Modeling of Complex Structures for the Ship's Power Complex Using Xilinx System

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One of the most essential tasks for a number of systems of the automatic controls in the autonomous electric power systems of the water transport is accurate calculation of variable harmonic components in the non-sinusoidal signal. In the autonomous electric power systems operating with full semiconductor capacity, the forms of line currents and voltages are greatly distorted, and generator devices generate voltage with inconsistent frequency, phase and amplitude. It makes calculation of harmonic composition of the distorted signals be a non-trivial task. The present paper provides a mathematical set for solution of the outlined problem including the realization in the discrete form. The simplicity and efficiency of the system proposed make possible to perform its practical realization with the help of cheap FPGA. The test of the developed system has been performed in the medium Matlab.

1. Zhilenkov, A.A. (2012) Impact of powerful thyristor rectifiers on a autonomous electric power station supplying them, Eastern-European Journal of Modern Technologies. Issue 5/8(59), pp. 14-19. (In Russian)

2. Zhilenkov, A.A. (2012) Analysis of operation of a thyristor drive of the direct current in the autonomous circuit, Eastern-European Journal of Modern Technologies. Issue 6/8(60), pp. 12-14. (In Russian)

3. Pecharanin, N., Mitsui H. and Sone, M., (1995) “Harmonic Detection by Using Neural Network” In IEEE Conf. Proceedings, Industry Applications Society Annual Meeting, pp. 923-926

4. Zhilenkov, A.A., Cherney, S.G., (2013) “Adaptive control in complex distributed systems with the identification of parameters that can't be measured”, Pressing issues and priorities in development of the scientific and technological complex: research articles, B&M Publishing, San Francisco, California, pp. 17-20.

Transport and Telecommunication Journal

The Journal of Transport and Telecommunication Institute

Journal Information

Cite Score 2017: 1.21

SCImago Journal Rank (SJR) 2017: 0.294
Source Normalized Impact per Paper (SNIP) 2017: 1.539

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