Digital Integrated Electronics by Herbert Taub & Donald Schilling | Booktree
Digital Integrated Electronics by Taub and Schilling PDF Free
If you are looking for a comprehensive and accessible book on digital integrated electronics, you might want to check out Digital Integrated Electronics by Herbert Taub and Donald Schilling. This book covers the fundamentals of digital electronics, including logic circuits, operational amplifiers, comparators, resistor-transistor logic, integrated-injection logic, MOS logic, and more. It also provides numerous examples, exercises, diagrams, and illustrations to help you understand the concepts and apply them to real-world problems.
Digital integrated electronics by taub and schilling pdf free
In this article, we will give you an overview of the book, its features, benefits, and how you can get it for free in PDF format. We will also answer some frequently asked questions about the book and its authors. By the end of this article, you will have a clear idea of whether this book is suitable for your needs and how you can access it online.
What is Digital Integrated Electronics?
Digital integrated electronics is a branch of electronics that deals with the design, fabrication, and application of digital circuits that are composed of discrete components such as transistors, resistors, capacitors, diodes, etc. These components are integrated on a single chip or substrate to perform various functions such as logic operations, arithmetic operations, data processing, memory storage, etc.
Digital integrated electronics is different from analog electronics, which uses continuous signals and variable voltages to represent information. Digital electronics uses discrete signals and binary values (0 or 1) to represent information. Digital electronics has many advantages over analog electronics, such as higher speed, lower power consumption, higher reliability, lower noise interference, easier scalability, etc.
Who are Taub and Schilling?
Herbert Taub and Donald Schilling are two renowned professors and authors in the field of electrical engineering. They have written several books on various topics such as communication systems, electronic devices, network analysis, etc.
Herbert Taub was born in 1918 in New York City. He received his B.S., M.S., and Ph.D. degrees in electrical engineering from Columbia University. He taught at Columbia University from 1946 to 1977 and served as the chairman of the electrical engineering department from 1965 to 1970. He also worked as a consultant for several companies such as IBM, Bell Labs, RCA, etc. He was a fellow of the IEEE and received many awards and honors for his contributions to engineering education and research. He passed away in 2009 at the age of 91.
Donald Schilling was born in 1928 in Brooklyn. He received his B.S., M.S., and Ph.D. degrees in electrical engineering from Columbia University. He joined the faculty of Columbia University in 1955 and became a professor emeritus in 1994. He also worked as a consultant for several companies such as IBM, Bell Labs, RCA, etc. He was a fellow of the IEEE and received many awards and honors for his contributions to engineering education and research. He is still active as a professor emeritus at Columbia University.
Why is this Book Important?
Digital Integrated Electronics by Taub and Schilling is one of the classic and authoritative books on digital integrated electronics. It was first published in 1977 and has been widely used as a textbook and reference book by students, teachers, and professionals in the field. It covers the basic principles and techniques of digital integrated electronics, as well as the latest developments and trends in the field. It also provides a balanced and comprehensive treatment of both theory and practice, with an emphasis on applications and problem-solving.
This book is important because it helps you to learn the fundamentals of digital integrated electronics, as well as to develop your skills and knowledge in designing, analyzing, and implementing digital circuits and systems. It also helps you to prepare for your exams, projects, and career in the field of digital integrated electronics.
Features of the Book
Content Overview
The book consists of 15 chapters, each covering a major topic in digital integrated electronics. The chapters are organized as follows:
Chapter 1: Electronic Devices - This chapter introduces the basic electronic devices used in digital integrated circuits, such as diodes, transistors, resistors, capacitors, etc. It also explains the characteristics, models, and parameters of these devices.
Chapter 2: Operational Amplifiers and Comparators - This chapter discusses the operation, characteristics, and applications of operational amplifiers and comparators, which are widely used in analog and digital circuits. It also covers the feedback, stability, frequency response, and distortion of these devices.
Chapter 3: Logic Circuits - This chapter covers the basic concepts and techniques of logic circuits, such as Boolean algebra, logic gates, truth tables, Karnaugh maps, etc. It also explains the design and analysis of combinational and sequential logic circuits.
Chapter 4: Resistor-Transistor Logic and Integrated-Injection Logic - This chapter describes two types of bipolar logic families that use resistors and transistors to implement logic functions. It also compares their advantages and disadvantages over other logic families.
Chapter 5: MOS Logic - This chapter introduces the metal-oxide-semiconductor (MOS) technology, which uses MOS transistors to implement logic functions. It also covers the operation, characteristics, and design of various types of MOS logic families, such as NMOS, PMOS, CMOS, etc.
Chapter 6: Logic Circuit Families - This chapter compares and contrasts the different types of logic circuit families based on their performance parameters, such as speed, power consumption, noise margin, fan-out, etc. It also discusses the interfacing and compatibility issues among different logic families.
