RFIC CMOS TRANSEIVER 设计培训-香港科技大学知名教授 HOWARD Cam LUONG
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1. RF Fundaments and Transceiver Architecture:
a. Motivation
b. RF Fundamentals
c. Passive Components
d. Receiver Architecture
e. Transmitter Architecture
2. LNAs:
a. Functionality and Figures of Merits
b. Basic LNA Design:
i. Input Matching Network
ii. Noise and Linearity
iii. Output Loading and Output Matching Network
iv. Stability
v. Differential Design
c. Advanced LNA Design Techniques:
i. Variable gain
ii. Narrow‐Band Design
iii. Wide‐Band Design
iv. Reconfigurable Narrow‐Band Design
v. Noise Cancellation
vi. Linearization
d. Case Study
3. Mixers:
a. Functionality and Figures of Merits
b. Basic Mixer Design:
i. Single‐balance mixers
ii. Double‐balance mixers
iii. Up‐conversion mixers
c. Advanced Mixer Design Techniques:
i. Low‐voltage mixer design
ii. Current‐steering technique
iii. Linearization
iv. Switched‐transconductance mixers
v. Image‐rejection mixers
vi. Harmonic‐rejection mixers
d. Case Study
4. Synthesizer Architecture:
a. PLL Fundamentals
b. Integer‐N Synthesizer
c. Fractional‐N Synthesizer
d. Dual‐Loop Synthesizer
e. Single‐Sideband‐Mixer‐Based Synthesizer for Fast Settling Time
f. All‐Digital Synthesizer
g. Injection‐Locked Synthesizer
5. VCOs:
a. Fundamentals and Figures of Merits
b. Phase Noise and Spur Specification
c. Basic VCO Design:
i. Ring VCOs
ii. LC VCOs
iii. Phase Noise Estimate
d. Advanced VCO Design Techniques:
i. Transformer‐Feedback VCOs
ii. Quadrature VCOs
iii. Magnetic‐Tuning VCOs
iv. Phase‐Tuning VCOs
v. Multiple‐band VCOs
vi. Mixer‐Divider‐Based Technique VCOs
6. Frequency Dividers:
a. Fundamentals and Figures of Merit
b. Digital Dividers:
i. Fixed Division
ii. Dual‐Modulus Division Using Gating Approach
iii. Multiple‐Modulus Division
iv. Phase‐Shifting Technique
c. Analog Dividers:
i. Injected‐Locked Dividers
ii. Regenerative Dividers (Miller Dividers)
iii. Advanced Divider Techniques
7. Power Amplifiers:
a. Fundamentals and Figures of Merit
b. Classical Design (Class A, B, C)
c. High‐Efficiency Design (Class E, F)
d. Power Combining Techniques
e. Digital PA
8. Case Studies:
a. Synthesizers:
i. 1‐V WLAN Synthesizer
ii. SDR Synthesizer (50MHz – 10GHz, 20GHz, 40GHz)
iii. Ultra‐Wide‐Band Point‐To‐Point Synthesizer (20GHz – 48GHz)
b. Transceivers:
i. 1‐V WLAN Transceiver
ii. UWB Transceiver
Prof. Howard Luong received his BS, MS, and PhD degrees in Electrical Engineering
and Computer Sciences (EECS) from University of California at Berkeley in 1988, 1990,
and 1994, respectively. Since September 1994, he has joined the EEE faculty at the Hong
Kong University of Science and Technology where he is currently a professor. In 2001, he
took a one‐year sabbatical leave to develop a new wireless product at Maxim Integrated
Products, Inc., Sunnyvale, California, USA.
Prof. Luong’s research interests are in RF and analog integrated circuits and
systems for wireless and portable applications. He was an Associate Editor for IEEE
Transactions on Circuits and Systems II (TCAS II) from 1999 to 2002 and a Technical Program Co‐Chair of the 2008 IEEE
Asian Pacific Conference on Circuits and Systems (APCCAS). He currently serves as an Associate Editor for IEEE Transactions
on Circuits and Systems I (TCAS I) and as a technical program committee member of many international conferences
including Custom Integrated Circuits Conference (CICC), European Solid‐State Circuits Conference (ESSCIRC), Asian
Solid‐State Circuits Conference (A‐SSCC), and IEEE International Symposium on Radio‐Frequency Integration Technology
(RFIT).
Prof. Luong was a co‐author of the two books entitled "Low‐Voltage RF CMOS Frequency Synthesizers" published by
Cambridge University Press in August 2004 and "Design of Low‐Voltage CMOS Switched‐Opamp Switched‐Capacitor
Systems" published by Kluwer Academic Publishers in July 2003.
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