Undergraduate study programme

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Electronics II PK301

ECTS 6 | P 45 | A 15 | L 15 | K 0 | ISVU 41070 | Academic year: 2017./2018.

Course groups

Prikaži sve grupe na predmetu

Course lecturers

MATIĆ TOMISLAV (st.), Lecturer
ŠNELER LEON, Associate

Course description

Basics of electronic circuit analysis. Single-stage bipolar and unipolar transistor amplifiers. Setting and stabilisation of a biasing point. Analysis of dynamic parameters in small signal mode and at low frequencies: current and voltage gain, input and output resistance. Large signal mode of operation. Power amplifiers: A, AB, B, C and D class. Multi-stage amplifiers - cascading. DC coupled amplifiers: Darlington pair, cascade, differential amplifier, phase splitter. Feedback. Amplifier frequency characteristic and stability in the presence of negative feedback. Operational amplifier. Impulse response and linear shaping. Comparators – comparator with hysteresis (Schmitt’s trigger). Wave-shape generators: oscillators and multivibrators. Transistor as a switch. Analogue switch. Basic logic circuits, basic combinational and sequential circuits. Circuits of digital/analogue (D/A) and analogue/digital (A/D) conversion.

Knowledge and skills acquired

Knowledge of electronic circuits analysis procedures in large and small signal mode of operation. Skills of analogue and basic digital circuits analysis. Skills of basic analogue and digital circuits design

Teaching methods

Lectures, auditory exercises and laboratory exercises.

Student assessment

Revision exams, laboratory exercises revision exam.

Obligatory literature

1. P. Biljanović, Elektronički sklopovi, Školska knjiga, Zagreb, 19891.

2. T. Švedek, Poluvodičke komponente i osnovni sklopovi, Svezak I, Poluvodičke komponente, Graphis, Zagreb, 2001 (udžbenik Sveučilišta J.J.Strossmayer u Osijeku)


Pretraži literaturu na:

Recommended additional literature

1. A.S.Sedra, K.C.Smith, Microelectronic Circuits, 3.Edition, Saunders College Publishing, New York, 1991

ECTS credits

An ECTS credit value has been added according to calculation of time required for studying and successful course completion.

Examination methods

Written and oral exam.

Course assessment

examination, tests, discussion

Overview of course assesment

Learning outcomes
Upon successful completion of the course, students will be able to:

1. analyse and synthesise electronic circuits with diodes and transistors in static and dynamic working conditions

2. design and implement amplifiers with bipolar and unipolar transistors for the defined frequency and amplification range

3. design amplifiers of classes A, AB, B, C and D

4. design a stabilised amplifier using negative feedback

5. define the structure of an operational amplifier and use an operational amplifier in impulse electronics

6. implement the alternating waveform generators using oscillators and multivibrators

7. design basic logic, combinational and sequential circuits and analog-to-digital converters



Learning outcomes available only as desktop version    Export to Excel
Student's activity Workload ECTS (Workload/30) Learning outcomes
Upon successful completion of the course, students will be able to:
Teaching
method
Assessment method Points
Attendance
Lectures, Auditory exercises, Laboratory exercises

20
ECTS
0.7
- analyse and synthesise electronic circuits with diodes and transistors in static and dynamic working conditions- design and implement amplifiers with bipolar and unipolar transistors for the defined frequency and amplification range- design amplifiers of classes A, AB, B, C and D- design a stabilised amplifier using negative feedback- define the structure of an operational amplifier and use an operational amplifier in impulse electronics- implement the alternating waveform generators using oscillators and multivibrators- design basic logic, combinational and sequential circuits and analog-to-digital convertersLectures, Auditory exercises, Laboratory exercises Attendance register. Mandatory attendance percentage is:
70%

This percentage defines the minimum workload for the activity. The maximum is defined by the study programme.
Min

0
Max

0
Practice – problem solving Workload
60
ECTS

2
- analyse and synthesise electronic circuits with diodes and transistors in static and dynamic working conditions- design and implement amplifiers with bipolar and unipolar transistors for the defined frequency and amplification range- define the structure of an operational amplifier and use an operational amplifier in impulse electronicsMidterm exam Evaluation of (written) exercises Min

20
Max

40
Writing pre-lab write-ups, results analysis and writing laboratory reports Workload
30
ECTS

1
- analyse and synthesise electronic circuits with diodes and transistors in static and dynamic working conditions- design and implement amplifiers with bipolar and unipolar transistors for the defined frequency and amplification range- design amplifiers of classes A, AB, B, C and D- define the structure of an operational amplifier and use an operational amplifier in impulse electronicsLaboratory practice Assessment of pre-lab write-ups, supervision of laboratory exercises, evaluation of written reports Min

10
Max

20
Oral exam Workload
70
ECTS

2.3
- analyse and synthesise electronic circuits with diodes and transistors in static and dynamic working conditions- design and implement amplifiers with bipolar and unipolar transistors for the defined frequency and amplification range- design amplifiers of classes A, AB, B, C and D- design a stabilised amplifier using negative feedback- define the structure of an operational amplifier and use an operational amplifier in impulse electronics- implement the alternating waveform generators using oscillators and multivibrators- design basic logic, combinational and sequential circuits and analog-to-digital convertersOral exam Assessment of student's answers Min

20
Max

40
Σ Activities Σ Workload
180
Σ ECTS
6
Σ Max
100