PDF with 2/page PDF with 6/page Topic Group
L#01_1/22/03 L#01_1/22/03 Overview
L#02_1/27/03 L#02_1/27/03 Nodes and Elements
L#03_1/29/03 L#03_1/29/03 KCL, KVL
L#04_2/03/03 L#04_2/03/03 Capacitor
L#05_2/05/03
L#06_2/10/03 L#06_2/10/03 RC Circuit Sketch response, Exponential
L#07_2/12/03 L#07_2/12/03 RC EECS 42 Easy Method and Applications
L#08_2/19/03 L#08_2/19/03 Node Equation method and Supernodes
L#09_2/24/03 L#09_2/24/03 Node equation analysis of circuits
L#10_2/26/02
L#11_3/03/03 L#11_3/03/03 Logic Symbols, Truth Tables, Timing Diagrams
Midterm on 3/5/03
L#12_3/10/03 L#12_3/10/03 Physical Limits of Logic
L#13_3/12/03 L#13_3/12/03 Dependent Spources and Op-Amps
L#14_3/17/03 L#14_3/17/03 Circuit Analysis with Dependent Sources
L#15_3/19/03 L#15_3/19/03 Comparators and implementation with op-amps
L#16_3/30/03 L#16_3/30/03 State Dependent device and NMOS Inverter
L#17_4/02/03 L#17_4/02/03 PMOS Device and CMOS Inverter
L#18_4/07/03 L#18_4/07/03 Transient Model for Inverter
L#19_4/09/03 L#19_4/09/03 Quiz and Transient Examples
L#20_4/14/03 L#20_4/14/03 Multi-Transistor CMOS Logic and Delay
Midterm on 4/16/03
L#21_4/21/03 L#21_4/21/03 Latches and Cascade Delay
L#22_4/23/03 L#22_4/23/03 Pipelined Logic and Clock
L#23_4/28/03 L#23_4/28/03 Diodes and Circuit Use
L#24_4/30/03 L#24_4/30/03 MOS Physical Model
L#25_5/05/03 L#25_5/05/03 Microfabrication
L#26_5/05/03 L#26_5/05/03 Review of Basic Material
L#27_5/12/03 L#27_5/12/03 Review of Advanced Material