Protective redundant subsystem for power tools

What is claimed is: 1. A protective redundancy circuit for a power tool having an electric motor powered by an alternating current (AC) signal, comprising: a motor control module interfaced with a motor switch coupled in series with the motor to control the switching operation of the motor switch such that the switching operation of the motor switch is correlated to the waveform of the AC signal, the motor switch being operable to be closed by the motor control module within an AC half cycle and opened at a subsequent zero-crossing of the AC current, wherein, where motor control module is intended to operate the motor switch at full conduction, within each AC voltage half cycle, the motor control module introduces a delay period after a zero-crossing of the AC voltage half cycle and closes the motor switch after the end of the delay period to allow the motor switch to open at a current zero-crossing from a previous current half cycle within the delay period before the motor control module closes the motor switch; and a protective control module that measures the voltage across the motor switch during the delay period and before the motor control module closes the switch, and disables the power tool when the voltage across the motor switch during the delay period fails to meet a predetermined criterion. 2. The protective redundancy circuit of claim 1 wherein motor control module closes the motor switch at a predetermined phase of the AC signal that includes the delay period. 3. The protective redundancy circuit of claim 1 wherein the protective control module sustains operation of the power tool when voltage across the motor switch exceeds a threshold and disables the power tool when voltage across the motor switch is less than the threshold. 4. The protective redundancy circuit of claim 2 wherein the protective control module measures voltage across the motor switch when the phase of the AC input signal is less than a phase signifying the delay period. 5. The protective redundancy circuit of claim 1 further comprises a protective switch connected across an AC line carrying the AC input signal and a fuse disposed in the AC line, where the protective control module closes the switch when the measured voltage indicates a malfunction, thereby shorting the AC line and opening the fuse. 6. The protective redundancy circuit of claim 1 further comprises a protective switch connected across the motor and a fuse disposed in the AC line, where the protective control module closes the switch when the measured voltage indicates a malfunction, thereby shorting the AC line and opening the fuse. 7. The protective redundancy circuit of claim 1 further comprises a fuse disposed in the AC line, an energy storing device, and a protective switch in series with the energy storing device, wherein the energy storing device and the protective switch are arranged in parallel with the fuse to short the AC line and open the fuse when the measured voltage indicates a malfunction. 8. The protective redundancy circuit of claim 1 further comprises a power on/off switch disposed between an AC power source and the motor, wherein the protective control module is operational only when the power on/off switch is in a closed position. 9. The protective redundancy circuit of claim 1 further comprises a power on/off switch disposed between an AC power source and the motor, wherein the protective control module receives an input indicative of position of the power on/off switch and operates in accordance with the input. 10. The protective redundancy circuit of claim 1 further comprises a power on/off switch interfaced with the motor control module but does not conduct the power delivered to the motor therethrough, wherein the protective control module receives an input indicative of position of the power on/off switch and operates in accordance with the input. 11. A power tool configured to receive an alternating current (AC) input signal, comprising: an electric motor; a motor switch coupled in series with the motor; a motor control module interfaced with the motor switch to control the switching operation of the motor switch such that the switching operation of the motor switch is correlated to the waveform of the AC signal, the motor switch being operable to be closed by the motor control module within an AC half cycle and opened at a subsequent zero-crossing of the AC current, wherein, where motor control module is intended to operate the motor switch at full conduction, within each AC voltage half cycle, the motor control module introduces a delay period after a zero-crossing of the AC voltage half cycle and closes the motor switch after the end of the delay period to allow the motor switch to open at a current zero-crossing from a previous current half cycle within the delay period before the motor control module closes the motor switch; a protective control module that measures the voltage across the motor switch during the delay period and before the motor control module closes the switch, and disables the power tool when the voltage across the motor switch during the delay period fails to meet a predetermined criterion. 12. The power tool of claim 11 , further comprising a power switch configured to receive input indicative of a user desired operational state of the power tool but does not conduct the power delivered to the motor therethrough. 13. The power tool of claim 12 , further comprising a no-volt release module interfaced with the power switch and the motor switch, wherein the no-volt release module monitors the position of the power switch and prevents the power tool from operating when the power switch is in an ON state before power is applied to the power tool. 14. The power tool of claim 11 , wherein motor control module closes the motor switch at a predetermined phase of the AC signal that includes the delay period. 15. The power tool of claim 11 , wherein the protective control module sustains operation of the power tool when voltage across the motor switch exceeds a threshold and disables the power tool when voltage across the motor switch is less than the threshold. 16. The power tool of claim 11 , further comprising a protective switch connected across an AC line carrying the AC input signal and a fuse disposed in the AC line, where the protective control module closes the switch when the measured voltage indicates a malfunction, thereby shorting the AC line and opening the fuse. 17. The power tool of claim 11 , further comprising a protective switch connected across the motor and a fuse disposed in the AC line, where the protective control module closes the switch when the measured voltage indicates a malfunction, thereby shorting the AC line and opening the fuse. 18. The power tool of claim 11 , further comprising a fuse disposed in the AC line, an energy storing device, and a protective switch in series with the energy storing device, wherein the energy storing device and the protective switch are arranged in parallel with the fuse to short the AC line and open the fuse when the measured voltage indicates a malfunction. 19. The power tool of claim 11 , further comprising a power on/off switch disposed between an AC power source and the motor, wherein the protective control module is operational only when the power on/off switch is in a closed position. 20. The power tool of claim 11 , further comprising a power on/off switch disposed between an AC power source and the motor, wherein the protective control module receives an input ind