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A machine is described that includes an electric drive for propelling the machine along a ground surface. The machine includes an electric power supply system configured to deliver operating electrical power to the electric drive. The electric power system includes a first generator and a second gen

A machine is described that includes an electric drive for propelling the machine along a ground surface. The machine includes an electric power supply system configured to deliver operating electrical power to the electric drive. The electric power system includes a first generator and a second generator. The electric power system also includes a first rectifier coupled to the first generator and having a first direct current (DC) output and a second rectifier coupled to the second generator and having a second DC output. Both the first DC output and the second DC output are coupled to the single DC bus, thereby providing an arrangement for the first rectifier and the second rectifier to simultaneously provide power to the single DC bus. The electrical power system also includes a first inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a first motor.

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1. An electric power supply system configured to deliver operating electrical power in a machine having an electric drive system, the electric power supply system comprising: a first generator and a second generator, each configured to receive an output provided by a prime mover;a first rectifier co

1. An electric power supply system configured to deliver operating electrical power in a machine having an electric drive system, the electric power supply system comprising: a first generator and a second generator, each configured to receive an output provided by a prime mover;a first rectifier coupled to the first generator and having a first direct current (DC) output;a second rectifier coupled to the second generator and having a second DC output;a single DC bus to which both the first DC output and the second DC output are coupled, thereby providing an arrangement for the first rectifier and the second rectifier to simultaneously provide power to the single DC bus;a first inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a first motor driving a final drive of the machine; anda master electronic control module (ECM) configured to monitor the first DC output and the second DC output and provide control signals for maintaining a balanced power output by the first rectifier and the second rectifier on the single DC bus, the method comprising;wherein the first generator and the second generator are configured to simultaneously provide, via the first rectifier and the second rectifier, power to the single DC bus for use by at least the first inverter/controller. 2. The electric power supply system of claim 1 further comprising: a first ECM configured to control the first rectifier; a second ECM configured to control the second rectifier; a communication channel between the master ECM and each of the first ECM and the second ECM facilitating receiving, by the master ECM, signals from the first ECM and the second ECM indicative of separate voltage readings by each on the single DC bus. 3. The electric power supply system of claim 2, the communication channel between the master ECM and each of the first ECM and the second ECM facilitating transmitting, by the master ECM, a voltage correction signal for adjusting the output of at least one of the first generator and the second generator on the single DC bus. 4. The electric power supply system of claim 1 wherein the electric power supply system comprises at least a second inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a second motor driving a final drive of the machine. 5. The electric power supply system of claim 4 wherein the electric power supply system is configured to power a wheel loader machine. 6. The electric power supply system of claim 4 wherein the electric power supply system comprises: a third inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a third motor driving a final drive of the machine; anda fourth inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a fourth motor driving a final drive of the machine. 7. The electric power supply system of claim 6 wherein the electric power supply system is configured to power a wheel loader machine. 8. A machine having an electric drive for propelling the machine along a ground surface, the machine comprising: a prime mover;at least a first traction drive;an electric power supply system configured to deliver operating electrical power to the electric drive, the electric power supply system comprising: a first generator and a second generator, each configured to receive an output provided by the prime mover;a first rectifier coupled to the first generator and having a first direct current (DC) output;a second rectifier coupled to the second generator and having a second DC output;a single DC bus to which both the first DC output and the second DC output are coupled, thereby providing an arrangement for the first rectifier and the second rectifier to simultaneously provide power to the single DC bus;a first inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a first motor driving the first traction drive; anda master electronic control module (ECM) configured to monitor the first DC output and the second DC output and provide control signals for maintaining a balanced power output by the first rectifier and the second rectifier on the single DC bus,wherein the first generator and the second generator are configured to simultaneously provide, via the first rectifier and the second rectifier, power to the single DC bus for use by at least the first inverter/controller. 9. The machine of claim 8 wherein the machine is a wheel loader. 10. The machine of claim 8 wherein the electric power supply system further comprising: a first ECM configured to control the first rectifier;a second ECM configured to control the second rectifier;a communication channel between the master ECM and each of the first ECM and the second ECM facilitating receiving, by the master ECM, signals from the first ECM and the second ECM indicative of separate voltage readings by each on the single DC bus. 11. The machine of claim 8 wherein, in electric power supply system, the communication channel between the master ECM and each of the first ECM and the second ECM facilitates transmitting, by the master ECM, a voltage correction signal for adjusting the output of at least one of the first generator and the second generator on the single DC bus. 12. The machine of claim 8 wherein the electric power supply system comprises at least a second inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a second motor driving a final drive of the machine. 13. The machine of claim 12 wherein the electric power supply system comprises: a third inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a third motor driving a final drive of the machine; anda fourth inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a fourth motor driving a final drive of the machine. 14. A method for controlling an electric power supply system configured to deliver operating electrical power in a machine having an electric drive system, the electric power supply system comprising a first generator and a second generator, each configured to receive an output provided by a prime mover, a first rectifier coupled to the first generator and having a first direct current (DC) output, a second rectifier coupled to the second generator and having a second DC output, a single DC bus to which both the first DC output and the second DC output are coupled, a first inverter/controller coupled to the single DC bus and configured to provide a controlled alternating current to a first motor driving a final drive of the machine, and a master electronic control module (ECM) configured to monitor the first DC output and the second DC output and provide control signals for maintaining a balanced power output by the first rectifier and the second rectifier on the single DC bus, the method comprising: simultaneously providing, by the first generator and the second generator via the first rectifier and the second rectifier, power to the single DC bus for use by at least the first inverter/controller. 15. The method of claim 14 wherein the electric power supply system further comprises a master electronic control module (ECM), the method further comprising: monitoring operation of components providing the first DC output and the second DC output, andproviding control signals for maintaining a balanced power output by the first rectifier and the second rectifier on the single DC bus. 16. The method of claim 15 wherein the electric power supply system further comprises a first ECM configured to control the first rectifier, a second ECM configured to control the second rectifier, and a communication channel between the master ECM and each of the first ECM and the second ECM, the method further comprising: receiving, by the master ECM, signals from the first ECM and the second ECM indicative of separate voltage readings obtained by each on the single DC bus; andexecuting a control operation, by a balancer module on the master ECM, based upon the signals from the first ECM and the second ECM, ensuring balanced operation of both the first generator and the second generator. 17. The method of claim 16 wherein the executing a control operation step comprises: comparing values for the separate voltage readings obtained the first ECM and the second ECM on the single DC bus; andcalculating, based upon the comparing values, control signals for transmission to both the first ECM and the second ECM to cause a balanced operation of the first generator and the second generator. 18. The method of claim 17 further comprising: transmitting, by the master ECM and based upon the calculating step, voltage correction signals to the first ECM and the second ECM. 19. The method of claim 14 wherein the electric power supply system is configured to power a wheel loader machine.