Patent ID: 7978488

Claim:
A three-level power converting apparatus for multiple phases configured with a plurality of units for the individual phases, respectively, each unit comprising: four switching devices including first to fourth switching devices which are connected in series in an order of said first switching device, said second switching device, said third switching device and said fourth switching device between a positive terminal and a negative terminal of a DC side, said second and third switching devices each respectively having, during operation of the converting apparatus, a higher heat generation loss than each one of said first and fourth switching devices; a first diode connected between a joint between said first switching device and said second switching device and a DC side middle terminal; a second diode connected between a joint between said third switching device and said fourth switching device and said middle terminal; and an AC terminal between said second switching device and said third switching device; wherein said plurality of switching devices and said plurality of diodes of said units are arranged on a heat sink disposed on a common plane of a cooling device, and said cooling device is cooled by a coolant flowing in one direction, and wherein each of said units is configured such that said plurality of diodes are arranged adjacent to one another in a central area of said heat sink, said first switching device and said second switching device are arranged on one side of said plurality of diodes, said third switching device and said fourth switching device are arranged on the other side of said plurality of diodes opposite to said one side of said plurality of diodes, and said plurality of switching devices are linearly arrayed parallel to a flow direction of said coolant, with long sides of said switching devices oriented perpendicular to the flow direction of said coolant, and with said plurality of diodes sandwiched in between, so that said second and third switching devices having the higher generation loss among said plurality of switching devices are separated from each other in the flow direction by said plurality of diodes interposed in between said second and third switching devices.