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Asenkron motorlar için ayarlanabilir gerilim uygulamalı V/f tabanlı hız denetiminde farklı PWM tekniklerinin performans analizi

Year 2018, Volume: 24 Issue: 5, 797 - 808, 12.10.2018

Abstract

Bu makale, Asenkron
Motorlarının (IM veya ASM) Volt-Hertz (V/f) tabanlı hız kontrolünü iyileştirmek
için bir yöntem ve karşılaştırmalı bir çalışma sunmaktadır. Bu amaçla,
özellikle farklı yük ve hız koşullarında çalışan üç fazlı asenkron motorların
V/f tabanlı hız kontrol performansı açısından sinüzoidal darbe genişlik
modülasyonu (SPWM) ve uzay vektör darbe genişliği modülasyonu (SVPWM)
teknikleri incelenip değerlendirilmiştir. Bu bakımdan, literatürden farklı bir
çalışmadır. Her iki tekniğin yukarıda belirtilen kontrol yöntemi üzerindeki
kararlı ve geçici hal etkileri çeşitli örnek durumlar üzerinde analiz
edilmiştir. Daha sonra, kalkış performansını artırmak için her iki PWM
yönteminde de düzeltilmiş referans komut tekniğine eşlik eden ayarlanabilir
yükseltici gerilim uygulaması önerilmiştir. Her iki PWM modeli için yapılan tüm
araştırmalar aynı koşullar altında gerçekleştirilmiştir. SVPWM tekniği birçok durumda
daha etkin sonuçlar vermesine rağmen, kontrol yöntemi üzerindeki performans
açısından SPWM tabanlı uygulamalarda önerilen yöntem dikkate değer
iyileştirmeler sağlamaktadır. Bu çalışmanın bir yeniliği olarak, düşük
maliyetli mikrodenetleyici için daha az hesaplama yükü olan SPWM uygulamasında
karşılaşılan düşük frekansta kötü kontrol performansı, DC hat akımına göre
oransal olarak değişen düzeltilmiş referans komutlarıyla birlikte uygulanan
ayarlanabilir yükseltici gerilim yöntemi ile iyileştirilebileceği
gösterilmiştir.

