Driving-force controller for electric vehicle

The invention claimed is: 1. A driving-force controller for an electric vehicle comprising at least two motors that independently drive left and right wheels, the driving-force controller comprising: a detector that detects driving operation by a driver; and a controller that calculates a demand torque of the driver and a torque difference applied to the left and right wheels during cornering, calculates left and right torque-difference maintaining torques of the motors when generating the demand torque while maintaining the torque difference, and controls the motors based on the torque-difference maintaining torques, wherein the controller determines priorities of a demand torque mode that generates the demand torque and a torque difference mode that generates the torque difference, depending on the driving operation detected by the detector. 2. The driving-force controller according to claim 1 , wherein, the detector comprises an accelerator position sensor that detects the stepping operation of an acceleration pedal as the driving operation, and the controller acquires a degree of acceleration requirement of the driver based on the stepping operation of the accelerator pedal detected by the accelerator position sensor and determines the priorities depending on the degree of acceleration requirement. 3. The driving-force controller according to claim 2 , wherein the controller increases the priority of the demand torque mode as the degree of acceleration requirement becomes larger during cornering. 4. The driving-force controller according to claim 2 , wherein the controller increases the priority of the torque difference mode as the degree of acceleration requirement becomes smaller during cornering. 5. The driving-force controller according to claim 2 , wherein the controller selects the demand torque mode when the degree of acceleration requirement is equal to or larger than a predetermined value during cornering and selects the torque difference mode when the degree of acceleration requirement is smaller than the predetermined value during cornering. 6. The driving-force controller according to claim 1 , wherein the controller determines the priorities using a map previously setting therein a relationship between the driving operation by the driver and the torque difference of the left and right wheels, the torque difference being generatable during cornering. 7. The driving-force controller according to claim 1 , wherein the controller determines the priorities depending on the driving operation detected by the detector when a torque of the turning outer wheel, being one of the left and right torque-difference maintaining torques, exceeds a maximum output torque of the motors. 8. The driving-force controller according to claim 1 , wherein the controller sets an output torque from one of the motors of the turning outer wheel to a maximum output torque of the motors and determines an output torque from the other one of the motors of the turning inner wheel depending on the priorities, when a torque of the turning outer wheel, being one of the left and right torque-difference maintaining torques, exceeds the maximum output torque. 9. The driving-force controller according to claim 1 , wherein, the detector comprises an accelerator position sensor that detects the stepping operation of an acceleration pedal as the driving operation, and the controller determines the priorities depending on the stepping operation acceleration of the acceleration pedal detected by the accelerator position sensor.