# Difference between revisions of "CDS 101/110 - PID Control"

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− | {{cds101-fa08}} | + | {{cds101-fa08 lecture|prev=Loop Shaping|next=Robust Performance}} |

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* Students should understand the limitations imposed by actuator saturation and implement a simple anti-windup compensator | * Students should understand the limitations imposed by actuator saturation and implement a simple anti-windup compensator | ||

− | '''Monday:''' PID Overview ({{cds101 handouts|L9-1_pid.pdf|Slides}}, {{cds101 mp3 | + | '''Monday:''' PID Overview ({{cds101 handouts|L9-1_pid.pdf|Slides}}, {{cds101 mp3|cds101-2008-11-24.mp3|MP3}}) |

This lecture covers the basic tools in frequency domain control design using proportional + integral + derivative (PID) control. We compare the PID controller to loop shaping designs (such as lead compensation) and show how to obtain initial PID gains using Ziegler-Nichols tuning rules. The issues of windup and anti-windup compensation are briefly discussed. | This lecture covers the basic tools in frequency domain control design using proportional + integral + derivative (PID) control. We compare the PID controller to loop shaping designs (such as lead compensation) and show how to obtain initial PID gains using Ziegler-Nichols tuning rules. The issues of windup and anti-windup compensation are briefly discussed. | ||

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* MATLAB: {{cds101 matlab|L9_1_pid.m}} | * MATLAB: {{cds101 matlab|L9_1_pid.m}} | ||

− | '''Wednesday:''' PID Implementation ({{cds101 handouts| | + | '''Wednesday:''' PID Implementation ({{cds101 handouts|L9-2_implement.pdf|Notes}}, {{cds101 mp3|cds101-2008-11-26.mp3|MP3}}) |

This lecture provides more details on the implementation of PID control, including the representation of PID controllers in state space. The problems of windup and saturation are also discussed. | This lecture provides more details on the implementation of PID control, including the representation of PID controllers in state space. The problems of windup and saturation are also discussed. | ||

− | * {{cds101 handouts| | + | * {{cds101 handouts|L9-2_implement.pdf|Lecture notes}} |

'''Friday:''' no class (Thanksgiving break) | '''Friday:''' no class (Thanksgiving break) |

## Latest revision as of 05:59, 9 December 2008

CDS 101/110a | ← Schedule → | Recitations | FAQ | AM08 (errata) |

## Overview

The learning objectives for this week are:

- Students should be to design a PID controller that satisfies a frequency domain performance specification
- Students should understand the limitations imposed by actuator saturation and implement a simple anti-windup compensator

**Monday:** PID Overview (Slides, MP3)

This lecture covers the basic tools in frequency domain control design using proportional + integral + derivative (PID) control. We compare the PID controller to loop shaping designs (such as lead compensation) and show how to obtain initial PID gains using Ziegler-Nichols tuning rules. The issues of windup and anti-windup compensation are briefly discussed.

- Lecture handout
- MATLAB: L9_1_pid.m

**Wednesday:** PID Implementation (Notes, MP3)

This lecture provides more details on the implementation of PID control, including the representation of PID controllers in state space. The problems of windup and saturation are also discussed.

**Friday:** no class (Thanksgiving break)

## Reading

- K. J. Åström and R. M. Murray, Feedback Systems: An Introduction for Scientists and Engineers, Princeton University Press, 2008. Chapter 10 - PID Control.
- CDS 101: Read sections 10.1, 10.3 [30 min]
- CDS 110: Read sections 10.1, 10.3-10.5 [45 min]
- CDS 210: AM08 10.1, 10.3, DFT Ch 6 [90 min]

## Homework

- Homework #8
- sisotool - display standard linear system plots on a single screen
- feedback - generate a closed loop system from a loop transfer function

## FAQ

**Monday**
<ncl>CDS 101/110 FAQ - Lecture 9-1, Fall 2008</ncl>
**Wednesday**
<ncl>CDS 101/110 FAQ - Lecture 9-2, Fall 2008</ncl>
**Homework**
<ncl>CDS 101/110 FAQ - Homework 8, Fall 2008</ncl>