Distributed main-tie-tie-main transfer control scheme

The invention claimed is: 1 . A main-tie-tie-main (MTTM) power system comprising: a first main protection relay controlling a first utility breaker; a second main protection relay controlling a second utility breaker; a first tie protection relay controlling a first tie breaker; a second tie protection relay controlling a second tie breaker; and a common bus communicatively connecting the first main protection relay, second main protection relay, first tie protection relay, and second tie protection relay together, wherein each of the first main protection relay, second main protection relay, first tie protection relay, and second tie protection relay is connected to the common bus via one or more communication lines, wherein the first main protection relay and the first tie protection relay are connected together via a first paired line, and wherein the first main protection relay controls the first tie breaker via the first paired line and the first tie protection relay controls the first utility breaker via the first paired line. 2 . The power system of claim 1 , wherein the first utility breaker is connected to a first power source and the second utility breaker is connected to a second power source. 3 . The power system of claim 2 , wherein the first utility breaker is further connected to a first bus and the second utility breaker is further connected to a second bus. 4 . The power system of claim 3 , wherein the first tie protection relay is connected to the first tie breaker and a first voltage sensing device monitoring a voltage of the first bus, and the second tie protection relay is connected to the second tie breaker and a second voltage sensing device monitoring a voltage of the second bus. 5 . The power system of claim 4 , further comprising: a first voltage sensor configured to detect a voltage provided by the first power source to the first utility breaker; a second voltage sensor configured to detect a voltage provided by the second power source to the second utility breaker; a third voltage sensor configured to detect a voltage on the first bus; and a fourth voltage sensor configured to detect a voltage on the second bus. 6 . The power system of claim 5 , wherein the first voltage sensor is configured to provide the detected voltage provided by the first power source to the first main protection relay, the second voltage sensor is configured to provide the detected voltage provided by the second power source to the second main protection relay, the third voltage sensor is configured to provide the detected voltage on the first bus to the first tie protection relay, and the fourth voltage sensor is configured to provide the voltage detected on the second bus to the second tie protection relay. 7 . The power system of claim 3 , wherein one or more loads are connected to the first and/or second bus. 8 . The power system of claim 1 , wherein a connection line connects the first bus and the second bus. 9 . The power system of claim 1 , wherein the first main protection relay and the first tie protection form a first relay pair and the second main protection relay and the second tie protection relay form a second relay pair. 10 . The power system of claim 9 , wherein the second main protection relay and the second tie protection relay are connected together via a second paired line. 11 . The power system of claim 10 , wherein the second main protection relay controls the second tie breaker via the second paired line and the second tie protection relay controls the second utility breaker via the second paired line.