64 CHAPTER 2. MATHEMATICAL MODELS IN CONTROL
Figure 2.29. Response to PD controlProportional + integral + derivative control Although PD control deals
well with the overshoot and ringing problems associated with proportional con-
trol, it does not solve the problem with the steady-state error. Fortunately, it is
Figure 2.30. Response to PID controlpossible to eliminate this while using relatively low gain by adding an integral
term to the control function which becomes
W=P(Ts−To)+Dd
dt(Ts−To)+IZ
(Ts−To)dtwhereI,theintegral gain parameteris sometimes known as thecontroller reset
level. This form of function is known as PID control. The effect of the inte-
gral term is to change the heater poweruntil the time-averaged value of the
temperature error is zero. The method works quite well but complicates the
mathematical analysis slightly because the system is now a third-order system.
Figure 2.30 shows that, as expected, adding the integral term has eliminated
the steady-state error. The slight undershoot in the power suggests that there
may be scope for further tweaking the PID parameters.