USB 2.0 Cameras detect faults in solar cells and panels.
Press Release Summary:
LucaEM R and iKon-M 934 BR-DD utilize induced photovoltaic electroluminescence, where weak emissions in 900-1,100 nm wavelength range are used to detect faults such as shunts, crystalline defects, and broken-finger electrodes during solar cell and panel manufacturing process. LucaEM R uses monochrome megapixel frame-transfer EMCCD sensor, providing single-photon detection sensitivity and NIR quantum efficiency to 27% @ 900 nm, while iKon-M 934 BRDD delivers 70%.
Original Press Release:
More Efficient Fault Detection for Solar Cells
High performance NIR-enhanced CCD and EMCCD cameras harness benefits of photovoltaic luminescence imaging
A faulty solar cell as detected using electroluminescence - image courtesy of David Killiani, University Konstanz
Belfast, Northern Ireland, 4 February 2009 - Common faults in solar cells and panels can now be detected far more simply using two high-performance cameras from Andor Technology - the iKon-M 934 BR-DD and the LucaEM R.
Both cameras have high quantum detection efficiency and sensitivity in the near-infrared (NIR) range, making them ideal for solar cell quality control during manufacturing. They harness the phenomenon of induced photovoltaic electroluminescence, where weak emissions in the 900-1100nm wavelength range are used to detect typical faults such as shunts, crystalline defects and broken-finger electrodes.
These cameras also offer exceptionally high sensitivity at rapid frame rates, meaning they can be used for high-throughput testing of individual photovoltaic cells or larger panels.
By incorporating photovoltaic electroluminescence into their QC routines and R&D work, manufacturers can benefit from a simpler, potentially less expensive inspection technique. However, as photovoltaic electroluminescence emissions are very weak, extremely sensitive cameras are required, such as the iKon-M BR-DD and the LucaEM R.
The LucaEM R is a highly cost-effective yet fast and powerful Electron Multiplying CCD camera for high-throughput in-line production inspection. LucaEM R uses a monochrome megapixel frame-transfer EMCCD sensor, providing single photon detection sensitivity and high NIR quantum efficiency (27% @ 900 nm) in a cooled, compact, USB 2.0 camera platform.
The iKon-M 934 BRDD is designed to offer ultimate responsivity in the NIR region, delivering ~70% QE at 900nm. The megapixel CCD camera also benefits from deep TE cooling to -100 0C, very low read noise and a convenient USB 2.0 interface.
For more information, please visit;
http://www.andor.com/learning/applications/?docID=886
Andor enables its customers to break new ground by performing light measurements previously considered impossible. With a portfolio spanning high-performance scientific digital cameras, spectrographs, and microscopy systems, Andor is a leader in scientific imaging and spectroscopy solutions, with revenue totalling GBP24.7 millions for the fiscal year ended September 30, 2008. More information about Andor Technology PLC (LSE: AND) is available at www.andor.com.
