用于实时测量谐波和任意位移的自混合传感器

2012 IEEE International Instrumentation and Measurement Technology Conference Proceedings Pub Date : 2012-05-13 DOI:10.1109/I2MTC.2012.6229702

U. Zabit, O. Bernal, T. Bosch

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引用次数: 20

摘要

提出了一种基于连续采样的快速解包裹算法的实时自混合激光位移传感器。该处理是通过嵌入在SM传感器上的集成微转换器(ADuC7020)以125KHz的速率实现的。与目标的参考内置电容反馈传感器相比，任意和谐波位移的实时测量精度为λ /10，其中λ为激光波长。该算法不需要任何参数估计或巨大的内存，并纠正可能的假条纹检测。这就产生了一种紧凑、集成、精确和自对准的激光传感器，成本不到40美元。

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Self-mixing sensor for real-time measurement of harmonic and arbitrary displacements

A real-time self-mixing laser displacement sensor is presented that uses a fast consecutive-samples based unwrapping algorithm. The processing is achieved at a rate of 125KHz by an integrated micro-converter (ADuC7020) embedded on the SM sensor. Arbitrary and harmonic displacements have been measured in real-time with λ /10 precision as compared with the reference built-in capacitive feedback sensor of the target, where λ is the laser wavelength. The algorithm does not require any parameter estimation or huge memory and corrects possible false fringe detections. This results in a compact, integrated, precise and self-aligned laser sensor that costs less than 40 $.

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2012 IEEE International Instrumentation and Measurement Technology Conference Proceedings

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