English
The direction of refraction of the laser beam generated by the laser diode is changed through the lens in order to project a long, thin, high-brightness and high-directional linear laser in order to meet the advantages of machine vision applications or to take advantage of laser positioning
Feature
1. Laser refraction: The design of a line laser considers how to efficiently change the refraction Angle of the incident laser and use the optical lens as little as possible, which helps to reduce the light loss of the laser through the lens.
2. Laser line width: The line width parameter of a line laser is an important parameter to achieve high-precision machine vision system applications, and a narrower line width helps to reduce the influence of ambient light, so that the laser scanning effect is better.
3. Wavelength selection: A line laser can be designed to produce a specific wavelength of laser to meet the needs of the sensor in the machine vision system, different sensors are sensitive to different laser wavelengths are not the same, the use of high sensitivity of the laser wavelength, the sensor to capture better image effect is helpful.
Our Advantage
1. Small size, high flexibility, good stability, long service life.
2. We support the customization, according to the customers needs.
3. If you want the special lens, we also can offer you. Like: Column mirror, wave mirror, Powell lens
Specification:
Item | Parameters | Schematic drawing |
Laser Wavelength | 650±5nm |
|
Output Power | 100~200mw | |
Input voltage | 5V | |
Input Current | 230-250mA | |
Storage Temperature | -40℃~85℃ | |
Working Temperature | -10℃~70℃ | |
Spot Pattern | Straight Line | |
Line Width | Adjustable | |
Divergence Angle | 15°~90°(Adjustable) | |
Overall Dimension | 16*66mm (Adjustable) | |
Laser Line width | @20<90um | |
Working Time | 10000H |
The direction of refraction of the laser beam generated by the laser diode is changed through the lens in order to project a long, thin, high-brightness and high-directional linear laser in order to meet the advantages of machine vision applications or to take advantage of laser positioning
Feature
1. Laser refraction: The design of a line laser considers how to efficiently change the refraction Angle of the incident laser and use the optical lens as little as possible, which helps to reduce the light loss of the laser through the lens.
2. Laser line width: The line width parameter of a line laser is an important parameter to achieve high-precision machine vision system applications, and a narrower line width helps to reduce the influence of ambient light, so that the laser scanning effect is better.
3. Wavelength selection: A line laser can be designed to produce a specific wavelength of laser to meet the needs of the sensor in the machine vision system, different sensors are sensitive to different laser wavelengths are not the same, the use of high sensitivity of the laser wavelength, the sensor to capture better image effect is helpful.
Our Advantage
1. Small size, high flexibility, good stability, long service life.
2. We support the customization, according to the customers needs.
3. If you want the special lens, we also can offer you. Like: Column mirror, wave mirror, Powell lens
Specification:
Item | Parameters | Schematic drawing |
Laser Wavelength | 650±5nm |
|
Output Power | 100~200mw | |
Input voltage | 5V | |
Input Current | 230-250mA | |
Storage Temperature | -40℃~85℃ | |
Working Temperature | -10℃~70℃ | |
Spot Pattern | Straight Line | |
Line Width | Adjustable | |
Divergence Angle | 15°~90°(Adjustable) | |
Overall Dimension | 16*66mm (Adjustable) | |
Laser Line width | @20<90um | |
Working Time | 10000H |
