Power Module, Power Converter Device, and Electrically Powered Vehicle

1 . A power converter device, comprising: a first double-sided electrode module that includes a DC positive electrode wiring board that is connected to a first power semiconductor device via a metal joint member; a second double-sided electrode module that includes a AC terminal and a DC negative electrode wiring board that is connected to a second power semiconductor device via a metal joint member; a heat dissipating base that sandwiches heat dissipation surfaces of the first double-sided electrode module and the second double-sided electrode module via an insulation layer; a jacket to which the heat dissipating base is fixed; a capacitor module that constitutes a smoothing circuit for inhibiting fluctuation in DC voltage; a positive electrode conductor plate and a negative electrode conductor plate that transmit electric power between the capacitor module and the first double-sided electrode module and the second double-sided electrode module; and an output wiring that transmits alternating current from the second double-sided electrode module, wherein the positive electrode conductor plate is connected to the DC positive electrode wiring board, the negative electrode conductor plate is connected to the DC negative electrode wiring board, the positive electrode conductor plate and the negative electrode conductor plate are stacked one on top of another and integrated together by a resin, and constitute an electric power wiring unit that fixes the output wiring to the resin, and the electric power wiring unit is contacted with the jacket. 2 . The power converter device according to claim 1 , wherein a space for housing the capacitor module is formed in the jacket, the capacitor module is arranged facing the first double-sided electrode module and second double-sided electrode module with the heat dissipating base sandwiched therebetween. 3 . The power converter device according to claim 1 , wherein the electric power wiring unit has a first region that includes the output wiring and a second region that includes the positive electrode conductor plate and negative electrode conductor plate without including the output wiring, and the second region is arranged on an opposite side of the first region relative to the DC positive electrode wiring board and the DC negative electrode wiring board. 4 . The power converter device according to claim 1 , further comprising: a capacitor side positive electrode conductor plate and a capacitor side negative electrode conductor plate that protrude from the capacitor module, wherein, the positive electrode conductor plate and the negative electrode conductor plate integrated together are arranged on an opposite side of the capacitor module relative to the heat dissipating base, and the capacitor side positive electrode conductor plate and the capacitor side negative electrode conductor plate extend through the side of the heat dissipating base and are respectively connected to the positive electrode conductor plate and the negative electrode conductor plate. 5 . The power converter device according to claim 4 , wherein the capacitor side positive electrode conductor plate and the capacitor side negative electrode conductor plate are respectively welded to the positive electrode conductor plate and the negative electrode conductor plate. 6 . The power converter device according to claim 1 , further comprising: a fixture that covers a plurality of the double-sided electrode modules arranging along a direction so that the heat dissipating surfaces of the double-sided electrode modules are facing to each other, wherein, the fixture is formed integrally with the electric power wiring unit. 7 . The power converter device according to claim 6 , wherein the fixture has a pedestal for fixing a control circuit board or a metal base board. 8 . The power converter device according to claim 6 , wherein the fixture has a fixing part for fixing the fixture with the jacket.