Dual feeder systems having current transformers

What is claimed is: 1 . A dual feeder circuit system for supplying electrical power, comprising: one or more feeders groups, each feeder group having a first wire and a second wire connected between a source terminal and a load terminal to carry the same electrical signal on both wires; and one or more current transformers disposed on one or more of the feeders groups such that the current transformer is disposed around both the first wire and the second wire, wherein the first wire is passed directly through a first side of the current transformer to allow current to travel through the current transformer in a first direction, and wherein the second wire includes a loop and is passed through a second side of the current transformer to allow current to travel through the current transformer in an second direction opposite the first direction. 2 . The dual feeder system of claim 1 , wherein the second wire passes over the current transformer, wherein the loop is past the one or more current transformers in the direction of current. 3 . The dual feeder system of claim 1 , wherein each current transformer includes an inner diameter equal to or greater than a width of the first wire plus the width of the second wire. 4 . The dual feeder system of claim 1 , wherein the one or more of feeder groups includes three feeders groups configured to carry three phase current. 5 . The dual feeder system of claim 4 , wherein each feeder group includes at least one current transformer. 6 . The dual feeder system of claim 5 , wherein each feeder group includes a single current transformer. 7 . The dual feeder system of claim 1 , further comprising the source terminal and the load terminal. 8 . An aircraft electrical system, comprising: a dual feeder system for supplying electrical power, comprising: one or more feeders groups, each feeder group having a first wire and a second wire connected between a source terminal and a load terminal to carry the same electrical signal on both wires; and one or more current transformers disposed on one or more of the feeders groups such that the current transformer is disposed around both the first wire and the second wire, wherein the first wire is passed directly through a first side of the current transformer to allow current to travel through the current transformer in a first direction, and wherein the second wire includes a loop and is passed through a second side of the current transformer to allow current to travel through the current transformer in an second direction opposite the first direction. 9 . The system of claim 8 , wherein the second wire passes over the current transformer, wherein the loop is past the one or more current transformers in the direction of current. 10 . The system of claim 8 , wherein each current transformer includes an inner diameter equal to or greater than a width of the first wire plus the width of the second wire. 11 . The system of claim 8 , wherein the one or more feeder groups includes three feeders groups configured to carry three phase current. 12 . The system of claim 11 , wherein each feeder group includes at least one current transformer. 13 . The system of claim 12 , wherein each feeder group includes a single current transformer. 14 . The system of claim 8 , further comprising the source terminal and the load terminal. 15 . A computerized method for determining a fault in a dual feeder circuit, comprising: monitoring a current transformer disposed around a first wire and a second wire, each wire carrying a current in an opposite direction through the current transformer; and determining a fault exists if a signal above a threshold is received from the current transformer. 16 . The method of claim 15 , further comprising determining which of the first or second wire is faulted based on a direction of current received from the current transformer. 17 . The method of claim 15 , further comprising determining a fault type based on a magnitude of current received from the current transformer.