Battery system, electric vehicle, movable body, power storage device, and power supply device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-031/36
H02J-007/00
출원번호
US-0184827
(2014-02-20)
등록번호
US-9529051
(2016-12-27)
우선권정보
JP-2011-186966 (2011-08-30)
발명자
/ 주소
Yamada, Akihiko
출원인 / 주소
SANYO ELECTRIC CO., LTD.
대리인 / 주소
Cantor Colburn LLP
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
Provided is a battery system capable of accurately calculating a state of charge of a battery cell, an electric vehicle, a movable structure, an electricity storage device, and a power supply device. A current-based SOC calculation unit calculates a current-based SOCi on the basis of current flowing
Provided is a battery system capable of accurately calculating a state of charge of a battery cell, an electric vehicle, a movable structure, an electricity storage device, and a power supply device. A current-based SOC calculation unit calculates a current-based SOCi on the basis of current flowing in a battery cell. A voltage-based SOC calculation unit calculates a voltage-based SOCv on the basis of the terminal voltage of the battery cell. A combined SOC calculation unit calculates a combined SOCt by weighting the SOCi and the SOCv with the respective weight coefficients (1−α) and α, and combining the weighted SOCi and SOCv. The weight coefficients (1−α) and α are determined based on whether the battery cell is in a charging state, a discharging state, or a charge/discharge stopped state.
대표청구항▼
1. A battery system comprising: a battery cell; anda state-of-charge calculation unit that calculates a state of charge of the battery cell, whereinthe state-of-charge calculation unit comprises:a first state-of-charge calculation unit that calculates a state of charge of the battery cell based on a
1. A battery system comprising: a battery cell; anda state-of-charge calculation unit that calculates a state of charge of the battery cell, whereinthe state-of-charge calculation unit comprises:a first state-of-charge calculation unit that calculates a state of charge of the battery cell based on a current flowing in the battery cell as a first state of charge;a second state-of-charge calculation unit that calculates a state of charge of the battery cell based on a terminal voltage of the battery cell as a second state of charge; anda combining unit that weights the first state of charge calculated by the first state-of-charge calculation unit and the second state of charge calculated by the second state-of-charge calculation unit with a first weight coefficient and a second weight coefficient, respectively, and that combines the weighted first state of charge and the weighted second state of charge to calculate a combined state of charge,wherein the combining unit determines the first weight coefficient and the second weight coefficient based on whether the battery cell is in a charging state, a discharging state, or a charge/discharge stopped state; andthe combining unit increases the second weight coefficient from a value less than the first weight coefficient to a value greater than the first weight coefficient in a transfer period having a length less than or equal to a transition period which is a period from a time when charging or discharging of the battery cell is stopped to a time when a steady state is reached. 2. The battery system according to claim 1, wherein the combining unit determines the first weight coefficient and the second weight coefficient based on at least one of a temperature of the battery cell, the current flowing in the battery cell, and a combined state of charge which is preciously calculated. 3. The battery system according to claim 1, wherein the combining unit continuously changes, with elapse of time, the first weight coefficient and the second weight coefficient at a switching between the charging state, the discharging state, and the charge/discharge stopped state toward determined values. 4. The battery cell according to claim 1, further comprising: an output unit that outputs at least one of the first weight coefficient, the second weight coefficient, and the combined state of charge calculated by the combining unit. 5. An electric vehicle comprising: the battery system according to claim 1;a motor that is driven by an electric power from the battery cell of the battery system; anda drive wheel that is rotated by a rotational power of the motor. 6. A movable structure comprising: the battery system according to claim 1;a movable structure body;a motive power source that converts an electric power from the battery cell of the battery system into a motive power for moving the movable structure body; anda drive unit that moves the movable structure body by the motive power converted by the motive power conversion unit. 7. An electricity storage device comprising: the battery system according to claim 1; anda system controlling unit that applies a control related to charging or discharging of the battery cell of the battery system. 8. A power supply device connectable to outside, the power supply device comprising: electricity storage device according to claim 7; andan electric power conversion device that is controlled by the system controlling unit of the electricity storage device, and that applies an electric power conversion between the battery cell of the battery system of the electricity storage device and the outside. 9. A battery system comprising: a battery cell; anda state-of-charge calculation unit that calculates a state of charge of the battery cell, whereinthe state-of-charge calculation unit comprises:a first state-of-charge calculation unit that calculates a state of charge of the battery cell based on a current flowing in the battery cell as a first state of charge;a second state-of-charge calculation unit that calculates a state of charge of the battery cell based on a terminal voltage of the battery cell as a second state of charge; anda combining unit that weights the first state of charge calculated by the first state-of-charge calculation unit and the second state of charge calculated by the second state-of-charge calculation unit with a first weight coefficient and a second weight coefficient, respectively, and that combines the weighted first state of charge and the weighted second state of charge to calculate a combined state of charge,wherein the combining unit determines the first weight coefficient and the second weight coefficient based on whether the battery cell is in a charging state, a discharging state, or a charge/discharge stopped state; andthe state-of-charge calculation unit further comprises: a third state-of-charge calculation unit that calculates a state of charge of the battery cell based on a current flowing in the battery cell as a third state of charge;a fourth state-of-charge calculation unit that calculates a state of charge of the battery cell based on a terminal voltage of the battery cell as a fourth state of charge; andan output state-of-charge calculation unit that weights the third state of charge calculated by the third state-of-charge calculation unit and the fourth state of charge calculated by the fourth state-of-charge calculation unit with a third weight coefficient and a fourth weight coefficient, respectively, and that combines the weighted third state of charge and the weighted fourth state of charge to calculate an output state of charge, andthe output state-of-charge calculation unit continuously changes at least one of the third state of charge calculated by the third state-of-charge calculation unit and the fourth state of charge calculated by the fourth state-of-charge calculation unit so that the output state of charge becomes a lower limit value when the terminal voltage of the battery cell reaches a discharge termination voltage and becomes an upper limit value when the terminal voltage of the battery cell reaches a charge termination voltage.
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이 특허에 인용된 특허 (5)
Clegg Andrew S. (Chippenham GB2), Battery monitor which indicates remaining capacity by continuously monitoring instantaneous power consumption relative t.
Sullivan Michael Scott ; Brost Ronald David ; Chen Yaobin ; Eberhart Russell Carley, Method and apparatus for determining battery state-of-charge using neural network architecture.
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