EECS 105: Microelectronic Devices and Circuits Spring 2002 Schedule R. T. Howe WEEK LECTURE TOPICS READING LAB Week 1 no lab Phasors and the Frequency Domain Lec. 1 (1/23) course overview: sinusoidal sources Reader: OS excerpt Lec. 2 (1/25) phasor representation; impedance Reader: OS excerpt Week 2 Exp. 1 Lec. 3 (1/28) transfer functions, time/frequency domain HS 10.1 Lec. 4 (1/30) Bode plots: first-order transfer functions HS 10.1 Lec. 5 (2/1) Second-order circuits: time domain Reader: OS excerpt Week 3 Exp. 2 Lec. 6 (2/4) 2nd order f domain; general Bode plots Reader: OS excerpt, HS 10.1 IC Two-Terminal Circuit Elements: Resistors and Capacitors Lec. 7 (2/6) donors and acceptors in Si; drift current HS 2.1-2.3 Lec. 8 (2/8) Ohm’s law, IC resistors, sheet resistance HS 2.6 Week 4 Exp. 3 Lec. 9 (2/11) metal-metal capacitor HS 3.1 Lec. 10 (2/13) pn junction (equilibrium, reverse bias) HS 3.4.1-2, 3.5 Lec. 11 (2/15) pn junction small-signal capacitor HS 3.6 Week 5 Exp. 4 (2/18) Presidents’ Day Lec. 12 (2/20) MOS small-signal capacitor HS 3.7, 3.9 The MOSFET Lec. 13 (2/22) MOSFET large-signal overview HS 4.1 Week 6 Exp. 5 Lec. 14 (2/25) MOSFET large-signal model HS 4.3 Lec. 15 (2/27) MOSFET small-signal model HS 4.5 Lec. 16 (3/1) pn junction diode under forward bias HS 6.1-6.3WEEK LECTURE TOPICS READING LAB pn Junction Devices Week 7 no lab Lec. 17 (3/4) circuit models, diffusion capacitance HS 6.4-5 Midterm I. Wednesday, March 6, 6-7:30 pm (no lecture 3/6) Lec. 18 (3/8) bipolar transistors in forward-active bias HS 7.1-2 Week 8 Exp. 6 Lec. 19 (3/11) bipolar transistor small-signal model HS 7.5 Integrated Single-Stage Amplifiers Lec. 20 (3/13) Amplifier concept; 2-port parameters HS 8.1,2 Lec. 21 (3/15) Common source amplifier: biasing HS 8.3 Week 9 Exp. 7 Lec. 22 (3/18) Common source amp: two-port model HS 8.5 Lec. 23 (3/20) Common gate amplifier: biasing HS 8.8 Lec. 24 (3/22) Common gate amp: two-port model HS 8.8 Spring Break March 25-29 Week 10 Exp. 8 Lec. 25 (4/1) Common drain amplifier: biasing HS 8.9 Lec. 26 (4/3) Common drain amp: two-port model HS 8.9 Lec. 27 (4/5) Bipolar amplifier stages HS 8.1,2,9 Week 11 Exp. 9 Lec. 28 (4/8) Summary of single stage amplifiers HS 8.1-9 Frequency Response of Single-Stage Amplifiers Lec. 29 (4/10) Current amplifiers: transition frequency HS 10.2-3 Lec. 30 (4/12) Voltage amplifiers: Miller approximation HS 10.4 Week 12 no lab Lec. 31 (4/15) Voltage and current buffer f response HS 10.5-6 Midterm II. Wednesday, April 17, 6-7:30 pm (no lecture 4/17) Lec. 32 (4/19) Multistage amplifiers: two-port cascades HS 9.1-2 Integrated Multistage Amplifiers Week 13 Exp 10 Lec. 33 (4/22) Direct-coupled amps: DC level shifting HS 9.3 Lec. 34 (4/24) Integrated voltage/current supplies I HS 9.4 Lec. 35 (4/26) Integrated voltage/current supplies II HS 9.5WEEK LECTURE TOPICS READING LAB Week 14 Exp 11 Lec. 36 (4/29) Multistage amp examples: transconductance HS 9.5 Lec. 37 (5/1) Multistage amp examples: voltage wrap-up HS 9.5 Lec. 38 (5/3) Multistage wrap-up HS Chap. 9 Multistage Amplifier Frequency Response Week 15 Makeup Lec. 38 (5/6) Open-circuit time constants HS 10.4.4 Lec. 39 (5/8) Multistage amp frequency response HS 10.7 Lec. 40 (5/10) Voltage amplifier example HS 10.7.2 Week 16 Lec. 41 (5/13) Course wrap-up Final Examination: Saturday, May 18, 2002, 8:00 am – 11:00 am. HS: R. T. Howe and C. G. Sodini, Microelectronics: An Integrated Approach, Prentice Hall, 1997. Reader: EE 105 course reader, available at Copy Central. OS = W. G. Oldham and S. E. Schwarz, Introduction to Electrical Engineering, 1st Edition, HRW,
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