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OLED TV’ler için 24V/20A LLC rezonanslı dönüştürücü uygulaması

Yıl 2018, Cilt: 24 Sayı: 5, 837 - 845, 12.10.2018

Öz

Bu çalışmada, LLC topolojisi
kullanılarak çift transformatör yapısı ile transformatörlerin primer tarafları
seri sekonder tarafları paralel bağlı olacak şekilde rezonanslı dönüştürücü ele
alınmıştır. Seri rezonans karakteristiği sayesinde güç Mosfet’leri sıfır
gerilim altında iletime girmektedir, böylece yarı iletkenler üzerindeki
kayıplar azalmıştır. Önerilen dönüştürücüde transformatörlerin primer sargıları
birbirlerine seri bağlanmıştır, bu sayede çıkış tarafına akım dengeli bir
şekilde sağlanmıştır. Sekonder tarafta transformatörlerin sargıları
birbirlerine paralel bağlanmıştır böylece yük akımı eşit biçimde dağıtılmış
aynı zamanda transformatörlerin sekonder sargılarının ve çıkış doğrultucu
diyotlarının akım stresi azalmıştır. Bu çalışmada LLC rezonanslı dönüştürücünün
çalışma prensibi ele alınmıştır ve OLED TV güç kaynakları için 24V/20A çıkışlı
devrenin PSIM simülasyon modeli ve prototipi oluşturulmuştur.

Kaynakça

  • Rosetto L. “A simple control technique for series resonant converters”. IEEE Transactions on Power Electronics, 11(5), 554-560, 1996.
  • Johnson S, Erickson R. “Steady-state analysis and design of the parallel resonant converter”. IEEE Transactions on Power Electronics, 3(2), 93-104, 1988.
  • Steigerwald R. “A comparison of half bridge resonant converter topologies”. IEEE Transactions on Power Electronics, 3(2), 174-182, 1988.
  • Lin B R, Chen JJ, Yang CL. "Analysis and implementation of dual-output LLC resonant converter". IEEE International Conference Industrial Technology, Chengdu, China, 21-24 April 2008.
  • Fang X, Hu H, Chen F, Somani U, Auadisian E, Shen J, Batarseh J. “Efficiency-oriented optimal design of the LLC resonant converter based on peak gain placement”. IEEE Transactions on Power Electronics, 28(5), 2285-2296, 2013.
  • Kim JW, Moon GW. “A New LLC Series Resonant Converter with a Narrow Switching Frequency Variation and Reduced Conduction Losses”. IEEE Transactions on Power Electronics, 29(8), 4278-4287, 2014.
  • Wu X, Hua G, Zhang J, Qian Z. “A new current driven synchronous rectifier for series-parallel resonant (LLC) DC-DC Converter”. IEEE Transactions on Industrial Electronics, 58(1), 289-297, 2011.
  • Fu D, Liu Y, Lee FC, Xu M. “A novel driving scheme for synchronous rectifiers in LLC resonant converters”. IEEE Transactions on Power Electronics, 24(5), 1321-1329, 2009.
  • Cobos JA, Garcia O, Uceda J, Hoz A. “Self Driven Synchronous Rectification in Resonant topologies:Forward ZVS-MRC, Forward ZCS-QRC and LCC-PRC”. International Conference on Industrial Electronics, Control, Instrumentation and Automation, San Diego, USA, 13 November 1992.
  • Fu D, Liu Y, Lee FC, Xu M. “A Novel Driving Scheme for synchronous rectifiers in LLC resonant converters”. IEEE Transactions on Power Electronics, 24(5), 1321-1329, 2009.
  • Oruganti R, Yang J, Lee FC. “Implementation of optimal trajectory control of series resonant converters”. IEEE Power Electronics Specialists Conference, Blacksbourg, USA, 21-26 June 1987.
  • Bhat AKS. “Analysis and Design of a Modified Series Resonant Converter”. IEEE Transactions on Power Electronics. 8(4), 423-430, 1993
  • Vorperian V, Cuk S. “A Complete DC Analysis of the Series Resonant Converter. IEEE Power Electronics Specialists Conference, Cambridge, USA, 14-17 June 1982.
  • Oruganti R, Yang J, Lee FC. “State plane analysis of parallel resonant converters”. IEEE Power Electronics Specialists Conference, Toulouse, France, 24-28 June 1985.
  • Liu R, Batarseh I, Lee CQ. “Comparison of capacitively and ınductively coupled parallel resonant converters”. IEEE Transactions on Power Electronics, 8(4), 445-454, 1993.
  • Erkmen B, Demirel İ. “A very low-profile dual output LLC resonant converter for LCD/LED TV applications”. IEEE Trans. Power Electronics, 29(7), 3514-3524, 2014.
  • Emsermann M. “An approximate steady state and small signal analysis of the parallel resonant converter running above resonance”. Fourth International Conference on Power Electronics and Variable Speed Drives, London, UK, 17-19 July 1990.
  • Kim ES, Kim JH, Kang SI, Park JH, Lee JS, Huh DY, Jung YC. “Low profile LLC series resonant converter with two transformers”. Twenty-Fifth Annual IEEE Applied Power Electronics Conference and Exposition (APEC), 1885-1889, Palm Springs, USA, 21-25 February 2010.
  • Choi H. “AN-4151 half-bridge LLC resonant converter design using FSFR-Series fairchild power switch (FPSTM)". https://www.fairchildsemi.com/application-notes/AN/AN-4151.pdf (10.12.2016).
  • Park KB, Lee BH, Moon CW, Youn MJ. “Analysis on center-tap rectifier voltage oscillation of llc resonant converter”. IEEE Transactions on Power Electronics, 27(6), 2684-2689, 2012.
  • Chang, CH, Cheng CA, Cheng HL. “Modeling and design of the LLC resonant converter used as a solar-array simulator”. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2(4), 833-841, 2014
  • Chen Y, Liu YF. “Latest advances of LLC converters in high current, fast dynamic responce, and wide voltage range applications”. CPSS Transactions on Power Electronics and Applications, 2(1), 59-67, 2017.

