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Abstract
Redistribution of LED radiation in lighting is necessary in many applications. In this article, we propose a new optical component design for LED lighting to achieve a higher performance. The design consists of a commercial collimator and two linear Fresnel lenses. The LED radiation is collimated by a collimator and redistributed by double linear Fresnel lenses to create a square-shaped, uniform distribution. The linear Fresnel lenses design is based on Snell’s law and the “edge-ray principle”. The optical devices are made from poly methyl methacrylate (PMMA) using a high-speed computer numerical control (CNC) machine. The LED prototypes with complementary optics were measured, and the optical intensity distribution was evaluated. The numerical results showed we obtained a free-form lens that produced an illumination uniformity of 78% with an efficiency of 77%. We used the developed LED light sources for field experiments in agricultural lighting. The figures of these tests showed positive effects with control flowering criteria and advantages of harvested products in comparison with the conventional LED sources. This allows our approach in this paper to be considered as an alternative candidate for highly efficient and energy-saving LED lighting applications.
Highlights
In recent years, LEDs have been used in many different fields
We present a method to fabricate an optical component for a single
Because the change in angle between optical devices changes the incident angle of the collimated light beam to the linear Fresnel lens, the distribution will be skewed to the corresponding www.mdpi.com/journal/applsci angle, reducing uniformity
Summary
LEDs have been used in many different fields. With the highlight of energy savings, long life, and safety for users [1,2], LEDs are replacing other traditional lamps. Sci. 2020, 10, x FOR PEER REVIEW a collimator for LEDs [7] This method redistributes light from the source to the reflective surface. Yu et numerical method can be used to design free surfaces for LED arrays, such as in Yu et al [9]. The lens structure must be recalculated must be recalculated whentypes applied to different types of LEDs. when applied to different of LEDs. In this paper, we present a method to fabricate an optical component for a single. LED, which can be can be applied to many types of LEDs with different beam angles to make a uniform distribution. Applied to many types of LEDs with different beam angles to make a uniform distribution.
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