Battery cell by-pass circuit
First Claim
1. A method of limiting the charging voltage applied to an individual cell of a plurality of cells making up a battery being charged in series, the method comprising the steps of:
- sensing the actual voltage level of the individual cell;
comparing the actual voltage level of the individual cell with a specific voltage level and providing an error signal representative thereof; and
by-passing the charging current around the individual cell to a level necessary to keep the individual cell voltage level generally equal to said specific voltage level while continuing to charge the remaining cells.
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Accused Products
Abstract
The invention is a circuit and method of limiting the charging voltage applied to an individual cell of a plurality of cells making up a battery being charged in series. It is particularly designed for use with batteries that can be damaged by overcharging, such as Lithium-ion type batteries. In detail, the method includes the following steps: sensing the actual voltage level of the individual cell; comparing the actual voltage level of the individual cell with a specific voltage level and providing an error signal representative thereof; and by-passing the charging current around the individual cell necessary to keep the individual cell voltage level generally equal to the specific voltage level while continuing to charge the remaining cells. Preferably this is accomplished by by-passing the charging current around the individual cell if said actual voltage level is above the specific voltage level and allowing the charging current to the individual cell if the actual voltage level is equal or less than the specific voltage level. In the step of bypassing the charging current the current is accomplished by dissipating the by-passed current as heat. The by-pass circuit for limiting the charging voltage applied to an individual cell of a series of cells forming a battery, the cells being charged in series includes a voltage detection circuit to sense the actual voltage level of the individual cell. A voltage comparison circuit is used to compare the actual voltage level of the individual cell with a reference value and to provide an error signal representative thereof. A third circuit, designed to be responsive to the error signal, is provided for bypassing charging current from the individual cell if the actual voltage level is above the specific voltage level and converts the excess charging current to heat. The circuitry also allows charging of the individual cell if the actual voltage level is equal or less than the specific voltage level.
49 Citations
10 Claims
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1. A method of limiting the charging voltage applied to an individual cell of a plurality of cells making up a battery being charged in series, the method comprising the steps of:
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sensing the actual voltage level of the individual cell;
comparing the actual voltage level of the individual cell with a specific voltage level and providing an error signal representative thereof; and
by-passing the charging current around the individual cell to a level necessary to keep the individual cell voltage level generally equal to said specific voltage level while continuing to charge the remaining cells. - View Dependent Claims (2, 3, 4)
by-passing said charging current around said individual cell if said actual voltage level is above said specific voltage level; and
allowing said charging current to charge said individual cell if said actual voltage level is equal or less than said reference level.
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3. The method as set forth in claim 2 wherein the step of by-passing said charging current around said individual cell if said actual voltage level above said specific voltage level includes the step of dissipating the by-passed current as heat.
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4. The method as set forth in claim 3 wherein said series of cells are Lithium-ion cells.
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5. A by-pass circuit for limiting the charging voltage applied to an individual cell of a series of cells forming a battery, the cells being charged in series, the by-pass circuit comprising:
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first means to sense the actual voltage level of the individual cell;
second means to compare the actual voltage level of the individual cell with a specific voltage level and to provide an error signal representative thereof; and
third means responsive to said error signal for by-passing the charging current around the individual cell to a level necessary to keep the individual cell voltage level generally equal to said specific voltage level while continuing to charge the remaining cells maintaining the individual cell voltage level generally equal to said reference level. - View Dependent Claims (6, 7, 8, 9, 10)
means to by-pass said charging current around said individual cell if the actual voltage level is above said specific voltage level; and
means to allow charging of the individual cell if the actual voltage level is equal or less than said specific voltage level.
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7. The by-pass circuit as set forth in claim 6 wherein said means to by-pass said charging current around said individual cell converts the by-passed current into heat.
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8. The by-pass circuit as set forth in claim 7 wherein said means to by-pass said charging current around said individual cell includes a MOSFET and power resistor placed in parallel with the individual cell for converting said by-passed current into heat.
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9. The by-pass circuit as set forth in claim 8 wherein said second means is a voltage comparison circuit.
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10. The by-pass circuit as set forth in claim 9 wherein said first means is a voltage detection circuit.
Specification