- Electronic Circuits I
- Lecture Schedules:
- THQ: 7am – 8:30am, Rm 120 (Alarcon)
- WFX: 2:30pm – 4pm, Rm 123 (de Leon)
- WFX2: 2:30pm – 4pm, LC1 (Hizon)
Announcements
- 1/8: Welcome to EEE 51!
- 1/8: You will need to be signed in to your EEE account to access the files
- 1/17: This semester we will be using Piazza for online class discussions. The system is highly catered to getting you help fast and efficiently from classmates, GAs, and the instructors. Rather than emailing questions to the teaching staff, we encourage you to post your questions on Piazza. Find our class discussion page here. Access code: eee51-s2y19.
- 2/5: WFX and WFX2 will have no class on Friday, Feb 7.
- 2/5: Sections WFX and WFX2 will have lectures in Rm 120 on the following dates: February 12 and 14.
- 5/15: The tutorials and projects page can be found here.
Exams
- Midterm: Saturday, March 28, 1pm-4pm
- Finals: Saturday, May 23, 1pm-4pm
- Exam Policies:
- If you miss the midterm exam due to a valid reason, you must inform your instructor via email of the reason for your absence on or before April 3, 2020. You should also submit a copy of your excuse slip, certified at the college level, as soon as it is available. For students with an excused missed midterm exam, the final exam will comprise 70% of the grade.
Assignments
- Homework #1 here. Due on Feb 4, Tuesday, 5pm. (answer key)
- Homework #2 here. Due on Feb 11, Tuesday, 5pm. (answer key)
- Homework #3 here. Due on Feb 18, Tuesday, 5pm. (answer key)
- Homework #4 here. Due on Mar 3, Tuesday, 5pm. (answer key)
- Homework #5 here. Due on
Mar 24, Tuesday, 5pm.
Videos
- Homework solutions here.
- Transfer Characteristics and Biasing (example1, example2)
- Recorded lectures can be accessed through YouTube here.
Class Lectures
| 1 | Introduction | |||
| 2 | Transistor Models | |||
| 3 | Two-Port Networks | |||
| 4 | Single-Stage Amplifiers | |||
| 5 | Single-Stage Amplifiers | |||
| 6 | Current Sources | |||
| 7 | Current Mirrors | |||
| 8 | The BJT Differential Amplifier | |||
| 9 | The BJT Differential Amplifier | |||
| 10 | The MOSFET Differential Amplifier | mp4 | ||
| 11 | Differential Half-Circuit Analysis | mp4 | ||
| 12 | Differential to Single-Ended Conversion | mp4 | ||
| 13 | Compound Amplifiers | mp4 | ||
| 14 | Operational Amplifiers; Review (End of midterm exam coverage) | mp4 | ||
| 15 | Transistor Capacitances | mp4 | ||
| 16 | Frequency Response of Single-Stage Amplifiers | mp4 | ||
| 17 | Frequency Response of Single-Stage Amplifiers | mp4 | ||
| 18 | Review of Feedback Concepts | mp4 | ||
| 19 | Analysis of Feedback Amplifiers | part1 | ||
| part2 | ||||
| 20 | Stability of Feedback Amplifiers | part1 | ||
| part2 | ||||
| 21 | Compensation | part1 | ||
| part2 | ||||
| 22 | Step Response of Feedback Amplifiers | mp4 | ||
| 23 | Introduction to Oscillators | |||
| 24 | Sinusoidal Oscillators |
Additional References
- Gray, Hurst, Lewis and Mayer. Analysis and Design of Analog Integrated Circuits, 4th ed. ©2000. Wiley.
- Boylestad and Nashelsky. Electronics Devices and Circuit Theory, 8th ed. ©2002. Prentice-Hall, NJ.
- Savant, Roden, and Carpenter. Electronic Design. ©1991. Benjamin/Cummings Publishing Co.
- Chirlian. Analysis and Design of Integrated Electronic Circuits. ©1986. Addison-Wesley.
- Millman and Grabel. Microelectronics. ©1987. Mc-Graw Hill.