Lectures:
Introduction to the nonelectrical quantities measurement. Role and position of sensors in measurement and control systems. Basic propeties of sensors generation of sensors and their classification.Physical and mathematical model of sensor.
Statical and dynamical properties of sensors. Method of corection of sensor characteristic.
Transport of information from sensor. Connection wiring influence. Unification of sensor signals. Sensor interfacesand buses.
Sensor of the 1-st generation. Resistance position sensors. Strain gauges. Resistance temperature detectors (RTDs).
Copacitive-type, inductance-type and inductive-type sensors.
Magnetic, piezoelectic and pyroelectric sensors. Termoelectric sensor.
Photoelectric sensor. Radiation pyrometers. Termovision.
Sensors of the 2-nd generation. Microelectronic sensors. Integrated and SMART sensors. The influence of sensor technology to their design. Microtechnology.
Basic microtechnology methods. Micromaschining. Microelectronic pressure sensors. Integrated magnetic sensors. Imaging sensors.
Position and movement measurement. Force and strain measurement. Acceleration measurement. Pressure and vakuum measurement.
Level measurement. Flow measurement.
Temperature and measurement. Heat consumption measurement.
Visible light and nuclear-partical radiation measurement.
Chemical quantities measurement. Gas and liquit composition measurement. Humidity measurement pH measurement. Emision measurement.
Laboratories:
Statical characteristic of resistance position sensor. Load and connecting wiring influence on the static characteristic.
Dynamical characteristic of thermocouple. The influence of termocouple design to the dynamic characteristic.
Elimination of temperature sensitivity of strain gauge.
The influence of negative feedback on sensor characteristic. Magnetoelectric sensor for curent measurement.
Rotational velocity measurement. The demonstration of influence of sensor presence to measurement systém
Capacitive sensors. The influence of connecting wiring on statical characteristic. Signal and transmition to the processing unit.
Photoelectrical position sensors. Incremental shaft enconders. Digital shaft encoder.
Heat consumption measurement.
Microelectronic pressure sensor. Elimination of temperature sensitivity.
Imaging CCD sensors. Transmition of information from imaging sensor and their processing.
Introduction to the nonelectrical quantities measurement. Role and position of sensors in measurement and control systems. Basic propeties of sensors generation of sensors and their classification.Physical and mathematical model of sensor.
Statical and dynamical properties of sensors. Method of corection of sensor characteristic.
Transport of information from sensor. Connection wiring influence. Unification of sensor signals. Sensor interfacesand buses.
Sensor of the 1-st generation. Resistance position sensors. Strain gauges. Resistance temperature detectors (RTDs).
Copacitive-type, inductance-type and inductive-type sensors.
Magnetic, piezoelectic and pyroelectric sensors. Termoelectric sensor.
Photoelectric sensor. Radiation pyrometers. Termovision.
Sensors of the 2-nd generation. Microelectronic sensors. Integrated and SMART sensors. The influence of sensor technology to their design. Microtechnology.
Basic microtechnology methods. Micromaschining. Microelectronic pressure sensors. Integrated magnetic sensors. Imaging sensors.
Position and movement measurement. Force and strain measurement. Acceleration measurement. Pressure and vakuum measurement.
Level measurement. Flow measurement.
Temperature and measurement. Heat consumption measurement.
Visible light and nuclear-partical radiation measurement.
Chemical quantities measurement. Gas and liquit composition measurement. Humidity measurement pH measurement. Emision measurement.
Laboratories:
Statical characteristic of resistance position sensor. Load and connecting wiring influence on the static characteristic.
Dynamical characteristic of thermocouple. The influence of termocouple design to the dynamic characteristic.
Elimination of temperature sensitivity of strain gauge.
The influence of negative feedback on sensor characteristic. Magnetoelectric sensor for curent measurement.
Rotational velocity measurement. The demonstration of influence of sensor presence to measurement systém
Capacitive sensors. The influence of connecting wiring on statical characteristic. Signal and transmition to the processing unit.
Photoelectrical position sensors. Incremental shaft enconders. Digital shaft encoder.
Heat consumption measurement.
Microelectronic pressure sensor. Elimination of temperature sensitivity.
Imaging CCD sensors. Transmition of information from imaging sensor and their processing.