Circuit arrangement for attenuation of power oscillations in networks
First Claim
1. A circuit arrangement for supplying a signal to the exciter of at least one synchronous machine in order to attenuate power oscillations in a network to which the synchronous machine is coupled comprising:
- (a) first and second vector identifiers having as an input detected power oscillations in the system, each vector identifier providing a direct and a phase-shifted output, each designed for a different frequency;
(b) first, second, third and fourth matching means receiving as inputs respectively, the direct output of said first vector identifier, the phase-shifted output of said first vector identifier, the direct output of said second vector identifier and the phase-shifted output of said second vector identifier;
(c) first and second summing junctions, said first summing junction having as inputs the output of said first and fourth matching means and the second summing junction having as inputs the outputs of said second and third matching means;
(d) fifth and sixth matching means having as inputs respectively, the outputs of said first and second summing junctions; and
(e) third summing junction having as inputs the outputs of said fifth and sixth matching means and providing at its output a total signal which, over a selectable frequency range, varies in a mathematically positive sense with increasing oscillation frequency whereby said signal can be supplied to the exciter of a synchronous machine in order to damp power oscillations in the network.
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Abstract
A circuit arrangement, for deriving, from sensed power variations in a network, a signal for supplying the exciter of at least one synchronous machine coupled to the network, includes first and second vector identifiers, each providing a direct and phase-shifted output with each of the outputs coupled through an impedance matching amplifier to a summing junction. The direct signal from the first vector identifier and phase-shifted signal from the second vector identifier are conducted to one summing junction and the phase-shifted output of the first vector identifier and direct output of the second vector identifier to a second summing junction, with the outputs of the two summing junctions summed at a further summing junction after being coupled through additional impedance matching amplifiers to result in a total signal at the output of the third summing junction which varies in a mathematically positive sense with increasing oscillation frequency.
282 Citations
3 Claims
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1. A circuit arrangement for supplying a signal to the exciter of at least one synchronous machine in order to attenuate power oscillations in a network to which the synchronous machine is coupled comprising:
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(a) first and second vector identifiers having as an input detected power oscillations in the system, each vector identifier providing a direct and a phase-shifted output, each designed for a different frequency; (b) first, second, third and fourth matching means receiving as inputs respectively, the direct output of said first vector identifier, the phase-shifted output of said first vector identifier, the direct output of said second vector identifier and the phase-shifted output of said second vector identifier; (c) first and second summing junctions, said first summing junction having as inputs the output of said first and fourth matching means and the second summing junction having as inputs the outputs of said second and third matching means; (d) fifth and sixth matching means having as inputs respectively, the outputs of said first and second summing junctions; and (e) third summing junction having as inputs the outputs of said fifth and sixth matching means and providing at its output a total signal which, over a selectable frequency range, varies in a mathematically positive sense with increasing oscillation frequency whereby said signal can be supplied to the exciter of a synchronous machine in order to damp power oscillations in the network. - View Dependent Claims (2, 3)
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Specification