References

  • Krishnan R. Electric Motor Drives-Modeling Analysis and Control. 2nd ed. NJ, USA, Prentice-Hall, 2001.
  • Yu Z, Figoli D. “AC IM control using constant V/Hz principle and space vector PWM technique with TMS320C240-DSP digital control system applications”. Application Report, Texas Inst. Inc, Texas, USA, 1998.
  • Suetake M, Silva INd. “Embedded DSP-based compact fuzzy system and its application for induction-motor V/f speed control”. IEEE Transactions on Industrial Electronics, 58(3), 750-760, 2011.
  • Milicevic D, Katic V, Corba Z, Greconici M. “New space vector selection scheme for VSI supplied dual three-phase induction machine”. Advances in Electrical and Computer Engineering, 13(1), 59-64, 2013.
  • Emar W, Sarhan H, Al-Issa R, Trad I, Awada M. “V/F control of squirrel cage induction motor drives without flux or torque measurement dependency”. International Journal of Robotics and Automation (IJRA), 2(2), 77-92, 2011.
  • Santos TH, Goedtel A, da Silva SAO, Suetake M. “Scalar control of an induction motor using a neural sensorless technique”. Electric Power Systems Research, 108, 322-330, 2014.
  • Gupta A, Mathew L, Chatterji S. “V/f-based speed controllers for an induction motor using AI techniques: A comparative analysis”. 2nd International Conference on Software Computing for Problem Solving (SocProS), Jaipur, Rajasthan, India, 28-30 December 2012.
  • Tsuji M, Zhao X, Zhang H, Hamasaki S. “A new simplified V/f control of induction motor for precise speed operation”. IEEE International Conference on Electrical Machines and Systems , Beijing, China, 1-6 Augustus 2011.
  • Morsy AS, Abdelkhalik AS, Abbas A, Ahmed S, Massoud A. “Open loop V/f control of multiphase induction machine under open-circuit phase faults”. 28th Annual IEEE Applied Power Electronics Conference and Exposition (APEC), Long Beach, CA, 17-21 March 2013.
  • Chen B, Yao W, Lu Z, Lee K. “A novel stator flux oriented V/f control method in sensorless induction motor drives for accuracy improvement and oscillation suppression”. Proceedings IEEE Energy Conversion Congress and Exposition (ECCE), Pittsburgh, PA, 14-18 September 2014.
  • Holtz J. “Pulse width modulation-a survey”. IEEE Transaction on Industrial Electronics, 39(5), 10-420, 1992.
  • Akshay KR, Holtz J, Boller T. “Generalized optimal pulse width modulation of multilevel inverters for low-switching-frequency control of medium-voltage high-power industrial AC drives”. IEEE Transactions on Industrial Electronics, 60(10), 252-261, 2013.
  • Wu Y, Shafi MA, Knight AM, McMahon RA. “Comparison of the effects of continuous and discontinuous PWM schemes on power losses of voltage-sourced inverters for induction motor drives”. IEEE Transactions on Power Electronics, 26(1), 182-191, 2011.
  • Kumar SN, Vijayan S, Kumar EN. “Asymmetric SVM technique for minimizing switching loss of inverter”. Arabian Journal for Science and Engineering, 39(4), 3123-3136, 2014.
  • Edpuganti A, Rathore AK. “Optimal low switching frequency pulsewidth modulation of nine-level cascade inverter”. IEEE Transactions on Power Electronics, 30(1), 482-495, 2015.
  • Geyer T. “A comparison of control and modulation schemes for medium-voltage drives: emerging predictive control concepts versus PWM-based schemes”. IEEE Transactions on Industry Applications, 47(3), 1380-1389, 2011.
  • Basu K, Prasad J, Narayanan G, Krishnamurthy HK, Ayyanar R. “Reduction of torque ripple in induction motor drives using an advanced hybrid PWM technique”. IEEE Transactions on Industrial Electronics, 57(6), 2085-2091, 2010.
  • Reddy MHV, Jegathesan V. “Open loop V/f control of induction motor based on hybrid PWM with reduced torque ripple”. Proceedings of International Conference on Emerging Trends in Electrical and Computer Technology (ICETECT), Nagercoil, India, 23-24 March 2011.
  • Narayanan G, Ranganathan VT, Zhao D, Krishnamurthy HK, Ayyanar R. “Space vector based hybrid PWM techniques for reduced current ripple”. IEEE Transactions on Industrial Electronics, 55(4), 1614-1627, 2008.
  • Das S, Narayanan G, Pandey M. “Space-vector-based hybrid pulse width modulation techniques for a three-level inverter”. IEEE Transactions on Power Electronics, 29(9), 132-140, 2014.
  • Praveena N, Satheesh G, Ramprasad R. “Space vector based PWM algorithms to reduce current ripple for an induction motor drive”. International Journal of Advanced Scientific and Technical Research, 3(1), 528-540, 2013.
  • Ahmed SKM, Iqbal A, Abu-Rub H. “Generalized duty-ratio-based pulse width modulation technique for a three-to-phase matrix converter”. IEEE Transactions on Industrial Electronics, 58(9), 3925-3937, 2011.
  • Babaei E, Hosseini SH. “Generalized direct modulation control methods for matrix converters under balanced and unbalanced operations”. Arabian Journal for Science and Engineering, 38(9), 2423-2438, 2013.
  • Narayanan G, Ranganathan VT. “Triangle-comparison approach and space vector approach to pulse width modulation in inverter fed drives”. Journal of the Indian Institute of Science, 80, 409-427, 2000.
  • Wang F. “Sine-triangle versus space-vector modulation for three-level PWM voltage-source inverters”. IEEE Transactions on Industry Applications, 38(2), 500-506, 2002.
  • Neptune E, Shariatmadar SM, Moradi B. “Performance analysis of different techniques for pulse width modulation-a survey”. Journal of Advanced & Applied Sciences (JAAS), 2(5), 157-163, 2014.
