EE105, Fall 2014
Microelectronic Devices and Circuits |
- Lecture 0: Adminisrative (8/28/14)
- Lecture 1: Introduction and overview (8/28/14)
- Lecture 2: Review: Amplifier models, Ideal Op Amp (9/2/14)
- Lecture 3: Review: Frequency response, Bode plot (9/4/14-9/9/14)
- Lecture 4: Non-ideal Op Amp: feedback circuit (9/9/14)
- Lecture 5: Frequency response of Op Amp (updated 9/11/14)
- Lecture 6: Non-ideal Op Amp: offset, slew rate (slide 7,14 updated 9/16/14)
- Lecture 7: p-n junction diodes, junction capacitances, SPICE model
- Lecture 8: MOSFET: physics (updated 9/27/14)
- Lecture 9: MOSFET: SPICE model, dc analysis (updated 9/25/14)
- Lecture 10: Bipolar Junction Transistor (BJT): physics
- Lecture 11: Bipolar Junction Transistor (BJT): cut-off frequency, transit time, Early voltage, bias circuits (updated 10/6/14)
- Lecture 12: BJT Small-Signal Model [Recorded Lecture]
- Lecture 13: MOSFET Small-Signal Model
- Lecture 14: Frequency response (slide#8 updated 10/21/14)(slide#6 updated 12/8/14)
- Lecture 15: Short circuit time constant (SCTC) method [ref]
- Lecture 16: High frequency transistor models
- Lecture 17: High frequency response, Miller effect, Open Circuit Time Constant (OCTC) method
- Lecture 18: Single transistor amplifier configurations [Recorded Lecture]
- Lecture 19: Review of single transistor amplifiers (updated 11/4/14 10:42 pm)
- Lecture 20: Current mirrors
- Lecture 21: AC-coupled multistage amplifiers [Recorded Lecture]
- Lecture 22: DC-coupled multistage amplifiers
- Lecture 23: Amplifier frequency response
- Lecture 24: Digital circuits, CMOS inverters, logic gates
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Last updated 10/09/14 |
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