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VERİ MERKEZİ UYGULAMALARI İÇİN YÜKSEK VERİMLİ BİR LLC REZONANSLI DC-DC DÖNÜŞTÜRÜCÜ TASARIMI

Yıl 2017, Cilt: 5 Sayı: 1, 45 - 54, 20.03.2017

Öz

Bu çalışmada, veri merkezi uygulamaları için yumuşak anahtarlamalı olarak çalışan bobin-bobin-kondansatör (LLC) rezonanslı bir DC-DC dönüştürücü tasarımı sunulmuştur. Tasarım metodunda dönüştürücü optimizasyonu için temel harmonik yaklaşımı (FHA) analiz metodu kullanılmıştır. Dönüştürücünün devre elemanları yüksek verim için optimize edilmiştir. Elde edilen optimizasyon sonuçları ile 48 V / 960 W çıkış değerlerine sahip bir prototip kurulmuş ve dönüştürücünün yumuşak anahtarlamalı olarak çalışması geniş bir yük aralığında test edilmiştir. Uygulanan tasarım metodu ile elde edilen maksimum verim %93.7 olarak ölçülmüştür.

Kaynakça

  • Kolar J. W., Drofenik U., Biela J., Heldwein M., Ertl H., Friedli T., Round S., “PWM converter power density barriers”, IEEJ Trans. Ind. Appl., 128 (4), 1-14, 2008.
  • Zhao C., Wu X., Meng P., Qian Z., “Optimum design consideration and implementation of a novel synchronous rectified soft-switched phase-shift full-bridge converter for low-output-voltage high-output-current applications”, IEEE Trans. Power Electron., 24 (2), 388-397, 2009.
  • Badstuebner U., Biela J., Christen D., Kolar J. W., “Optimization of a 5-kW telecom phase-shift DC–DC converter with magnetically integrated current doubler”, IEEE Trans. Power Electron., 58 (10), 4736-4745, 2011.
  • Badstuebner U., Biela J., Kolar J. W., “An optimized, 99 % efficient, 5kW, phase-shift PWM DC-DC converter for data centers and telecom applications”, in Proc. Applied Power Electronics Conference and Exposition (APEC), Palm Springs, 773-780, 2010.
  • Zhao C., Wu X., Meng P., Qian Z., “Optimum design consideration and implementation of a novel synchronous rectified soft-switched phase-shift full-bridge converter for low-output-voltage high-output-current applications”, IEEE Trans. Power Electron., 24 (2), 388-397, 2009.
  • Lu B., Liu W., Liang Y., Lee F.C., van Wyk J. D., “Optimal design methodology for LLC resonant converter,” In Proc. Applied Power Electronics Conference and Exposition APEC '06, Dallas, 533-538, 2006.
  • Fang Y., Xu D., Zhang Y., Gao F., Zhu L., “Design of high power density LLC resonant converter with extra wide input range”, In Proc. Applied Power Electronics Conference and Exposition APEC '07, Anaheim, 976-981, 2007.
  • Biela J., Badstuebner U., Kolar J. W., “Design of a 5-kW, 1-U, 10-kW/dm3 resonant DC–DC converter for telecom applications”, IEEE Trans. on Power Electronics, 24 (7), 1701-1710, 2009.
  • Kim J. W., Kim D. Y., Kim C. E., Moon G. W., “Simple switching control technique for improving light load efficiency in a phase-shifted full-bridge converter with a server power system”, IEEE Trans. Power Electron., 29 (4), 1562-1566, 2014.
  • Kim D. Y., Kim C. E., Moon G. W., “Variable delay time method in the phase-shifted full-bridge converter for reduced power consumption under light load conditions”, IEEE Trans. Power Electron., 28 (11), 5120-5127, 2013.
  • Steigerwald L. R., “A comparison of half bridge resonant converter topologies” IEEE Trans. on Power Electronics, 3 (2), 174-182, 1988.
  • Huang D., Gilham D., Feng W., Kong P., Fu D., Lee F. C., “High power density high efficiency DC-DC converter”, In Proc Energy Conversion Congress and Exposition (ECCE), Phoenix, 1392-1399, 2011.
  • Yang B., “Topology Investigation for Front End DC-DC Power Conversion for Distributed Power System," PhD Dissertation, Dept. ECE., Virginia Tech, 2003.
  • Huang D., Fu D., Lee F.C., “High switching frequency, high efficiency CLL resonant converter with synchronous rectifier”, IEEE Energy Conversion Congress and Exposition, San Jose, 804-809, 2009
  • Simone S. D., Adragna C., Spini C., Gattavari G., “Design-oriented steady state analysis of LLC resonant converters based on FHA,” In Proc. International Symposium on Power Electronics, Electrical Drives, Automation and Motion SPEEDAM, Taormina, 200-207, 2006.
  • Cetin S., “High efficiency design approach of a LLC resonant converter for on-board electrical vehicle battery charge applications”, Pamukkale University Journal of Engineering Science, DOI:10.5505/pajes.2016.56198.
  • Musavi F., Craciun M., Gautam D.S., Eberle W., Dunford W.A., “An LLC resonant DC–DC converter for wide output voltage range battery charging applications”, IEEE Trans. on Power Electronics, 28 (12), 5437-5445, 2013.
  • Fang Z., Cai T., Duan S., Chen C., “Optimal design methodology for LLC resonant converter in battery charging applications based on time-weighted average efficiency”, IEEE Trans. On Power Electronics, 30 (10), 5469-5483, 2015.
  • Gu Y., Lu Z., Hang L., Qian Z., Huang G., “Three-level LLC series resonant DC/DC converter”, IEEE Trans. On Power Electronics, 20 (4), 1642-1657, 2005.
Yıl 2017, Cilt: 5 Sayı: 1, 45 - 54, 20.03.2017

