Cycle-by-cycle current limit for power tools having a brushless motor

What is claimed is: 1. A power tool, comprising: a housing; a brushless electric motor drivably connected to an output shaft to impart rotary motion thereto; a rectifier configured to receive power from an alternating current (AC) power source and operable to convert an alternating current to a direct current; a switching arrangement having a plurality of motor switches and interposed between the electric motor and the rectifier; a capacitor electrically coupled across the rectifier and interposed between the rectifier and the switching arrangement; a motor drive circuit interfaced with the motor switches; and a controller interfaced with the motor driver circuit to control a switching operation of the plurality of motor switches at a given frequency for driving the electric motor and configured to operate over periodic time intervals to enforce a current limit on the current delivered to the electric motor, wherein the controller is configured to enforce the current limit by receiving a measure of instantaneous current passing from the rectifier to the switching arrangement within a present time interval of the periodic time intervals, comparing the measure of instantaneous current to the current limit, and, in response to the measure of instantaneous current exceeding the current limit, turning off the motor switches for a remainder of the present time interval and thereby interrupting current flowing to the electric motor, wherein a duration of each time interval of the periodic time intervals is fixed as a function of the given frequency at which the plurality of motor switches is controlled by the controller. 2. The power tool of claim 1 wherein the controller is configured to turn on select motor switches at the end of the present time interval and thereby resume current flow to the electric motor. 3. The power tool of claim 1 wherein the duration of each time interval is approximately ten times an inverse of the given frequency at which the plurality of motor switches is controlled by the controller. 4. The power tool of claim 1 wherein the duration of each time interval is 100 microseconds. 5. The power tool of claim 1 wherein the electric motor is controlled by pulse width modulated (PWM) signals and the duration of the each time interval corresponds to a period associated with the PWM signals. 6. The power tool of claim 5 wherein the controller enforces the current limit using the three low-side switches. 7. The power tool of claim 1 wherein the brushless electric motor is further defined as a three-phase DC motor and the switching arrangement is comprised of six motor switches, each phase of the DC motor is coupled to a high-side switch and a low-side switch. 8. The power tool of claim 1 wherein the capacitor has a capacitance in the range of 0-200 micro Farads. 9. The power tool grinder of claim 1 wherein the capacitor has a capacitance in range of 5-20 micro Farads. 10. The power tool of claim 1 further comprising a power switch operable by a user to selectively supply electric power from the AC power source to the drive circuit. 11. A power tool, comprising: a brushless electric motor; a converter circuit configured to receive input power from an AC power source and operable to output a DC bus voltage, wherein the converter circuit includes a rectifier and a capacitor electrically coupled across the rectifier, wherein the capacitor has a capacitance value sized to produce a voltage magnitude of the DC bus voltage from the AC power source that is substantially the same as a voltage magnitude of a DC power source having the same voltage rating as the AC power source; a switching arrangement having a plurality of motor switches and interposed between the electric motor and the converter circuit; a motor drive circuit interfaced with the motor switches to control switching operation of the motor switches; and a power switch electrically connected between the converter circuit and the motor drive circuit and operable by a user to selectively energize the motor drive circuit and thereby power on the tool. 12. The power tool of claim 11 wherein the capacitor has a nominal capacitance in the range of 200-400 micro Farads and the power tool has a current rating of approximately 10 Amps. 13. The power tool of claim 11 wherein capacitor has a nominal capacitance in the range of 290-410 micro Farads and the power tool has a current rating of approximately 15 Amps. 14. The power tool of claim 11 wherein capacitor has a nominal capacitance in the range of 430-570 micro Farads and the power tool has a current rating of approximately 20 Amps. 15. The power tool of claim 11 wherein the brushless electric motor is further defined as a three-phase brushless DC motor and the switching arrangement is comprised of six motor switches, each phase of the DC motor is coupled to a high-side switch and a low-side switch. 16. The handheld power tool of claim 11 further comprising a controller configured to operate over periodic time intervals to enforce a current limit on current delivered to the electric motor. 17. The power tool of claim 16 wherein the controller is configured to enforce the current limit by receiving a measure of instantaneous current passing from the rectifier to the switching arrangement within a present time interval of the periodic time intervals, comparing the measure of instantaneous current to the current limit, and, in response to the measure of instantaneous current exceeding the current limit, turn off the motor switches for a remainder of the present time interval and thereby interrupt current flowing to the electric motor. 18. The power tool of claim 17 wherein the electric motor is controlled by pulse width modulated (PWM) signals and duration of the each time interval of the periodic time intervals corresponds to a period associated with the PWM signals. 19. The power tool of claim 11 wherein the power tool comprises a grinder.