This paper presents hardware-in-the-loop (HIL) simulation designed for studying the synchronous boost converter, starting from the derivation of the continuous model and the discrete model to the implementation of the discrete model. A TMS320F28069M MCU was used to achieve a real time simulation of the converter with a step time of 10 μs, the paper evaluates and discusses the approach used to visualize the HIL output. The proposed HIL replicates the actual converter behavior, with minimal drift. Experimental validation provides close matching of HIL outputs with simulation.

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Development and Evaluation of a Low-Cost Hardware-in-the-Loop Simulation for Synchronous Boost Converter

  • Mohammed Bachiri,
  • Driss Yousfi,
  • Mohammed Chaker,
  • Racha Jamila Guessous,
  • Andronic Boanarijesy

摘要

This paper presents hardware-in-the-loop (HIL) simulation designed for studying the synchronous boost converter, starting from the derivation of the continuous model and the discrete model to the implementation of the discrete model. A TMS320F28069M MCU was used to achieve a real time simulation of the converter with a step time of 10 μs, the paper evaluates and discusses the approach used to visualize the HIL output. The proposed HIL replicates the actual converter behavior, with minimal drift. Experimental validation provides close matching of HIL outputs with simulation.