Application of 24V/20A LLC resonant converter for OLED TVs

Yıl 2018, Cilt: 24 Sayı: 5, 837 - 845, 12.10.2018

Öz

This
study aims to come out with a double transformer resonant converter design that
is serially connected in the primary part and parallel connected in the
secondary part while using LLC topology. With the help of serial resonance
characteristics, the power MOSFETs are conducted at zero voltage switching,
therefore the switching power losses on the semiconductor devices are
minimized. In the recommended converter, the primary part of two transformers
are connected in series in order to transmit the load currents to output in a
balanced manner. In the secondary part, the transformers are parallel connected
in order to provide equal distribution of load currents. This, in return,
decreased the current stresses on the secondary part of the transformers and on
the output rectifying diodes. This study provides the working principle of the
series resonant LLC converter topologies by designing the PSIM simulation model
and laboratory prototype with 24V/20A output for OLED TV power source.

Kaynakça

  • Rosetto L. “A simple control technique for series resonant converters”. IEEE Transactions on Power Electronics, 11(5), 554-560, 1996.
  • Johnson S, Erickson R. “Steady-state analysis and design of the parallel resonant converter”. IEEE Transactions on Power Electronics, 3(2), 93-104, 1988.
  • Steigerwald R. “A comparison of half bridge resonant converter topologies”. IEEE Transactions on Power Electronics, 3(2), 174-182, 1988.
  • Lin B R, Chen JJ, Yang CL. "Analysis and implementation of dual-output LLC resonant converter". IEEE International Conference Industrial Technology, Chengdu, China, 21-24 April 2008.
  • Fang X, Hu H, Chen F, Somani U, Auadisian E, Shen J, Batarseh J. “Efficiency-oriented optimal design of the LLC resonant converter based on peak gain placement”. IEEE Transactions on Power Electronics, 28(5), 2285-2296, 2013.
  • Kim JW, Moon GW. “A New LLC Series Resonant Converter with a Narrow Switching Frequency Variation and Reduced Conduction Losses”. IEEE Transactions on Power Electronics, 29(8), 4278-4287, 2014.
  • Wu X, Hua G, Zhang J, Qian Z. “A new current driven synchronous rectifier for series-parallel resonant (LLC) DC-DC Converter”. IEEE Transactions on Industrial Electronics, 58(1), 289-297, 2011.
  • Fu D, Liu Y, Lee FC, Xu M. “A novel driving scheme for synchronous rectifiers in LLC resonant converters”. IEEE Transactions on Power Electronics, 24(5), 1321-1329, 2009.
  • Cobos JA, Garcia O, Uceda J, Hoz A. “Self Driven Synchronous Rectification in Resonant topologies:Forward ZVS-MRC, Forward ZCS-QRC and LCC-PRC”. International Conference on Industrial Electronics, Control, Instrumentation and Automation, San Diego, USA, 13 November 1992.
  • Fu D, Liu Y, Lee FC, Xu M. “A Novel Driving Scheme for synchronous rectifiers in LLC resonant converters”. IEEE Transactions on Power Electronics, 24(5), 1321-1329, 2009.
  • Oruganti R, Yang J, Lee FC. “Implementation of optimal trajectory control of series resonant converters”. IEEE Power Electronics Specialists Conference, Blacksbourg, USA, 21-26 June 1987.
  • Bhat AKS. “Analysis and Design of a Modified Series Resonant Converter”. IEEE Transactions on Power Electronics. 8(4), 423-430, 1993
  • Vorperian V, Cuk S. “A Complete DC Analysis of the Series Resonant Converter. IEEE Power Electronics Specialists Conference, Cambridge, USA, 14-17 June 1982.
  • Oruganti R, Yang J, Lee FC. “State plane analysis of parallel resonant converters”. IEEE Power Electronics Specialists Conference, Toulouse, France, 24-28 June 1985.
