Systems and methods for fault detection in variable differential transformers

What is claimed is: 1. A system, comprising: a primary coil wound around a moveable magnetic core; at least one secondary coil wound around the moveable magnetic core in one continuous direction and magnetically coupled with the primary coil; and a controller operatively connected to determine a position of the moveable magnetic core and configured to detect a fault across the secondary coil, wherein the secondary coil includes a first side line, a second side line, and a center-tap, wherein the first side line and the second side line of the at least one secondary coil are 180 degrees out of phase relative to one another, wherein the controller is configured to perform a built-in-test (BIT) to detect the fault across the secondary coil, wherein the controller is configured to sample a voltage of the first side line with respect to the center-tap and a voltage of the second side line with respect to the center-tap and determine a sum voltage of the first side line and the second side line. 2. The system of claim 1 , wherein the controller is configured to compare the sampled sum voltage to a known sum voltage and determine if a fault has occurred across the secondary coil if a difference between the sum voltage of the first side line with respect to the center-tap and the second side line with respect to the center-tap and the known sum voltage is greater than a predetermined threshold. 3. The system of claim 2 , wherein the controller is configured to determine if a fault has occurred across the secondary coil if the sum voltage of the first side line with respect to the center-tap and the second side line with respect to the center-tap is at or near zero. 4. The system of claim 3 , wherein the primary coil, the at least one secondary coil, and the moveable magnetic core form a variable differential transformer. 5. The system of claim 4 , wherein the variable differential transformer includes a linear variable differential transformer. 6. The system of claim 4 , wherein the variable differential transformer includes a rotary variable differential transformer. 7. The system of claim 1 , wherein the variable differential transformer includes a five-wire variable differential transformer such that the at least one secondary coil includes a single center-tapped secondary coil, wherein the single secondary coil is one continuous winding wound around the moveable magnetic core in one direction. 8. The system of claim 1 , wherein the variable differential transformer includes a six-wire variable differential transformer such that the at least one secondary coil includes two secondary coils. 9. The system of claim 8 , wherein a first secondary coil is wound around the moveable magnetic core in a first winding direction and a second secondary coil is wound around the moveable magnetic core in a second winding direction. 10. The system of claim 9 , wherein the first winding direction is the same as the second winding direction. 11. A method, comprising: detecting a fault in at least one secondary winding of a variable differential transformer across a first side line with respect to a center-tap and a second side line with respect to the center-tap using a sum voltage of the first side line and the second side line; and outputting a fault detection signal to a user indicting the fault wherein the at least one secondary winding includes one secondary winding wound in one direction, wherein the at least one secondary winding includes two secondary windings wound in the same direction relative to one another, sampling a voltage of the first line of the at least one secondary winding with respect to the center-tap; wherein detecting the fault includes: sampling a voltage of the second side line of the at least one secondary winding with respect to the center-tap; and summing the voltage of the first side line and the second side line, comparing the sum voltage to a known sum voltage; and detecting a fault if a difference between the sum voltage of the first side line and the second side line is greater than a predetermined threshold, comparing the sum voltage to a known sum voltage; and detecting a fault if a difference between the sum voltage of the first side line and the second side line is at or near zero. 12. A system, comprising: a primary coil wound around a moveable magnetic core of a variable differential transformer; at least one secondary coil wound around the moveable magnetic core in one continuous direction and magnetically coupled with the primary coil; and a controller operatively connected to the variable differential transformer configured to perform the method of claim 11 to determine a position of the moveable magnetic core and configured to detect a fault across the secondary coil.