Title :
Switching control of a pneumatic throttle actuator
Author :
Sommerville, M. ; Hatipoglu, Cem ; Özguner, Ümit
Author_Institution :
Dept. of Electr. Eng., Ohio State Univ., Columbus, OH, USA
fDate :
8/1/1998 12:00:00 AM
Abstract :
A speed controller´s primary input, for an internal combustion engine-based vehicle, is the throttle angle. The most common way to adjust the throttle angle setting is with a pneumatic actuator. When a faster and more accurate throttle response is desired, the pneumatic based system is generally replaced with a stepping motor mounted directly on the throttle plate assembly. For controller design purposes that fit the physical situation, a model of the throttle actuator system has been developed that is comprised of two second-order linear systems. Using this variable structure model, a switching controller has been designed which has been verified, both theoretically and experimentally, to work satisfactorily. This paper provides an interesting example of designing a reference tracking controller for a real physical system by switching between its stable and unstable structures while achieving closed loop stability
Keywords :
actuators; automobiles; closed loop systems; discrete time systems; internal combustion engines; observers; pneumatic control equipment; stability; variable structure systems; closed loop systems; discrete time systems; internal combustion engine; observer; pneumatic actuator; second-order linear systems; stability; switching controller; throttle; tracking; variable structure model; Control systems; Engine cylinders; Internal combustion engines; Manifolds; Pneumatic actuators; Pressure control; Springs; Torque; Valves; Vehicles;
Journal_Title :
Control Systems, IEEE
