SylabUZ
Course name | Metrology in mechanical and electrical I |
Course ID | 06.9-WM-ZIIP-ZL-ANG-D-16_20 |
Faculty | Faculty of Mechanical Engineering |
Field of study | Management and Production Engineering |
Education profile | academic |
Level of studies | Second-cycle studies leading to MSc degree |
Beginning semester | winter term 2023/2024 |
Semester | 2 |
ECTS credits to win | 4 |
Course type | obligatory |
Teaching language | english |
Author of syllabus |
|
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 |
Laboratory | 30 | 2 | - | - | Credit with grade |
Lecture | 15 | 1 | - | - | Credit with grade |
- to familiarize students with issues of a measurement teory and system of measure and standards.
- to shape skills in the development of measurement results and estimation of errors and measurement uncertainty.
- to familiarize students with the methods and instruments for measuring selected electrical quantities.
- introduction to a classification, a structure and properties of measurement systems.
Lecture:
W1: Basic concepts in metrology. Measurement scales and measurement units
W2: Selected quantity standards. Measurement methods and their accuracy
W3-4: Errors, type A and type B measurement uncertainties, corrections, measurement results. General information on mathematical modelling of objects and phenomena
W5: Measurements of selected electric quantities. Quantities characterizing electric signals. Static and dynamic properties of measurement instruments
W6: Voltages and currents measurements. Methods and systems for measuring resistance and impedance. Measurements of frequency, period, time and phase shift angle. Power measurements.
W7: Introduction to measurement systems. Measurement system definition. Classification of measurement systems. Configuring computer measurement systems. Interfaces. Examples of measurement system implementations
Lababoratory:
L1: Discussion of topics of exercises, working conditions and safety of work with measuring equipment used in the laboratory
L2-3: Direct and indirect measurements of basic electrical quantities
L3-4: Electronic oscilloscope
L5-6: Analysis of the accuracy of the measurement result.
L6-7: Modeling of phenomena and objects
L8-9: Test of static properties of measuring transducers. Test of dynamic properties of temperature sensors
L9-10: Rotation speed measurement. Force measurement
L11-12: Frequency and time measurements
L12-13: Digital voltmeter
L14-15: Working off the exercise. Passing classes
Lecture: conventional lecture
Laboratory: laboratory exercises
Outcome description | Outcome symbols | Methods of verification | The class form |
Lecture – the condition for passing the course is obtaining a positive grades in written tests carried out at least once a semester.
Laboratory – to receive a final passing grade student has to receive positive grades in all laboratory exercises.
Calculation of the final grade: lecture 50% + laboratory 50%
1. Kularatna M.: Digital and analogue instrumentation testing and measurement. The Institution of Engineering and Technology. London 2008.
2. Webster J. G.: Electrical Measurement, Signal Processing, And Displays. CRC Press, 2004.
3. Tumanski S.: Principles of electrical measurement. Taylor & Francis, 2006.
4. Rabinovich S. G.: Evaluating Measurement Accuracy, Springer Science+Business Media, LLC 2010.
Modified by dr inż. Mariusz Krajewski (last modification: 20-04-2023 09:51)