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Testing and Diagnosis of Analog Circuits and Systems PDF

289 Pages·1991·7.34 MB·English
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Testing and Diagnosis of Analog Circuits and Systems Testing and Diagnosis of Analog Circuits and Systems Edited by Ruey-wen liu Department of Electrical and Computer Engineering University of Notre Dame Jnm;I VAN NOSTRAND REINHOLD ~ ______ New York Copyright © 1991 by Van Nostrand Reinhold Softcover reprint of the hardcover 1s t edition 1991 Library of Congress Catalog Card Number: 90-45217 ISBN-13: 978-1-4615-9749-0 e-ISBN-13: 978-1-4615-9747-6 DOl: 10.1007/978-1-4615-9747-6 All rights reserved. No part of this work covered by the copyright hereon may be reproduced or used in any form by any means-graphic, electronic, or mechanical, including photocopying, recording, taping, or information storage and retrieval systems-without written permission of the publisher. Van Nostrand Reinhold 115 Fifth Avenue New York, New York 10003 Chapman and Hall 2-6 Boundary Row London, SE1 8HN, England Thomas Nelson Australia 102 Dodds Street South Melbourne 3205 Victoria, Australia Nelson Canada 1120 Birchmount Road Scarborough, Ontario M1K 5G4, Canada 1615 14131211 10 9 8 7 654321 Library of Congress Cataloging in Publication Data Liu, Ruey-wen Testing and diagnosis of analog circuits and systems / Ruey-wen Liu. p. cm. Includes bibliographical references and index. ISBN-13: 978-1-4615-9749-0 I. Analog electronic systems-Testing. I. Title TK7870.L523 1991 621.381-dc20 90-45217 CIP Contents Preface ix Contributors xv Chapter 1. A Circuit Theoretic Approach to Analog Fault Diagnosis 1 Ruey-wen Liu Background 1 An Introduction to Analog Fault Diagnosis 2 Important Issues of Analog Fault Diagnosis 5 The Element-Value Solvability Problem 6 A FaultlTolerance Compensation Model 8 k-Fault Diagnosis: The Ideal Case 10 k-Fault Diagnosis: The Tolerance Case 13 Illustrative Examples 18 Chapter 2. Linear Method vs. Nonlinear Method 37 T. Matsumoto and Y. Togawa Setting of the Problem 38 Probability 40 Probability Measure 41 Perturbation of Parameters 44 Geometry of SF and TF 45 Linear Method Is as Powerful as the Nonlinear Method 51 vi Contents Chapter 3. Topological Thstability Conditions for Analog Fault Diagnosis 6S Chen-Shang Lin Theory 66 Applications 76 Chapter 4. Fault Diagnosis of Nonlinear Electronic Circuits 8S Qiu Huang and Ruey-wen Liu Fault Diagnosis of Linear Circuits 87 Fault Diagnosis of PWL Circuits 93 Examples 97 Appendix 112 Chapter 5. Analog Multifrequency Fault Diagnosis with the Assumption of Limited Failures 117 Ray DeCarlo, Lawrence Rapisarda, and Mark Wicks The CCM and the Fault Diagnosis Equations of [4] 118 A Motivational Example 122 Diagnosability for nf Faults 126 Limited Fault Algorithm 133 Limited Fault Algorithm Examples 137 Chapter 6. A Searching Approach Self· Testing Algorithm for Analog Fault Diagnosis 147 Chin-Long Wey Automatic Test Program Generation 148 Decision Algorithms 162 The Heuristic Algorithm 165 Parallel Processing for Analog Fault Diagnosis 168 Design for Testability 178 Chapter 7. An Artificial Intelligence Approach to Analog Systems Diagnosis 187 Frank Pipitone, Kenneth Dejong, and William Spears Qualitative Causal Models 191 The Treatment of Fault Probabilities 196 Best Test Strategies 203 FIS: An Implemented Diagnostic System 210 Current Applications of FIS 212 Chapter 8. Automatic Testing for Control Systems Conformance 217 Denis R. Towill Historical Development of ATE 217 Contents vii Transfer Function Testing 219 Return Signal Processing 221 Tuning of Large Electro-Mechanical Servosystems 221 The SUT Test Signature 225 Transfer Function Models of Control Systems 226 The "Fuzzy" Nature of Control System Behavior 227 Checkout Based on Quadratic Performance Criteria 229 "Closed Loop" Testing 230 Chapter 9. Testing of Analog Integrated Circuits 235 V. Visvanathan Testing vs. Diagnosis 236 Digital vs. Analog Testing 237 Specification-Based Testing 239 Solution of the Test Tolerance Assignment Problem 241 Consideration for Fault-Madel-Based Testing 243 An Approach to Fault-Model-Based Testing 245 Chapter 10. A Unified Theory on Test Generation for Analog/Digital Systems 251 Lang Tong and Ruey-wen Liu Notation and Basic Concepts 252 Testability of Interconnected Systems 255 Reachability, Observability, and Testability 259 Test Generation for Interconnected Systems: Case Studies 262 Index 281 Preface IS THE TOPIC ANALOG TESTING AND DIAGNOSIS TIMELY? Yes, indeed it is. Testing and Diagnosis is an important topic and fulfills a vital need for the electronic industry. The testing and diagnosis ofd igital electronic circuits has been successfuIly developed to the point that it can be automated. Unfortu nately, its development for analog electronic circuits is still in its Stone Age. The