A battery system comprises a first battery cell and a first management unit which is connected in one-to-one correspondence to the first battery cell. The first management unit comprises a first parameter acquiring unit, a first calculating unit, and a first storage unit. The first parameter acquiri
A battery system comprises a first battery cell and a first management unit which is connected in one-to-one correspondence to the first battery cell. The first management unit comprises a first parameter acquiring unit, a first calculating unit, and a first storage unit. The first parameter acquiring unit acquires a power consumption parameter of the first battery cell. The first calculating unit calculates a power consumption state value of the first battery cell on the basis of the power consumption parameter acquired by the first parameter acquiring unit. The first storage unit stores the power consumption state value calculated by the first calculating unit.
대표청구항▼
1. A battery system comprising: a first battery cell; anda first management unit which is connected in one-to-one correspondence to the first battery cell,wherein the first management unit at least includes:a first parameter acquiring unit which acquires a power consumption parameter of the first ba
1. A battery system comprising: a first battery cell; anda first management unit which is connected in one-to-one correspondence to the first battery cell,wherein the first management unit at least includes:a first parameter acquiring unit which acquires a power consumption parameter of the first battery cell;a first calculating unit which calculates a power consumption state value of the first battery cell on the basis of the power consumption parameter acquired by the first parameter acquiring unit;a first storage unit which stores the power consumption state value calculated by the first calculating unit;a power load which moves by electric power supplied from the first battery cell; anda start time acquiring unit which times start time of the power load,wherein the first calculating unit which calculates the power consumption state value using at least two power consumption parameters among temperature of the first battery cell, a current value input to the first battery cell, a current value output from the first battery cell, and operating time of the power load, as power consumption parameters. 2. The battery system according to claim 1, wherein the power load is an electric motor, and wherein the battery system is one of an industrial vehicle, an electric vehicle, a hybrid vehicle, and an electric train, which uses the electric motor. 3. The battery system according to claim 1, further comprising: a second battery cell which is connected in series to the first battery cell; anda second management unit which is connected in one-to-one correspondence to the second battery cell,wherein the first management unit further comprises:a first voltage detecting unit which detects a potential of a positive terminal and a voltage between the positive terminal and a negative terminal of the first battery cell; anda first connection order calculating unit which calculates a connection order of the first battery cell by doing division with the potential of the positive terminal and the voltage between the positive terminal and the negative terminal,wherein the second management unit comprises:a second parameter acquiring unit which acquires a power consumption parameter of the second battery cell;a second calculating unit which calculates a power consumption state value of the second battery cell on the basis of the power consumption parameter acquired by the second parameter acquiring unit;a second storage unit which stores the power consumption state value calculated by the second calculating unit;a second voltage detecting unit which detects the potential of the positive terminal and a voltage between a positive terminal and a negative terminal of the second battery cell; anda second connection order calculating unit which calculates a connection order of the second battery cell by doing division with the potential of the positive terminal and the voltage between the positive terminal and the negative terminal,wherein the connection order calculated by the first connection order calculating unit is stored in the first storage unit so as to be associated with the power consumption state value of the first battery cell stored in the first storage unit, andthe connection order calculated by the second connection order calculating unit is stored in the second storage unit so as to be associated with the power consumption state value of the second battery cell stored in the second storage unit. 4. The battery system according to claim 3, further comprising: a third management unit which is connected to the second management unit by a second bus,wherein the first and the second management units are connected to each other by a first bus,wherein the second management unit comprises:an internal bus; anda switching unit which alternatively selects a non-bypass path, which electrically connects the second parameter acquiring unit, the second calculating unit, the second storage unit, the second voltage detecting unit, and the second connection order calculating unit to the first and the second buses, or a bypass path which electrically disconnects the second parameter acquiring unit, the second calculating unit, the second storage unit, the second voltage detecting unit, and the second connection order calculating unit from the first and the second buses and connects the first and the second buses to the internal bus,wherein the first or the third management unit comprises a switching control unit which determines whether a predetermined signal is output from the second management unit to the first or the second bus, wherein when it is determined that the predetermined signal is not output, the switching control unit transmits a switching signal to the switching unit through the first or the second bus, and wherein the switching unit switches the path from the non-bypass path to the bypass path. 5. The battery system according to claim 1, further comprising: an input device which inputs a command to read out the power consumption state value of the first battery cell from the first storage unit; and an output device which displays the power consumption state value which the first storage unit has output by the command. 