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Angular resolution in VCSEL radiant intensity distribution measurements

Optical measurement solutions are needed along the whole lidar value chain from wafer-level testing of individual VCSEL arrays to completely integrated systems.

Vertical-cavity surface-emitting lasers (VCSELs) are very well suited to 3D sensing applications such as structured light or time-of-flight technology for scanning objects in three dimensions. These applications have boosted the popularity of VCSELs to an even higher economic significance than the classical industrial applications for these types of laser diodes. In consumer 3D sensing and automotive lidar applications, eye safety assessments according to IEC 60825-1 and secondary optics design requirements call for measurement of the radiant intensity distribution (in W/sr) emitted from a single VCSEL or an array. The spatial beam profile of a VCSEL can be quite irregular and may vary from Gaussian to top-hat, or doughnut-shaped emission and typically shows a significant angular divergence. For this reason, manufacturers

and integrators are interested in accurate and fast measurement of the radiant intensity distribution, preferably in a ‘single shot’ without resorting to time and space-consuming – as well as expensive – goniometric measurement setups, that also cannot be readily integrated into most production lines.

aus diesem Grund sind Hersteller und Integratoren an einer genauen und schnellen Messung der Strahlungsintensitätsverteilung interessiert, vorzugsweise in einem "Single Shot", ohne auf zeit- und platzraubende - sowie teure - goniometrische Messaufbauten zurückgreifen zu müssen, die zudem nicht ohne weiteres in die meisten Produktionslinien integriert werden können

Infos

  • 81677 Munich, Germany
  • Instrument Systems GmbH

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