Download Taub and Schilling's Digital Integrated Electronics for Free: A PDF Guide
Digital Integrated Electronics by Taub and Schilling: A Comprehensive Guide
If you are looking for a comprehensive guide on digital integrated electronics, you might want to check out the book Digital Integrated Electronics by Herbert Taub and Donald Schilling. This book covers the fundamentals and applications of digital systems, logic circuits, logic families, integrated circuit fabrication, and digital circuit design. It is suitable for students, engineers, and hobbyists who want to learn more about the theory and practice of digital integrated electronics.
digital integrated electronics by taub and schilling ebook download
In this article, we will give you an overview of the book's contents and structure, highlighting the main topics and concepts covered in each chapter. We will also provide you with some useful information on how to download the ebook version of the book for free. By the end of this article, you will have a better understanding of what this book can offer you and how it can help you master digital integrated electronics.
Chapter 1: Introduction to Digital Systems
The first chapter introduces the basic concepts of digital systems and logic circuits. It explains the difference between analog and digital signals, the advantages and disadvantages of digital systems, the types and functions of logic gates, and the representation and manipulation of binary data. It also covers the following topics:
Number systems and codes: How to convert between different number systems (decimal, binary, octal, hexadecimal) and how to use different codes (BCD, ASCII, Gray) for data representation.
Boolean algebra and simplification techniques: How to use Boolean algebra to express logical functions and how to simplify complex expressions using laws, rules, theorems, and identities.
Chapter 2: Combinational Logic Circuits
The second chapter deals with the design of combinational logic circuits using gates and MSI (medium-scale integration) devices. It shows how to implement any logical function using NAND or NOR gates as universal building blocks. It also covers the following topics:
Analysis and synthesis of combinational logic circuits using Karnaugh maps and Quine-McCluskey method: How to use graphical and tabular methods to minimize the number of gates and inputs required for a given logical function.
Design of arithmetic circuits, comparators, multiplexers, decoders, encoders, and code converters: How to use combinational logic circuits to perform basic arithmetic operations, compare binary numbers, select one of several inputs, decode or encode binary codes, and convert between different codes.
Chapter 3: Sequential Logic Circuits
The third chapter covers the basic concepts of sequential logic circuits and flip-flops. It explains the difference between combinational and sequential logic circuits, the types and characteristics of flip-flops, and the methods of triggering and clocking. It also covers the following topics:
Analysis and design of synchronous sequential circuits using state diagrams and tables: How to use graphical and tabular methods to describe the behavior and operation of sequential logic circuits based on their inputs, outputs, and states.
Design of counters, shift registers, sequence generators, and memory devices: How to use sequential logic circuits to count binary numbers, shift data, generate specific patterns, and store information.
Chapter 4: Logic Families
The fourth chapter discusses the characteristics and parameters of logic families. It explains the factors that affect the performance and compatibility of logic circuits, such as speed, power consumption, noise margin, fan-out, propagation delay, rise time, fall time, etc. It also covers the following topics:
Comparison of TTL (transistor-transistor logic), ECL (emitter-coupled logic), MOS (metal-oxide-semiconductor), and CMOS (complementary MOS) logic families: How to compare the advantages and disadvantages of different logic families based on their circuit configurations, operating principles, voltage levels, current levels, etc.
Interfacing and compatibility issues among different logic families: How to deal with the problems that arise when connecting logic circuits from different families, such as voltage level conversion, current level conversion, noise reduction, etc.
Chapter 5: Integrated Circuit Fabrication
The fifth chapter describes the basic steps and techniques of integrated circuit fabrication. It explains how integrated circuits are made from silicon wafers using various processes such as oxidation, diffusion, ion implantation, photolithography, etching, metallization, etc. It also covers the following topics:
Materials and processes used for fabrication of bipolar and MOS transistors: How to use different types of materials (such as silicon dioxide, polysilicon, aluminum) and processes (such as epitaxial growth, isolation techniques) to create bipolar junction transistors (BJTs) and MOS field-effect transistors (MOSFETs).
Layout design rules and mask generation for integrated circuits: How to use geometric shapes and patterns to represent the layout of an integrated circuit on a mask and how to follow certain rules and guidelines to ensure proper functionality and reliability.
