Abstract
The main purpose of this paper is to explore a newly developed optical design, then to further improve the overhead lighting contrast in the laser projector module. In terms of the structural design of the projector, a liquid crystal lens array was used as the local dimming system for the light source, in order to achieve the objective, which was to significantly improve the contrast facility of the projection system. Second, in terms of the design of the light source, the output method for the light source was a laser light source employing arrays of micro-scanning. The main purpose was to compensate for the dim spots in the hole between the lenses in each unit of the liquid crystal when the liquid crystal lens array was locally dimmed, and thus significantly improving the contrast facility of the projection system. In terms of the software simulation, a liquid crystal lens array was used to simulate a pore size of 2.0 mm and focal lengths of 9 cm and 23 cm. The end effect gave good control and adjustment of the bright and dark areas during local dimming of the projector’s imaging chip components. For a single laser source, the maximum contrast for local dimming was about 128:1, 438:1, and 244:1, for the Red (R), Green (G), and Blue (B) optical paths, respectively. The light efficiency scores were approximately 20.91%, 20.05%, and 24.45%, for the R, G, and B optical paths, respectively. After compensation using a micro-scanning light source, the defect of having dim spots between the pores was remedied, and the light adjustment area became more uniform while the contrasts became smaller. The maximum contrasts were approximately 52:1, 122:1, and 110:1, for the R, G, and B optical paths, respectively. For the projector, when the liquid crystal lenses were not transmissive, the maximum uniformity scores were 82.25%, 87.15%, and 88.43%, for the R, G, and B optical paths, respectively.
Highlights
Digital projectors have been in use for some time
In terms of light source configuration, this study mainly focuses on the design for using a laser projector in a non-imaging projection illumination system
Laser diodes were selected as the light source, and the RGB wavelengths were 660 nm, 532 nm, and 450 nm, respectively
Summary
Digital projectors have been in use for some time. There has been a trend to integrate them into many systems, and it is likely that in the future, everyone can have a portable projector to use for presentations, education, recreation, and other purposes. Sometimes the demands made of a projector require some of its characteristics to be significantly enhanced [1–4]. If the light is switched on while the projector is in use, it should substantially increase the brightness of the projector. A substantial increase in the contrast may be required to suggest a more three-dimensional. A reduction in size to something more like a portable micro projector may be required
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