Three-level power converting apparatus with reduced conduction loss

The invention claimed is: 1. A three-level power converting apparatus comprising: a power conversion circuit for one phase that selects potential of any one of an upper-side direct-current terminal, an intermediate potential terminal, and a lower-side direct-current terminal and outputs the potential to an alternating-current terminal; the power conversion circuit includes: first, second, third, and fourth switching elements sequentially connected in series between the upper-side direct-current terminal and the lower-side direct-current terminal; a fifth switching element connected between a connecting section of the first switching element and the second switching element and the intermediate potential terminal; a sixth switching element connected between a connecting section of the third switching element and the fourth switching element and the intermediate potential terminal; and the alternating-current terminal being connected to a connecting section of the second switching element and the third switching element; wherein each of the second, third, fifth and sixth switching elements includes a diode element and a MOSFET (metal-oxide-semiconductor field-effect transistor) including a body diode, wherein electric current can flow in two directions through the MOSFET and the body diode, and wherein both of the first and fourth switching elements include IGBTs (insulated-gate bipolar transistors); and further wherein when outputting the potential of the intermediate potential terminal to the alternating-current terminal, the three-level power converting apparatus controls the MOSFETs of the second, third, fifth and sixth switching elements to be turned on simultaneously, and an electric current is simultaneously fed to the MOSFET, the body diode of the MOSFET and the diode element included in the fifth switching element and to the MOSFET, the body diode of the MOSFET and the diode element included in the sixth switching element. 2. The three-level power converting apparatus according to claim 1 , wherein when outputting the potential of the intermediate potential terminal to the alternating-current terminal, the three-level power converting apparatus performs control such that, among the MOSFETs of the second, third, fifth, and sixth switching elements, at least one of the MOSFETs present on a current flow path including an element and having the highest temperature or an element having the largest temperature rise is turned off. 3. The three-level power converting apparatus according to claim 1 , wherein the fifth switching element is provided in a module different from that of the second switching element, or the sixth switching element is provided in a module different from that of the third switching element. 4. The three-level power converting apparatus according to claim 1 , wherein the second switching element is provided in a module different from that of the third switching element. 5. The three-level power converting apparatus according to claim 1 , wherein one or both of the MOSFETs and the diode elements are formed of a wide band gap semiconductor. 6. The three-level power converting apparatus according to claim 5 , wherein the wide band gap semiconductor is a semiconductor in which silicon carbide, a gallium nitride material, or diamond is used. 7. A three-level power converting apparatus comprising: a power conversion circuit for one phase that selects potential of any one of an upper-side direct-current terminal, an intermediate potential terminal, and a lower-side direct-current terminal and outputs the potential to an alternating-current terminal; the power conversion circuit includes: first, second, third, and fourth switching elements sequentially connected in series between the upper-side direct-current terminal and the lower-side direct-current terminal; a fifth switching element connected between a connecting section of the first switching element and the second switching element and the intermediate potential terminal; a sixth switching element connected between a connecting section of the third switching element and the fourth switching element and the intermediate potential terminal; and the alternating-current terminal being connected to a connecting section of the second switching element and the third switching element; wherein each of the second, third, fifth and sixth switching elements includes a diode element and a MOSFET (metal-oxide-semiconductor field-effect transistor) including a body diode, wherein electric current can flow in two directions through the MOSFET and the body diode, and wherein both of the first and fourth switching elements include IGBTs (insulated-gate bipolar transistors); and further wherein when outputting the potential of the intermediate potential terminal to the alternating-current terminal, the three-level power converting apparatus controls the MOSFETs of the second, third, fifth and sixth switching elements to be turned on simultaneously, and an electric current is simultaneously fed to three paths conformed by a channel of the MOSFET, the body diode of the MOSFET and the diode element included in the fifth switching element and to three paths conformed by a channel of the MOSFET, the body diode of the MOSFET and the diode element included in the sixth switching element. 8. The three-level power converting apparatus according to claim 7 , wherein when outputting the potential of the intermediate potential terminal to the alternating-current terminal, the three-level power converting apparatus performs control such that, among the MOSFETs and the diode elements of the second, third, fifth, and sixth switching elements, at least one of the MOSFETs present on a current flow path and including an-element having the highest temperature or an element having the largest temperature rise is turned off. 9. The three-level power converting apparatus according to claim 7 , wherein the second switching element is provided in a module different from that of the third switching element. 10. The three-level power converting apparatus according to claim 7 , wherein, one or both of the MOSFETs and the diode elements are formed of a wide band gap semiconductor. 11. The three-level power converting apparatus according to claim 10 , wherein the wide band gap semiconductor is a semiconductor in which silicon carbide, a gallium nitride material, or a diamond is used.