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Lecture
Logic Systems: Multiplexers and Flip-Flops
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Related lectures (31)
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Undetermined States in D-Flip-Flops
Explores undetermined states in D-flip-flops, multiplexers, tri-state gates, decoders, and complex binary decoders.
Logic Systems: Technology Overview
Provides an overview of the technology behind logic gates, covering TTL and CMOS families and addressing static and dynamic hazards, gated clocks, and switch debouncing.
Karnaugh Maps: Grouping Techniques
Explores Karnaugh maps, grouping rules, and transistor logic in logic systems.
Logic Systems: TTL Gates and Analog Aspects
Explores TTL gates, analog aspects, and various logic gates in digital circuits.
Boolean Algebra: Properties and Optimization
Covers Boolean algebra properties, optimization techniques, and the importance of valid groups in Karnaugh maps.
Digital Circuits: Logic Basics
Introduces digital circuits, covering binary systems, logic operators, Boolean algebra, memory elements, and practical examples like BCD decoders and shift registers.
Boolean Algebra: Properties and Theorems
Covers the properties and theorems of Boolean algebra in logic systems.
Dynamic Memory Elements: Latches and Flip-Flops
Covers dynamic memory elements, latches, flip-flops, timing parameters, clock skew, and synchronous pipelining.
Logic Synthesis: Designing Efficient Digital Circuits
Discusses logic synthesis techniques for designing efficient digital circuits from functional descriptions and truth tables.
Transistor Logic Gates: TTL vs CMOS
Compares BJT and MOSFET in logic systems, focusing on TTL vs CMOS technologies.