  • Keliang Z, Danwei W. “Relationship between space-vector modulation and three-phase carrier-based PWM: a comprehensive analysis”. IEEE Transactions on Industrial Electronics, 49(1), 186-196, 2002.
  • Iqbal A, Moinuddin S. “Comprehensive relationship between carrier-based PWM and space vector PWM in a five-phase VSI”. IEEE Transactions on Power Electronics, 24(10), 2379-2390, 2009.
  • Bodo N, Levi E, Jones M. “Investigation of carrier-based PWM techniques for a five-phase open-end winding drive topology”. IEEE Transactions on Power Electronics, 60(5), 2054-2065, 2013.
  • Beig AR, Narayanan G, Ranganathan VT. “Modified SVPWM algorithm for three Level VSI with synchronized and symmetrical waveforms”. IEEE Transactions on Power Electronics, 54(1), 486-494, 2007.
  • Hava AM, Un E. “Performance analysis of reduced common-mode voltage PWM methods and comparison with standard PWM methods for three-phase voltage-source inverters”. IEEE Transactions on Power Electronics, 24(1), 241-252, 2009.
  • Kumar KV, Michael PA, John JP, Kumar SS. “Simulation and comparison of SPWM and SVPWM control for three phase inverter”. ARPN Journal of Engineering and Applied Sciences, 5(7), 61-74, 2010.
  • Yao W, Hu H, Lu Z. “Comparisons of space-vector modulation and carrier-based modulation of multilevel inverter”. IEEE Transactions on Power Electronics, 23(1), 45-51, 2008.
  • Profumo F, Boglietti A, Griva G, Pastorelli M. “Space vector and sinusoidal PWM techniques comparison keeping in account the secondary effects”. 3rd AFRICON Conference, Ezulwini Valley, Swaziland, 22-24 September 1992.
  • Taib N, Metidji B, Rekioua T. “A fixed switching frequency direct torque control strategy for induction motor drives using indirect matrix converter”. Arabian Journal for Science and Engineering, 39(3), 2001-2011, 2014.
  • Mondal SK, Bose BK, Oleschuk V, Pinto JOP. “Space vector pulse width modulation of three-level inverter extending operation into overmodulation region”. IEEE Transactions on Power Electronics, 18(2), 604-611, 2003.
  • Igbal A, Lamine A, Mohibullah IA. “MATLAB/Simulink model of space vector PWM for three-phase voltage source inverter”. 41st Universities Power Engineering Conference, Newcastle-Upon-Tyne, USA, 6-8 September 2006.
  • Sutikno T, Jidin A, Rumzi N, Idris N. “New approach FPGA-based implementation of discontinuous SVPWM”. Turkish Journal of Electrical Engineering & Computer Sciences., 18(4), 499-514, 2010.
  • Birou I, Maier V, Pavel S, Rusu C. “Indirect vector control of an induction motor with fuzzy-logic based speed controller”. Advances in Electrical and Computer Engineering, 10(1), 116-120, 2010.
  • Laroussi K, Zelmat M, Rouff M. “Implementation of a fuzzy logic system to tune a PI controller applied to an induction motor”. Advances in Electrical and Computer Engineering, 9(3), 107-113, 2009.
  • Babaei E. “A new pulse width modulation technique for inverters”. Arabian Journal for Science and Engineering, 39(8), 6235-6247, 2014.
  • Babaei E, Sabahi M. “Development of pulse width modulation technique for controlling inverters under balanced and unbalanced operations”. Arabian Journal for Science and Engineering, 39(4), 2941-2951, 2014.
  • El-Saady G, Ibrahim EA, Elbesealy M. “V/f control of three phase induction motor drive with different PWM techniques”. Innovative Systems Design and Engineering, 4(14), 131-144, 2013.
  • Aktas M, Okumuş HI. “Stator resistance estimation using ANN in DTC IM drives”. Turkish Journal of Electrical Engineering & Computer Sciences, 18(2), 197-210, 2010.
  • Garcia AM, Lipo TA, Novotny DW. “A new IM V/f control method capable of high-performance regulation at low speeds”. IEEE Transactions on Industry Applications, 34(4), 813-821, 1998.
  • Koga K, Ueda R, Sonoda T. “Constitution of V/f control for reducing the steady-state speed error to zero in induction motor drive system”. IEEE Transactions on Industry Applications, 28(2), 463,471, 1992.
  • Yang R, Chen W, Yu Y, Xu D. “A novel V/F control system based on stator voltage oriented method”. ICEMS 2008. International Conference on Electrical Machines and Systems, Wuhan, China, 17-20 October 2008.
  • Chen W, Xu D, Yang R, Yu Y, Xu Z. “A novel stator voltage oriented V/F control method capable of high output torque at low speed”. PEDS 2009. International Conference on Power Electronics and Drive Systems, Taipei, Taiwan, 2-5 November 2009.
  • Tsuji M, Chen S, Hamasaki SI, Zhao X, Yamada E. “A novel V/f control of induction motors for wide and precise speed operation”. SPEEDAM 2008. International Symposium on Power Electronics, Electrical Drives, Automation and Motion, Ischia, Italy, 11-13 June 2008.
  • Huges A. Electrical Motors and Drives-Fundamentals, Types and Applications. 3rd ed. Burlington, UK, Elsevier Pub., 2006.
  • Bose BK. Power Electronics and Motor Drives-Advances and Trends, Burlington, UK, Elsevier Pub., 2006.
  • Holmes GD, Lipo TA. Pulse Width Modulation for Power Converters- Principles and Practice, Piscataway, NJ, USA, Willey and Sons, 2003.
  • Hart DW. Power Electronics, New York, USA, McGraw Hill Co., 2010.
  • Kesler S, Akpinar AS, Saygin A, Oner Y. “DSP implementation of a variable speed drive using fuzzy logic based voltage injection method for wound-rotor induction machines”. IREE International Review of Electrical Engineering, 3(6), 962-974, 2008.

