Power stage precharging and dynamic braking apparatus for multilevel inverter
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02P-003/12
H02P-003/22
H02M-005/453
H02P-003/18
출원번호
US-0858187
(2013-04-08)
등록번호
US-9083274
(2015-07-14)
발명자
/ 주소
Liu, Jingbo
Nondahl, Thomas
출원인 / 주소
Rockwell Automation Technologies, Inc.
대리인 / 주소
Fay Sharpe LLP
인용정보
피인용 횟수 :
1인용 특허 :
52
초록▼
Precharging and dynamic braking circuits are presented for multilevel inverter power stages of a power converter with a shared resistor connected to charge a DC bus capacitor with current from the rectifier circuit in a first operating mode and connected in parallel with the capacitor to dissipate p
Precharging and dynamic braking circuits are presented for multilevel inverter power stages of a power converter with a shared resistor connected to charge a DC bus capacitor with current from the rectifier circuit in a first operating mode and connected in parallel with the capacitor to dissipate power in a dynamic braking mode.
대표청구항▼
1. A power conversion system, comprising: a multilevel inverter, including at least one inverter leg comprising a plurality of power stages, the individual power stages comprising: a DC bus circuit with a first DC circuit branch and a second DC circuit branch,a rectifier circuit providing a DC volta
1. A power conversion system, comprising: a multilevel inverter, including at least one inverter leg comprising a plurality of power stages, the individual power stages comprising: a DC bus circuit with a first DC circuit branch and a second DC circuit branch,a rectifier circuit providing a DC voltage to the DC bus circuit,an output,a switching circuit including first and second switching circuit input nodes, the switching circuit operable according to switching control signals to provide an output voltage at the output at one of a plurality of distinct output voltage levels, anda precharge and dynamic braking circuit with a resistor connected between the rectifier circuit and the switching circuit, the precharge and dynamic braking circuit operative in a first operating mode to conduct current from the rectifier circuit through the resistor to charge a capacitor of the DC bus circuit, in a second operating mode to bypass the resistor and allow current to flow from the rectifier circuit to the switching circuit, and in a third operating mode to connect the resistor across the first and second switching circuit input nodes in parallel with the capacitor of the DC bus circuit,the outputs of the at least one inverter leg being coupled in series with one another with an output of a last power stage of the at least one inverter leg providing an output to drive a load; anda controller operative to provide the switching control signals to set the individual output voltage levels of the power stages of the multilevel inverter. 2. The power conversion system of claim 1, wherein the precharge and dynamic braking circuit of the individual power stages comprises: a first switching device coupled in the first circuit branch of the DC bus circuit between the rectifier and the switching circuit, the first switching device operative according to a first control signal in a first state to prevent current from flowing directly through the first switching device between the rectifier and the switching circuit, and in a second state to allow current to flow through the first switching device;a first diode coupled in parallel with the first switching device, with a cathode connected to the rectifier and an anode connected to the switching circuit;a second diode coupled in series with the resistor in a circuit branch parallel with the first switching device, the second diode having an anode connected to the resistor and a cathode connected to the switching circuit; anda power stage controller providing the first control signal to selectively place the first switching device in the first state in the first operating mode, and to place the first switching device in the second state in the second and third operating modes. 3. The power conversion system of claim 2, wherein the precharge and dynamic braking circuit of the individual power stages comprises: a second switching device coupled between the second DC circuit branch and a first internal node joining the second diode and the resistor, the second switching device operative according to a second control signal in a first state to prevent current from flowing between the first internal node and the second DC circuit branch, and in a second state to allow current to flow between the first internal node and the second DC circuit branch;wherein the power stage controller provides the second control signal to selectively place the second switching device in the first state in the first and second operating modes, and to place the second switching device in the second state for at least a portion of a time during which the precharge and dynamic braking circuit is in the third operating mode. 4. The power conversion system of claim 3, wherein the power stage controller provides the second control signal to pulse width modulate the second switching device in the third operating mode. 5. The power conversion system of claim 4, wherein the power stage controller changes the operating mode of the precharge and dynamic braking circuit at least partially according to a DC bus voltage of the DC bus circuit. 