Methods and systems for controlling a DC bus voltage from a three-phase voltage source

What is claimed is: 1. A method of controlling a three-phase alternating current (AC) voltage source, the method comprising: determining an error between a direct current (DC) bus voltage command and a detected DC bus voltage, the detected DC bus voltage being a part of an outer feedback loop; obtaining one of a conductance value or a resistance value, the one of the conductance value or the resistance value being a part of an inner feedback loop relative to the outer feedback loop; regulating an output DC bus voltage based on the error and the one of the conductance value or the resistance value; controlling the three-phase AC voltage source based on the regulation of the output DC bus voltage; generating a first parameter based on a proportional integral (PI) function and the error; determining a second parameter based on the one of the conductance value or the resistance value and the detected DC bus voltage, wherein the controlling controls the three-phase AC voltage source based on the first parameter and the second parameter; and generating a charging current command based on a difference between the first parameter and the second parameter. 2. The method of claim 1 , wherein the generating the first parameter includes, determining a current value based on the error, determining whether the current value is within a first saturation limit and a second saturation limit, and generating the first parameter based on whether the current value is within the first saturation limit and the second saturation limit. 3. The method of claim 2 , wherein the determining the current value includes, selecting one of a limited current value and a reset value based on an operating mode of the three-phase AC voltage source, and determining the current value based on the selecting. 4. The method of claim 1 , further comprising: generating a first power command based on the charging current command; generating a second power command based on the first power command and a feed-forward power; determining whether the second power command is within a first saturation limit and a second saturation limit; and generating a torque command based on whether the second power command is within the first saturation limit and the second saturation limit. 5. The method of claim 1 , further comprising: determining a first set of gains based on a regulator bandwidth, the first set of gains being part of the PI function. 6. The method of claim 5 , further comprising: determining the one of the conductance value or the resistance value based on the first set of gains. 7. A machine drive comprising: a three-phase alternating current (AC) voltage source; a memory storing computer readable instructions; and at least one processor configured to execute the computer readable instructions to cause the machine drive to, determine an error between a direct current (DC) bus voltage command and a detected DC bus voltage, the detected DC bus voltage being a part of an outer feedback loop, obtain one of a conductance value or a resistance value, the one of the conductance value or the resistance value being a part of an inner feedback loop relative to the outer feedback loop, regulate an output DC bus voltage based on the error and the one of the conductance value or the resistance value, control the three-phase AC voltage source based on the regulation of the output DC bus voltage, generate a first parameter based on a proportional integral (PI) function and the error; determine a second parameter based on the one of the conductance value or the resistance value and the detected DC bus voltage, wherein the controlling controls the three-phase AC voltage source based on the first parameter and the second parameter, and generate a charging current command based on a difference between the first parameter and the second parameter. 8. The machine drive of claim 7 , wherein the at least one processor is configured to execute the computer readable instructions to cause the machine drive to, determine a current value based on the error, determine whether the current value is within a first saturation limit and a second saturation limit, and generate the first parameter based on whether the current value is within the first saturation limit and the second saturation limit. 9. The machine drive of claim 8 , wherein the at least one processor is configured to execute the computer readable instructions to cause the machine drive to, select one of a limited current value and a reset value based on an operating mode of the three-phase AC voltage source, and determine the current value based on the selecting. 10. The machine drive of claim 7 , wherein the at least one processor is configured to execute the computer readable instructions to cause the machine drive to, generate a first power command based on the charging current command; generate a second power command based on the first power command and a feed-forward power; determine whether the second power command is within a first saturation limit and a second saturation limit; and generate a torque command based on whether the second power command is within the first saturation limit and the second saturation limit. 11. The machine drive of claim 7 , wherein the at least one processor is configured to execute the computer readable instructions to cause the machine drive to, determine a first set of gains based on a regulator bandwidth, the first set of gains being part of the PI function. 12. The machine drive of claim 11 , wherein the at least one processor is configured to execute the computer readable instructions to cause the machine drive to, determine the one of the conductance value or the resistance value based on the first set of gains.