电机与控制学报
電機與控製學報
전궤여공제학보
Electric Machines and Control
2015年
9期
23-32
,共10页
王强%陈祥雪%刘岩松%王天施%刘晓琴
王彊%陳祥雪%劉巖鬆%王天施%劉曉琴
왕강%진상설%류암송%왕천시%류효금
谐振直流环节%辅助开关%逆变器%软开关%开关损耗
諧振直流環節%輔助開關%逆變器%軟開關%開關損耗
해진직류배절%보조개관%역변기%연개관%개관손모
resonant DC link%auxiliary switch%inverter%soft-switching%switching loss
为解决谐振直流环节逆变器的直流母线上设置的辅助开关器件制约了其效率提高这一问题,提出一种新型谐振直流环节软开关逆变器拓扑结构,其直流母线上没串联辅助开关器件和谐振元件,有助于降低辅助谐振电路的损耗和提高效率. 此外,与同类型的软开关逆变器相比,与储能电容串联的辅助开关并联了额外的谐振电容,可以进一步降低关断损耗. 采用相平面分析法来研究拓扑结构的动力学行为、软开关条件以及设计规则,并建立分压电容的电压偏差量的数学模型.搭建了一台20 kW的实验样机,实验结果表明该软开关逆变器相比于硬开关逆变器,满载时的效率提高值不低于轻载时的效率提高值. 因此,该软开关逆变器能降低辅助谐振电路的能耗,保障电能的高效利用.
為解決諧振直流環節逆變器的直流母線上設置的輔助開關器件製約瞭其效率提高這一問題,提齣一種新型諧振直流環節軟開關逆變器拓撲結構,其直流母線上沒串聯輔助開關器件和諧振元件,有助于降低輔助諧振電路的損耗和提高效率. 此外,與同類型的軟開關逆變器相比,與儲能電容串聯的輔助開關併聯瞭額外的諧振電容,可以進一步降低關斷損耗. 採用相平麵分析法來研究拓撲結構的動力學行為、軟開關條件以及設計規則,併建立分壓電容的電壓偏差量的數學模型.搭建瞭一檯20 kW的實驗樣機,實驗結果錶明該軟開關逆變器相比于硬開關逆變器,滿載時的效率提高值不低于輕載時的效率提高值. 因此,該軟開關逆變器能降低輔助諧振電路的能耗,保障電能的高效利用.
위해결해진직류배절역변기적직류모선상설치적보조개관기건제약료기효솔제고저일문제,제출일충신형해진직류배절연개관역변기탁복결구,기직류모선상몰천련보조개관기건화해진원건,유조우강저보조해진전로적손모화제고효솔. 차외,여동류형적연개관역변기상비,여저능전용천련적보조개관병련료액외적해진전용,가이진일보강저관단손모. 채용상평면분석법래연구탁복결구적동역학행위、연개관조건이급설계규칙,병건립분압전용적전압편차량적수학모형.탑건료일태20 kW적실험양궤,실험결과표명해연개관역변기상비우경개관역변기,만재시적효솔제고치불저우경재시적효솔제고치. 인차,해연개관역변기능강저보조해진전로적능모,보장전능적고효이용.
One auxiliary switching device was usually on the DC bus of resonant DC link inverter, which blocked the improvement of efficiency. A novel resonant DC link soft-switching inverter was proposed to solve the problem. Auxiliary switches and resonant elements were not on the DC bus in the novel topolo-gy. It could reduce loss of auxiliary resonant circuit and enhance efficiency. In addition, compared with the same type of soft-switching inverter, extra resonant capacitor was in parallel with auxiliary switch which was in series with energy storage capacitors. It could further reduce turn-off loss. The phase-plane analysis technique was established in order to study transient dynamics, soft-switching condition and de-sign rule. The mathematical models for voltage deviation of voltage dividing capacitors were established. A 20 kW laboratory prototype was built. Experimental results demonstrate the value of improvements in efficiency at full load is no less than that at light load. Therefore, the proposed soft-switching inverter can reduce loss of auxiliary resonant circuit and ensure high power utilization ratio.
