The Acclaimed RF Microelectronics Best-Seller, Expanded and Updated for the Newest Architectures, Circuits, and Devices Wireless communication has become almost as ubiquitous as electricity, but RF design continues to challenge engineers and researchers. In the 15 years since the first edition of this classic text, the demand for higher performance has led to an explosive growth of RF design techniques. In "RF Microelectronics, Second Edition, " Behzad Razavi systematically teaches the fundamentals as well as the state-of-the-art developments in the analysis and design of RF circuits and transceivers. Razavi has written the second edition to reflect today's RF microelectronics, covering key topics in far greater detail. At nearly three times the length of the first edition, the second edition is an indispensable tome for both students and practicing engineers. With his lucid prose, Razavi now Offers a stronger tutorial focus along with hundreds of examples and problems Teaches design as well as analysis with the aid of step-by-step design procedures and a chapter dedicated to the design of a dual-band WiFi transceiver Describes new design paradigms and analysis techniques for circuits such as low-noise amplifiers, mixers, oscillators, and frequency dividers This edition's extensive coverage includes brand new chapters on mixers, passive devices, integer-N synthesizers, and fractional-N synthesizers. Razavi's teachings culminate in a new chapter that begins with WiFi's radio specifications and, step by step, designs the transceiver at the transistor level. Coverage includes Core RF principles, including noise and nonlinearity, with ties to analog design, microwave theory, and communication systems An intuitive treatment of modulation theory and wireless standards from the standpoint of the RF IC designer Transceiver architectures such as heterodyne, sliding-IF, directconversion, image-reject, and low-IF topologies. Low-noise amplifiers, including cascode common-gate and commonsource topologies, noise-cancelling schemes, and reactance-cancelling configurations Passive and active mixers, including their gain and noise analysis and new mixer topologies Voltage-controlled oscillators, phase noise mechanisms, and various VCO topologies dealing with noisepower-tuning trade-offs All-new coverage of passive devices, such as integrated inductors, MOS varactors, and transformers A chapter on the analysis and design of phase-locked loops with emphasis on low phase noise and low spur levels Two chapters on integer-N and fractional-N synthesizers, including the design of frequency dividers Power amplifier principles and circuit topologies along with transmitter architectures, such as polar modulation and outphasing Editorial Reviews From the Inside Flap Preface The annual worldwide sales of cellular phones has exceeded $2.5B. With 4.5 million customers, home satellite networks comprise a $2.5B industry. The global positioning system is expected to become a $5B market by the year 2000. In Europe, the sales of equipment and services for mobile communications will reach $30B by 1998. The statistics are overwhelming. The radio frequency (RF) and wireless market has suddenly expanded to unimaginable dimensions. Devices such as pagers, cellular and cordless phones, cable modems, and RF identification tags are rapidly penetrating all aspects of our lives, evolving from luxury items to indispensable tools. Semiconductor and system companies, small and large, analog and digital, have seen the statistics and are striving to capture their own market share by introducing various RF products. RF design is unique in that it draws upon many disciplines unrelated to integrated circuits (ICs). The RF knowledge base has grown for almost a century, creating a seemingly endless body of literature for the novice. This book deals with the analysis and design of RF integrated circuits and systems. Providing a systematic treatment of RF electronics in a tutorial language, the book begins with the necessary background knowledge from microwave and communication theory and leads the reader to the design of RF transceivers and circuits. The text emphasizes both architecture and circuit level issues with respect to monolithic implementation in VLSI technologies. The primary focus is on bipolar and CMOS design, but most of the concepts can be applied to other technologies as well. The reader is assumed to have a basic understanding of analog IC design and the theory of signals and systems. The book consists of nine chapters. Chapter 1 gives a general introduction, posing questions and providing motivation for subsequent chapters. Chapter 2 describes basic concepts in RF and microwave design, emphasizing the effects of nonlinearity and noise. Chapters 3 and 4 take the reader to the communication system level, giving an overview of modulation, detection, multiple access techniques, and wireless standards. While initially appearing to be unnecessary, this material is in fact essential to the concurrent design of RF circuits and systems. Chapter 5 deals with transceiver architectures, presenting various receiver and transmitter topologies along with their merits and drawbacks. This chapter also includes a number of case studies that exemplify the approaches taken in actual RF products. Chapters 6 through 9 address the design of RF building blocks: low-noise amplifiers and mixers, oscillators, frequency synthesizers, and power amplifiers , with particular attention to minimizing the number of off-chip components. An important goal of these chapters is to demonstrate how the system requirements define the parameters of the circuits and how the performance of each circuit impacts that of the overall transceiver. I have taught approximately 80% of the material in this book in a 4-unit graduate course at UCLA. Chapters 3, 4, 8, and 9 had to be shortened in a ten-week quarter, but in a semester system they can be covered more thoroughly. Much of my RF design knowledge comes from interactions with colleagues.Helen Kim, Ting-Ping Liu, and Dan Avidor of Bell Laboratories, and David Su and Andrew Gzegorek of Hewlett-Packard Laboratories have contributed to the material in this book in many ways. The text was also reviewed by a number of experts: Stefan Heinen (Siemens), Bart Jansen (Hewlett-Packard), Ting-Ping Liu (Bell Labs), John Long (University of Toronto), Tadao Nak-agawa (NTT), Gitty Nasserbakht (Texas Instruments), Ted Rappaport (Virginia Tech), Tirdad Sowlati (Gennum), Trudy Stetzler (Bell Labs), David Su (Hewlett-Packard), and Rick Wesel (UCLA). In addition, a number of UCLA students, including Farbod Behbahani, Hooman Darabi, John Leete, and Jacob Rael, test drove various chapters and provided useful feedback. I am indebted to all of the above for their kind assistance. I would also like to thank the staff at Prentice Hall, particularly Russ Hall, Maureen Diana, and Kerry Reardon for their support.Behzad RazaviJuly 1997 --This text refers to an alternate Hardcover edition.

