2D Scanning of 10mm Light Spot Vibration Mirror Power Line
Model: |
2D Scanning of 10mm Light Spot Vibration Mirror Power Line |
Part Number: |
laser marking machine |
Category: |
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Model Year: |
2018 |
Condition: |
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Location: |
China |
Offered by: |
2D scanning of 10MM light spot vibration mirror power line
technical parameters
series SCANhead10
model JGH-ZJ-10
aperture 10mm
dynamic performance
tracking error time 0.22ms
1% of full scale 0.3ms
1% of full scale 0.70ms
typical speeds
marking speed 2500mm/s
positioning speed 15m/s
power requirements ±15 V DC max.3 A each
weight 1.9kg
dynamic performance
repeatability <22urad
gaindrift 80ppm/K
offsetdrift 30urad/K
Nonlinear degree <0.4%
long-term drift over 8 hours <0.3mrad
optical performance
typicaldeflenction ±0.39rad
gain error <5mrad
zero offset <5mrad
interface XY2-100
operation temperature 10~40ºC
storage temperature -20~60ºC
2D Scanning of 10mm Light Spot Vibration Mirror Power Line
2D Scanning of 10mm Light Spot Vibration Mirror Power Line
2D Scanning of 10mm Light Spot Vibration Mirror Power Line
General Characteristics
10mm Vibrator mirror:
SCANhead10 series high speed scanning mirror can carry 10mm speckle reflection lens, the maximum incident spot diameter is 10mm. It is used in optical scanning, laser marking, drilling, micromachining, medical industry. This optical scanning system has high speed and low drift. With the characteristics of high positioning accuracy and reliable and stable operation, its comprehensive performance has reached the leading level in China. It is mainly suitable for high-speed and on-line marking of optical fiber laser, such as CO2 and CO2. The 2D scanning mirror can choose different wavelengths. Lenses with different power levels support XY2-100 international protocol.
The system adopts advanced servo control algorithm and high efficiency photoelectric sensor positioning technology, which can meet most of the application requirements in performance and positioning accuracy. Long time drift test and aging test ensure the long-term stability of the system.