Beckhoff alapú hajtásrendszer tanulóállomás megtervezése
Design of a Beckhoff-based drive system learning station
Keywords:
drive system, servomotor, PMSM, PLC, /, hajtásrendszer, szervomotorAbstract
Today, automation equipment manufacturers are increasingly looking to reduce commissioning times. If you use equipment from the same manufacturer, useful functions become available that are easy to use. The following paper describes the commissioning and operation of a Beckhoff servo drive system. The purpose of the station built is to demonstrate and train mainly PLC programming and electrical machines and drives, modelling and automation tasks. The completion of the project will allow the students to gain a practical understanding of several lectures.
Kivonat
Napjainkban az automatizálási berendezéseket gyártó cégek egyre jobban törekednek a beüzemelési idő csökkentésére. Amennyiben ugyan azon gyártójú eszközöket használunk, elérhetővé válnak egyszerűen használható hasznos funkciók. Az alábbi tanulmány egy Beckhoff típusú szervóhajtás rendszer beüzemelését, és üzemeltetését mutatja be. A felépített állomás célja, hogy elsősorban PLC programozási, valamint villamosgépek és hajtások, és automatizálási feladatokat lehessen bemutatni, gyakorolni rajta. A projekt véghezvitele több előadás gyakorlati megértését teszi lehetővé a hallgatók számára.
References
K. Kontas, D. Zuidervliet és P. Duijsen, "Educational Power Logger for Electrical Machines Laboratory Experiments," 2023 18th Conference on Electrical Machines, Drives and Power Systems (ELMA), 2023.
J. S. Fusic, H. Ramesh és G. Sharanya, "Effect of Q-Net demonstration-based educational approach on improving students problem-solving skills in the electrical machines course," Journal of Engineering Education Transformations, 2023.
L. Szabó és F. A. Cotet, "On the suitability of using ANSYS Motor-CAD software for teaching special electrical machines," 2023 10th International Conference on Modern Power Systems (MPS), 2023.
B. A. Sapena, V. J. Burriel, G. M. Riera, S. C. Terron és R. J. Martinez, "Improving Student Outcomes Attainment by Project Based Learning in Electrical Machines," IEEE Global Engineering Education Conference (EDUCON), 2022.
G. Dume és J. Metalla, "Hardware in the loop technique for real-time control of electrical machines using LabVIEW software for laboratory works in electrical engineering faculties," 7th Advanced Engineering Days, 2023.
V. S. Ruseva és A. H. Krasteva, "Using the Matlab Programming Environment in the Course of Student Training in the Electrical Machines Discipline," 46th MIPRO ICT and Electronics Convention (MIPRO), 2023.
J. J. Aciego, A. C. Colome, I. G. Prieto, A. G. Prieto és M. J. Duran, "A Long-Life Predictive Guidance with Homogeneous Competence Promotion for University Teaching Design," Education Sciences, vol. 13, no. 31, 2023.
N. N. Mitrovic, V. Z. Kostic, F. R. Filipovic, B. G. Bankovic és M. P. Petronijevic, "Laboratory Set-up for Testing of Vector Controlled Induction Motor Drives," 58th International Scientific Conference on Information, Communication and Energy Systems and Technologies (ICEST), 2023.
I. Opris, G. D. E. Nistoran, S. Costinas és C. S. Ionescu, "Rethinking power engineering education for Generation Z," Computer Applications in Engineering Education, vol. 29, no. 1, pp. 287-305, 2021.
R. Mikuska, S. Balázs, D. Dobák és P. T. Szemes, "Internet Based Control of a Servo Motor with a Sliding Mode Based Observer for Chattering Reduction," IEEE 20th International Power Electronics and Motion Control Conference (PEMC), 2022.
P. Korondi és H. Hashimoto, "Sliding mode design for motion control," Studies in Applied Electromagnetics and Mechanics, vol. 16, pp. 221-232, 2000.
P. Korondi és H. Hashimoto, "Park vector based sliding mode control of UPS with unbalanced and nonlinear load," Variable structure systems, sliding mode and nonlinear control, pp. 193-209, 1999.
A. K. Saha, "A Real-Time Simulation-Based Practical on Overcurrent Protection for Undergraduate Electrical Engineering Students," IEEE Access , vol. 10, pp. 52537 - 52550, 2022.
D. G. Broo, O. Kaynak és S. M. Sait, "Rethinking engineering education at the age of industry 5.0," Journal of Industrial Information Integration, vol. 25, 2022.
Gy. Korsoveczki, B. Kovács, D. Tihanyi, H. A. Almusawi és P. Korondi, "IT development of a web-based laboratory system for mechatronical engineering students," IEEE 9th International Conference on e-Learning in Industrial Electronics (ICELIE), 2022.
M. Daun, "Software Engineering Education for Technical Engineering Degrees," IEEE Software, pp. 1-7, 2023.
K. Tantawi, A. Nasab, L. Potter, O. Tantawi, N. Wilson, A. Henre, A. Sirinterlikci és E. Kaplanoglu, "Mechatronics Education- Current and Future Trends," 11th International Symposium on Digital Forensics and Security (ISDFS), 2023.