Fuel cell power supply for portable computing device and method for fuel cell power control
First Claim
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1. A fuel cell powered information appliance comprising:
- an information appliance having a processor for executing computer instructions;
a memory or register communicatively coupled to said processor;
a fuel cell generating electrical power and coupled to at least one of said processor and said memory for providing operating power (voltage and current) to operating electrical circuits within said processor and memory.
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Accused Products
Abstract
Electronic circuit and control system and method in hardware and software for controlling fuel cell and fuel cell powered electrical or electronic device. System, device, method and computer program and computer program product for monitoring and controlling fuel cell based power supply and powered information appliance, such as mobile telephone and laptop computer. Fuel cell for powering and fuel cell powered information appliance or computer. Fuel cell power pack adapted to provide electrical operating power to an electrical device. Interface circuit and control device and method for a fuel cell powered electronic device. Method of controlling operation of a fuel cell to generate electricity for an electrical device. Electrical control power pack adapted to replace battery for a laptop computer.
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Citations
30 Claims
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1. A fuel cell powered information appliance comprising:
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an information appliance having a processor for executing computer instructions;
a memory or register communicatively coupled to said processor;
a fuel cell generating electrical power and coupled to at least one of said processor and said memory for providing operating power (voltage and current) to operating electrical circuits within said processor and memory. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A fuel cell powered notebook computer.
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8. A power pack adapted to provide electrical operating power to an electrical device, said power pack comprising:
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a fuel cell assembly;
an electrical interface circuit receiving a voltage and current from said fuel cell assembly and generating an electrical output voltage and current for operation of said electrical device, said electrical interface including a controller executing a control procedure for managing operation of said fuel cell assembly and said electrical device according to a predetermined control procedure; and
a housing enclosing said fuel cell assembly and said electrical interface circuit. - View Dependent Claims (9, 10, 11, 12, 13)
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14. An interface circuit for a fuel cell powered electronic device comprising:
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a DC-DC voltage boost circuit operating with an output voltage related feedback signal;
a storage capacitor coupled to and receiving charge generated by said boost circuit; and
a microcontroller coupled to said boost circuit for controlling operation or non-operation of said boost circuit. - View Dependent Claims (15, 16)
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17. A method of controlling operation of a voltage boost converter circuit coupled to a fuel cell and another energy storage device.
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18. A method for boosting a lower fuel cell voltage up to higher voltage for operation of an electrical device selected from the set of devices consisting of a cellular phone, a laptop computer, a palm top computer, a PDA, a radio, a radio-frequency transmitter, a radio-frequency receiver.
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19. An interface circuit as in clam 14, wherein said interface circuit further comprises a battery and said voltage boost circuit limiting a battery charging current to a predetermined current less than a current that would damage said battery.
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20. An interface circuit as in clam 14, wherein said boost circuit boosting the fuel cell voltage to a higher voltage level and for supplying charge to capacitive and battery storage devices within the circuit.
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21. An interface circuit as in clam 14, wherein said microcontroller monitors at least a sample of the fuel cell output voltage to determine when to operate the boost circuit.
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22. An interface circuit as in clam 21, wherein said microprocessor is adapted to execute computer program instructions to modify and control the operation of the microcontroller.
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23. An interface circuit as in clam 22, wherein the computer program instructions include an instruction to perform a fuel cell load test including applying an incremental load to the fuel cell and determining a resulting fuel cell output voltage, the fuel cell load test being failed if the fuel cell in unable to maintain a predetermined output voltage level.
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24. An interface circuit as in clam 23, wherein the boost circuit is not turned on or turned off if the fuel cell load test is failed.
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25. An interface circuit as in clam 23, wherein the load test is performed only on the expiration of a counter count so that the load test is performed less frequently than ever execution cycle of a set of instructions executing in said microprocessor.
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26. An interface circuit as in clam 23, wherein operation of the boost circuit is further regulated by hardware components that include feedback control elements.
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27. An interface circuit for a fuel cell powered information appliance comprising:
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a DC-DC voltage boost circuit operating with an output voltage related feedback signal to boost a lower fuel cell output voltage to a higher voltage operating voltage of said cellular telephone;
a storage capacitor and a storage battery coupled to and receiving charge generated by said boost circuit, said boot converter circuit further operating to limiting a storage battery charging current to a predetermined current less than a current that would damage said storage battery; and
a microcontroller adapted to execute instructions to modify and control the operation of the microprocessor and coupled to said boost circuit for controlling operation or non-operation of said boost circuit based on a fuel cell output voltage;
said interface circuit being adapted to control and regulate power drawn from and charge and discharge of a fuel cell and maintain safe operation within predefined voltage, current, and power ranges, and said cellular telephone having a power-consumption ranging between substantially 10 watts and 60 watts and an operating voltage range between substantially 5 volts and 20 volts.
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28. A power pack specifically adapted to replace a battery for a laptop computer having a laptop computer body, said power pack comprising:
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a fuel cell assembly;
a housing adapted to removably engage the laptop computer body, said housing enclosing said fuel cell assembly and said fuel cartridge; and
an interface circuit including;
a DC-DC voltage boost circuit operating with an output voltage related feedback signal;
a storage capacitor coupled to and receiving charge generated by said boost circuit; and
a microcontroller coupled to said boost circuit for controlling operation or non-operation of said boost circuit.
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- 29. A method of controlling a fuel cell power pack to provide electrical energy to operate an electronic device.
Specification
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Current AssigneePolyfuel, Inc.
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Original AssigneePolyfuel, Inc.
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InventorsAttia, Alan I., Bliven, David C.
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Application NumberUS10/727,090Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current429/12CPC Class CodesH02J 7/34 Parallel operation in netwo...
