Drive device

The invention claimed is: 1. A drive device including a wheel driving rotary electric machine drivingly connected to wheels, a first inverter that is connected to a direct-current power supply and the wheel driving rotary electric machine and performs conversion between a direct current and an alternating current, an alternating-current rotary electric machine that is drivingly connected to a rotating body provided independent of the wheels and in which currents of a plurality of phases flow, and a second inverter that includes second switching element units for respective phases corresponding to the respective phases, and that is connected to the direct-current power supply and the alternating-current rotary electric machine and performs conversion between a direct current and an alternating current, the drive device comprising: a current sensor that detects a current flowing in the wheel driving rotary electric machine; and shunt resistors that detect currents flowing in the respective second switching element units for the corresponding phases between the direct-current power supply and the second switching element units for the respective phases, wherein a ratio of a period during which current detection can be performed by the current sensor to a control period of the first inverter is higher than a ratio of a period during which current detection can be performed by the shunt resistors to a control period of the second inverter. 2. The drive device according to claim 1 , wherein the wheel driving rotary electric machine is structured such that currents of a plurality of phases flow therein, and the first inverter includes first switching element units for respective phases corresponding to the respective phases, and the current sensor is provided at any place on a wiring member connecting corresponding one of the first switching element units for the respective phases to a stator coil of a corresponding phase of the wheel driving rotary electric machine. 3. The drive device according to claim 2 , wherein the current sensor is a sensor using a Hall element. 4. The drive device according to claim 2 , further comprising a drive transmission device that operates with hydraulic pressure supplied thereto and controls a transmission state of driving force from a driving force source of the wheels to the wheels, wherein the rotating body is a rotor of an electric pump that discharges oil supplied to the drive transmission device. 5. The drive device according to claim 2 , wherein the alternating-current rotary electric machine is structured such that N-phase currents (N is a natural number of 2 or more) flow therein, a positive electrode of the direct-current power supply is connected to the second switching element units for the respective phases through a common positive line common to the N second switching element units for the respective phases and N positive branch lines branching from the common positive line and connected to the respective second switching element units for the respective phases, and a negative electrode of the direct-current power supply is connected to the second switching element units for the respective phases through a common negative line common to the N second switching element units for the respective phases and N negative branch lines branching from the common negative line and connected to the respective second switching element units for the respective phases, and the shunt resistors are provided in respective N or (N−1) negative branch lines. 6. The drive device according to claim 2 , further comprising an inverter control device that controls drive of the second inverter, wherein each of the second switching element units for the respective phases includes an upper switching element and a lower switching element, the upper switching element being provided closer to the positive electrode of the direct-current power supply than a connection part of the switching element unit to the alternating-current rotary electric machine, the lower switching element being provided closer to the negative electrode of the direct-current power supply than the connection part, each of the shunt resistors is provided so as to detect a current flowing in the lower switching element of corresponding one of the second switching element units for the respective phases, and the inverter control device controls the alternating-current rotary electric machine by PWM control by individually controlling switching of the upper switching element and the lower switching element of each of the second switching element units for the respective phases, performs a current detection process of detecting the currents of the respective phases flowing in the alternating-current rotary electric machine based on an electric potential difference between both ends of each of the shunt resistors during a lower full-on period in which the lower switching elements of the second switching element units for the respective phases are all ON, and determines an offset correction amount at a zero point in the current detection process based on the electric potential difference between both ends of each of the shunt resistors during a lower full-off period in which the lower switching elements of the second switching element units for the respective phases are all OFF. 7. The drive device according to claim 2 , further comprising an inverter control device that controls drive of the second inverter, wherein each of the second switching element units for the respective phases includes an upper switching element and a lower switching element, the upper switching element being provided closer to the positive electrode of the direct-current power supply than a connection part of the switching element unit to the alternating-current rotary electric machine, the lower switching element being provided closer to the negative electrode of the direct-current power supply than the connection part, each of the shunt resistors is provided so as to detect a current flowing in the lower switching element of corresponding one of the second switching element units for the respective phases, and the inverter control device controls the alternating-current rotary electric machine by pulse-width modulation (PWM) control by individually controlling switching of the upper switching element and the lower switching element of each of the second switching element units for the respective phases, performs a current detection process of detecting the currents of the respective phases flowing in the alternating-current rotary electric machine based on an electric potential difference between both ends of each of the shunt resistors during a lower full-on period in which the lower switching elements of the second switching element units for the respective phases are all ON, and reduces a carrier frequency in the PWM control when the lower full-on period is shorter than a predetermined reference time. 8. The drive device according to claim 2 , further comprising an inverter control device that controls drive of the second inverter, wherein each of the second switching element units for the respective phases includes an upper switching element and a lower switching element, the upper switching element being provided on the positive electrode side of the direct-current power supply with respect to a connection part of the switching element unit and the alternating-current rotary electric machine, the lower switching element being provided on the negative electrode side of the direct-current power supply with respect to the connection part, each of the shunt resistors is provided so as to detect a current flowing in the lower switching element of corresponding one of the second switching