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Calendar

The calendar provides information on the course's lecture (L), recitation (R), and quiz (Q) sessions.

Course calendar.
SES #	TOPICS	KEY DATES
L1	Lumped abstraction relationship to physics, KVL, KCL	Lab 0 out
R1	KVL, KCL resistive network analysis
L2	KVL, KCL example, nodal analysis	Homework 1 out
R2	Nodal analysis, examples
L3	Linearity, superposition, Thevenin's equivalences	Lab 0 due 1 day before L3
R3	Thevenin and Norton equivalences
L4	Digital abstraction	Homework 2 out
R4	Boolean logic, comb. gates review, examples	Homework 1 due
R4a	Digital logic, gates, examples	Lab 1 out
L5	MOS switch, S and SR model, MOS gate design	Homework 3 out
R5	MOS switch resistor (SR) model (cont.)	Homework 2 due
L6	Nonlinear resistors, networks
R6	Static power in dig ckts, nonlinear resistors, examples
L7	Nonlinear resistors, small signal analysis	Homework 4 out
R7	Nonlinear resistors, small signal examples	Homework 3 due
L8	Dependent sources, analog amplification
R8	Dependent sources, amplifiers, operating point analysis, biasing	Lab 1 due
L9	MOS SCS model and MOS amplifier	Homework 5 out
R9	Review MOS SCS model, MOS ckts, MOS amplifier	Homework 4 due
Q1	Quiz 1 (evening)
R9a	MOS amplifier review
L10	Amplifier large signal analysis	Homework 6 out
R10	Review 3-term device representations, amplifier input-output curves	Homework 5 due
L11	Amplifier small signal analysis	Lab 2 out
R11	Amplifier small signal analysis examples
L12	Amplifier small signal circuit models	Homework 7 out
R12	Amplifier small signal circuit models and analysis examples	Homework 6 due
L13	Capacitors, first order circuits, examples
R13	Inductors and their physics, first order step response, examples
L14	Intuitive analysis of first order systems, examples	Homework 8 out
R14	Ramp, step, impulse, superposition	Homework 7 due
L15	Digital memory, state	Lab 3 out
R15	Impulse response examples, digital memory arrays	Lab 2 due
L16	Transients in second order systems	Homework 9 out
R16	First order examples Second order examples	Homework 8 due
R17	Second order examples Second order systems with damping
L17	Second order systems with damping, intuitive analysis	Homework 10 out
R18	Damped second order system examples Preview of frequency response	Homework 9 due
L18	Sinusoidal steady state analysis, frequency response	Lab 4 out
Q2	Quiz 2 (evening)
L19	Impedance methods	Homework 11/12 out
R19	Review of impedance methods and examples	Homework 10 due
L20	Filters, Q factor, radio tuner
R20	Time and frequency domain responses, Q	Lab 3 due
L21	Op-amp abstraction, concept of feedback, noninverting amplifier
R21	Op-amp abstraction, examples and review, inverting amplifier
L22	Multiple inputs and superposition, integrators, differentiators
R22	First and second order op-amp filters
L23	Op-amp abstraction, feedback, stability, oscillators, clocking
R23	Special op-amp circuits	Lab 4 due Homework 11/12 due
L24	Energy and power
R24	Examples, CMOS, energy and power
L25	Breaking the abstraction barrier