Multilevel converter systems and methods with reduced common mode voltage
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02M-005/458
H02M-007/483
H02M-007/487
H02M-001/12
H02M-007/5387
출원번호
US-0151142
(2014-01-09)
등록번호
US-9520800
(2016-12-13)
발명자
/ 주소
Tian, Kai
Cheng, Zhongyuan
Wu, Bin
Xu, David Dewei
출원인 / 주소
Rockwell Automation Technologies, Inc.
대리인 / 주소
Fay Sharpe LLP
인용정보
피인용 횟수 :
1인용 특허 :
85
초록▼
Multilevel converters and space vector modulation operating methods are presented in which fewer than all possible switching states are employed for space vector modulation of rectifier and inverter circuits to promote common mode voltage contribution cancellation or reduction therebetween and by us
Multilevel converters and space vector modulation operating methods are presented in which fewer than all possible switching states are employed for space vector modulation of rectifier and inverter circuits to promote common mode voltage contribution cancellation or reduction therebetween and by using subsets of possible space vector modulation switching states associated with minimal positive or negative common mode voltages and in some cases using virtual vectors which have zero common mode voltages to eliminate the 3rd order harmonic components in common mode voltage as well as to reduce common mode voltage affects associated with multilevel inverter stages.
대표청구항▼
1. A power conversion system, comprising: a DC bus circuit comprising first and second DC bus terminals;a rectifier including a plurality of multilevel rectifier converter stages, individual ones of the multilevel rectifier converter stages comprising an AC input terminal adapted to receive AC input
1. A power conversion system, comprising: a DC bus circuit comprising first and second DC bus terminals;a rectifier including a plurality of multilevel rectifier converter stages, individual ones of the multilevel rectifier converter stages comprising an AC input terminal adapted to receive AC input power from a corresponding one of a plurality of AC input phases, a pair of DC output terminals individually coupled to a corresponding one of the first and second DC bus terminals of the DC bus circuit, and a multilevel rectifier circuit operable according to a corresponding set of rectifier switching control signals to convert AC input power to provide a DC output voltage at the DC output terminals;an inverter including a plurality of multilevel inverter stages, individual ones of the multilevel inverter stages comprising a pair of DC input terminals individually coupled to a corresponding one of the first and second DC bus terminals of the DC bus circuit, an AC output terminal adapted to provide AC output power directly or indirectly to a corresponding one of a plurality of AC output phases to drive a load, and a multilevel inverter circuit operable according to a corresponding set of inverter switching control signals to convert DC input power from the DC bus circuit to provide an AC output voltage at the AC output terminal; anda controller providing the rectifier and inverter switching control signals to facilitate offsetting of common mode voltage contributions of the rectifier and the inverter;wherein the individual multilevel converter stages of the rectifier and of the inverter are configured to provide an integer number N AC voltage levels, where N is an even number greater than or equal to 4;wherein the controller provides the rectifier and inverter switching control signals via space vector modulation according to corresponding rectifier and inverter reference vectors using a corresponding subset of possible switching states with minimal absolute common mode voltages; andwherein the controller provides the rectifier and inverter switching control signals using the same subset of possible switching states when a modulation index associated with the rectifier reference vector is less than or equal to a predetermined value and a modulation index associated with the inverter reference vector is less than or equal to the predetermined value. 2. The power conversion system of claim 1, wherein the individual multilevel rectifier converter stages and the individual multilevel inverter stages are nested neutral point clamped multilevel converters. 3. The power conversion system of claim 2, wherein the controller provides the inverter switching control signals to the plurality of converter switching devices and to the switched capacitor circuit switching devices of the individual multilevel inverter stages to provide the output voltages at the individual AC output phases at one of four distinct levels. 4. The power conversion system of claim 2, the individual nested neutral point clamped multilevel converters comprising: a neutral point clamped (NPC) converter circuit including a plurality of converter switching devices connected in series with one another between first and second converter circuit input nodes, and a converter AC node connecting two of the plurality of converter switching devices;a clamping sub-circuit of the NPC converter including first and second clamping elements connected in series with one another between first and second internal nodes of the converter switching circuit, and a third internal node joining the first and second clamping elements; anda switched capacitor circuit, comprising switched capacitor circuit switching devices individually connected between a corresponding one of the converter DC terminals and a corresponding converter circuit input nodes, and first and second capacitors individually connected between a corresponding one of the converter circuit input nodes and the third internal node. 5. The power conversion system of claim 4, wherein the controller provides the rectifier and inverter switching control signals to the plurality of converter switching devices and to the switched capacitor circuit switching devices of the individual nested neutral point clamped multilevel converters to control charging and discharging of the first and second capacitors. 