Performance analysis of different PWM techniques on V/f-based speed control with adjustable boost voltage application for induction motors

Year 2018, Volume: 24 Issue: 5, 797 - 808, 12.10.2018

Abstract

This paper
presents a comparative study and a method to improve Volt-Hertz (V/f) based
speed control of Induction Motors (IMs). For this purpose, Sinusoidal Pulse
Width Modulation (SPWM) and space vector pulse width modulation (SVPWM)
techniques are investigated and evaluated, especially from the point of their
control performance on the V/f-based control for three-phase IMs working at
different load and speed conditions. From this aspect, it is a different study
from the literature. Steady and transient effects of both techniques on the
above mentioned control methods are analyzed for several case studies.
Afterwards, adjustable boost voltage application with modified reference
commands technique is proposed for both PWM methods in order to improve
start-up performance. All investigations for both PWM models are carried out
under the same conditions. Although SVPWM technique gives more effective
results in many cases, the proposed method provides noticeable improvements on
SPWM-based applications from point of performance on the control method. As a
novelty of this study, it is shown that, the bad performance of the control
method at low frequency in SPWM application, which has lower computational
burden for low cost microcontroller, can be improved by applying adjustable
boost voltage along with modified references that are proportional to the DC
bus current.

References

  • Krishnan R. Electric Motor Drives-Modeling Analysis and Control. 2nd ed. NJ, USA, Prentice-Hall, 2001.
  • Yu Z, Figoli D. “AC IM control using constant V/Hz principle and space vector PWM technique with TMS320C240-DSP digital control system applications”. Application Report, Texas Inst. Inc, Texas, USA, 1998.
  • Suetake M, Silva INd. “Embedded DSP-based compact fuzzy system and its application for induction-motor V/f speed control”. IEEE Transactions on Industrial Electronics, 58(3), 750-760, 2011.
  • Milicevic D, Katic V, Corba Z, Greconici M. “New space vector selection scheme for VSI supplied dual three-phase induction machine”. Advances in Electrical and Computer Engineering, 13(1), 59-64, 2013.
  • Emar W, Sarhan H, Al-Issa R, Trad I, Awada M. “V/F control of squirrel cage induction motor drives without flux or torque measurement dependency”. International Journal of Robotics and Automation (IJRA), 2(2), 77-92, 2011.
  • Santos TH, Goedtel A, da Silva SAO, Suetake M. “Scalar control of an induction motor using a neural sensorless technique”. Electric Power Systems Research, 108, 322-330, 2014.
  • Gupta A, Mathew L, Chatterji S. “V/f-based speed controllers for an induction motor using AI techniques: A comparative analysis”. 2nd International Conference on Software Computing for Problem Solving (SocProS), Jaipur, Rajasthan, India, 28-30 December 2012.
  • Tsuji M, Zhao X, Zhang H, Hamasaki S. “A new simplified V/f control of induction motor for precise speed operation”. IEEE International Conference on Electrical Machines and Systems , Beijing, China, 1-6 Augustus 2011.
  • Morsy AS, Abdelkhalik AS, Abbas A, Ahmed S, Massoud A. “Open loop V/f control of multiphase induction machine under open-circuit phase faults”. 28th Annual IEEE Applied Power Electronics Conference and Exposition (APEC), Long Beach, CA, 17-21 March 2013.
  • Chen B, Yao W, Lu Z, Lee K. “A novel stator flux oriented V/f control method in sensorless induction motor drives for accuracy improvement and oscillation suppression”. Proceedings IEEE Energy Conversion Congress and Exposition (ECCE), Pittsburgh, PA, 14-18 September 2014.
  • Holtz J. “Pulse width modulation-a survey”. IEEE Transaction on Industrial Electronics, 39(5), 10-420, 1992.
  • Akshay KR, Holtz J, Boller T. “Generalized optimal pulse width modulation of multilevel inverters for low-switching-frequency control of medium-voltage high-power industrial AC drives”. IEEE Transactions on Industrial Electronics, 60(10), 252-261, 2013.