engineer's intuition is still the most powerful tool used in the industry! There are two reasons for this. One is that there has been no pressing need from the industry. Analog circuits are usuaIly small in size. Sometimes, the engineer's experience and intuition are sufficient to fulfill the need. The other reason is that there are no breakthrough results from academic re search to provide the industry with critical ideas to develop tools. This is not because of a lack of effort. Both academic and industrial research groups have made major efforts to look into this problem. Unfortunately, the prob lem for analog circuits is fundamentally different from and much more diffi cult than its counterpart for digital circuits. These efforts have led to some important findings, but are still not at the point of being practicaIly useful. However, these situations are now changing. The current trend for the design of VLSI chips is to use analog/digital hybrid circuits, instead of digital circuits from the past. Therefore, even Ix x Preface though the analog circuit may be small, the total circuit under testing is large. The engineer's intuition may no longer be sufficient. There is an urgent need for a more systematic approach to the problem of testing and diagnosis of analog or analOg/digital hybrid electronic circuits. Another trend toward a more systematic approach to the problem of test ing and diagnosis of analog circuits is the recent development ofa nalog VLSI chips. In neural networks, it is found that analog VLSI chips have advan tages over digital VLSI chips in computational speed and adaptivity. In a recent extensive study by DARPA, it has been found that neural networks provide the only hope in sight for the successful development of intelligent machines. If this hope becomes a reality, the demand for analog VLSI chips would be tremendously high. The lack of testing and diagnosis technology would be a bottleneck problem for the manufacturing of analog VLSI chips. The urgency for the development of a viable analog testing and diagnosis technology is now, not then. In the meantime, there have been some breakthroughs at the frontiers of academic research. The problem of diagnosis of linear circuits has been well developed in the past and well understood. But their application to modern circuits has been very limited because most modern devices are nonlinear, especially under faulty conditions. The extension of linear theory onto non linear ones is nontrivial because some nonlinear phenomena have to be dealt with. These were bottleneck problems. Recently, some efficient and reliable methods for nonlinear diagnosis have been developed. Two of them are reported in this book. Another frontier is in the area of analog/digital hybrid testing. Such technology does not exist at the present time, but will be needed in the near future. Recently, a mathematical foundation for the development of analOg/digital hybrid testing has been formulated. These results can serve as a bridge to bring the academic research as close as it has ever been to the technology. The need for a viable technology for the analog testing and diagnosis from the industry is growing at this time. In the meantime, academic researchers have been reaching out and trying to touch the real world. I am very glad to see that this book is ready at this particular time. WHO MAY BE INTERESTED IN THE TOPIC OF ANALOG TESTING AND DIAGNOSIS? Testing and Diagnosis is an important engineering subject. It interacts with engineering processes in at least three different ways: manufacturing, main tenance, and research. Hence it is of immediate interest to electronic engi neers. It also has appeal to academicians. Preface xi IC and VLSI Chip Manufacturing A manufacturing process, such as the oxide thickness of an Ie chip, is di rectly related to the circuit parameters to be manufactured. To make sure that a manufacturing process will reliably produce Ie chips within a design specifica tion, a design verification process is needed. This process usually involves simul taneously both modifications of the manufacturing process and testing and diagnosis of the chip. Hence, the technology to do so is clearly needed. After a manufacturing process is set, it still cannot guarantee that every chip manufactured will be within design specifications. This is due to un avoidable manufacturing fluctuations. A testing process again is needed so that bad chips can be identified and rejected. Furthermore, in order to in crease the yield of a manufacturing process, it is economically feasible to rewire those rejected faulty chips and change them from bad to good. This can be done by designing redundant components on a VLSI chip. If and when a faulty component is successfully identified (diagnosed), then a rewiring to its redundant good component will make the VLSI chip