Electric power converter

What is claimed is: 1. An electric power converter comprising: a semiconductor module constituting an electric power conversion circuit; a capacitor electrically connected to the semiconductor module; and a cooling member for cooling the capacitor, wherein, the capacitor includes an element body provided with an internal electrode, and a pair of end-face-electrodes provided on both end faces of the element body and connected to the internal electrode; the pair of end-face-electrodes is connected with a pair of bus bars, respectively, in a manner of surface contact, the capacitor is disposed in a state where at least one of the pair of end-face-electrodes is facing an insulating member disposed on the cooling member; and the end-face-electrode facing the insulating member is in contact with the cooling member via the bus bar and the insulating member, wherein the bus bar and the insulating member are sandwiched between the end-face-electrode and the cooling member. 2. The electric power converter according to claim 1 , wherein, different amounts of heat are received by the pair of end-face-electrodes from the semiconductor module, and an end-face-electrode that receives a larger heat amount faces the cooling member. 3. The electric power converter according to claim 1 , wherein, one of the end-face-electrodes faces the cooling member, and both of the pair of bus bars connected to the pair of end-face-electrodes are in contact with the cooling member. 4. The electric power converter according to claim 1 , wherein, the cooling member faces both of the pair of end-face-electrodes, while each of the pair of end-face-electrodes is in contact with the cooling member via the bus bar. 5. The electric power converter according to claim 1 , further comprising a body pressing member for pressing the capacitor to the cooling member. 6. The electric power converter according to claim 1 , wherein, the bus bars have extended portions that extend in a direction perpendicular to an aligning direction of the pair of end-face-electrodes; the extended portions are interposed between the cooling member and the semiconductor modules; and the extended portions are provided with terminal pressing members for pressing the extended portions against the cooling member by pressing the semiconductor modules towards the cooling member. 7. The electric power converter according to claim 1 , wherein, the entire surfaces of the pair of end-face-electrodes opposite to the element body are connected to the bus bars, respectively. 8. The electric power converter according to claim 1 , wherein, a dimension of the element body in an aligning direction of the pair of end-face electrodes is smaller than a maximum dimension among external dimensions of the element body in a direction perpendicular to the aligning direction.