DIGITALE ELEKTRONICA
 
Taught in 2nd year Bachelor in Industrial Sciences in Computer Science
Linking course to Master inIndustrial Sciences in Computer Sciencevoor Prof.Bach.in toegep.inform. multimedia en commun.tech.
Theory [A] 36.0
Exercises [B] 24.0
Training and projects [C] 0.0
Studytime [D] 170.0
Studypoints [E] 6
Level  
Credit contract? Unrestricted access
Examination contract? Unrestricted access
Language of instruction Dutch
Lecturer Paul Devos
Reference IBIWIT02A00002
 
Key words
electronics

Objectives
In the first part basic digital components are introduced, from which logical designs realizing a given functionality can be made.
In the second part, VHDL is introduced, enabling the formal description of logical designs.

Topics
Part I:
o Digital signals
o Basic gates, Trueth tables, logical families
o Number representation, Boolean algebra
o Reduction of logical functions
o Optimalization of Karnaugh maps
o (De)multiplexers, adders.
o Flipflops : RS, clocked RS, JK, D, T; latch
o Asynchroneous en synchroneous counters
o Shift registers
o FSM, state diagramma
o Memories
o ADC/DAC
o Multivibrators; debouncing circuits

Part II:
o What is VHDL?
o VHDL-syntax
o Basic components

Prerequisites
See final objectives Wiskunde II.

Final Objectives
* (AIC2) Concerning digital electronics, to be able to assimilate, implement and use existing and new technologies and theories.
* (AC2) To be able to collect and use relevant scientific and technical information about digital electronics.
* (D1) To be able to analyse, design, implement and test basic digital circuits.

Materials used
::Click here for additional information::
Syllabus
Additional information on the electronic study environment Dokeos.


Study costs
Cost for the course material (10 €)

Study guidance
Individual guidance is provided by contacting the responsible lecturer / responsible for the exercices.

Teaching Methods
Ex cathedra colleges (theory) and specific exercise sessions.

Assessment
Theory: written evaluation
Exercise sessions: written evaluation(s)
A weighted average is used to compute the final score for a training item. However, if a student gains a score of 7 or less on 20 on one of the different courses (parts of training items) , he proves that his skill for certain subcompetencies is insufficient. Consequently, one can turn from the arithmetical calculation of the final assignment of quotas of a training item and the new marks can be awarded on consensus. Of course, the examiners can judge that the arithmetic regulations mentioned in the study index card can also be used for 7 or less. For each deviation a detailed motivation ought to be drawn up. In that case one should point out that the skill for this subcompetency is proven to be insufficient, if the student didn’t pass the partim that is considered to be important for certain subcompetencies.

Lecturer(s)
Paul Devos