Microelectronics: Circuit Analysis and Design, 4/e (Paperback)

Donald A. Neamen

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PHILOSOPHY AND GOALS
Microelectronics: Circuit Analysis and Design is intended as a core text in electronics for undergraduate electrical and computer engineering students. The purpose of the fourth edition of the book is to continue to provide a foundation for analyzing and designing both analog and digital electronic circuits. A goal is to make this book very readable and student-friendly.

Most electronic circuit design today involves integrated circuits (ICs), in which the entire circuit is fabricated on a single piece of semiconductor material. The IC can contain millions of semiconductor devices and other elements and can perform complex functions. The microprocessor is a classic example of such a circuit. The ultimate goal of this text is to clearly present the operation, characteristics, and limitations of the basic circuits that form these complex integrated circuits. Although most engineers will use existing ICs in specialized design applications, they must be aware of the fundamental circuit's characteristics in order to understand the operation and limitations of the IC.

Initially, discrete transistor circuits are analyzed and designed. The complexity of circuits being studied increases throughout the text so that, eventually, the reader should be able to analyze and design the basic elements of integrated circuits, such as linear amplifiers and digital logic gates.

This text is an introduction to the complex subject of electronic circuits. Therefore, more advanced material is not included. Specific technologies, such as
gallium arsenide, which is used in special applications, are also not included, although reference may be made to a few specialized applications. Finally, the
layout and fabrication of ICs are not covered, since these topics alone can warrant entire texts.

DESIGN EMPHASIS

  • Design is the heart of engineering. Good design evolves out of considerable experience with analysis. In this text, we point out various characteristics and properties of circuits as we go through the analysis. The objective is to develop an intuition that can be applied to the design process.
  • Many design examples, design exercise problems, and end-of-chapter design problems are included in this text. The end-of-chapter design problems are designated with a 'D'. Many of these examples and problems have a set of specifications that lead to a unique solution. Although engineering design in its truest sense does not lead to a unique solution, these initial design examples and problems are a first step, the author believes, in learning the design process. A separate section, Design Problems, found in the end-of-chapter problems, contains open-ended design problems.

 

NEW TO THE FOURTH EDITION
RETAINED FEATURES OF THE TEXT

  • Addition of over 250 new Exercise and Test Your Understanding Problems.
  • Addition of over 580 new end-of-chapter problems.
  • Addition of over 50 new open-ended Design Problems in the end-of-chapter problems sections.
  • Addition of over 65 new Computer Simulation Problems in the end-of-chapter problems sections.
  • Voltage levels in circuits were updated to more closely match modem day electronics.
  • MOSFET device parameters were updated to more closely match modern day electronics.
  • Chapter 9 was rewritten such that ideal op-amp circuits can be studied as a first topic in electronics.
  • Maintained the mathematical rigor necessary to more clearly understand basic circuit operation and characteristics.
  •  A short introduction at the beginning of each chapter links the new chapter to the material presented in previous chapters. The objectives of the Chapter, i.e., what the reader should gain from the chapter, are presented in the Preview section and are listed in bullet form for easy reference.
  • Each major section of a chapter begins with a restatement of the objective for this portion of the chapter.
  • An extensive number of worked examples are used throughout the text to reinforce the theoretical concepts being developed. These examples contain all the details of the analysis or design, so the reader does not have to fill in missing steps.
  • An Exercise Problem follows each example. The exercise problem is very similar to the worked example so that readers can immediately test their understanding of the material just covered. Answers are given for each exercise problem so readers do not have to search for an answer at the end of the book. These exercise problems will reinforce readers' grasp of the material before they move on to the next section.
  • Test Your Understanding exercise problems are included at the end of most major sections of the chapter. These exercise problems are, in general, more comprehensive that those presented at the end of an example. These problems will also reinforce readers' grasp of the material before they move on to the next section. Answers to these exercise problems are also given.
  • Problem Solving Techniques are given throughout each chapter to assist the reader in analyzing circuits. Although there can be more than one method of solving a problem, these Problem Solving Techniques are intended to help the reader get started in the analysis of a circuit.
  • A Design Application is included as the last section of each chapter. A specific electronic design related to that chapter is presented. Over the course of the book, students will learn to build circuits for an electronic thermometer. Though not every Design Application deals with the thermometer, each application illustrates how students will use design in the real world.
  • A Summary section follows the text of each chapter. This section summarizes the overall results derived in the chapter and reviews the basic concepts developed. The summary section is written in bullet form for easy reference.
  • A Checkpoint section follows the Summary section. This section states the goals that should have been met and states the abilities the reader should have gained. The Checkpoints will help assess progress before moving to the next chapter.
  • A list of review questions is included at the end of each chapter. These questions serve as a self-test to help the reader determine how well the concepts developed in the chapter have been mastered.
  • A large number of problems are given at the end of each chapter, organized according to the subject of each section. Many new problems have been incorporated into the fourth edition. Design oriented problems are included as well as problems with varying degrees of difficulty. A "D' indicates design-type problems, and an asterisk (*) indicates more difficult problems. Separate computer simulation problems and open-ended design problems are also included.
  • Answers to selected problems are given in Appendix E. Knowing the answer to a problem can aid and reinforce the problem solving ability.
  • Manufacturers' data sheets for selected devices and circuits are given in Appendix B. These data sheets should allow the reader to relate the basic concepts and circuit characteristics studied to real circuit characteristics and limitations.

