中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2012年
9期
124-131
,共8页
费清照%邓智泉%王晓琳%李祥生
費清照%鄧智泉%王曉琳%李祥生
비청조%산지천%왕효림%리상생
开关功率放大器%五相六桥臂%最大电流误差%采样保持控制%磁悬浮%电流控制
開關功率放大器%五相六橋臂%最大電流誤差%採樣保持控製%磁懸浮%電流控製
개관공솔방대기%오상륙교비%최대전류오차%채양보지공제%자현부%전류공제
switching power amplifier%five-phase six-leg%maximum current error%delta modulation%magnetic levitation%current control
具有五自由度全悬浮的磁轴承系统需要5个全桥结构开关功放。为提高开关功率放大器的集成度和母线电压利用率,提出五相六桥臂开关功放拓扑结构。该拓扑结构采用~种新型的混合电流控制方法,对公共桥臂和负载桥臂分别进行控制。其中公共桥臂采用改进型最大电流误差控制,该方法通过增加误差极性判断模块,最大程度提高了五相电流控制的独立性,实现其解耦控制;负载桥臂采用改进型采样保持控制,满足了在不同负载情况下的控制要求。仿真和实验结果均表明,基于新型混合电流控制方法的五相六桥臂开关功率放大器具有电流纹波小,动态响应快,受负载参数影响小,集成度高,硬件接口简单等优点。
具有五自由度全懸浮的磁軸承繫統需要5箇全橋結構開關功放。為提高開關功率放大器的集成度和母線電壓利用率,提齣五相六橋臂開關功放拓撲結構。該拓撲結構採用~種新型的混閤電流控製方法,對公共橋臂和負載橋臂分彆進行控製。其中公共橋臂採用改進型最大電流誤差控製,該方法通過增加誤差極性判斷模塊,最大程度提高瞭五相電流控製的獨立性,實現其解耦控製;負載橋臂採用改進型採樣保持控製,滿足瞭在不同負載情況下的控製要求。倣真和實驗結果均錶明,基于新型混閤電流控製方法的五相六橋臂開關功率放大器具有電流紋波小,動態響應快,受負載參數影響小,集成度高,硬件接口簡單等優點。
구유오자유도전현부적자축승계통수요5개전교결구개관공방。위제고개관공솔방대기적집성도화모선전압이용솔,제출오상륙교비개관공방탁복결구。해탁복결구채용~충신형적혼합전류공제방법,대공공교비화부재교비분별진행공제。기중공공교비채용개진형최대전류오차공제,해방법통과증가오차겁성판단모괴,최대정도제고료오상전류공제적독립성,실현기해우공제;부재교비채용개진형채양보지공제,만족료재불동부재정황하적공제요구。방진화실험결과균표명,기우신형혼합전류공제방법적오상륙교비개관공솔방대기구유전류문파소,동태향응쾌,수부재삼수영향소,집성도고,경건접구간단등우점。
Magnetic bearing system of five DOF needs five H-bridge switching power amplifiers, in order to enhance integrated level and power density of the power amplifier, a five-phase six-leg topology was adopted in this paper. A hybrid current control method was introduced, in which the control of neutral leg and phase leg was independent. In this control strategy, the control strategy of the neutral leg was the improved maximum current error modulator, it could reduce the couple of five output currents to the largest extent by adding a current error polarity judgment module. The control strategy of other legs was an improved sample-hold modulator, which can satisfy different load conditions varying in a wide range. The simulation and experiment results indicate that the five-phase six-leg switching power amplifier based on the new hybrid current control method has the advantages of low current ripple, fast dynamic response, least association with load parameters, high integrated level, simple logic interfaces and so on.
