Web site: http://www.usna.edu/EE/ee342/ which contains the syllabus, and policy statements, and instructor assigned problems, and other references.
Problems: Ex. are Exercises within the chapters, P are problems at end of the chapters, and $ are instructor assigned problems.
Email: My address is sellami@usna.edu. Frequently I will make course announcements by email, and I will expect you to monitor your mail, and to use it as you deem necessary.
| Date | Lecture | Reading | Topics | Problems |
| Jan 08 | 1 | Ch. 4 & 5 | Electronics Review | $.BJT, $.MOS |
| 10 | 2 | 6.1-6.2 | BJT Differential Pair | Ex6.1, P6.1 |
| Lab | 1 | BJT Design | ||
| Jan 13 | 3 | 6.2-6.3 | BJT Differential Amp Analysis | P6.18, P6.19, P6.21 |
| 15 | 4 | 6.4-6.5 | BJT IC Biasing | Ex6.6, Ex6.7, P6.40 |
| 17 | 5 | 6.5-6.6 | Diff.Amp/Active Load | $.CS1/CS1,$.DIF1/DIF1, P6.59 |
| Lab | 1 | LAB 1 BJT Design (continued) | ||
| Jan 20 | 6 | Martin Luther King Day | ||
| 22 | 6 | 6.9-6.10 | Multistage Amplifiers | P.6.121 |
| 24 | 7 | 6.6-6.7 | MOS Diff. Amp Analysis | $.DIF2/DIF2 |
| Lab | 2 | LAB 2 Differential Amplifier | ||
| Jan 27 | 8 | 7.1-7.2 | Frequency Response/Bode Plots | P.7.1, P.7.7 |
| 29 | 9 | 7.2-7.3 | Amp. Transfer Function | P.7.13, P.7.15 |
| 31 | 10 | 7.3-7.4 | CS Low Frequency Response | P.7.30 |
| Lab | 3 | LAB 3 Integrated Circuit Differential Amplifier | ||
| Feb 03 | 11 | 7.3-7.4 | CE Low Frequency Response | P.7.40 |
| 05 | 12 | 7.4-7.5 | CS/CE High Frequency Response | P.7.52, $.MILL1/MILL1 |
| 07 | 13 | 7.5-7.6 | CB/CG Frequency Response | P.7.60 |
| Lab | 4 | LAB 4 MOSFET Frequency Response | ||
| Feb 10 | 14 | 7.6-7.7 | CC/CD Frequency Response | P.D7.67 |
| 12 | 15 | Exam 1 | Emphasis on Chapters 6 &7 | |
| 14 | 16 | 8.1-8.4 | Feedback Properties | Ex.8.1, P.8.1, P.8.4 |
| Lab | 5 | LAB 5 Voltage Sample-Voltage Sum Amplifier | ||
| Feb 17 | President's Day | |||
| 19 | 17 | 8.4-8.5 | Series-Shunt Amplifier | P.8.21 |
| 21 | 18 | 8.5-8.6 | Series-Series Amplifier | Ex.8.6 |
| Lab | 6 | Voltage Sample-Current Sum Amplifier | ||
| Feb 24 | 19 | 8.6-8.7 | Shunt-Shunt Amplifier | $.FB1/FB1 |
| 26 | 20 | 8.6-8.7 | Shunt-Series Amplifier | P.8.43, $.FB2/FB2, $.FB3/FB3 |
| 28 | 21 | 8.7-8.8 | Feedback amplifier examples | |
| Lab | 7 | LAB 7 Current Sample- Current Sum Amplifier | ||
| March 03 | 22 | 8.11 | Frequency Compensation | FBsamples |
| 05 | 23 | 9.1-9.2 | Intro. to Power Amplifiers | |
| 07 | 24 | 9.3-9.4 | Class A, Class B Amplifiers | Ex.9.5, P.9.4 |
| Lab | 8 | LAB 8 Power Amplifier | ||
| Spring Break | ||||
| March 17 | 25 | 9.4-9.6 | Class AB Amplifiers | Ex.9.7, Ex.9.9 |
| 19 | 26 | 9.6-9.8 | Power BJTs | |
| 21 | 27 | 9.8-9.9 | IC Power Amplifiers | P.9.39 |
| Lab | 9 | LAB 9 Filtered Power Amp | ||
| March 24 | 28 | 10.1-10.3 | 741 OP-AMP Analysis | Ex.10.2, Ex.D10.3 |
| 26 | 29 | 10.3-10.6 | 741 OP-AMP Analysis | Ex.10.6 |
| 28 | 30 | 10.6-10.7 | OP-AMP Frequency Response | Ex.10.20 |
| Lab | 10 | LAB 10 Active Low Pass Filter | ||
| March 31 | 31 | 10.7 | CMOS OP-AMP /Review | Example 10.2 |
| April 02 | 32 | Exam 2 | Emphasis on Chap 8, 9&10 | |
| 04 | 33 | 11.1-11.4 | Filter Functions | Ex.11.3, Ex. 11.4 |
| Lab | 11 | LAB 11 Active Bandpass Filter Design | ||
| April 07 | 34 | 11.4-11.5 | 1st & 2nd Order Filters | Ex.11.13, Ex.11.14 |
| 09 | 35 | 11.5-11.7 | 2nd Order LCR Resonator | $.FILT1 ,$.FILT2, Ex11.21, Ex11.22, Ex11.23 |
| 11 | 36 | 11.8-11.9 | 2nd Order BiQuad Filters | P11.22, P11.35, P11.35, P11.36, P11.37, P11.40, P11.55 |
| Lab | 12 | LAB 12 Sinusoidal Oscillator | ||
| April 14 | 37 | 12.1-12.3 | Sinusoidal Oscillators | Ex.12.4, Ex.12.5, P12.9, P12.13 |
| 16 | 38 | 12.3-12.4 | LC and crystal Oscillators | Ex.12.6, Ex. 12.8 |
| 18 | 39 | 12.4-12.5 | Bi-Stable Circuits | Ex.12.11, Ex.12.12 |
| Lab | 13 | LAB 13 Multivibrators | ||
| April 21 | 40 | 12.5-12.6 | Astable Multivibrators | Ex. 12.16 |
| 23 | 41 | Oscillator examples | ||
| 25 | 42 | 12.6-12.8 | Integrated Circuit Timer | Ex.12.19 |
| April 28 | 43 | Review and Course Wrap-Up | ||
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44
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Final
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Comprehensive
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