PIDAT – PID controller with relay autotuner
Block SymbolLicensing group: AUTOTUNING
Function Description
The PIDAT block has the same control function as the PIDU block. Additionally it
is equipped with the relay autotuning function.
In order to perform the autotuning experiment, it is necessary to drive the system to approximately steady state (at a suitable working point), choose the type of controller to be autotuned (PI or PID) and activate the TUNE input by setting it to on. The controlled process is regulated by special adaptive relay controller in the experiment which follows. One point of frequency response is estimated from the data measured during the experiment. Based on this information the controller parameters are computed. The amplitude of the relay controller (the level of system excitation) and its hysteresis is defined by the amp and hys parameters. In case of hys=0 the hysteresis is determined automatically according to the measurement noise properties on the controlled variable signal. The signal TBSY is set to onduring the tuning experiment. A successful experiment is indicated by and the controller parameters can be found on the outputs pk, pti, ptd, pnd and pb. The c weighting factor is assumed (and recommended) c=0. A failure during the experiment causes and the output ite provides further information about the problem. It is recommended to increase the amplitude amp in the case of error. The controller is equipped with a built-in function which decreases the amplitude when the deviation of output from the initial steady state exceeds the maxdev limit. The tuning experiment can be prematurely terminated by activating the TBRK input.
Inputs
dv | Feedforward control variable | Double (F64) |
sp | Setpoint variable | Double (F64) |
pv | Process variable | Double (F64) |
tv | Tracking variable | Double (F64) |
hv | Manual value | Double (F64) |
MAN | Manual or automatic mode | Bool |
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TUNE | Start the tuning experiment | Bool |
TBRK | Stop the tuning experiment | Bool |
Outputs
mv | Manipulated variable (controller output) | Double (F64) |
de | Deviation error | Double (F64) |
SAT | Saturation flag | Bool |
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TBSY | Tuner busy flag | Bool |
TE | Tuning error | Bool |
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ite | Error code; expected time (in seconds) to finishing the tuning experiment while the tuning experiment is active | Long (I32) |
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pk | Proposed controller gain | Double (F64) |
pti | Proposed integral time constant | Double (F64) |
ptd | Proposed derivative time constant | Double (F64) |
pnd | Proposed derivative component filtering | Double (F64) |
pb | Proposed weighting factor – proportional component | Double (F64) |
Parameters
irtype | Controller type (control law) 6 | Long (I32) |
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RACT | Reverse action flag | Bool |
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k | Controller gain . By definition, the value 0 turns the controller off. Negative values are not allowed, use the RACT parameter for such a purpose. 0.0 1.0 | Double (F64) |
ti | Integral time constant . The value 0 disables the integrating part (the same effect as disabling it by the irtype parameter). 0.0 4.0 | Double (F64) |
td | Derivative time constant . The value 0 disables the derivative part (the same effect as disabling it by the irtype parameter). 0.0 1.0 | Double (F64) |
nd | Derivative filtering parameter . The value 0 disables the derivative part (the same effect as disabling it by the irtype parameter). 0.0 10.0 | Double (F64) |
b | Setpoint weighting – proportional part 0.0 1.0 | Double (F64) |
c | Setpoint weighting – derivative part 0.0 | Double (F64) |
tt | Tracking time constant. 0.0 1.0 | Double (F64) |
hilim | Upper limit of the controller output 1.0 | Double (F64) |
lolim | Lower limit of the controller output -1.0 | Double (F64) |
iainf | Type of apriori information 1 | Long (I32) |
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k0 | Static gain of the process (must be provided in case of ) 1.0 | Double (F64) |
n1 | Maximum number of half-periods for estimation of frequency response point 20 | Long (I32) |
mm | Maximum number of half-periods for averaging 4 | Long (I32) |
amp | Relay controller amplitude 0.1 | Double (F64) |
uhys | Relay controller hysteresis | Double (F64) |
ntime | Length of noise amplitude estimation period at the beginning of the tuning experiment [s] 5.0 | Double (F64) |
rerrap | Termination value of the oscillation amplitude relative error 0.1 | Double (F64) |
aerrph | Termination value of the absolute error in oscillation phase 10.0 | Double (F64) |
maxdev | Maximal admissible deviation error from the initial steady state 1.0 | Double (F64) |
It is recommended not to change the parameters n1, mm, ntime, rerrap and aerrph.
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