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Unit 1: Foundations in Electronics
General Electronics Safety: 10 Tips for Digital Electronics Safety
Circuit Theory
Series & Parallel Circuits
Analog vs Digital
Binary Number System
Scientific and Engineering Notation
Unit 2: Combinational Logic
AOI Combinational Design
AOI Logic Analysis: Circuit to Truth Table to Logic Expression
Circuit Simplification: Boolean Algebra
Circuit Simplification: DeMorgan's Theorems
Project 2.1.6 AOI Logic Design: Majority Vote
Karnaugh Mapping
Universal Gates: NAND Logic Design
Universal Gates: NOR Logic Design
Project 2.2.5 Universal Gates and K-Mapping: Fireplace Control Circuit
Octal & Hexadecimal Number Systems
Seven-Segment Displays
Multiplexers & De-multiplexers
Two’s Complement Arithmetic
XOR, XNOR, & Binary Adders
Project 2.4.3 PLD Design: Date of Birth
Unit 3: Sequential Logic
Sequential Logic: D Flip-Flops and J/K Flip-Flops
Asynchronous Counters: Small Scale Integration (SSI)
Project 3.2.4 Asynchronous Counters: Now Serving Display
Synchronous Counters: Small Scale Integration (SSI)
Project 3.3.4 Synchronous Counters: Sixty-Second Timer
Unit 4: Controlling Real World Systems
Project 4.1.1 Sensors and Motors: Copier Jam Detector
State Machines: Phone Number
Problem 4.1.3 State Machines: Tollbooth
DeMorgan's law
DeMorgan's Law
can easily be understood by "break the line, change the sign." An inversion line can be broken along addition and multiplication operations, but it will change one into the other.