  • Wu Y, Shafi MA, Knight AM, McMahon RA. “Comparison of the effects of continuous and discontinuous PWM schemes on power losses of voltage-sourced inverters for induction motor drives”. IEEE Transactions on Power Electronics, 26(1), 182-191, 2011.
  • Kumar SN, Vijayan S, Kumar EN. “Asymmetric SVM technique for minimizing switching loss of inverter”. Arabian Journal for Science and Engineering, 39(4), 3123-3136, 2014.
  • Edpuganti A, Rathore AK. “Optimal low switching frequency pulsewidth modulation of nine-level cascade inverter”. IEEE Transactions on Power Electronics, 30(1), 482-495, 2015.
  • Geyer T. “A comparison of control and modulation schemes for medium-voltage drives: emerging predictive control concepts versus PWM-based schemes”. IEEE Transactions on Industry Applications, 47(3), 1380-1389, 2011.
  • Basu K, Prasad J, Narayanan G, Krishnamurthy HK, Ayyanar R. “Reduction of torque ripple in induction motor drives using an advanced hybrid PWM technique”. IEEE Transactions on Industrial Electronics, 57(6), 2085-2091, 2010.
  • Reddy MHV, Jegathesan V. “Open loop V/f control of induction motor based on hybrid PWM with reduced torque ripple”. Proceedings of International Conference on Emerging Trends in Electrical and Computer Technology (ICETECT), Nagercoil, India, 23-24 March 2011.
  • Narayanan G, Ranganathan VT, Zhao D, Krishnamurthy HK, Ayyanar R. “Space vector based hybrid PWM techniques for reduced current ripple”. IEEE Transactions on Industrial Electronics, 55(4), 1614-1627, 2008.
  • Das S, Narayanan G, Pandey M. “Space-vector-based hybrid pulse width modulation techniques for a three-level inverter”. IEEE Transactions on Power Electronics, 29(9), 132-140, 2014.
  • Praveena N, Satheesh G, Ramprasad R. “Space vector based PWM algorithms to reduce current ripple for an induction motor drive”. International Journal of Advanced Scientific and Technical Research, 3(1), 528-540, 2013.
  • Ahmed SKM, Iqbal A, Abu-Rub H. “Generalized duty-ratio-based pulse width modulation technique for a three-to-phase matrix converter”. IEEE Transactions on Industrial Electronics, 58(9), 3925-3937, 2011.
  • Babaei E, Hosseini SH. “Generalized direct modulation control methods for matrix converters under balanced and unbalanced operations”. Arabian Journal for Science and Engineering, 38(9), 2423-2438, 2013.
  • Narayanan G, Ranganathan VT. “Triangle-comparison approach and space vector approach to pulse width modulation in inverter fed drives”. Journal of the Indian Institute of Science, 80, 409-427, 2000.
  • Wang F. “Sine-triangle versus space-vector modulation for three-level PWM voltage-source inverters”. IEEE Transactions on Industry Applications, 38(2), 500-506, 2002.
  • Neptune E, Shariatmadar SM, Moradi B. “Performance analysis of different techniques for pulse width modulation-a survey”. Journal of Advanced & Applied Sciences (JAAS), 2(5), 157-163, 2014.
  • Keliang Z, Danwei W. “Relationship between space-vector modulation and three-phase carrier-based PWM: a comprehensive analysis”. IEEE Transactions on Industrial Electronics, 49(1), 186-196, 2002.
  • Iqbal A, Moinuddin S. “Comprehensive relationship between carrier-based PWM and space vector PWM in a five-phase VSI”. IEEE Transactions on Power Electronics, 24(10), 2379-2390, 2009.
  • Bodo N, Levi E, Jones M. “Investigation of carrier-based PWM techniques for a five-phase open-end winding drive topology”. IEEE Transactions on Power Electronics, 60(5), 2054-2065, 2013.
  • Beig AR, Narayanan G, Ranganathan VT. “Modified SVPWM algorithm for three Level VSI with synchronized and symmetrical waveforms”. IEEE Transactions on Power Electronics, 54(1), 486-494, 2007.
  • Hava AM, Un E. “Performance analysis of reduced common-mode voltage PWM methods and comparison with standard PWM methods for three-phase voltage-source inverters”. IEEE Transactions on Power Electronics, 24(1), 241-252, 2009.
  • Kumar KV, Michael PA, John JP, Kumar SS. “Simulation and comparison of SPWM and SVPWM control for three phase inverter”. ARPN Journal of Engineering and Applied Sciences, 5(7), 61-74, 2010.
