【Abidi,Gray和Meyer的合力之作】Integrated Circuits for Wireless Communications

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[size=120%]Integrated Circuits for Wireless Communications
By Asad A. Abidi, Paul R. Gray, Robert G. Meyer

• Publisher:   Wiley-IEEE Press
• Number Of Pages:   686
• Publication Date:   1998-12-10
• ISBN-10 / ASIN:   0780334590
• ISBN-13 / EAN:   9780780334595

Product Description:
"High-frequency integrated circuit design is a booming area of growth that is driven not only by the expanding capabilities of underlying circuit technologies like CMOS, but also by the dramatic increase in wireless communications products that depend on them. INTEGRATED CIRCUITS FOR WIRELESS COMMUNICATIONS includes seminal and classic papers in the field and is the first all-in-one resource to address this increasingly important topic. Internationally known and highly regarded in the field, editors Asad Abidi, Paul Gray, and Robert Meyer have meticulously compiled more than 100 papers and articles covering the very latest high-level integrated circuits techniques and solutions in use today. INTEGRATED CIRCUITS FOR WIRELESS COMMUNICATIONS is devised expressly to provide IC design engineers, system architects, and integrators with a practical understanding of subjects ranging from architecture choices for integrated transceivers to actual circuit designs in all viable IC technologies such as bipolar, CMOS, and GaAs. The papers selected represent a breadth of coverage and level of expertise that is unmatched in the field."
Sponsored by:
IEEE Solid-State Circuits Council/Society.

该书实际上是本论文集,大部分都是IEEE的,还有些其他期刊上的.
我大概收集了85%左右,剩下的文章都是年代久远很难找到全文了,大家觉得有用再下吧.

[ 本帖最后由 lotusky 于 2009-1-13 21:26 编辑 ]

lotusky

标灰色的代表没能收集到全文,欢迎能人异士添加补充!

Chapter 1 Introduction and Overview 1
Low Power Radio-Frequency ICs for Portable Communications 3
A. Abidi (Proceedings of the IEEE, April 1995).-----IEEE

Future Directions in Silicon ICs for RF Personal Communications 29
P. R. Gray and R. G. Meyer (Proceedings of the IEEE, May 1995).-----IEEE

The Challenges for Analogue Circuit Design in Mobile Radio VLSI Chips 37
J. Sevenhans and D. Rabaey (Microwave Engineering Europe, May 1993).-----馆藏

Chapter 2 Transmitter and Receiver Architectures 43
A Third Method of Generation and Detection of Single-Sideband Signals 45
D. K. Weaver, Jr. (Proceedings of the IRE, December 1956).-----IEEE

The Phasing Method for Sideband Selection in Broadcast Receivers 48
R. C. V. Macario and I. D. Mejallie (EBU Review, June 1980).-----馆藏

FM Receivers for Mono and Stereo on a Single Chip 55
W. G. Kasperkovitz (Philips Technical Review, 1983).-----cat.inist馆藏

Advanced Low Voltage Single Chip Radio IC 69
T. Okanobu, H. Tomiyama, and H. Arimoto (IEEE Transactions on Consumer Electronics, August 1992).-----IEEE

Fully Integrated Radio Paging Receiver 80
I. A. W. Vance (IEEE Proceedings, February 1982).-----IEEE

A Single-Chip VHF and UHF Receiver for Radio Paging 85
J. F. Wilson, R. Youell, T. H. Richards, G. Luft, and R. Pilaski (IEEE Journal of Solid-State Circuits, December 1991).-----IEEE

Linear Transceiver Architectures 92
A. Bateman, D. M. Haines, and R. J. Wilkinson (Vehicular Technology Conference Proceedings, May 1988).-----IEEE

Direct Conversion Transceiver Design for Compact Low-Cost Portable Mobile Radio Terminals 99
A. Bateman and D. M. Haines (Vehicular Technology Conference Proceedings, May 1990).-----IEEE

