Lecture
notes and videos for EE 320 Engineering Electronics I, Spring
2013
May
15 – final exam (comprehensive), 3:10 to 5:10 PM
May
8 – lec27_ee320.pdf
and lec27_ee320_video –
review for the final exam
May
6 – lec26_ee320.pdf
and lec26_ee320_video –
more amplifier design using the BJT
May
1 – lec25_ee320.pdf
and lec25_ee320_video –
common-emitter (CE) amplifiers, derivation of gm,
rbe,
and re
April
29 – lec24_ee320.pdf
and lec24_ee320_video –
start discussing bipolar junction transistors (BJTs)
April
24 – lec23_ee320.pdf
and lec23_ee320_video –
work the exam
April
22 – midterm2
April
17 – lec22_ee320.pdf
and lec22_ee320_video –
review for midterm2
April
15 – lec21_ee320.pdf
and lec21_ee320_video –
the source–follower (SF, aka common–drain) and common-gate (CG)
amplifiers
April
10 – lec20_ee320.pdf
and lec20_ee320_video –
work homework problems including simulations, selecting coupling
capacitors
April
8 – lec19_ee320.pdf
and lec19_ee320_video –
review CS amplifier, simulating input and output resistance
April
3 – lec18_ee320.pdf
and lec18_ee320_video –
even more CS amplifiers, PMOS flavor
April
1 – lec17_ee320.pdf
and lec17_ee320_video –
Q–point, common-source (CS) amplifier
March
20 – lec16_ee320.pdf
and lec16_ee320_video –
biasing the MOSFET, four–resistor biasing, MOSFET amplifiers
March
18 – lec15_ee320.pdf
and lec15_ee320_video –
channel–length modulation, body effect, depletion devices
March
15 – lec14_ee320.pdf
and lec14_ee320_video –
MOSFET operation, current–voltage equations, channel resistance in
triode,
transconductance, gm
March
13 – lec13_ee320.pdf
and lec13_ee320_video –
work homework problems, start on Ch. 4, characteristics of the MOS
capacitor
March
11 – lec12_ee320.pdf
and lec12_ee320_video –
review the exam, introduce transistors
March
6 – hw_help1.pdf
and hw_help1_video –
help with Ch. 3 homework problems from HW#8 and HW#9
March
4 – midterm1
March
1 – lec11_ee320.pdf
and lec11_ee320_video –
full–wave rectifiers and review for midterm1
February
25 – lec10_ee320.pdf
and lec10_ee320_video –
diode small–signal resistance and rectifiers
February
22 – lec9_ee320.pdf
and lec9_ee320_video –
Schottky diodes, diode circuit analysis, ideal diodes, half–wave
rectifiers
February
15 – lec8_ee320.pdf
and lec8_ee320_video –
diode temperature behavior, built–in potential, energy band diagrams,
Zener
diodes, breakdown voltage, examples
February
13 – lec7_ee320.pdf
and lec7_ee320_video –
the diode equation, forward and reverse bias, saturation current,
breakdown
February
11 – lec6_ee320.pdf
and lec6_ee320_video –
overview of the diode, pn
junction physics, Sec. 3.1
February
6 – lec5_ee320.pdf
and lec5_ee320_video –
resistivity of Si, doping, mobility, diffusion and drift currents
February
4 – lec4_ee320.pdf
and lec4_ee320_video –
finish op–amp gain–bandwidth, start Ch. 2, Solid–State Electronics
January
30 – lec3_ee320.pdf
and lec3_ee320_video –
op–amp imperfections, finite gain, offset, gain–bandwidth, and examples
January
28 – lec2_ee320.pdf
and lec2_ee320_video –
more op–amp circuits, the integrator, frequency response, making an
ideal
op–amp symbol in LTspice
January
23 – lec1_ee320.pdf
and lec1_ee320_video –
course overview, review of op–amp circuits, introduction to LTspice