INTEGRATED CIRCUITS FOR WIRELESS COMMUNICATIONS

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Ouvrage 0-7803-3459-0 : INTEGRATED CIRCUITS FOR WIRELESS COMMUNICATIONS
Edited by three engineering professors from two U. of California campuses, this important resource reprints 107 classic and seminal papers in the field from IEEE (Institute of Electric and Electronic Engineers) publications, 1956-97, organized into eight chapters on the boom area of high-frequency integrated circuit design. The introduction overviews the state-of-the-art, design challenges, and future directions in mobile personal wireless communications. The other chapters cover: transmitter and receiver architectures; receivers; transmitters and transceivers; power amplifiers and RF switches; oscillators; components, technology, and modeling; and system applications. Annotation c. by Book News, Inc., Portland, Or.
Table of Contents Foreword
Ch. 1
Introduction and Overview
1
Low Power Radio-Frequency ICs for Portable
Communications
3
Future Directions in Silicon ICs for RF Personal
Communications
29
The Challenges for Analogue Circuit Design in Mobile
Radio VLSI Chips
37
Ch. 2
Transmitter and Receiver Architectures
43
A Third Method of Generation and Detection of
Single-Sideband Signals
45
The Phasing Method for Sideband Selection in
Broadcast Receivers
48
FM Receivers for Mono and Stereo on a Single Chip
55
Advanced Low Voltage Single Chip Radio IC
69
Fully Integrated Radio Paging Receiver
80
A Single-Chip VHF and UHF Receiver for Radio
Paging
85
Linear Transceiver Architectures
92
Direct Conversion Transceiver Design for Compact
Low-Cost Portable Mobile Radio Terminals
99
A New Incoherent Direct Conversion Receiver
105
Personal Communications Transceiver Architectures
for Monolithic Integration
112
An All-CMOS Architecture for a Low-Power Frequency-Hopped 900 MHz Spread Spectrum Transceiver
118
Spread-Spectrum Technology for Commercial
Applications
122
Digital-Conversion Radio Transceivers for Digital
Communications
135
A New Radio Receiver System for Personal Communications
147
Ch. 3
Receivers
155
Receiver RF Design Considerations for Wireless
Communications Systems
157
Design and Performance of Low-Current GaAs
MMIC's for L-Band Front-End Applications
161
Ultra-Low DC Power Consumptions in Monolithic
L-Band Components
167
GaAs Monolithic 1.5-2.5 GHz Image Rejection
Receiver
173
Low Power GaAs ICS for Mobile Communication
Equipment
177
Ultra Low Power Low Noise Amplifiers for Wireless
Communications
183
Low Current GaAs Integrated Down Converter for
Portable Communication Applications
186
X-Band Monolithic Series Feedback LNA
190
An RF Front-End for Digital Mobile Radio
197
A Si Bipolar Monolithic RF Bandpass Amplifier
201
A 1-GHz BiCMOS RF Front-End IC
206
A One-Chip 2GHz Single Superhet Receiver for
2Mb/s FSK Radio Communication
212
A Low-Voltage Silicon Bipolar RF Front-End for
PCN Receiver Applications
215
A Highly Linear 1-GHz CMOS Downconversion
Mixer
218
A 1.5 GHz Highly Linear CMOS Downconversion
Mixer
222
A Fully Integrated 900 MHz CMOS Double Quadrature Downconverter
229
Design Techniques for 1GHz Downconversion ICs Fabricated in a 1 [mu]m 13 GHz BICMOS Process
232
A 1 GHz CMOS RF Front-End IC for a Direct-Conversion Wireless Receiver
248
A 100 MHz IF Amplifier/Quadrature Demodulator for
GSM Cellular Radio Mobile Terminals
258
A Cellular Analog Front End with a 98dB IF Receiver
262
A 270-kb/s 35-m W Modulator IC for GSM Cellular
Radio Hand-Held Terminals
265
A CMOS Limiting Amplifier and Signal-Strength
Indicator
273
Characteriation of a Microwave Silicon single-Chip
Direct Conversion RF Transceiver
275
A Single-Chip GaAs RF Transceiver for 1.9-GHz
Digital Mobile Communication Systems
287
A 1.9-GHz Single Chip IF Transceiver for Digital
Cordless Phones
296
A Direct-Conversion Receiver for 900 MHz (ISM
Band) Spread-Spectrum Digital Cordless Telephone
302
A 2.7-V 900-MHz CMOS LNA and Mixer
311
A 12 mW Wide Dynamic Range CMOS Front-End
for a Portable GPS Receiver
317
Ch. 4
Transmitters and Transceivers
321
An Integrated Si Bipolar RF Transceiver for a Zero IF
900 MHz GSM Digital Mobile Radio Frontend of a
Hand Portable Phone
323
BBTRX: A Baseband Transceiver for a Zero IF G5M
Hand Portable Station
327
A 2.7V 800 MHz-2.1 GHz Transceiver Chipset for
Mobile Radio Applications in 25 GHz ft Si-Bipolar
331
An Analog Radio Frontend Chip Set for a 1.9 GHz
Mobile Radio Telephone Application
335
A 900 MHz Transceiver Chip Set for Dual-Mode
