Control device and method for AC rotating machine, and electrical power steering device

The invention claimed is: 1. A control device for an AC rotating machine including a plurality of sets of windings, the control device comprising: a plurality of inverters each including, in respective phases, switching elements configured to control voltages to be applied to respective phases of the plurality of sets of windings; a current control portion configured to issue voltage commands corresponding to the voltages, to the respective plurality of inverters, to control currents flowing through the plurality of sets of windings; and a failure detection portion configured to detect at least one of a short-circuit failure and an open-circuit failure in a faulty phase of at least one of the switching elements of a faulty-side inverter, of the plurality of inverters, wherein the current control portion is configured to set the same potential side of the respective phases of the faulty-side inverter, as that of the faulty phase, to an ON state or an OFF state, in response to detecting the short-circuit failure or the open-circuit failure, respectively, and to continue issuing the voltage commands to a normal-side inverter of the plurality of inverters, in which the short-circuit failure or the open-circuit failure was not detected, to continue a control of the normal-side inverter. 2. The control device for an AC rotating machine according to claim 1 , wherein, when the failure detection portion detects the short-circuit failure, the current control portion sets a potential side, which is opposite to that of the faulty phase, to the OFF state, for the respective phases of the faulty-side inverter, and continues the control of the normal-side inverter. 3. The control device for an AC rotating machine according to claim 2 , wherein, when the failure detection portion detects the open-circuit failure, the current control portion further sets a potential side, which is opposite to that of the faulty phase, to the ON state, for the respective phases of the faulty-side inverter, and continues the control of the normal-side inverter. 4. The control device for an AC rotating machine according to claim 2 , further comprising an rpm detection portion configured to detect an rpm of the AC rotating machine, wherein, when the failure detection portion detects the at least one of the short-circuit failure or the open-circuit failure, the current control portion corrects a current of the normal-side inverter in accordance with the detected rpm of the AC rotating machine. 5. The control device for an AC rotating machine according to claim 3 , further comprising an rpm detection portion configured to detect an rpm of the AC rotating machine, wherein, when the failure detection portion detects the at least one of the short-circuit failure or the open-circuit failure, the current control portion corrects a current of the normal-side inverter in accordance with the detected rpm of the AC rotating machine. 6. The control device for an AC rotating machine according to claim 4 , wherein the current control portion decreases the current of the normal-side inverter in accordance with a magnitude of the rpm of the AC rotating machine. 7. The control device for an AC rotating machine according to claim 5 , wherein the current control portion decreases the current of the normal-side inverter in accordance with a magnitude of the rpm of the AC rotating machine. 8. The control device for an AC rotating machine according to claim 1 , wherein, when the failure detection portion detects the open-circuit failure, the current control portion further sets a potential side, which is opposite to that of the faulty phase, to the ON state, for the respective phases of the faulty-side inverter, and continues the control of the normal-side inverter. 9. The control device for an AC rotating machine according to claim 8 , further comprising an rpm detection portion configured to detect an rpm of the AC rotating machine, wherein, when the failure detection portion detects the at least one of the short-circuit failure or the open-circuit failure, the current control portion corrects a current of the normal-side inverter in accordance with the detected rpm of the AC rotating machine. 10. The control device for an AC rotating machine according to claim 9 , wherein the current control portion decreases the current of the normal-side inverter in accordance with a magnitude of the rpm of the AC rotating machine. 11. The control device for an AC rotating machine according to claim 1 , further comprising an rpm detection portion configured to detect an rpm of the AC rotating machine, wherein, when the failure detection portion detects the at least one of the short-circuit failure or the open-circuit failure, the current control portion corrects a current of the normal-side inverter in accordance with the detected rpm of the AC rotating machine. 12. The control device for an AC rotating machine according to claim 11 , wherein the current control portion decreases the current of the normal-side inverter in accordance with a magnitude of the rpm of the AC rotating machine. 13. The control device for an AC rotating machine according to claim 11 , wherein the current control portion decreases the current of the normal-side inverter in accordance with a time period in which the rpm of the AC rotating machine is generated. 14. The control device for an AC rotating machine according to claim 12 , wherein the current control portion decreases the current of the normal-side inverter in accordance with a time period in which the rpm of the AC rotating machine is generated. 15. The control device for an AC rotating machine according to claim 1 , wherein the current control portion detects a current of the plurality of inverters, and decreases the current of the normal-side inverter in accordance with the current of the faulty-side inverter. 16. The control device for an AC rotating machine according to claim 11 , wherein the current control portion decreases the current of the normal-side inverter in accordance with a time period in which the current is generated in the faulty-side inverter. 17. The control device for an AC rotating machine according to claim 1 , wherein the current control portion detects a current of the plurality of inverters, and decreases the current of the normal-side inverter in accordance with a magnitude of the current of the faulty-side inverter. 18. The control device for an AC rotating machine according to claim 17 , wherein the current control portion decreases the current of the normal-side inverter in accordance with a time period in which the current is generated in the faulty-side inverter. 19. An electrical power steering device, comprising the AC rotating machine to be controlled by the control device according to claim 1 , wherein the AC rotating machine generates a steering assist torque. 20. A control method for an AC rotating machine, the method comprising: controlling voltages to be applied to respective phases of a plurality of sets of windings, via respective inverters; controlling currents flowing through the plurality of sets of windings based on the voltages applied to switching elements of the respective inverters, detecting at least one of a short-circuit failure and an open-circuit failure in a faulty phase of at least one of the switching elements of a faulty-side inverter, of the respective inverters; setting, the same potential side of the respective phases of the faulty-side inverter, as that of the faulty phase, to an ON state