Power supply device, vehicle using same, bus bar, and electrical connection method for battery cell using same bus bar

1 . A power supply device, comprising: a battery stacked body including a pair of battery cells which are adjacently stacked and each have an electrode terminal, and having the electrode terminals on a surface of the battery stacked body; a bus bar electrically connecting the pair of battery cells; and a joining portion joining the electrode terminal of one of the pair of battery cells to the bus bar, and including an elliptic joining portion which joins the electrode terminal to the bus bar in an elliptic shape. 2 . The power supply device according to claim 1 , wherein the electrode terminal joined to the bus bar includes a terminal base having a joining surface, the bus bar is disposed so as to overlap the joining surface and the bus bar, and the joining portion is located between the terminal base and the bus bar. 3 . The power supply device according to claim 2 , wherein the bus bar has an open window which exposes a part of the joining surface of the terminal base. 4 . The power supply device according to claim 3 , wherein the bus bar partially has a thin area whose thickness is thinner than a thickness of the other area, and the thin area is formed in an elliptic shape which surrounds the open window. 5 . The power supply device according to claim 1 , wherein the bus bar includes a connection portion which has an area joined to the electrode terminal by the joining portion, and a connecting portion which is coupled to the connection portion, and the elliptic joining portion has an elliptic shape whose short diameter direction is at a side of the connecting portion. 6 . The power supply device according to claim 5 , wherein the joining portion further includes a linear joining portion which joins the electrode terminal and the bus bar in a linear shape, and the linear joining portion is provided at a side of the connecting portion. 7 . The power supply device according to claim 5 , wherein the connecting portion includes a bending portion which is formed in a U-shape in a sectional view. 8 . A power supply device, comprising: a battery stacked body including a pair of battery cells which are adjacently stacked and each have an electrode terminal that includes a terminal base having a joining surface, and having the electrode terminals on a surface of the battery stacked body; a bus bar electrically connecting the pair of battery cells being disposed so as to overlap the joining surface and the bus bar, and having an open window which exposes a part of the joining surface of the terminal base; and a joining portion joining the electrode terminal of one of the pair of battery cells to the bus bar, and including a plurality of linear joining portions which join the electrode terminal and the bus bar in a linear shape, and between which the open window is located. 9 . The power supply device according to claim 8 , wherein the bus bar partially has a thin area whose thickness is thinner than a thickness of the other area, and the thin area is formed in an elliptic shape which surrounds the open window. 10 . The power supply device according to claim 8 , wherein the bus bar includes a connection portion which has an area joined to the electrode terminal by the joining portion, and a connecting portion which is coupled to the connection portion, and the plurality of linear joining portions includes a first linear joining portion which is located at a side of the connecting portion to the open window, and a second linear joining portion which is located at an opposite side, a region where the first linear joining portion is formed at the side of the connecting portion, is larger than a region where the second linear joining portion is formed at the opposite side. 11 . The power supply device according to claim 10 , wherein the connecting portion includes a bending portion which is formed in a U-shape in a sectional view. 12 . A vehicle comprising the power supply device according to claim 1 . 13 . A bus bar for connecting electrode terminals of battery cells, comprising a thin area, and the other area, wherein the bus bar partially has a thin area whose thickness is thinner than a thickness of the other area, an open window is opened and formed at a part of the thin area, the thin area has an enlonged elliptic shape in a stacked direction of the battery cells, and the open window is extended in a direction along a long side of the elliptic shape. 14 . An electrical connection method of battery cells, for electrically connecting a pair of battery cells having electrode terminals, comprising: a step of disposing the pair of battery cells adjacently in a posture where the electrode terminals of the battery cells are adjacent to each other; a step of preparing a bus bar, which has an open window of an enlonged hole shape, and partially has a thin area whose thickness is thinner than a thickness of the other area; a step of positioning the bus bar by inserting a part of the electrode terminal into the open window, a step of disposing the bus bar on the electrode terminal so as to overlap the thin area to the electrode terminal; a step of pressing the bus bar to the electrode terminal by using a jig which presses the bus bar; and a step of welding and joining the bus bar and the electrode terminal by scanning a laser beam in an elliptic shape at the thin area.