Battery cell bypass topology
First Claim
1. A method of optimizing the energy storage capacity of a battery powering a load comprising the steps of:
- (a) electrically connecting a plurality of battery cells in series to form a first and at least a second cellular string, all of the cellular strings containing the same number of battery cells;
(b) electrically connecting the cellular strings in parallel to form a battery array such that, together, the cellular strings power the load; and
(c) sensing the condition of each of the battery cells in the first and second cellular strings;
(d) upon failure of a first battery cell in one cellular string as determined in step (c), disconnecting at least a battery cell in each of the other series strings of the battery array to form a modified battery array such that, thereafter, the modified battery array continues to power the load with reduced but optimized capacity.
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Accused Products
Abstract
When the cell of a battery, most notably a lithium ion battery, fails and human intervention is unavailable to correct the problem. a system is provided for optimizing the energy storage capacity of the battery. At least two cellular strings, each including a plurality of battery cells, are connected electrically in series. All cellular strings contain the same number of battery cells and are electrically connected in parallel to form a battery array powering a load. A sensor detects the condition of each battery cell and sends a signal of the detected condition to a controller for operating the battery array for powering the load. A switching arrangement is responsive to the sensor, upon failure of a battery cell in one cellular string, for disconnecting at least one other battery cell of the battery array such that, thereafter, the modified battery array continues to power the load with reduced but optimized capacity. In one instance, the switching arrangement is operable, upon failure of the battery cell in one cellular string to disconnect that cellular string from the remaining cellular strings which, thereafter, alone continue to power the load. In another instance, the switching arrangement is operable, upon failure of the battery cell in one cellular string, to disconnect a battery cell from each of the remaining cellular strings whereby all of the cellular strings continue, as originally, to have an equal, albeit reduced, number of active battery cells, the modified battery array continuing to power the load.
111 Citations
12 Claims
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1. A method of optimizing the energy storage capacity of a battery powering a load comprising the steps of:
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(a) electrically connecting a plurality of battery cells in series to form a first and at least a second cellular string, all of the cellular strings containing the same number of battery cells; (b) electrically connecting the cellular strings in parallel to form a battery array such that, together, the cellular strings power the load; and (c) sensing the condition of each of the battery cells in the first and second cellular strings; (d) upon failure of a first battery cell in one cellular string as determined in step (c), disconnecting at least a battery cell in each of the other series strings of the battery array to form a modified battery array such that, thereafter, the modified battery array continues to power the load with reduced but optimized capacity. - View Dependent Claims (2, 3, 4)
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5. A system for optimizing the energy storage capacity of a battery powering a load comprising:
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a first cellular string including a plurality of battery cells connected electrically in series; at least a second cellular string including a plurality of battery cells connected electrically in series; each of said first and second cellular strings containing the same number of said battery cells; said first and second cellular strings being electrically connected in parallel to form a battery array such that, together, said first and second cellular strings power the load; sensing means for detecting the condition of each of said battery cells in said first and second cellular strings; and switch means responsive to said sensing means upon failure of a first battery cell in said first cellular string for disconnecting at least a second battery cell of said battery array to thereby form a modified battery array such that, thereafter, said modified battery array continues to power the load with reduced but optimized capacity. - View Dependent Claims (6, 7, 8)
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9. A system for optimizing the energy storage capacity of a battery comprising:
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a load to be powered; a first cellular string including a plurality of battery cells connected electrically in series; at least a second cellular string including a plurality of battery cells connected electrically in series; each of said first and second cellular strings containing the same number of said battery cells; said first and second cellular strings being electrically connected in parallel to form a battery array such that, together, said first and second cellular strings power said load; controller means for operating said battery array to power said load; sensing means for detecting the condition of each of said battery cells in said first and second cellular string and for sending a signal of the detected condition to said controller means; and switch means responsive to said sensing means upon failure of a first battery cell in said first cellular string for disconnecting at least a second battery cell of said battery array to thereby form a modified battery array such that, thereafter, said modified battery array continues to power the load with reduced but optimized capacity. - View Dependent Claims (10, 11, 12)
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Specification