Digital Electronics and Logic Design by N G Palan: A Comprehensive Guide for Students and Professionals
Digital Electronics and Logic Design by N G Palan: A Comprehensive Guide for Students and Professionals
Digital electronics and logic design are two fundamental topics in the field of electrical and computer engineering. They deal with the principles, techniques, and applications of digital circuits and systems, such as binary arithmetic, Boolean algebra, logic gates, combinational and sequential logic, registers, counters, memory devices, microprocessors, and more.
digital electronics and logic design n g palan free download pdf
If you are looking for a reliable and comprehensive source of information on these topics, you may want to check out the book Digital Electronics and Logic Design by N G Palan. This book covers both the theoretical and practical aspects of digital electronics and logic design, with numerous examples, exercises, and solved problems. It also includes chapters on VHDL, Verilog, PLDs, FPGAs, and digital system design using CAD tools.
The best part is that you can download this book for free from the Internet Archive website[^1^]. All you need is a compatible device and an Internet connection. You can also read it online or borrow it for 14 days. This way, you can access this valuable resource without spending any money or waiting for delivery.
Whether you are a student, a teacher, or a professional in the field of digital electronics and logic design, you will find this book useful and informative. It will help you learn the concepts, principles, and applications of digital electronics and logic design in a clear and systematic way. It will also help you prepare for exams, projects, and interviews.
So what are you waiting for? Download Digital Electronics and Logic Design by N G Palan today and start learning!
In this article, we will give you a brief overview of the contents of Digital Electronics and Logic Design by N G Palan. The book is divided into 15 chapters, each covering a specific topic in digital electronics and logic design. Here are the main topics covered in each chapter:
Chapter 1: Introduction to Digital Electronics. This chapter introduces the basic concepts and terminology of digital electronics, such as analog and digital signals, binary numbers, hexadecimal numbers, octal numbers, BCD numbers, codes, and code conversion.
Chapter 2: Boolean Algebra and Logic Gates. This chapter covers the fundamentals of Boolean algebra and logic gates, such as truth tables, logic expressions, logic simplification, De Morgan's theorems, Karnaugh maps, NAND and NOR gates, and universal gates.
Chapter 3: Combinational Logic Circuits. This chapter deals with the design and analysis of combinational logic circuits, such as adders, subtractors, comparators, multiplexers, demultiplexers, encoders, decoders, parity generators and checkers, and code converters.
Chapter 4: Sequential Logic Circuits. This chapter covers the basics of sequential logic circuits, such as flip-flops, latches, registers, counters, shift registers, and state diagrams.
Chapter 5: Memory Devices. This chapter explains the working and applications of various types of memory devices, such as ROMs, PROMs, EPROMs, EEPROMs, RAMs, SRAMs, DRAMs, and flash memories.
Chapter 6: Programmable Logic Devices. This chapter introduces the concept and features of programmable logic devices (PLDs), such as PALs, GALs, CPLDs, and FPGAs.
Chapter 7: VHDL. This chapter teaches the basics of VHDL (VHSIC Hardware Description Language), a standard language for describing and simulating digital systems. It covers the syntax and semantics of VHDL, data types and objects, operators and expressions, concurrent and sequential statements, subprograms and packages, libraries and configurations.
Chapter 8: Verilog. This chapter teaches the basics of Verilog (Verilog Hardware Description Language), another standard language for describing and simulating digital systems. It covers the syntax and semantics of Verilog,
data types and objects,
operators and expressions,
concurrent and sequential statements,
subprograms and packages,
libraries and configurations.
Chapter 9: Digital System Design Using CAD Tools. This chapter demonstrates how to use CAD (Computer-Aided Design) tools for designing and testing digital systems. It covers the steps involved in digital system design using CAD tools,
such as specification,
design entry,
simulation,
synthesis,
implementation,
and verification.
Chapter 10: Number Systems and Codes. This chapter reviews the concepts of number systems and codes that were introduced in Chapter 1. It also covers some additional topics,
such as arithmetic operations in different number systems,
floating-point numbers,
error detection and correction codes,
and Hamming codes.
Chapter 11: Arithmetic Circuits. This chapter expands on the topic of arithmetic circuits that was covered in Chapter 3. It also covers some advanced topics,
such as fast adders,
binary multipliers,
binary dividers,
and arithmetic logic units (ALUs).
Chapter 12: Logic Families. This chapter explains the characteristics and features of various types of logic families,
such as TTL (Transistor-Transistor Logic),
CMOS (Complementary Metal-Oxide-Semiconductor),
ECL (Emitter-Coupled Logic),
and BiCMOS (Bipolar-CMOS).
Chapter 13: A/D and D/A Converters. This chapter describes the principles and applications of analog-to-digital (A/D) and digital-to-analog (D/A) converters. It covers the types and specifications of A/D and D/A converters,
such as resolution,
accuracy,
speed,
and power consumption.
It also covers some common techniques for A/D and D/A conversion,
such as parallel conversion,
counter-ramp conversion,
successive approximation conversion,
flash conversion,
dual-slope conversion,
weighted-resistor D/A conversion,
R-2R ladder D/A conversion,
and sigma-delta conversion.
Chapter 14: Microprocessors. This chapter introduces the concept and architecture of microprocessors. It covers the basic components and functions of a microprocessor system,
such as CPU (Central Processing Unit),
ALU (Arithmetic Logic Unit), e0e6b7cb5c