Proportional Integral Differential (PID) Control

1. ProportionalIntegralDifferential (PID) Control Proportional Control Equation Example PI Control Equation Numerical Integration Example PID Control Web Simulation Equation Numerical Differentiation A 3-mode opamp controller Industrial PID tuning Summary

2. Proportional Control-1 Error Output + Input signal Actuator (Plant) Controller e r - b Transducer Feedback Signal

3. Proportional Control-2 Error Output + K G e r p - b H

4. Proportional Control-3 Error Output + K G=8 e r p - b H=1/8

5. Proportional Control-4 Error Output + K=1/4 G=4 e r K=4 G=4 p - b H=1 H=1

6. PC-5 + ep kp p + Output Proportional controller p0 Setpoint In terms of % of span In units of the output

7. 9.8 For a proportional controller, the controlled variable is a process temperature with a range of 500 to 1300C and a setpoint of 73.50C. Under nominal conditions, the setpoint is maintained with an output of 50%. Find the proportional offset that results from a load change which requires a 55% output if the proportional gain is (a) .1 (b) .7 (c) 2.0 and (d) 5.0 PC-6 In terms of % of span Output Temperature= • T=33.50C • (d) T=72.70C In units of the output

8. High heat load: air conditioner takes a while to bring temp down. PC-7 Red-line is On-Off Control (furnace on at 60) (air conditioner on at 80) Green-line is Proportional Control: above 70 air- conditioner fan speed increases proportional to the T-700 Cold wind: heater takes a while to bring temp up. Green-line is Proportional Control: below 70 amount of furnace gas increases proportional to the 700 – T. Time of day http://www.fourmilab.ch/hackdiet/www/subsection1_2_3_0_5.html

9. PC-8 On-Off Control http://newton.ex.ac.uk/cgi-bin/metaform?http://newton.ex.ac.uk/teaching/CDHW/Feedback/OvSimForm-gen.html Proportional Control

10. Proportional-Integral (PI) Control http://newton.ex.ac.uk/cgi-bin/metaform?http://newton.ex.ac.uk/teaching/CDHW/Feedback/OvSimForm-gen.html

11. Proportional-Integral-Derivative(PID) Control http://newton.ex.ac.uk/cgi-bin/metaform?http://newton.ex.ac.uk/teaching/CDHW/Feedback/OvSimForm-gen.html

12. PI, PD, and PID Composite Mode Equations PI PD PID CONTROLLER TUNING AND CONTROL LOOP PERFORMANCE, A PRIMER, SECOND EDITIONSubtitled PID WITHOUT THE MATHby David W. St. Clair http://members.aol.com/pidcontrol/booklet.html

13. Example 9.8 in text Equation: percent

14. Ex 9.8 +20% would just raise the PI curve.

15. Simple Numerical Integration 3 Calculations: .1*1 +0=.1 .1*2+.1=.3 .1*3+.3=.6 .1*3+.6=.9 .1*3+.9=1.2 etc. volts 2 1 0 0 0.1 0.2 0.3 0.4 seconds

16. PID Example

17. Numerical Derivative 3 Calculations: (1-0)/(1-0)=1 (2-1)/(2-1)=1 (3-2)/(3-2)=1 (3-3)/(4-3)=0 (3-3)/(5-4)=0 etc. volts 2 1 0 0 1 2 3 4 5 seconds

18. Opamp PID Circuit Set kp Set kI Set kD

19. Industrial PID Tuning • http://www.expertune.com/ • DCS: Digital Control System. DCS refers to larger analog control systems like Fisher, Foxboro, Honeywell, and Bailey systems. DCS's were traditionally used for PID control in the process industries, whereas PLC's were used for discrete or logic processing. However, PLC's are gaining capability and acceptance in doing PID control. Most utilities, refineries and larger chemical plants use DCS's. These systems cost from 20 thousand to millions of dollars. • DCS systems by: ABB (http://www.abb.com/ ), Bailey, Foxboro (http://www.foxboro.com/industries/ ), Fisher, Moore, Honeywell, Yokogawa, etc.

20. Matlab PID Tuning-1 http://www.mathworks.com/

21. Summary • Introduction • Proportional Control • Equation • Example • PI Control • Equation • Numerical Integration • Example • PID Control • Web Simulation • Equation • Numerical Differentiation • A 3-mode opamp controller • Industrial PID tuning