Variable differential transformer for position monitoring

What is claimed is: 1. An electronic position sensor comprising: a signal generator configured to generate one or more excitation signals; a variable differential transformer configured to receive the one or more excitation signals from the signal generator, the variable differential transformer including: a primary coil connected to the signal generator; and a plurality of secondary coils connected to a core, the core proximate the primary coil; and a phase modulator connected to the variable differential transformer, the phase modulator comprising a plurality of portions; and wherein the primary coil, the plurality of secondary coils, and the core are disposed at least partially in a magnetic field generated via the primary coil and the one or more excitation signals; movement of the core in the magnetic field generates a plurality of secondary signals in the secondary coils, wherein the plurality of portions are respectively configured to receive the plurality of secondary signals from the plurality of secondary coils and shift a phase of each of the plurality of secondary signals a respective plurality of predetermined extents wherein the phase shifted plurality of secondary signals are combined to generate a single output signal; the phase modulator is configured to output the single output signal wherein a phase of the single output signal corresponds to a position of the core. 2. The electronic position sensor of claim 1 , wherein combining the phase shifted plurality of secondary signals includes summing the phase shifted plurality of secondary signals. 3. The electronic position sensor of claim 1 , wherein combining the phase shifted plurality of secondary signals includes subtracting the phase shifted plurality of secondary signals. 4. The electronic position sensor of claim 1 , wherein each of the plurality of portions comprises a capacitor in series with parallel resistors. 5. A method of determining a position, the method comprising: generating a first excitation signal and a second excitation signal via a signal generator; providing the first excitation signal and the second excitation signal to a variable differential transformer, the variable differential transformer including a primary coil, a first secondary coil, and a second secondary coil; shifting a phase of the first excitation signal to a first predetermined extent; shifting a phase of the second excitation signal to a second predetermined extent differing from the first predetermined extent to generate a phase difference between the first excitation signal and the second excitation signal; generating a magnetic field via the first secondary coil, the second secondary coil, the first excitation signal, and the second excitation signal; providing a core at least partially in the magnetic field; providing the primary coil at least partially in the magnetic field; and outputting a single output signal from the primary coil; wherein a phase of the single output signal corresponding to a position of the core. 6. The method of claim 5 , wherein the first excitation signal includes a first phase; the second excitation signal includes a second phase; and a difference between the first phase and the second phase is not equal to 0 degrees or a multiple of 180 degrees. 7. The method of claim 5 , wherein the first excitation signal includes a first constant frequency and the second excitation signal includes a second constant frequency. 8. The method of claim 7 , wherein the first constant frequency is the same frequency as the second constant frequency. 9. The method of claim 5 , wherein the first excitation signal and the second excitation signal are sinusoidal with different phases. 10. The method of claim 5 , wherein shifting the phase of the first excitation signal comprises shifting the phase of the first excitation signal by a first load circuit. 11. The method of claim 10 , wherein the first load circuit is connected between the signal generator and the first secondary coil. 12. The method of claim 10 , wherein the first load circuit comprises an element comprising at least one of a resistor and a capacitor. 13. The method of claim 10 , wherein shifting the phase of the second excitation signal comprises shifting the phase of the second excitation signal by a second load circuit. 14. The method of claim 13 , wherein the second load circuit is connected between the signal generator and the second secondary coil. 15. The method of claim 13 , wherein the second load circuit comprises an element comprising at least one of a resistor and a capacitor.