“CMOS RFIC Transceiver Design”方面的课程,大家有什么好的
时间:12-12
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我们即将举办一期“CMOS RFIC Transceiver Design”的课程,邀请的是RFIC领域权威教授,授课地点在上海,关于Topics选择问题大家有什么好的建议?谢谢,链接:http://www.diaochapai.com/survey910473
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
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