Simulacija rada polumosnog invertora Za indukciono topljenje metala
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Jul 19, 2021
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Usled nedavnog skoka u popularnosti indukcionog grejanja, istraživanje se usmerava ka postizanju veće snage, frekvencije i efikasnosti. Ovaj rad prikazuje simulaciju dela sistema za indukciono grejanje, koji sadrži polumosni rezonantni PWM invertor sa IGBT tranzistorima. Model je podešen tako da radi na frekvenciji 5kHz i snazi 15kW.
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Kako citirati
LABUDOVIĆ, Bracan et al.
Simulacija rada polumosnog invertora Za indukciono topljenje metala.
Zbornik Međunarodne konferencije o obnovljivim izvorima električne energije – MKOIEE, [S.l.], v. 9, n. 1, july 2021.
Dostupno na: <https://izdanja.smeits.rs/index.php/mkoiee/article/view/6619>. Datum pristupa: 23 jan. 2022
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Reference
[1] Remya M N, Mukti Barai, Study of Induction Heating using Half Bridge Series Resonant Inverter (2018), Department of Electrical Engineering, National Institute of Technology, Cali-cut, India,1-2
[2] Nedeljković R. Miloš, Srdić L. Srđan, Power Converters 2 – Topology of Power Converters (2016), University of Belgrade, Faculty of Electrical Engineering, Academic mind, Belgrade, 85-90
[3] Yuvin Kokuhennadige, Md Masum Billah, Joni-Markus Hietanen, Jaakko Lind, Induction Heater for Melting of Aluminum (2019), Aalto University, School of Electrical Engineering, Automation and Electrical Engineering (AEE) Master's Program, Project, Helsinki, Finland, 2-3
[4] Nedeljković R. Miloš, Srdić L. Srđan, Power Converters 1 – Basic Topology of Power Con-verters (2016), University of Belgrade, Faculty of Electrical Engineering, Academic Mind, Belgrade, 114-117
[5] Laboratory practice from electrical measurements, Text for preparation of 4th laboratory exercises, Pspice – short instruction
[6] Radetić Radojle, Small Induction Devices - Theory and Practice, Bor, 2020
[7] Milos R. Nedeljkovic, Power Converters 1 - Topology of Power Converters, Faculty of Elec-trical Engineering, University of Belgrade - Electronic Textbook, 2016
[8] Different technical specifications (eng. Datasheet) components used to design the project
[9] Kostić Miloje, Theory and Calculation of Electromagnetic Systems for Induction Heating, Electrical Engineering Institute Nikola Tesla, Belgrade, 2013
[2] Nedeljković R. Miloš, Srdić L. Srđan, Power Converters 2 – Topology of Power Converters (2016), University of Belgrade, Faculty of Electrical Engineering, Academic mind, Belgrade, 85-90
[3] Yuvin Kokuhennadige, Md Masum Billah, Joni-Markus Hietanen, Jaakko Lind, Induction Heater for Melting of Aluminum (2019), Aalto University, School of Electrical Engineering, Automation and Electrical Engineering (AEE) Master's Program, Project, Helsinki, Finland, 2-3
[4] Nedeljković R. Miloš, Srdić L. Srđan, Power Converters 1 – Basic Topology of Power Con-verters (2016), University of Belgrade, Faculty of Electrical Engineering, Academic Mind, Belgrade, 114-117
[5] Laboratory practice from electrical measurements, Text for preparation of 4th laboratory exercises, Pspice – short instruction
[6] Radetić Radojle, Small Induction Devices - Theory and Practice, Bor, 2020
[7] Milos R. Nedeljkovic, Power Converters 1 - Topology of Power Converters, Faculty of Elec-trical Engineering, University of Belgrade - Electronic Textbook, 2016
[8] Different technical specifications (eng. Datasheet) components used to design the project
[9] Kostić Miloje, Theory and Calculation of Electromagnetic Systems for Induction Heating, Electrical Engineering Institute Nikola Tesla, Belgrade, 2013