Difference between revisions of "Frequency Domain Design"

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|Previous chapter=PID Control
 
|Previous chapter=PID Control
 
|Next chapter=Robust Performance
 
|Next chapter=Robust Performance
|Chapter summary=In this chapter we continue to explore the use of frequency domain techniques with a focus on the design of feedback systems. We begin with a more thorough description of the performance specifications for control systems and then introduce the concept of “loop shaping” as a mechanism for designing controllers in the fre- quency domain. Additional techniques discussed in this chapter include feedforward compensation, the root locus method, and nested controller design.
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|Chapter summary=In this chapter we continue to explore the use of frequency domain techniques with a focus on the design of feedback systems. We begin with a more thorough description of the performance specifications for control systems and then introduce the concept of “loop shaping” as a mechanism for designing controllers in the frequency domain. Additional techniques discussed in this chapter include feedforward compensation, the root locus method, and nested controller design.
 
|Chapter contents=# Sensitivity Functions
 
|Chapter contents=# Sensitivity Functions
 
# Performance Specifications
 
# Performance Specifications

Revision as of 05:49, 28 December 2020

Prev: PID Control Chapter 12 - Frequency Domain Design Next: Robust Performance
Loopsyn-firstpage.png

In this chapter we continue to explore the use of frequency domain techniques with a focus on the design of feedback systems. We begin with a more thorough description of the performance specifications for control systems and then introduce the concept of “loop shaping” as a mechanism for designing controllers in the frequency domain. Additional techniques discussed in this chapter include feedforward compensation, the root locus method, and nested controller design.