Download Basic Electronics by Sudhakar Samuel PDF for Free: A Review of the Book and its Contents
Basic Electronics Sudhakar Samuel Pdf 322: A Comprehensive Guide
If you are looking for a book that covers the basics of electronics engineering in a simple and concise manner, then you might want to check out Basic Electronics by Sudhakar Samuel. This book is designed for undergraduate students of engineering, as well as hobbyists and enthusiasts who want to learn more about the fascinating world of electronics. In this article, we will give you a comprehensive guide on what this book is about, what topics it covers, what benefits you can get from reading it, and how you can download it in PDF format.
Basic Electronics Sudhakar Samuel Pdf 322
Introduction
Before we dive into the details of the book, let us first understand some background information about basic electronics, Sudhakar Samuel, and the book itself.
What is basic electronics?
Basic electronics is a branch of engineering that deals with the study of electronic components, circuits, and systems. It involves understanding the principles and applications of various devices such as diodes, transistors, amplifiers, oscillators, logic gates, memory chips, etc. Basic electronics also covers topics such as analog and digital signals, binary arithmetic, Boolean algebra, logic design, etc.
Basic electronics is an essential foundation for anyone who wants to pursue a career or a hobby in electronics engineering. It helps you to develop analytical thinking, problem-solving skills, and creativity. It also enables you to design, build, test, and troubleshoot electronic circuits and systems for various purposes.
Who is Sudhakar Samuel?
Sudhakar Samuel was a professor of electronics and communication engineering at SJ College of Engineering in Mysore, India. He had over 30 years of teaching experience and was known for his innovative and illustrative approach to teaching. He authored several books on electronics engineering, such as Electronic Circuits, Logic Design, Digital Logic Design, etc. He also contributed to various journals and conferences on topics related to electronics engineering.
Sudhakar Samuel passed away in 2009 due to a cardiac arrest. He is remembered by his students and colleagues as a dedicated teacher, a passionate researcher, and a humble person.
What is the book about?
Basic Electronics by Sudhakar Samuel is a book that covers the fundamentals of electronics engineering in a clear and concise manner. It was published by Pearson-Sanguine in 2011. The book has seven chapters that cover topics such as semiconductor diodes and their applications, bipolar junction transistors and their configurations, field effect transistors and their characteristics, amplifiers and oscillators, operational amplifiers and their applications, digital logic and combinational circuits, and sequential circuits and memory devices.
The book is written in a simple and lucid language, with plenty of diagrams, examples, and exercises to help the readers understand the concepts and apply them in practice. The book also includes review questions, multiple choice questions, and objective type questions at the end of each chapter to test the knowledge and skills of the readers. The book is suitable for undergraduate students of engineering, as well as hobbyists and enthusiasts who want to learn more about basic electronics.
Chapter-wise summary of the book
In this section, we will give you a brief summary of each chapter of the book, highlighting the main topics and concepts covered in each chapter.
Chapter 1: Semiconductor Diodes and their Applications
This chapter introduces the concept of semiconductors, which are materials that have electrical conductivity between that of conductors and insulators. The chapter explains the types of semiconductors, such as intrinsic and extrinsic semiconductors, and the doping process that alters their conductivity. The chapter also discusses the formation and characteristics of p-n junctions, which are the basic building blocks of semiconductor devices.
The chapter then describes the working and applications of various types of semiconductor diodes, such as rectifier diodes, zener diodes, light emitting diodes, photodiodes, etc. The chapter also explains the concepts of rectification, filtering, regulation, clipping, clamping, etc., which are some of the common functions performed by diodes in electronic circuits.
Chapter 2: Bipolar Junction Transistors and their Configurations
This chapter introduces the concept of bipolar junction transistors (BJTs), which are three-terminal semiconductor devices that can amplify or switch electrical signals. The chapter explains the structure and operation of BJTs, such as npn and pnp transistors, and the modes of operation, such as active, cut-off, and saturation modes. The chapter also discusses the characteristics and parameters of BJTs, such as current gain, voltage gain, input impedance, output impedance, etc.
The chapter then describes the working and applications of various configurations of BJTs, such as common base (CB), common emitter (CE), and common collector (CC) configurations. The chapter also explains the concepts of biasing, load line analysis, operating point selection, etc., which are essential for designing and analyzing BJT circuits.
Chapter 3: Field Effect Transistors and their Characteristics
This chapter introduces the concept of field effect transistors (FETs), which are three-terminal semiconductor devices that can amplify or switch electrical signals by controlling the electric field in a channel. The chapter explains the structure and operation of FETs, such as junction field effect transistors (JFETs) and metal oxide semiconductor field effect transistors (MOSFETs), and the types of FETs, such as n-channel and p-channel FETs. The chapter also discusses the characteristics and parameters of FETs, such as transconductance, drain resistance, input impedance, output impedance, etc.
The chapter then describes the working and applications of various configurations of FETs, such as common source (CS), common drain (CD), and common gate (CG) configurations. The chapter also explains the concepts of biasing, load line analysis, operating point selection, etc., which are essential for designing and analyzing FET circuits.
Chapter 4: Amplifiers and Oscillators
This chapter introduces the concept of amplifiers and oscillators, which are electronic circuits that can increase or generate electrical signals. The chapter explains the types and classifications of amplifiers, such as voltage amplifiers, current amplifiers, power amplifiers, small signal amplifiers, large signal amplifiers, class A amplifiers, class B amplifiers, class AB amplifiers, class C amplifiers, etc. The chapter also discusses the characteristics and parameters of amplifiers, such as gain, bandwidth, efficiency, distortion, feedback, etc. The chapter then describes the working and applications of various types of oscillators, such as sinusoidal oscillators, relaxation oscillators, RC oscillators, LC oscillators, crystal oscillators, etc. The chapter also explains the concepts of oscillation criteria, frequency stability, phase shift, tuning range, etc., which are essential for designing and analyzing oscillator circuits.
Chapter 5: Operational Amplifiers and their Applications
This chapter introduces the concept of operational amplifiers (op-amps), which are integrated circuits that can perform various mathematical operations on electrical signals. The chapter explains the structure and operation of op-amps, such as ideal op-amps, practical op-amps, inverting op-amps, non 71b2f0854b