6. The battery system according to claim 5, further comprising: a second battery cell which is connected in series to the first battery cell; anda second management unit which is connected in one-to-one correspondence to the second battery cell,wherein the first management unit further comprises:a first voltage detecting unit which detects a potential of a positive terminal and a voltage between the positive terminal and a negative terminal of the first battery cell; anda first connection order calculating unit which calculates a connection order of the first battery cell by doing division with the potential of the positive terminal and the voltage between the positive terminal and the negative terminal,wherein the second management unit comprises:a second parameter acquiring unit which acquires a power consumption parameter of the second battery cell;a second calculating unit which calculates a power consumption state value of the second battery cell on the basis of the power consumption parameter acquired by the second parameter acquiring unit;a second storage unit which stores the power consumption state value calculated by the second calculating unit;a second voltage detecting unit which detects the potential of the positive terminal and a voltage between a positive terminal and a negative terminal of the second battery cell; anda second connection order calculating unit which calculates a connection order of the second battery cell by doing division with the potential of the positive terminal and the voltage between the positive terminal and the negative terminal,wherein the connection order calculated by the first connection order calculating unit is stored in the first storage unit so as to be associated with the power consumption state value of the first battery cell stored in the first storage unit, andthe connection order calculated by the second connection order calculating unit is stored in the second storage unit so as to be associated with the power consumption state value of the second battery cell stored in the second storage unit. 7. The battery system according to claim 6, further comprising: a third management unit which is connected to the second management unit by a second bus,wherein the first and the second management units are connected to each other by a first bus,wherein the second management unit comprises:an internal bus; anda switching unit which alternatively selects a non-bypass path, which electrically connects the second parameter acquiring unit, the second calculating unit, the second storage unit, the second voltage detecting unit, and the second connection order calculating unit to the first and the second buses, or a bypass path which electrically disconnects the second parameter acquiring unit, the second calculating unit, the second storage unit, the second voltage detecting unit, and the second connection order calculating unit from the first and the second buses and connects the first and the second buses to the internal bus,wherein the first or the third management unit comprises a switching control unit which determines whether a predetermined signal is output from the second management unit to the first or the second bus, wherein when it is determined that the predetermined signal is not output, the switching control unit transmits a switching signal to the switching unit through the first or the second bus, andwherein the switching unit switches the path from the non-bypass path to the bypass path. 8. The battery system according to claim 7, wherein the power load is an electric motor, and wherein the battery system is one of an industrial vehicle, an electric vehicle, a hybrid vehicle, and an electric train, which uses the electric motor. 9. The battery system according to claim 1, further comprising an upper cover and a lower cover which are made of an insulating material, wherein the upper cover comprises input-output connectors,wherein the lower cover comprises the first calculating unit and the first storage unit, andwherein the upper cover is placed with an upper part of the first battery cell having a positive terminal and a negative terminal which lie in the same plane as the positive terminal, and the lower cover is fitted to the upper cover as such the first battery cell is tuck down, so as to integrally form the first battery cell and the upper and lower covers, and electrically connect the input-output connectors to the first calculating unit and the first storage unit. 10. The battery system according to claim 9, further comprising: an input device which inputs a command to read out the power consumption state value of the first battery cell from the first storage unit; andan output device which displays the power consumption state value which the first storage unit has output by the command. 11. The battery system according to claim 10, further comprising: a second battery cell which is connected in series to the first battery cell; anda second management unit which is connected in one-to-one correspondence to the second battery cell,wherein the first management unit further comprises:a first voltage detecting unit which detects a potential of a positive terminal and a voltage between the positive terminal and a negative terminal of the first battery cell; anda first connection order calculating unit which calculates a connection order of the first battery cell by doing division with the potential of the positive terminal and the voltage between the positive terminal and the negative terminal,wherein the second management unit comprises:a second parameter acquiring unit which acquires a power consumption parameter of the second battery cell;a second calculating unit which calculates a power consumption state value of the second battery cell on the basis of the power consumption parameter acquired by the second parameter acquiring unit;a second storage unit which stores the power consumption state value calculated by the second calculating unit;a second voltage detecting unit which detects the potential of the positive terminal and a voltage between a positive terminal and a negative terminal of the second battery cell; anda second connection order calculating unit which calculates a connection order of the second battery cell by doing division with the potential of the positive terminal and the voltage between the positive terminal and the negative terminal,wherein the connection order calculated by the first connection order calculating unit is stored in the first storage unit so as to be associated with the power consumption state value of the first battery cell stored in the first storage unit, andthe connection order calculated by the second connection order calculating unit is stored in the second storage unit so as to be associated with the power consumption state value of the second battery cell stored in the second storage unit. 12. The battery system according to claim 11, further comprising: a third management unit which is connected to the second management unit by a second bus,wherein the first and the second management units are connected to each other by a first bus,wherein the second management unit comprises:an internal bus; anda switching unit which alternatively selects a non-bypass path, which electrically connects the second parameter acquiring unit, the second calculating unit, the second storage unit, the second voltage detecting unit, and the second connection order calculating unit to the first and the second buses, or a bypass path which electrically disconnects the second parameter acquiring unit, the second calculating unit, the second storage unit, the second voltage detecting unit, and the second connection order calculating unit from the first and the second buses and connects the first and the second buses to the internal bus,wherein the first or the third management unit comprises a switching control unit which determines whether a predetermined signal is output from the second management unit to the first or the second bus, wherein when it is determined that the predetermined signal is not output, the switching control unit transmits a switching signal to the switching unit through the first or the second bus, andwherein the switching unit switches the path from the non-bypass path to the bypass path. 13. The battery system according to claim 12, wherein the power load is an electric motor, and wherein the battery system is one of an industrial vehicle, an electric vehicle, a hybrid vehicle, and an electric train, which uses the electric motor.
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이 특허에 인용된 특허 (11)
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