Deterioration of a power storage unit included in a vehicle is prevented or the power storage unit that has deteriorated is repaired, and the charge and discharge performance of the power storage unit is maximized to be maintained for a long time. Attention has focused on a reaction product formed o
Deterioration of a power storage unit included in a vehicle is prevented or the power storage unit that has deteriorated is repaired, and the charge and discharge performance of the power storage unit is maximized to be maintained for a long time. Attention has focused on a reaction product formed on an electrode surface which causes malfunction or deterioration of a power storage unit such as a lithium-ion secondary battery. In the power storage unit used for a vehicle that runs on the power of an electric motor, rapid discharge occurring in the acceleration of the vehicle or the like tends to promote the solidification of the reaction product. The reaction product is removed by application of an electrical stimulus, specifically, an inversion pulse voltage.
대표청구항▼
1. A charge and discharge control device comprising: a first terminal electrically connected to a third terminal through a first node and a first switch;a second terminal electrically connected to the third terminal through a second node and a second switch;a first convertor electrically connected t
1. A charge and discharge control device comprising: a first terminal electrically connected to a third terminal through a first node and a first switch;a second terminal electrically connected to the third terminal through a second node and a second switch;a first convertor electrically connected to the first node and the second node through a third switch; anda second convertor electrically connected to the second node and the first node through a fourth switch,wherein the first terminal is electrically connected to a first power storage,wherein the second terminal is electrically connected to a second power storage,wherein a charging period of the first power storage comprises a first period and a second period,wherein, in the first period, the first power storage is configured to be supplied electric power from the third terminal through the first switch and the first node, and the second switch, the third switch, and the fourth switch is configured to be brought into insulating state,wherein, in the second period, the first power storage is configured to supply electric power to the second power storage through the fourth switch and the second convertor, and the first switch, the second switch, and the third switch is configured to be brought into insulating state,wherein, in the charging period of the first power storage, the first period and the second period are configured to be performed an inversion pulse operation,wherein, in the inversion pulse operation, the first period and the second period is configured to be alternately performed, andwherein, in the inversion pulse operation, a time of the second period is greater than or equal to 0.01% and less than or equal to 10% of a time of the first period. 2. The charge and discharge control device according to claim 1, wherein, in the inversion pulse operation, a time of the second period is longer than or equal to 3 seconds and shorter than or equal to 30 seconds. 3. The charge and discharge control device according to claim 1, wherein, in the inversion pulse operation, an absolute value of a current supplying from the first power storage to the second power storage during the second period is higher than or equal to an absolute value of a current supplying from the third terminal to the first power storage during the first period. 4. The charge and discharge control device according to claim 1, wherein the first power storage and the second power storage comprises at least lithium. 5. The charge and discharge control device according to claim 1, wherein each a potential of a negative electrode of the first power storage and a potential of a negative electrode of the second power storage is less than or equal to approximately 0.2V vs. Li/Li+. 6. A vehicle comprising: an electric motor configured to be supplied electric power through the charge and discharge control device according to claim 1. 7. A charge and discharge control device comprising: a first terminal electrically connected to a third terminal through a first node and a first switch;a second terminal electrically connected to the third terminal through a second node and a second switch;a first convertor electrically connected to the first node and the second node through a third switch; anda second convertor electrically connected to the second node and the first node through a fourth switch,wherein the first terminal is electrically connected to a first power storage,wherein the second terminal is electrically connected to a second power storage,wherein a charging period of the first power storage comprises a first period and a second period,wherein, in the first period, the first power storage is configured to be supplied electric power from the third terminal through the first switch and the first node, and the second switch, the third switch, and the fourth switch is configured to be brought into insulating state,wherein, in the second period, the first power storage is configured to supply electric power to the second power storage through the third switch and the first convertor, and the first switch, the second switch, and the fourth switch is configured to be brought into insulating state,wherein, in the charging period of the first power storage, the first period and the second period are configured to be performed an inversion pulse operation of the first power storage,wherein, in the inversion pulse operation of the first power storage, the