| L1 |
Lumped abstraction relationship to physics, KVL, KCL |
Chapter 1 |
| R1 |
KVL, KCL resistive network analysis |
Chapter 2.1-2.5, 2.4* |
| L2 |
KVL, KCL example, nodal analysis |
Chapter 3.1-3.3 |
| R2 |
Nodal analysis, examples |
Chapter 3.1-3.3 |
| L3 |
Linearity, superposition, Thevenin's equivalences |
Chapter 3.5-3.6 |
| R3 |
Thevenin and Norton equivalences |
Chapter 3.5-3.6 |
| L4 |
Digital abstraction |
Chapter 5.1-5.4 |
| R4 |
Boolean logic, comb. gates review, examples |
Chapter 5.1-5.4, 5.6-5.7 |
| R4a |
Digital logic, gates, examples |
Chapter 5.1-5.4, 5.6-5.7 |
| L5 |
MOS switch, S and SR model, MOS gate design |
Chapter 6.1-6.8 |
| R5 |
MOS switch resistor (SR) model (cont.) |
Chapter 6.1-6.8 |
| L6 |
Nonlinear resistors, networks |
Chapter 4.1-4.3 |
| R6 |
Static power in dig ckts, nonlinear resistors, examples |
Chapter 4.1-4.3 |
| L7 |
Nonlinear resistors, small signal analysis |
Chapter 4.5 |
| R7 |
Nonlinear resistors, small signal examples |
Chapter 4.5 |
| L8 |
Dependent sources, analog amplification |
Chapters 2.6, 7.1-7.2 |
| R8 |
Dependent sources, amplifiers, operating point analysis, biasing |
Chapters 2.6, 7.1-7.2 |
| L9 |
MOS SCS model and MOS amplifier |
Chapter 7.3-7.5 |
| R9 |
Review MOS SCS model, MOS ckts, MOS amplifier |
Chapter 7.3-7.5 |
| Q1 |
Quiz 1 (evening) |
|
| R9a |
MOS amplifier review |
Chapter 7.5 |
| L10 |
Amplifier large signal analysis |
Chapter 7.6-7.7 |
| R10 |
Review 3-term device representations, amplifier input-output curves |
Chapter 7.6-7.7 |
| L11 |
Amplifier small signal analysis |
Chapter 8.1-8.2 |
| R11 |
Amplifier small signal analysis examples |
Chapter 8.1-8.2 |
| L12 |
Amplifier small signal circuit models |
Chapter 8.2.1-8.2.4 |
| R12 |
Amplifier small signal circuit models and analysis examples |
Chapter 8.2.1-8.2.4 |
| L13 |
Capacitors, first order circuits, examples |
Chapters 9.1, 10.1 |
| R13 |
Inductors and their physics, first order step response, examples |
Chapter 10.2 |
| L14 |
Intuitive analysis of first order systems, examples |
Chapter 10.3*, 10.4 |
| R14 |
Ramp, step, impulse, superposition |
Chapters 9.4.2-9.4.3, 10.6 |
| L15 |
Digital memory, state |
Chapter 10.5.3, 10.6.3-10.6.4* |
| R15 |
Impulse response examples, digital memory arrays |
Chapter 10.5.3, 10.6.3-10.6.4* |
| L16 |
Transients in second order systems |
Chapter 12.1 |
| R16 |
First order examples
Second order examples
|
Chapter 12.1 |
| R17 |
Second order examples
Second order systems with damping
|
Chapter 12.2, 12.5, 12.7* |
| L17 |
Second order systems with damping, intuitive analysis |
Chapter 12.2, 12.5, 12.7* |
| R18 |
Damped second order system examples
Preview of frequency response
|
Chapter 12.2, 12.5, 12.7* |
| L18 |
Sinusoidal steady state analysis, frequency response |
Chapter 13.1-13.2 |
| Q2 |
Quiz 2 (evening) |
|
| L19 |
Impedance methods |
Chapter 13.3-13.4.2, 13.4.2* |
| R19 |
Review of impedance methods and examples |
Chapter 13.3-13.4.2* |
| L20 |
Filters, Q factor, radio tuner |
Chapter 13.5, 14.5 |
| R20 |
Time and frequency domain responses, Q |
Chapter 13.6 |
| L21 |
Op-amp abstraction, concept of feedback, noninverting amplifier |
Chapter 15.1-15.4 |
| R21 |
Op-amp abstraction, examples and review, inverting amplifier |
Chapter 15.1-15.4 |
| L22 |
Multiple inputs and superposition, integrators, differentiators |
Chapter 15.5-15.6.2 |
| R22 |
First and second order op-amp filters |
Chapter 15.6.3-15.6.5 |
| L23 |
Op-amp abstraction, feedback, stability, oscillators, clocking |
Chapter 15.7-15.8 |
| R23 |
Special op-amp circuits |
Chapter 15.5-15.8 |
| L24 |
Energy and power |
Chapter 11.1-11.3 |
| R24 |
Examples, CMOS, energy and power |
Chapter 11.5 |
| L25 |
Breaking the abstraction barrier |
|