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System efficiency of laser-based white light

  • Roland Lachmayer

    Roland Lachmayer studied Mechanical Engineering and received his diploma and PhD degrees from the Technical University Braunschweig in 1990 and 1996, respectively. He did research in the field of product development methodology. From 1996 to 2007, he worked as a development engineer, Head of department and Vice President for adaptive front lighting systems, research electronics and innovative project management with Hella KGaA, Hueck & Co. From 2007 to 2010 he was Vice President in the Technical Department of AEG Power Solutions AG. In 2010 he was appointed Full Professor and Head of the Institute of Product Development at the Department of Mechanical Engineering at Leibniz Universität Hannover (Germany). Since 2012 he is the Board Director of the Hanover Centre for Optical Technologies (HOT). Currently Dr. Lachmayer teaches and researches in the field of optomechatronics, computer aided engineering and development methodology. Dr. Lachmayer is a member of the ‘Design Society’, the German Branch of the European Optical Society (DGaO) and the German Society of Engineers (VDI).

         , Alexander Wolf

    Alexander Wolf received his Dipl.-Ing. degree in Mechanical Engineering from Leibniz Universität Hannover in 2010. Since 2011 he is working at the Institute of Product Development in Hannover as a research associate. He is with the research group of optomechatronics working on his PhD thesis on phosphor converted laser based lighting systems.

         und Gerolf Kloppenburg

    Gerolf Kloppenburg received his Dipl.-Ing. degree in Mechanical Engineering from Leibniz Universität Hannover in 2011. Since 2012 he is working at the Institute of Product Development in Hannover as a research associate. He is with the research group of optomechatronics working on his PhD thesis on laser based lighting systems for automotive applications.

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Veröffentlicht/Copyright: 18. Dezember 2014
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Advanced Optical Technologies
Aus der Zeitschrift Advanced Optical Technologies Band 3 Heft 5-6

Abstract

For many lighting applications, light-emitting diodes (LEDs) are replacing traditional light sources providing the possibility for smart and efficient systems as well as a reduction in the product weight. A next step in this development is the integration of laser-based light sources to increase luminance and to further scale down the optics possibly leading to a reduction of necessary resources. This article reviews the possibilities and challenges arising from the use of laser diodes especially compared to current high-power LED systems in terms of efficiency, color-rendering properties, and thermal management.

Keywords: laser diodes; LED; phosphors; solid state lighting; system efficiency
Corresponding author: Gerolf Kloppenburg, Institute of Product Development (IPeG), Leibniz University Hannover, Germany, e-mail:

About the authors

Roland Lachmayer

Roland Lachmayer studied Mechanical Engineering and received his diploma and PhD degrees from the Technical University Braunschweig in 1990 and 1996, respectively. He did research in the field of product development methodology. From 1996 to 2007, he worked as a development engineer, Head of department and Vice President for adaptive front lighting systems, research electronics and innovative project management with Hella KGaA, Hueck & Co. From 2007 to 2010 he was Vice President in the Technical Department of AEG Power Solutions AG. In 2010 he was appointed Full Professor and Head of the Institute of Product Development at the Department of Mechanical Engineering at Leibniz Universität Hannover (Germany). Since 2012 he is the Board Director of the Hanover Centre for Optical Technologies (HOT). Currently Dr. Lachmayer teaches and researches in the field of optomechatronics, computer aided engineering and development methodology. Dr. Lachmayer is a member of the ‘Design Society’, the German Branch of the European Optical Society (DGaO) and the German Society of Engineers (VDI).

Alexander Wolf

Alexander Wolf received his Dipl.-Ing. degree in Mechanical Engineering from Leibniz Universität Hannover in 2010. Since 2011 he is working at the Institute of Product Development in Hannover as a research associate. He is with the research group of optomechatronics working on his PhD thesis on phosphor converted laser based lighting systems.

Gerolf Kloppenburg

Gerolf Kloppenburg received his Dipl.-Ing. degree in Mechanical Engineering from Leibniz Universität Hannover in 2011. Since 2012 he is working at the Institute of Product Development in Hannover as a research associate. He is with the research group of optomechatronics working on his PhD thesis on laser based lighting systems for automotive applications.

