| Monday | Tuesday | Wednesday | Thursday | Friday |
| Jan. 25
Introduction & voltage, current power, KVL, KCL 0, 1.1-1.2 |
Jan. 26
Elements, sources, solutions of circuit problems, 1.3 |
Jan. 27
Complex numbers review 1.4, App. C, Resistor combinations 2.1 |
Jan. 28 |
Jan. 29
Source combinations, node voltage method 2.1-2.2 |
| Feb. 1
Node voltage method 2.2 |
Feb. 2
Loop current method 2.3 |
Feb. 3
Linearity & superposition 2.4 |
Feb.4 |
Feb. 5
Thevenin & Norton 2.4 |
| Feb. 8
Available power & max power transfer 2.5
Lab 0 |
Feb. 9
Op-amps & ideal op-amp approximations 3.1 |
Feb. 10
Linear op-amp ckts 3.1 |
Feb. 11 |
Feb. 12
Differentiators & integrators 3.2 |
| Feb. 15
Introduction to LTI systems 3.3 |
Feb. 16
1st order RC ckt response to constant inputs 3.4.1 |
Feb. 17
NO LECTURES NO LABS |
Feb. 18 |
Feb. 19
RC & RL ckts with constant inputs 3.4.1-3.4.2 |
| Feb. 22
RC & RL ckts with time-varying inputs 3.4.3
Lab 1 |
Feb. 23
Transient & steady-state response in LTI systems 3.4.3, 3.5 |
Feb.24
Phasors & sinusoidal SS solutions of linear ODEs 4.1.1-4.1.2 |
Feb. 25
Midterm Exam I |
Feb. 26
NO LECTURES |
| Mar. 1
Impedance & phasors in sinusoidal steady state ckts 4.1.3, 4.2.1 |
Mar. 2
Post-review of Exam I |
Mar. 3
Phasor ckt analysis 4.2.2-4.2.3 |
Mar. 4 |
Mar. 5
Avg and available power 4.3 |
| Mar. 8
Resonance 4.4
Lab 2 |
Mar. 9
Frequency response of dissipative LTI systems 5.1-5.2 |
Mar. 10
LTI system response to co-sinusoids & multi-frequency inputs 5.3-5.5 |
Mar. 11 |
Mar. 12
Periodic signals 6.1 |
| Mar. 15
Fourier series & its forms 6.2 |
Mar. 16
Fourier series examples 6.2 |
Mar. 17
LTI system response to periodic inputs 6.3.1 |
Mar. 18 |
Mar. 19
Avg signal power, Parseval's thm, harmonic distortion 6.3.2-6.3.3 Last day for ECE 211 |
| Mar. 22
Fourier transform of aperiodic signals 7.1
Lab 3 |
Mar. 23
Fourier transform pairs and properties of FT 7.1 |
Mar. 24
NO LECTURES NO LABS |
Mar. 25
Midterm Exam II |
Mar. 26
NO LECTURES |
| Mar. 29
Signal energy and bandwidth 7.2 |
Mar. 30
Post-review of Exam II |
Mar. 31
LTI system response using FT 7.3 |
Apr. 1 |
Apr. 2
Modulation property, AM signal, coherent demodulation 8.1-8.2 |
| Apr. 5
Envelope detection, superhet AM receiver 8.3-8.4
Lab 4 |
Apr. 6
Convolution & FT convolution properties 9.1.1-9.1.2 |
Apr. 7
Graphical convolution 9.1.3 |
Apr. 8 |
Apr. 9
Convolution examples 9.1.3 |
| Apr. 12
Impulse & its properties 9.2 |
Apr. 13
NO LECTURES |
Apr. 14
FT of power signals 9.2-9.3 |
Apr. 15 |
Apr. 16
Sampling & analog signal reconstruction 9.4 |
| Apr. 19
Impulse response & BIBO stability 10.1-10.2
Lab 5 |
Apr. 20
Causality & LTIC systems 10.3-10.5 |
Apr. 21
Transfer function & Laplace transform 11.1 |
Apr. 22
Midterm Exam III |
Apr. 23
NO LECTURES |
| Apr. 26
Properties of Laplace Transform 11.1 |
Apr. 27
Post-review of Exam III |
Apr. 28
Inverse Laplace transform & PFE 11.2 |
Apr. 29 |
Apr. 30
s-domain ckt analysis, general response of LTIC systems 11.3, 11.4.1 |
| May 3
Zero-input response in LTIC ckts & systems 11.4.1-11.4.2 |
May 4
Ckt initial value problems 11.4.3 |
May 5
LTIC system combinations 11.5 |
May 6 Reading Day |
May 7 |