Battery pack protective circuit for detecting overcharge or wire disconnect
First Claim
1. A protective circuit of a battery pack, the protective circuit comprising:
- a plurality of battery cells connected in series;
a cell voltage detecting unit coupled to negative and positive electrodes of the battery cells through sensing wires for detecting a voltage of each of the battery cells, the cell voltage detecting unit having common circuitry for providing both;
signals indicating a disconnection of one or more of the sensing wires, andsignals indicating an overcharging of one or more of the battery cells,wherein one of the signals indicating a disconnection of one of the sensing wires has a voltage higher than a signal corresponding to a cell voltage of a corresponding one of the battery cells which is not overcharged before said one of the sensing wires is disconnected;
a switch unit coupled to a high current line in series between an end terminal of the plurality of battery cells and a first external terminal; and
a control unit adapted to generate a control signal to operate the switch unit in response to both the signals indicating a disconnection of one or more of the sensing wires and the signals indicating an overcharging of one or more of the battery cells.
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Accused Products
Abstract
A protective circuit of a battery pack and a method of operating the protective circuit prevents the battery cells from being overcharged by directly detecting overcharge or detecting disconnection of sensing wires, which sense the voltage of battery cells, and instantly shuts off the high current being applied to the battery cells when the sensing wires are disconnected. The protective circuit includes at least one battery cell, and a cell voltage detecting unit adapted to detect the voltage of the battery cell. The protective circuit also includes a switch unit, and a control unit adapted to receive a signal from the cell voltage detecting unit and generate a predetermined control signal based on the signal of the cell voltage detecting unit in order to turn off the switch unit when the battery cell is overcharged or the sensing wire is disconnected.
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Citations
19 Claims
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1. A protective circuit of a battery pack, the protective circuit comprising:
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a plurality of battery cells connected in series; a cell voltage detecting unit coupled to negative and positive electrodes of the battery cells through sensing wires for detecting a voltage of each of the battery cells, the cell voltage detecting unit having common circuitry for providing both; signals indicating a disconnection of one or more of the sensing wires, and signals indicating an overcharging of one or more of the battery cells, wherein one of the signals indicating a disconnection of one of the sensing wires has a voltage higher than a signal corresponding to a cell voltage of a corresponding one of the battery cells which is not overcharged before said one of the sensing wires is disconnected; a switch unit coupled to a high current line in series between an end terminal of the plurality of battery cells and a first external terminal; and a control unit adapted to generate a control signal to operate the switch unit in response to both the signals indicating a disconnection of one or more of the sensing wires and the signals indicating an overcharging of one or more of the battery cells. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A protective circuit of a battery pack, the protective circuit comprising:
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a plurality of battery cells connected in series; a cell voltage detecting unit coupled to negative and positive electrodes of the battery cells through sensing wires for detecting a voltage of each of the battery cells, the cell voltage detecting unit having common circuitry for providing both; signals indicating a disconnection of one or more of the sensing wires, and signals indicating an overcharging of one or more of the battery cells; a switch unit coupled to a high current line in series between an end terminal of the plurality of battery cells and a first external terminal; and a control unit adapted to generate a control signal to operate the switch unit in response to both the signals indicating a disconnection of one or more of the sensing wires and the signals indicating an overcharging of one or more of the battery cells, wherein the cell voltage detecting unit comprises for each of the battery cells; a voltage divider coupled between the negative and positive electrodes of a corresponding one of the battery cells through a sensing wire; a reference voltage source coupled to the negative electrode of the corresponding battery cell; and a comparator having; a non-inverting terminal coupled to the reference voltage source; and an inverting terminal coupled to the voltage divider to send an inverting signal to the control unit when a voltage applied to the non-inverting terminal is higher than a voltage applied to the inverting terminal, wherein the comparator sends the inverting signal to the control unit upon disconnection of the sensing wire coupled to the corresponding battery cell.
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18. A protective circuit of a battery pack, the protective circuit comprising:
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a plurality of battery cells connected in series; a cell voltage detecting unit coupled to negative and positive electrodes of the battery cells through sensing wires for detecting a voltage of each of the battery cells, the cell voltage detecting unit having common circuitry for providing both; signals indicating a disconnection of one or more of the sensing wires, and signals indicating an overcharging of one or more of the battery cells; a switch unit coupled to a high current line in series between an end terminal of the plurality of battery cells and a first external terminal; and a control unit adapted to generate a control signal to operate the switch unit in response to both the signals indicating a disconnection of one or more of the sensing wires and the signals indicating an overcharging of one or more of the battery cells, wherein the switch unit comprises a charge FET device and a discharge FET device, which are coupled to each other in series, and the control signal of the control unit is inputted into gates of the charge FET device and the discharge FET device, and wherein the charge FET device of the switch unit is turned off when the control signal of the control unit is applied to the charge FET device due to a disconnection of the sensing wire.
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19. A protective circuit of a battery pack, the protective circuit comprising:
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a plurality of battery cells connected in series; a cell voltage detecting unit coupled to negative and positive electrodes of the battery cells through sensing wires for detecting a voltage of each of the battery cells, the cell voltage detecting unit having common circuitry for providing both; signals indicating a disconnection of one or more of the sensing wires, and signals indicating an overcharging of one or more of the battery cells; a switch unit coupled to a high current line in series between an end terminal of the plurality of battery cells and a first external terminal; and a control unit adapted to generate a control signal to operate the switch unit in response to both the signals indicating a disconnection of one or more of the sensing wires and the signals indicating an overcharging of one or more of the battery cells, wherein the switch unit comprises; a self control protector; and an FET device for operating the self control protector, wherein the self control protector comprises; at least one fuse coupled to the high current line in series between the end terminal of the battery cells and the external terminal; and a coil aligned between fuses for applying heat to the fuse, in which the coil is coupled to the battery cell through the FET device and a gate of the FET device receives the control signal of the control unit, and wherein the control unit sends the control signal to the gate of the FET device upon the disconnection of a sensing wire, so that the self control protector applies a current to the coil, thereby melting the fuse as a result of heat generated from the coil.
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Specification