Control scheme for operating cordless power tool based on battery temperature

The invention claimed is: 1. A power tool comprising: a housing; an electric motor disposed within the housing; a power terminal arranged to receive electric power from a battery pack; a power switch circuit disposed between the power terminal and the electric motor; and an electronic controller configured to control a switching operation of the power switch circuit to regulate power being supplied from the power terminal to the electric motor, the electronic controller being further configured to receive a temperature signal indicative of a temperature of the battery pack, determine if the temperature of the battery pack is below a low temperature threshold, and operate the switching operation of the power switch circuit in a normal mode of operation if the temperature of the battery pack is greater than or equal to the low temperature threshold and in a cold mode of operation if the temperature of the battery pack is below the low temperature threshold, wherein the electronic controller is configured to monitor a rotational speed of the electric motor and control the switching operation of the power switch circuit in a closed-loop speed control scheme in the normal mode of operation, wherein in the closed-loop control scheme, the electronic controller is configured to control the switching operation of the power switch circuit based on the rotational speed of the motor, and wherein the electronic controller is configured to control the switching operation of the power switch circuit in an open-loop speed control scheme in the cold mode of operation, wherein in the open-loop control scheme, the electronic controller is configured to control the switching operation of the power switch circuit independently of the rotational speed of the motor. 2. The power tool of claim 1 , wherein the electronic controller is configured to set a pulse-width modulation (PWM) duty cycle associated with the power switch circuit based on the rotational speed of the motor in closed-loop speed control. 3. The power tool of claim 1 , wherein at motor start-up, the electronic controller is configured to set a target speed for the electric motor and control the switching operation of the power switch circuit to gradually increase a rotational speed of the motor from zero to the target speed at a ramp-up rate. 4. The power tool of claim 3 , wherein the electronic controller is configured to set the ramp-up rate to a first ramp-up rate in the normal mode of operation and to a second ramp-up rate that is smaller than the first ramp-up rate in the cold mode of operation. 5. The power tool of claim 4 , wherein the electronic controller is configured to control a pulse-width modulation (PWM) duty cycle associated with the power switch circuit to control the rotational speed of the motor, the electronic controller being configured to set a target PWM duty cycle and increase the PWM duty cycle from zero to the target PWM duty cycle at the first ramp-up rate in the normal mode of operation and at the second-ramp-up rate in the cold mode of operation. 6. The power tool of claim 1 , wherein the electronic controller is configured to return from the cold mode of operation to the normal mode of operation if the temperature of the battery pack is greater than or equal to a high temperature threshold that is greater than the low temperature threshold. 7. A power tool comprising: a housing; an electric motor disposed within the housing; a power terminal arranged to receive electric power from a battery pack; a power switch circuit disposed between the power terminal and the electric motor; and an electronic controller configured to control a switching operation of the power switch circuit to regulate power being supplied from the power terminal to the electric motor and determine a rotational speed of the electric motor, wherein the electronic controller is further configured to receive a temperature signal indicative of a temperature of the battery pack and control the switching operation of the power switch circuit in a closed-loop speed control scheme when the temperature of the battery pack is greater than or equal to the low temperature threshold and in an open-loop speed control scheme when the temperature of the battery pack is less than the low temperature threshold, wherein in the closed-loop control scheme, the electronic controller is configured to control the switching operation of the power switch circuit based on the rotational speed of the motor, and in the open-loop control scheme, the electronic controller is configured to control the switching operation of the power switch circuit independently of the rotational speed of the motor. 8. The power tool of claim 7 , wherein the electronic controller is further configured to receive a state-of-charge signal associated with a voltage level of one or more battery cells from the battery pack, determine if the voltage level is below an under-voltage threshold, and cut off supply of power from the battery terminal to the motor if the voltage threshold is below the under-voltage threshold. 9. The power tool of claim 8 , wherein the electronic controller is configured to set the under-voltage threshold to a first voltage threshold if the temperature of the battery pack is greater than or equal to the low temperature threshold and to a second voltage threshold smaller than the first voltage threshold if the temperature of the battery pack is below the low temperature threshold. 10. The power tool of claim 9 , wherein the controller is configured to reset the under-voltage threshold from the second voltage threshold to the first voltage threshold if the temperature of the battery pack is greater than or equal to a high temperature threshold that is greater than the low temperature threshold.