Photovoltaics is not one measurement problem, it is many. A production line needs throughput and repeatability. A reference lab needs the lowest possible uncertainty. A space programme needs AM0 spectra and multi-junction characterisation. Pasan's answer is one xenon measurement core, packaged for each of those jobs, so a result carries the same meaning from the factory floor to orbit.
One core, many packages
The same light source, the same calibration chain and the same measurement methods sit at the heart of every HighLIGHT system. What changes is the package: throughput optics and handling for the production line, the tightest spectral and uniformity grades for the reference bench, and the spectral flexibility for space work.
Why a shared core matters
When the line, the lab and the space programme all trace back to the same measurement core, a number measured in one place can be trusted in another. That is the foundation of traceability: a module rated on the production floor and re-checked in an accredited lab should agree, because the instruments speak the same language.
From the line
The 100ms Lab and its production siblings handle the volume of a modern gigafactory without giving up the uncertainty that makes the rating worth trusting.
To the lab
The A++ Reference is the in-house standard against which everything else is checked, built for the lowest uncertainty and the longest-term stability.
To space
The SAT multi-junction system extends the platform to AM0 spectra and the multi-junction cells bound for satellites, where there is no second chance to re-measure once the hardware leaves the ground.
