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| Electrical Safety and Components | |
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| Electrical Safety | |
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| Working with Electricity | |
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| Static Electricity | |
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| Voltage and Current in Electronics | |
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| Other Safety Issues | |
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| Component identification | |
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| Resistors | |
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| Capacitors | |
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| Electronic Assemblies | |
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| Solder | |
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| Soldering | |
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| Quality Solder Connections | |
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| Introduction to Electricity | |
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| SI notation | |
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| Atomic Structure | |
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| Atoms and Electricity | |
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| Voltage, Current, and Resistance | |
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| Conductors and Insulators | |
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| Ohm's Law | |
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| Kirchhoff's Voltage and Current Laws | |
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| Breadboarding | |
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| Circuit Design Software | |
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| Basic Principles of Digital Systems | |
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| Digital vs | |
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| Analog Electronics | |
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| Digital Logic Levels | |
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| The Binary Number System | |
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| Positional Notation | |
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| Binary Inputs | |
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| Decimal-to-Binary Conversion | |
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| Sum of Powers of 2 | |
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| Repeated Division by 2 | |
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| Hexadecimal Numbers | |
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| Counting in Hexadecimal | |
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| Hexadecimal-to-Decimal Conversion | |
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| Decimal-to-Hexadecimal Conversion | |
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| Sum of Weighted Hexadecimal Digits | |
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| Conversions Between Hexadecimal and Binary | |
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| Digital Waveforms | |
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| Periodic Waveforms | |
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| Aperiodic Waveforms | |
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| Pulse Waveforms | |
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| Logic Functions and Gates | |
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| Basic Logic Functions | |
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| NOT, AND, and OR Functions | |
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| NOT Function | |
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| AND Function | |
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| OR Function | |
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| Active Levels | |
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| Derived Logic Functions | |
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| NAND and NOR Functions | |
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| Expanding NAND and NOR Functions | |
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| NAND and NOR Gates as Inverters | |
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| Exclusive OR and Exclusive NOR Functions | |
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| DeMorgan's Theorems and Gate Equivalence | |
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| Logic Switches and LED Indicators | |
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| Logic Switches | |
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| LED Indicators | |
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| Enable and Inhibit Properties of Logic Gates | |
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| AND and OR Gates | |
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| NAND and NOR Gates | |
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| Exclusive OR and Exclusive NOR Gates | |
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| Tristate Buffers | |
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| Octal Tristate Buffers | |
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| Integrated Circuit Logic Gates | |
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| Combinational Logic | |
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| Boolean Expressions, Logic Diagrams, and Truth Tables | |
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| Boolean Expressions from Logic Diagrams | |
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| Logic Diagrams from Boolean Expressions | |
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| Truth Tables from Logic Diagrams or Boolean Expressions | |
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| Sum-of-Products (SOP) and Product-of-Sums (POS) Forms | |
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| Simplifying SOP Expressions | |
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| Reducing Product Terms by Factoring and Cancellation | |
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| Reusing Product Terms | |
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| Avoiding Redundant Terms | |
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| Simplification by the Karnaugh Map Method | |
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| Two-Variable Map | |
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| Three- and Four-Variable Maps | |
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| Grouping Cells Along Outside Edges | |
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| Loading a K-Map from a Truth Table | |
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| Multiple Groups | |
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| Overlapping Groups | |
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| Conditions for Maximum Simplification | |
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| Don't Care States | |
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| Simplification by DeMorgan Equivalent Gates | |
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| A General Approach to Logic Circuit Design | |
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| Combinational Logic Functions | |
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| Decoders | |
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| AND and NAND Gates as Decoders | |
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| Binary Decoders | |
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| Seven Segment Decoders | |
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| Encoders | |
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| Priority Encoders | |
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| Multiplexers | |
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| Demultiplexers | |
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| Parity Generators and Checkers | |
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| Troubleshooting Combinational Logic Functions | |
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| Digital Arithmetic Circuits | |
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| Binary Sums and Differences | |
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| Signed Binary Numbers | |
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| Two's Complement Arithmetic | |
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| Half and Full Adders | |
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| Parallel Binary Adders | |
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| Two's Complement Adder/Subtractor | |
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| Digital System Application | |
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| Problem-Solving Techniques | |
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| Sample Application: a Small Calculator | |
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| Components of the Calculator | |
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| Troubleshooting | |
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| Sequential Logic Functions | |
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| SR Latches | |
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| NAND and NOR Latches | |
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| D-type Latches | |
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| Edge-Triggered D Flip-Flops | |
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| Edge-Triggered JK Flip-Flops | |
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| Digital Counters | |
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| Basic Concepts of Digital Counters | |
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| Full-Sequence Binary Counters | |
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| Truncated-Sequence (Modulus) Counters | |
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| Asynchronous Counters | |
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| Flip-Flop-based Asynchronous counters | |
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| MSI Asynchronous Counters | |
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| Synchronous Counters | |
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| Flip-Flop-based Synchronous counters | |
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| Auxiliary Functions: Load, Clear, Direction (Up/Down) | |
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| MSI Synchronous Counters | |
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| Predesigned Counters for PLDs | |
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| State Machine Design | |
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| State Machines | |
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| Moore Machines | |
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| Mealy Machines | |
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| State Machines with No Control Inputs | |
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| State Machines with Control Inputs | |
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| Designing a Single-Pulse Generator | |
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| Traffic Light Controller | |
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| Memory Systems | |
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| Multisim�, Xilinx“, and Altera“ Tutorials | |
