Network protector that detects an error condition

What is claimed is: 1 . A network protector comprising: a resettable switching apparatus configured to control an electrical connection between a first distribution transformer and a first electrical feeder of a secondary electrical distribution network; a sensor apparatus configured to sense one or more properties of electrical power in the first electrical feeder; and a controller configured to: determine whether reverse power flow exists in the first electrical feeder, analyze one or more of the sensed properties of the electrical power in the first electrical feeder to determine whether an error condition exists in the secondary electrical distribution network; open the resettable switching apparatus if an error condition exists; and maintain the resettable switching apparatus in a closed state if an error condition does not exist regardless of whether reverse power flow exists such that the network protector allows bi-directional current flow in the absence of an error condition. 2 . The network protector of claim 1 , wherein the error condition comprises one or more of a fault condition or a maintenance condition. 3 . The network protector of claim 1 , wherein the one or more sensed properties comprise one or more properties of electrical current that flows in the first electrical feeder. 4 . The network protector of claim 3 , wherein the one or more properties of the electrical current comprise a magnitude of one or more frequency harmonics of the electrical current, and the controller is configured to determine that the reverse power flow is from an error condition if the magnitude of one or more frequency harmonics exceeds a threshold value. 5 . The network protector of claim 4 , wherein the electrical current comprises reverse current flow generated by a distributed energy resource, and the controller is configured to open the resettable switching apparatus only if the one or more properties of the reverse power flow indicate that the error condition exists. 6 . The network protector of claim 3 , wherein the one or more properties of the electrical current comprise a characteristic of a transient of the electrical current. 7 . The network protector of claim 1 , wherein the controller is configured to analyze the one or more sensed properties only if reverse power flow exists in the first electrical feeder. 8 . The network protector of claim 1 , wherein the first electrical feeder is configured to be electrically connected to one or more distributed energy resources. 9 . The network protector of claim 1 , wherein the first electrical feeder is configured to be electrically connected to an energy source that is also electrically connected to a second electrical feeder of the secondary electrical distribution network, and the first electrical feeder and the second electrical feeder are electrically connected to the same load. 10 . A system comprising: a first network protector configured to control an electrical connection between a first distribution transformer and a first electrical feeder of a secondary electrical distribution network, the first network protector comprising: a first resettable switching apparatus; a first sensor apparatus configured to sense one or more properties of electrical power in the first electrical feeder; and a first controller configured to analyze one or more of the sensed properties of the electrical power in the first electrical feeder to determine whether an error condition exists in the secondary electrical distribution network; and a second network protector configured to control an electrical connection between a second distribution transformer and a second electrical feeder of the secondary electrical distribution network, the second network protector comprising: a second resettable switching apparatus; a second sensor apparatus configured to sense one or more properties of electrical power in the second electrical feeder; and a second controller configured to analyze one or more of the sensed properties of the electrical power in the first electrical feeder to determine whether an error condition exists in the secondary electrical distribution network, wherein the first electrical feeder and the second electrical feeder are configured to electrically connect to the same load. 11 . The system of claim 10 , wherein the error condition comprises one or more of a fault condition or a maintenance condition. 12 . The system of claim 10 , wherein the one or more sensed properties comprise one or more properties of electrical current that flows in the first electrical feeder. 13 . The system of claim 12 , wherein the one or more sensed properties of the electrical power in the first electrical feeder comprise a frequency characteristic of the electrical current in the first electrical feeder, and the one or more sensed properties of the electrical power in the second electrical feeder comprise a frequency characteristic of the electrical current in the second electrical feeder. 14 . The system of claim 13 , wherein the frequency characteristic of the electrical current in the first electrical feeder comprises an amplitude of one or more harmonic components of the electrical current in the first electrical feeder, and the frequency characteristic of the electrical current in the second electrical feeder comprises an amplitude of one or more harmonic components of the electrical current in the second electrical feeder. 15 . The system of claim 10 , further comprising a first circuit breaker configured to control an electrical connection between the first distribution transformer and an AC power source, and a second circuit breaker configured to control an electrical connection between the second distribution transformer and the same AC power source. 16 . The system of claim 10 , further comprising a first circuit breaker configured to control an electrical connection between the first distribution transformer and a first AC power source, and a second circuit breaker configured to control an electrical connection between a second AC power source that is distinct from the first AC power source. 17 . The system of claim 10 , wherein the first controller is further configured to: determine whether reverse current flow exists in the first electrical feeder based on the one or more sensed properties of electrical power in the first electrical feeder; and analyze the one or more sensed properties of electrical power in the first electrical feeder to determine whether an error condition exists in the secondary electrical distribution network only if reverse current flow exists in the first electrical feeder; and the second controller is further configured to: determine whether reverse current flow exists in the first electrical feeder based on the one or more sensed properties of electrical power in the first electrical feeder; and analyze the one or more sensed properties of electrical power in the first electrical feeder to determine whether an error condition exists in the secondary electrical distribution network only if reverse current flow exists in the first electrical feeder. 18 . The system of claim 10 , wherein the load comprises at least one device configured to generate electrical energy. 19 . The system of claim 18 , wherein each of the first network protector and the second network protector are configured to allow bi-directional current flow in the absence of an error condition in the secondary electrical distribution network.