Lecture |
Date |
Topic |
Reading |
1 |
6/15 |
introduction, voltage, current, power, KVL, KCL, elements, sources, solutions of circuit problems |
0, 1.1-1.3 |
2 |
6/16 |
complex numbers review, resistor combinations |
1.4, Appendix A, 2.1 |
3 |
6/17 |
source transformation, node voltage method |
2.1-2.2 |
4 |
6/18 |
node voltage method, loop current method |
2.2-2.3 |
5 |
6/19 |
linearity and superposition |
2.4 |
6 |
6/22 |
Thevenin and Norton, available power and max power transfer |
2.4-2.5 |
7 |
6/23 |
ideal op-amp and linear op-amp circuits |
3.1 |
8 |
6/24 |
differentiators and integrators, introduction to LTI systems |
3.2-3.3 |
9 |
6/25 |
1st order RC and RL circuits with constant inputs |
3.4 |
10 |
6/26 |
1st order RC and RL circuits with constant inputs (cont) |
3.4 |
11 |
6/29 |
1st order RC and RL circuits with time-varying inputs, transient and steady-state response in LTI systems |
3.5 |
12 |
6/30 |
phasors, co-sinusoids, impedance, sinusoidal steady-state |
4.1-4.2 |
13 |
7/1 |
sinusoidal steady-state, average and available power |
4.3 |
|
7/2 |
Exam 1 |
|
|
7/3 |
NO CLASS |
|
14 |
7/6 |
resonance, frequency response of dissipative LTI systems |
4.4, 5.1 |
15 |
7/7 |
properties of frequency response, LTI system response to co-sinusoids and multi-frequency inputs |
5.2-5.4 |
16 |
7/8 |
periodic signals, Fourier series |
6.1-6.2 |
17 |
7/9 |
Fourier series |
6.2 |
18 |
7/10 |
system response to periodic inputs |
6.3 |
19 |
7/13 |
Fourier transform pairs and properties of FT |
7.1 |
20 |
7/14 |
Fourier transform pairs and properties of FT, frequency-domain description of signals |
7.1-7.2 |
21 |
7/15 |
frequency-domain description of signals, LTI system response using FT |
7.2-7.3 |
22 |
7/16 |
Fourier transform shift and modulation properties, coherent demodulation of AM signals, envelope detection of AM signals |
8.1-8.3 |
|
7/16 |
Exam 2 |
|
|
7/17 |
NO CLASS |
|
23 |
7/20 |
envelope detection of AM signals, superheterodyne receivers |
8.3-8.4 |
24 |
7/21 |
convolution |
9.1 |
25 |
7/22 |
convolution, impulse |
9.1-9.2 |
26 |
7/23 |
impulse, FT of distributions and power signals |
9.2-9.3 |
27 |
7/24 |
FT of distributions and power signals, sampling and analog signal reconstruction |
9.3-9.4 |
28 |
7/27 |
impulse response, BIBO stability, causality and LTIC systems |
10.1-10.3 |
29 |
7/28 |
causality and LTIC systems, noncausal systems, Laplace transform |
10.3-10.4, 11.1 |
30 |
7/29 |
Laplace transform and properties |
11.1 |
31 |
7/30 |
inverse Laplace transform and PFE |
11.2 |
|
7/30 |
Exam 3 |
|
|
7/31 |
NO CLASS |
|
32 |
8/3 |
inverse Laplace transform and PFE, s-domain circuit analysis |
11.3 |
33 |
8/4 |
s-domain circuit analysis, response of LTIC systems |
11.3-11.4 |
34 |
8/5 |
response of LTIC systems, LTIC system combinations |
11.4-11.5 |
35 |
8/6 |
review |
|
|
8/7 |
Final Exam (7:00pm-9:00pm) Conflict Exam(3:30pm-5:30pm) |
|