高速扫描振镜,打标精细、稳定可靠。
High speed scanning galvanometer, fine marking, stable and reliable.
以平面光栅单色仪和光学扫描振镜为基础研制一套具有高时间分辨能力的光学多道分析系统,并利用计算机进行实时控制与数据采集。
Based on a plane grating monochrometer and a optical scanner, the high time-resolved optical multichannel spectrometer is developed. A computer is used to real-time control and data acquisition.
根据几何光学原理,推导出转镜-振镜扫描系统物镜前振镜上光斑移动速度的解析表达式。
An analytical expression for spot moving speed on the former vibrating mirror of the polygonal mirror scanning system objective is derived from geometrical optical principle.
双振镜扫描运动是一种精确度高、速度快、运行稳定的工作方式。
Dual galvanometer scanning is a working of high accuracy, high speed, reliable movement.
最后,根据伺服系统的理论模型,设计了振镜扫描器伺服驱动电路。
Finally, according to the servo model, the galvanometer scanner servo circuit is designed.
探讨了外界激振对扫描探针显微镜(SPM)扫描图像的影响。
The influence of external vibration on scanned images of scanning probe microscope (SPM) is discussed.
通过实例分析表明振镜扫描系统在标定后扫描精度有显著提高。
The application cases show a remarkable improvement on the precision of the laser scanning system.
从激光大屏幕显示中光学振镜扫描机理及工作特性曲线出发,探讨了获得更逼真、更清晰、更复杂图像的途径。
This paper had discussed the mechanism and the work curve character of optical vibrating mirror, and explored the way of developing the picture quality in large screen show by laser.
采用振镜扫描系统、速度快、精度高、性能稳定。
Uses inspires the mirror scan system, high speed, highly precision, the performance is stable.
扫描激光系统主要由XY扫描镜、场镜、振镜及计算机控制的打标软件等构成。
A scanning laser system is mainly composed of XY scanning mirrors, field lens, mirrors, computer-controlled labeling software, etc.
本发明公开了一种振镜式激光扫描系统,包括激光器、聚焦模块、X轴扫描头和Y轴扫描头。
The invention discloses a kind of vibration mirror type laser scanning system, which includes a laser, a focusing model, an X shaft scanning head and a Y shaft scanning head.
YAG激光打标机,采用进口高速振镜扫描系统,具有高速度、高精度的特点。
YAG laser marking machine, adopts imported gavol scanning system which is high speed, and high precision.
探讨了以氨水作为络合剂时产物的形貌特征,扫描电子显微镜(SEM)显示此方法制备产物颗粒均匀,粒径大约5!m,振实密度为2。
SEM show that the samples with NH4OH as a chelating agent are uniform, its particles are about 5 m, and tap-density is 2.
探讨了以氨水作为络合剂时产物的形貌特征,扫描电子显微镜(SEM)显示此方法制备产物颗粒均匀,粒径大约5!m,振实密度为2。
SEM show that the samples with NH4OH as a chelating agent are uniform, its particles are about 5 m, and tap-density is 2.
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