论文信息 - Frequency response evaluation of state space designed controllers for systems with lightly damped oscillatory modes-A power system stabilizer example

Frequency response evaluation of state space designed controllers for systems with lightly damped oscillatory modes-A power system stabilizer example

This paper concerns the damping controller design of systems with lightly damped modes, such as power systems and large space structures. Four state space pole-placement methods are studied. A frequency response technique shows that to provide the same amount of damping improvement, the space state designed controllers have similar gain and phase at the oscillatory mode frequency, provided no resonance conditions occur. In addition, the frequency response technique can be used to evaluate the impact of the controllers on the stability of unmodeled dynamics and the damping improvement when the system operating condition changes. Insights obtained from such a frequency response analysis are useful for the design of robust controllers. To make the illustrations practical, a power system stabilizer design example is used.

J. Chow | J. Sanchez-gasca

[1] IEEE Report,et al. Excitation System Models for Power System Stability Studies , 1981, IEEE Transactions on Power Apparatus and Systems.

[2] G. Stein,et al. Multivariable feedback design: Concepts for a classical/modern synthesis , 1981 .

[3] David Q. Mayne,et al. Modal control of linear time invariant systems , 1970 .

[4] Charles Concordia,et al. Concepts of Synchronous Machine Stability as Affected by Excitation Control , 1969 .

[5] Christopher I. Byrnes,et al. Simultaneous stabilization and simultaneous pole-placement by nonswitching dynamic compensation , 1983 .

[6] Mark J. Balas,et al. Trends in large space structure control theory: Fondest hopes, wildest dreams , 1982 .

[7] K. Glover. All optimal Hankel-norm approximations of linear multivariable systems and their L, ∞ -error bounds† , 1984 .

[8] E. Larsen,et al. Applying Power System Stabilizers Part I: General Concepts , 1981, IEEE Transactions on Power Apparatus and Systems.

[9] D. Luenberger. An introduction to observers , 1971 .

[10] Joe H. Chow,et al. A Coordinated Multivariable Control System Design for a HVDC Linked Remote ABWR Nuclear Power Park , 1987, IEEE Transactions on Energy Conversion.

[11] W. Perkins,et al. Output feedback pole placement in the design of suboptimal linear quadratic regulators , 1981 .

[12] O. Solheim. Design of optimal control systems with prescribed eigenvalues , 1972 .