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Design and implementation of an FPGA-based real-time simulator for H-bridge converter

Rezaei Larijani, M ; Sharif University of Technology | 2016

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  1. Type of Document: Article
  2. DOI: 10.1109/PEDSTC.2016.7556912
  3. Publisher: Institute of Electrical and Electronics Engineers Inc , 2016
  4. Abstract:
  5. This paper presents a methodology for implementing of the mathematical model of H-Bridge converter in an FPGA-based Real-Time simulator. Furthermore, it introduces a new method for choosing parameters of the Associate Discrete Circuit (ADC) model of semiconductor switches. The ADC-based model allows obtaining a fixed topology irrespective of switches states for the power electronic converters in the digital simulation. Backward-Euler based discretized state space matrix (SSM) of the circuit used for ADC parameter. Choosing appropriate switch parameter is based on 1) reducing the distance of SSM eigenvalues from origin in z-Plane to reduce settling-Time of system response; and 2) reducing the angle of SSM eigenvalues to increase damping factor of the system. Modified nodal analysis (MNA) approach is used for solving the circuit model. Verilog code to simulate the behavior of the circuit is developed and implemented on a SPARTAN-6 FPGA. Simulation step times as low as 200ns is easily achieved. Experimental result presented confirms the performance of applied method for Real-Time simulation of the H-bridge converter
  6. Keywords:
  7. H-bridge converter ; Modified nodal analysis (MNA) ; Real-Time Simulation ; State space matrix (SSM) ; Analog to digital conversion ; Bridge circuits ; Eigenvalues and eigenfunctions ; Electric switches ; Field programmable gate arrays (FPGA) ; Integrated circuit design ; Power electronics ; Reconfigurable hardware ; Topology ; Transients ; Associate discrete circuit (ADC) ; H-bridges ; Modified nodal analysis ; Real time simulations ; State-space matrices ; Power converters
  8. Source: 7th Power Electronics, Drive Systems and Technologies Conference, PEDSTC 2016, 16 February 2016 through 18 February 2016 ; 2016 , Pages 504-510 ; 9781509003754 (ISBN)
  9. URL: http://ieeexplore.ieee.org/document/7556912/?reload=true