Research of Optical Design Method for Prism Luminaire

The traditional square spot of street lamp is not suitable for the lighting requirements of the annular road lighting. In this paper, a lens design method for producing annular spot of high mast lamp is proposed. The method mainly contains three optical surfaces, in which the inner surface collimates the energy of the centre part of the light source, the total internal reflection surface collimates the light with large angle and low energy and the outer surface refracts all the collimated light to realise the annular illumination distribution on the target surface. In this design, we can change the diameter of the lighting spot through the variation of the inclination angle of the outer surface from 14° to 19° and the diameter of the spot changes from 10.2 m to 12.3 m at the distance of 30 m. The lighting requirements of high mast lighting are realised based on the TIR lens array, in which the average illuminance is more than 20 lx, the illuminance uniformity is more than 0.7 and the light optical utilisation factor is more than 90%.

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Optical design method for high zoom ratio lens with liquid lens and digital signal processing

10.1117/12.750152 ◽

2007 ◽

Cited By ~ 2

Author(s):

Chao-Chang Hu ◽

Yi C. Fang ◽

Chen-Mu Tsai ◽

Han-Ching Lin ◽

Han-Wei Su ◽

...

Keyword(s):

Signal Processing ◽

Digital Signal Processing ◽

Design Method ◽

Optical Design ◽

Digital Signal ◽

Liquid Lens

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New Optical Design Method of Floating Type Collimator for Microscopic Camera Inspection

Applied Sciences ◽

10.3390/app11136203 ◽

2021 ◽

Vol 11 (13) ◽

pp. 6203

Author(s):

Seonkoo Chee ◽

Jaemyung Ryu ◽

Hojong Choi

Keyword(s):

Mobile Phone ◽

Design Method ◽

Optical Design ◽

Target Position ◽

Target Size ◽

Virtual Object ◽

Wide Field ◽

Object Distance ◽

Floating Type ◽

Mobile Phone Camera

Recently released mobile phone cameras are capable of photographing objects at a fairly close distance. In addition, the field angle from the camera has increased. To measure the resolution of a mobile phone camera, the target must be photographed. To measure the resolution according to the object distance change from a mobile phone camera with a wide field angle, the target size must be large, whereas the target position must be moved. However, the target size cannot be changed. A virtual object for the target was created using a collimator. Moving a part of the lens group constituting the collimator also changes the virtual object distance. If the amount of change in the virtual object distance is large, the resolution of the collimator may also change. Therefore, a collimator that maintains the resolution even when the distance of the virtual object changes is designed as a floating type in which two lens groups move. Therefore, we propose a new floating collimator optical system that can inspect the resolution of mobile phone cameras from infinity to a close range to compensate for aberrations caused by object distance changes.

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