Today’s SSL illumination market shows a clear trend to high flux packages with higher efficiency and higher CRI, realized by means of multiple color chips and phosphors. Such light sources require the optics to provide both near- and far-field color mixing. This design problem is particularly challenging for collimated luminaries, since traditional diffusers cannot be employed without enlarging the exit aperture and reducing brightness. Furthermore, diffusers compromise the light output ratio (efficiency) of the lamps to which they are applied. A solution, based on Köhler integration, consisting of a spherical cap comprising spherical microlenses on both its interior and exterior sides was presented in 2012. The diameter of this so-called Shell-Mixer was 3 times that of the chip array footprint. A new version of the Shell-Mixer, based on the Edge Ray Principle and conservation of etendue, where neither the outer shape of the cap nor the surfaces of the lenses are constrained to spheres or 2D Cartesian ovals will be shown in this work. The new shell is freeform, only twice as large as the original chip-array and equals the original model in terms of color uniformity, brightness and efficiency.
[1]
Juan Carlos Miñano,et al.
Color uniformity in spotlights optimized with reflectors and TIR lenses.
,
2015,
Optics express.
[2]
Julio Chaves,et al.
Introduction to Nonimaging Optics
,
2008
.
[3]
J. C. Miñano,et al.
Köhler integrators embedded into illumination optics add functionality
,
2008,
Optical Systems Design.
[4]
P. Benítez,et al.
Inhomogeneous source uniformization using a shell mixer Köhler integrator
,
2012,
Optical Systems Design.