SylabUZ
Course name | Metrology |
Course ID | 06.2-WE-ELEKTP-Metrol-Er |
Faculty | Faculty of Computer Science, Electrical Engineering and Automatics |
Field of study | Electrical Engineering |
Education profile | academic |
Level of studies | First-cycle Erasmus programme |
Beginning semester | winter term 2021/2022 |
Semester | 4 |
ECTS credits to win | 4 |
Course type | obligatory |
Teaching language | english |
Author of syllabus |
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The class form | Hours per semester (full-time) | Hours per week (full-time) | Hours per semester (part-time) | Hours per week (part-time) | Form of assignment |
Lecture | 30 | 2 | - | - | Exam |
Laboratory | 30 | 2 | - | - | Credit with grade |
- To familiarize students with measurement methods and construction, principles of operation of analog and digital measuring instruments for selected electrical quantities
- Shaping among students skills in performing simple measurement tasks and developing and interpreting measurement results
- To familiarize with the classification, construction and characteristics of measurement systems
Fundamentals of electrical engineering, Fundamentals of electronics, Fundamentals of metrology
Analog, analog-to-digital and digital-to-analog signal processing. Principle of operation and metrological properties of basic analog function operators. Sampling and quantizing. Sample and hold, analog-to-digital and digital-to-analog converters.
Measurements of voltages and currents. Electronic voltmeters and digital voltmeters. Zero measurement method: Compensation measurement of voltage and current. Comparative methods.
Methods and systems for measuring resistance and impedance. Technical methods. DC and AC bridges methods. Transformer bridges. Unbalanced bridges.
Measurements of frequency, period, time and angle of phase shift. Analog and digital methods of measurement and period and frequency. Digital frequency meters and phase meter.
DC and AC power and energy measurements in single- and three-phase systems.
Principle of power and energy measurement. Electrodynamic wattmeter. Voltage and current measurement transformer. Electronic power measuring instruments. Measurement of active and reactive power in three-phase systems. Electronic energy meters.
Registration of electrical signals. Analog and digital oscilloscope. Signal recorders for measuring signals.
Testing of electrotechnical materials, semiconductors and dielectrics. Measurement of the properties of magnetic materials.
Computer measuring systems. General characteristics of measuring systems. Types and configurations of computerized measuring systems. Basic functional blocks of computer measurement systems: measurement cards, intelligent sensors. Interfaces.
Lecture: conventional lecture, problem lecture, discussion
Laboratory: working with source document, group work, laboratory exercises
Outcome description | Outcome symbols | Methods of verification | The class form |
Lecture – the credit is given for obtaining positive grades in written tests carried out at leastonce a semester.
Laboratory – to receive a final passing grade stude nt has to receive positive grades in all laboratory exercises provided for in the laboratory syllabus.
Calculation of the final grade: lecture 50% + laboratory 50%
1. Tumanski S.: Principles of electrical measurement. Taylor & Francis, 2006
2. Bhargawa S.C: Electrical measuring instruments and measurements. CRC Press, 2012
3. Vetelino J., Reghu A.: Introduction to sensors. CRC Press, 2010
4. Fraden J.: Handbook of modern sensors. Springer, 2016.
1. Skubis T.: Fundamentals of measurement results metrological interpretation. Published by Silesian University of Technology, Gliwice, 2004 (in Polish)
Modified by dr hab. inż. Paweł Szcześniak, prof. UZ (last modification: 08-07-2021 21:49)