first period and the second period is configured to be alternately performed,wherein, in the inversion pulse operation of the first power storage, a time of the second period is greater than or equal to 0.01% and less than or equal to 10% of a time of the first period,wherein a charging period of the second power storage comprises a third period and a fourth period,wherein, in the third period, the second power storage is configured to be supplied electric power from the third terminal through the second switch and the second node, and the first switch, the third switch, and the fourth switch is configured to be brought into insulating state,wherein, in the fourth period, the second power storage is configured to supply electric power to the first power storage through the fourth switch and the second convertor, and the first switch, the second switch, and the third switch is configured to be brought into insulating state,wherein, in the charging period of the second power storage, the third period and the fourth period are configured to be performed an inversion pulse operation of the second power storage,wherein, in the inversion pulse operation of the second power storage, the third period and the fourth period is configured to be alternately performed,wherein, in the inversion pulse operation of the second power storage, a time of the fourth period is greater than or equal to 0.01% and less than or equal to 10% of a time of the third period. 8. The charge and discharge control device according to claim 7, wherein, in the inversion pulse operation, a time of the second period and a time of the fourth period are longer than or equal to 3 seconds and shorter than or equal to 30 seconds. 9. The charge and discharge control device according to claim 7, wherein, in the inversion pulse operation, an absolute value of a current supplying from the first power storage to the second power storage during the second period is higher than or equal to an absolute value of a current supplying from the third terminal to the first power storage during the first period. 10. The charge and discharge control device according to claim 7, wherein the first power storage and the second power storage comprises at least lithium. 11. The charge and discharge control device according to claim 7, wherein each a potential of a negative electrode of the first power storage and a potential of a negative electrode of the second power storage is less than or equal to approximately 0.2V vs. Li/Li+. 12. A vehicle comprising: an electric motor configured to be supplied electric power through the charge and discharge control device according to claim 7. 13. A charge and discharge control device comprising: a first terminal electrically connected to a third terminal through a first node and a first switch;a second terminal electrically connected to the third terminal through a second node and a second switch;a first convertor electrically connected to the first node and the second node through a third switch; anda second convertor electrically connected to the second node and the first node through a fourth switch,wherein the first terminal is electrically connected to a first power storage,wherein the second terminal is electrically connected to a second power storage,wherein a charging period of the first power storage comprises a first period and a second period,wherein, in the first period, the first power storage is configured to be supplied electric power from the third terminal through the first switch and the first node, and the second switch, the third switch, and the fourth switch is configured to be brought into insulating state,wherein, in the second period, the first power storage is configured to supply electric power to the second power storage through the fourth switch and the second convertor, and the first switch, the second switch, and the third switch is configured to be brought into insulating state,wherein, in the charging period of the first power storage, the first period and the second period are configured to be performed an inversion pulse operation,wherein, in the inversion pulse operation, the first period and the second period is configured to be alternately performed, andwherein, in the inversion pulse operation, a time of the second period is longer than or equal to 3 seconds and shorter than or equal to 30 seconds. 14. The charge and discharge control device according to claim 13, wherein, in the inversion pulse operation, an absolute value of a current supplying from the first power storage to the second power storage during the second period is higher than or equal to an absolute value of a current supplying from the third terminal to the first power storage during the first period. 15. The charge and discharge control device according to claim 13, wherein the first power storage and the second power storage comprises at least lithium. 16. The charge and discharge control device according to claim 13, wherein each a potential of a negative electrode of the first power storage and a potential of a negative electrode of the second power storage is less than or equal to approximately 0.2V vs. Li/Li+. 17. A vehicle comprising: an electric motor configured to be supplied electric power through the charge and discharge control device according to claim 13.
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이 특허에 인용된 특허 (13)
Sheldrake Leonard J. (Noblesville IN) Olson Stanley E. (Spencer IN) Karau Philip A. (Anderson IN), Charge/float motor vehicle electrical system.
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Shoichi Sasaki JP, Multiple power source system and apparatus, motor driving apparatus, and hybrid vehicle with multiple power source system mounted thereon.
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