Power module

What is claimed is: 1 . A power module, comprising: a base plate; a casing located on the base plate; at least one substrate unit located on the base plate, each of the at least one substrate unit including a substrate fixed on the base plate, the substrate including a plurality of electrode plates at an upper surface of the substrate, the plurality of electrode plates including at least first and second electrode plates, a dam part located on the substrate, the dam part being formed along an edge of the substrate when viewed from above, a first semiconductor chip located on the first electrode plate, the first semiconductor chip including a first electrode, a metal member located on one of the electrode plates, and a first wire including an electrode plate connection portion connected to the second electrode plate, a chip connection portion connected to the first electrode, and a curved portion positioned between the electrode plate connection portion and the chip connection portion; a terminal plate bonded to an upper surface of the metal member; a first resin layer located on the substrate inward of the dam part, the chip connection portion and the electrode plate connection portion being located inside the first resin layer; and a second resin layer located on the first resin layer and the dam part, the upper surface of the metal member being located inside the second resin layer, an elastic modulus of the second resin layer being less than an elastic modulus of the first resin layer. 2 . The power module according to claim 1 , wherein the casing includes a side surface portion, and the second resin layer contacts the base plate in a gap between the substrate unit and the side surface portion. 3 . The power module according to claim 1 , wherein a height of the dam part from an upper surface of the substrate is greater than a height of the chip connection portion from the upper surface of the substrate, and a height of the first resin layer from the upper surface of the substrate is not more than the height of the dam part, is greater than the height of the chip connection portion, and is less than a height of the upper surface of the metal member from the upper surface of the substrate. 4 . The power module according to claim 1 , wherein an elastic modulus of the dam part is greater than an elastic modulus of the first resin layer and less than an elastic modulus of the second resin layer. 5 . The power module according to claim 1 , wherein the dam part includes a silicone resin, and the dam part includes at least two bulges and one pinched-in portion. 6 . The power module according to claim 1 , wherein the curved portion is located inside the second resin layer. 7 . The power module according to claim 1 , wherein a thermal expansion coefficient of the first resin layer is less than a thermal expansion coefficient of the second resin layer. 8 . The power module according to claim 1 , wherein the first resin layer includes an epoxy resin. 9 . The power module according to claim 1 , wherein the second resin layer is a gel. 10 . The power module according to claim 1 , comprising: two of the substrate units, one of the substrate units and the other of the substrate units being separated from each other on the base plate, the second resin layer contacting the base plate in a gap between the two substrate units. 11 . The power module according to claim 10 , further comprising: a second wire, the one of the substrate units and the other of the substrate units further including second semiconductor chips located on the electrode plates of the one of the substrate units and the other of the substrate units, each of the second semiconductor chips including a second electrode, one end of the second wire being connected to the electrode plate or the second electrode of the one of the substrate units, an other end of the second wire being connected to the electrode plate or the second electrode of the other of the substrate units, a middle portion of the second wire being located in the second resin layer.