Abstract
In recent years, power electronic has become even more popular with the development of semiconductor switching devices. Power electronics applications can be found almost in all systems related to electrical and electronic fields. With the power electronic circuits, AC or DC voltages at various amplitudes can be obtained from constant voltage sources. AC voltage with constant frequency and variable amplitude with high power factor can be provided by an AC chopper. Purpose of these power electronic circuits is to make the system more efficient, provide output waveforms with higher quality (less harmonics) and prevent power loss in large power systems. In this study, a three-phase PWM controlled AC chopper circuit has been modelled and simulated in MATLAB / Simulink package program. In this simulation, the output statements obtained for the switching devices by a different control method are discussed. Various operating conditions have been examined where a three-phase unbalanced voltage source without and with having the 5th and 7th harmonics was applied to the input side of the chopper. As a result, superiority of the control system used in the PWM controlled AC chopper has been demonstrated by the simulation results.
Keywords
Three-Phase PWM AC Chopper Hysteresis Band Current Controller (HBCC) Harmonic Analysis Pulse width Modulation (PWM)
References
- 1. Rashid, H. M., Power Electronics Devices, Circuits and Applications (4th Edition), England.
- 2. Bodur, H., Güç Elektronigi I, http://afguven.com/depo/ESM312/guc_elektronigi.pdf, (Access: 16.08.2016)
- 3. Kwon BH, Min BD, Kim JH. ‘Novel topologies of AA choppers’, IEE Proc Electr Power; 143(4):323–30, Appl 1996.
- 4. Kim JH, Min BD, Kwon BH, Won SC. A PWM buck–boost AC chopper solving the commutation problem. IEEE Trans Ind Electron 1998;45(5):832–5.
- 5. Chun, T,, and Choi, M., ‘Development of Adaptive Hysteresis Band Current Control Strategy of PWM Inverter with Constant Switching Frequency’, Conference Proceedings of Applied Power Electronics Conference and Exposition, San Jose CA, Vol. 1, pp. 194-199, 3-7 March 1996.
- 6. Kale, M., Karabacak, M., and Saracaoglu, B., ‘A Novel Hysteresis Band Current Controller Scheme for Three Phase AA chopper’, Electrical Power and Energy Systems 44, pp. 219–226, 2013.
- 7. Sunter, S., Altun, H., and Clare, J. C., ‘A Control Technique for Compensating the Effects of Input Voltage Variations on Matrix Converter Modulation Algorithms’, Electric Power Components and Systems, pp. 807-822, 2010.
Abstract
References
- 1. Rashid, H. M., Power Electronics Devices, Circuits and Applications (4th Edition), England.
- 2. Bodur, H., Güç Elektronigi I, http://afguven.com/depo/ESM312/guc_elektronigi.pdf, (Access: 16.08.2016)
- 3. Kwon BH, Min BD, Kim JH. ‘Novel topologies of AA choppers’, IEE Proc Electr Power; 143(4):323–30, Appl 1996.
- 4. Kim JH, Min BD, Kwon BH, Won SC. A PWM buck–boost AC chopper solving the commutation problem. IEEE Trans Ind Electron 1998;45(5):832–5.
- 5. Chun, T,, and Choi, M., ‘Development of Adaptive Hysteresis Band Current Control Strategy of PWM Inverter with Constant Switching Frequency’, Conference Proceedings of Applied Power Electronics Conference and Exposition, San Jose CA, Vol. 1, pp. 194-199, 3-7 March 1996.
- 6. Kale, M., Karabacak, M., and Saracaoglu, B., ‘A Novel Hysteresis Band Current Controller Scheme for Three Phase AA chopper’, Electrical Power and Energy Systems 44, pp. 219–226, 2013.
- 7. Sunter, S., Altun, H., and Clare, J. C., ‘A Control Technique for Compensating the Effects of Input Voltage Variations on Matrix Converter Modulation Algorithms’, Electric Power Components and Systems, pp. 807-822, 2010.
Details
| Journal Section | TJST |
|---|---|
| Authors | |
| Publication Date | October 1, 2017 |
| Submission Date | September 28, 2017 |
| Published in Issue | Year 2017 Volume: 12 Issue: 2 |