A New Incoherent Direct Conversion Receiver 105
G. Schultes, A. L. Scholtz, E. Bonek, and P. Veith (Vehicular Technology Conference Proceedings, May 1990).-----IEEE

Personal Communications Transceiver Architectures for Monolithic Integration 112
E. Bonek, G. Schultes, P. Kreuzgruber, W. Simbiirger, P. Weger, T. C. Leslie, J. Popp, H. Knapp and N. Rohringer
(International Symposium on Personal, Indoor, and Mobile Radio Communications, 1984).-----IEEE

An All-CMOS Architecture for a Low-Power Frequency-Hopped 900 MHz Spread Spectrum Transceiver 118
J. Min, A. Rofougaran, H. Samueli, and A. A. Abidi (IEEE 1994 Custom Integrated Circuits Conference, 1994).-----IEEE

Spread-Spectrum Technology for Commercial Applications 122
D. T. Magill, F. D. Natali, and G. P. Edwards (Proceedings of the IEEE, April 1994).-----IEEE

Digital-Conversion Radio Transceivers for Digital Communications 135
A. A. Abidi (IEEE Journal of Solid-State Circuits, 1995).----IEEE

A New Radio Receiver System for Personal Communications 147
R. Okanobu, D. Yamazaki, and C. Nishi (IEEE Transactions on Consumer Electronics, August 1995).

Chapter 3 Receivers 155
Receiver RF Design Considerations for Wireless Communications Systems 157
K. Hansen and A. Nogueras {International Symposium on Circuits and Systems, May 1996).-----IEEE

Design and Performance of Low-Current GaAs MMIC's for L-Band Front-End Applications 161
Y. Imai, M. Tokumitsu, and A. Minakawa {IEEE Transactions on Microwave Theory and Techniques, February 1991).-----IEEE

Ultra-Low DC Power Consumptions in Monolithic L-Band Components 167
K. Cioffi {IEEE Transactions on Microwave Theory and Techniques, December 1992).-----IEEE

GaAs Monolithic 1.5-2.5 GHz Image Rejection Receiver 173
A. Boveda, G. L. Bonato, and O. Ripolles {International Symposium on Circuits and Systems, 1992).-----IEEE

Low Power GaAs ICS for Mobile Communication Equipment 177
H. Saki, A. Tezuka, Y. Mori, M. Sagawa, T. Katoh, J. Itoh, and K. Fujimoto {International Symposium on GaAs andRelated Compounds, 1992).-----馆藏

Ultra Low Power Low Noise Amplifiers for Wireless Communications 183
E. Heaney, F. McGrath, P. O'Sullivan, and C. Kermarrec {GaAs IC Symposium, October 1993).-----IEEE

Low Current GaAs Integrated Down Converter for Portable Communication Applications 186
V. Nair, R. Vaitkus, D. Scheitlin, J. Kline, and H. Swanson {GaAs IC Symposium, October 1993).-----IEEE

X-Band Monolithic Series Feedback LNA 190
R. E. Lehmann and D. D. Heston {IEEE Transactions on Microwave Theory and Techniques, December 1985).-----IEEE

An RF Front-End for Digital Mobile Radio 197
J. Fenk, W. Birth, R. G. Irvine, P. Sehrig, and K. R. Schon {IEEE 1990 Bipolar Circuits and Technology Meeting,September 1990).---IEEE

A Si Bipolar Monolithic RF Bandpass Amplifier 201
N. M. Nguyen and R. G. Meyer {IEEE Journal of Solid-State Circuits, January 1992).----IEEE

A 1 -GHz BiCMOS RF Front-End IC 206
R. G. Meyer and W. D. Mack {IEEE Journal of Solid-State Circuits, March 1994).----IEEE

A One-Chip 2GHz Single Superhet Receiver for 2Mb/s FSK Radio Communication 212
V. Thomas, J. Fenk, and S. Beyer {IEEE International Solid-State Circuit Conference, February 1994).----IEEE馆藏

A Low-Voltage Silicon Bipolar RF Front-End for PCN Receiver Applications 215
J. R. Long, M. A. Copeland, P. Schvan and R. A. Hadaway {IEEE International Solid-State Circuits Conference,February 1995).----IEEE

A Highly Linear 1-GHz CMOS Downconversion Mixer 218
P. Y. Chan, A. Rofougaran, K. A. Ahmed, and A. A. Abidi {European Solid-State Circuits Conference,September 1993).----IEEE馆藏

A 1.5 GHz Highly Linear CMOS Downconversion Mixer 222
J. Crols, and M. S. J. Steyaert {IEEE Journal of Solid-State Circuits, July 1995).----IEEE

A Fully Integrated 900 MHz CMOS Double Quadrature Downconverter 229
J. Cros and M. Steyeart {IEEE International Solid-State Circuits Conference, February 1995).----IEEE

Design Techniques for lGHz Downconversion ICs Fabricated in a 1 //m 13 GHz BICMOS Process 232
W. D. Mack and R. G. Meyer {Analog Circuit Design, 1994).-----Kluwer馆藏

A 1 GHz CMOS RF Front-End IC for a Direct-Conversion Wireless Receiver 248
A. Rofougaran, J. Y.-C. Chang, M. Roufougaran and A. A. Abidi {IEEE Journal of Solid-State Circuits, July 1996).----IEEE

A 100 MHz IF Amplifier/Quadrature Demodulator for GSM Cellular Radio Mobile Terminals 258
I. A. Koullias, S. L. Forgues, and P. C. Davis {IEEE 1990 Bipolar Circuits and Technology Meeting,September 1990).----IEEE

A Cellular Analog Front End with a 98dB IF Receiver 262
L. Longo, R. Halim, B-R. Homg, K. Hsu, and D. Shamlou {IEEE International Solid-State Circuits Conference,February 1994).----IEEE

A 270-kb/s 35-m W Modulator IC for GSM Cellular Radio Hand-Held Terminals 265
J. J. J. Haspeslagh, D. Sallaerts, P. P. Reusens, A. Vanwelsenaers, R. Granek and D. Rabaey {IEEE Journal of Solid-State Circuits, December 1990).----IEEE

A CMOS Limiting Amplifier and Signal-Strength Indicator 273
S. Khorram, A. Rofougaran and A. A. Abidi {Symposium on VLSI Circuits, June 1995).----IEEE

Characterization of a Microwave Silicon single-Chip Direct Conversion RF Transceiver 275
W. Simburger, H. Knapp and P. Weger {European Microwave Conference, 1995).----IEEE

A Single-Chip GaAs RF Transceiver for 1.9-GHz Digital Mobile Communication Systems 287
K. Yamamoto, K. Maemura, N. Kasai, Y. Yoshii, Y. Miyazaki, M. Nakayama, N. Ogata, T. Takagi and M. Otsubo{IEEE Journal of Solid-State Circuits, December 1996).----IEEE

A 1.9-GHz Single Chip IF Transceiver for Digital Cordless Phones 296
H. Sato, K. Kashiwagi, K. Niwano, T. Iga, T. Ikeda, K. Mashiko, T. Sumi, and K. Tsuchihashi (IEEE Journal of Solid-State Circuits, December 1996).----IEEE

A Direct-Conversion Receiver for 900 MHz (ISM Band) Spread-Spectrum Digital Cordless Telephone 302
C. D. Hull, J. L. Tham, and R. R. Chu (IEEE Journal of Solid-State Circuits, December 1996).----IEEE

A 2.7-V 900-MHz CMOS LNA and Mixer 311
A. N. Karanicolas (IEEE Journal of Solid-State Circuits, December 1996).----IEEE

A 12 mW Wide Dynamic Range CMOS Front-End for a Portable GPS Receiver 317
A. R. Shahani, D. K. Shaeffer and T. H. Lee (7997 IEEE International Solid-State Circuits Conference, February 1997).----IEEE

Chapter 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
J. Sevenhans, A. Vanwelsenaers, J. Wenin and J. Baro (IEEE 1991 Custom Integrated Circuits Conference, May 1991).----IEEE

BBTRX: A Baseband Transceiver for a Zero IF G5M Hand Portable Station 327
D. Haspeslagh, J. Ceuterick, L. Kiss, J. Wenin, A. Vanwelsenaers, and E. Enel-Rehel (IEEE 1992 Custom Integrated Circuits Conference, May 1992).----IEEE馆藏

A 2.7V 800 MHz-2.1 GHz Transceiver Chipset for Mobile Radio Applications in 25 GHz ft Si-Bipolar 331
W. Veit, J. Fenk, S. Ganser, K. Hadjizada, S. Heinen, H. Herrmann, and P. Sehrig (1994 Bipolar/BiCMOS Circuits and Technology Meeting, October 1994).

An Analog Radio Frontend Chip Set for a 1.9 GHz Mobile Radio Telephone Application 335
J. Sevenhans, D. Haspeslagh, A. Delarbre, L. Kiss, Z. Chang, and J. F. Kukielka (IEEE International Solid-State Circuits Conference, February 1994).----IEEE

A 900 MHz Transceiver Chip Set for Dual-Mode Cellular Mobil Terminals 338
I. A. Koullias, J. H. Havens, I. G. Post, P. E. Bronner (IEEE International Solid-State Circuits Conference, Februaryl993).----IEEE

A 2.7V to 4.5V Single-Chip GSM Transceiver RF Integrated Circuit 341
T. Stetzler, I. Post, J. Havens, and M. Koyama (IEEE International Solid-State Circuits Conference, February 1995).----IEEE

A 2.7V GSM Transceiver ICs with On-Chip Filtering 344
C. Marshall, F. Behbahani, W. Birth, A. Fotowat, T. Fuchs, R. Gaethke, E. Heimerl, S. Lee, P. Moore, S. Navid, and E.Saur (IEEE International Solid-State Circuits Conference, February 1995).----IEEE

A 2.4 GHz Single Chip Transceiver 347
M. Devlin, B. J. Buck, J. C. Clifton, A. W. Dearn, and A. P. Long (IEEE 1993 Microwave and Millimeter-Wave Monolithic Circuits Symposium, 1993).----IEEE

The Future of CMOS Wireless Transceivers 351
A. A. Abidi, A. Rofougaran, G. Chang, J. Rael, J. Chang, M. Rofougaran, and P. Chang (7997 IEEE International Solid-State Circuits Conference, February 1997).----IEEE

A 1.9 GHz Wide-Band IF Double Conversion CMOS Integrated Receiver for Cordless Telephone Applications 354
J. C. Rudell, J-J. Ou, T. B. Cho, G. Chien, F. Brianti, J. A. Weldon, and P. R. Gray (7997 IEEE International Solid-State Circuits Conference, February 1997).----IEEE

A 2.5 GHz BiCMOS Transceiver for Wireless LAN 357
R. G. Meyer, W. D. Mack, and J. J. E. M. Hageraats (7997 IEEE International Solid-State Circuits Conference,February 1997).----IEEE

A 2.7V DECT RF Transceiver with Integrated VCO 360
G. C. Dawe, J-M. Mourant and A. P. Brokaw (7997 IEEE International Solid-State Circuits Conference,February 1997).----IEEE

A 2.7V 2.5 GHz Bipolar Chipset for Digital Wireless Communications 363
S. Heinen, K. Hadjizada, U. Matter, W. Geppert, V. Thomas, S. Weber, S. Beyer, J. Fenk and E. Matschke (7997 IEEE International Solid-State Circuits Conference, February 1997).----IEEE

A 2.7V GSM RF Transceiver IC 365
K. Irie, H. Matsui, T. Endo, K. Watanabe, T. Yamawaki, M. Kokubo and J. Hildersley (IEEE International Solid-State Circuits Conference, February 1997).----IEEE

Chapter 5 Power Amplifiers and RF Switches 369
A Theoretical Analysis and Experimental Confirmation of the Optimally Loaded and Overdriven RF Power Amplifier 371
D. M. Snider (IEEE Transactions on Electronic Devices, December. 1967).----IEEE

High Efficiency Transmitting Power Amplifiers for Portable Radio Units 378
R. Nojima, S. Nishiki and K. Chiba (IEICE Transactions, June 1991).----IEICE馆藏

A UHF Band 1.3W Monolithic Amplifier with Efficiency of 63% 385
R. Takagi, Y. Ikeda, K. Seino, G. Toyoshima, A. Inoue, N. Kasai and M. Takada (IEEE 1992 Microwave and Millimeter-Wave Monolithic Circuits Symposium, 1992).----IEEE

High Performance Integrated PA, T/R Swich for 1.9 GHz Personal Communications Handsets 389
P. O. Sullivan, G. St. Onge, E. Heaney, F. McGrath and C. Kermarrec (GaAsIC Symposium, October 1993).----IEEE

A 3.5V, 1.3 W GaAs Power Multi-Chip IC for Cellular Phones 392
M. Maeda, M. Nishijima, H. Takehara, C. Adachi, H. Fujimoto and O. Ishikawa (IEEE Journal of Solid-State Circuits,October 1994).----IEEE

A 900 MHz CMOS RF Power Amplifier with Programmable Output 399
M. Rofougaran, A. Rofougaran, C. 01gaard and A. A. Abidi (1994 Symposium on VLSI Circuits Digest of TechnicalPapers, 1994).----IEEE

Highly Efficient UHF-Band Si Power MOSFET for RF Power Amplifiers 401
I. Yoshida, M. Katsueda, S. Ohtaka, Y. Maruyama, and T. Okabe (Electronics and Communications in Japan, 1994).----WILEY

Analysis of Phase Characteristics of a GaAs FET Power Amplifier for Digital Cellular Portable Telephones 410
R. Ishizaki, H. Ikeda, Y. Yoshikawa and T. Uwano (Electronics and Communications in Japan, 1994).----WILEY

Low Voltage, High Power T/R Switch MMIC Using LC Resonators 419
T. Tokumitsu, I. Toyada and M. Aikawa (IEEE 1993 Microwave and Millimeter-Wave Monolithic Circuits Symposium, 1993).----IEEE

A GaAs High-Power RF Single-Pole Double-Throw Switch IC for Digital Mobile Communications System 423
K. Miyatsuji, S. Nagata, N. Yoshikawa, K. Miyanaga, Y. Ohishi and D. Ueda (1994 IEEE International Solid-State Circuits Conference, February 1994).----IEEE

Chapter 6 Oscillators 427
A Simple Model of Feedback Oscillator Noise Spectrum 429
D. B. Leeson (Proceedings of the IEEE, February 1966).----IEEE

Low Current Oscillator Design for 900 MHZ GSM Applications 431
S. Beyer and G. Lipperer (Microwave Engineering Europe, October 1991).-----馆藏

Design of a Low-Phase Noise VCO for an Analog Cellular Portable Radio Application 434
T. Uwano, T. Ishizaki, Y. Nakagawa, and T. Nakamura (Electronics and Communications in Japan, 1994).----WILEY

CMOS VCOs for PLL Frequency Synthesis in GHz Digital Mobile Radio Communications 441
M. Thamsirianunt and T. Kwasniewski (IEEE 1995 Custom Integrated Circuits Conference, May 1995).----IEEE

A CMOS 1.8 GHz Low-Phase-Noise Voltage-Controlled Oscillator with Prescaler 445
J. Craninckx and M. Steyaert (1995 IEEE International Solid-State Circuits Conference, February 1995).----IEEE

