The Design of CMOS Radio-Frequency Integrated CircuitsCambridge University Press, 22 dic 2003 This book, first published in 2004, is an expanded and thoroughly revised edition of Tom Lee's acclaimed guide to the design of gigahertz RF integrated circuits. A new chapter on the principles of wireless systems provides a bridge between system and circuit issues. The chapters on low-noise amplifiers, oscillators and phase noise have been significantly expanded. The chapter on architectures now contains several examples of complete chip designs, including a GPS receiver and a wireless LAN transceiver, that bring together the theoretical and practical elements involved in producing a prototype chip. Every section has been revised and updated with findings in the field and the book is packed with physical insights and design tips, and includes a historical overview that sets the whole field in context. With hundreds of circuit diagrams and homework problems this is an ideal textbook for students taking courses on RF design and a valuable reference for practising engineers. |
Dall'interno del libro
Risultati 1-5 di 81
Pagina xv
... derive from a set of notes used to teach a one - term ad- vanced graduate course on RF IC design at Stanford University . The course was a follow - up to a low - frequency analog IC design class , and this book therefore as- sumes that ...
... derive from a set of notes used to teach a one - term ad- vanced graduate course on RF IC design at Stanford University . The course was a follow - up to a low - frequency analog IC design class , and this book therefore as- sumes that ...
Pagina 2
... derive an equation that led to the prediction of electromag- netic wave propagation . Then came Heinrich Hertz , who was the first to verify experimentally Maxwell's prediction that electromagnetic waves exist and propagate with a ...
... derive an equation that led to the prediction of electromag- netic wave propagation . Then came Heinrich Hertz , who was the first to verify experimentally Maxwell's prediction that electromagnetic waves exist and propagate with a ...
Pagina 22
Hai raggiunto il limite di visualizzazione per questo libro.
Hai raggiunto il limite di visualizzazione per questo libro.
Pagina 78
Hai raggiunto il limite di visualizzazione per questo libro.
Hai raggiunto il limite di visualizzazione per questo libro.
Pagina 89
Hai raggiunto il limite di visualizzazione per questo libro.
Hai raggiunto il limite di visualizzazione per questo libro.
Sommario
1 | |
5 | |
7 | |
The Method of OpenCircuit Time Constants 234 | 22 |
OVERVIEW OF WIRELESS PRINCIPLES | 40 |
Risetime Delay and Bandwidth 259 | 53 |
ARCHITECTURES 694 | 66 |
PASSIVE RLC NETWORKS | 87 |
Dynamic Range 695 | 120 |
Zeros as Bandwidth Enhancers 271 | 131 |
PHASE NOISE 659 | 145 |
Problem Set 308 | 163 |
A REVIEW OF MOS DEVICE PHYSICS | 167 |
Review of Diode Behavior 314 | 183 |
Problem Set 328 | 198 |
DISTRIBUTED SYSTEMS | 202 |
Problem Set 266 | 107 |
CHARACTERISTICS OF PASSIVE IC COMPONENTS | 114 |
THE SMITH CHART AND SPARAMETERS 221 | 210 |
Altre edizioni - Visualizza tutto
Parole e frasi comuni
amplifier amplitude antenna approximately Armstrong assume audion band bandwidth baseband bias bondwire C₁ capacitance carrier cathode cellular channel circuit CMOS coefficient compute conductor coupling data rates demodulation density derive detector device diode doped drain current electrons engineers envelope detector equation example factor filament filter flux formula function gate grid IEEE impedance transformation increases inductance inductor input integrated circuit interconnect invented L-match limit load magnetic magnitude Marconi matching maximum metal layers method mobile modulation modulation index MOSFET multiple operation oscillator output oxide parallel parameter parasitic phase phase-shift keying plate problem quadrature radio resistor result RLC network series resistance sideband signal simply skin depth skin effect spectrum spiral inductor substrate symbol tapped transformer temperature term terminal tion transconductance transformation ratio transistor transmitter triode typically vacuum tube voltage wavelength wire wireless zero