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Modern electronics is the most visible result of research in solid state physics. Transistors and integrated circuits are used everywhere in ever increasing numbers. The microprocessor controlled coffee-pot exists. Most experimental physicists, and, indeed, experimental scientists in most disciplines, study their subject with the aid of apparatus containing significant amounts of electronics and much of that electronics is digital. In order to design experiments and apparatus or simply to understand how a piece of equipment works, an under standing of electronics has become increasingly important. In recognition that electronics has pervaded so many areas, courses in digital electronics are now a recommended part of physics and many other science degree courses. At the introductory level, digital electronics is, primarily, a practical subject with relatively few basic concepts and any complex ity arises from the coupling together of many simple circuits and the extensive use of feedback. Designing an electronic circuit and then getting it to work correctly provides an experience, and a sense of achievement, which is significantly different from most undergradu ate work as it more closely resembles project work than standard laboratory practicals.
This Book Systematically Presents A Series Of Interesting Experiments On Digital Devices. It Also Explains The Basic Theory Underlying These Devices And Experiments.After Explaining The Essential Characteristics And Operating Features Of Logic Devices, The Book Considers Various Types Of Logic Gates And Provides Experiments Which Are Designed To Make The Student Familiar With These Devices.Interfacing Problems Between Logic Devices Of Different Families Are Then Considered And Various Practical Solutions Are Explored.Experiments On More Complex Devices Like Multivibrators, Counters, Decoders, Encoders, Logic Circuits, Memories, Led Displays, Analog/Digital And Digital/Analogy Converters Are Then Systematically Discussed.All Chapters Begin With The Theory Of The Device Being Considered, Its Operating Characteristics And The Results Expected From The Associated Experiments. Each Experiment Is Assigned A Set Of Objectives Followed By Step-By-Step Operating Procedures For Performing The Experiment.The Book Would Serve As An Excellent Text-Cum-Manual For B.Sc., B.E. And Diploma Students Of Electronics And Computer Science.
Science undergraduates have come to accept the use of computers as commonplace. The daily use of portable sophisticated electronic calculators (some of them rivaling general-purpose minicomputers in their capa bi li ti es) has hastened this development. Over the past several years, computer assisted experimentation has assumed an important role in the experimental laboratory. Mini- and microcomputer systems have become an important part of the physical scientist's array of analytical instruments. Prompted by our beliefthat this was an inevitable development, we began several years aga to develop the curricular materials presented in this manual. At the outset, several objectives seemed important to uso First, insofar as possible, the experiments included should be thoroughly tested and error free. Second, they should be compatible with a variety of laboratory computer, data-acquisition, and control systems. Third, little or no previous background in either electronics or programming should be necessary. (Of course, such background would be advantageous. ) To satisfy these objectives, we decided to adopt a widespread high-level computer language, BASIC, suitably modified for the purpose. Furthermore, we have purposely avoided specifying any particular system or equipment. Rather, the functional characteristics of both hardware and software required are stipulated. The experiments have been developed using Varian 620 and Hewlett-Packard 2100 series computers, but we believe they are readily transferable to other commonly available computer systems with a minimum of difficulty.
This book provides up-to-date coverage of all aspects of digital design, incorporating computer-based experimentation via Electronic Workbench and providing numerous practical applications. A section in each chapter is devoted to troubleshooting digital circuitry systems a special icon highlights numerous tips throughout the book. Number Systems. Binary Arithmetic. Logic Families. Basic Logic Gates. Combinational Logic Circuit Design. Flip Flops. Counters. Synchronous Logic Circuit Design. Circuit Design Using Programmable Logic. Complex Logic Functions. Memories. Digital Data Transmission. Troubleshooting Techniques. For engineers or anyone else who is interested in digital electronics.
The National Instruments Multisim® software is a versatile design and simulation program. The intent of this workbook is to simulate a laboratory experience in electronics and help you develop a working knowledge of the Multisim software to enter and analyze circuit designs. The circuits in this manual illustrate fundamental concepts in dc/ac, digital, and device electronics. Each section will contain some background theory for the circuits that you will investigate, but only to help provide context for the specific topics that the section will cover. For best results, you should use this workbook to supplement, rather than replace, a textbook that discusses the subject material in depth. This manual provides suggested reading for each experiment."--pub. desc.
This book is evolved from the experience of the author who taught all lab courses in his three decades of teaching in various universities in India. The objective of this lab manual is to provide information to undergraduate students to practice experiments in electronics laboratories. This book covers 118 experiments for linear/analog integrated circuits lab, communication engineering lab, power electronics lab, microwave lab and optical communication lab. The experiments described in this book enable the students to learn: • Various analog integrated circuits and their functions • Analog and digital communication techniques • Power electronics circuits and their functions • Microwave equipment and components • Optical communication devices This book is intended for the B.Tech students of Electronics and Communication Engineering, Electrical and Electronics Engineering, Biomedical Electronics, Instrumentation and Control, Computer Science, and Applied Electronics. It is designed not only for engineering students, but can also be used by BSc/MSc (Physics) and Diploma students. KEY FEATURES • Contains aim, components and equipment required, theory, circuit diagram, pin-outs of active devices, design, tables, graphs, alternate circuits, and troubleshooting techniques for each experiment • Includes viva voce and examination questions with their answers • Provides exposure on various devices TARGET AUDIENCE • B.Tech (Electronics and Communication Engineering, Electrical and Electronics Engineering, Biomedical Electronics, Instrumentation and Control, Computer Science, and Applied Electronics) • BSc/MSc (Physics) • Diploma (Engineering)
This handbook is prepared after extensive simulations of the circuits with some electronic and engineering software such as Multisim, PSPICE and Circuit Logic. This handbook is designed basically to assist both tutors and students in the conduct of laboratory experiments. It has been proven over time that students tend to remember experiments they conducted much more than lectures they received. This handbook was written in a simple technical language and the mathematics behind the experiments clearly derived and explained. This book is intended to add a wealth of knowledge especially in physics, Electrical and Electronic and communications engineering for students in tertiary institutions such as Polytechnics, Monotechnics and Universities. This handbook contains thirty-eight experiments which can be categorized into Basic Electrical and Electronics Engineering experiments, Analogue Electronics experiments, and Digital Electronics experiments. Each experiment contains details of objectives, materials, theoretical background and procedures. The procedure involves steps and questions in understanding of the experiment being conducted. At the end of the book, some individual projects are present with the aim that, students who have mastered the experiments in the book can design basic electronics to solve world problems.