Spring 2000 EECS 42 W. G. Oldham WEEK Dates Lecture Reading Topics Key Ideas1 Jan 16 1 0.1-0.4 EECS, Signals, Analog and Digital Hardware: Systems, Circuits, IC’s,Passive and Active devices, Signals1 Jan 18 2 1.1 Electrical Quantities Energy, Potential, Charge, Field,Voltage, Current, Power, Ground2 Jan 23 3 2.1, 2.2, 5.1 Ideal Circuit Elements Ohms law, Resistors, Voltage sources,Current sources, Wires, Series, Parallel2 Jan 25 4 2.2, 3.2 I-V graphs I vs V for 2-terminal elements, Linearand Non-linear behavior3 Jan 30 5 1.2,1.3 Circuits and Circuit Laws Branches, Nodes, Circuit, KVL, KCL3 Feb 1 6 3.3 Power, Energy Calculations Instantaneous and Average Power4 Feb 6 7 5.1,5.2, Notes Capacitors, Inductors, Transients C, L, continuity of V or I, steady stateversus transient quantities4 Feb 8 8 8.1 Step Response Decaying exponential solutions for first-order circuits, Initial and Steady-statevalues, Time constants5 Feb 13 9 2.3 pp53-58 Nodal Analysis Nodal equations, supernodes,5 Feb 15 10 2.5, 2.6 DC Circuit applications Voltage and Current dividers, real andideal voltmeter, ammeter, ohmmeter6 Feb 20 11 3.1 DC Equivalent Circuits, Weird circuits Equivalence, Thévenin and NortonCircuits, KCL, KVL violations6 Feb 22 12 Midterm 1(Thru Lect 10)Midterm 1 Closed-book exam, Keyformulas and equations supplied on examEverything in Lectures 1-107 Feb 27 13 3.2 Load lines, Circuit tricks KVL, KCL for real, Circuitsimplifications7 Mar 1 14 4.1 Dependent Sources 4 dependent source forms, nodalanalysis with dependent sources8 Mar 6 15 4.2, Notes Amplifiers Linear amplifiers, saturation, rails8 Mar 8 16 11.1, 11.2 Digital Signals, gates Logic levels, NAND, NOR, EXORgates9 Mar 13 17 11.2 Logic Synthesis Sum of Products, Minimization,DeMorgan’s Theorem,9 Mar 15 18 11.3 Flip Flops S-R, D Flip Flops, Static Memory10 Mar 20 19 8.1, Notes Digital Signals as pulses Pulse response10 Mar 22 20 3.3, 5.2, Notes Energy and Power in Capacitor Circuits CV2 f power, scaling of powerMar 26-30Spring Break Spring Break11 April 3 21 13.1 Review Lect 1-20, emphasis on 11-2011 April 5 22 Midterm 2(Thru Lect 20)Midterm 2 Closed-book exam, Keyformulas and equations supplied on examEverything in Lectures 1-20(Emphasis lectures 11-20)12 April 10 23 13.2 Semiconductors Crystals, doping, n- and p-type Si12 April 12 24 13.2 Diodes PN junctions, ideal rectifier, diodemodels13 April 17 25 13.4 Simple diode circuits Rectifiers, peak detectors, diode logic13 April 19 26 13.4. 15.3, MOS Transistors Field effect, Threshold, Controlledresistance, 3-terminal I vs V plots14 April 24 27 13.5 CMOS Device behaviorNMOS, PMOS, Saturation, IDSAT, λ ,Short and long-channel behavior14 April 26 28 15.3 CMOS Fabrication Patterning, Deposition, Etching15 May 1 29 15.3, notes CMOS Static Logic Transfer Curve, CMOS inverter,NAND, NOR15 May 3 30 notes :CMOS Performance – Logic Delays RC and Constant-current delays, gateand load capacitance, fan-out16 May 8 31
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