Impact tool with control mode

What is claimed is: 1. An impact tool comprising: a housing; a motor disposed in the housing; an output spindle; an impact mechanism coupled to the output spindle and configured to be driven by the motor, the impact mechanism configured to transmit continuous rotary motion without impacts from the motor to the output spindle when a torque on the output spindle does not exceed a first transition torque, and to transmit rotational impacts from the motor to the output spindle when a torque on the output spindle exceeds the first transition torque while the motor rotates in a single direction; and a controller electrically coupled to the motor to control operation of the motor by controlling a first parameter, the first parameter being at least one of power, current, voltage, resistance, duty cycle of a PWM signal, or motor speed, wherein the controller is configured to determine if a second parameter has reached a first threshold value, the second parameter being at least one of an amount of current being delivered to the motor, an amount of power being delivered to the motor, a speed of the motor, or a torque on the output spindle, and wherein, when the controller determines that the second parameter has reached the first threshold value, the controller temporarily holds the second parameter at or below the first threshold value for a first predetermined time period by controlling the first parameter, and then allows the second parameter to increase beyond the first threshold value, so that the impact mechanism transitions from transmitting continuous rotary motion to transmitting rotational impacts when the torque on the output spindle exceeds a second transition torque that is greater than the first transition torque. 2. The impact tool of claim 1 , wherein, during the first predetermined time period, the controller temporarily limits an amount of power delivered to the motor to not exceed a first power limit. 3. The impact tool of claim 2 , wherein, during the first predetermined time period, the controller temporarily limits the amount of power delivered to the motor by controlling at least one of current, voltage, resistance, duty cycle of the PWM signal, or motor speed. 4. The impact tool of claim 2 , wherein, after the first predetermined time period, the controller allows the amount of power delivered to the motor to exceed the first power limit. 5. The impact tool of claim 1 , wherein the first predetermined time period is at least 500 ms to allow a user time to stop application of power to the motor. 6. The impact tool of claim 1 , wherein the first threshold value corresponds to a first output torque that is less than the first transition torque. 7. The impact tool of claim 1 , wherein, after the controller allows the second parameter to increase beyond the first threshold value, the controller is configured to determine if the second parameter has reached a second threshold value that is different from the first threshold value, and, when the controller determines that the second parameter has reached the second threshold value, the controller temporarily holds the second parameter at or below the second threshold value for a second predetermined time period by controlling the first parameter, and then allows the second parameter to increase beyond the second threshold value. 8. The impact tool of claim 7 , wherein the second threshold value is higher than the first threshold value. 9. The impact tool of claim 7 , wherein the first threshold value corresponds to a first output torque that is less than the first transition torque, and the second threshold value corresponds to a second output torque that is greater than the first transition torque. 10. The impact tool of claim 1 , wherein, after the impact mechanism transitions to transmitting rotational impacts when the torque on the output spindle exceeds the second transition torque, the controller controls the first parameter to reduce the second parameter to a lower value. 11. An impact tool comprising: a housing; a motor disposed in the housing; an output spindle; an impact mechanism coupled to the output spindle and configured to be driven by the motor, the impact mechanism configured to transmit continuous rotary motion without impacts from the motor to the output spindle when a torque on the output spindle does not exceed a first transition torque, and to transmit rotational impacts from the motor to the output spindle when a torque on the output spindle exceeds the first transition torque while the motor rotates in a single direction; and a controller electrically coupled to the motor to control operation of the motor by controlling a first parameter, the controller selectively operable in a normal mode and a control mode, wherein, in the normal mode, the controller controls the first parameter so that the impact mechanism transitions from transmitting continuous rotary motion to transmitting rotational impacts when the transition torque reaches the first threshold torque, and wherein, in the control mode, the controller is configured to determine if a second parameter has reached a first threshold value, then temporarily hold the second parameter at or below the first threshold value for a first predetermined time period by controlling the first parameter, and then allow the second parameter to increase beyond the first threshold value so that the impact mechanism transitions from transmitting continuous rotary motion to transmitting rotational impacts when the torque on the output spindle exceeds a second transition torque that is greater than the first transition torque, wherein the first parameter is at least one of power, current, voltage, resistance, duty cycle of a PWM signal, or motor speed, and the second parameter is at least one of an amount of current being delivered to the motor, an amount of power being delivered to the motor, a speed of the motor, or a torque on the output spindle. 12. The impact tool of claim 11 , wherein, in the control mode, during the first predetermined time period, the controller temporarily limits an amount of power delivered to the motor to not exceed a first power limit. 13. The impact tool of claim 12 , wherein, in the control mode, during the first predetermined time period, the controller temporarily limits the amount of power delivered to the motor by controlling at least one of current, voltage, resistance, duty cycle of the PWM signal, or motor speed. 14. The impact tool of claim 12 , wherein, in the control mode, after the first predetermined time period, the controller allows the amount of power delivered to the motor to exceed the first power limit. 15. The impact tool of claim 11 , wherein, in the control mode, the first predetermined time period is at least 500 ms to allow a user time to stop application of power to the motor. 16. The impact tool of claim 11 , wherein, in the control mode, the first threshold value corresponds to a first output torque that is less than the first transition torque. 17. The impact tool of claim 11 , wherein, in the control mode, after the controller allows the second parameter to increase beyond the first threshold value, the controller is configured to determine if the second parameter has reached a second threshold value that is different from the first threshold value, and, when the controller determines that the second parameter has reached the second threshold value, the controller temporarily holds the second parameter at or below the second threshold value for a second predetermined time period by controlling the firs