  • Yao W, Hu H, Lu Z. “Comparisons of space-vector modulation and carrier-based modulation of multilevel inverter”. IEEE Transactions on Power Electronics, 23(1), 45-51, 2008.
  • Profumo F, Boglietti A, Griva G, Pastorelli M. “Space vector and sinusoidal PWM techniques comparison keeping in account the secondary effects”. 3rd AFRICON Conference, Ezulwini Valley, Swaziland, 22-24 September 1992.
  • Taib N, Metidji B, Rekioua T. “A fixed switching frequency direct torque control strategy for induction motor drives using indirect matrix converter”. Arabian Journal for Science and Engineering, 39(3), 2001-2011, 2014.
  • Mondal SK, Bose BK, Oleschuk V, Pinto JOP. “Space vector pulse width modulation of three-level inverter extending operation into overmodulation region”. IEEE Transactions on Power Electronics, 18(2), 604-611, 2003.
  • Igbal A, Lamine A, Mohibullah IA. “MATLAB/Simulink model of space vector PWM for three-phase voltage source inverter”. 41st Universities Power Engineering Conference, Newcastle-Upon-Tyne, USA, 6-8 September 2006.
  • Sutikno T, Jidin A, Rumzi N, Idris N. “New approach FPGA-based implementation of discontinuous SVPWM”. Turkish Journal of Electrical Engineering & Computer Sciences., 18(4), 499-514, 2010.
  • Birou I, Maier V, Pavel S, Rusu C. “Indirect vector control of an induction motor with fuzzy-logic based speed controller”. Advances in Electrical and Computer Engineering, 10(1), 116-120, 2010.
  • Laroussi K, Zelmat M, Rouff M. “Implementation of a fuzzy logic system to tune a PI controller applied to an induction motor”. Advances in Electrical and Computer Engineering, 9(3), 107-113, 2009.
  • Babaei E. “A new pulse width modulation technique for inverters”. Arabian Journal for Science and Engineering, 39(8), 6235-6247, 2014.
  • Babaei E, Sabahi M. “Development of pulse width modulation technique for controlling inverters under balanced and unbalanced operations”. Arabian Journal for Science and Engineering, 39(4), 2941-2951, 2014.
  • El-Saady G, Ibrahim EA, Elbesealy M. “V/f control of three phase induction motor drive with different PWM techniques”. Innovative Systems Design and Engineering, 4(14), 131-144, 2013.
  • Aktas M, Okumuş HI. “Stator resistance estimation using ANN in DTC IM drives”. Turkish Journal of Electrical Engineering & Computer Sciences, 18(2), 197-210, 2010.
  • Garcia AM, Lipo TA, Novotny DW. “A new IM V/f control method capable of high-performance regulation at low speeds”. IEEE Transactions on Industry Applications, 34(4), 813-821, 1998.
  • Koga K, Ueda R, Sonoda T. “Constitution of V/f control for reducing the steady-state speed error to zero in induction motor drive system”. IEEE Transactions on Industry Applications, 28(2), 463,471, 1992.
  • Yang R, Chen W, Yu Y, Xu D. “A novel V/F control system based on stator voltage oriented method”. ICEMS 2008. International Conference on Electrical Machines and Systems, Wuhan, China, 17-20 October 2008.
  • Chen W, Xu D, Yang R, Yu Y, Xu Z. “A novel stator voltage oriented V/F control method capable of high output torque at low speed”. PEDS 2009. International Conference on Power Electronics and Drive Systems, Taipei, Taiwan, 2-5 November 2009.
  • Tsuji M, Chen S, Hamasaki SI, Zhao X, Yamada E. “A novel V/f control of induction motors for wide and precise speed operation”. SPEEDAM 2008. International Symposium on Power Electronics, Electrical Drives, Automation and Motion, Ischia, Italy, 11-13 June 2008.
  • Huges A. Electrical Motors and Drives-Fundamentals, Types and Applications. 3rd ed. Burlington, UK, Elsevier Pub., 2006.
  • Bose BK. Power Electronics and Motor Drives-Advances and Trends, Burlington, UK, Elsevier Pub., 2006.
  • Holmes GD, Lipo TA. Pulse Width Modulation for Power Converters- Principles and Practice, Piscataway, NJ, USA, Willey and Sons, 2003.
  • Hart DW. Power Electronics, New York, USA, McGraw Hill Co., 2010.
  • Kesler S, Akpinar AS, Saygin A, Oner Y. “DSP implementation of a variable speed drive using fuzzy logic based voltage injection method for wound-rotor induction machines”. IREE International Review of Electrical Engineering, 3(6), 962-974, 2008.
There are 54 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Article
Authors

