Accurate extraction of the series resistance of aluminum local back surface field silicon wafer solar cells

Abstract Aluminum local back surface field (Al-LBSF) silicon wafer solar cells are currently intensively investigated in the photovoltaic community and are expected to enter mass production in the near future. In this work we show that this solar cell architecture can pose significant challenges in the determination of the series resistance at the maximum power point. We also show that some of the traditional methods for extracting the series resistance of these cells result in a severe underestimation, due to injection dependent saturation current densities. By using a combination of electro- and photo-luminescence images, we demonstrate that the series resistance of Al-LBSF solar cells can be accurately determined.

[1]  Gunnar Schubert,et al.  Silicon diffusion in aluminum for rear passivated solar cells , 2011 .

[2]  Prabir K. Basu,et al.  A Fill Factor Loss Analysis Method for Silicon Wafer Solar Cells , 2013, IEEE Journal of Photovoltaics.

[3]  Minghui Hong,et al.  Rear-Side Contact Opening by Laser Ablation for Industrial Screen-Printed Aluminium Local Back Surface Field Silicon Wafer Solar Cells , 2012 .

[4]  P. Altermatt,et al.  Reduced Passivation of Silicon Surfaces at Low Injection Densities Caused by H-Induced Defects , 2010 .

[5]  S. Rein,et al.  Separation of Series Resistance and Space Charge Region Recombination in Crystalline Silicon Solar Cells From Dark and Illuminated Current–Voltage Characteristics , 2012, IEEE Journal of Photovoltaics.

[6]  John E. Mahan,et al.  Distributed series resistance in photovoltaic devices; intensity and loading effects , 1980 .

[7]  M. Green,et al.  High‐efficiency silicon solar cells: Full factor limitations and non‐ideal diode behaviour due to voltage‐dependent rear surface recombination velocity , 1993 .

[8]  M. Green,et al.  Spatially resolved analysis and minimization of resistive losses in high-efficiency Si solar cells , 1996 .

[9]  A. Aberle,et al.  Investigation of Screen-Printed Rear Contacts for Aluminum Local Back Surface Field Silicon Wafer Solar Cells , 2013, IEEE Journal of Photovoltaics.

[10]  Stefan Rein,et al.  Statistical Evaluation of a Luminescence-Based Method for Imaging the Series Resistance of Solar Cells , 2012 .

[11]  D. Biro,et al.  Aluminum Alloying in Local Contact Areas on Dielectrically Passivated Rear Surfaces of Silicon Solar Cells , 2011, IEEE Electron Device Letters.

[12]  David Hinken,et al.  Recombination current and series resistance imaging of solar cells by combined luminescence and lock-in thermography , 2007 .

[13]  L.D. Nielsen,et al.  Distributed series resistance effects in solar cells , 1982, IEEE Transactions on Electron Devices.

[14]  K. Tu,et al.  Electromigration and Thermomigration in Pb-Free Flip-Chip Solder Joints , 2010 .

[15]  M. Green Solar Cells : Operating Principles, Technology and System Applications , 1981 .

[16]  Karsten Bothe,et al.  Fundamental boron–oxygen‐related carrier lifetime limit in mono‐ and multicrystalline silicon , 2005 .

[17]  Martin A. Green,et al.  A new method for accurate measurements of the lumped series resistance of solar cells , 1993, Conference Record of the Twenty Third IEEE Photovoltaic Specialists Conference - 1993 (Cat. No.93CH3283-9).

[18]  M. Wolf,et al.  SERIES RESISTANCE EFFECTS ON SOLAR CELL MEASUREMENTS , 1963 .

[19]  P. Würfel,et al.  Verification of a generalized Planck law for luminescence radiation from silicon solar cells , 1992 .

[20]  P. Altermatt,et al.  Loss analysis and improvements of industrially fabricated Cz-Si solar cells by means of process and device simulations , 2011 .

[21]  A. Mette,et al.  A review and comparison of different methods to determine the series resistance of solar cells , 2007 .

[22]  Andrew Blakers,et al.  Accurate series resistance measurement of solar cells , 2013 .

[23]  G. L. Araújo,et al.  The effect of distributed series resistance on the dark and illuminated current—Voltage characteristics of solar cells , 1986, IEEE Transactions on Electron Devices.

[24]  Thorsten Trupke,et al.  Advanced luminescence based effective series resistance imaging of silicon solar cells , 2008 .