Verilog HDL数字设计与综合（第二版），ISBN：9787121004681，作者：（美）帕尔尼卡（Palnitkar,S.） 著，夏宇闻 等译；夏宇闻译

本书的主要内容包括：集成电路有源器件模型，双极型、MOS、BiCMOS集成电路技术，单晶体管和多晶体管放大器，电流镜、有源负载及其电压和电流参考值，输出级，单端输出的运算放大器，集成电路的频率响应，反馈，反馈放大器的频率响应与稳定性，非线性模拟电路，集成电路中的噪声，全差分运算放大器。本书可用作高等学校电子信息类本科生的教材或参考书。

《清华版双语教学用书·模拟集成电路设计精粹》作者首先对MOST和BJT两种器件模型进行了分析和比较，然后以此为两条线索，分别介绍了相应的基本单元电路和各类放大器的详细分析，随后的章节分别研究噪声、失真、滤波器、ADC／DAC和振荡器电路，每一章都结合MOST和BJT两种类型电路进行分析比较。《清华版双语教学用书·模拟集成电路设计精粹》一方面侧重于基础知识，对模拟和混合信号集成电路中的许多重要概念以直观形象的语言进行了描述。另一方面又侧重介绍与现代集成电路工艺相关的最新电路的研究方向和热点。

在“史上更难就业年”里，此书写给软件、微电子、通信、自动化、电子工程、半导体工艺、材料、计算机、物理、化学等专业，并有意加入IC行业的同学和刚入IC职场的“菜鸟”们。 70多位IC圈的CEO、总监、高级经理及资深工程师倾力打造此书，循循善诱：“看，当年我找工作也是懵懵懂懂的；第一次跳槽也是惶恐不安的；第一次失恋也是痛彻心扉的；第一次做管理也是手足无措的……我们也是这样过来的，我们行，你也行！” 对于IC行业，官员和专家CEO讲“政策、技术、管理、资本”，本书却从猎头的角度告诉你“HR和公司喜欢什么样的人才，菜鸟的职业规划路线，成为高手必备的心态和准备，大牛的情商管理经验，IC产业链以及各个主要公司等”，对IC菜鸟关心却不知咨询谁的“鸡毛蒜皮”问题娓娓道来。

《CMOS模拟集成电路设计》(第2版)通过大量设计实例阐述设计原理，将理论与实践融为一体，同时还针对许多工业界人士的需求和问题进行了分析和解释，因而《CMOS模拟集成电路设计》(第2版)不仅可以用做大专院校相关专业高年级本科生和研究生的教材，也可以作为半导体的集成电路设计领域技术人员很有价值的参考书。

《模拟电路版图的艺术》（第2版）以实用和权威性的观点全面论述了模拟集成电路版图设计中所涉及的各种问题及目前的最新研究成果。书中介绍了半导体器件物理与工艺、失效机理等内容；基于模拟集成电路设计所采用的3种基本工艺：标准双极工艺、CMOS硅栅工艺和BiCMOS工艺，重点探讨了无源器件的设计与匹配性问题，二极管设计，双极型晶体管和场效应晶体管的设计与应用，以及某些专门领域的内容，包括器件合并、保护环、焊盘制作、单层连接、ESD结构等；最后介绍了有关芯片版图的布局布线知识。