Master's Degree in Secondary Education Teaching by the University of Valencia

Admission requirements to the specialisation in FP (Vocational training) - Computer Science and Electronic Systems 

Those who hold a degree (Licenciatura or Diplomatura) in Industry, Computer Science, Aeronautics, Telecommunications, Electronic and Automatic Engineering, Industrial Electronics, Computer Engineering three year degree, Telecommunications Engineering three year degree, or Industrial Engineering three year degree (only in the specialisations of Industrial Electronics, Electricity) can access this specialisation without having to take the entrance examination.

Those students that do not confirm having taken any of the degrees previously mentioned must pass an entrance examination that confirms their command – at a university degree level – of the competencies related to this specialisation. The examination will deal with the contents that are included in the following syllabus.

 Syllabus for the entrance examination to the specialisation in Computer Science and Electronic Systems

1. Parts, structure and operation of the Central Processing Unit.

2. Internal storage. Types. Addressing. Characteristics and functions.

3. Microprocessors. Structure. Types. Outer communication.

4. External storage systems. Types. Characteristics and operation.

5. Logical organisation of data. Static structures. Dynamic structures.

6. Operative systems. Parts. Structure. Functions. Types.

7. Exploiting and administrating operative systems for single and several users.

8. Programming languages. Types. Characteristics.

9. Structured programming. Basic structures. Functions and Procedures. Object-oriented programming. Objects. Classes. Inheritance. Polymorphism. Languages.

10. Database managing systems. Functions. Parts. Reference and operational architectures. System types.

11. Relational data model. Structures. Operations. Relational algebra.

12. Logical design of functions. Function definition. Module splitting. Descriptive techniques. Documentation.

13. Logical design of data. Transformation of the conceptual model to logical models. Relational analysis of data. Documentation.

14. Networks and communication services.

15. Communication system architectures. Architectures based on levels. Standards.

16. Concepts and electronic phenomena. Measure units. Ohm Law.

17. Concepts and electromagnetic phenomena. Magnetic properties of matter. Electromagnetic induction. Coefficient of self-inductance.

18. Analysis of electronic circuits in direct current and alternating current. 

19. Analysis of basic electronic circuits with discrete devices.

20.  Analysis of basic electronic circuits with built-in operational amplifiers.

21. Measures in analogic electronics. Tools. Measure procedures. Security regulations.

22. Foundamentals in digital electronics. Boolean algebra. Logical functions and  truth tables. Logic gates. Logic families.

23. Analysis in electronic circuits made with combinatory devices.

24. Analysis in electronic circuits made with sequential and arithmetical devices.

25. Analysis in electronic circuits made with analog-to-digital and digital-to-analog converter devices.

26. Computer simulation of analogic electronic circuits.

27. Computer simulation of digital, wired and microprogrammable electronic circuits.

28. Basic principles of automatisation. Programmable robots.

29. Basic principles of the regulated systems. Sensors and transducers. Regulators. Actuators.

30. Power electronic systems.