Power tool and motor drive circuit thereof

The invention claimed is: 1. A motor drive circuit, comprising: an inverter including a plurality of semiconductor switches and configured to convert a voltage from a power supply into an alternating current for an electric motor; a controller configured to output detecting signals and drive signals for the inverter; and a current sensor configured to sample a current flowing through the motor, the current comprising a plurality of driving current portions corresponding to the drive signals and a plurality of position detecting current portions corresponding to the detecting signals; wherein the controller determines the drive signals at least based on the position detecting current portions of the current so as to control power modes of the semiconductor switches in the inverter in a starting stage of the motor; wherein the controller has different control modes in a starting stage of the motor and in a normal operating stage of the motor. 2. The motor drive circuit according to claim 1 , wherein the position of the rotor is divided into a plurality of sectors in a circumferential direction and in the starting stage of the motor the controller is configured to determine the sector where a specific magnetic field position of the rotor is based on change in the position detecting current portions and to send drive signals corresponding to the determined sector to turn on corresponding semiconductor switches of the inverter. 3. The motor drive circuit according to claim 2 , wherein in the starting stage of the motor, each detecting signal includes at least two groups of detecting pulse sequence signals, the controller continuously outputs the detecting signals which sequentially turn on the semiconductor switches corresponding to the plurality of sectors and determines an initial sector where the specific magnetic field position of the rotor is, based on the position detecting current portions sensed after the detecting signals are loaded on the motor. 4. The motor drive circuit according to claim 3 , wherein the controller is configured to determine the sector corresponding to a detecting signal which corresponds to a current pulse with maximum energy in the position detecting current portions as the initial sector where the specific magnetic field position of the rotor is. 5. The motor drive circuit according to claim 3 , wherein the controller is configured to determine the sector corresponding to a detecting signal which corresponds to a current pulse with maximum amplitude in the position detecting current portions as the initial sector where the specific magnetic field position of the rotor is. 6. The motor drive circuit according to claim 3 , wherein after the initial sector is determined the controller is configured to output drive signals and detecting signals alternately. 7. The motor drive circuit according to claim 3 , wherein after the initial sector is determined the controller is configured to output drive signals corresponding to the sector where the specific magnetic field position of the rotor currently is and then a detecting signal corresponding to the sector next to the current sector and to determine whether the specific magnetic field position of the rotor moves to a next sector based on change of two adjacent groups of current pulses in a corresponding position detecting current portion. 8. The motor drive circuit according to claim 7 , wherein the controller is configured to determine that the specific magnetic field position of the rotor enters the next sector in a case that energy of the two adjacent groups of current pulses in the corresponding position detecting current portion changes from a lower level to a higher level and to determine that the specific magnetic field position of the rotor is still in current sector in a case that energy of the two adjacent groups of current pulses in the corresponding position detecting current portion changes from a higher level to a lower level. 9. The motor drive circuit according to claim 7 , wherein the controller is configured to determine that the specific magnetic field position of the rotor enters the next sector in a case that two maximum current pulses of the two adjacent groups of current pulses in the corresponding position detecting current portion changes from a lower level to a higher level and to determine that the specific magnetic field position of the rotor is still in current sector in a case that the two maximum current pulses of the two adjacent groups of current pulses in the corresponding position detecting current portion changes from a higher level to a lower level. 10. The motor drive circuit according to claim 1 , wherein the detecting signals include a series of detecting pulse signals or a series of groups of detecting pulse sequence signals and energy of the series of detecting pulse signals or the series of groups of detecting pulse sequence signals is equal. 11. The motor drive circuit according to claim 1 , wherein the detecting signals include a series of detecting pulse signals or a series of groups of detecting pulse sequence signals and widths and amplitudes of the pulses of the series of detecting pulse signals or the series of groups of detecting pulse sequence signals are equal. 12. The motor drive circuit according to claim 1 , wherein each detecting signal includes at least two groups of detecting pulse sequence signals and an interval between two adjacent detecting pulses in each group of detecting pulse sequence signal is shorter than a time period for the motor to be fully discharged after being charged by a previous pulse of the two adjacent detecting pulses. 13. The motor drive circuit according to claim 1 , wherein the controller is further configured to compare the current sampled by the current sensor with a predetermined current value, and in a case that the sampled current is greater than the predetermined current value, send drive signals to turn off the semiconductor switches in the inverter so as to stop powering the motor, wherein the predetermined current value is no more than 1.4 times a maximum value of the position detecting current portions. 14. A power tool, comprising: a housing; a working head extended from the housing; a motor configured to drive the working head; a battery configured to provide power to the motor; and said motor drive circuit according to claim 1 . 15. The power tool according to claim 14 , wherein the power tool is an electric saw or an electric drill. 16. The power tool according to claim 14 , wherein the motor is a single-phase direct current brushless motor or a three-phase direct current brushless motor.