6. The power conversion system of claim 5, wherein the power stage controller operates the precharge and dynamic braking circuit in the first operating mode if the DC bus voltage is less than a first threshold value, in the third operating mode if the DC bus voltage is greater than a second threshold value, and in the second operating mode if the DC bus voltage is between the first and second threshold values, the second threshold value being greater than the first threshold value. 7. The power conversion system of claim 3, wherein the second switching device is an insulated gate bipolar transistor. 8. The power conversion system of claim 2, wherein the power stage controller changes the operating mode of the precharge and dynamic braking circuit at least partially according to a DC bus voltage of the DC bus circuit. 9. The power conversion system of claim 8, wherein the power stage controller operates the precharge and dynamic braking circuit in the first operating mode if the DC bus voltage is less than a first threshold value, in the third operating mode if the DC bus voltage is greater than a second threshold value, and in the second operating mode if the DC bus voltage is between the first and second threshold values, the second threshold value being greater than the first threshold value. 10. The power conversion system of claim 1, wherein the operating mode of the individual precharge and dynamic braking circuits is determined at least partially according to a DC bus voltage of the DC bus circuit. 11. The power conversion system of claim 10, wherein the individual precharge and dynamic braking circuits operate in the first operating mode if the DC bus voltage is less than a first threshold value, in the third operating mode if the DC bus voltage is greater than a second threshold value, and in the second operating mode if the DC bus voltage is between the first and second threshold values, the second threshold value being greater than the first threshold value. 12. The power conversion system of claim 1, wherein the individual precharge and dynamic braking circuits operate in the first operating mode if a DC bus voltage of the corresponding DC bus circuit is less than a first threshold value, in the third operating mode if the DC bus voltage is greater than a second threshold value, and in the second operating mode if the DC bus voltage is between the first and second threshold values, the second threshold value being greater than the first threshold value. 13. A method for operating individual power stages in a multilevel inverter, the method comprising: if a DC bus voltage of a given power stage is less than a first threshold value, precharging a DC bus capacitance of the given power stage through a resistor; andif the DC bus voltage of the given power stage is greater than a second threshold value, connecting the resistor in parallel with the DC bus capacitance for dynamic braking of a load driven by the multilevel inverter, the second threshold value being greater than the first threshold value. 14. The method of claim 13, comprising bypassing the resistor to allow current to flow from a rectifier circuit to a switching circuit of the given power stage if the DC bus voltage is between the first and second threshold values. 15. The method of claim 14, comprising pulse width modulating a switch connecting the resistor in parallel with the capacitor for dynamic braking of the load if the DC bus voltage of the given power stage is greater than the second threshold value. 16. The method of claim 13, comprising pulse width modulating a switch connecting the resistor in parallel with the capacitor for dynamic braking of the load if the DC bus voltage of the given power stage is greater than the second threshold value. 17. A non-transitory computer readable medium with computer executable instructions for operating individual power stages in a multilevel inverter, comprising computer executable instructions for: precharging a DC bus capacitance of the given power stage through a resistor if a DC bus voltage of a given power stage is less than a first threshold value; andconnecting the resistor in parallel with the DC bus capacitance for dynamic braking of a load driven by the multilevel inverter, the second threshold value being greater than the first threshold value if the DC bus voltage of the given power stage is greater than a second threshold value. 18. The non-transitory computer readable medium of claim 17, comprising computer executable instructions for bypassing the resistor to allow current to flow from a rectifier circuit to a switching circuit of the given power stage if the DC bus voltage is between the first and second threshold values. 19. The non-transitory computer readable medium of claim 18, comprising computer executable instructions for pulse width modulating a switch connecting the resistor in parallel with the capacitor for dynamic braking of the load if the DC bus voltage of the given power stage is greater than the second threshold value. 20. The non-transitory computer readable medium of claim 17, comprising computer executable instructions for pulse width modulating a switch connecting the resistor in parallel with the capacitor for dynamic braking of the load if the DC bus voltage of the given power stage is greater than the second threshold value.
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