EE 100: Electronic Techniques for Engineering
Electrical Engineering 100: Electronic Techniques for Engineering (Fall 2011, UC Berkeley). Instructor: Professor Vivek Subramanian. This course serves as an introduction to the principles of electrical engineering,
starting from the basic concepts of voltage and current and circuit elements of resistors, capacitors, and inductors. Topics covered in this course include: the fundamental concepts of electrical engineering; circuit analysis
techniques - Kirchhoff's Current Law, Kirchhoff's Voltage Law, and Thevenin and Norton equivalents; operational amplifiers; capacitors; inductors; phasor analysis; frequency response, filters, Bode plots; and the basic concepts of
digital circuits such as combinational logic, timing diagram, flip flops and finite state machines.
| Lecture 08 - Nodal Analysis by Inspection, Mesh by Inspection, Superposition |
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Go to the Course Home or watch other lectures:
| Lecture 01 - Fundamental Concepts: Cell Phone Architecture, Telegraphy, Radio, Semiconductors |
| Lecture 02 - Integrated Circuit, Computers, Units, Charge and Current |
| Lecture 03 - Voltage, Measuring Voltage & Current, Power, Circuit Elements: Sources |
| Lecture 04 - Resistive Circuits: Ohm's Law, Conductivity, Circuit Topology, Kirchhoff's Current Law |
| Lecture 05 - Kirchhoff's Voltage Law, Equivalent Circuits, Source Transformation, Wye-Delta Transformation |
| Lecture 06 - Circuit Analysis Techniques: Node-Voltage Method, Supernodes |
| Lecture 07 - Node-Voltage Method, Mesh-Current Method, Supermesh, Nodal Analysis by Inspection |
| Lecture 08 - Nodal Analysis by Inspection, Mesh by Inspection, Superposition, Thevenin & Norton Equivalents |
| Lecture 09 - Thevenin & Norton Equivalents, Maximum Power Transfer, The Wheatstone Bridge, BJTs |
| Lecture 10 - Semiconductor Device Fabrication (Audio Only) |
| Lecture 11 - Ideal Voltage Amplifiers, Real Voltage Amplifier, Operational Amplifiers |
| Lecture 12 - Op Amps: Gain, Equivalent Circuit, Feedback, Circuit Analysis with Ideal Op Amps |
| Lecture 13 - Digital to Analog Converter, MOSFET, RL and RC Circuits: Transient Response |
| Lecture 14 - Capacitors, Capacitor Response, Capacitor I-V Relationship |
| Lecture 15 - Inductors, Inductor Response, Linear Circuits at AC, Phasor, AC Phasor Analysis |
| Lecture 16 - AC Phasor Analysis, Impedance and Admittance, Power Supply Circuit |
| Lecture 17 - Smoothing RC Filter, Complete Power Supply |
| Lecture 18 - Frequency Response: Transfer Function, Filters, RC Filter, Resonance, RL Filter, Bode Plots |
| Lecture 19 - Bode Plots, Bode Factors, Frequency Selective Filters |
| Lecture 20 - Frequency Selective Filters, Active Filters, Audio Effects: Guitar Circuits |
| Lecture 21 - Digital Circuits: A Quick History, Digital Hardware, Combinational Logic |
| Lecture 22 - 2-Variable Logic Functions, Waveform View, Timing Diagram, Logic Gates, R-S Latch |
| Lecture 23 - Clocks, D Flip Flop, Registers, Counters, Finite State Machines |
| Lecture 24 - Shift Register as FSMs, Vending Machine |