Chapter 7: Arithmetic Circuits - This chapter deals with the design and analysis of arithmetic circuits that perform basic operations such as addition, subtraction, multiplication, division, etc. It also covers the concepts and techniques of binary arithmetic, complement systems, overflow detection, etc.
Chapter 8: Data Processing Circuits - This chapter covers the design and analysis of data processing circuits that perform various functions such as encoding, decoding, multiplexing, demultiplexing, etc. It also explains the concepts and techniques of parity checking, error detection and correction, etc.
Chapter 9: Memory Circuits - This chapter discusses the operation, characteristics, and applications of memory circuits that store information in binary form. It also covers the types and classifications of memory circuits based on their access mode, volatility, Memory Circuits
Memory circuits are devices that store information in binary form. They are essential for any digital system that needs to store and retrieve data. Memory circuits can be classified into different types based on their access mode, volatility, organization, and technology.
Access Mode
The access mode of a memory circuit refers to how the data can be read or written from or to the memory. There are two main types of access modes: random access and sequential access.
Random access memory (RAM) allows the data to be accessed in any order, regardless of their physical location in the memory. RAM is fast and flexible, but it consumes more power and space than sequential access memory. RAM is used for temporary storage of data that needs to be frequently accessed and modified, such as registers, caches, buffers, etc.
Sequential access memory (SAM) allows the data to be accessed only in a fixed order, depending on their physical location in the memory. SAM is slow and rigid, but it consumes less power and space than random access memory. SAM is used for permanent storage of data that does not need to be frequently accessed or modified, such as tapes, disks, CDs, etc.
Volatility
The volatility of a memory circuit refers to whether the data stored in the memory is retained or lost when the power supply is turned off. There are two main types of volatility: volatile and non-volatile.
Volatile memory loses its data when the power supply is turned off. Volatile memory is fast and cheap, but it requires a constant power source to maintain its data. Volatile memory is used for temporary storage of data that can be easily recreated or restored, such as RAM.
Non-volatile memory retains its data even when the power supply is turned off. Non-volatile memory is slow and expensive, but it does not require a constant power source to maintain its data. Non-volatile memory is used for permanent storage of data that cannot be easily recreated or restored, such as ROM, EEPROM, flash memory, etc.
Organization
The organization of a memory circuit refers to how the data is arranged and accessed in the memory. There are two main types of organization: addressable and non-addressable.
Addressable memory allows each bit or word of data to be individually accessed by specifying its unique address in the memory. Addressable memory is flexible and efficient, but it requires more hardware and logic to implement. Addressable memory is used for general-purpose storage of data that can be randomly accessed and manipulated, such as RAM and ROM.
Non-addressable memory does not allow each bit or word of data to be individually accessed by specifying its address in the memory. Non-addressable memory is simple and cheap, but it requires more software and time to implement. Non-addressable memory is used for special-purpose storage of data that can be sequentially accessed and processed, such as SAM.
Technology
The technology of a memory circuit refers to the physical device or material that is used to store the binary information in the memory. There are many types of technologies that are used for different types of memory circuits, such as magnetic, optical, semiconductor, etc.
Magnetic memory uses magnetic fields to store the binary information in the form of magnetized domains on a magnetic medium such as tape or disk. Magnetic memory is durable and cheap, but it is slow and bulky. Magnetic memory is used for sequential access non-volatile storage of large amounts of data, such as hard disks and floppy disks.
Optical memory uses light beams to store the binary information in the form of pits or marks on an optical medium such as CD or DVD. Optical memory is compact and portable, but it is fragile and sensitive. Optical memory is used for sequential access non-volatile storage of moderate amounts of data, such as CDs and DVDs.
Semiconductor memory uses electric charges to store the binary information in the form of capacitors or transistors on a semiconductor chip such as silicon or gallium arsenide. Semiconductor memory is fast and small, but it is expensive and volatile. Semiconductor memory is used for random access volatile or non-volatile storage of small amounts of data, such as RAM and flash memory.
Benefits of the Book
Digital Integrated Electronics by Taub and Schilling is a beneficial book for anyone who wants to learn more about digital integrated electronics. Some of the benefits of the book are:
Learning Outcomes
The book helps you to achieve the following learning outcomes:
Understand the basic principles and techniques of digital integrated electronics.
Analyze and design digital circuits and systems using various logic families and technologies.
Apply the concepts and skills of digital integrated electronics to solve real-world problems.
Evaluate the performance and limitations of different types of digital integrated circuits and systems.
Practical Applications
The book helps you to apply the knowledge and skills of digital integrated electronics to various practical applications, such as:
Computers and microprocessors - Digital integrated circuits are the building blocks of computers and microprocessors, which perform various functions such as data processing, control, communication, etc.
Communication systems - Digital integrated circuits are used to transmit and receive digital signals over various media such as wires, cables, optical fibers, radio waves, etc.
