Reachability Analysis of Transformer-Isolated DC-DC Converters

Abstract Various mission-critical applications necessarily require a transformer in switching converters to obtain DC isolation between the converters’ input and output. Since DC-DC converters are the switching devices, these are modeled as hybrid automata. We present hybrid automaton modeling of two main types of transformer isolated DC-DC converters, namely, flyback and forward converters. We have also catered the non-determinism for both. We use HyST (Hybrid Source Transformation) tool to automatically generate the models in SpaceEx format, perform reachability analysis, and then automatically convert the models into Mathworks Simulink Stateflow (SLSF) using HyST. Thus we demonstrate effectiveness of HyST tool in the model-based design process. The HyST user needs not to manually construct or modify the models thus saving significant amount of time and efforts. Category: academic Difficulty: medium

[1]  Ovidiu Pop,et al.  Educational matlab tool for simulating of forward converters , 2011, Proceedings of the 2011 34th International Spring Seminar on Electronics Technology (ISSE).

[2]  T. T. Johnson,et al.  Reachability analysis of closed-loop switching power converters , 2013, 2013 IEEE Power and Energy Conference at Illinois (PECI).

[3]  Antoine Girard,et al.  SpaceEx: Scalable Verification of Hybrid Systems , 2011, CAV.

[4]  Houssam Abbas,et al.  Model Validation of PWM DC–DC Converters , 2017, IEEE Transactions on Industrial Electronics.

[5]  Matthias Althoff,et al.  Formal verification of phase-locked loops using reachability analysis and continuization , 2011, 2011 IEEE/ACM International Conference on Computer-Aided Design (ICCAD).

[6]  Luan Viet Nguyen,et al.  Benchmark: DC-to-DC Switched-Mode Power Converters (Buck Converters, Boost Converters, and Buck-Boost Converters) , 2014, ARCH@CPSWeek.

[7]  Chung-Yuen Won,et al.  A novel power conversion circuit for cost-effective battery-fuel cell hybrid systems , 2005 .

[8]  Sergiy Bogomolov,et al.  HYST: a source transformation and translation tool for hybrid automaton models , 2015, HSCC.

[9]  Zhihao Hong,et al.  Design verification methods for switching power converters , 2012, 2012 IEEE Power and Energy Conference at Illinois.