Selami Kesler 0000-0002-7027-1426

Publication Date October 12, 2018
Published in Issue Year 2018 Volume: 24 Issue: 5

Cite

APA Kesler, S. (2018). Performance analysis of different PWM techniques on V/f-based speed control with adjustable boost voltage application for induction motors. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 24(5), 797-808.
AMA Kesler S. Performance analysis of different PWM techniques on V/f-based speed control with adjustable boost voltage application for induction motors. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. October 2018;24(5):797-808.
Chicago Kesler, Selami. “Performance Analysis of Different PWM Techniques on V/F-Based Speed Control With Adjustable Boost Voltage Application for Induction Motors”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24, no. 5 (October 2018): 797-808.
EndNote Kesler S (October 1, 2018) Performance analysis of different PWM techniques on V/f-based speed control with adjustable boost voltage application for induction motors. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24 5 797–808.
IEEE S. Kesler, “Performance analysis of different PWM techniques on V/f-based speed control with adjustable boost voltage application for induction motors”, Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 24, no. 5, pp. 797–808, 2018.
ISNAD Kesler, Selami. “Performance Analysis of Different PWM Techniques on V/F-Based Speed Control With Adjustable Boost Voltage Application for Induction Motors”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24/5 (October 2018), 797-808.
JAMA Kesler S. Performance analysis of different PWM techniques on V/f-based speed control with adjustable boost voltage application for induction motors. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2018;24:797–808.
MLA Kesler, Selami. “Performance Analysis of Different PWM Techniques on V/F-Based Speed Control With Adjustable Boost Voltage Application for Induction Motors”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 24, no. 5, 2018, pp. 797-08.
Vancouver Kesler S. Performance analysis of different PWM techniques on V/f-based speed control with adjustable boost voltage application for induction motors. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2018;24(5):797-808.

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