A Low-Power CMOS Digitally Synthesized 0-13 MHz Agile Sinewave Generator 448
G. Chang, A. Rofougaran, M-K. Ku, A. A. Abidi and H. Samueli (7994 IEEE International Solid-State Circuits Conference, February 1994).----IEEE

A 900 MHz CMOS LC-Oscillator with Quadrature Outputs 451
A. Rofougaran, J. Rael, M. Rofougaran, and A. A. Abidi (1996 IEEE International Solid-State Circuits Conference,February 1996).----IEEE

A Balanced 1.5 GHz Voltage Controlled Oscillator with an Integrated LC Resonator 453
L. Dauphinee, M. Copeland and P. Schvan (1997 IEEE International Solid-State Circuits Conference, February 1997).----IEEE

A 1.8 GHz CMOS Voltage-Controlled Oscillator 456
B. Razari (1997 IEEE International Solid-State Circuits Conference, February 1997).----IEEE

Chapter 7 Components, Technology, and Modeling 459
Design of Planar Rectanular Microelectronic Inductors 461
H. M. Greenhouse (IEEE Transactions on Parts, Hybrids, and Packaging, June 1974).----IEEE

Miniature Multilayer Spiral Inductors for GaAs MMICs 470
M. W. Geen, G. J. Green, R. G. Arnold, J. A. Jenkins and R. H. Jansen (GaAs IC Symposium, 1989).----IEEE

Si IC-Compatible Inductors and LC Passive Filters 473
N. M. Nguyen and R. G. Meyer (IEEE Journal of Solid-State Circuits, August 1990).----IEEE

Large Suspended Inductors on Silicon and Their Use in a 2-^m CMOS RF Amplifier 477
J. Y.-C. Chang, A. A. Abidi and M. Gaitan (IEEE Electron Device Letters, May 1993).----IEEE

High Q Inductors for Wireless Applications in a Complementary Silicon Bipolar Process 480
K. B. Ashby, W. C. Finley, J. J. Bastek and S. Moinian (Bipolar/BiCMOS Circuits and Technology Meeting, 1994).----IEEE

New Development Trends for Silicon RF Device Technologies 484
N. Camilleri, D. Lovelace, J. Costa and D. Ngo (IEEE 1994 Microwave and Millimeter-Wave Monolithic Circuits Symposium, 1994).----IEEE

Miniaturized RF-Circuit Modules for Land Mobile Communication Equipment 488
Y. Mori, H. Yabuki, M. Ohba, M. Sagawa, M. Makimoto, and I. Shibazaki (Vehicular Technology Conference, 1990).----IEEE

Miniaturized SAW Devices for Radio Communication Transceivers 494
M. Hikita, T. Tabuchi, and A. Sumioka (IEEE Transactions on Vehicular Technology, February 1989).----IEEE

Recent Developments of Dielectric Resonator Materials and Filters in Japan 501
K. Wakino (Ferroelectrics, 1989).-----Informaworld

RF Front End Circuit Components Miniaturized Using Dielectric Resonators for Cellular Portable Telephones 519
T. Nishikawa (IEICE Transactions, June 1991).-----IEICE馆藏

Bonding Pad Models for Silicon VLSI Technologies and Their Effects on the Noise Figure of RF NPNs 526
N. Camilleri, J. Kirchgessner, J. Costa, D. Ngo and D. Lovelace (IEEE 1994 Microwave and Millimeter-Wave Monolithic Circuits Symposium, 1994).----IEEE

Wideband Characterization of Mutual Coupling Between High Density Bonding Wires 530
H-Y. Lee (IEEE Microwave and Guided Wave Letters, August 1994).----IEEE

High-Speed Characteristics of Multilayer Ceramic Packages and Test Fixtures 533
D. H. Smith and R. M. Savara (GaAs IC Symposium, 1990).----IEEE

An Equivalent Circuit for a Microwave Surface Mount Package 537
D. W. Hughes and D. M. Jackson (Microwave Journal, October 1991).-----adsabs.harvard.edu/www.highbeam.com馆藏

