ECE 210/211 – Analog Signal Processing

Summer 2020

Calendar

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)