  • Liu R, Batarseh I, Lee CQ. “Comparison of capacitively and ınductively coupled parallel resonant converters”. IEEE Transactions on Power Electronics, 8(4), 445-454, 1993.
  • Erkmen B, Demirel İ. “A very low-profile dual output LLC resonant converter for LCD/LED TV applications”. IEEE Trans. Power Electronics, 29(7), 3514-3524, 2014.
  • Emsermann M. “An approximate steady state and small signal analysis of the parallel resonant converter running above resonance”. Fourth International Conference on Power Electronics and Variable Speed Drives, London, UK, 17-19 July 1990.
  • Kim ES, Kim JH, Kang SI, Park JH, Lee JS, Huh DY, Jung YC. “Low profile LLC series resonant converter with two transformers”. Twenty-Fifth Annual IEEE Applied Power Electronics Conference and Exposition (APEC), 1885-1889, Palm Springs, USA, 21-25 February 2010.
  • Choi H. “AN-4151 half-bridge LLC resonant converter design using FSFR-Series fairchild power switch (FPSTM)". https://www.fairchildsemi.com/application-notes/AN/AN-4151.pdf (10.12.2016).
  • Park KB, Lee BH, Moon CW, Youn MJ. “Analysis on center-tap rectifier voltage oscillation of llc resonant converter”. IEEE Transactions on Power Electronics, 27(6), 2684-2689, 2012.
  • Chang, CH, Cheng CA, Cheng HL. “Modeling and design of the LLC resonant converter used as a solar-array simulator”. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2(4), 833-841, 2014
  • Chen Y, Liu YF. “Latest advances of LLC converters in high current, fast dynamic responce, and wide voltage range applications”. CPSS Transactions on Power Electronics and Applications, 2(1), 59-67, 2017.
Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makale
Yazarlar

Çağatay Özçelik 0000-0002-7117-5217

Atiye Hülya Obdan 0000-0002-6578-0293

Yayımlanma Tarihi 12 Ekim 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 24 Sayı: 5

Kaynak Göster

APA Özçelik, Ç., & Obdan, A. H. (2018). Application of 24V/20A LLC resonant converter for OLED TVs. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 24(5), 837-845.
AMA Özçelik Ç, Obdan AH. Application of 24V/20A LLC resonant converter for OLED TVs. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. Ekim 2018;24(5):837-845.
Chicago Özçelik, Çağatay, ve Atiye Hülya Obdan. “Application of 24V/20A LLC Resonant Converter for OLED TVs”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24, sy. 5 (Ekim 2018): 837-45.
EndNote Özçelik Ç, Obdan AH (01 Ekim 2018) Application of 24V/20A LLC resonant converter for OLED TVs. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24 5 837–845.
IEEE Ç. Özçelik ve A. H. Obdan, “Application of 24V/20A LLC resonant converter for OLED TVs”, Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, c. 24, sy. 5, ss. 837–845, 2018.
ISNAD Özçelik, Çağatay - Obdan, Atiye Hülya. “Application of 24V/20A LLC Resonant Converter for OLED TVs”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24/5 (Ekim 2018), 837-845.
JAMA Özçelik Ç, Obdan AH. Application of 24V/20A LLC resonant converter for OLED TVs. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2018;24:837–845.
MLA Özçelik, Çağatay ve Atiye Hülya Obdan. “Application of 24V/20A LLC Resonant Converter for OLED TVs”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, c. 24, sy. 5, 2018, ss. 837-45.
Vancouver Özçelik Ç, Obdan AH. Application of 24V/20A LLC resonant converter for OLED TVs. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2018;24(5):837-45.





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