Electronic Systems for CS&E branch

The course is a substitute for:

Electronic Systems for CS&E Branch (X35ESP)

Lecturer:

Tutor:

Supervisor:

Department of Control Engineering

Synopsis:

The course is intended for students of Computer Science and Engineering

branch. Include the methodology of electronic systems design, electronic

processing of analog, pulse and digital signals, converters A/D, D/A, U/f,

U/T, U/PWM, number/PWM, analog multipliers for high frequencies, pulse power

suppliers, input and output subsystems, electronic design with CAD,

simulation of electronic circuits, reliability and EMC. A part of

laboratories is a individual project of the electronic system with CAD.

Requirements:

PN junction, Devices with PN junction. (characteristics, parameters, application fields)

MS junction, Devices with MS junction. (characteristics, parameters, application fields)

Transistor NPN, PNP; physical principles, properties, states, boarding value, basic circuits, working conditions. Linear equivalent circuits and differential parameters.

JFET a MOSFET; physical principles, properties, states, boarding value, basic circuits, working conditions. Linear equivalent circuits and differential parameters

Syllabus of lectures:

1. Design methodology of electronic systems. Signal processing

2. Design of electronic systems. Application of the CAD

3. Graphics editors work for electronic schema paintin.

4. PCB matrix design with CAD

5. Signal transfer and shaping, signal transfer reliability

6. Power suppliers, continuous and impulse controllers of voltage and

current, DC/DC converters

7. Application principles of using operational amplifiers. Linear and

non-linear applications

8. Converters A/D, D/A, U/f, U/T, U/PWM, number/PWM. Analog multipliers for

high frequencies

9. Frequency filtering, passive and active filters, switching capacities

filters

10. Power amplifiers for output computer subsystems

11. Signal digital processing with standard logical cells

12. MSI and LSI logical circuit applications, gate arrays and custom

circuits, semiconductor memory devices

13. Display units as output computer subsystems

14. Reliability and EMC. Electronic systems simulation

Syllabus of tutorials:

1. Introduction, assignment of project. Rules of the work in laboratories

2. OrCAD system

3. Simulation of digital and analog electronic circuits

4. Continuous and impulse controllers of voltage and current

5. Signal processing, active filters

6. Converters A/D, D/A, U/f, U/T, U/PWM, number/PWM

7. Power amplifiers with PWM

8. Principles of using standard logic elements

9. Applications of MSI and LSI circuits

10. Display units

11. Methodology of electronic circuits solutions

12. Test

13. Home project presentation

14. Assessment

Study Objective:

Study materials:

1. Christiansen D.: Electronics Engineers` Handbook. London: McGraw/Hill. 1997

2. Sůva, S., Šimek, T., Vysoký, O.: Electronic Systems. Syllabus.

Department of Control Engineering ČVUT FEL, Praha 1995

3. Nowicki, J.R., Adam, L.J.: Digital Circuits. Edward Arnold, London 1990

4. Jacob, J.M.: Applications & Design with Analog Integrated Circuits.

Reston Publishing Company Inc., Virginia 1982

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Computer Technology- structured studies (compulsory elective course)