Subject description - AE0B14SPP

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AE0B14SPP Drive Sensors Extent of teaching:2+2L
Guarantors:  Roles:V Language of
teaching:
CS
Teachers:  Completion:Z,ZK
Responsible Department:13114 Credits:4 Semester:Z

Anotation:

Electric and non-electric quantity sensors for drives, Basic sensors types - physical principles. Theoretical fundamentals, practical choice of suitable sensor, sensor output electrical circuit, sensor output signal processing, digital signal processing and noise suppression. Sensor output signal time characteristics and frequency characteristics. Practical lab verification of theoretical principles

Course outlines:

1. Sensors categorization
2. Measurement chain, sensor generations overview, sensor parts, terminology, intelligent sensor
3. Sensor parameters, range, sensitivity, accuracy, static and dynamic characteristics, measured object interaction
4. Temperature sensors (resistive, PN junction, thermocouple, I2C interface), design, characteristics, evaluation
5. Voltage and current sensors (transformers, hall-sensors, galvanic insulation), design, characteristics, evaluation
6. Speed rotating sensors, DC and AC electrodynamic sensors
7. Rotating and linear position sensors. Optical sensors (incremental and absolute), magnetic sensors
8. Rotating and linear position inductive sensors, selsyn, resolver, inductosyn, linear differential transformer
9. Rotating and linear position sensors, capacitive sensors
10. Rotating and linear acceleration sensors, semiconductor accelerometers
11. Pressure sensors (metal resistive, semiconductors resistive), air and liquid flow sensors
12. Contactless data transmission from sensors
13. Advanced drive sensors for transportation
14. Noise suppressing methods

Exercises outline:

1. Lab introduction. Lab work security briefing
2. Technical documentation application, catalogue data interpretation
3. Temperature measurement, theoretical analysis, requirements specification
4. Temperature measurement, data processing by microcontroller
5. Voltage and current measurement
6. Voltage and current measurement, data processing by microcontroller
7. Optoelectronic revolution sensor, microcontroller measurement and calculation of angular position and velocity
8. Optoelectronic revolution sensor, microcontroller measurement and calculation of angular position and velocity
9. Linear differential transformer, position measurement and evaluation by microcontroller
10. Linear differential transformer, position measurement and evaluation by microcontroller
11. Linear differential transformer, position measurement and evaluation by microcontroller
12. Inductive sensor, angular position and angular velocity measurement and evaluation
13. Inductive sensor, angular position and angular velocity measurement and evaluation
14. Credit

Literature:

[1] Mohan, N., Underland, T., Robbins, W. Power Electronics. New York: John Willey & Sons. 1995
[2] Pavelka, J., Čeřovský, Z., Javůrek, J. Elektrické pohony, Praha: ČVUT. 1999
[3] Hrabovcová, V., Janoušek, L., Rafajdus, P., Ličko, M. Moderné elektrické stroje, Žilina: TU. 2001

Requirements:

Active participation on labs, presentation of own lab works

Subject is included into these academic programs:

Program Branch Role Recommended semester
BEKME1 Communication Technology V
BEKME5 Komunikace a elektronika V
BEKME_BO Common courses V
BEKME4 Network and Information Technology V
BEKME3 Applied Electronics V
BEKME2 Multimedia Technology V
BEEEM1 Applied Electrical Engineering V
BEEEM_BO Common courses V
BEEEM2 Electrical Engineering and Management V
BEKYR1 Robotics V
BEKYR_BO Common courses V
BEKYR3 Systems and Control V
BEKYR2 Sensors and Instrumentation V
BEOI1 Computer Systems V
BEOI_BO Common courses V
BEOI3 Software Systems V
BEOI2 Computer and Information Science V


Page updated 27.6.2019 07:52:39, semester: Z,L/2020-1, L/2018-9, Z,L/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)