A FURTHER STUDY OF POSITIVE-NEGATIVE FEEDBACK CONTROL SYSTEMS.

Abstract

The design and performance of positive-negative feedback (P-NF) switching control systems, which switch back and forth between direct positive- and negative-feedback modes, are investigated with the ultimate objective of developing a P-NF system which can satisfy certain common performance requirements better than either a linear negative-feedback (LN-F) system or a 'bang-bang' switching control system. A simple technique for improving the performance of the sampling P-NF system is developed. It is asserted and demonstrated that, by inserting simple gain compensators in the positive- and negative- feedback loops, the step-input response time and the system's bandwidth can be simultaneously reduced. To compare the controller complexity and the performance of a sampling P-NF system with those of an ideal 'bangbang' system, a 'bang-bang' controller is designed for a typical plant to respond to step-function inputs without overshooting. It is concluded that the sampling P-NF switching control system is unique among non-linear and switching control systems in that its step-input transient response and its sinusoidal-input frequency response both obey the homogeneity principle.

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 1965

Accession Number

AD0615092

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