Explanations about the scope of the contents covered in the course, as well as by the topics of each of its chapters.
Differentiator Circuits
Multivibrator Circuits – Flip Flops
Reset-Set Flip Flop type Level Command
Reset-Set Flip Flop type Positive Level Command
Reset-Set Flip Flop type Inverted Level Command
Flip flop type Reset Set commanded by Transition
Reset-Set Flip Flop type Commanded by Rising Edge
Reset-Set Flip Flop type Commanded by Falling Edge
Trigger Flip Flop Commanded by Transition (Edge)
D Flip Flop Commanded by Transition
Master-Slave JK Flip Flop
Circuit for Transformation of Flip Flop Types
Tri-State Outputs
Analysis of Asynchronous Sequential Circuits
General Model-Asynchronous Sequential Circuits
Serial Inverters Model
Relays Model
RS Flip Flops Model
Analysis Process Flowchart
Analysis Process
Synthesis of Asynchronous Sequential Circuits
Synthesis Process Flowchart
Synthesis Process
Minimal Number of State Sequence Table Algorithm
Alternative Ways for Construction of Adjacency Table
Analysis of Sequential Synchronous Circuits
Analysis Flowchart for Synchronous Sequential Circuits
Analysis Process
General Model – Synchronous Sequential Circuits
Synchronous Sequential Circuits Models
Characteristics of Pulse Type Inputs
Actions Table for Flip Flops
Synthesis of Synchronous Sequential Circuits
Synthesis Process Flowchart
Synthesis Process
Examples for Models JK, RS, T, D
Structures of Digital Circuits
General
Buffer Tri-State
Latches
Asynchronous Counters, Dividers (Ripple Counters)
Synchronous Counters and Dividers
Shift Registers
Decoders
Encoders
Demultiplexers
Multiplexers
Magnitude Digital Comparators
Ring Counters
Static Memory