Primary battery having a built-in controller to extend battery run time
First Claim
1. A primary battery useful with a device having a cut-off voltage, the primary battery comprising:
- (a) a container having a positive terminal and a negative terminal;
(b) a primary electrochemical cell disposed within said container, said cell having a positive electrode, a negative electrode, a cell voltage measured across said positive and said negative electrodes of said cell, and a nominal voltage; and
(c) a controller electrically connected between said electrodes of said cell and said terminals of said container to create an output voltage measured across said positive and said negative terminals of said container, said controller including a converter adapted to operate at a cell voltage less than the cut-off voltage of the device, such that said controller extends the run time of the battery by converting said cell voltage to said output voltage, so that said output voltage is greater than the cut-off voltage of the device.
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Accused Products
Abstract
A battery having a built-in controller is disclosed that extends the run time of the battery. The controller may extend the run time of the battery, for example, by converting the cell voltage to an output voltage that is greater than a cut-off voltage of an electronic device, by converting the cell voltage to an output voltage that is less than the nominal voltage of the electrochemical cell of the battery, or by protecting the electrochemical cell from current peaks. The controller may also include a ground bias circuit that provides a virtual ground so that a converter may operate at lower cell voltages. The battery may be a single-cell battery, a universal single-cell battery, a multiple-cell battery or a multiple-cell hybrid battery.
159 Citations
31 Claims
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1. A primary battery useful with a device having a cut-off voltage, the primary battery comprising:
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(a) a container having a positive terminal and a negative terminal;
(b) a primary electrochemical cell disposed within said container, said cell having a positive electrode, a negative electrode, a cell voltage measured across said positive and said negative electrodes of said cell, and a nominal voltage; and
(c) a controller electrically connected between said electrodes of said cell and said terminals of said container to create an output voltage measured across said positive and said negative terminals of said container, said controller including a converter adapted to operate at a cell voltage less than the cut-off voltage of the device, such that said controller extends the run time of the battery by converting said cell voltage to said output voltage, so that said output voltage is greater than the cut-off voltage of the device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
(i) a control circuit electrically connected to said positive and said negative electrodes of said cell;
(ii) a DC/AC driver electrically connected to said control circuitry; and
(iii) a synchronous rectifier electrically connected to said DC/AC driver and to said positive and said negative terminals of said container.
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13. The primary battery of claim 12, wherein said controller further comprises:
(iv) a ground bias circuit electrically connected to said positive and said negative electrodes of said cell, said ground bias circuit providing a virtual ground to said converter and to said negative terminal of said container.
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14. The primary battery of claim 13, wherein said ground bias circuit includes a charge pump circuit.
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15. The primary battery of claim 13, wherein said virtual ground is a voltage level below the voltage level of said negative electrode of said cell.
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16. The primary battery of claim 12, wherein said control circuit further comprises a pulse modulator.
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17. The primary battery of claim 16, wherein said pulse modulator includes a pulse-width modulator having at least one input control signal.
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18. The primary battery of claim 17, wherein said pulse modulator is adapted to electronically disconnect said converter from said cell and to electronically connect said converter to said cell.
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19. The primary battery of claim 18, wherein said pulse modulator is adapted to electronically disconnect said converter from said cell and to electronically connect said converter to said cell based at least in part on one or more control signals selected from the group of an internal impedance of said cell, a drain current, and said output voltage.
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20. The primary battery of claim 18, wherein said pulse modulator is adapted to electronically connect said converter between said electrodes of said cell and said terminals of said container when said cell voltage falls to a predetermined voltage level.
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21. The primary battery of claim 20, wherein said predetermined voltage level is in the range from the cut-off voltage of the device to about said nominal voltage of said cell.
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22. A primary battery comprising:
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(a) a container having a positive terminal and a negative terminal;
(b) a primary electrochemical cell disposed within said container, said cell having a positive electrode, a negative electrode, a cell voltage measured across said positive and said negative electrodes of said cell, and a nominal voltage; and
(c) a controller electrically connected between said electrodes of said cell and said terminals of said container to create an output voltage measured across said positive and said negative terminals of said container, said controller including a converter that converts said cell voltage to said output voltage, so that said output voltage is less than said nominal voltage of said cell. - View Dependent Claims (23, 24, 25)
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26. A primary battery comprising:
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(a) a container having a positive terminal and a negative terminal;
(b) a primary electrochemical cell disposed within said container, said cell having a positive electrode, a negative electrode, and a cell voltage measured across said positive and said negative electrodes of said cell; and
(c) a controller electrically connected between said electrodes of said cell and said terminals of said container to create an output voltage measured across said positive and said negative terminals of said container, said controller including a converter that converts said cell voltage to said output voltage and a capacitor that provides storage of electrical charge to protect said cell from current peaks. - View Dependent Claims (27)
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28. A device including at least one primary battery, said device comprising:
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(a) a positive input terminal;
(b) a negative input terminal electrically connected to said positive input terminal;
(c) a cut-off voltage; and
(d) a primary battery having a run time, said primary battery comprising;
(i) a container having a positive output terminal electrically connected to said positive input terminal of said device and a negative output terminal electrically connected to said negative input terminal of said device, (ii) a primary electrochemical cell disposed within said container, said cell having a positive electrode, a negative electrode, a cell voltage measured across said positive and said negative electrodes of said cell, and a nominal voltage, and (iii) a controller electrically connected between said electrodes of said cell and said output terminals of said container to create an output voltage measured across said positive and said negative output terminals of said container, said controller including a converter adapted to operate at a cell voltage less than the cut-off voltage of the device;
said controller adapted to extend said run time of said battery by converting said cell voltage to said output voltage so that said output voltage is greater than said cut-off voltage of said device. - View Dependent Claims (29, 30)
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31. A method for extending the run time of a primary battery, said method comprising the steps of:
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(a) providing a primary battery including;
(i) a container having a positive terminal and a negative terminal;
(ii) an electrochemical cell disposed within said container, said cell having a positive electrode, a negative electrode, a cell voltage measured across said positive electrode and said negative electrode of said cell, and a nominal voltage; and
(iii) a controller electrically connected between said electrodes of said cell and said terminals of said container to create an output voltage measured across said positive terminal and said negative terminal of said container, said controller including a converter;
(b) electrically connecting said primary battery to a device having a cut-off voltage;
(c) converting said cell voltage to said output voltage, so that said output voltage is greater than the cut-off voltage of the device.
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Specification