Power tool

The invention claimed is: 1. A power tool comprising: a motor; a semiconductor device connected to the motor for controlling electric power supplied to the motor; and a controller configured to: control the semiconductor device to control the electric power supplied to the motor; drive the motor in a driving mode having a first characteristic and a second characteristic; and change the driving mode between at least the first characteristic and the second characteristic, the electric power supplied to the motor in the second characteristic being lower than that in the first characteristic, wherein, when number of rotations of the motor drops below a first prescribed value due to an increase in a load imposed upon the motor while the controller is driving the motor in the first characteristic, the controller changes the driving mode from the first characteristic to the second characteristic, and wherein, when the number of rotations exceeds a second prescribed value different from the first prescribed value while the controller is driving the motor in the second characteristic, the controller changes the driving mode from the second characteristic to the first characteristic. 2. The power tool according to claim 1 , wherein, when the number of rotations drops below an overload threshold value smaller than the first prescribed value while the controller is driving the motor in the second characteristic, the controller controls the motor so that the rotation of the motor is stopped. 3. The power tool according to claim 1 , wherein the controller is further configured to drive the motor in a constant speed mode of maintaining the number of rotations at a constant speed value larger than the first prescribed value. 4. The power tool according to claim 1 , wherein the power tool is a grinder comprising a spindle to which a grindstone is attachable, the grindstone attached to the spindle being rotated by rotation of the motor. 5. A power tool comprising: a motor; a spindle to which an end tool for processing a workpiece is attachable, the end tool attached to the spindle being rotated by rotation of the motor; a semiconductor device connected to the motor for controlling a duty ratio of voltage applied to the motor; and a controller configured to: control the semiconductor device to change the duty ratio between at least a first duty ratio and a second duty ratio lower than the first duty ratio; drive the motor in a driving mode; and change the driving mode between at least: a first mode in which the controller drives the motor with the first duty ratio so that current flowing through the motor increases as a pressing force pressing the end tool against the workpiece increases; and a second mode in which the controller drives the motor with the second duty ratio, wherein, when the current flowing through the motor exceeds a prescribed threshold value while the controller is driving the motor in the first mode, the controller changes the driving mode from the first mode to the second mode and wherein, when the current flowing through the motor exceeds an overcurrent threshold value larger than the prescribed threshold value while the controller is driving the motor in the second mode, the controller controls the motor so that rotation of the motor is stopped. 6. The power tool according to claim 5 , wherein, when the current flowing through the motor is smaller than or equal to a constant speed threshold value smaller than the prescribed threshold value, the controller drives the motor so as to keep the number of rotations of the motor constant. 7. The power tool according to claim 5 , further comprising a resistor for detecting the current flowing through the motor. 8. The power tool according to claim 5 , when the current flowing through the motor drops below a second prescribed value different from the prescribed value while the controller is driving the motor in the second mode, the controller changes the driving mode from the second mode to the first mode. 9. A power tool comprising: a motor; a semiconductor device connected to the motor for controlling electric power supplied to the motor; a switch for controlling start and stop of the motor, the switch being configured to be switched on and off by a user; and a controller configured to: control the semiconductor device to control the electric power supplied to the motor; drive the motor in a driving mode having a first characteristic and a second characteristic; and change the driving mode between at least the first characteristic and the second characteristic, the electric power supplied to the motor in the second characteristic being lower than that in the first characteristic, wherein, when a number of rotations of the motor drops below a first prescribed value due to an increase in a load imposed upon the motor while the controller is driving the motor in the first characteristic, the controller changes the driving mode from the first characteristic to the second characteristic and continues supplying the electric power to the motor unless the switch is turned off or the load exceeds an overload protection value. 10. A power tool comprising: a motor; a semiconductor device connected to the motor for controlling electric power supplied to the motor; and a controller configured to: control the semiconductor device to control the electric power supplied to the motor; drive the motor in a driving mode having a first characteristic and a second characteristic; and change the driving mode between at least the first characteristic and the second characteristic, the electric power supplied to the motor in the second characteristic being lower than that in the first characteristic, wherein, when a first condition that number of rotations of the motor drops below a prescribed value due to an increase in a load imposed upon the motor is met while the controller is driving the motor in the first characteristic, the controller changes the driving mode from the first characteristic to the second characteristic, and wherein, when a second condition different from the first condition is met while the controller is driving the motor in the second characteristic, the controller changes the driving mode from the second characteristic to the first characteristic.