Cellular Mobil Terminals
338
A 2.7V to 4.5V Single-Chip GSM Transceiver RF
Integrated Circuit
341
A 2.7V GSM Transceiver ICs with On-Chip Filtering
344
A 2.4 GHz Single Chip Transceiver
347
The Future of CMOS Wireless Transceivers
351
A 1.9 GHz Wide-Band IF Double Conversion CMOS
Integrated Receiver for Cordless Telephone
Applications
354
A 2.5 GHz BiCMOS Transceiver for Wireless LAN
357
A 2.7V DECT RF Transceiver with Integrated VCO
360
A 2.7V 2.5 GHz Bipolar Chipset for Digital Wireless
Communications
363
A 2.7V GSM RF Transceiver IC
365
Ch. 5
Power Amplifiers and RF Switches
369
A Theoretical Analysis and Experimental Confirmation
of the Optimally Loaded and Overdriven RF Power
Amplifier
371
High Efficiency Transmitting Power Amplifiers for
Portable Radio Units
378
A UHF Band 1.3W Monolithic Amplifier with
Efficiency of 63%
385
High Performance Integrated PA, T/R Swich for 1.9
GHz Personal Communications Handsets
389
A 3.5V, 1.3 W GaAs Power Multi-Chip IC for
Cellular Phones
392
A 900 MHz CMOS RF Power Amplifier with Programmable Output
399
Highly Efficient UHF-Band Si Power MOSFET for
RF Power Amplifiers
401
Analysis of Phase Characteristics of a GaAs FET
Power Amplifier for Digital Cellular Portable
Telephones
410
Low Voltage, High Power T/R Switch MMIC Using
LC Resonators
419
A GaAs High-Power RF Single-Pole Double-Throw
Switch IC for Digital Mobile Communications System
423
Ch. 6
Oscillators
427
A Simple Model of Feedback Oscillator Noise
Spectrum
429
Low Current Oscillator Design for 900 MHZ GSM
Applications
431
Design of a Low-Phase Noise VCO for an Analog
Cellular Portable Radio Application
434
CMOS VCOs for PLL Frequency Synthesis in GHz
Digital Mobile Radio Communications
441
A CMOS 1.8 GHz Low-Phase-Noise Voltage-Controlled Oscillator with Prescaler
445
A Low-Power CMOS Digitally Synthesized 0-13
MHz Agile Sinewave Generator
448
A 900 MHz CMOS LC-Oscillator with Quadrature
Outputs
451
A Balanced 1.5 GHz Voltage Controlled Oscillator
with an Integrated LC Resonator
453
A 1.8 GHz CMOS Voltage-Controlled Oscillator
456
Ch. 7
Components, Technology, and Modeling
459
Design of Planar Rectanular Microelectronic Inductors
461
Miniature Multilayer Spiral Inductors for GaAs
MMICs
470
Si IC-Compatible Inductors and LC Passive Filters
473
Large Suspended Inductors on Silicon and Their Use
in a 2-[mu]m CMOS RF Amplifier
477
High Q Inductors for Wireless Applications in a
Complementary Silicon Bipolar Process
480
New Development Trends for Silicon RF Device
Technologies
484
Miniaturized RF-Circuit Modules for Land Mobile
Communication Equipment
488
Miniaturized SAW Devices for Radio Communication
Transceivers
494
Recent Developments of Dielectric Resonator
Materials and Filters in Japan
501
RF Front End Circuit Components Miniaturized Using Dielectric Resonators for Cellular Portable Telephones
519
Bonding Pad Models for Silicon VLSI Technologies
and Their Effects on the Noise Figure of RF NPNs
526
Wideband Characterization of Mutual Coupling
Between High Density Bonding Wires
530
High-Speed Characteristics of Multilayer Ceramic
Packages and Test Fixtures
533
An Equivalent Circuit for a Microwave Surface Mount
Package
537
Electrical Characterization of Packages for Use with
GaAs MMIC Amplifiers
542
Frequency Limitation on an Assembled SO8 Package
546
Multifunction Silicon MMIC's for Frequency
Conversion Applications
552
Intermodulation in High-Frequency Bipolar Transistor Integrated-Circuit Mixers
560
Blocking and Desensitization in RF Amplifiers
564
Modeling of the MOS Transistor for High Frequency
Analog Design
567
Ch. 8
System Applications
579
A Double-Conversion Broad Band TV-Tuner with
GaAs ICs
581
Hand-Held Portable Equipment for Cellular Mobile
Telephone
585
Compact Size Numeric Display Pager with New
Receiving System
594
Development of Advanced Mobile Telephone P3
(Personal Pocket Phone)
603
Radios for the Future: Designing for DECT
614
Techniques for Open Loop Modulation of a Wideband
VCO for DECT
620
Performance Evaluation of a Single Chip Radio
Transceiver
624
Chip Set Addresses North American Digital Cellular
Market
628
A Spread Spectrum Cordless Telephone
633
A 1.9 GHz GaAs Chip Set for the Personal Handyphone System
643
Design Study on RF Stage for Miniature PHS Terminal
655
Author Index
661
Subject Index
665
About the Editors
673


Auteur : ABIDI
Editeur : IEEE
Nombre de pages : 674
Date de publication : 01 1998

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