good. Hence, a viable di agnosis procedure is needed to enhance the yield of the manufacturing process. The above gives two examples of why testing and diagnosis are important to the Ie and VLSI chip manufacturing process. Electron System Maintenance During the past quarter century, the electronic engineering community has witnessed tremendous strides in the art of electronics design. On the other hand, maintenance of analog electronics has changed little since the days of vacuum tubes. As such, our ability to design complex electronic cir cuits is quickly outdistancing our ability to maintain them. In turn, the price reductions accomplished by modern electronic technology have been paral leled by the increasing maintenance and operational cost. Indeed, many in dustries are finding that the life cycle maintenance cost for their electronic equipment now exceeds their original capital investment. An urgent need for maintenance cost reduction is now at hand. The maintenance cost is related to the per unit cost of testing and diagno sis of a faulty system and its recovery rate. The recovery rate is directly re lated to the technology used and inversely related to the complexity of the system under testing. Since modern electronic equipments become more and more complex, it can only be offset by better and better technology. Hence, it is of paramount importance to develop better testing and diagnosis tech nology with lower per unit cost. This is the only long-term solution to the ever-increasing maintenance cost. Research The topic of analog fault diagnosis does not fall into conventional topics of circuit theory such as analysis, synthesis, and sensitivity. As synthesis is an xli Preface inverse problem of analysis, so fault diagnosis is an inverse problem of sensi tivity. Hence, it is a new frontier for circuit theoretics. This area of research was very active in the 1970s, but slowed down because of the lack of pressing industrial need and the lack of breakthrough results beyond diagnosis of lin ear circuits. With the recent development in analog VLSI chips, it will not be surprising to see a renewed interest in analog fault diagnosis. There is another uncharted area of research related to our topic: There is an urgent need for new design methods from the electronic industry so that the circuits so designed can be easily tested and diagnosed. Hence, the cost of doing it can be reduced. Few papers in the literature have addressed this problem. ABOUT THIS BOOK The material presented in this book is considered to be of value to all scien tists and engineers concerned with testing and fault diagnosis of analog cir cuits and systems. It covers fundamental principles, bottleneck problems, and solutions, as well as many realistic illustrative examples. It is useful for the test engineers as well as maintenance engineers of electronic industry. It contains much fundamental information and hence could be useful as a ref erence book to academicians, or as a library reference. This book is divided into two parts. The first seven chapters are concerned with fault diagnosis of analog electronic circuits, while the last three chapters are concerned with testing. Analog Fault Diagnosis The fundamental principle of fault diagnosis of linear analog electronic circuits is presented in the first two chapters. The background, the problem, and the important issues are discussed in Chapter 1. Several methods are pre sented and ccmpared. The k-fault diagnosis approach may be the most efficient and effective approach. In Chapter 2, it is shown that this approach (named the linear method) is as powerful as nonlinear methods. A bottleneck problem for linear fault diagnosis is the existence of tolerance of linear parameters. In order to resolve this problem, some effective methods are presented in Chapters 1, 12, and 4. It is also shown in Chapter 2 that even if the testability condition is not satisfied, it still can be diagnosed up to an equivalence class. In theory development, it is convenient to assume that all faults are possi ble and equally probable. In reality, it is not true. A testing engineer will decide a fault-set to be tested. This fault-set consists of a set of faults most likely to occur. How do we choose a set of testing points so that each fault in the fault-set can be diagnosed? Answers to this question are given in Chap ters 3 and 6. The solution in Chapter 3 may be more easily applied because its

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IS THE TOPIC ANALOG TESTING AND DIAGNOSIS TIMELY? Yes, indeed it is. Testing and Diagnosis is an important topic and fulfills a vital need for the electronic industry. The testing and diagnosis of digital electronic circuits has been successfuIly developed to the point that it can be automated. Unfo
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