Electric motor system

The invention claimed is: 1. An electric motor system comprising: a drive shaft rotatable around an axis; a first electric motor and a second electric motor each configured to rotate the drive shaft; a first inverter configured to supply power in order to generate a torque to the first electric motor; a second inverter configured to supply power in order to generate a torque to the second electric motor; and a control unit configured to control the first inverter and the second inverter, the controller being configured to be able to change a ratio between an output torque of the first electric motor and an output torque of the second electric motor, each of the first electric motor and the second electric motor having a rotor and a stator, the rotor of the first electric motor being separate from the rotor of the second electric motor, the stator of the first electric motor being separate from the stator of the second electric motor, one of the first and second electric motors being more efficient than an other of the first and second electric motors in a relatively low rotational speed range, and the other of the first and second electric motors being more efficient than the one of the first and second electric motors in a relatively high rotational speed range, and the control unit being configured to set the ratio, of the output torque of the one of the first and second electric motors to output torque of the other of the first and second electric motors, higher in the relatively low rotational speed range than in the relatively high rotational speed range. 2. The electric motor system according to claim 1 , wherein the control unit is configured to perform a partial suspension operation in order to suspend a power conversion operation of the first inverter or the second inverter. 3. The electric motor system according to claim 1 , wherein a carrier frequency of the first inverter and a carrier frequency of the second inverter are different from each other. 4. An electric motor system comprising: a drive shaft rotatable around an axis; a first electric motor and a second electric motor each configured to rotate the drive shaft; a first inverter configured to supply power in order to generate a torque to the first electric motor; a second inverter configured to supply power in order to generate a torque to the second electric motor; and a control unit configured to control the first inverter and the second inverter, the controller being configured to be able to change a ratio between an output torque of the first electric motor and an output torque of the second electric motor, each of the first electric motor and the second electric motor having a rotor and a stator, the rotor of the first electric motor being separate from the rotor of the second electric motor, the stator of the first electric motor being separate from the stator of the second electric motor, one of a first combination of the first electric motor and the first inverter and a second combination of the second electric motor and the second inverter being more efficient than an other of the first and second combinations in a relatively low rotational speed range, and the other of the first and second combinations being more efficient than the one of the first and second combinations in a relatively high rotational speed range, and the control unit being configured to set a ratio, of an output torque of the one of the first and second combinations to an output torque of the other of the first and second combinations, higher in the relatively low rotational speed range than in the relatively high rotational speed range. 5. An electric motor system comprising: a drive shaft rotatable around an axis; a first electric motor and a second electric motor each configured to rotate the drive shaft; a first inverter configured to supply power in order to generate a torque to the first electric motor; a second inverter configured to supply power in order to generate a torque to the second electric motor; and a control unit configured to control the first inverter and the second inverter, the controller being configured to be able to change a ratio between an output torque of the first electric motor and an output torque of the second electric motor, each of the first electric motor and the second electric motor having a rotor and a stator, the rotor of the first electric motor being separate from the rotor of the second electric motor, the stator of the first electric motor being separate from the stator of the second electric motor, the first electric motor and the second electric motor including bearingless motors, and the control unit being configured to be able to change the ratio between the output torque of the first electric motor and the output torque of the second electric motor, based on a first index value indicating a bearing load of the first electric motor and a second index value indicating a bearing load of the second electric motor. 6. The electric motor system according to claim 5 , wherein the first index value is a ratio of a current flowing through supporting coils of the first electric motor at a second reference time to a current flowing through the supporting coils of the first electric motor at a first reference time, the second reference time being after the first reference time, the second index value is a ratio of a current flowing through supporting coils of the second electric motor at the second reference time to a current flowing through the supporting coils of the second electric motor at the first reference time, and the control unit is configured to set in a case in which the first index value is greater than the second index value, the ratio of the output torque of the first electric motor to the output torque of the second electric motor lower after the second reference time than the ratio at the first reference time, and in a case in which the second index value is greater than the first index value, the ratio of the output torque of the second electric motor to the output torque of the first electric motor lower after the second reference time than the ratio at the first reference time. 7. The electric motor system according to claim 5 , wherein the first index value is a ratio of a current flowing through supporting coils of the first electric motor at a second reference time to a current flowing through the supporting coils of the first electric motor at a first reference time, the second reference time being after the first reference time, the second index value is a ratio of a current flowing through supporting coils of the second electric motor a second reference time to a current flowing through the supporting coils of the second electric motor at the first reference time, and the control unit is configured to set in a case in which the first index value is greater than the second index value, the ratio of the output torque of the first electric motor to the output torque of the second electric motor higher after the second reference time than the ratio at the first reference time, and in a case in which the second index value is greater than the first index value, the ratio of the output torque of the second electric motor to the output torque of the first electric motor higher after the second reference time than the ratio at the first reference time.