Shift position switching controller

What is claimed is: 1. A shift-position switching controller comprising: a shift-position switcher switching shift positions via a drive power from a motor; an encoder outputting an A phase signal and a B phase signal in synchronization with a rotation of the motor, the A phase signal and the B phase signal being interposed by a preset phase difference; and a controller controlling a rotation drive of the motor by serially switching a power supply phase of the motor based on a count value of the output signal from the encoder, wherein when the A phase signal and the B phase signal are input at a time interval that is shorter than a preset length, the A phase signal or the B phase signal that has a shorter time interval compared to a previous input signal is determined by the controller as being noise. 2. A shift-position switching controller comprising: a shift-position switcher switching shift positions via a drive power from a motor; an encoder outputting an A phase signal and a B phase signal in synchronization with a rotation of the motor, the A phase signal and the B phase signal having a preset phase difference set therebetween; and a controller controlling a rotation drive of the motor by serially switching a power supply phase of the motor based on a count value of the output signal from the encoder, wherein when an output signal from the encoder is input to the controller during the rotation of the motor, the controller determines whether a current input signal is valid based on a comparison of the current input signal with a previous input signal, and when the controller determines that the current input signal is not valid, the controller determines that the current input signal is noise. 3. A shift-position switching controller comprising: a shift-position switcher switching shift positions via a drive power from a motor; an encoder outputting a pulse signal in synchronization with a rotation of the motor; and a controller performing a feedback control of a rotation drive of the motor to drive the motor to a target rotation position corresponding to a target shift-position, by serially switching a power supply phase of the motor based on an encoder count representing a count value of the output signals from the encoder, wherein the controller switches to an open-loop control in which the power supply phase is serially switched without receiving feedback regarding the encoder count when the encoder count changes abnormally during the feedback control, the controller performs a relationship determination that determines whether a relationship between a number of switchings of the power supply phase and an amount of change of the encoder count is normal during a rotation drive period during which the motor is driven to the target rotation position by the open-loop control, and the controller re-learns a correspondence between the encoder count and the power supply phase when the relationship determination indicates that the relationship is normal. 4. A shift-position switching controller comprising: a shift-position switcher switching shift positions via a drive power from a motor; an encoder outputting a pulse signal in synchronization with a rotation of the motor; and a controller performing a feedback control of a rotation drive of the motor to drive the motor to a target rotation position corresponding to a target shift-position, by serially switching a power supply phase of the motor based on an encoder count representing a count value of the output signal from the encoder, wherein the controller switches to an open-loop control in which the power supply phase is serially switched without receiving feedback regarding the encoder count when the encoder count does not change normally during the feedback control, the controller performs a relationship determination that determines whether a relationship between a number of switchings of the power supply phase and an amount of change of the encoder count is normal during a minute rotation drive period during which the motor is driven to stay within a current shift-position, the minute rotation drive period being a period after the rotation drive for driving the motor to the target rotation position by the open-loop control, and the controller re-learns a correspondence between the encoder count and the power supply phase when the relationship determination indicates that the relationship is normal. 5. The shift-position switching controller of claim 4 , wherein the controller limits a drive electric current of the motor to be equal to or less than a preset value when performing the open-loop control for driving the motor to stay within the current shift-position during the minute rotation drive period.