Precharging apparatus and power converter

The invention claimed is: 1. A system for precharging a DC bus circuit disposed between a multiphase input rectifier and an inverter of a power conversion system, comprising: a precharging circuit, including: a precharging resistance coupled between the DC bus circuit and only a single one of a plurality of AC input lines, the precharging comprising a first terminal coupled with the DC bus circuit and a second terminal, and a single precharging diode with an anode connected to the single one of the plurality of AC input lines, and a cathode connected to the second terminal of the precharging resistance; and a controller operative in a first mode when a DC bus voltage is less than a non-zero threshold to provide rectifier switching control signals to turn off a plurality of rectifier switching devices of the rectifier for precharging the DC bus circuit, and in a second mode when the DC bus voltage is greater than or equal to the non-zero threshold to provide the rectifier switching control signals to individually turn on given ones of the rectifier switching devices for at least a portion of AC input power cycles when a corresponding AC input line has a positive voltage to selectively provide a bypass path around the precharging resistance for normal load currents in the power conversion system; wherein the controller provides the rectifier switching control signals as pulse width modulated (PWM) pulse signals to individually turn on and off given ones of the rectifier switching devices for the portion of AC input power cycles when the corresponding AC input line has a positive voltage in the second mode; and wherein the controller sets a duty cycle of the PWM pulse signals at least partially according to an amount of common mode noise in the power conversion system. 2. The system of claim 1 , wherein the controller sets a duty cycle of the PWM pulse signals at least partially according to a modulation index used in controlling the inverter of the power conversion system. 3. The system of claim 2 , wherein the controller sets the duty cycle of the PWM pulse signals at least partially according to a cable length of the power conversion system. 4. The system of claim 1 , wherein the controller sets a duty cycle of the PWM pulse signals at least partially according to a cable length of the power conversion system. 5. A power conversion system, comprising: a rectifier comprising a plurality of rectifier switching devices individually coupled between a first rectifier DC output node and a corresponding one of a plurality of AC input lines; an inverter with first and second inverter inputs for receiving DC input power, and an inverter output for providing AC output power to drive a load; a DC bus circuit coupled between the first rectifier DC output node of the rectifier and the first and second inverter inputs of the inverter, the DC bus circuit comprising at least one capacitance; and a precharging system for precharging the DC bus circuit, comprising: a precharging circuit, including: a precharging resistance coupled between the DC bus circuit and only a single one of a plurality of AC input lines, the precharging comprising a first terminal coupled with the DC bus circuit and a second terminal, and a single precharging diode with an anode connected to the single one of the plurality of AC input lines, and a cathode connected to the second terminal of the precharging resistance, and a controller operative in a first mode when a DC bus voltage of the DC bus circuit is less than a non-zero threshold to provide rectifier switching control signals to turn off the plurality of rectifier switching devices of the rectifier for precharging the DC bus circuit, and in a second mode when the DC bus voltage is greater than or equal to the non-zero threshold to provide the rectifier switching control signals to individually turn on given ones of the rectifier switching devices for at least a portion of AC input power cycles when a corresponding AC input line has a positive voltage; wherein the controller provides the rectifier switching control signals as pulse width modulated (PWM) pulse signals to individually turn on and off given ones of the rectifier switching devices for the portion of AC input power cycles when the corresponding AC input line has a positive voltage in the second mode; and wherein the controller sets a duty cycle of the PWM pulse signals at least partially according to an amount of common mode noise in the power conversion system. 6. The power conversion system of claim 5 , wherein the DC bus circuit comprises an inductance coupled between the first rectifier DC output node and the first inverter input. 7. The power conversion system of claim 5 , wherein the controller sets a duty cycle of the PWM pulse signals at least partially according to a modulation index used in controlling the inverter of the power conversion system. 8. The power conversion system of claim 7 , wherein the controller sets the duty cycle of the PWM pulse signals at least partially according to a cable length of the power conversion system. 9. The power conversion system of claim 5 , wherein the controller sets a duty cycle of the PWM pulse signals at least partially according to a cable length of the power conversion system. 10. A method for precharging a DC bus capacitance in a power conversion system, the method comprising: when a DC bus voltage is less than a non-zero threshold, turning off a plurality of rectifier switching devices of the rectifier and precharging the DC bus capacitance through only a single precharging resistance coupled between a DC bus circuit and only a single one of a plurality of AC input lines; when the DC bus voltage is greater than or equal to the non-zero threshold, individually turning on given ones of the rectifier switching devices for at least a portion of AC input power cycles when a corresponding AC input line has a positive voltage to selectively provide a bypass path around the precharging resistance for normal load currents in the power conversion system; providing rectifier switching control signals as pulse width modulated (PWM) pulse signals to individually turn on and off given ones of the rectifier switching devices for the portion of AC input power cycles when the corresponding AC input line has a positive voltage in the second mode; and setting a duty cycle of the PWM pulse signals at least partially according to an amount of common mode noise in the power conversion system. 11. The method of claim 10 , comprising setting the duty cycle of the PWM pulse signals at least partially according to a modulation index used in controlling an inverter of the power conversion system. 12. The method of claim 11 , comprising setting the duty cycle of the PWM pulse signals at least partially according to a cable length of the power conversion system. 13. The method of claim 10 , comprising setting the duty cycle of the PWM pulse signals at least partially according to a cable length of the power conversion system.