CFU
6
Length
14 Weeks
Semester DD
First
Numbering systems and operations in various representations. Boolean algebra. Boolean functions. Functions in canonical form and reduction techniques in canonical form. Minimization of Boolean functions with various methods (algebraic, Karnaugh maps and Quine-McCluskey). Minimization of a system of Boolean functions. Technical design of combinational circuits. Dynamic behavior of combinational circuits, static and dynamic hazards. Methods for the elimination of glitches. Memory elements. Flip-flop. Setup and hold times, metastability '. State machines, Mealy and Moore. Design techniques for synchronous sequential circuits. Asynchronous sequential circuits. A / D converters and D / A. Logic families (TTL, CMOS, ECL). Memoirs. Elements of data transmission. Introduction to VHDL and digital simulators. Development and test VHDL simulator with a simple design on FPGA.
LEARNING OUTCOMES:
Deep knowledge of digital systems and introduction to programmable logic devices.
KNOWLEDGE AND UNDERSTANDING:
Digital systems, simulations of digital systems, synthesis of digital systems on programmable logic devices.
APPLYING KNOWLEDGE AND UNDERSTANDING:
Design, implementation and simulation skills regarding simple digital subsystems.
MAKING JUDGEMENTS:
Autonomous management skills of a small digital system project.
COMMUNICATION SKILLS:
Presentation skills of a small digital system project.
LEARNING SKILLS:
Applying learned techniques and studied digital systems in real life experimental electronics subsystems.