Method and system for determining battery cell voltage
First Claim
Patent Images
1. A battery pack comprising:
- a housing;
a first group of cells positioned within the housing, wherein the first group of cells includes at least two series-connected cells;
a second group of cells positioned within the housing, wherein the second group of cells includes at least two series-connected cells;
a third group of cells positioned within the housing, wherein the third group of cells includes at least two series-connected cells,wherein the first group of cells, the second group of cells, and the third group of cells are connected in series; and
two tap connections to connect the first group of cells, the second group of cells, and the third group of cells to a detection circuit to provide respective voltages across the first, second, and third groups of cells to the detection circuit, the detection circuit including a microprocessor programmed to calculate at least one voltage ratio between the first group of cells and the second group of cells, at least one voltage ratio between the second group of cells and the third group of cells, and at least one voltage ratio between the third group of cells and the first group of cells,wherein the microprocessor is programmed to compare the at least one voltage ratio between the first group of cells and the second group of cells to a predetermined voltage ratio, compare the at least one voltage ratio between the second group of cells and the third group of cells to the predetermined voltage ratio, and compare the at least one voltage ratio between the third group of cells and the first group of cells to the predetermined voltage ratio, andwherein the microprocessor is programmed to determine at least one of an over-voltage condition and an under-voltage condition of a cell in the first, second or third group of cells based on the comparisons.
1 Assignment
0 Petitions
Accused Products
Abstract
Embodiments of the invention relate to a method and system of determining over-voltage and under-voltage conditions for cells in a battery pack. The method includes combining the cells in a battery pack into groups, detecting each cell group'"'"'s voltage, and calculating ratios of cell group voltages to determine over-voltage and under-voltage conditions.
-
Citations
14 Claims
-
1. A battery pack comprising:
-
a housing; a first group of cells positioned within the housing, wherein the first group of cells includes at least two series-connected cells; a second group of cells positioned within the housing, wherein the second group of cells includes at least two series-connected cells; a third group of cells positioned within the housing, wherein the third group of cells includes at least two series-connected cells, wherein the first group of cells, the second group of cells, and the third group of cells are connected in series; and two tap connections to connect the first group of cells, the second group of cells, and the third group of cells to a detection circuit to provide respective voltages across the first, second, and third groups of cells to the detection circuit, the detection circuit including a microprocessor programmed to calculate at least one voltage ratio between the first group of cells and the second group of cells, at least one voltage ratio between the second group of cells and the third group of cells, and at least one voltage ratio between the third group of cells and the first group of cells, wherein the microprocessor is programmed to compare the at least one voltage ratio between the first group of cells and the second group of cells to a predetermined voltage ratio, compare the at least one voltage ratio between the second group of cells and the third group of cells to the predetermined voltage ratio, and compare the at least one voltage ratio between the third group of cells and the first group of cells to the predetermined voltage ratio, and wherein the microprocessor is programmed to determine at least one of an over-voltage condition and an under-voltage condition of a cell in the first, second or third group of cells based on the comparisons. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A battery pack comprising:
-
an outer casing; a first group of cells positioned within the outer casing, the first group of cells including at least two series-connected cells; a second group of cells positioned within the outer casing, the second group of cells including at least two series-connected cells; a third group of cells positioned within the outer casing, the third group of cells including at least two series-connected cells, wherein the first group of cells, the second group of cells, and the third group of cells are connected in series; and two tap connections to connect the first group of cells, the second group of cells, and the third group of cells to a detection circuit to provide respective voltages across the first, second, and third groups of cells to the detection circuit, wherein the detection circuit includes a microprocessor programmed to calculate at least one voltage ratio between the first group of cells and the second group of cells, at least one voltage ratio between the second group of cells and the third group of cells, and at least one voltage ratio between the third group of cells and the first group of cells, wherein the microprocessor is programmed to compare the at least one voltage ratio between the first group of cells and the second group of cells to a predetermined voltage ratio, compare the at least one voltage ratio between the second group of cells and the third group of cells to the predetermined voltage ratio, and compare the at least one voltage ratio between the third group of cells and the first group of cells to the predetermined voltage ratio, and wherein the microprocessor is programmed to determine at least one of an over-voltage condition and an under-voltage condition of a cell in the first, second or third group of cells based on the comparisons. - View Dependent Claims (7, 8, 9, 10)
-
-
11. A method for determining over-voltage and under-voltage conditions of a battery pack, the method comprising:
-
grouping at least two of a plurality of series-connected cells in a first group of cells; grouping at least two of the plurality of series-connected cells in a second group of cells; grouping at least two of the plurality of series-connected cells in a third group of cells; connecting the first group of cells, the second group of cells, and the third group of cells to a detection circuit via two tap connections to provide respective voltages across the first, second, and third groups of cells to the detection circuit, the detection circuit including a microprocessor; calculating, by the microprocessor, at least one voltage ratio between the first group of cells and the second group of cells, at least one voltage ratio between the second group of cells and the third group of cells, and at least one voltage ratio between the third group of cells and the first group of cells, comparing, by the microprocessor, the at least one voltage ratio between the first group of cells and the second group of cells to a predetermined voltage ratio; comparing, by the microprocessor, the at least one voltage ratio between the second group of cells and the third group of cells to the predetermined voltage ratio; comparing, by the microprocessor, the at least one voltage ratio between the third group of cells and the first group of cells to the predetermined voltage ratio; and determining, by the microprocessor, at least one of an over-voltage condition and an under-voltage condition of a cell in the first, second or third group of cells based on the comparisons. - View Dependent Claims (12, 13, 14)
-
Specification