Chapter 6: Digital Circuit Design
The sixth chapter covers the design methodology and tools for digital circuit design. It explains how to use various software tools to simulate and test digital circuits before fabrication. It also covers the following topics:
Simulation and testing of digital circuits using SPICE (Simulation Program with Integrated Circuit Emphasis) and other software: How to use SPICE commands and models to simulate the behavior and performance of digital circuits under different conditions and parameters.
Design examples of digital circuits using schematic capture and HDLs (hardware description languages): How to use graphical tools to draw schematics of digital circuits and how to use textual tools to describe digital circuits using HDLs such as VHDL (VHSIC Hardware Description Language) or Verilog.
Conclusion: Summary and Future Trends of Digital Integrated Electronics
In this article, we have given you an overview of the book Digital Integrated Electronics by Herbert Taub and Donald Schilling. This book is a comprehensive guide on digital systems, logic circuits, logic families, integrated circuit fabrication, and digital circuit design. It covers the fundamentals and applications of digital integrated electronics in a clear and concise manner. It is suitable for students, engineers, and hobbyists who want to learn more about this fascinating field.
Digital integrated electronics is a dynamic and evolving field that has many challenges and opportunities in terms of technology, applications, and education. Some of the future trends that we can expect are:
Conclusion: Summary and Future Trends of Digital Integrated Electronics (continued)
Advancement in nanotechnology and quantum computing: These technologies promise to revolutionize the field of digital integrated electronics by enabling the creation of smaller, faster, and more powerful devices and circuits that can exploit quantum phenomena and effects.
Development of new applications and domains: Digital integrated electronics has a wide range of applications and domains, such as communication, computation, automation, robotics, biomedicine, aerospace, etc. As technology advances, new applications and domains will emerge and require new solutions and innovations.
Improvement of education and training: Digital integrated electronics is a complex and interdisciplinary field that requires a solid foundation and a continuous update of knowledge and skills. Education and training programs need to adapt to the changing needs and demands of the field and provide students and professionals with the necessary tools and resources to learn and grow.
We hope that this article has given you a good overview of the book Digital Integrated Electronics by Herbert Taub and Donald Schilling and that you are interested in reading it. If you want to download the ebook version of the book for free, you can use the following link:
This link will take you to a website where you can download the book in PDF format. You can also find other books on digital integrated electronics and related topics on this website.
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Here are some frequently asked questions about the book Digital Integrated Electronics by Herbert Taub and Donald Schilling:
Who are the authors of the book?
The authors of the book are Herbert Taub and Donald Schilling. Herbert Taub was a professor of electrical engineering at Columbia University. He was also a pioneer in the field of information theory and communication systems. Donald Schilling was also a professor of electrical engineering at Columbia University. He was also an expert in the field of digital signal processing and wireless communication.
When was the book published?
The book was first published in 1977 by McGraw-Hill Education. It was one of the first books to cover digital integrated electronics in a comprehensive way. It has been revised and updated several times since then to reflect the latest developments and trends in the field.
What are the prerequisites for reading the book?
The book assumes that the reader has some background in basic electronics, such as circuits, devices, signals, etc. It also assumes that the reader has some familiarity with mathematics, such as algebra, calculus, etc. The book provides some review and introduction to these topics, but it is not meant to be a complete course on them.
What are the benefits of reading the book?
The book provides a comprehensive guide on digital integrated electronics that covers both theory and practice. It explains the fundamentals and applications of digital systems, logic circuits, logic families, integrated circuit fabrication, and digital circuit design in a clear and concise manner. It also provides many examples, problems, exercises, and references to help the reader understand and apply the concepts. The book is suitable for students, engineers, and hobbyists who want to learn more about this fascinating field.
Where can I find more resources on digital integrated electronics?
If you want to find more resources on digital integrated electronics, you can use some of the following sources:
Online courses: There are many online courses that teach digital integrated electronics or related topics. You can find some of them on platforms such as Coursera, edX, Udemy, etc.
Videos: There are many videos that explain digital integrated electronics or related topics. You can find some of them on platforms such as YouTube, Khan Academy, etc.
Websites: There are many websites that provide information and tutorials on digital integrated electronics or related topics. You can find some of them on platforms such as Wikipedia, All About Circuits, Electronics Tutorials, etc.