Michael Thomas Flanagan's Java Scientific Library

Compensator Class:      Model of a Control Theory Compensator

     

Last update: 8 November 2009                                                                                                                              Main Page of Michael Thomas Flanagan's Java Scientific Library

This class contains the constructor to create an instance of a generalised compensator whose s-domain transfer function, G(s), is given by:

where i(s) is the input to the compensator, o(s) is the output from the compensator and K, a and b are constants. The class also contains or inherits from BlackBox and the methods to use this compensator in both continuous time and discrete control simulations.
This is a subclass of the superclass BlackBox

import directive: import flanagan.control.Compensator;

SUMMARY OF CONSTRUCTORS AND METHODS

METHODS FOUND ONLY IN THE SUBCLASS Compensator

Constructors   public Compensator()
  public Compensator(double kConst, double aConst, double bConst)
Constants Set the K, a, b constants public void reset(double kConst, double aConst, double bConst)
public void setK(double kConst)
public void setA(double aConst)
public void setB(double bConst)
Get the K, a, b constants public double getK()
public double getA()
public double getB()

METHODS INHERITED FROM THE SUPERCLASS BlackBox

Deep Copy   public Compensator copy()
Overridden
public Object clone()
Overridden
s-domain transfer function Get the numerator degree public int getSnumerDeg()
Not overridden
Get the numerator polynomial public ComplexPoly getSnumer()
Not overridden
Get the denominator degree public int getSdenomDeg()
Not overridden
Get the denominator polynomial public ComplexPoly getSdenom()
Not overridden
Get the s-values of the poles publicComplex[ ] getPolesS()
Not overridden
Get the s-values of the zeros publicComplex[ ] getZerosS()
Overridden
Plot poles and zeros public void plotPolesZeroS()
Not overridden
Set the value of the Laplace s variable public void setS(Complex sValue)
Not overridden
public void setS(double sReal, double sImag)
Not overridden
public void setS(double sImag)
Not overridden
Get the Laplace s value public Complex getS()
Not overridden
Evaluate transfer function public Complex evalTransFunctS()
Not overridden
public Complex evalTransFunctS(Complex sValue)
Not overridden
public Complex evalTransFunctS(double freq)
Not overridden
Evaluate transfer function magnitude public double evalMagTransFunctS()
Not overridden
public double evalMagTransFunctS(Complex sValue)
Not overridden
public double evalMagTransFunctS(double freq)
Not overridden
Evaluate transfer function phase public double evalPhaseTransFunctS()
Not overridden
public double evalPhaseTransFunctS(Complex sValue)
Not overridden
public double evalPhaseTransFunctS(double freq)
Not overridden
Bode plots (magnitude and phase) public void plotBode(double lowFreq, double highFreq,)
Not overridden
Inverse Laplace Transform public static Complex[ ] [ ] inverseTransform(ComplexPoly numer, ComplexPoly Not overridden
public static Complex timeTerm(double time, Complex coeff, Complex constant, Complex power)
Not overridden
Set the input in the s-domain public void setInputS(Complex input)
Not overridden
Get the input in the s-domain public Complex getInputS()
Not overridden
Get the output in the s-domain public Complex getOutputS()
Overridden
public Complex getOutputS(Complex sValue, Complex input)
Overridden
Dead Time
(transportation time)
Set the dead time public void setDeadtime(double deadTime)
Not overridden
public void setDeadtime(double deadTime, double padeOrder)
Not overridden
Get the dead time public double getDeadtime()
Not overridden
Set the Pade order public void setPadeOrder(double padeorder)
Not overridden
Get the Pade order public void setPadeOrder(double padeorder)
Not overridden
Continuous time domain
(uses the s-domain transfer function)
Plot step input transient public void stepInput(double finaltime)
Overridden
public void stepInput(double mag, double finaltime)
Overridden
Plot ramp input transient public void rampInput(double finaltime)
Overridden
public void rampInput(double mag, double finaltime)
Overridden
public void rampInput(int order, double finaltime)
Overridden
public void rampInput(double mag, int order, double finaltime)
Overridden
z-domain transfer function Map s-transfer function into the z-domain public void zTransform()
Overridden
public void zTransform(double deltaT)
Overridden
Get the numerator degree public int getZnumerDeg()
Not overridden
Get the numerator polynomial public ComplexPoly getZnumer()
Not overridden
Get the denominator degree public int getZdenomDeg()
Not overridden
Get the denominator polynomial public ComplexPoly getZdenom()
Not overridden
Get the z-values of the poles publicComplex[ ] getPolesZ()
Not overridden
Get the z-values of the zeros publicComplex[ ] getZerosZ()
Not overridden
Plot poles and zeros public void plotPolesZeroZ()
Not overridden
Set the value of the z variable public void setZ(Complex zValue)
Not overridden
public void setZ(double zReal, double zImag)
Not overridden
Get the z value public Complex getZ()
Not overridden
Evaluate transfer function public Complex evalTransFunctZ()
Not overridden
public Complex evalTransFunctZ(Complex zValue)
Not overridden
Evaluate transfer function magnitude public double evalMagTransFunctZ()
Not overridden
public double evalMagTransFunctZ(Complex zValue)
Not overridden
Evaluate transfer function phase public double evalPhaseTransFunctZ()
Not overridden
public double evalPhaseTransFunctZ(Complex zValue)
Not overridden
Sampled signal Set the sampling length public void setSampleLdength(int samplelength)
Not overridden
Get the sampling length public int getSampleLength()
Not overridden
Set the sampling period public void setDeltaT(double deltaT)
Not overridden
Get the sampling period public double getDeltaT()
Not overridden
Set the sampling frequency public void setSampFreq(double sfreq)
Not overridden
Get the sampling frequency public double getSampFreq()
Not overridden
Set the sampled input and time public void setInputT(double time, double input)
Not overridden
Get the current value of the time public double getCurrentTime()
Not overridden
Get the array of times public double[] getTime()
Not overridden
Get the current value of the input public double getCurrentInputT()
Not overridden
Get the array of the inputs public double[] getInputT()
Not overridden
Calculate the current value of the output public double calcOutputT()
Overridden
public double calcOutputT(double time, double input) Overridden
Get the current value of the output public double getCurrentOutputT()
Not overridden
Get the array of the outputs public double getOutputT()
Not overridden
Set numerical integration method public void setIntegrateMethod(int integMethod)
Not overridden
public void setIntegrateMethod(String integMethodOpt)
Not overridden
Get numerical integration method public int getIntegrateMethod()
Not overridden
General methods Reset all inputs, outputs and times to zero public void resetZero()
Not overridden
Set the name of the black box public void setName(String name)
Not overridden
Get the name of the black box public String getName()
Not overridden



