Replacement of electrical (load) drives by a hardware-in-the-loop system

This paper presents an interesting approach for hardware-in-the-loop testing of voltage source inverters for drive applications. For this purpose the inverter under test is not connected to a real machine, but to a second inverter instead, which behaves like an electrical machine. The power capability of the so-called “Virtual Machine” is increased by sequential switching of parallel connected standard inverters. The parallel connected inverters can be of the same type as the inverter under test. Hence there exists no power limit for drive inverter testing with respect to the product range of the manufacturer.

[1]  J. Holtz,et al.  Pulsewidth modulation for electronic power conversion , 1994, Proc. IEEE.

[2]  Ralph Kennel,et al.  Sequentiell schaltende Umrichter als elektronische Last für Antriebsumrichter , 2010 .

[3]  T. Undeland,et al.  Increase of output power from IGBTs in high power high frequency resonant load inverters , 2000, Conference Record of the 2000 IEEE Industry Applications Conference. Thirty-Fifth IAS Annual Meeting and World Conference on Industrial Applications of Electrical Energy (Cat. No.00CH37129).

[4]  Alex Q. Huang,et al.  MVRC and Its Tolerance Analysis For Microprocessor Power Management , 2006 .

[5]  Joachim Holtz,et al.  Increased power capability of standard drive inverters by sequential switching , 2010, 2010 IEEE International Conference on Industrial Technology.

[6]  Ram Pal Singh,et al.  An FPGA based Digital Control Design for high-frequency DC-DC Converters , 2006 .

[7]  A. Monti,et al.  A new architecture for low cost Power Hardware in the Loop testing of power electronics equipments , 2008, 2008 IEEE International Symposium on Industrial Electronics.

[8]  Ho-Hsuan Chang,et al.  Interleaving boost converters with a single-capacitor Turn-off Snubber , 2006 .

[9]  Frede Blaabjerg,et al.  Parallel Interleaved Inverters for Reactive Power and Harmonic Compensation , 2006 .

[10]  Ilse Cervantes,et al.  Simple Almost Zero Switching Losses for Interleaved Boost Converter , 1988 .

[11]  Ralph M. Kennel,et al.  Virtual machine — A hardware in the loop test for drive inverters , 2009, 2009 13th European Conference on Power Electronics and Applications.

[12]  David J. Atkinson,et al.  Real-time emulation for power equipment development. Part 2: The virtual machine , 1998 .

[13]  Joachim Holtz,et al.  The representation of AC machine dynamics by complex signal flow graphs , 1995, IEEE Trans. Ind. Electron..

[14]  Peter Mutschler,et al.  A modular IGBT converter system for high frequency induction heating applications , 2002 .