References

[1] R. Lachmayer, A. Wolf, R. Danov and G. Kloppenburg, in ‘LICHT 2014 – Tagungsband 21. Gemeinschaftstagung’ (Nederlandse Stichting Voor Verlichtungskunde, Den Haag, 2014).Suche in Google Scholar

[2] E. F. Schubert, in ‘Light-Emitting Diodes’, 2nd edition (Cambridge University Press, Cambridge, 2006).10.1017/CBO9780511790546Suche in Google Scholar

[3] OSRAM OS, “Data sheet PL-TB450 preliminary”, July 10, 2012.Suche in Google Scholar

[4] C. Basu, G. Kloppenburg, A. Wolf, M. Wollweber, B. Roth and R. Lachmayer, in ‘Proceedings of the 10th International Sympo sium on Automotive Lighting (ISAL)’ (Herbert Utz Verlag GmbH, München, 2013).Suche in Google Scholar

[5] M. Peters, V. Rossin, M. Everett and E. Zucker, Proc. SPIE 6456, 64560G (2007).Suche in Google Scholar

[6] H. Naumann and G. Schröder, in ‘Bauelemente der Optik’, 6th edition (Carl Hanser Verlag, München, 1992).Suche in Google Scholar

[7] P.-C. Hung and J. Y. Tsao, J. Display Technol. 9, 405–412 (2013).Suche in Google Scholar

[8] OSRAM OS, Data sheet “OSLON Black Flat KW H2L531.TE”, May 14, 2014, <http://www.osram-os.com/Graphics/XPic7/00128042_0.pdf/KW%20H2L531.TE%20-%20Oslon%20Black%20Flat.pdf> (July 14 2014).Suche in Google Scholar

[9] OSRAM OS, Data sheet “OSLON Black Flat LUW H9QP”, February 18, 2014, <http://www.osram-os.com/Graphics/XPic8/00119025_0.pdf/LUW%20H9QP%20-%20OSLON%20Black%20Flat.pdf> (July 14 2014).Suche in Google Scholar

[10] OSRAM OS, Data sheet “OSRAM OSTAR LE UW U1A3 01”, June 17, 2014, <http://www.osram-os.com/Graphics/XPic7/00130643_0.pdf/LE%20UW%20U1A3%2001%20-%20OSRAM%20OSTAR%20Headlamp%20Pro.pdf> (July 29 2014).Suche in Google Scholar

[11] OSRAM OS, Data sheet “OSRAM OSTAR LE UW U1A5 01”, June 17, 2014, <http://www.osram-os.com/Graphics/XPic0/00130664_0.pdf/LE%20UW%20U1A5%2001%20-%20OSRAM%20OSTAR%20Headlamp%20Pro.pdf> (July 29 2014).Suche in Google Scholar

[12] PHILIPS, Data sheet “LUXEON Rebel”, 2014, <www.philipslumileds.com/uploads/161/DS58-pdf> (July 30 2014).Suche in Google Scholar

[13] R. Lachmayer, G. Kloppenburg and S. Stephan, Proc. SPIE PPR100, PPR100-72 (2014).Suche in Google Scholar

[14] CREE, press release “Cree Sets New R&D Performance Record with 276 Lumen-Per-Watt Power LED”, February 13, 2013, <http://www.cree.com/News-and-Events/Cree-News/Press-Releases/2013/February/276-LPW> (September 29 2014).Suche in Google Scholar

[15] K. A. Denault, M. Cantore, S. Nakamura, S. P. DenBaars and R. Seshadri, AIP Advances 3, 072107 (2013).10.1063/1.4813837Suche in Google Scholar

[16] A. Neumann, J. J. Wierer, W. Davis, Y. Ohno, S. R. J. Brueck and J. Y. Tsao, Opt. Express 19(S4), A982–A990 (2011).10.1364/OE.19.00A982Suche in Google Scholar PubMed

[17] A. Hanafi, H. Erdl and S. Weber, in ‘Proceedings of the 10th International Symposium on Automotive Lighting (ISAL)’ (Herbert Utz Verlag GmbH, München, 2013).Suche in Google Scholar

