Electronics - Digital, Hardware Related Programming - Control Systems
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Overview
Examines the basic aspects of single-input DDC systems in terms of rigorously formulated mathematical relationships along with a careful explanation of their practical impact. Deterministic and stochastic inputs are analyzed in order to establish the close similarity of results in the z- and Laplace Transformations. Quantifies the losses of control accuracy due to a finite sampling frequency by techniques pioneered by the author. Presents a comprehensive yet computationally undemanding design method which involves Nyquist diagrams, analyzing filters, notch networks and coarse-fine control modes to combat the effects of overflow.Editorials
Booknews
A reference for engineers, scientists, and students, presenting a rigorous exposition of direct digital control (DDC) system design techniques. In addition, detailed analyses of system dynamics with random or deterministic inputs are included, together with new material on the statistical characteristics of quantization errors. The key element of the text, the successful engineering design of DDC systems, is set within the framework of a modern design environment such as a PC with a commercial software design package. Annotation c. Book News, Inc., Portland, OR (booknews.com)Book Details
Published
September 1, 1994
Publisher
Taylor & Francis, Inc.
Pages
432
Format
Hardcover
ISBN
9780471951476