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Saturday, August 8, 2009

Lessons In Electric Circuits: DIGITAL BOOK

Chapter 1: NUMERATION SYSTEMS [ contents: Numbers and symbols ~ Systems of numeration ~ Decimal versus binary numeration ~ Octal and hexadecimal numeration ~ Octal and hexadecimal to decimal conversion ~ Conversion from decimal numeration ]
Chapter 2: BINARY ARITHMETIC [ contents: Numbers versus numeration ~ Binary addition ~ Negative binary numbers ~ Subtraction ~ Overflow ~ Bit groupings ]
Chapter 3: LOGIC GATES [ contents: Digital signals and gates ~ The NOT gate ~ The “buffer” gate ~ Multiple-input gates ~ TTL NAND and AND gates ~ TTL NOR and OR gates ~ CMOS gate circuitry ~ Special-output gates ~ Gate universality ~ Logic signal voltage levels ~ DIP gate packaging ~ Contributors ]
Chapter 4: SWITCHES [ contents: Switch types ~ Switch contact design ~ Contact “normal” state and make/break sequence ~ Contact “bounce” ]
Chapter 5: ELECTROMECHANICAL RELAYS [ contents: Relay construction ~ Contactors ~ Time-delay relays ~ Protective relays ~ Solid-state relays ]
Chapter 6: LADDER LOGIC [ contents: “Ladder” diagrams ~ Digital logic functions ~ Permissive and interlock circuits ~ Motor control circuits ~ Fail-safe design ~ Programmable logic controllers ~ Contributors ]
Chapter 7: BOOLEAN ALGEBRA [ contents: Introduction ~ Boolean arithmetic ~ Boolean algebraic identities ~ Boolean algebraic properties ~ Boolean rules for simplification ~ Circuit simplification examples ~ The Exclusive-OR function ~ DeMorgan’s Theorems ~ Converting truth tables into Boolean expressions ]
Chapter 8: KARNAUGH MAPPING [ contents: Introduction ~ Venn diagrams and sets ~ Boolean Relationships on Venn Diagrams ~ Making a Venn diagram look like a Karnaugh map ~ Karnaugh maps, truth tables, and Boolean expressions ~ Logic simplification with Karnaugh maps ~ Larger 4-variable Karnaugh maps ~ Minterm vs maxterm solution ~ (sum) and (product) notation ~ Don’t care cells in the Karnaugh map ~ Larger 5 & 6-variable Karnaugh maps ]
Chapter 9: COMBINATIONAL LOGIC FUNCTIONS [ contents: Introduction ~ A Half-Adder ~ A Full-Adder ~ Decoder ~ Encoder ~ Demultiplexers ~ Multiplexers ~ Using multiple combinational circuits ]
Chapter 10: MULTIVIBRATORS [ contents: Digital logic with feedback ~ The S-R latch ~ The gated S-R latch ~ The D latch ~ Edge-triggered latches: Flip-Flops ~ The J-K flip-flop ~ Asynchronous flip-flop inputs ~ Monostable multivibrators ]
Chapter 11: COUNTERS [ contents: Binary count sequence ~ Asynchronous counters ~ Synchronous counters ~ Counter modulus ]
Chapter 12: SHIFT REGISTERS [ contents: Introduction ~ Serial-in/serial-out shift register ~ Parallel-in, serial-out shift register ~ Serial-in, parallel-out shift register ~ Parallel-in, parallel-out, universal shift register ~ Ring counters ~ references ]
Chapter 13: DIGITAL-ANALOG CONVERSION [ contents: Introduction ~ The R/2nR DAC ~ The R/2R DAC ~ Flash ADC ~ Digital ramp ADC ~ Successive approximation ADC ~ Tracking ADC ~ Slope (integrating) ADC ~ Delta-Sigma () ADC ~ Practical considerations of ADC circuits ]
Chapter 14: DIGITAL COMMUNICATION [ contents: Introduction ~ Networks and busses ~ Data flow ~ Electrical signal types ~ Optical data communication ~ Network topology ~ Network protocols ~ Practical considerations ]
Chapter 15: DIGITAL STORAGE (MEMORY) [ contents: Why digital? ~ Digital memory terms and concepts ~ Modern nonmechanical memory ~ Historical, nonmechanical memory technologies ~ Read-only memory ~ Memory with moving parts: “Drives” ]
Chapter 16: PRINCIPLES OF DIGITAL COMPUTING [ contents: A binary adder ~ Look-up tables ~ Finite-state machines ~ Microprocessors ~ Microprocessor programming ]
Chapter 17: CONTRIBUTOR LIST [ contents: How to contribute to this book ~ Credits
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