Various examples are provided for parameter estimation of generators. In one example, among others, a method includes collecting data corresponding to a generator using a phasor management unit (PMU) and estimating dynamic parameters of the generator using extended Kalman filtering (EKF) and the col
Various examples are provided for parameter estimation of generators. In one example, among others, a method includes collecting data corresponding to a generator using a phasor management unit (PMU) and estimating dynamic parameters of the generator using extended Kalman filtering (EKF) and the collected PMU data. In another example, a system includes at least one application executable in a processing device that obtains operational data corresponding to a generator and estimates a dynamic parameter of the generator using EKF and the operational data. In another example, an EKF estimator includes a dynamics estimator configured to estimate a state variable of a generator, a geometry estimator configured to estimate phasor values associated with the generator, and a Kalman filter gain configured to determine a correction to the state variable.
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1. A method for adjusting an oscillation damping controller using real-time estimation of dynamic parameters of an electromechanical system, the method comprising: collecting data corresponding to a generator using a phasor management unit (PMU), the data including measured values comprising real po
1. A method for adjusting an oscillation damping controller using real-time estimation of dynamic parameters of an electromechanical system, the method comprising: collecting data corresponding to a generator using a phasor management unit (PMU), the data including measured values comprising real power, reactive power, voltage magnitude, and voltage phase angle;estimating, in real time, dynamic parameters of the generator using extended Kalman filtering (EKF) and the measured values of the real power and the reactive power as input variables;determining estimated values for the voltage magnitude and the voltage phase angle, the estimated values being determined using the measured values of the real power and the reactive power;updating the dynamic parameters to minimize an error between the measured values for the voltage magnitude and the voltage phase angle and the estimated values for the voltage magnitude and the voltage phase angle;generating a control signal based at least in part upon the dynamic parameters of the generator; andproviding, in real time, the control signal as an input to adjust the oscillation damping controller of a power system connected to the generator. 2. The method of claim 1, wherein the dynamic parameters of the generator include at least one of a rotor angle, a rotor speed, a mechanical power, an inertia constant, a damping factor, and a transient reactance. 3. The method of claim 1, wherein estimating the dynamic parameters of the generator is based upon a dynamic model of the generator. 4. The method of claim 1, wherein estimating the dynamic parameters comprises estimating a priori variable of the generator based at least in part upon a portion of the measured values. 5. The method of claim 4, wherein estimation of the dynamic parameters comprises a plurality of iterative updates of the dynamic parameters for a single time step. 6. The method of claim 1, wherein estimating the dynamic parameters comprises iteratively performing EKF to update the estimated dynamic parameters. 7. The method of claim 1, wherein the generator is a synchronous generator. 8. The method of claim 1, wherein estimating the dynamic parameters comprises a plurality of iterative updates of the dynamic parameters for a single time step. 9. A system, comprising: a generator;an oscillation damping controller of a power system connected to the generator;a processing device; andat least one application executable in the processing device, the at least one application being configured to cause the processing device to: obtain measured values corresponding to the generator, the measured values being measured by a phasor management unit (PMU), the measured values comprising real power, reactive power, voltage magnitude, and voltage phase angle;estimate, in real time, a dynamic parameter of the generator using extended Kalman filtering (EKF) and the measured values of the real power and the reactive power as input variables;determine estimated values for the voltage magnitude and the voltage phase angle, the estimated values being determined using the measured values of the real power and the reactive power;update the dynamic parameter based at least in part on an error between the measured values for the voltage magnitude and the voltage phase angle and the estimated values for the voltage magnitude and the voltage phase angle; andprovide, in real time, a control signal as an input to adjust the oscillation damping controller of the power system connected to the generator, the control signal being generated based at least in part upon the dynamic parameters of the generator. 10. The system of claim 9, wherein estimating the dynamic parameter comprises estimating a priori variable of the generator based at least in part upon a portion of the measured values. 11. The system of claim 10, wherein estimating the dynamic parameter further comprises adjusting the priori variable to estimate the dynamic parameter based upon an error between another portion of the measured values and corresponding estimated values based at least in part upon the priori variable. 12. The system of claim 9, wherein the dynamic parameter is estimated using iterative EKF. 13. The system of claim 9, wherein the dynamic parameter is selected from the group consisting of mechanical power, inertia constant, damping factor, and transient reactance of the generator. 14. The system of claim 9, wherein the at least one application is configured to cause the processing device to estimate a plurality of dynamic parameters of the generator using extended Kalman filtering (EKF) and the measured values. 15. The system of claim 9, wherein the PMU measures the voltage magnitude and voltage phase angle at a generator terminal bus. 16. The system of claim 9, wherein estimation of the dynamic parameter of the generator is based upon a dynamic model of the generator. 17. The system of claim 9, wherein estimation of the dynamic parameter comprises a plurality of iterative updates of the dynamic parameter for a single time step.
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이 특허에 인용된 특허 (5)
Todd D. Batzel, Detection of rotor angle in a permanent magnet synchronous motor at zero speed.
Naidu Malakondaiah (Utica MI) Bose Bimal K. (Knoxville TN), Rotor position estimation of a permanent magnet synchronous-machine for high performance drive.
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