| Date: | Activity | Reading in Textbook | Assignments Due |
|---|---|---|---|
| 01/19/2010 Tue |
Lecture | 1.1 Determining Current Given Charge; 1.2 Power Calculations; 1.3 Energy Calculation; | None |
| 01/21/2010 Thu |
Lecture | 1.4 Resistance Calculation; 1.5 Determining Resistance for Given Power and Voltage Ratings; | Ethics Statement |
| 01/26/2010 Tue |
Lecture | 1.6 Circuit Analysis Using Arbitrary references; 1.7 Using KVL, KCL and Ohm's Law to Solve a Circuit; | HW01 submitted |
| 01/28/2010 Thu |
Lecture | 2.1 Combining Resistances in Series and Parallel; 2.2 Circuit Analysis by Using Series/Parallel Equivalents; 2.3 Application of the Voltage-Division Principle; | None |
| 02/02/2010 Tue |
Lecture | 2.4 Applying the Current- and Voltage-Division Principles; 2.5 Application of the Current-Division Principle; | HW02 submitted |
| 02/04/2010 Thu |
Lecture | 2.6 Node Voltage Analysis; 2.7 Node Voltage Analysis; 2.8 Node Voltage Analysis; | None |
| 02/09/2010 Tue |
Lecture | 2.9 Node-Voltage Analysis with a Dependent Source; 2.10 Node-Voltage Analysis with a Dependent Source | HW03 submitted |
| 02/11/2010 Thu |
Lecture | 2.11 Mesh-Current Analysis; 2.12 Mesh-Current Analysis; 2.13 Mesh-Current Analysis with Controlled Sources; | None |
| 02/16/2010 Tue |
Lecture | 2.14 Determining the Thévenin Equivalent Circuit; 2.15 Zeroing Sources to Find Thévenin Resistance; | HW04 submitted |
| 02/18/2010 Thu |
Lecture | 2.16 Thévenin Equivalent of a Circuit with a Dependent Source; 2.17 Norton Equivalent Circuit; 2.18 Using Source Transformations; 2.19 Determining maximum Power Transfer; | None |
| 02/23/2010 Tue |
Lecture | 2.20 Circuit Analysis Using Superposition; 2.21 Solving a Circuit with a Controlled Source Using Superposition; 2.22 Using a Wheatstone Bridge to Measure Resistance; | HW05 submitted |
| 02/25/2010 Thu |
Lecture | 14.1 Analysis of an Inverting Amplifier; 14.2 Design of a Noninverting Amplifier; 14.3 Amplifier Design; 14.4 Summing Amplifier Design; | None |
| 03/02/2010 Tue |
Lecture | 3.1 Determining Current for a Capacitance Given Voltage; 3.2 Determining Voltage for a Capacitance Given Current; 3.3 Current, Power and Energy for a Capacitance; 3.4 Calculating capacitance Given Physical Parameters; | HW06 submitted |
| 03/04/2010 Thu |
Exam I | Chapters 1 and 2 | None |
| 03/09/2010 Tue |
Lecture | 3.5 What Happened to the Missing Energy?; 3.6 Voltage, Power and Energy for an Inductance; 3.7 Inductor Current with Constant Applied Voltage; | None |
| 03/11/2010 Thu |
Lecture | 4.1 Steady-State DC Analysis; 4.2 RL Analysis; 4.3 RL Analysis; | HW07 submitted |
| 03/23/2010 Tue |
Lecture | 5.1 Power Delivered to a Resistance by a Sinusoidal Source; 5.3 Using Phasors to Add Sinusoids; | None |
| 03/25/2010 Thu |
Lecture | 5.4 Steady-State Analysis of a Series Circuit; 5.5 Series and Parallel Combinations of Complex Impedances; | HW08 submitted |
| 03/30/2010 Tue |
Lecture | 5.6 Steady-State AC Node-Voltage Analysis; 5.7 AC Power Calculations; | None |
| 04/01/2010 Thu |
Lecture | 5.8 Using Power Triangles; 5.9 Power Factor Correction; 5.10 Thévenin and Norton Equivalents; | HW09 submitted |
| 04/06/2010 Tue |
Lecture | 5.11 Maximum Power Transfer; 15.10 Analysis of a Circuit Containing an Ideal Transformer; 15.11 Using Impedance Transformations; | None |
| 04/08/2010 Thu |
Lecture | 15.12 Reflecting the Source to the Secondary; 15.13 Regulation and Efficiency Calculations; 6.1 Using the Transfer Function to Determine the Output; | HW10 submitted |
| 04/13/2010 Tue |
Lecture | 6.2 Using the transfer Function with Several Input Components; 6.3 Calculation of RC Lowpass Output; 6.4 Determination of the Break Frequency for a Highpass Filter; | None |
| 04/15/2010 Thu |
Lecture | 6.5 Computer-Generated Bode Plot; 6.6 Series Resonant Circuit; 6.7 Parallel Resonant Circuit; | HW11 submitted |
| 04/20/2010 Tue |
Lecture | 6.8 Filter Design; 6.9 Step Response for a First-Order Digital Lowpass Filter; Bode Plots; | None |
| 04/22/2010 Thu |
Lecture | 14.5 Open-Loop and Closed-Loop14.6 Full-Power Bandwidth; | HW12 submitted |
| 04/27/2010 Tue |
Lecture | 14.7 Determining Worst-Case DC Output; 14.8 Lowpass Active Filter Design; | None |
| 04/29/2010 Thu |
Exam II | Chapters 3, 4, 5, 6, parts of 14 and 15 | None |
| 05/04/2010 Tue |
Review | Material of Exam I | None |
| 05/06/2010 Thu |
Review | Material of Exam II | None |
| 05/13/2010 Mon |
Final Exam | 2:00 pm - 4:30 pm | None |