Externally field-controlled induction generator
First Claim
1. An induction generator comprising:
- a multi-phase stator power winding connected to a load;
a multi-phase separate stator excitation winding;
power calculation means (113) for continuously monitoring values of real power applied by each phase of said excitation winding to said power winding;
a current injector (140), connected to an output of said power calculation means (113), outputting respective excitation currents to said phases of separate stator winding, at times selected to minimize values of real power applied to said power winding; and
a rotor connected to a prime mover.
6 Assignments
0 Petitions
Accused Products
Abstract
In an induction generator, an additional set of stator windings is provided, separate from and secondary to the main stator windings upon which the generator'"'"'s output voltage is generated and supplied to the load. This separate stator winding is provided for the purpose of supplying the generator with the reactive electrical power it needs to maintain the rotating stator field and supplying any reactive power needed by the load. Thus, there is no need to use a capacitor assembly, for supplying the reactive power needed by the generator. Currents are injected into this separate winding in such a way that only reactive power is supplied to the generator. Specifically, a power measuring circuit measures the power in the additional set of stator windings, and a power error signal is formed by algebraically adding the outputs of the power measuring circuit. The power error signal is further processed and supplied as a timing control signal for generating the injected currents, which are maintained 90 degrees out of phase with an excitation voltage curve.
68 Citations
9 Claims
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1. An induction generator comprising:
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a multi-phase stator power winding connected to a load; a multi-phase separate stator excitation winding; power calculation means (113) for continuously monitoring values of real power applied by each phase of said excitation winding to said power winding; a current injector (140), connected to an output of said power calculation means (113), outputting respective excitation currents to said phases of separate stator winding, at times selected to minimize values of real power applied to said power winding; and a rotor connected to a prime mover. - View Dependent Claims (2, 3, 4, 5)
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6. A method of operating an induction generator having a multi-phase power winding and a multi-phase excitation winding, comprising steps of:
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(a) measuring power created in each phase of said excitation winding; (b) generating a power error signal from said measured power; (c) developing control signals based on said power error signal; (d) generating respective excitation phase currents in accordance with said control signals; and (e) injecting said currents into said excitation winding phases at times selected to minimize transfer of real power from said excitation winding phases to said power winding phases. - View Dependent Claims (7, 8, 9)
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Specification