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200 10$aControl system design guide$b[electronic resource] $eusing your computer to understand and diagnose feedback controllers /$fGeorge Ellis
205   $a4th ed.
210   $aAmsterdam ;$aBoston $cElsevier/BH$d2012
215   $a1 online resource (521 p.)
300   $aDescription based upon print version of record.
311   $a0-12-385920-4 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Control System Design Guide: Using Your Computer to Understand andDiagnose Feedback Controllers; Copyright; Dedication; Contents; Praise for the new edition; Preface; What's New in this Edition?; Organization of the Book; Reader Feedback; Acknowledgments; Section I - Applied Principles of Controls; Chapter 1 - Introduction to Controls; 1.1Visual ModelQ Simulation  Environment; 1.2The Control System; 1.3The Controls Engineer; Chapter 2 - The Frequency Domain; 2.1The Laplace Transform; 2.2Transfer Functions; 2.3Examples of Transfer Functions; 2.4Block Diagrams; 2.5Phase and Gain
327   $a2.6Measuring Performance2.7 Questions; Chapter 3 - Tuning a Control System; 3.1 Closing Loops; 3.2 A Detailed Review of the Model; 3.3 The Open-Loop Method; 3.4 Margins of Stability; 3.5 A Zone-Based Tuning Procedure; 3.6 Variation in Plant Gain; 3.7 Multiple (Cascaded) Loops; 3.8 Power Converter Saturation and Synchronization; 3.9 Phase vs. Gain Plots; 3.10 Questions; Chapter 4 - Delay in Digital Controllers; 4.1How Sampling Works; 4.2Sources of Delay in Digital Systems; 4.3Experiment 4A: Understanding Delay in Digital Control; 4.4Selecting the Sample Time; 4.5 Questions
327   $aChapter 5 - The z-Domain5.1Introduction to the z-Domain; 5.2z Phasors; 5.3Aliasing; 5.4Experiment 5A: Aliasing; 5.5From Transfer Function to Algorithm; 5.6Functions for Digital Systems; 5.7Reducing the Calculation Delay; 5.8Quantization; 5.9. Questions; Chapter 6 - Four Types of Controllers; 6.1Tuning in this Chapter; 6.2Using the Proportional Gain; 6.3Using the Integral Gain; 6.4Using the Differential Gain; 6.5PD Control; 6.6Choosing the Controller; 6.7Experiments 6A-6D; 6.8 Questions; Chapter 7 - Disturbance Response; 7.1Disturbances; 7.2Disturbance Response of a Velocity Controller
327   $a7.3Disturbance Decoupling7.4 Questions; Chapter 8 - Feed-Forward; 8.1Plant-Based Feed-Forward; 8.2Feed-Forward and the Power Converter; 8.3Delaying the Command Signal; 8.4Variation in Plant and Power Converter Operation; 8.5Feed-Forward for the Double-Integrating Plant; 8.6 Questions; Chapter 9 - Filters in Control Systems; 9.1Filters in Control Systems; 9.2Filter Passband; 9.3Implementation of Filters; 9.4 Questions; Chapter 10 - Introduction to Observers in Control Systems; 10.1Overview of Observers; 10.2Experiments 10A-10C: Enhancing Stability with an Observer
327   $a10.3Filter Form of the Luenberger Observer10.4Designing a Luenberger Observer; 10.5Introduction to Tuning an Observer Compensator; 10.6 Questions; Section II - Modeling; Chapter 11 - Introduction to Modeling; 11.1What is a Model?; 11.2Frequency-Domain Modeling; 11.3Time-Domain Modeling; 11.4Questions; Chapter 12 - Nonlinear Behavior and Time Variation; 12.1LTI Versus Non-LTI; 12.2Non-LTI Behavior; 12.3Dealing with Nonlinear Behavior; 12.4Ten Examples of Nonlinear Behavior; 12.5 Questions; Chapter 13 - Model Development and Verification; 13.1Seven-Step Process to Develop a Model
327   $a13.2From Simulation to Deployment: RCP and HIL
330   $a Control Systems Design Guide has helped thousands of engineers to improve machine performance. This fourth edition of the practical guide has been updated with cutting-edge control design scenarios, models and simulations enabling apps from battlebots to solar collectors.   This useful reference enhances coverage of practical applications via the inclusion of new control system models, troubleshooting tips, and expanded coverage of complex systems requirements, such as increased speed, precision and remote capabilities, bridging the gap between the complex, math-heavy control theory ta
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200 00$aAdvanced integrated communication microsystems /$fJoy Laskar ... [et al.]
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320   $aIncludes bibliographical references and index.
327   $aFundamental concepts and background -- Wireless communication system architectures -- System architecture for high-speed wired communications -- Mixed building blocks of signal communication systems -- Examples of integrated communication microsystems -- Low-voltage, low-power, and low-area designs -- Packaging for integrated communication microsystems -- Advanced SOP components and signal processing -- Simulation and characterization of integrated microsystems -- Appendix : A compendium of the TRL calibration algorithm.
330   $aLearn the fundamentals of integrated communication microsystems Advanced communication microsystems--the latest technology to emerge in the semiconductor sector after microprocessors--require integration of diverse signal processing blocks in a power-efficient and cost-effective manner. Typically, these systems include data acquisition, data processing, telemetry, and power management. The overall development is a synergy among system, circuit, and component-level designs with a strong emphasis on integration. This book is targeted at students, researchers, and industry practitioners in the semiconductor area who require a thorough understanding of integrated communication microsystems from a developer's perspective. The book thoroughly and carefully explores: . Fundamental requirements of communication microsystems. System design and considerations for wired and wireless communication microsystems. Advanced block-level design techniques for communication microsystems. Integration of communication systems in a hybrid environment. Packaging considerations. Power and form factor trade-offs in building integrated microsystems Advanced Integrated Communication Microsystems is an ideal textbook for advanced undergraduate and graduate courses. It also serves as a valuable reference for researchers and practitioners in circuit design for telecommunications and related fields.
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