Energies (Jul 2021)

Modeling, Analysis, and Control Design of a Single-Stage Boost Inverter

  • Md. Rasheduzzaman,
  • Poria Fajri,
  • Jonathan Kimball,
  • Brad Deken

DOI
https://doi.org/10.3390/en14144098
Journal volume & issue
Vol. 14, no. 14
p. 4098

Abstract

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A single-phase, single-stage, differential boost inverter comprises two independently-controlled boost DC-DC converters, with the load connected between their outputs. The net voltage on the load is sinusoidal and has a controllable frequency and magnitude that is larger than that of the DC source. The present work first derives steady-state and small-signal models of the inverter with parasitic elements. The results obtained from the line-to-output transfer function, control-to-output transfer function, open-loop input impedance, and open-loop output impedance models are compared with that of the ones obtained from the experimental testbed. Using the new models, a voltage mode controller is designed in the synchronous reference frame. The regulator design is explored through the use of an example. The results are verified against the small-signal model, then PLECS simulations, and finally a laboratory experiment. The results indicate excellent agreement between the model and experiment during transients in voltage reference, input source voltage, and output load. A sensitivity analysis is performed based on the inverter model considering the parameter variation. Finally, loss and efficiency estimations are provided in this work.

Keywords