6. The power conversion system of claim 1, wherein the controller provides the rectifier and inverter switching control signals such that an inverter common mode contribution completely or at least partially offsets a common mode voltage contribution associated with the rectifier. 7. A power conversion system, comprising: a DC bus circuit comprising first and second DC bus terminals;a rectifier including a plurality of multilevel rectifier converter stages, individual ones of the multilevel rectifier converter stages comprising an AC input terminal adapted to receive AC input power from a corresponding one of a plurality of AC input phases, a pair of DC output terminals individually coupled to a corresponding one of the first and second DC bus terminals of the DC bus circuit, and a multilevel rectifier circuit operable according to a corresponding set of rectifier switching control signals to convert AC input power to provide a DC output voltage at the DC output terminals;an inverter including a plurality of multilevel inverter stages, individual ones of the multilevel inverter stages comprising a pair of DC input terminals individually coupled to a corresponding one of the first and second DC bus terminals of the DC bus circuit, an AC output terminal adapted to provide AC output power directly or indirectly to a corresponding one of a plurality of AC output phases to drive a load, and a multilevel inverter circuit operable according to a corresponding set of inverter switching control signals to convert DC input power from the DC bus circuit to provide an AC output voltage at the AC output terminal; anda controller providing the rectifier and inverter switching control signals to facilitate offsetting of common mode voltage contributions of the rectifier and the inverter;wherein the individual multilevel converter stages of the rectifier and of the inverter are configured to provide an integer number N AC voltage levels, where N is an even number greater than or equal to 4;wherein the controller provides the rectifier and inverter switching control signals via space vector modulation according to corresponding rectifier and inverter reference vectors using a corresponding subset of possible switching states with minimal absolute common mode voltages; andwherein the controller provides the switching control signals to a first one of the rectifier and the inverter alternately using switching states of a first subset of possible switching states for which a common mode voltage contribution of the corresponding multilevel stage is a minimal positive value and a different second subset of possible switching states for which the common mode voltage contribution of the corresponding multilevel stage is a minimal negative value when a modulation index associated with the reference vector associated with the first one of the rectifier and the inverter is greater than a predetermined value and a modulation index associated with the reference vector associated with the other one of the rectifier and the inverter is less than or equal to the same predetermined value, and wherein the controller provides the switching control signals to the other one of the rectifier and the inverter using the switching states of the same subset currently used for the first one of the rectifier and the inverter. 8. The power conversion system of claim 7, wherein the individual multilevel rectifier converter stages and the individual multilevel inverter stages are nested neutral point clamped multilevel converters. 9. The power conversion system of claim 8, wherein the controller provides the inverter switching control signals to the plurality of converter switching devices and to the switched capacitor circuit switching devices of the individual multilevel inverter stages to provide the output voltages at the individual AC output phases at one of four distinct levels. 10. The power conversion system of claim 8, the individual nested neutral point clamped multilevel converters comprising: a neutral point clamped (NPC) converter circuit including a plurality of converter switching devices connected in series with one another between first and second converter circuit input nodes, and a converter AC node connecting two of the plurality of converter switching devices;a clamping sub-circuit of the NPC converter including first and second clamping elements connected in series with one another between first and second internal nodes of the converter switching circuit, and a third internal node joining the first and second clamping elements; anda switched capacitor circuit, comprising switched capacitor circuit switching devices individually connected between a corresponding one of the converter DC terminals and a corresponding converter circuit input nodes, and first and second capacitors individually connected between a corresponding one of the converter circuit input nodes and the third internal node. 11. The power conversion system of claim 10, wherein the controller provides the rectifier and inverter switching control signals to the plurality of converter switching devices and to the switched capacitor circuit switching devices of the individual nested neutral point clamped multilevel converters to control charging and discharging of the first and second capacitors. 