The control logic of the modern full authority digital engine control is comprised of many control loops, each of which has a specific purpose. Typical control loops include (but are not limited to) a high or low rotor speed governor, an acceleration and deceleration loop, and various limiting loops for temperature, speed, fuel flow, and rate of change of fuel flow. The logic that determines which of these loops is “in control” at any particular time has a history of being very simplistic. This selection logic is usually nothing more that a cascade of minimum and maximum selection logic gates. Since this logic is so simplistic, the control engineer often has to “fine-tune” the compensator design for each loop, in order to achieve proper performance.

Issue Section:
Gas Turbines: Controls, Diagnostics, and Instrumentation
Keywords:
computerised control, control engineering, engines, fuzzy logic, fuel, software architecture, flow control
Topics:
Engines, Flow (Dynamics), Fuels, Governors, Fuzzy logic, Design
1.
Zadeh, L. A., 1965, Fuzzy sets, Inform. Control Vol. 8.
2.
Zadeh, L. A., 1973, Outline of a New Approach to the Analysis of Complex Systems and Decision Processes, IEEE Transactions on Systems, Man, and Cybernetics, SMC-3,(1)(1973).
3.
Mandami, E. H., 1974, Applications of Fuzzy Algorithms for Simple Dynamic Plant, Proc. IEEE, Vol. 121, No. 12.
4.
Ross, Timothy J., 1995, Fuzzy Logic with Engineering Applications, McGraw-Hill, Inc., ISBN 0-07-053917-0
5.
Volponi, Allan J. and Solomonides, Jason B., 1994, Advanced Engine Control Development Utilizing Fuzzy Logic and Rapid Prototyping, Royal Aeronautical Society Proceedings ISBN 1 85768 021 9, November 1994.
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 by ASME
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