Analysis of processes in converter with eleven zone regulation output voltage

Authors

  • V. Mihaylenko National Technical University of Ukraine "Kyiv Polytechnic Institute named after Igor Sikorsky", Ukraine https://orcid.org/0000-0002-0973-4612
  • J. Chunyak National Technical University of Ukraine "Kyiv Polytechnic Institute named after Igor Sikorsky" , Ukraine https://orcid.org/0000-0002-4506-912X
  • V. Bachinskiy National Technical University of Ukraine "Kyiv Polytechnic Institute named after Igor Sikorsky" , Ukraine

DOI:

https://doi.org/10.20535/1813-5420.3.2020.228610

Keywords:

electromagnetic processes, output voltage and current, multi parametric modulating functions, semi-conductor commutators, modeling

Abstract

Analysis of the electromagnetic processes is organized beside this article in electric circuit with semiconductor commutator . Mathematical model is created for analysis electro-magnetic processes in semiconductor converter with width pulsed regulation of the output voltage. The broughted graphs, which reflect the electromagnetic processes in electric circuit. Method much parametric functions was used when performing calculation. The mathematical model of the converter is created for eleven zoned regulations of the output voltage. Article is devoted to the development of a method of multi-parametric modulating functions by means of working out of new mathematical models and definition of functions and the algorithmic equations for the analysis on sub- system components of electromagnetic processes in electric circuits of variable structure with sinusoidal, direct and pulsing voltage. Introduction of functions with discrete parameters in the algorithmic equations for analysis of processes in circuits with semiconductor commutators simplifies modeling on subsystem components. The mathematical model of steady-state processes and transients in electric circuits of semiconductor converters of modulation type with multi-channel zonal use of phase and line voltages of a three-phase network of power supplies is developed. The mathematical model of electric circuits of thyristor shapers of electro-discharge pulses for the analysis and the matching of capacitors charging modes with decrease several times of electric resistance of technological load is also created. The obtained results have a great value for development theoretical electrical engineering in a direction of simplification of calculations of electromagnetic processes in electric circuits with semi-conductor converters of the electric power. The Electromagnetic processes in electric circuit under width- pulse regulation possible to analyse with use the algorithmic equations multivariable function, which argument are a system parameters semiconductor commutator, signal of control, phases to network of the power supply and time. Introduction multivariable function with discrete parameter in algorithmic equations of the analysis formed and connecting processes in electric circuit of the variable structure allows to reflect change of this structure under system components, simplifying modeling and analysis of such processes to account of the generalization of the got equations. Except specified correlations and diagrams designed model allows to analyse forms of the output voltages and current of the separate power modules.

References

Mykhailenko V, Mikhnenko., G., Charnyak O., “Study of the electromagnetic processes in converter with three zoned regulations of the voltage”, Adaptive systems of automatic control, Kyiv: KPI them. Igor Sikorsky, No2, 2019, pp. 48-53, doi: https://doi.org/10.20535/1560-8956.35.2019.197430.

Roziskulov SS, Mykhaylenko VV, Peretyatko Yu. 43, doi: https://doi.org/10.15407/techned2016.04.041.

Senko VI, Mikhailenko VV, Yurchenko MM, Yurchenko OM, Chunyak Yu. M, “Analysis of electromagnetic processes in circuits with semiconductor converters with seventeen-zone output voltage regulation”,

T echnical electrodynamics, Kyiv: IED NASU, No 5, https://doi.org/10.15407/techned2016.05.023.

Published

2020-04-06

Issue

Section

MONITORING, DIAGNOSTICS AND MANAGEMENT OF ENERGY PROCESSES AND EQUIPMENT