Course code |
02 37 6259 00 |
Number of ECTS points |
2 |
Course title in the language of instruction |
Electronic Circuits 2 |
Course title in Polish |
Electronic Circuits 2 (Układy elektroniczne 2) |
Course title in English |
Electronic Circuits 2 |
Language of instruction |
English |
Type of classes |
|
Lecture |
Tutorials |
Laboratory |
Project |
Seminar |
Other |
Total of teaching hours during semester |
Contact hours |
15 |
|
15 |
|
|
0 |
30 |
E-learning |
No |
No |
No |
No |
No |
No |
|
Assessment criteria (weightage) |
0.50 |
|
0.50 |
|
|
0.00 |
|
|
Unit running the course |
Instytut Elektroniki |
Course coordinator |
dr inż. Marcin Kociołek |
Course instructors |
dr inż. Mariusz Felczak, dr inż. Marcin Kociołek, dr inż. Robert Olbrycht, dr inż. Maria Strąkowska, dr inż. Robert Strąkowski |
Prerequisites |
accomplished course: electronic circuit from previous semester |
Course learning outcomes |
- student can list and describe characteristic properties and applications of electronic circuits discussed during lectures
- student can, for each basic class of electronic circuits discussed during lectures, conduct the analysis of operation, point its most important parameters and characteristics
- student can apply analytical computational methods and numerical simulation tools for analysis and designing of electronic circuits discussed during lectures
- student can conduct laboratory measurements of electronic circuits discussed during lectures, measure basic parameters and determine most important characteristics of investigated circuits
|
Programme learning outcomes |
- Basic knowledge in the field of mathematics, physics and engineering and technical sciences; detailed knowldege in the field of electronics and telecommunications including selected issues from electrical engineering, automation and technical information technology.
- Ability to use one's knowledge to identify, formulate and solve a complex problem in the field of electronics or telecommunications, and to plan and conduct experiments including computer measurements and simulations; ability to think creatively, analyze and interpret the results and draw conclusions.
- Ability to use one's knowledge from the area of electrical circuits, analog and digital electronic circuits, microelectronics, microprocessor and computer systems as well as non-technical aspects to design, build, commision and test an electronic system.
- Ability to function effectively in a team (assuming different roles), whose members together set goals, plan and implement tasks. Awareness of the responsibility for decisions taken, especially in relation to the area of electronics and telecommunications.
|
Programme content |
Broadband and pulse amplifier integrated circuits,
Power amplifiers integrated circuits,
Active filters integrated circuits,
Analog to digital and digital to analog integrated circuits,
Detectors of amplitude, frequency and phase.
Phase locked loop circuits. |
Assessment methods |
1. written/oral test/exam, observation of activity during classes,
2. written/oral test/exam, observation of activity during classes,
3. written/oral test/exam, a report from laboratory exercises, solution of a project task, report from the project, observation of activity during classes,
4. written/oral test/exam, a report from laboratory exercises, solution of a project task, report from the project, observation of activity during classes.
|
Grading policies |
written/oral test/exam, a report from laboratory exercises, solution of a project task, report from the project |
Course content |
LECTURE
Broadband and pulse amplifier integrated circuits,
Power amplifiers integrated circuits,
Active filters integrated circuits,
Analog to digital and digital to analog integrated circuits,
Detectors of amplitude, frequency and phase.
Phase locked loop circuits.
LABORATORIES
Simulations and testing of selected electronic circuits.
|
Basic reference materials |
- Tietze, Ulrich, Christoph Schenk, and Eberhard Gamm. Electronic circuits: handbook for design and application. Springer, 2015.
- Horowitz, Paul, and Winfield Hill. The art of electronics. Cambridge Univ. Press, 1989.
|
Other reference materials |
- Datasheets for selected electronic devices and integrated circuits
|
Average student workload outside classroom |
26 |
Comments |
|
Updated on |
2019-09-17 11:17:57 |
Archival course yes/no |
no |