Lecture 1: Overview of the Course (
PDF - 2.7 MB)
Lecture 2: Transmission Lines (
PDF)
Lecture 3: S-parameters and Impedance Transformers (
PDF)
Lecture 4: Generalized Reflection Coefficient, Smith Chart, Passives (
PDF)
Lecture 5: High Speed Broadband Amplifiers (
PDF)
Lecture 6: Enhancement of Broadband Amplifiers, Narrowband Amplifiers (
PDF)
Lecture 7: Noise Modeling in Amplifiers (
PDF)
Lecture 8: Noise Figure, Impact of Amplifier Nonlinearities (
PDF)
Lecture 9: Low Noise Amplifiers (
PDF)
Lecture 10: Mixers (
PDF)
Lecture 11: Voltage Controlled Oscillators (
PDF)
Lecture 12: Noise in Voltage Controlled Oscillators (
PDF - 1.2 MB)
Lecture 13: High Speed Digital Logic (
PDF)
Lecture 14: High Speed Frequency Dividers (
PDF)
Lecture 15: Integer-N Frequency Synthesizers (
PDF)
Lecture 16: Noise in Integer-N Frequency Synthesizers (
PDF)
Lecture 17: Advanced Frequency Synthesizers (
PDF)
Lecture 18: Design and Simulation of Synthesizers (
PDF - 1.5 MB)
Lecture 19: Basics of Wireless Communication (
PDF)
Lecture 20: Performance Measures of Wireless Communication (
PDF)
Lecture 21: MSK Modulation and Clock and Data Recovery Circuits (
PDF)
Lecture 22: Low-Power High-Speed Links,
Guest Lecture by Gu-Yeon Wei, Harvard University (
PDF)
Lecture 23: Statistical Electronics,
Guest Lecture
Lecture 24: RF Power Amplifiers,
Guest Lecture by Analog Devices (
PDF - 1.2 MB)
Lecture 25: A 1.6 Gb/s/pair Electromagnetically Coupled Multidrop Bus Using Pulse-Based Modulated Signaling,
Guest Lecture
Lecture 26: Lowpass and Bandpass Delta-Sigma Modulation,
Guest Lecture by Richard Schreier, Analog Devices (
PDF)