Reprinted:
I am ashamed to say that I only know university professors and little experts in the industry. Although I do not know much about the education field, but here I also want to complain a few times. People on the Forum seem to only know Gray, Razavi, Allen, and Lee. If Thu hadn't used sansen's book, we would not have known sansen's people, in fact, don't just stare at Berkley, Stanford, and ucia. You should also look at European famous schools such as KU Leuven and learn about m in the same period as Razavi. steyaert. I will not talk much about it. First, I would like to introduce the top 10 contributors selected at the 50 th anniversary of isscc( like the top 10 outstanding young people in Guangdong): Masakazu yamashina and Behzad Razavi, micel steyaert, Asad Abidi, Mark Horowitz, Bruce Wooley, Robert W. brodersen, David Huges, Paul grey, and James Meindl. the first is the senior manager of the NEC lab. I have never been interested in Japanese people and skipped it. Razavi and his mentor Wooley did not need to mention it. Abidi should mention that although he is a graduate of Berkley, however, his mentor is Meyer, not some of the students who worship him on the Forum are talking about Gray students. Besides Abidi, Meyer's students also include sansen, Nguyen, gray's students are tsividis, song, Lewis. next let's talk about the other digits, M. horowitz is T. h. he graduated from MIT and also went to Standford, but he did not know much about him as a number. The last five were all old predecessors, their admiration is like Yan jiangshui, and broderson is also an old professor of Berkley. You may have seen his handouts or videos. David Hodge is also a professor at Berkley, but he knows little about it because he is a semiconductor manufacturing system. James Meindl is a professor at git who focuses on Microsystems, but IEEE's lifelong fellow. the last endpoint is M. steyaert, who has been studying and teaching at KU luven, is the first VCO made of on-chip inductor as an access scholar who has been to ucia and is a representative of the European IC community, he and his PhD craninckx proposed that the linear analysis method of the oscillator is the second milestone in the phase-noise theory. He is a good guy who has been ignoring but has an influence in the IC field, it is not clear about its experiences in China. Finally, we need to add Thomas. H Lee, this abk gave me the biggest impression that I had the foresight and courage to dig the Iran students from the 21st International Physics Olympus IAD to his door, in, their GPS chip shook the entire IC industry. The hajimiri's phase-noise and rategh's injection locking made people shine, steyaert is comparable in terms of student quality (old predecessors like gray don't forget, it's unfair ).
The reason why I made such a post is to make up my mind to say goodbye to the days when I went crazy to write a book. Obviously, most of the posts won't be read, and I have to spend so much time and energy searching, if you cannot find any books on the Forum, you can send a short message or leave a message to me after this post. I will try my best to help you, but it may rarely go to the Forum in the future, it may take a long time to hear back. Please forgive me. If any of the items I do not have are marked in red, please send a text message or leave a message after this post.
The following are the books written by the ox:
A. Razavi
1. Principles of Data Conversion System Design
2. High Speed CMOS Circuits for optical receivers
3. RF Microelectronics
4. Monolithic phase locked loops and clock recovery circuits
5. Fundamentals of Microelectronics
6. Design of ICS for Optical Communications
7. Design of analog CMOS Integrated Circuits
8. Phase-locking in high performance systems. This book is the proceedings and is edited by Razavi.
B. Thomas H. Lee
1. The design of low noise oscillators (hajimiri & Lee, only the PhD Dissertation of hajimiri on the forum, which I have spent a lot of time finding)
2. Multi-GHz frequency synthesis and Division (rategh & Lee, very difficult to find, not available on the Forum)
3. Feedback Linearization of RF Power Amplifiers
4. Low Power CMOS radio receivers
5. The design of CMOS rfic 2nd
6. Planar microwave engineering: A Practical Guide to theory, measurement, and Circuits
7. physics and engineering of high power switching devices (1975)
C. Abidi
1. The designer's Guide to high-purity Oscillators
2. integrated circuits for wireless communications by Asad. abidi, Paul R. gray, and Robert G. meyer 3. effects of random & periodic excitations on relaxation oscillators (PhD Dissertation of Abidi) (1981)
4. On the dynamics of Joseph phson junction circuits (1978)
D. Gray
1. Analog MOS integrated circuits, II by Paul R. Gray, Bruce A. Wooley, and Robert W. brodersen
2. Integrated Circuits for telecommunications by Paul R gray (1979)
E. sansen
1. Analog design essentials
2. Design of analog integrated circuits and Systems
3. Distortion Analysis of analog integrated circuits
4. Analog layout generation performance and manufacturability by Koen lampaert, Georges Gielen, And Willy M. C. sansen (1999)
5. Symbolic Analysis for Automatic Design of analog integrated circuits by Georges Gielen and Willy M. C. sansen (1991)
6. low-noise wide-band amplifiers in bipolar and CMOS technologies by Zhong Yuan Chong and Willy M. C. sansen (1990)
7. analog interfaces for digital signal processing systems by Frank op't Eynde and Willy M. C. sansen (1993)
8. Design Criteria for low distortion in feedback opamp circuits by BJ? Rnar HERNES, Trond s? Ther, And Willy M. C. sansen (2003)
