电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2014年
24期
49-55
,共7页
王璐%周海潇%罗建%唐治德
王璐%週海瀟%囉建%唐治德
왕로%주해소%라건%당치덕
相位调整%UPS%空间矢量%电源切换%Simulink
相位調整%UPS%空間矢量%電源切換%Simulink
상위조정%UPS%공간시량%전원절환%Simulink
phase modulation%UPS%space vector%source transfer%Simulink
针对重要负荷无缝供电的要求,提出了一种利用UPS逆变器控制实现的切换策略,使以感应电动机为代表的重要负荷在电源故障之后能快速平稳地切换到备用电源。通过分析典型动态负荷感应电动机的运行机理,说明了在失电状态下的残压变换规律和决定冲击大小的因素。对UPS中的逆变器通过空间矢量(SVPWM)方式进行调制,并对输出电压相位提出了一种相位分割的方式进行调整,最终实现在市电与备用电源存在相位差的情况下,对感应电动机负荷进行电源切换,有效避免了传统电源切换过程中对电动机的大电流的冲击。通过理论分析和 Simulink仿真,最后进行了实验室试验,证明了策略的正确性和可行性。
針對重要負荷無縫供電的要求,提齣瞭一種利用UPS逆變器控製實現的切換策略,使以感應電動機為代錶的重要負荷在電源故障之後能快速平穩地切換到備用電源。通過分析典型動態負荷感應電動機的運行機理,說明瞭在失電狀態下的殘壓變換規律和決定遲擊大小的因素。對UPS中的逆變器通過空間矢量(SVPWM)方式進行調製,併對輸齣電壓相位提齣瞭一種相位分割的方式進行調整,最終實現在市電與備用電源存在相位差的情況下,對感應電動機負荷進行電源切換,有效避免瞭傳統電源切換過程中對電動機的大電流的遲擊。通過理論分析和 Simulink倣真,最後進行瞭實驗室試驗,證明瞭策略的正確性和可行性。
침대중요부하무봉공전적요구,제출료일충이용UPS역변기공제실현적절환책략,사이감응전동궤위대표적중요부하재전원고장지후능쾌속평은지절환도비용전원。통과분석전형동태부하감응전동궤적운행궤리,설명료재실전상태하적잔압변환규률화결정충격대소적인소。대UPS중적역변기통과공간시량(SVPWM)방식진행조제,병대수출전압상위제출료일충상위분할적방식진행조정,최종실현재시전여비용전원존재상위차적정황하,대감응전동궤부하진행전원절환,유효피면료전통전원절환과정중대전동궤적대전류적충격。통과이론분석화 Simulink방진,최후진행료실험실시험,증명료책략적정학성화가행성。
This paper proposes a switching scheme by controlling the inverter in the UPS to meet the demand of uninterrupted power supply for important load. It can make the load such as inductor motors get supplied by the stand-by power after power failure quickly and smoothly. The operational mechanism of the inductor motor is analyzed and the variation of the residual voltage and the influence factors of the impact current are explained. The inverter in the UPS is in Space Vector Modulation (SVPWM), which can immediately track the residual voltage to support the motor. It controls the phase of the output voltage of the inverter toward the stand-by power and makes the switching of the power supply smooth. This phase control scheme can make the power switch for the inductor motor succeed avoiding the impact of the surge current when the phase difference exists. The validity and the feasibility are convinced by the theoretical analysis and the simulation by Simulink as well as experiments in the laboratory.
