法布里-珀罗光子温度传感器系统

ICIASF'97 Record. International Congress on Instrumentation in Aerospace Simulation Facilities Pub Date : 1997-09-29 DOI:10.1109/ICIASF.1997.644755

M. Tuma, K. A. Elam, T. Sawatari, P. Gaubis, Yuping Lin

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引用次数: 2

摘要

为了监测飞机发动机的性能，需要一种能够在飞机环境中精确测量-50/spl°C至600/spl°C温度的传感器。开发和测试该原型传感器系统的目的是确定在这种恶劣环境中操作光学传感器的可行性。本文利用光子传感器对OV-10D型飞机发动机的排气温度进行了监测。该传感器已经成功飞行了50多个小时，并被证明不受源波动、光学元件(位于传感器头内部)表面劣化的影响，能够承受正常飞行条件和持续超过4 g力的恶劣飞行条件并在这些条件下工作。该传感器的潜在商业用途包括监测航空推进系统控制的温度，军用车辆和海军发动机控制，常规和核电站监测，以及工业工厂监测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fabry-Perot photonic temperature sensor system

In order to monitor aircraft engine performance, there is a need for a sensor which can accurately measure temperature from -50/spl deg/C to 600/spl deg/C in an aircraft environment. The objective of the development and testing of this prototype sensor system was to determine the feasibility of operating an optical sensor in such a hostile environment. In this work a photonic sensor was utilized to monitor the exhaust gas temperature (EGT) of an OV-10D aircraft engine. The sensor has successfully flown over 50 hours and proven to be immune to source fluctuations, surface deterioration of the optical element (located inside the sensor head), and able to withstand and operate in normal flight conditions as well as sustained severe flight conditions with forces exceeding 4 g's. Potential commercial uses for this sensor include monitoring temperature for aeropropulsion system control, military vehicle and naval engine control, conventional and nuclear power plant monitoring, and industrial plant monitoring.

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ICIASF'97 Record. International Congress on Instrumentation in Aerospace Simulation Facilities

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