基于RGB变色技术的线性位移测量传感器的实验研究

A. Murthy, S. Rao, M. Herbert, Navin Karanth P
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引用次数: 4

摘要

本研究基于RGB颜色编码算法的线性位移测量实验方法。该系统基于自动校准程序,该程序可以在电路中实现,基于光强的时间变化,借助光相关电阻(LDR)。该系统由两个ldr和一个LED组成,其中一侧放置一个LED,另一侧放置一个RGB彩色编码反射纸。PIC微控制器用于为LED供电,处理反馈控制的数据,并在LCD上显示输出。LDR1读数通过将电压映射为距离的函数来显示相对线性距离。该读数用作对PID控制器的反馈,以纠正测量中的偏差。根据反射光的波长、系统的信号电压和输出功率,进行了大量的实验观察,分析了结果的可靠性。通过可重复性分析和滞后效应,对LED和反射式RGB彩色编码纸的最佳定位进行了研究。此外,通过研究不同的控制器设计,即P、PI和PID,实现了PID控制器,提高了系统的效率。对于这样一个简单而经济的系统,获得了0.1 [mm]的高分辨率,从而使其在分钟测量以及可见光光谱的整个带宽范围内都非常高效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental study on linear displacement measurement sensor using RGB color variation technique with PID controller
This study is based on experimental approach to linear displacement measurement using RGB color coding algorithm. This system is based on the auto-calibration procedure which can be implemented in a circuit, based on the temporal changes in the intensity of light, with the help of a light dependent resistor (LDR). The system consists of two LDRs and an LED placed on one side and an RGB color coded reflective paper on the opposite side. PIC microcontroller is used for powering the LED, processing of data for feedback control and to display the output on an LCD. LDR1 reading is used for displaying the relative linear distance, by mapping the voltage as a function of distance. This reading is used as a feedback to a PID controller to correct for the deviation in the measurement. Extensive experimental observations are conducted to analyze the reliability of the results in accordance to the wavelength of light reflected, the signal voltage and power output of the system. Investigation of the optimum positioning of the LED and the reflective RGB color coded paper is performed by repeatability analysis and hysteresis effects. Furthermore, the efficiency of the system is increased by implementing a PID controller upon investigating the different controller design, viz. P, PI and PID. A high resolution of 0.1 [mm] is obtained for such a simple and economical system, thereby making it highly efficient, in both minute measurements as well as over the entire bandwidth range of the visible light spectrum.
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