Automatic transfer switch (ATS) bypass switch

What is claimed is: 1. An ATS bypass switch comprising: a draw-out ATS switch; a bypass switch including an operating mechanism cooperating with a three-position contactor having a first position structured to electrically connect a system load to a first power source, a second position structured to electrically connect the system load to a second power source, and a third neutral, trip or open position structured to electrically disconnect the system load from both of the first and second power sources; and a processor structured to control both of said draw-out ATS switch and said bypass switch, said processor including a routine cooperating with said operating mechanism: to determine if the first and second power sources synchronize within a first predetermined time and cause said three-position contactor to move from one of the first and second positions to the third neutral, trip or open position and to move from the third neutral, trip or open position to the other one of the first and second positions, and, otherwise, if the first and second power sources do not synchronize within the first predetermined time, to cause said three-position contactor to move from one of the first and second positions to the third neutral, trip or open position, and to move from the third neutral, trip or open position to the other one of the first and second positions after a second predetermined time. 2. The ATS bypass switch of claim 1 wherein each of said draw-out ATS switch and said bypass switch includes two electrical switching apparatus structured to electrically connect a system load to a first power source, electrically connect the system load to a second power source, or electrically disconnect the system load from both of the first and second power sources. 3. The ATS bypass switch of claim 2 wherein said two electrical switching apparatus are two circuit breakers or two contactors. 4. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch when said draw-out ATS switch is electrically disconnected from the system load and from the first and second power sources, or when said draw-out ATS switch is in a neutral position that electrically disconnects the system load from both of the first and second power sources through said draw-out ATS switch. 5. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch in an in-phase transition mode. 6. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch in a load voltage decay mode. 7. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch in a closed/in-phase transition default to time delay neutral mode. 8. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch in a closed/in-phase transition default to load voltage decay mode. 9. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch in a closed transition default to time delay neutral mode. 10. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch in a closed transition default to load voltage decay mode. 11. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch in an in-phase default to time delay neutral mode. 12. The ATS bypass switch of claim 1 wherein said processor is further structured to automatically control said bypass switch in an in-phase default to load voltage decay mode.