims (20)
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Specification