Reactor and power supply device employing the same

The invention claimed is: 1. A power supply device comprising: N (N is an integer of 2 or more) power supplies; and a reactor by which said N power supplies are connected in parallel to a load, said reactor including: an annular iron core; and N coils separately wound around said iron core, said N coils having first electrodes connected to output terminals of said N power supplies, respectively, and second electrodes each connected to said load, said N coils being sequentially arranged in a circumferential direction of said iron core, said N coils being wound from the first electrodes to the second electrodes in the same winding direction, currents flowing from said N power supplies to said load through said N coils to generate magnetic fluxes in the same direction in said iron core by said N coils. 2. The power supply device according to claim 1 , wherein said reactor further includes: N first terminals connected to the first electrodes of said N coils, respectively; and a second terminal connected to the second electrodes of said N coils, said N first terminals are connected to the output terminals of said N power supplies, respectively, and said second terminal is connected to said load. 3. The power supply device according to claim 1 , wherein each of said N power supplies is a chopper converting a first DC voltage into a second DC voltage. 4. The power supply device according to claim 1 , wherein each of said N power supplies is an inverter converting a DC voltage into an AC voltage. 5. The power supply device according to claim 1 , wherein each of said N power supplies is a converter converting an AC voltage into a DC voltage. 6. A power supply device comprising: N (N is an integer of 2 or more) power supplies; and a reactor by which said N power supplies are connected in parallel to a load, said reactor including: an annular iron core; and N first coils and N second coils separately wound around said iron core, said N first coils having first electrodes connected to first output terminals of said N power supplies, respectively, and second electrodes each connected to one terminal of said load, said N second coils having first electrodes connected to second output terminals of said N power supplies, respectively, and second electrodes each connected to the other terminal of said load, said N first coils being sequentially arranged in a circumferential direction of said iron core, said N first coils being wound from the first electrodes of said N first coils to the second electrodes of said N first coils in the same winding direction, said N second coils being sequentially arranged in a circumferential direction of said iron core, said N second coils being wound from the first electrodes of said N second coils to the second electrodes of said N second coils in the same winding direction, currents flowing from said N power supplies to said load through said N first coils and said N second coils to generate magnetic fluxes in the same direction in said iron core by said N first coils and to generate magnetic fluxes in the same direction in said iron core by said N second coils, starting ends of said N first coils and terminal ends of said N second coils having the same polarity. 7. The power supply device according to claim 6 , wherein each of said N power supplies is a chopper converting a first DC voltage into a second DC voltage. 8. The power supply device according to claim 6 , wherein each of said N power supplies is an inverter converting a DC voltage into an AC voltage. 9. The power supply device according to claim 6 , wherein each of said N power supplies is a converter converting an AC voltage into a DC voltage. 10. A reactor by which N (N is an integer of 2 or more) power supplies are connected in parallel to a load, said reactor comprising: an annular iron core; N first coils and N second coils separately wound around said iron core; N first terminals connected to the first electrodes of said N first coils, respectively; N second terminals connected to the first electrodes of said N second coils, respectively; a third terminal connected to the second electrodes of said N first coils; and a fourth terminal connected to the second electrodes of said N second coils, said N first terminals being connected to the first output terminals of said N power supplies, respectively, said N second terminals being connected to the second output terminals of said N power supplies, respectively, said third terminal being connected to one terminal of said load, starting ends of said N first coils and terminal ends of said N second coils having the same polarity, said fourth terminal being connected to the other terminal of said load. 11. A power supply device comprising: the reactor according to claim 10 , and said N power supplies. 12. The power supply device according to claim 11 , wherein each of said N power supplies is a chopper converting a first DC voltage into a second DC voltage. 13. The power supply device according to claim 11 , wherein each of said N power supplies is an inverter converting a DC voltage into an AC voltage. 14. The power supply device according to claim 11 , wherein each of said N power supplies is a converter converting an AC voltage into a DC voltage. 15. A reactor by which N (N is an integer of 2 or more) power supplies are connected in parallel to a load, said reactor comprising: an annular iron core; and N first coils and N second coils separately wound around said iron core; said N first coils having first electrodes connected to first output terminals of said N power supplies, respectively, and second electrodes each connected to one terminal of said load, said N second coils having first electrodes connected to second output terminals of said N power supplies, respectively, and second electrodes each connected to the other terminal of said load, starting ends of said N first coils and terminal ends of said N second coils having the same polarity, said iron core including first and second leg portions, and a yoke portion magnetically coupling the first and second leg portions, said N first coils being separately wound around said first leg portion, said N second coils being separately wound around said second leg portion, and said first coil and said second coil connected to the same power supply being arranged adjacent to each other. 16. A power supply device comprising: the reactor according to claim 15 , and said N power supplies. 17. The power supply device according to claim 16 , wherein each of N power supplies is a chopper converting a first DC voltage into a second DC voltage. 18. The power supply device according to claim 16 , wherein each of said N power supplies is an inverter converting a DC voltage into an AC voltage. 19. The power supply device according to claim 16 , wherein each of said N power supplies is a converter converting an AC voltage into a DC voltage.