[18] G. Kloppenburg and R. Lachmayer, 13th International Conference: Intelligent Automotive Lighting 2013, January, 28th–30th 2013.Suche in Google Scholar

[19] R. Lachmayer, A. Wolf and G. Kloppenburg, in ‘Optische Technologien in der Fahrzeugtechnik – VDI Berichte 2221’ (VDI Verlag GmbH, Düsseldorf, 2014).Suche in Google Scholar

[20] OSRAM OS, “Data sheet PL-TB450B preliminary”, June 12, 2013, <http://www.osram-os.com/Graphics/XPic1/ 00088311_0.pdf/PL%20TB450B.pdf> (December 12, 2013).Suche in Google Scholar

[21] R. Mirhosseini, M. F. Schubert, S. Chhajed, J. Cho, J. K. Kim and E. F. Schubert, Opt. Express 17, 10806–10813 (2009).10.1364/OE.17.010806Suche in Google Scholar PubMed

[22] J. Meyer, in ‘Proceedings of the 10th International Symposium on Automotive Lighting (ISAL)’ (Herbert Utz Verlag GmbH, München, 2013).Suche in Google Scholar

[23] UN ECE Regulation No. 113.Suche in Google Scholar

[24] UN ECE Regulation No. 112.Suche in Google Scholar

[25] R. Lachmayer and S. Stephan, Proc. SPIE 8550, 855031 (2012).Suche in Google Scholar

[26] D. Glose, in ‘Zuverlässigkeitsvorhersage für elektronische Komponenten unter mechanischer Belastung’ (Diplomica® Verlag GmbH, Hamburg, 2009).Suche in Google Scholar

Received: 2014-9-16
Accepted: 2014-10-17
Published Online: 2014-12-18
Published in Print: 2014-12-1

©2014 THOSS Media & De Gruyter

Artikel in diesem Heft

  1. Cover and Frontmatter
  2. Views
  3. III-V Multi-junction solar cells and concentrating photovoltaic (CPV) systems
  4. Lasers in Green Production: The best is yet to come
  5. From LED to laser fusion: Green Photonics in a US perspective
  6. Community
  7. News from the European Optical Society
  8. Conference Notes
  9. Conference Calendar
  10. Topical Issue: Green Photonics
  11. Editorial
  12. Green photonics: sustainable solutions for a future with light
  13. Review Articles
  14. Interferometric femtosecond laser processing for nanostructuring inside thin film
  15. Multilayer-based lab-on-a-chip systems for perfused cell-based assays
  16. System efficiency of laser-based white light
  17. Low-power consumption seamless wireless and wired links using transparent waveform transfer
  18. Research Articles
  19. Femtosecond laser full and partial texturing of steel surfaces to reduce friction in lubricated contact
  20. Multi-pass absorption spectroscopy for H2O2 detection using a CW DFB-QCL
https://doi.org/10.1515/aot-2014-0048
Schlagwörter für diesen Artikel
laser diodes; LED; phosphors; solid state lighting; system efficiency

Artikel in diesem Heft

  1. Cover and Frontmatter
  2. Views
  3. III-V Multi-junction solar cells and concentrating photovoltaic (CPV) systems
  4. Lasers in Green Production: The best is yet to come
  5. From LED to laser fusion: Green Photonics in a US perspective
  6. Community
  7. News from the European Optical Society
  8. Conference Notes
  9. Conference Calendar
  10. Topical Issue: Green Photonics
  11. Editorial
  12. Green photonics: sustainable solutions for a future with light
  13. Review Articles
  14. Interferometric femtosecond laser processing for nanostructuring inside thin film
  15. Multilayer-based lab-on-a-chip systems for perfused cell-based assays
  16. System efficiency of laser-based white light
  17. Low-power consumption seamless wireless and wired links using transparent waveform transfer
  18. Research Articles
  19. Femtosecond laser full and partial texturing of steel surfaces to reduce friction in lubricated contact
  20. Multi-pass absorption spectroscopy for H2O2 detection using a CW DFB-QCL
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