商品描述(中文翻譯)

描述

哲學和目標

微電子學:電路分析與設計是為本科電氣和計算機工程學專業的學生而設計的核心教材。本書的第四版旨在繼續為分析和設計模擬和數字電子電路提供基礎。我們的目標是使本書易讀且學生友好。



如今,大多數電路設計都涉及集成電路(IC),其中整個電路都在一塊半導體材料上製造。IC可以包含數百萬個半導體器件和其他元件,並能執行複雜的功能。微處理器就是這樣一個經典的電路。本書的最終目標是清晰地介紹構成這些複雜集成電路的基本電路的操作、特性和限制。儘管大多數工程師在專業設計應用中會使用現有的IC,但他們必須了解基本電路的特性,以便理解IC的操作和限制。



首先,我們會分析和設計離散的晶體管電路。隨著學習的深入,所研究的電路的複雜性也會增加,最終讀者應該能夠分析和設計集成電路的基本元件,如線性放大器和數字邏輯閘。



本書是電子電路這一複雜主題的入門。因此,不包括更高級的材料。特定的技術,如用於特殊應用的砷化鎵,也不包括在內,儘管可能會提到一些專門的應用。最後,本書不涵蓋IC的佈局和製造,因為這些主題本身就可以成為一整本書的內容。



設計重點


  • 設計是工程的核心。良好的設計源於對分析的豐富經驗。在本書中,我們在分析過程中指出電路的各種特性和性質。目標是培養一種可以應用於設計過程的直覺。

  • 本書包含許多設計示例、設計練習問題和章末設計問題。章末設計問題以“D”標記。這些示例和問題中的許多都有一組導致唯一解的規格。儘管工程設計在其最真實的意義上並不會導致唯一解,但這些初始的設計示例和問題是學習設計過程的第一步,作者認為。在章末問題中的一個單獨部分,設計問題,包含開放式的設計問題。

 

第四版的新增內容

保留的特點


  • 新增了250多個練習和測試理解問題。

  • 新增了580多個章末問題。

  • 新增了50多個開放式設計問題在章末問題部分。

  • 新增了65多個計算機模擬問題在章末問題部分。

  • 更新了電路中的電壓水平,以更貼近現代電子技術。

  • 更新了MOSFET器件參數,以更貼近現代電子技術。

  • 重寫了第9章,使得理想運算放大器電路可以作為電子學的第一個主題進行研究。

  • 保持了數學嚴謹性,以更清晰地理解基本電路的操作和特性。

  • 每章的開頭都有一個簡短的介紹,將新章節與之前的章節內容相關聯。

作者簡介

Donald A. Neamen, University of New Mexico

作者簡介(中文翻譯)

Donald A. Neamen, 新墨西哥大學

目錄大綱

Table of Contents
PROLOGUE TO ELECTRONICS
PART 1 SEMICONDUCTOR DEVICES AND BASIC APPLICATIONS

Chapter 1 Semiconductor Materials and Diodes
Chapter 2 Diode Circuits
Chapter 3 The Field-Effect Transistor 
Chapter 4 Basic FET Amplifiers
Chapter 5 The Bipolar Junction Transistor 
Chapter 6 Basic BJT Amplifiers 
Chapter 7 Frequency Response 
Chapter 8 Output Stages and Power Amplifiers 

PROLOGUE II PROLOGUE TO ELECTRONIC DESIGN
PART 2 ANALOG ELECTRONICS 
Chapter 9 Ideal Operational Amplifiers and Op-Amp Circuits
Chapter 10 Integrated Circuit Biasing and Active Loads
Chapter 11 Differential and Multistage Amplifiers
Chapter 12 Feedback and Stability 
Chapter 13 Operational Amplifier Circuits 
Chapter 14 Nonideal Effects in Operational Amplifier Circuits 
Chapter 15 Applications and Design of Integrated Circuits

PROLOGUE III PROLOGUE TO DIGITAL ELECTRONICS
PART 3 DIGITAL ELECTRONICS

Chapter 16 MOSFET Digital Circuits
Chapter 17 Bipolar Digital Circuits

目錄大綱(中文翻譯)

目錄

前言:電子學

第一部分:半導體器件和基本應用

第1章:半導體材料和二極體

第2章:二極體電路

第3章:場效應電晶體

第4章:基本場效應電晶體放大器

第5章:雙極接面電晶體

第6章:基本雙極接面電晶體放大器

第7章:頻率響應

第8章:輸出級和功率放大器



前言 II:電子設計前言

第二部分:類比電子學

第9章:理想運算放大器和運算放大器電路

第10章:集成電路偏壓和主動負載

第11章:差動和多級放大器

第12章:反饋和穩定性

第13章:運算放大器電路

第14章:運算放大器電路中的非理想效應

第15章:集成電路的應用和設計



前言 III:數位電子學前言

第三部分:數位電子學

第16章:MOSFET數位電路

第17章:雙極數位電路