CTU FEE Moodle
Electrical Measurements and Instrumentation
B241 - Winter 24/25
Electrical Measurements and Instrumentation - AE1B38EMA
Credits | 5 |
Semesters | Summer |
Completion | Graded Assessment |
Language of teaching | English |
Extent of teaching | 2P+2L |
Annotation
The subject is focused to fundamentals of measurement and instrumentation. Based on the principle of the methods of electrical quantities measurement (voltage, current, power, frequency, resistance, capacitance and inductance) a structure and properties of measuring instruments are explained including principles of their correct application and an accuracy estimation. Fundamentals of magnetic measurements close the course. \\Výsledek studentské ankety předmětu je zde: http://www.fel.cvut.cz/anketa/aktualni/courses/AE1B38EMA
Study targets
None
Course outlines
1. Analogue meters (PMMC meter, iron vane and electrodynamic meters).
2. Accuracy of measurement - evaluation of uncertainties of direct and indirect measurements, error of method and its correction.
3. Measuring amplifiers with OA, converters of average and of RMS value, phase-sensitive rectifier.
4. Converters for sum and difference measurement, analogue multipliers, integrator.
5. Measurement of frequency, period and phase shift.
6. DC current and voltage measurement - methods and instruments.
7. AC current and voltage measurement - methods and instruments, current and voltage transformers.
8. A/D and D/A converters, properties and applications, digital multimeters, common mode rejection.
9. Measurement of resistance - converter R U; methods for low and high resistance measurement, unbalanced Wheatstone bridge for sensor application.
10. Measurement of power - definition, measuring methods, digital wattmeter; measurement of energy consumption.
11. Measurement of impedance and admittance in LF range, capacitive and induction sensors.
12. Measurement of DC and LF magnetic field, measurement of parameters and characteristics of ferromagnetic materials.
13. Analogue and digitising oscilloscopes, spectral analyzers, LF generators of measuring signals.
14. Time reserve, solution of the typical examples.
2. Accuracy of measurement - evaluation of uncertainties of direct and indirect measurements, error of method and its correction.
3. Measuring amplifiers with OA, converters of average and of RMS value, phase-sensitive rectifier.
4. Converters for sum and difference measurement, analogue multipliers, integrator.
5. Measurement of frequency, period and phase shift.
6. DC current and voltage measurement - methods and instruments.
7. AC current and voltage measurement - methods and instruments, current and voltage transformers.
8. A/D and D/A converters, properties and applications, digital multimeters, common mode rejection.
9. Measurement of resistance - converter R U; methods for low and high resistance measurement, unbalanced Wheatstone bridge for sensor application.
10. Measurement of power - definition, measuring methods, digital wattmeter; measurement of energy consumption.
11. Measurement of impedance and admittance in LF range, capacitive and induction sensors.
12. Measurement of DC and LF magnetic field, measurement of parameters and characteristics of ferromagnetic materials.
13. Analogue and digitising oscilloscopes, spectral analyzers, LF generators of measuring signals.
14. Time reserve, solution of the typical examples.
Exercises outlines
1. Introduction, safety in lab, oscilloscope - basic control and measurement.
2. Frequency dependence of AC voltmeters. Influence of form factor on meter readings.
3. Currents measurement, errors of method.
4. Measuring amplifiers.
5. Voltage divider, evaluation of uncertainties of indirect measurements.
6. Frequency and period measurement.
7. Measurement of resistances.
8. One-phase power measurement, current instrument transformer.
9. Three-phase power measurement, electricity meters.
10. Amplitude permeability measurement
11. Measurement of the leakage magnetic field of the transformer
12. Digital impedance and admittance meter.
13. Imbalanced Wheatstone bridge - application for resistance changing transducers.
14. Assessment.
2. Frequency dependence of AC voltmeters. Influence of form factor on meter readings.
3. Currents measurement, errors of method.
4. Measuring amplifiers.
5. Voltage divider, evaluation of uncertainties of indirect measurements.
6. Frequency and period measurement.
7. Measurement of resistances.
8. One-phase power measurement, current instrument transformer.
9. Three-phase power measurement, electricity meters.
10. Amplitude permeability measurement
11. Measurement of the leakage magnetic field of the transformer
12. Digital impedance and admittance meter.
13. Imbalanced Wheatstone bridge - application for resistance changing transducers.
14. Assessment.
Literature
[1] Placko D.: Fundamentals of Instrumentation and Measurement. ISTE 2007, ISBN 1 905209 39 8
[2] Northrop R.B.: Introduction to Instrumentation and Measurements. CRC 2005, 0-8493-3773-9
[3] V. Haasz, M. Sedláček: Electrical Measurements. University textbook, Publishing House of CTU in Prague, Prague, 2006
[4] M. Sedláček, J. Holub, D. Hejtmanová: Laboratory Exercises in Electrical Measurements. Publishing House of CTU in Prague, Prague, 2005
[2] Northrop R.B.: Introduction to Instrumentation and Measurements. CRC 2005, 0-8493-3773-9
[3] V. Haasz, M. Sedláček: Electrical Measurements. University textbook, Publishing House of CTU in Prague, Prague, 2006
[4] M. Sedláček, J. Holub, D. Hejtmanová: Laboratory Exercises in Electrical Measurements. Publishing House of CTU in Prague, Prague, 2005
Requirements
None