电子科技
電子科技
전자과기
IT AGE
2012年
8期
139-140
,共2页
电力拖动%直流调速%多环控制%调节器%退饱和超调
電力拖動%直流調速%多環控製%調節器%退飽和超調
전력타동%직류조속%다배공제%조절기%퇴포화초조
electric drive%DC converter%multi-loop control%regulator%de-saturation overshoot
分析了转速调节器退饱和超调产生的原因,对退饱和超调计算的前期工作进行了转速线性化处理及电流线性化调节处理,并推导出了利用典型Ⅱ型系统抗扰性指标来折算超调量的理论依据,得出了多种有实用价值的结论,可作为指导实践的工具。
分析瞭轉速調節器退飽和超調產生的原因,對退飽和超調計算的前期工作進行瞭轉速線性化處理及電流線性化調節處理,併推導齣瞭利用典型Ⅱ型繫統抗擾性指標來摺算超調量的理論依據,得齣瞭多種有實用價值的結論,可作為指導實踐的工具。
분석료전속조절기퇴포화초조산생적원인,대퇴포화초조계산적전기공작진행료전속선성화처리급전류선성화조절처리,병추도출료이용전형Ⅱ형계통항우성지표래절산초조량적이론의거,득출료다충유실용개치적결론,가작위지도실천적공구。
The causes of de-saturation overshoot of the speed regulator are analyzed. The speed and current are linearized for the preliminary work of the overshoot of the de-saturation. This paper also derives the theoretical basis for translating the overshoot by the typical type II system immunity indicators. It finally comes to several conclusions of practical value and can, therefore, be used as a guide in practice.
