ANALOG
Chapter 1: Foundations
Overview:Chapter1
Class 1:DC Circuits
Worded example: Resistors & instruments
Lab 1:DC circuits
Class 2:Capcaitors&RC Circuits
Worked example: RC circuits
A Note on reading capacitor values
Lab 2:Capacitors
Class 3:Diode Circuits
Worked example: Power supply
Lab 3:Diode circuits
Wrap-up:Ch.1:Review
Jargon and terms
Chapter 2 :Transistors (bipolar)
Overview: Chapters 2 &3
Class 4:Transistors I: First Model
Worked example :Emitter follower
Lab 4:Transistors I
Class 5:Transistors II: Corrections to the first model :Ebers-Moll:re;applying this new view
Worked example: Common-emitter amplifier(bypassed emitter)
Lab 5: Transistors II
Class 6: Transistors III: Differential amplifier; Miller effect
Worked example; Differential amplifier
Lab 6:Transistors III
Wrap-up Ch.2:Review
Jargon and terms
Chapter 3:Field Effect Transistors
Class 7:FETsI(linear applications)
Worked example: Current source ,source follower
Lab 7:FETsI(linear)
(We return to FETs in Lab 11)
Chapter 4:Feedback and Operational Amplifiers
Overview: Feedback: Chapter 4.5&6
Class 8:Op Amps I: Idealized view
Worked Example :Inverting amplifier; summing circuit
Lab 8:Op amps I
Class 9:Op Amps II: Departures from ideal
Worked example : Integrators; effects of op amp error
Lab 9:Op amps II
Chapter 4 (continued);Chapter 5 Active Filters &Oscillators
Class 10:Op Amps III: Positive Feedback, Good and Bad: comparators, oscillators, and unstable circuits; a quantitative view of the effects of negative feedback
Appendix: Notes on op amp frequency compensation
Worked example: Effects of feedback
(quantitative)
Schmitt trigger
Op Amp Innards; Annotated schematic of the LF411
Lab 10:Positive feedback, good and bad
Wrap-up Chs.4&5:Review
Jargon and terms
Chapter 5:Field Effect Transistors(revisited)
Class 11:FETsII: Switches(power switching and analog switch applications)Worked example: Sample and hold
Lab 11:FET switches
Wrap-up Ch.3 :Review
Jargon and terms
Chapter 6:Voltage Regulators and Power Circuits
Class 12:Voltage Regulators
Lab 12:Voltage regulators
Wrap-up Ch.6 :Jargon and terms
(This course omits Text's Chapter 7:Prcision Circuits &Low-Noise Techniques
DIGITAL
Chapter 8:Digital Electronics
Overview: Chapters 8&9
Class 13:Digital Gates; Combinational Logic
Worked example : Multiplexers
Binary arithmetic
Lab 13:Digital gates
Class 14:Sequential Circuits; Filp-Flops
Worked example: combinational logic
Lab 14:Flip-flops
Class 15:Counters
Worked example; counter applications
Lab 15 :Counters
Class 16: Memory ;Buses;State Machines
Worked example;state machines
Lab 16:Memory;State Machines
Wrap-up Ch.8:Review
Jargon and terms
Chapter 9:Digital Meets Analog
Class 17:AnalogDigital;
Phase-Locked Loop
Lab 17:Analog Digital;
Phase-Locked Loop
Wrap-up Ch.9:Review
Jargon and terms
Chapter 10,11:Microcomputers;Microprocessors
Overview:Chapter 10&11
Class 18:μ1:IBM PC and our lab microcomputer
Worked example:minimal 68008 controller
Lab 18: Add CPU
Class 19:Assenbly Language;Inside the CPU;I/O Decoding
Supplementary notes:Introdection to assembly language
Lab 19:μ2:I/O
Class 21:μ4:More Assembly-Language Programming ;12-bit port
Worked example :10 tiny programs
Worked Example:12-bit frequency counter
Hand assembly :table of codes
Lab 21:A/D,D/A,Data Handling
Class 22:μ5:Interrupts&Other'Exceptions'Debugging aid:Register Check in two forms
Lab 22:'Storage scope';Interrupts&other 'exceptions'
Class 23:μ6:Wrap-up;Buying and Building
Lab 23:Applying your microcomprter('Toy Catalog')
Wrap-up Chapters 10,11:
Review
Jargon and terms
Appendix:
A Equipment and Parts List
B Selected data sheets
2N5485 JFET
DG403 analog switch
74HC74 dual D FLIP-FLOP
AD7569 8-bit A/D,D/A
68008 executon times and timing diagram
