Motor controller having a power-saving control, and a motor control system including the motor controller

What is claimed is: 1 . A motor controller comprising: a motor rotating a rotation object; and a control section including a microcomputer configured to switch power supply phases of the motor to rotationally drive the motor, wherein the control section is configured to perform a limit-position abutment control by rotating the motor to a movable limit of a movable range of the rotation object to learn a reference position of the motor, perform a power-saving return control after performing the limit-position abutment control, in which a power supply to the motor is stopped, thereby returning a rotation position of the motor toward a target rotation position with a reverse rotation relative to a rotation in the limit-position abutment control, and stop the rotation of the motor by simultaneously supplying power to a preset phase of the motor, when the rotation position of the motor reaches the target rotation position after a start of the power-saving return control. 2 . The motor controller of claim 1 , wherein the control section serially switches power supply phases of the motor to rotate the motor toward the target rotation position when a preset time has elapsed before the rotation position of the motor reaches the target rotation position. 3 . The motor controller of claim 1 , wherein the control section performs the power-saving return control, when at least one of a plurality of phases of the motor is dysfunctional. 4 . The motor controller of claim 1 , wherein the rotation object is a range switch mechanism for switching a shift range. 5 . A motor control system, comprising: a motor rotating a rotation object; and a range switch control circuit including a controller and a motor driver, the controller including a microcomputer configured to switch power supply phases of the motor to rotationally drive the motor via the motor driver, based on an input from a shift switch, wherein the controller is configured to perform a limit-position abutment control by rotating the motor to a movable limit of a movable range of the rotation object to learn a reference position of the motor, perform a power-saving return control after performing the limit-position abutment control, in which a power supply to the motor is stopped, thereby returning a rotation position of the motor toward a target rotation position with a reverse rotation relative to a rotation in the limit-position abutment control, and stop the rotation of the motor by simultaneously supplying power to a preset phase of the motor, when the rotation position of the motor reaches the target rotation position after a start of the power-saving return control.