Öz

Kaynakça

  • Kolar J. W., Drofenik U., Biela J., Heldwein M., Ertl H., Friedli T., Round S., “PWM converter power density barriers”, IEEJ Trans. Ind. Appl., 128 (4), 1-14, 2008.
  • Zhao C., Wu X., Meng P., Qian Z., “Optimum design consideration and implementation of a novel synchronous rectified soft-switched phase-shift full-bridge converter for low-output-voltage high-output-current applications”, IEEE Trans. Power Electron., 24 (2), 388-397, 2009.
  • Badstuebner U., Biela J., Christen D., Kolar J. W., “Optimization of a 5-kW telecom phase-shift DC–DC converter with magnetically integrated current doubler”, IEEE Trans. Power Electron., 58 (10), 4736-4745, 2011.
  • Badstuebner U., Biela J., Kolar J. W., “An optimized, 99 % efficient, 5kW, phase-shift PWM DC-DC converter for data centers and telecom applications”, in Proc. Applied Power Electronics Conference and Exposition (APEC), Palm Springs, 773-780, 2010.
  • Zhao C., Wu X., Meng P., Qian Z., “Optimum design consideration and implementation of a novel synchronous rectified soft-switched phase-shift full-bridge converter for low-output-voltage high-output-current applications”, IEEE Trans. Power Electron., 24 (2), 388-397, 2009.
  • Lu B., Liu W., Liang Y., Lee F.C., van Wyk J. D., “Optimal design methodology for LLC resonant converter,” In Proc. Applied Power Electronics Conference and Exposition APEC '06, Dallas, 533-538, 2006.
  • Fang Y., Xu D., Zhang Y., Gao F., Zhu L., “Design of high power density LLC resonant converter with extra wide input range”, In Proc. Applied Power Electronics Conference and Exposition APEC '07, Anaheim, 976-981, 2007.
  • Biela J., Badstuebner U., Kolar J. W., “Design of a 5-kW, 1-U, 10-kW/dm3 resonant DC–DC converter for telecom applications”, IEEE Trans. on Power Electronics, 24 (7), 1701-1710, 2009.
  • Kim J. W., Kim D. Y., Kim C. E., Moon G. W., “Simple switching control technique for improving light load efficiency in a phase-shifted full-bridge converter with a server power system”, IEEE Trans. Power Electron., 29 (4), 1562-1566, 2014.
  • Kim D. Y., Kim C. E., Moon G. W., “Variable delay time method in the phase-shifted full-bridge converter for reduced power consumption under light load conditions”, IEEE Trans. Power Electron., 28 (11), 5120-5127, 2013.
  • Steigerwald L. R., “A comparison of half bridge resonant converter topologies” IEEE Trans. on Power Electronics, 3 (2), 174-182, 1988.
  • Huang D., Gilham D., Feng W., Kong P., Fu D., Lee F. C., “High power density high efficiency DC-DC converter”, In Proc Energy Conversion Congress and Exposition (ECCE), Phoenix, 1392-1399, 2011.
  • Yang B., “Topology Investigation for Front End DC-DC Power Conversion for Distributed Power System," PhD Dissertation, Dept. ECE., Virginia Tech, 2003.
  • Huang D., Fu D., Lee F.C., “High switching frequency, high efficiency CLL resonant converter with synchronous rectifier”, IEEE Energy Conversion Congress and Exposition, San Jose, 804-809, 2009
  • Simone S. D., Adragna C., Spini C., Gattavari G., “Design-oriented steady state analysis of LLC resonant converters based on FHA,” In Proc. International Symposium on Power Electronics, Electrical Drives, Automation and Motion SPEEDAM, Taormina, 200-207, 2006.
  • Cetin S., “High efficiency design approach of a LLC resonant converter for on-board electrical vehicle battery charge applications”, Pamukkale University Journal of Engineering Science, DOI:10.5505/pajes.2016.56198.
  • Musavi F., Craciun M., Gautam D.S., Eberle W., Dunford W.A., “An LLC resonant DC–DC converter for wide output voltage range battery charging applications”, IEEE Trans. on Power Electronics, 28 (12), 5437-5445, 2013.
  • Fang Z., Cai T., Duan S., Chen C., “Optimal design methodology for LLC resonant converter in battery charging applications based on time-weighted average efficiency”, IEEE Trans. On Power Electronics, 30 (10), 5469-5483, 2015.
  • Gu Y., Lu Z., Hang L., Qian Z., Huang G., “Three-level LLC series resonant DC/DC converter”, IEEE Trans. On Power Electronics, 20 (4), 1642-1657, 2005.
Toplam 19 adet kaynakça vardır.

Ayrıntılar

Bölüm Makaleler
Yazarlar

Sevilay Çetin

Yayımlanma Tarihi 20 Mart 2017
Gönderilme Tarihi 13 Haziran 2016
Yayımlandığı Sayı Yıl 2017 Cilt: 5 Sayı: 1

Kaynak Göster

APA Çetin, S. (2017). VERİ MERKEZİ UYGULAMALARI İÇİN YÜKSEK VERİMLİ BİR LLC REZONANSLI DC-DC DÖNÜŞTÜRÜCÜ TASARIMI. Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım Ve Teknoloji, 5(1), 45-54.

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