Lecture notes and videos for EE 420 Engineering Electronics II and ECG 620 Analog IC Design, Spring 2014

  

May 14 – final exam (comprehensive), 6 to 8 PM

May 7 – lec8_ee420_ecg620.pdf and lec8_ee420_ecg620_video – review for the final exam

May 5 – read Sec. 26.4 and then watch:

26.4 Op–Amp Design Using Switched–Capacitor CMFB – ch26_26_4_video (30:07), ch26_26_4_notes.pdf, and ch26_26_4.zip

April 30 – read Sec. 26.3 and then watch:

26.3 Basic Op–Amp Design – ch26_26_3_video (64:54), ch26_26_3_notes.pdf, and ch26_26_3.zip

April 28 – read Secs. 26.1 and 26.2 and then watch:

26.1 Biasing for Power and Speed, 26.1.1 Device Characteristics, and 26.1.2 Biasing Circuit – ch26_26_1_video (11:54), ch26_26_1_notes.pdf, and ch26_26_1.zip

26.2 Basic Concepts – ch26_26_2_video (38:20), ch26_26_2_notes.pdf, and ch26_26_2.zip

April 23 – read the second part of Sec. 24.5 and then watch:

24.5.part2 Some Examples and Discussions – ch24_24_5_p2_video (37:59), ch24_24_5_p2_notes.pdf, and ch24_24_5_p2.zip 

April 21 – read the first part of Sec. 24.5 and then watch:

24.5.part1 Some Examples and Discussions – ch24_24_5_p1_video (51:51) and ch24_24_5_p1_notes.pdf

April 18 – read Sec. 24.4 and then watch:

24.4 Gain–Enhancement – ch24_24_4_video (30:29), ch24_24_4_notes.pdf, and ch24_24_4.zip

April 16 – read Sec. 24.3 and then watch:

24.3 The Operational Transconductance Amplifier (OTA) – ch24_24_3_video (57:08), ch24_24_3_notes.pdf, and ch24_24_3.zip

April 14 – read the end of Sec. 24.1 and Sec. 24.2 and then watch:

24.1.part3 The Two–Stage Op–Amp – ch24_24_1_p3_video (40:09), ch24_24_1_p3_notes.pdf, and ch24_24_1_p3.zip

24.2 An Op–Amp with Output Buffer – ch24_24_2_video (14:32), ch24_24_2_notes.pdf, and ch24_24_2.zip

April 7 – read the second part of Sec. 24.1 and then watch: 

24.1.part2 The Two–Stage Op–Amp – ch24_24_1_p2_video (67:03), ch24_24_1_p2_notes.pdf, and ch24_24_1_p2.zip

April 2 – read the first part of Sec. 24.1 and then watch:

23.2.part2 Parasitic Diode–Based References and 23.2.2 Short–Channel BGR Design – ch23_23_2_p2_video (18:26), ch23_23_2_p2_notes.pdf, and ch23_23_2_p2.zip 

24.1.part1 The Two–Stage Op–Amp – ch24_24_1_p1_video (31:22), ch24_24_1_p1_notes.pdf, and ch24_24_1_p1.zip

March 31 – read Sec. 23.2 and then watch:

23.2.part1 Parasitic Diode–Based References and 23.2.1 Long–Channel BGR Design – ch23_23_2_p1_video (71:29), ch23_23_2_p1_notes.pdf, and ch23_23_2_p1.zip 

March 26 – read Sec. 23.1 and then watch: 

23.1 Voltage References, 23.1.1 The Resistor–MOSFET Divider, 23.1.2 The MOSFET–Only Voltage Divider, and 23.1.3 Self–Biased Voltage References – ch23_23_1_video (51:44), ch23_23_1_notes.pdf, and ch23_23_1.zip

March 24 – read Sec. 22.3 and then watch:

22.1.part2 The Source–Coupled Pair, 22.1.3 Common–Mode Rejection Ratio, 22.1.4 Matching Considerations, 22.1.6 Slew–Rate Limitations, and 22.3 Cascode Loads (The Telescopic Diff–Amp) – ch22_22_1_p2_video (69:31), ch22_22_1_p2_notes.pdf, and ch22_22_1_p2.zip

March 12 – read Sec. 22.1 and then watch:

22.1.part1 The Source–Coupled Pair – 22.1.1 DC Operation – 22.1.2 AC Operation – ch22_22_1_p1_video (73:03), ch22_22_1_p1_notes.pdf, and ch22_22_1_p1.zip

March 10 – midterm (open book and closed notes)

March 5 – lec7_ee420_ecg620.pdf and lec7_ee420_ecg620_video – review for the midterm exam

March 3 – read Sec. 21.3 and then watch:

21.3 The Push–Pull Amplifier – ch21_21_3_video (58:39), ch21_21_3_notes.pdf, and ch21_21_3.zip

February 26 – read Secs. 21.2.2–21.2.4 and then watch:

21.2.part2 Current Source Loads – 21.2.2 The Cascode Amplifier, 21.2.3 The Common–Gate Amplifier, and 21.2.4 The Source Follower (Common–Drain Amplifier) – ch21_21_2_p2_video (55:38), ch21_21_2_p2_notes.pdf, and ch21_21_2_p2.zip

February 24 – read Secs. 21.2 and 21.2.1 and then watch:

21.2.part1 Current Source Loads – 21.2.1 Common–Source Amplifier – ch21_21_2_p1_video (1:07:33), ch21_21_2_p1_notes.pdf, and ch21_21_2_p1.zip

February 19 – read Sec. 21.1 and then watch:

21.1 Gate–Drain–Connected Loads – ch21_21_1_video (58:25) and ch21_21_1_notes.pdf

February 12 – lec6_ee420_ecg620.pdf and lec6_ee420_ecg620_video – cascoding the current mirror and wide–swing cascodes

February 10 – lec5_ee420_ecg620.pdf and lec5_ee420_ecg620_video – the beta–multiplier reference (BMR), long– and short–channel design

February 5 – read Ch. 20 and then watch:

20.1.part1 Current Mirrors – 20.1.1 Long–Channel Design and 20.1.2 Matching Currents in the Mirror – ch20_20_1_p1_video (45:28), ch20_20_1_p1_notes.pdf, and ch20_20_1_p1.zip

20.1.part2 Current Mirrors – 20.1.2 Matching Currents in the Mirror and 20.1.3 Biasing the Current Mirror – ch20_20_1_p2_video (50:01), ch20_20_1_p2_notes.pdf, and ch20_20_1_p2.zip

February 3 – lec4_ee420_ecg620.pdf and lec4_ee420_ecg620_video – temperature effects, summarize selecting overdrive and device sizes

January 29 – lec3_ee420_ecg620.pdf and lec3_ee420_ecg620_video – body effect tranconductance, output resistance, transition frequency, open–circuit gain, GFT

January 27 – lec2_ee420_ecg620.pdf and lec2_ee420_ecg620_video – Sec. 9.1.1 the square–law models, Rch, and body effect, work Ex. 9.5

January 22 – lec1_ee420_ecg620.pdf and lec1_ee420_ecg620_video – course introduction, (read Ch. 9) models for analog design

 

Return