Applied Sciences, Vol. 15, Pages 9383: Improvement and Radiation-Resistance Study of an Optical Displacement Sensing System Based on a Position Sensitive Detector

Applied Sciences doi: 10.3390/app15179383

Authors:
Xiaojing Ren
Guansheng Chen
Mengxi Yu
Tuo Zheng
Kai Ding
Huiyuan Chen
Zhanyuan Yan
Aimin Xiao

We report a method of improving the precision and resolution of sensing systems based on position sensitive detectors (PSDs). In the method, we improved the precision and resolution by reducing the gain of the condition circuit and conducting spatial filtering on the measured spot position. To demonstrate the method, we experimentally built a PSD-based displacement sensing system. With the system, a precision of 0.3 μm and a resolution of 0.5 μm were obtained. The precision is two orders of magnitude better than that obtained with the use of a commercial condition circuit (SPC02, SiTek, Partille, Sweden) and without using any filter. Moreover, we tested the radiation-resistance performance of the system using a 60Co radiation source. The system kept the precision and resolution after exposure to radiation with a dose set to 100 krad. Our study is very useful to realize high-precision PSD-based sensing in space.

Source link

Xiaojing Ren www.mdpi.com