CONSTRUCTORS

public Compensator()
public Compensator(double kConst, double aConst, double bConst)
Usage:                      Compensator com = new Compensator();
This constructor creates a new instance of Compensator with the constants K, a and b in Equation 1 (above) initialised to unity.
Usage:                      Compensator fo = new Compensator(KConts, aConst, bConst);
This constructor creates a new instance of Compensator with the constants K, a and b in Equation 1 (above) initialised to the doubles passed in the argument list, e.g. to kConst, aConst and bConstd in the above usage.



COMPENSATOR CONSTANTS

SET THE CONSTANTS
public void reset(double kConst, double aConst, double bConst)
Usage:                      com.reset(kConts, aConst, bConst);
Resets the constants K, a and b in Equation 1 (above) initialised to the doubles passed in the argument list, e.g. to kConst, aConst and bConstd in the above usage.

public void setK(double kConst)
Usage:                      com.setK(kConst);
Resets the constant K in Equation 1 (above) to the value in the double passed in the argument list, e.g. to kConst in the above usage.

public void setA(double aConst)
Usage:                      com.setA(aConst);
Resets the constant a in Equation 1 (above) to the value in the double passed in the argument list, e.g. to aConst in the above usage.

public void setB(double bConst)
Usage:                      com.setB(bConst);
Resets the constant b in Equation 1 (above) to the value in the double passed in the argument list, e.g. to bConst in the above usage.



GET THE CONSTANTS
public double getK()
Usage:                      kConst = com.getK();
Returns the constant K in Equation 1 (above).

public double getA()
Usage:                      aConst = com.getA();
Returns the constant a in Equation 1 (above).

public double getB()
Usage:                      bConst = com.getB();
Returns the constant b in Equation 1 (above).



OTHER CLASSES USED BY THIS CLASS

This class is a subclass of BlackBox which uses the following classes in this library:
Compensator also calls directly:

This page was prepared by Dr Michael Thomas Flanagan