不同结构绝对光栅尺的误码机制研究

针对光栅尺具有断电位置复位、无累计误差、高精度优点, 在光学隔振平台上分别建立开放式和封闭式绝对光栅尺实验系统, 绝对光栅尺采用图像识别原理, 以气浮直线电机ArotechABL1500为参考对象, 使用激光干涉仪RENISHAW XL-80校核精度, 研究不同结构绝对光栅尺的误码特点及原因。通过对比实验及研究分析, 表明封闭式绝对尺相对于开放式绝对尺的误码率要高, 开放式绝对式光栅尺的误码率为3%, 封闭式绝对式光栅尺的误码率为8%。

Abstract

Aiming at the advantages of grating scale has that it can set reset for power outage, has no cumulative error with high accuracy, we established the unsealed and sealed absolute grating experimental systems respectively by using the technology of image identification on the optical vibration isolation platform.Taking the air bearing linear motor ArotechABL1500 for reference,we checked its accuracy by the laser interferometer RENISHAW XL-80, and analyzed the characters and the causes of the bit errors of different-structure absolute grating scale. By the contrast experiment and the analysis, it is proved that the bit error rate of the sealed absolute ruler is higher than that of unsealed, the bit error rate of the sealed absolute ruler is 3% while the unsealed one is 8%.

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韦青海, 陈新, 刘强, 王晗, 陈彬, 房飞宇. 不同结构绝对光栅尺的误码机制研究[J]. 应用光学, 2015, 36(1): 103. Wei Qinghai, Chen Xin, Liu Qiang, Wang hang, Chen Bin, Fang Feiyu. Machine-made bit error mechanism of absolute grating scale in different structures[J]. Journal of Applied Optics, 2015, 36(1): 103.

不同结构绝对光栅尺的误码机制研究

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