Title :
Performance evaluation of a differential pressure cell model
Author :
McGlone, Phillip ; McGhee, Joseph ; Henderson, Ian A.
Author_Institution :
Ind. Control Centre, Strathclyde Univ., Glasgow, UK
fDate :
10/1/1998 12:00:00 AM
Abstract :
This paper describes the development of a mathematical model of a differential pressure cell and its application in MATLAB. The model is also examined in SIMULINK, for the purposes of comparison of the model with the real world. Furthermore, we also describe the application of a system identification method using a multifrequency binary test signal, for comparison with the mathematical model. The method is applied to a pneumatic differential pressure cell. The exploration of the mathematical model shows that while the majority of the subsystems are nonlinear, they can adequately be approximated by Taylor polynomials. This facilitates the modeling of the subsystem elements as linear agents. The identification results show that the cell, composed of three main components-the diaphragm, pilot relay flapper/nozzle, and the feedback bellows-has an overall first-order linear response
Keywords :
automatic testing; control system analysis computing; digital simulation; feedback; flow measurement; identification; nozzles; performance evaluation; physics computing; pipe flow; pneumatic control equipment; pressure measurement; pressure sensors; DFT; MATLAB; SIMULINK; Taylor polynomials; differential pressure cell model; first-order linear response; identification; linear agents; mathematical model; multifrequency binary test signal; nonlinear; pilot relay flapper/nozzle; pneumatic differential pressure cell; system identification; Bellows; Circuit testing; Instruments; Mathematical model; Optical coupling; Polynomials; Pressure measurement; Relays; System identification; System testing;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
