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随着现代科学技术的不断进步,以及国内民用航空气象事业的飞速发展,对航空气象保障能力水平也提出了越来越高的要求。实况探测技术是民用航空和地方气象领域的基础,自动气象观测系统作为大气探测的主要设备系统,其探测能力和自动化水平的提高成为了空管和地方气象工作的重点。本文主要以MIDAS IV自动气象观测系统的CL31云高仪为例,简述其引擎板出现故障后的分析、定位及排查。
With the continuous improvement of modern science and technology and the rapid development of civil aviation meteorological services in our country, more and more high requirements are placed on the level of aviation meteorological support. Live detection technology is the basis of civil aviation and local meteorology. Automatic meteorological observation system, as the main equipment system of atmospheric exploration, has become the focus of air traffic control and local meteorological work due to its enhanced detection capability and automation. In this paper, MIDAS IV automatic weather observation system CL31 ceilometer as an example, briefly describes the engine board after the failure of the analysis, location and troubleshooting.