Advanced Analog Integrated Circuits

Integrated Circuits for Communication 是UC Berkekey 电子工程专业高年级本科生课程，共28讲，每讲80分钟左右， 该门课程包括：.rm格式的课程视频和与视频课程内容配套使用的完整的课程讲义。有了课程讲义让您的学习更有效，在潜移默化中提高专业知识和英语能力。

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Analysis and design of electronic circuits for communication systems, with an emphasis on integrated circuits for wireless communication systems. Analysis of noise and distortion in amplifiers with application to radio receiver design. Power amplifier design with application to wireless radio transmitters. Radio-frequency mixers, oscillators, phase-locked loops, modulators, and demodulators.

course is intended to teach basic circuit theory and principles of electronic engineering as preparation for subsequent EE courses.

The This course will be based on a series of lecture notes which will be posted regularly throughout the semester. While there is no required textbook, you may find the following references useful for background reading. A copy of the classic Gray/Meyer or the updated Hurst/Lewis is indispensible and highly recommended. The Lee and Razavi textbooks are on reserve at the library.

1. Electromagnetics for High-Speed Analog and Digital Communication Circuits, Ali Niknejad, Cambridge University Press, 2007.

2. Analysis and Design of Integrated Circuits, Paul R. Gray, Paul J. Hurst, Stephen H. 3. Lewis, Robert G. Meyer, 4th Ed., Wiley, 2001.

3. The design of CMOS radio-frequency integrated circuits, Thomas H. Lee. Cambridge ; New York, NY, USA : Cambridge University Press, 1998.

4. RF microelectronics, Behzad Razavi. Upper Saddle River, NJ : Prentice Hall, 1998

Lecture 1: Introduction to Communication Circuits

Lecture 2: Review of MOS and BJT Technology for High-Speed Application

Lecture 3: High Speed Amplifiers and Tuned Amplifiers

Lecture 4: Two-Port Power Gain

Lecture 5: Two-Port Power Gain and Stability

Lecture 6: Matching Networks

Lecture 7: Introduction to Distortion Analysis

Lecture 8: Distortion Metrics

Lecture 9: Intercept Point, Gain Compression and Blocking

Lecture 10: Effect of Feedback on Distortion

Lecture 11: Electrical Noise

Lecture 12: Noise in Communication Systems

Lecture 13: Noise Calculations

Lecture 14: MOSFET LNA Design

Lecture 15: Midterm Review

Lecture 16: Introduction to Mixers

Lecture 17: I/Q Mixers; BJT Mixers

Lecture 18: BJT/MOS Mixers/Mixer Noise

Lecture 19: Balanced Mixers/PNoise and PSS/Transformers

Lecture 20: Guest Lecture on Low Power Transceivers

Lecture 21: Passive Mixers

Lecture 22: LC Oscillators

Lecture 23: Oscillator Steady-State Analysis

Lecture 24: Negative Resistance Osc, Differential Osc, and VCOs

Lecture 25: Oscillator phase noise

Lecture 26: Power Amplifiers

Lecture 27: Non-Linear Power Amplifiers

Lecture 28: Frequency Synthesizers