EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically...
Transcript of EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically...
![Page 1: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/1.jpg)
EE128 Feedback ControlLecture 18, 11/2/2006
• Compensation (6.7)–Lead/Lag compensation
![Page 2: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/2.jpg)
Compensation (6.7)
• Goal of compensation: To improve system dynamics in transient and steady-state responses
• Lead (PD) compensation: typically used when substantial improvement in damping is required
• Lag (PI) compensation: to improve steady-state response characteristics without changing transient response characteristics significantly
• Lead+Lag compensation (i.e. PID): when improvements in both phase margin and low-frequency gain are needed
![Page 3: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/3.jpg)
Compensation (6.7)• PD compensation
– Pure derivative compensation is troublesome
– Magnitude of compensation grows with increasing frequency
• High-freq noise amplification problem!
– Can’t be realized with physical elements
Stabilizing effect of adding a zero in a 2nd order system
![Page 4: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/4.jpg)
Compensation (6.7)• Lead compensation
Amplification at higher freqs is limitedbut phase increase (lead) still occurs
Useful relations
![Page 5: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/5.jpg)
Compensation (6.7)Example 6.14 (a). Lead compensation for a DC motor• Specs: Steady-state error < 0.1 for unit-ramp input,
overshoot Mp <25%
![Page 6: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/6.jpg)
Lead compensationDesign parameters
1. Crossover frequency (ωc): determines bandwidth (ωBW), rise time (tr) and settling time (ts)
2. Phase margin (PM): determines damping ratio (ξ) and overshoot (Mp)3. Low-frequency gain: determines steady state error characteristics
Design procedure
![Page 7: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/7.jpg)
Lead compensation• Example 6.15: Lead compensator for a temperature control system
– Design Lead compensator so that PM>=25° and Kp=9
![Page 8: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/8.jpg)
Lead compensation• Example 6.16: Lead compensator type 1 servo system
– Design Lead compensator so that PM=45° and Kv=10
Double lead compensator
![Page 9: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/9.jpg)
Lag compensationObjective: to improve steady-state
response characteristics without changing transient response characteristics significantly (i.e. leaving enough phase margin)
How? Increasing low frequency gain, i.e. open-loop DC gain, by providing additional gain (α)
Problem: Phase decreases (undesired effect)
Solution: Pole and zero of D(s) at much lower frequencies than the uncompensated system crossover frequency (ωc) in order to keep the decreasing effect of PM to a minimum
![Page 10: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/10.jpg)
Lag compensation• Example 6.18: Lag compensator for a DC motor
– Design Lead compensator so that PM=45° and Kv=10
Reasonable performance but 25sec to settle down and Mp a bit large
![Page 11: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/11.jpg)
Lag compensation
Design procedure
![Page 12: EE128 Feedback Controlee128/fa06/handouts/lecture18.pdf · • Lead (PD) compensation: typically used when substantial improvement in damping is required • Lag (PI) compensation:](https://reader030.fdocuments.us/reader030/viewer/2022040408/5eb45d8a6b589f60c35d0003/html5/thumbnails/12.jpg)
Lag compensation• Example 6.17: Lag compensator for temperature control system
– Design Lead compensator so that PM>=25° and Kp=9
Reasonable damping for PM=44°