Marine systems simulation
Simple PID Controller
SimObjects » FhSim Fishery » Trawl

Class modelling a simple PID controller.

+ Collaboration diagram for Simple PID Controller:
Author
Karl-Johan Reite
Date
13.08.2013 KJR: Initial version.
Todo:
Complete description of conf. params, and check example file.

Example configuration excerpt

<Lib
LibName = "fishery"
SimObject = "Trawl/PIDController"
Name = "PID"
InitOutput = "0"
ProportionalGain = "1"
IntegratorGain = "0"
DerivativeGain = "0"
MinOut = "-1e10"
MaxOut = "1e10"
MaxDerivativePart = "1e10"
MaxIntegratorPart = "1e10"
/>
Todo:
Add config details

Input Ports

Name Width Description
Measurement 1 The measured value.
Reference 1

The desired value.

Output Ports

Name Width Description
Out 1 The output from the PID controller.

Configuration parameters

Name Width Description
InitOutput 1 Description here.
ProportionalGain 1 Proportional gain.
IntegratorGain 1 Integral gain.
DerivativeGain 1 Derivative gain.
MinOut 1 Minimum out value.
MaxOut 1 Maximum out value.
MaxDerivativePart 1 Maximum derivative part.
MaxIntegratorPart 1 Maximum integrator part.

Initial conditions

This simObject does not have initial conditions.

Full example file

<Contents>
<OBJECTS>
<Lib
LibName = "fishery"
SimObject = "Trawl/PIDController"
Name = "PID"
InitOutput = "0"
ProportionalGain = "1"
IntegratorGain = "0"
DerivativeGain = "0"
MinOut = "-1e10"
MaxOut = "1e10"
MaxDerivativePart = "1e10"
MaxIntegratorPart = "1e10"
/>
</OBJECTS>
<INTERCONNECTIONS>
<Connection
PID.Measurement = "3"
PID.Reference = "4"
/>
</INTERCONNECTIONS>
<INITIALIZATION>
<InitialCondition
/>
</INITIALIZATION>
<INTEGRATION>
<Engine
IntegratorMethod = "2"
NumCores = "1"
TOutput = "0, 1, 30"
LogStates = "1"
stepsize = "0"
HMax = "0.002"
HMin = "0.00000001"
AbsTol = "1e-3"
RelTol = "1e-3"
UseRSSNormInsteadOfInfNorm = "0"
FileOutput = "objects:all"
/>
</INTEGRATION>
</Contents>

This SimObject is referred to as Trawl/PIDController