摘要:
In a precision testing method of an optical lens using a computing device, the computing device is connected to an imaging system. The computing device controls the imaging system to generate an image of an object according to light rays reflected from the object and collected by the optical lens. A dimension of the object is measured from the image. A maximum value and a minimum value of the dimension of the object are determined. A difference between the maximum value and the minimum value is calculated. According to the difference, it is determined whether the optical lens agrees with a precision requirement.
摘要:
In a method of a computing device for calibrating light channels, one or more channel options of an illumination selecting unit of the computing device are selected to turn on the one or more light channels of a light source device. A camera unit captures a first image of the light source device. A zone and a serial number of each light channel are marked on the first image. Each channel option of the illumination selecting unit is eliminated. The camera unit captures a second image of the light source device when a light channel is turned off. The first image and the second image are compared, and a correlation between the light channel that is turned off and the eliminated channel option is determined. The serial numbers of the channel options are modified and remapped according to correlations between each light channel and each channel option.
摘要:
An optical module includes a first sleeve, a second sleeve, a connecting member and a beam splitter. The first sleeve defines a first hollow cavity and includes a first light source and a pattern plate. The second sleeve defines a second hollow cavity and a second light source. The connecting member is connected to the first sleeve and the second sleeve, and communicates with the first hollow cavity and the second hollow cavity. The beam splitter is positioned in the connecting member. Light from the first light source passes through the pattern plate, and the beam splitter, light from the second light source passes through the beam splitter, the beam splitter refracts the light from the first light source and the second light source to a tested workpiece.