Use of an AC self-excited switched reluctance generator as a battery charger

We analyzed an AC self-excited switched reluctance generator used as a battery charger, using a second- order nonlinear oscillator model. Generator capacity can be maintained under variable rotor speed by adapting the external capacitance. The AC voltage generated is rectified and adapted with a DC-...

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Main Authors: Martinez, A., Oyarbide, E., Vicuna, J., Perez, F., Laloya, E., Martin-del-Brio, B., Pollan, T., Sanchez, B., Llado, J.
Format: Conference Proceeding
Language:English
Subjects:
Batteries
Battery charger
Capacitors
Distributed power
Generation of electrical energy
Generators
Limit-cycles
Rectifiers
Reluctance drive
Rotors
Sustainable system/technology
Voltage control
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creator Martinez, A.
Oyarbide, E.
Vicuna, J.
Perez, F.
Laloya, E.
Martin-del-Brio, B.
Pollan, T.
Sanchez, B.
Llado, J.
description We analyzed an AC self-excited switched reluctance generator used as a battery charger, using a second- order nonlinear oscillator model. Generator capacity can be maintained under variable rotor speed by adapting the external capacitance. The AC voltage generated is rectified and adapted with a DC-DC converter to battery voltage. To keep the flux machine under control, the rectified bus voltage should be changed according to oscillating frequency, following a constant voltage/frequency ratio. The simplicity of the system makes it an adequate wind generator for battery charging in isolated locations.
doi_str_mv 10.1109/EPEPEMC.2008.4635372
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Batteries
Battery charger
Capacitors
Distributed power
Generation of electrical energy
Generators
Limit-cycles
Rectifiers
Reluctance drive
Rotors
Sustainable system/technology
Voltage control
title Use of an AC self-excited switched reluctance generator as a battery charger
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