Utility distribution fault restoration system

What is claimed is: 1. A power restoration system for an electrical power distribution network, the electric power distribution network including at least one feeder and a plurality of power sources available to provide power to the at least one feeder, the system comprising: plurality of normally closed reclosing devices configured to be electrically coupled along the at least one feeder, each normally closed reclosing device including an interrupter and one or more sensors for measuring conditions on the feeder at both sides of the reclosing device, where each normally closed reclosing device detects a fault condition based upon sensor data and opens its interrupter in response to the fault condition and where the normally closed reclosing devices are coordinated with each other to open in response to the fault condition depending on its location along the at least one feeder; and a plurality of normally closed switches configured to be electrically coupled along the feeder between each adjacent pair of normally closed reclosing devices, each switch including one or more sensors for measuring conditions on one or both sides of the switch, each switch being assigned a position code having a value for each of the plurality of power sources that determines when the switch will open in response to the fault condition and which power source the switch is currently receiving power from, wherein timing control between the reclosing devices and the switches allows the switch to be selectively opened to isolate the fault within a single feeder section between each pair of adjacent switches or between each switch and a reclosing device. 2. The system according to claim 1 wherein the number of switches between adjacent normally closed reclosing devices is three. 3. The system according to claim 1 wherein the plurality of power sources of the power distribution network includes a first power source at one end of the at least one feeder and a second power source at an opposite end of the at least one feeder, and a first normally open reclosing device including an interrupter and one or more current and voltage sensors for measuring current on the at least one feeder and measuring voltage on the at least one feeder at both sides of the first normally open reclosing device, wherein the first normally open reclosing device prevents power from the second power source to flow on the at least one feeder. 4. The system according to claim 1 wherein the plurality of normally closed reclosing devices are assigned a time curve characteristic (TCC) value so that a first normally closed reclosing device downstream from one of the power sources has the longest TCC value and a last normally closed reclosing device downstream from the one power source has the shortest TCC value. 5. The system according to claim 1 wherein the plurality of normally closed reclosing devices are assigned a same time curve characteristic (TCC) value. 6. The system according to claim 1 wherein the plurality of normally closed reclosing devices are assigned a time curve characteristic (TCC) code having a plurality of TCC values where a TCC value in the code sets the TCC value of the normally closed reclosing device depending on which of the plurality of power sources the normally closed reclosing device is receiving power from. 7. The system according to claim 1 wherein the at least one feeder of the power distribution network is two feeders including a main feeder having a power source at each end and a branch feeder that is tapped off of the main feeder and has a power source at an opposite to the main feeder. 8. The system according to claim 1 wherein the at least one feeder of the power distribution network is a three-phase feeder.