Neutral determination device and vehicle control apparatus

The invention claimed is: 1. A neutral determination device comprising: an inhibitor switch configured to output an inhibitor switch signal that indicates a vehicle running range of a vehicle; and a controller programmed to execute a neutral determination process upon determining the vehicle running range exists based on the inhibitor switch signal and a rotational speed control is being performed on a motor that is configured to output a force that drives the vehicle, and the controller being further programmed to determine existence of a neutral state of a control valve that is configured to selectively supply a control hydraulic pressure to a hydraulic pressure chamber of the clutch upon determining that a motor torque during the rotational speed control is smaller than an estimated motor torque based on a target transmission torque capacity of a clutch that selectively connects and disconnects the motor to and from a drive wheel. 2. The neutral determination device as claimed in claim 1 , wherein the controller is further programmed to execute the neutral determination process upon determining that the vehicle running range exists based on the inhibitor switch signal and a torque control is being performed on the motor, and the controller is further programmed to control of the speed of the motor and to determine existence of the neutral state of the control valve upon determining that a motor-side rotational speed of the clutch becomes higher than a drive-wheel-side rotational speed of the clutch during the torque control. 3. A vehicle controlling apparatus comprising: a motor configured to output a force to a drive wheel of a vehicle; a clutch selectively connecting and disconnecting the motor to and from the drive wheel; a control valve configured to selectively supply a control hydraulic pressure to a hydraulic pressure chamber of the clutch with control hydraulic pressure; an inhibitor switch configured to output an inhibitor switch signal that indicates vehicle running range of a vehicle; a controller programmed to execute a neutral determination process upon determining the vehicle running range exists based on the inhibitor switch signal and a rotational speed control is being performed on the motor, and the controller being further programmed to determine existence of the neutral state of the control valve upon determining that a motor torque during the rotational speed control is smaller than an estimated motor torque based on a target transmission torque capacity of a clutch that is interposed between the motor and a drive wheel and that selectively connects and disconnects the motor to and from the drive wheel; the controller being further programmed to limit a transmission torque capacity of the clutch upon determining existence of the neutral state of the control valve. 4. The vehicle controlling apparatus as claimed in claim 3 , further comprising an in-meter display configured to provide a passenger with information of a range position of the control valve, the in-meter display being switched from a running range to a neutral range, upon the controller determining that the control valve is in the neutral state. 5. The vehicle controlling apparatus as claimed in claim 3 , wherein the controller is further programmed to execute the neutral determination process upon determining that the vehicle running range exists based on the inhibitor switch signal and a torque control is being performed on the motor, and the controller is further programmed to control of the speed of the motor and to determine existence of the neutral state of the control valve upon determining that a motor-side rotational speed of the clutch becomes higher than a drive-wheel-side rotational speed of the clutch during the torque control.