Metal-Semiconductor Contacts
Lecture
8: Poisson's equation, work function, M-S energy band diagrams
Lecture
9: I-V characteristics, practical ohmic contacts, small-signal
capacitance
pn Junction Diodes
Lecture
10: Electrostatics
Lecture
11: Junction breakdown; ideal diode equation
Lecture
12: Narrow-base diode; charge-control model
Lecture
13: Deviations from the ideal; small-signal model
Lecture
14: Transient response; diode applications
The Bipolar Junction Transistor
Lecture
15: BJT fundamentals, ideal transistor analysis
Lecture
16: Narrow emitter/collector; Ebers-Moll model, base-width modulation
Lecture
17: Early voltage, bandgap narrowing, poly-Si emitter, Gummel plot
Lecture
18: Non-ideal effects, charge control model, base transit time
Lecture
19: Small-signal model, transient response
PNPN Devices
Lecture
20
The MOS Capacitor
Lecture
21: Energy-band diagrams, electrostatics
Lecture
22: Capacitance, effect of oxide charges
Lecture
23: MOS non idealities, VT adjustment, MOSFET structure
and operation
The MOS Field-Effect Transistor
Lecture
24: Long-channel MOSFET I-V (square-law theory)
Lecture
25: Long-channel MOSFET I-V (modified), effective mobility,
subthreshold leakage
Lecture
26: Small-signal model, velocity saturation; short-channel MOSFET I-V
Lecture
27: Short-channel effect, drain-induced barrier lowering, source/drain
engineering
Lecture
28: MOSFET scaling, CMOS technology
Lecture
29: SOI technology, MOS memory devices
Lecture
30: Charge-coupled devices
Course Review
Lecture
31