“Maximum measurement precision is not just an academic exercise, rather it greatly helps gain the confidence of investors,” says Dr. Harry Wirth, division director of Photovoltaic Modules, Systems and Reliability. Module manufacturers have to maintain their quality assurance at a high level daily and guarantee their sold output. Power plant operators must know the module power as exact as possible in order to minimize yield uncertainty. Researchers need exact measured values to evaluate innovative technologies or to detect degradation at an early stage. All of these actors profit from low tolerance measurement of modules.
“We regularly carry out round robin tests with the world’s best accredited calibration laboratories. Germany’s national accreditation body DAkks has checked our measurement uncertainty analysis and verified the 1.3 percent,” explains Frank Neuberger, group leader of CalLab PV Modules. This backs up the very good standing that Fraunhofer ISE holds in measurement precision worldwide. Carefull tracing of the current-voltage curves as well as spectral corrections were the focus of the researchers’ optimizations.
The calibration laboratory for PV modules at Fraunhofer ISE has the particular advantage of being able to combine highest precision with the capability of measuring large batches quickly. On the one hand, customers can be assured that their data is handled with the utmost confidentiality. On the other hand, they also profit from the research environment and the newest research results of the institute. CalLab PV Modules is the only calibration laboratory worldwide that is equipped to measure bifacial modules on both sides simultaneously with the highest precision. A new test stand has been specially developed for this purpose. This new variant of solar electricity production uses solar energy incident on the front and rear side of the module.