| CPC H01M 10/049 (2013.01) [H01M 4/0447 (2013.01); H01M 10/058 (2013.01); H01M 50/105 (2021.01); H01M 50/116 (2021.01); H01M 50/211 (2021.01); H01M 50/50 (2021.01); H01M 50/502 (2021.01)] | 7 Claims |
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1. A method for manufacturing a secondary battery, the method comprising:
placing an electrode assembly in a seating part of a tray of a first pouch and sealing a planar cover to a flange of the tray with a negative electrode lead and a positive electrode lead extending out of the first pouch between the tray and cover to form a first cell;
placing an electrode assembly in a seating part of a tray of a second pouch and sealing a planar cover to a flange of the tray with a negative electrode lead and a positive electrode lead extending out of the second between the tray and cover to form a second cell;
individually activating the first cell and the second cell with a same charging/discharging device, wherein individually activating includes charging/discharging and aging;
stacking the activated first cell and the activated second cell so that the cover of the first cell contacts the cover of the second cell;
bonding the positive electrode lead of the activated first cell and the positive electrode lead of the activated second cell to each other and bonding the negative electrode lead of the activated first cell and the negative electrode lead of the activated second cell to each other;
activating a third cell in which charging/discharging and aging are performed and having a structure in which an electrode assembly is embedded in a pouch having a tray and cover, and a negative electrode lead and a positive electrode lead protrude to the outside of the pouch;
stacking the activated third cell on the activated second cell coupled to the activated first cell so that the activated second cell is disposed between the activated first cell and the activated third cell; and
bonding the positive electrode leads of the activated second cell and the activated third cell to each other and bonding the negative electrode lead of the activated second cell and the negative electrode lead of the activated third cell to each other,
wherein each of the pouches of the first cell and the third cell has two planes parallel to each other including a narrow surface of the tray and a wide surface of the cover, the wide surface being wider than the narrow surface,
wherein opposite surfaces of the tray and cover of the activated second cell have a same area as the wide surface of the pouch of each of the activated first cell and the activated third cell,
further comprising attaching a tape between the pouch of the activated first cell and the pouch of the activated second cell to adhere the first pouch to the second pouch, and
further comprising attaching a tape between the pouch of the activated second cell and the pouch of the activated third cell to adhere the activated third cell to the activated second cell,
wherein a first surface of the pouch of the second cell is adhered to the wide surface of the first cell pouch, and a second surface of the pouch of the second cell is adhered to the wide surface of the third cell pouch, and
wherein in the stacking direction of the activated first cell, the activated second cell, and the activated third cell, both the first surface and the second surface of the activated second cell have a same area as the wide surface of the pouch of each of the activated first cell and the activated third cell.
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