Electrical Characterization of Packages for Use with GaAs MMIC Amplifiers 542
S. R. Smith and M. T. Murphy (IEEE MTT-S Digest, 1993).----IEEE

Frequency Limitation on an Assembled SO8 Package 546
F. Ndagijimana, J. Engdahl, A. Ahmadouche, and J. Chilo (Electronic Components and Technology Conference,June 1993).----IEEE

Multifunction Silicon MMICs for Frequency Conversion Applications 552
K. J. Negus and J. N. Wholey (IEEE Transactions on Microwave Theory and Techniques, September 1990).----IEEE

Intermodulation in High-Frequency Bipolar Transistor Integrated-Circuit Mixers 560
R. G. Meyer (IEEE Journal of Solid-State Circuits, August, 1986).----IEEE

Blocking and Desensitization in RF Amplifiers 564
R. G. Meyer and A. K. Wong (IEEE Journal of Solid-State Circuits, August 1995).----IEEE

Modeling of the MOS Transistor for High Frequency Analog Design 567
P. J. V. Vandeloo and W. M. C. Sansen (IEEE Transations on Computer-Aided Design, July 1989).----IEEE

Chapter 8 System Applications 579
A Double-Conversion Broad Band TV-Tuner with GaAs ICs 581
J-E. Muller, U. Ablassmeier, J. Schelle, W. Kellner and H. Kniepkamp (GaAs IC Symposium, 1984).----IEEE

Hand-Held Portable Equipment for Cellular Mobile Telephone 585
Y. Tamura, T. Maru, N. Hirasawa, H. Okuno, M. Komoda, M. Hotsumi, H. Matsumoto and K. Kimura (NEC Research and Development, October 1987).-----cat.inist馆藏

Compact Size Numeric Display Pager with New Receiving System 594
K. Yamasaki, S. Yoshizawa, Y. Minami, T. Asai, Y. Nakano, and M. Kuraoda (NEC Research and Development, January 1992).-----cat.inist馆藏

Development of Advanced Mobile Telephone P3 (Personal Pocket Phone) 603
Y. Tamura, A. Yonehata, S. Miyazaki, F. Kobayasi, Y Fukuda and J. Kamishiro (NEC Research and Development,July 1990).-----cat.inist馆藏

Radios for the Future: Designing for DECT 614
B. Madsen and D. E. Fague (RF Design, April 1993).-----RFDesign.com馆藏

Techniques for Open Loop Modulation of a Wideband VCO for DECT 620
D. E. Fague, A. Dao, and C. R. Karmel (RF Expo West, 1994).-----馆藏

Performance Evaluation of a Single Chip Radio Transceiver 624
K. M-D. Hess and D. E. Fague (Vehicular Technology Conference, April 1996).-----IEEE

Chip Set Addresses North American Digital Cellular Market 628
M. M. Sera (RF Design, March 1994).-----RFDesign.com馆藏

A Spread Spectrum Cordless Telephone 633
K. Tanaka (Electronics and Communications in Japan, 1995).-----WILEY

A 1.9 GHz GaAs Chip Set for the Personal Handyphone System 643
F. McGrath, K. Jackson, E. Heaney, A. Douglas, W. Fahey, R. G. Pratt, and T. Begnoche (IEEE Transactions on Microwave Theory and Techniques, July 1995).-----IEEE

Design Study on RF Stage for Miniature PHS Terminal 655
H. Tsurumi, T. Maeda, H. Tanimoto, Y. Suzuki, M. Saito, K. Yoshihara, K. Ishida, and N. Uchitomi (IEICE Transactions on Electronics, May 1996).-----IEICE馆藏

spree2007

很棒的資源
我很想閱讀
感謝樓主分享
辛苦了

彭盛輝

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plmhinc8010

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bonyou

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wangjin0215

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joe_chen

毫无疑问很好的东西

qu111_ddd

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johnyjack

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