At present, research on switching operation mainly focuses on preventing mis-operation, and there is little research on switching operation sequences. After the authors of this paper reviewed research papers on the sequences, they found that most of these studies were carried out in the form of simulations. However, due to problems such as imperfect simulation models and heavy workloads, many studies only target several typical switching operation. In response to these studies, in this paper, a timing-driven controllable switch module is designed on Simulink. The application of this kind of switches can significantly improve the efficiency of the research model for sequences of switching operation. Moreover, by using this model the currents in each branch can be automatically processed, then the processed data can be written into an Excel file, and different sequences of switching operation can be compared based on branch current.

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Design of a Digital Experimental Platform for Switching Operation Sequence in One-Key Sequential Control

  • Qun Ge,
  • Zhen Feng Wang,
  • Ya Lei Li

摘要

At present, research on switching operation mainly focuses on preventing mis-operation, and there is little research on switching operation sequences. After the authors of this paper reviewed research papers on the sequences, they found that most of these studies were carried out in the form of simulations. However, due to problems such as imperfect simulation models and heavy workloads, many studies only target several typical switching operation. In response to these studies, in this paper, a timing-driven controllable switch module is designed on Simulink. The application of this kind of switches can significantly improve the efficiency of the research model for sequences of switching operation. Moreover, by using this model the currents in each branch can be automatically processed, then the processed data can be written into an Excel file, and different sequences of switching operation can be compared based on branch current.