F. steyaert
1. Wireless CMOS frequency sythesizer design (craninckx & steyaert, not available on the Forum ).
2. Systematic Design of analog IP blocks (not available on the Forum)
3. Design and Analysis of High Efficiency line drivers for XDSL (not available on the Forum)
4. CMOS FRACTIONAL-N synthesizers Design for high spectral purity and Monolithic Integration
5. CMOS cellular extends er front ends-from specification to realization
6. Integrated CMOS Circuits for Optical Communications
7. Broadband Opto-electrical receivers in standard CMOS
8. Low-power low-voltage sigma-delta modulators in nanometer CMOS
9. Design of Multi-bit Delta-sigma A/D converters, by Y. geerts, M. steyaert, W. sansen
10. High-Performance CMOS Continuous-Time filters, by Jos é Silva-Mart ínez, Michiel steyaert, And Willy M. C. sansen
11. Design of Low-Voltage Low-Power CMOS deltasigma A/D converters, by Vincenzo peluso, Michiel steyaert, And Willy M. C. sansen
12. RF power amplifiers for mobile communications, by Patrick reynaert and Michiel steyaert
13. Design of High Voltage XDSL line drivers in standard CMOS, by Bert serneels and Michiel steyaert
14. Analog large-scale integration of massive parallel processing systems, by Peter kinget and Michiel steyaert
15. Static and Dynamic performance limitations for high speed D/A converters, by Anne Van Den Bosch, Michiel steyaert, And Willy M. C. sansen
16. high data rate transmitter circuits: rf cmos Design and techniques for design automation, by C. J. de Ranter and Michiel steyaert
17. CMOS wireless transceiver design, by Jan crols and Michiel steyaert
18. LNA-ESD co-design for fully integrated CMOS wireless receivers, by Paul Leroux and Michiel steyaert
Analog Circuit Design (many of the series are edited by sansen and steyaert, so they are all included in styaert)
1. Volt electronics; mixed-mode systems; low-noise and RF Pa for Telecommunication (not available on the Forum)
2. fractional-N synthesizers, design for robustness, line and bus drivers
3. High-Speed A-D converters, automotive electronics and ultra-low power wireless
4. Most RF circuits, sigma-delta converters and translinear Circuits
5. RF circuits ~ Wide Band, front-ends, DAC's, design methodology and verification for RF and mixed-signal systems, low power and low voltage
6. Structured mixed-mode design, multi-bit sigma converters, short range RF circuits
7. Operational Amplifiers, analog to digital convertors, analog computer aided design by Johan H. huijsing, Rudy J. van de Plassche, And Willy M. C. sansen (1992)
8. RF analog-to-digital converters; sensor and actuator interfaces; low-noise oscillators, plls and synthesizers by Rudy J. van de Plassche, Johan H. huijsing, And Willy M. c. sansen (1997)
9. low-noise, low-power, low-voltage; mixed-mode design with CAD tools; voltage, current and time references by Johan H. huijsing, Rudy J. van de Plassche, And Willy M. c. sansen (1995)
10. mixed A/D circuit design, sensor interface circuits and communication circuits (Kluwer International Series in engineering and computer science) by Willy M. c. sansen, Johan H. huijsing, and Rudy J. van de Plassche (1994)
11. scalable analog circuit design, high-speed D/A converters, RF Power Amplifiers by Johan H. huijsing, Michiel steyaert, and Arthur h.m. Van roermund
12.Sensor and actuator interface electronics, integrated high-voltage electronics and power management, low-power and high-resolution ADC's(Original address: http://blog.sina.com.cn/s/blog_714913a30100xqel.html)
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