25120 write-only memory
C Big Picture:Schematic of lab
D Pinouts
Index
Laboratory Exercses (a more detailed listing )
PART 1:ANALOG LABS
Lab 1 DC Circuits
Ohm;s law;A Nonlinear device;The diode ;Voltage divider ,Thevenin model;Oscilloscope;AC voltage divider
Lab 2 Capacitors
RC circuit; Differentiator,Integrator,Low-pass filter,High-pass filter,Filter exampleI;Filter ecaple II;Blocking capacitor;LC filter
Lab 3 Diodes
LC resonant circuit;Confirming Fourice series;Half-wave rectifier,Full-ware bridge rectifier;Ripple;Signal diodes ;Diode clamp;Diode limiter ,Impedances of test instruments
Lab 4 Transistors I
Transistor junctions are diodes; Emitter follower,Transistor current gain ;Current source;Common emitter amplifier, Transistor switch
Lab 5 Transistor II
Dynamic diode curve tracer ,Grounded emitter amplifier ,Current mirror ,Ebers=Moll equation;Biasing :good&bad;Push-Pull
Lab 6 Transistors III
Differential amplifier ;Bootstrap;Miller effect;Darlington;Superbeta
Lab 7 Field Effect Transistors I
FET characteristics;FET current sources ; Source follower;FET as Voltagecontrolled resistance;Amplitude modulation;Radio broadcast'
Lab 8 Op Amps I
Op-amp open-loop gain;Inverting amplifier;Non-inverting amplifier;Follower;Current source ;Current-to-voltage converter,Summing amplifier,Push-pull buffer
Lab 9 Op Amps II
Op-amp limitations;AC amplifier;Integrator,Differentiator;Active rectifier;Activeclamp
Lab 10 Oscillators
Comparator;Schmitt trigger;IC relaxation oscillator,Sawtooth wave oscillator;
Voltage-controlled oscillator;Wien bribge sine oscillator,Unwanted oscillations;discrete follower&op amp stability problems
Lab 11 Field Effect Transistors II
Analog switch characteristics;Applications:chopper circuit;sample-&-hold;switched-capacitor filters ;negative voltae from positive
Lab 12 Power Supplies
The 723 regulator; Three-terminal fixde regulator;Three-terminal adjustable regulator,
Three-terminal regulator as current source;Voltage reference;'Crowbar'clamp
Lab 13 Gates
Logic probe;IC gates;TTL&COMS;Logic functions with NANDs;Gate innards;TTL;CMOS;CMOS NOT,NAND,3-state
Lab 14 Flip-Flops
Latch;D flop ;J-K flop ;Ripple counter;Synchronous counter;Shift-register;Digitally-timed one-shot
Lab 15 Counters
8-bit counter;Cascading ;Load from keypad;Programmable divide-by-n counter;Period meter;Capacitance meter
Lab 16 Memory;State Machines
RAM;Divide-by-3 (your design);Memory-based state machines:Single-loop;
External control added
Lab 17 A/D ;Phase-Locked Loop:Two Digital Feedback Machines;
D/A ;A/D:Slow notion;Full speed;Displaying search tree ;Speed limit;
Latching output;Phase-Locked Loop:frequency multiplier.
Lab 18 μ1:Adding CPU
Clock ;CPU preliminary test ;Fixing busgrant*;Memory enable logic;Memory write logic;Single-step;Test program;Full-speed:timing diagram
Lab 19 μ2:I/O:Output:First small program
Battery backup;Power-fail detector;I/O decoder ;Data displayer ;Timing program
Lab 20 μ2:Input;More small programs
Delay as subroutine;Improved delay routines ;Input hardware :Data input hardware;
Input/output program;Ready signal ;I/O program with enter/ready function;
Decimal arithmeic
Lab 21 μ4:A/DD/A
A/D-D/A wiring details ;Programs ;confirming that D/A ,A/D work;In&Out;
Invert,rectify,low-pass;
Lab 22 μ5:'Storage scope;'Interrupts&other 'Exceptions'
'Storage scope ;'deyboard control;
Exceptions;A software exception:illegal;Interrrupt :hardware to requestinterrupt;
Program;main&service routine;NMI;Applying interrupts
Register-Check :a debugging aid (optional program ;inssallif you choose to )
Lab 23 Apply Your Microcomputer('Toy Catalog')
X-Y scope displays;Light-pen;Voice output;Driving a stepper motor;Games;
Sound sampling/generation