Scientific and Technical Journal

ELECTROTECHNIC AND COMPUTER SYSTEMS

ISSN Print 2221-3937
ISSN Online 2221-3805
Critical load of self-excited induction generators
Abstract:

The maximum load of a self-excited autonomous induction generator is derived as a function of velocity and capacitance. The maximum value of the capacitance and the minimum frequency are determined as well. Three-dimensional plots of self-excitation boundaries are presented for a practical example.

Authors:
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DOI
References

1. Bodson M. Analytic conditions for spontaneous self-excitation in induction generators/ M.Bodson, O.Kiselychnyk // Proc. of the American Control Conference, Baltimore, MD. – 2010.– P. 2527-2532.

2. Bodson M. Nonlinear dynamic model and stability analysis of self-excited induction generators/ M.Bodson, O.Kiselychnyk// Proc. of the American Control Conference, San Francisco, CA, USA. – 2011.

3. Bodson M. On the capacitor voltage needed to trigger self-excitation in induction generators/ M.Bodson, O.Kiselychnyk // Proc. of 19-th Mediterranean Conference on Control and Automation, Corfu, Greece. – 2011.

4. Bodson M. On the triggering of self-excitation in induction generators/ M.Bodson, O.Kiselychnyk // Proc. of the 20th International Symposium on Power Electronics, Electrical Drives, Automation and Motion (Speedam 2010), Pisa, Italy. – 2010. – P. 866-871.

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2017-11-16 11:29:37

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