Instrumentation and measurement - Digital integrated circuits are used to measure and display various physical quantities such as voltage, current, temperature, pressure, etc.
Consumer electronics - Digital integrated circuits are used to operate various devices such as TVs, radios, cameras, phones, games, etc.
Career Opportunities
The book helps you to prepare for various career opportunities in the field of digital integrated electronics, such as:
Digital circuit designer - A digital circuit designer is responsible for designing and developing digital circuits and systems using various logic families and technologies.
Digital circuit tester - A digital circuit tester is responsible for testing and debugging digital circuits and systems using various tools and methods.
Digital circuit engineer - A digital circuit engineer is responsible for implementing and maintaining digital circuits and systems using various hardware and software components.
Digital circuit instructor - A digital circuit instructor is responsible for teaching and training students and professionals in the field of digital integrated electronics.
How to Get the Book for Free
If you are interested in getting the book for free in PDF format, you have two options: legal or illegal. However, we strongly advise you to choose the legal option, as the illegal option may involve risks and drawbacks that outweigh the benefits.
Legal Options
The legal options for getting the book for free in PDF format are:
Borrowing the book from a library - You can borrow the book from a library that has a copy of it. You can check the availability of the book in your local or online libraries using tools such as WorldCat or Google Books. You can also request the book from another library through interlibrary loan services. However, you may have to wait for a long time to get the book, or pay some fees for borrowing or requesting it.
Accessing the book from an open-access repository - You can access the book from an open-access repository that provides free access to academic books and articles. You can search for the book in various open-access repositories using tools such as DOAB or OAPEN. However, you may not find the latest or complete version of the book, or face some technical issues while downloading or viewing it.
Requesting the book from the authors or publishers - You can request the book from the authors or publishers directly by contacting them through email or phone. You can explain your purpose and interest in reading the book, and ask them if they can provide you with a free copy of it in PDF format. However, you may not get a positive or timely response from them, or face some legal or ethical issues while using their work.
Illegal Options
The illegal options for getting the book for free in PDF format are:
Downloading the book from a pirated website - You can download the book from a pirated website that provides free access to copyrighted books and articles. You can search for Downloading the book from a pirated website
You can download the book from a pirated website that provides free access to copyrighted books and articles. You can search for the book in various pirated websites using tools such as Library Genesis or Z-Library. However, you may face many risks and drawbacks by doing so, such as:
Legal risks - You may violate the intellectual property rights of the authors or publishers, and face legal consequences such as fines, lawsuits, or imprisonment.
Security risks - You may expose your device or network to malware, viruses, or hackers, and compromise your data or privacy.
Quality risks - You may get a low-quality or corrupted version of the book, and miss out on important information or features.
Ethical risks - You may harm the reputation and income of the authors or publishers, and discourage them from producing more valuable work.
Conclusion
Digital Integrated Electronics by Taub and Schilling is a great book for anyone who wants to learn more about digital integrated electronics. It covers the basic principles and techniques of digital integrated electronics, as well as the latest developments and trends in the field. It also provides a balanced and comprehensive treatment of both theory and practice, with an emphasis on applications and problem-solving.
The book has many features and benefits that make it a useful and enjoyable read. It has a clear and concise content overview, numerous examples and exercises, diagrams and illustrations, learning outcomes, practical applications, and career opportunities. It also helps you to prepare for your exams, projects, and career in the field of digital integrated electronics.
If you want to get the book for free in PDF format, you have two options: legal or illegal. However, we strongly advise you to choose the legal option, as the illegal option may involve risks and drawbacks that outweigh the benefits. The legal options include borrowing the book from a library, accessing the book from an open-access repository, or requesting the book from the authors or publishers.
We hope this article has given you a good overview of the book and its features, benefits, and availability. If you are interested in reading the book, we encourage you to get it legally and enjoy it. Happy reading!
FAQs
Q: What is the difference between digital integrated electronics and analog integrated electronics?
A: Digital integrated electronics uses discrete signals and binary values (0 or 1) to represent information. Analog integrated electronics uses continuous signals and variable voltages to represent information.
Q: What are some examples of digital integrated circuits?
A: Some examples of digital integrated circuits are logic gates, flip-flops, counters, registers, multiplexers, adders, etc.
Q: What are some advantages of digital integrated circuits over analog integrated circuits?
A: Some advantages of digital integrated circuits over analog integrated circuits are higher speed, lower power consumption, higher reliability, lower noise interference, easier scalability, etc.
Q: What are some disadvantages of digital integrated circuits over analog integrated circuits?
A: Some disadvantages of digital integrated circuits over analog integrated circuits are higher cost, higher complexity, lower resolution, lower dynamic range, etc.
Q: What are some applications of digital integrated electronics?
A: Some applications of digital integrated electronics are computers and microprocessors, communication systems, instrumentation and measurement, consumer electronics, etc. 71b2f0854b