Circuit with current sharing alternately switched parallel transistors

The invention claimed is: 1. An inverter comprising: at least six sets of transistors including a first set and a second set, each set of transistors including a first transistor connected in parallel with a second transistor by coupling a collector of the first transistor to a collector of the second transistor and an emitter of the first transistor to an emitter of the second transistor, the first set having the collectors of the first and second transistors connected to an input line adapted for connection to a DC voltage source and the first and second emitters connected to a phase output line, the second set having the collectors of the first and second transistors connected to the a phase output line and their emitters connected to a DC voltage return line adapted for connection to the direct current voltage source; and a controller that: receives for the first set a first pulse and provides it for a first time period to a gate of a the first transistor of the first set and not to the second transistor of the first set and that receives a second pulse for the first set and provides it for a second time period to a gate of the second transistor of the first set and not to the first transistor of the first set; and receives for the second set a first pulse and provides it for a third time period to a gate of a first transistor of the second set and not to a second transistor of the second set and that receives a second pulse for the second set and provides it for a fourth time period to a gate of the second transistor of the second set and not to the first transistor of the second set. 2. The inverter of claim 1 , wherein the controller further: receives for the first set a third pulse and provides it for the first time period to the gate of the first transistor of the first set and not to the second transistor of the first set and that receives a fourth pulse for the first set and provides it for the second time period to the gate of the second transistor of the first set and not to the first transistor of the first set. 3. The inverter of claim 1 , wherein the wherein the first transistor of the first set is contained in a first inverter unit and the second transistor of the first set is contained in a second inverter unit connected in parallel with the first inverter unit between the input line and the DC voltage return line. 4. The inverter of claim 1 , wherein transistors forming the first and second transistors are insulated-gate bipolar transistors, bipolar transistors, or field effect transistors. 5. The inverter of claim 1 , wherein the at least six sets transistors includes a third set connected in parallel to the first set and a fourth set connected in parallel to the second set. 6. The inverter of claim 5 , wherein the third and fourth sets receive pulses that are 120 degrees out of phase from the pulses received by the first and second sets. 7. A motor controller for controlling operation of a motor comprising: at least six sets of transistors including a first set and a second set, each set of transistors including a first transistor connected in parallel with second transistor by coupling a collector of the first transistor to a collector of the second transistor and an emitter of the first transistor to an emitter of the second transistor, the first set having the collectors of the first and second transistors connected to an input line adapted for connection to a DC voltage source and the first and second emitters connected to a phase output line, the second set having the collectors of the first and second transistors connected to the phase output line and their emitters connected to a DC voltage return line adapted for connection to the direct current voltage source; output lines connecting the transistors to the motor; and a controller that: receives for the first set a first pulse and provides it for a first time period to a gate of the first transistor of the first set and not to the second transistor of the first set and that receives a second pulse for the first set and provides it for a second time period to a gate of the second transistor of the first set and not to the first transistor of the first set; and receives for the second set a first pulse and provides it for a third time period to a gate of a first transistor of the second set and not to a second transistor of the second set and that receives a second pulse for the second set and provides it for a fourth time period to a gate of the second transistor of the second set and not to the first transistor of the second set. 8. The motor controller of claim 7 , wherein the controller further: receives for the first set a third pulse and provides it for the first time period to the gate of a first transistor of the first set and not to the second transistor of the first set and that receives a fourth pulse for the first set and provides it for the second time period to the gate of the second transistor of the first set and not to the first transistor of the first set. 9. The motor controller of claim 7 , wherein the wherein the first transistor of the first set is contained in a first inverter unit and the second transistor of the first set is contained in a second inverter unit connected in parallel with the first inverter unit between the input line and the DC power return line. 10. The motor controller of claim 7 , wherein transistors forming the at least six sets of transistors are insulated-gate bipolar transistors, bipolar transistors, or field effect transistors. 11. The motor controller of claim 7 , wherein the second time period is equal in duration to the first time period. 12. The motor controller of claim 11 , wherein the fourth time period is equal in duration to the third time period.