Systems Analysis and Control

Systems Analysis and ControlMatthew M. PeetArizona State UniversityLecture 21: Stability Margins and Closing the LoopOverviewIn this Lecture, you will learn:Closing the Loop Effect on Bode Plot Effect on StabilityStability Effects Gain Margin Phase Margin BandwidthEstimating Closed-Loop Performance using Open-Loop Data Damping Ratio Settling Time Rise TimeM. PeetLecture 21: Control Systems2 / 31 ReviewRecall: Frequency ResponseInput:u(t) =Msin( t+ )Output:Magnitude and Phase Shifty(t) =|G( )|Msin( t+ + G( ))02468101214161820 2 1 Simulation ResultsTime (sec)AmplitudeFrequency Response tosin tis given byG( )M. PeetLecture 21: Control Systems3 / 31 ReviewRecall: Bode PlotDefinition Bode Plotis a pair oflog-logand semi-logplots:1. Magnitude Plot:20 log10|G( )| 2. Phase Plot: G( ) Bite-Size Chucks: G( )= i Gi( )M. PeetLecture 21: Control Systems4 / 31 Complex Poles and ZerosWe left off withComplex Poles:G(s) =1((s n)2+ 2 s n+ 1)M.

M. Peet Lecture 21: Control Systems 18 / 31. Transient Response Finding Closed-Loop Bandwidth from Open-Loop Data Question: How to nd closed-loop bandwidth? Finding the closed-loop bandwidth from open-loop data is tricky. Have to nd the frequency when the Bode plot intersects this curve.

Tags:

  System, Control, Control system

Information

Related search queries