电力自动化设备
電力自動化設備
전력자동화설비
ELECTRIC POWER AUTOMATION EQUIPMENT
2010年
4期
63-65
,共3页
PWM整流器%功率因数%空间矢量%临界升压系数%控制模式切换
PWM整流器%功率因數%空間矢量%臨界升壓繫數%控製模式切換
PWM정류기%공솔인수%공간시량%림계승압계수%공제모식절환
PWM rectifier%power factor%space vector%critical step-up coefficient%control pattern switching
基于三相电压型PWM整流器的工作原理,研究了PWM整流器的四象限运行的工作状态,并在此基础上提出PWM整流器网侧呈现受控电流源、且电流和功率因数均可控的特性,这使得整流器可以灵活地在各种工作状态间切换.针对PWM整流器网侧功率因数控制的要求,指出PWM整流器需工作在升压状态,且推导出其保持正常运行时直流电压与交流输入电源电压的比值应大于一个临界升压系数.提出了基于空间矢量算法的PWM整流器阶段电流控制策略:升压系数较大时采用单位功率因数控制模式,升压系数较小时则切换至滞后功率因数控制模式.设计并搭建了基于DSP数字化的三相电压源型PWM整流器的物理平台,实验波形验证了PWM整流器自身运行特性与其工作在临界升压系数时电流控制策略的切换控制的正确性.
基于三相電壓型PWM整流器的工作原理,研究瞭PWM整流器的四象限運行的工作狀態,併在此基礎上提齣PWM整流器網側呈現受控電流源、且電流和功率因數均可控的特性,這使得整流器可以靈活地在各種工作狀態間切換.針對PWM整流器網側功率因數控製的要求,指齣PWM整流器需工作在升壓狀態,且推導齣其保持正常運行時直流電壓與交流輸入電源電壓的比值應大于一箇臨界升壓繫數.提齣瞭基于空間矢量算法的PWM整流器階段電流控製策略:升壓繫數較大時採用單位功率因數控製模式,升壓繫數較小時則切換至滯後功率因數控製模式.設計併搭建瞭基于DSP數字化的三相電壓源型PWM整流器的物理平檯,實驗波形驗證瞭PWM整流器自身運行特性與其工作在臨界升壓繫數時電流控製策略的切換控製的正確性.
기우삼상전압형PWM정류기적공작원리,연구료PWM정류기적사상한운행적공작상태,병재차기출상제출PWM정류기망측정현수공전류원、차전류화공솔인수균가공적특성,저사득정류기가이령활지재각충공작상태간절환.침대PWM정류기망측공솔인수공제적요구,지출PWM정류기수공작재승압상태,차추도출기보지정상운행시직류전압여교류수입전원전압적비치응대우일개림계승압계수.제출료기우공간시량산법적PWM정류기계단전류공제책략:승압계수교대시채용단위공솔인수공제모식,승압계수교소시칙절환지체후공솔인수공제모식.설계병탑건료기우DSP수자화적삼상전압원형PWM정류기적물리평태,실험파형험증료PWM정류기자신운행특성여기공작재림계승압계수시전류공제책략적절환공제적정학성.
Based on the working principle of three-phase voltage-source PWM rectifier,its four-quadrant operating states are studied.It is concluded that,the grid side of PWM rectifier is presented as a current source with controllable current and power factor,which makes the PWM rectifier able to easily switch its operating state over from one to another.To meet the requirements of power factor control at grid side,PWM rectifier must work in Boost state,i.e.the ratio of DC voltage to AC input voltage should be greater than the critical step-up coefficient.The current control strategy of three-phase PWM rectifier is proposed based on space vector arithmetic:the unity power factor control mode when the step-up coefficient is bigger and the lagged power factor control mode when the coefficient is smaller.A hardware platform of three -phase voltage-source PWM rectifier based on DSP controller is designed and built up,and the experimental results validate its operating features and the correctness of the proposed control strategy.
