Circuits and Electronics

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Skills Covered: Circuit Analysis, Amplification, Speed, and Delay, Lumped Abstraction, KVL, KCL, Intuitive Simplification Techniques, Nodal Analysis, Linearity, Superposition, Thevenin & Norton Methods, Digital Abstraction, Digital Logic, Combinational Gates, MOSFET Switch Models, Nonlinear Resistors, Nonlinear Networks, Small Signal Analysis, Small-Signal Circuit Model, Dependent Sources, Capacitors

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Want to learn about circuits and electronics? Wondering how the electronics behind sensors and actuators works, or how to make computers run faster, or your mobile phone battery last longer? This series of circuits and electronics courses taught by edX CEO and MIT Professor Anant Agarwal and colleagues is for you.

These online Circuits & Electronics courses are taken by all MIT Electrical Engineering and Computer Science (EECS) majors.

Topics covered include: circuit abstraction, circuit elements such as resistors and sources, signals, and networks; circuit design and circuit analysis methods; digital abstraction, digital logic, and basic digital design; electronic devices including MOSFETs, digital switches, amplifiers; Energy storage elements like capacitors and inductors; dynamics of first-order and second-order networks and circuit speed; design in the time and frequency domains; op-amps, filters, and analog and digital circuits, signal processing, and applications. Design and lab exercises are also significant components of the XSeries program.

Weekly coursework includes interactive video sequences, readings from the textbook, homework, fun online laboratories, and optional tutorials. Each course will also have a final exam.



  • How to design and analyze circuits using both intuition and mathematical analysis
  • How to construct simple digital circuits and improve their speed
  • How to construct and analyze filters and their frequency response using capacitors and inductors
  • Design circuits applications using MOS transistors and operational amplifiers
  • How to measure circuit variables using tools such as virtual oscilloscopes, virtual multimeters, virtual frequency analyzers, and virtual signal generators
  • Compare the measurements of the circuit variables with the behavior predicted by mathematical models and explain the discrepancies

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Circuits and Electronics
Circuits and Electronics

£373.00 £335.00

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