Parallel harness current imbalance and failure detection

We claim: 1. A current imbalance detection system in a 3-phase power system, comprising: an inverter; a motor; a plurality of current sensors connected to wires that are configured to carry 3-phase current from the inverter to the motor; a processor coupled with the motor; and memory coupled to the processor, including instructions, which when executed by the processor, compare measurements of at least two of the plurality of current sensors and determine whether a current imbalance is present in the 3-phase power system, wherein the wires include a plurality of wire pairs and each wire pair of the plurality of wire pairs electrically connect a phase input of the inverter to the motor; and wherein the plurality of current sensors include a line current sensor on at least one wire of each wire pair. 2. The current imbalance detection system of claim 1 , wherein the plurality of current sensors includes line current sensors configured to measure the current on the wires. 3. The current imbalance detection system of claim 1 , wherein each wire of each wire pair includes one of the line current sensors. 4. The current imbalance detection system of claim 1 , wherein the memory further includes instructions, which when executed by the processor, in response to determining that the current imbalance is present, identifies one of the two current sensors corresponding to a source of the current imbalance. 5. The current imbalance detection system of claim 3 , wherein the memory further includes instructions, which when executed by the processor: compare a current output of a first wire in the wire pair to a current output of a second wire in the wire pair, and detect a current imbalance in the 3-phase power system based on the comparison of the first current output to the second current output. 6. A current imbalance detection system in a 3-phase power system, comprising: an inverter; a motor; a plurality of wires configured to carry 3-phase electrical current from the inverter to the motor; at least one line current sensor connected to one of the plurality of wires; at least one phase current sensor connected to one phase output of the inverter; a processor coupled with the motor; and memory coupled to the processor, including instructions, which when executed by the processor compare measurements of the line current sensor to the phase current sensor and determine if a current imbalance is present in the 3-phase power system based on the comparison, wherein the wire connected to the at least one line current sensor is connected to the same phase input as the phase current sensor. 7. The current imbalance detection system of claim 6 , wherein the memory includes instructions, which when executed by the processor, detect current imbalance in the 3-phase power system based on a predetermined ratio of current measured by the line current sensor to current measured by the phase current sensor. 8. A method of detecting current imbalance, comprises: measuring output current from at least two terminals of wiring from a phase input of a 3-phase power system; comparing the measured output current of a first of the two terminals of the wire to the output current of a second of the two terminals of the wire; and determining whether a current imbalance in the 3-phase power system is present based on the comparison, wherein the first of the two terminals is coupled to a line current sensor and the second of the two terminals is coupled to a phase current sensor. 9. The method of claim 8 , wherein the determination is based on a predetermined ratio of output current of the phase current sensor to the line current sensor. 10. The method of claim 8 , wherein the two are on separate wires of a wire pair and the first measured output is from a first line current sensor of a first wire of the wire pair and the second measured output current is from a second line current sensor on a second wire of the wire pair. 11. The method of claim 8 , wherein in response to determining that the current imbalance is present, identifying one of the two terminals corresponding to a source of the current imbalance.