Inverter for common mode voltage cancellation

What is claimed is: 1. An inverter comprising: a positive direct current (DC) line; a negative DC line; and a plurality of inverter legs, wherein each inverter leg comprises a first switch; a first switch control line connected to the first switch and configured to receive a first control signal to control an on or off state of the first switch; a second switch; a second switch control line connected to the second switch and configured to receive a second control signal to control an on or off state of the second switch; a third switch; a third switch control line connected to the third switch and configured to receive the first control signal to control an on or off state of the third switch; a first connector line connected between the first switch and the second switch; and a second connector line connected between the second switch and the third switch; wherein the first switch, the second switch, and the third switch are connected sequentially in series between the positive DC line and the negative DC line; wherein the first connector line is configured to be connected to a first winding of an electric machine; wherein the second connector line is configured to be connected to a second winding of the electric machine; wherein the second control signal is complementary to the first control signal. 2. The inverter of claim 1 , wherein the plurality of inverter legs comprise a first inverter leg and a second inverter leg, wherein the first connector line of the first inverter leg and the first connector line of the second inverter leg are configured to be connected to opposite ends of the first winding of the electric machine. 3. The inverter of claim 2 , wherein the second connector line of the first inverter leg and the second connector line of the second inverter leg are configured to be connected to opposite ends of the second winding of the electric machine. 4. The inverter of claim 1 , wherein the second switch is rated to support a maximum DC voltage, wherein the first switch and the third switch are rated to support half the maximum DC voltage. 5. The inverter of claim 1 , wherein the plurality of inverter legs comprise a first inverter leg, a second inverter leg, and a third inverter leg, wherein the first connector line of the first inverter leg, the first connector line of the second inverter leg, and the first connector line of the third inverter leg are configured to be connected to respective ends of a first set of windings of the electric machine, wherein opposite ends of the first set of windings are connected to a common neutral connector to form a three-phase wye connection configuration. 6. The inverter of claim 5 , wherein the second connector line of the first inverter leg, the second connector line of the second inverter leg, and the second connector line of the third inverter leg are configured to be connected to respective ends of a second set of windings of the electric machine, wherein opposite ends of the second set of windings are connected to a second common neutral connector to form a second three-phase wye connection configuration. 7. An electric machine drive comprising: a controller comprising a first control signal line; and a second control signal line, wherein the controller is configured to generate a first control signal on the first control signal line and to generate a second control signal on the second control signal line, wherein the first control signal is complementary to the second control signal; and a positive direct current (DC) line; a negative DC line; and an inverter comprising a plurality of inverter legs, wherein each inverter leg comprises a first switch; a first switch control line connecting the first control signal line to the first switch to receive the first control signal; a second switch; a second switch control line connecting the second control signal line to the second switch to receive the second control signal; a third switch; a third switch control line connecting the first control signal line to the third switch to receive the first control signal; a first connector line connected between the first switch and the second switch; and a second connector line connected between the second switch and the third switch; wherein the first switch, the second switch, and the third switch are connected sequentially in series between the positive DC line and the negative DC line; wherein the first connector line is configured to be connected to a first winding of an electric machine; wherein the second connector line is configured to be connected to a second winding of the electric machine; wherein the first control signal controls an on or off state of the first switch and the third switch together; wherein the second control signal controls an on or off state of the second switch. 8. The electric machine drive of claim 7 , wherein the plurality of inverter legs comprises a first inverter leg and a second inverter leg, wherein the first connector line of the first inverter leg and the first connector line of the second inverter leg are configured to be connected to opposite ends of the first winding of the electric machine. 9. The electric machine drive of claim 8 , wherein the second connector line of the first inverter leg and the second connector line of the second inverter leg are configured to be connected to opposite ends of the second winding of the electric machine. 10. The electric machine drive of claim 7 , wherein the second switch is rated to support a maximum DC voltage, wherein the first switch and the third switch are rated to support half the maximum DC voltage. 11. The electric machine drive of claim 7 , further comprising a second inverter comprising: a second plurality of inverter legs, wherein each inverter leg of the second plurality of inverter legs comprises a fourth switch; a fourth switch control line connecting a third control signal line to the fourth switch to receive a third control signal; a fifth switch; a fifth switch control line connecting a fourth control signal line to the fifth switch to receive a fourth control signal; a sixth switch; a sixth switch control line connecting the third control signal line to the sixth switch to receive the third control signal; a third connector line connected between the fourth switch and the fifth switch; and a fourth connector line connected between the fifth switch and the sixth switch; wherein the fourth switch, the fifth switch, and the sixth switch are connected sequentially in series between the positive DC line and the negative DC line; wherein the third connector line is configured to be connected to a third winding of the electric machine; wherein the fourth connector line is configured to be connected to a fourth winding of the electric machine; wherein the third control signal controls an on or off state of the fourth switch and the sixth switch together; wherein the fourth control signal controls an on or off state of the fifth switch; wherein the controller further comprises the third control signal line; and the fourth control signal line, wherein the controller is configured to generate the third control signal on the third control signal line and to generate the fourth control signal on the fourth control signal line, wherein the fourth control signal is complementary to the third control signal. 12. An electric machine system comprising: a controller comprising a first control signal line; and a second control signal line, wherein the controller is configured to generate a first control signal on the first control signal line and to generate a second c