Lectures related to Logic Systems: Basics and Operators

Digital Systems Overview: Evolution and Fundamentals

Explores the evolution of digital systems, covering basics like Boolean algebra and logic gates, and emphasizes teamwork skills and professional vocabulary.

Logic Systems: Karnaugh Maps and TTL Gates

Explores Karnaugh maps, TTL gates, analog aspects of digital logic, and prime implicants.

Boolean Algebra: Properties and Theorems

Covers the properties and theorems of Boolean algebra in logic systems.

Boolean Algebra: Properties and Optimization

Covers Boolean algebra properties, optimization techniques, and the importance of valid groups in Karnaugh maps.

FSM Design and Synthesis

Explains the design and synthesis of Finite State Machines in logic systems.

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.

Logic Synthesis: Designing Efficient Digital Circuits

Discusses logic synthesis techniques for designing efficient digital circuits using minterms, maxterms, and new gates like XOR and XNOR.

Logic Synthesis: Designing Efficient Digital Circuits

Discusses logic synthesis techniques for designing efficient digital circuits from functional descriptions and truth tables.

Optimizing Logic Functions

Covers the optimization of logic functions using Karnaugh diagrams and dealing with incomplete defined functions.

Boolean Algebra: Properties and Optimization

Explores Boolean algebra properties and optimization techniques using Karnaugh diagrams and De Morgan's theorems.

BJT vs FET Operation

Compares BJT and FET operation in logic systems, discusses TTL vs CMOS technologies, and explores Set-Reset Latch functionality.

Logic Systems: Multiplexers and Flip-Flops

Explains SR latch circuits, D-latches, D-flip-flops, clock signals, and multiplexers in logic systems.

Full Adder: Binary Addition Logic

Explains the full adder's role in binary addition and its design using transistors.

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.

Transistor Logic Gates: TTL vs CMOS

Compares BJT and MOSFET in logic systems, focusing on TTL vs CMOS technologies.

SR and D Latches: Logic Systems

Covers the implementation of SR and D latches and flip-flops.

Elevator Logic Systems

Explores elevator logic systems, including behavior analysis, logic functions, SR-Latches, and Set-Reset Latches.

SR Latch and D Flip-Flop: Memory Elements in Logic Systems

Explores SR latch, D flip-flop, multiplexers, XOR gates, and tristate gates in logic systems.

Digital Systems Overview: From Transistors to Integrated Circuits

Explores the evolution of digital systems from transistors to integrated circuits and their impact on consumer applications and IoT technologies.