12. The power conversion system of claim 7, wherein the controller provides the rectifier and inverter switching control signals such that an inverter common mode contribution completely or at least partially offsets a common mode voltage contribution associated with the rectifier. 13. A method for operating a multiphase AC-AC conversion system having a rectifier including a plurality of multilevel rectifier converter stages, an inverter including a plurality of multilevel inverter stages, and an intermediate DC bus circuit, the method comprising: providing rectifier and inverter switching control signals to the multilevel stages of the rectifier and the inverter via space vector modulation according to corresponding rectifier and inverter reference vectors using a corresponding subset of possible switching states with minimal absolute common mode voltages to facilitate offsetting of common mode voltage contributions of the rectifier and the inverter; andproviding the rectifier and inverter switching control signals using the same subset of possible switching states when a modulation index associated with the rectifier reference vector is less than or equal to a predetermined value and a modulation index associated with the inverter reference vector is less than or equal to the predetermined value;wherein the individual multilevel converter stages of the rectifier and of the inverter are configured to provide an integer number N AC voltage levels, where N is an even number greater than or equal to 4. 14. A method for operating a multiphase AC-AC conversion system having a rectifier including a plurality of multilevel rectifier converter stages, an inverter including a plurality of multilevel inverter stages, and an intermediate DC bus circuit, the method comprising: providing rectifier and inverter switching control signals to the multilevel stages of the rectifier and the inverter via space vector modulation according to corresponding rectifier and inverter reference vectors using a corresponding subset of possible switching states with minimal absolute common mode voltages to facilitate offsetting of common mode voltage contributions of the rectifier and the inverter;wherein the individual multilevel converter stages of the rectifier and of the inverter are configured to provide an integer number N AC voltage levels, where N is an even number greater than or equal to 4; andproviding the switching control signals for a first one of the rectifier and the inverter alternately using switching states of a first subset of possible switching states for which a common mode voltage contribution of the corresponding multilevel stage is a minimal positive value and a different second subset of possible switching states for which the common mode voltage contribution of the corresponding multilevel stage is a minimal negative value when a modulation index associated with the reference vector associated with the first one of the rectifier and the inverter is greater than a predetermined value and a modulation index associated with the reference vector associated with the other one of the rectifier and the inverter is less than or equal to the predetermined value, and providing the switching control signals to the second one of the rectifier and the inverter using the switching states of the same subset currently used for the first one of the rectifier and the inverter. 15. A power conversion system, comprising: a multiphase multilevel converter including a plurality of multilevel converter stages, individual ones of the multilevel converter stages comprising a pair of DC terminals individually coupled to a DC bus circuit, an AC terminal adapted to provide or receive AC output power directly or indirectly to or from a corresponding one of a plurality of AC phases, and a multilevel converter circuit operable according to a corresponding set of converter switching control signals; anda controller providing the converter switching control signals to individual ones of the multilevel converter stages via space vector modulation using only a subset of possible switching states with minimal absolute common mode voltages, wherein the controller provides the converter switching control signals by using directly only virtual vectors synthesized using actual vectors representing switching states of the subset of possible switching states according to a reference vector. 16. The power conversion system of claim 15, wherein the virtual vectors are constructed such that the average common mode voltage of the virtual vectors is zero. 17. The power conversion system of claim 15, wherein the individual multilevel converter stages are nested neutral point clamped multilevel converters having a switched capacitor circuit with first and second capacitors, and wherein the controller provides the converter switching control signals to control charging and discharging of the first and second capacitors to regulate corresponding first and second capacitor voltages to less than half of a DC bus voltage across the DC terminals.
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