Redundant electric motor drive

What is claimed is: 1. A system comprising: an integrated motor drive configured to couple to a motor comprising: a first converter configured to electrically couple with a winding assembly of the motor, the first converter comprising: at least first conversion circuitry configured to form a first electrical excitation waveform and second conversion circuitry coupled in parallel to the first conversion circuitry and configured to form a second electrical excitation waveform; and a first transformer configured to form a first summation electrical excitation waveform from the first electrical excitation waveform and the second electrical excitation waveform that drives the motor. 2. The system of claim 1 , comprising: a second converter configured to electrically couple with the winding assembly of the motor, the second converter comprising: at least first conversion circuitry configured to form a first electrical excitation waveform of the second converter and second conversion circuitry coupled in parallel to the first conversion circuitry and configured to form a second electrical excitation waveform of the second converter; and a second transformer configured to form a second summation electrical excitation waveform from the first electrical excitation waveform of the second converter and the second electrical excitation waveform of the second converter. 3. The system of claim 2 , wherein the second converter is configured to form the second summation electrical excitation waveform independently from the first summation electrical excitation waveform. 4. The system of claim 1 , wherein the first conversion circuitry is configured to offset a phase of the first electrical excitation waveform compared to a phase of the second electrical excitation waveform. 5. The system of claim 1 , wherein the first conversion circuitry includes a first input circuitry, and a first output circuitry electrically coupled to the first transformer. 6. The system of claim 1 , wherein the integrated motor drive is coupled to a non-drive end of the motor. 7. The system of claim 1 , wherein the winding assembly includes a negative terminal, a positive terminal, and at least one pole coupled to the negative terminal and positive terminal. 8. The system of claim 7 , wherein the at least one pole includes two poles coupled in series. 9. A system comprising: an integrated motor drive configured to couple to a motor comprising: a first converter configured to electrically couple with a winding assembly of the motor, the first converter comprising: at least conversion circuitry configured to form a first electrical excitation waveform to drive the motor; and a second converter configured to electrically couple with the winding assembly of the motor, the second converter comprising: at least conversion circuitry of the second converter configured to form a second electrical excitation waveform to drive the motor independently of the first converter. 10. The system of claim 9 , the integrated motor drive comprising a third converter configured to electrically couple with the winding assembly of the motor, the third converter comprising: at least conversion circuitry of the third converter configured to form a third voltage waveform to drive the motor independently of the first converter and the second converter. 11. The system of claim 9 , wherein the conversion circuitry of the first converter includes a first input circuitry, a first transformer coupled to the first input circuitry, and a first output circuitry coupled to the first transformer. 12. The system of claim 11 , wherein the conversion circuitry of the first converter includes a second input circuitry, a second transformer coupled to the second input circuitry, and a second output circuitry coupled to the second transformer, wherein the second input circuitry is coupled in parallel with the first input circuitry. 13. The system of claim 9 , wherein the integrated motor drive is coupled to a non-drive end of the motor. 14. The system of claim 9 , wherein the winding assembly includes a negative terminal, a positive terminal, and at least one pole coupled to the negative terminal and positive terminal. 15. The system of claim 14 , wherein the at least one pole includes two poles coupled in series. 16. A method comprising: inputting a direct electrical excitation input from a direct electrical excitation source into first conversion circuitry of a first converter, the first conversion circuitry electrically coupled in series with the direct electrical excitation source; inputting the direct electrical excitation input from the direct electrical excitation source into second conversion circuitry of the first converter, the first conversion circuitry electrically coupled in series with the direct electrical excitation source; outputting an electric current having a first electrical excitation waveform with a first phase with the first conversion circuitry; outputting an electric current having a second electrical excitation waveform with a different, second phase with the second conversion circuitry; and forming a first summation electrical excitation waveform that includes the first electrical excitation waveform and the second electrical excitation waveform to drive the motor. 17. The method of claim 16 , comprising, off-setting the first phase of the first electrical excitation waveform from the second phase of the second electrical excitation waveform to reduce a ripple voltage in the summation electrical excitation waveform. 18. The method of claim 16 , comprising inputting the direct electrical excitation input from the direct electrical excitation source into first conversion circuitry of a second converter, the first conversion circuitry of the second converter electrically coupled in series with the direct electrical excitation source; inputting the direct electrical excitation input from the direct electrical excitation source into second conversion circuitry of the second converter, the second conversion circuitry of the second converter electrically coupled in series with the direct electrical excitation source; outputting an electric current having a first electrical excitation waveform with a first phase with the first conversion circuitry of the second converter; outputting an electric current having a second electrical excitation waveform with a different, second phase with the second conversion circuitry of the second converter; and forming a second summation electrical excitation waveform that includes the first electrical excitation waveform of the second converter and the second electrical excitation waveform of the second converter to drive the motor. 19. The method of claim 18 , comprising independently outputting the first electrical excitation waveform and the second electrical excitation waveform. 20. The method of claim 16 , comprising: outputting the first summation electrical excitation waveform to a winding assembly of an electric motor.