About
6.002 is designed to serve as a first course in an undergraduate electrical engineering (EE), or electrical engineering and computer science (EECS) curriculum. At MIT, 6.002 is in the core of department subjects required for all undergraduates in EECS.
The course introduces the fundamentals of the lumped circuit abstraction. Topics covered include: resistive elements and networks; independent and dependent sources; switches and MOS transistors; digital abstraction; amplifiers; energy storage elements; dynamics of first- and second-order networks; design in the time and frequency domains; and analog and digital circuits and applications. Design and lab exercises are also significant components of the course. 6.002 is worth 4 Engineering Design Points. The 6.002 content was created collaboratively by Profs. Anant Agarwal and Jeffrey H. Lang.
The course uses the required textbook Foundations of Analog and Digital Electronic Circuits. Agarwal, Anant, and Jeffrey H. Lang. San Mateo, CA: Morgan Kaufmann Publishers, Elsevier, July 2005. ISBN: 9781558607354.
Course Homepage 6.002 Circuits and Electronics Spring 2007
Course features at MIT OpenCourseWare page: *Syllabus *Calendar *Readings *Labs *Assignment *Exams *Tools *Lecture Notes and Videos *Download Course Materials
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Uploaded videos:
Lecture 1: Introduction and lumped abstraction
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Lecture 2: Basic circuit analysis method (KVL and KCL mMethod)
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Lecture 3: Superposition, Thévenin and Norton
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Lecture 4: The digital abstraction
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Lecture 5: Inside the digital gate
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Lecture 6: Nonlinear analysis
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Lecture 7: Incremental analysis
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Lecture 8: Dependent sources and amplifiers
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Lecture 9: MOSFET amplifier large signal analysis
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Lecture 10: Amplifiers - small signal model
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Lecture 11: Small signal circuits
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Lecture 12: Capacitors and first-order systems
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Lecture 13: Digital circuit speed
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Lecture 14: State and memory
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Lecture 15: Second-order systems
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Lecture 16: Sinusoidal steady state
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Lecture 17: The impedance model
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Lecture 18: Filters
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Lecture 19: The operational amplifier abstraction
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Lecture 20: Operational amplifier circuits
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Lecture 21: Op amps positive feedback
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Lecture 22: Energy and power
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Lecture 23: Energy, CMOS
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Lecture 25: Violating the abstraction barrier
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