Three-source automatic redundant bypass-isolation switches and related systems and methods

That which is claimed: 1. A power system for powering a system load, comprising: a housing; an automatic transfer switch (ATS switch) held in or by the housing with a three position contact switch, including a first power source contact, a second power source contact and a system load contact and is configured to selectively (i) connect a system load to only a first power source through a closed state of the first power source contact (ii) connect the system load to only a second power source through a closed state of the second power source contact, and (iii) disconnect the system load from the first and second power sources with open states of the first and second power source contacts; a Bypass switch held in or by the housing with a three position contact switch, including a first power source contact, a second power source contact and a system load contact and is configured to selectively (i) connect the system load to only the first power source through a closed state of the first power source contact, (ii) connect the system load to only a third power source through a closed state of the third power source contact, and (iii) disconnect the system load from the first and third power sources with open states of the first and third power source contacts; and a control circuit in communication with the ATS switch and the Bypass switch to automatically direct the Bypass switch and the ATS switch to carry out the selective connections with automated, redundant power transitions to the system load from the first, second and third power sources, wherein the first power source is a primary power source that is an input into each of the ATS and Bypass switches as the first power source contact and the second and third power sources are back-up power sources that are only connected to the system load when the primary power source is unavailable or during a test mode. 2. The system of claim 1 , wherein the Bypass switch and the ATS switch comprise circuit breakers, wherein electrical contact between any two power sources of the first, second and third power sources, to the system load using two of the three contacts of the Bypass switch or the ATS switch is maintained for 100 ms or less when changing a power source between any of the first, second and third power sources, and wherein the primary power source is a public and/or private power grid. 3. The system of claim 1 , wherein the control circuit comprises at least one processor that receives a plurality of defined position or status inputs, including inputs from the Bypass switch, the ATS switch, and the first, second and third power sources, and sends or directs another circuit component to send output control signals including control signals for changing switch selection between the ATS switch and the Bypass switch and switch status. 4. The system of claim 1 , wherein the housing comprises a lockable access door and sensors that provide input to the control circuit on whether the door is open or closed, whether the ATS switch is locked-in position, and whether the Bypass switch is locked-in position. 5. The system of claim 1 , wherein the control circuit supports a plurality of defined power transitions protocols to transfer power between the system load and the first, second and third power sources to allow for different automatic transitions using the ATS switch and the Bypass switch to thereby provide redundancy in power switching and power back-up. 6. The system of claim 1 , wherein the housing includes only the ATS switch and the Bypass switch as an ATS Bypass isolation switch configured to allow the Bypass switch to perform Bypass isolation. 7. The system of claim 1 , wherein the ATS switch and the Bypass switch reside adjacent each other in the housing and are configured so that each can be removed from the housing as separate units. 8. The system of claim 7 , wherein the ATS switch unit comprises electrical connections that engage the system load and the first and second power sources with the ATS switch electrically between and controlling the connections between the system load and the first and second power sources, and wherein the Bypass switch unit comprises electrical connections that engage the system load and the first and third power sources with the Bypass switch electrically between and controlling the connections between the system load and the second and third power sources. 9. The system of claim 1 , wherein the ATS switch, the Bypass switch and the control circuit define a three source ATS Bypass switch that can perform one or more of the following: Open transition, Closed transition, Time Delay Neutral, In-Phase transition, and Load Voltage Decay transition from any of the first, second and third sources to the system load. 10. The system of claim 1 , wherein the ATS switch, the Bypass switch and the control circuit define a three source ATS Bypass switch that can perform Closed/In-Phase Transition default to Time Delay Neutral mode and/or Closed/In-phase Transition default to Load Voltage Decay mode from any of the first, second and third sources to the system load. 11. The system of claim 1 , wherein the ATS switch, the Bypass switch and the control circuit define a three source ATS Bypass switch that can perform Closed Transition default to Time Delay Neutral mode and/or Closed Transition default to Load Voltage Decay mode from any of the first, second and third sources to the system load. 12. The system of claim 1 , wherein the ATS switch, the Bypass switch and the control circuit define a three source ATS Bypass switch that can perform In-Phase default to Time Delay Neutral mode and/or In-phase default to Load Voltage Decay mode from any of the first, second and third sources to the system load. 13. The system of claim 1 , wherein the control circuit is configured to provide automatic operation of the ATS switch and the Bypass switch using input signals from and control signals to the ATS switch, the Bypass switch and the first, second and third power sources, and wherein the automatic operation includes a plurality of the following: a) starting one or two of the second and third power sources based on identified predefined conditions; b) shutting down one of the second or third power sources after a defined time delay; c) alternating the second and third power sources to act as a primary back up power source based on user input; d) alternating the second and third power sources to act as a primary back up power source depending on operational time ran; e) allowing a user settable Load or No-Load test; f) identifying a failed or dysfunctional power source and starting another one of the power sources after a defined time; and g) running a test with a defined test routine on one or more of the power sources and using one or both of the ATS switch and/or Bypass switch based on a programmable calendar to select a test. 14. The system of claim 1 , wherein the ATS switch and Bypass switch are configured to allow manual operation based on a user input to connect the ATS switch and/or Bypass switch to a selectable power source. 15. The system of claim 1 , wherein the control circuit is configured to provide all automatic operation of the Bypass switch and the ATS switch so that if the ATS switch has a detected fault based on digital and/or analog input signals of ATS switch status the control circuit will disconnect the ATS switch and engage the Bypass switch. 16. The system of claim 1 , wherein the control circuit is configured to provide all automatic operation of the Bypass switch and the ATS switch so that if the Bypass s