Czech

Not applicable.

The student will be able to explain the principles of semiconductor, optoelectronic and fiber-optic sensors, define the characteristics of intelligent sensors. He will be able to decide on the appropriate choice of the sensor for the particular application with respect to their characteristics and limitation. Student will be able to design circuits for signal processing from these sensors and perspectively also plan and implement a measurement chain in the real applications.

The student who enrolls this course should be able to explain the basics of semiconductor physics and optics, describe the basic principles of sensors, able to analyze and identify the electronic circuits used in the sensing and measurement technology, apply basic methods of measurement of electrical quantities (voltage, current, resistance, capacitance, inductance) and be able to assemble measuring chain with instruments as oscilloscope, function generator, DAQ cards for measuring of analog and digital signals and be able to prepare and use the LabVIEW developing tool. This course follows to courses in undergraduate studies BMVE and BSNI. Student should have such language skills to understand some educational materials in English.

Not applicable.

Teaching methods depend on the type of education which are described in the Article No. 7 of the Study and Examination Regulations of BUT. Techning methods include lectures and practical laboratories.

The test focuses on the verification of knowledge (orientation) information literacy course. He has written a mandatory laboratory (numeric) and non-verbal oral part.
Evaluation laboratory 0 - 40
Written part of exam 0 - 50
Oral part of exam 0 - 10

The main content of the lectures covered the following areas:
1. Materials for semiconductor sensors, basic technological processes.
2. Radiation sources - basic quantities and types of radiation sources, characteristics and wiring. LED, LD and SLED - parameter and usage.
3. Semiconductor radiation sensors - ionizing and non-ionizing radiation.
4. Semiconductor sensors of mechanical quantities - pressure sensors, accelerometers, gyroscopes.
5. Semiconductor magnetic field sensors - Hall effect, magnetoresistive sensors, AMR, GMR, magneto-diode, magneto-transistor.
6. Semiconductor temperature sensors, chemical sensors and biosensors.
7. Introduction to fiber optics - classification and properties of optical fibers. Fiber connections and connectors.
8. Optical fiber sensors - classification, properties, construction, measured quantities.
9. Measurement of physical quantities by using fiber optic sensors.
10. Smart sensors - requirements, properties, methods of linearization, self-diagnostics, calibration, IEEE 1451 standards group.

Not applicable.

The goal of the course is to introduce and deepen students knowledge of selected types of semiconductor, photoelectric, fiber-optic, MEMS (micro-electro-mechanical), MOEMS (micro-opto-electro-mechanical) and intelligent sensors. Students will become familiar with their use in real applications, such as measurement, navigation, robotics, etc. The aim is to create an overview for students to understanding of the use of the relevant physical phenomena, measuring methods and concepts of these sensors.

Definition of controlled education will be established by announcement published by course supervisor every year. Mandatory participation in laboratory exercises, in case of absence the exercise work can be supplemented with alternative exercise in same week or with a self-study of additional literature.

Not applicable.

Not applicable.

ĎAĎO, Stanislav a Marcel KREIDL. Senzory a měřicí obvody. Vyd. 2. Praha: Vydavatelství ČVUT, 1999. ISBN 80-01-02057-6. (CS)
GULDAN, Arnošt. Mikroelektronické senzory. Bratislava: Alfa, 1988. Pokroky v elektronike a elektrotechnike. (SK)
HUSÁK, Miroslav. Mikrosenzory a mikroaktuátory. Praha: Academia, 2008. Gerstner. ISBN 978-80-200-1478-8. (CS)
MEIJER, G. C. M. Smart sensor systems. Chichester, U.K.: J. Wiley, 2008. ISBN 0470866918. (EN)
RIPKA, Pavel a Alois TIPEK, ed. Master books on sensors: modular courses on modern sensors Leondaro da Vinci project CZ/PP-134026. Praha: BEN - technical literature, 2003. ISBN 80-7300-129-2. (EN)
RIPKA, Pavel. Senzory a převodníky. 2. vyd. V Praze: České vysoké učení technické, 2011. ISBN 978-80-01-04696-8. (CS)
TURÁN, Ján. Optické vláknové senzory. Praha: Tesla-Výzkumný ústav pro sdělovací techniku A. S. Popova, 1990. Mikro quo vadis. (CS)

HARRY N. NORTON. Handbook of transducers. Prentice Hall, 1989. (EN)
SALEH, Bahaa E. A. a Malvin Carl TEICH. Základy fotoniky. Praha: Matfyzpress, 1996. ISBN 80-85863-12-X. (CS)
YEH, Chai. Handbook of fiber optics: theory and applications. San Diego: Academic Press, c1990. ISBN 0127704558. (EN)