Principles of Digital Technology

The course cannot be taken simultaneously with:

Principles of Digital Technology (-D32ZCT)

The course is a substitute for:

Fundamentals of Logical Circuits (XD32ZCT)

Lecturer:

Tutor:

Supervisor:

Department of Telecommunications Engineering

Synopsis:

To provide students with basic knowledge of digital technology It deals with

the digital systems, binary codes, expression and simplification of logical

functions with regard to the synthesis of combination logic circuits.

Attention is also given to sequence circuits, including examples of their

synthesis.

Requirements:

Syllabus of lectures:

1. Coding. Polyad digital systems

2. Algebra of logic, logical functions. Boolean algebra

3. Logical functions expression, comparison of each methods

4. Methods of Boolean function minimalization

5. Logical items: division, schematic sings, properties

6. Logical function realisation

7. Logical items with bipolar and unipolar transistor

8. Digital integrated circuits

9. Semi-conducting memories, division, properties

10. Hazards in combination logical circuits

11. Sequential logical circuit, finite automat

12. Bistabile flip-flop circuits S-R, J-K, T, D

13. MSI circuits - counters, registers, shifting registers, multiplexors

14. Programmable arrays PLA, GAL

Syllabus of tutorials:

1. Introduction. Safety instructions and laboratory rules

2. Types of codes, polyadic and non-polyadic numeric systems

3. Logical functions, their expressions and minimization. Boolean algebra

4. Minimization using Karnaugh's maps and n-dimensional figures

5. Minimization of logical functions using the Quine-McCluskey method

6. Test

7. Logical elements TTL + CMOS. Measurement of their static and dynamic

characteristics

8. Realization of a logical function using given type of logical element

9. Circuits for arithmetical operations - design and connecting

9. Circuits for arithmetical operations - design and connecting 10. Analysis of combinatory circuits. Hazards and avoiding them 11. Astable and monostable flip-flops 12. Bistable circuits 13. Frequency synthesis. Frequency multipliers and dividers. Timing circuits

14. Assessments v

Study Objective:

Study materials:

Recommended literature will be specified by lecturer.

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans: