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Course slides:
http://rfic.eecs.berkeley.edu/ee100/lectures.html

Course playlist:

http://webcast.berkeley.edu/playlist#c,d,Electrical_Engineering,ECDBC98CD8D2291DCF

Lecture 1 - Course introduction, history of electronics

Lecture 2 - Analog vs. digital circuits, units, multiples and notation, charge and current

Lecture 3

Lecture 4

Lecture 5

Lecture 6

Lecture 7

Lecture 8

Lecture 9

Lecture 11 - Amplifiers, ideal OPAMP

Lecture 12 - Feedback

Lecture 13 - MOS transistors (DC characteristics), common source amplifier, digital gates examples, RC and RL circuits (intro)

Lecture 14 - Capacitors: capacitance, charge and voltage, current, energy, power, series/parallel equivalents, DC equivalent, capacitive divider

Lecture 15 - Inductors: iductance, current and voltage, energy, series/parallel equivalents, DC equivalent. AC response, complex numbers, time domain vs. frequency domain, phasors

Lecture 16 - AC circuits analysis, AC/DC conversion, rectifiers, bridged rectifier

Lecture 17 - Complete power supply (Zener diode), power distribution, batteries

Lecture 18 - Frequency response and filters, resonance, dB scale, Bode plot

Lecture 19 - Bode plots examples, Q-factor, basic RL, RC and RLC filters

Lecture 20 - Instrumentation analog filters with OPAMP techniques, distortion

Lecture 21 - Introduction to digital electronics

Lecture 22 - Digital

Lecture 23 - Introduction to finite state machines

Lecture 24 - FSM design and implementation

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Last update: Luca Pacher - Oct 11, 2014