高灵敏微波载荷卫星出舱电缆及舱体屏蔽的EMC设计

EMC design for cables crossing cabin and cabin shielding of satellite with high sensitive microwave payloads

  • 摘要: 针对高灵敏微波载荷卫星对舱板电磁屏蔽效能的高需求与出舱电缆对舱体屏蔽效能巨大破坏性之间的矛盾,文章首先提出航天器理想舱板(无出舱电缆)的电磁屏蔽效能分析方法,给出提高对于1 GHz以上干扰电磁波屏蔽效能的设计原则;然后分析出舱电缆成为影响航天器外舱板对P波段(150 MHz~1 GHz)电磁波屏蔽效能主要因素的机理,给出干扰电流与干扰场强关系计算公式;最后给出出舱电缆及舱体屏蔽的电磁兼容(EMC)设计方法,提出用接地电阻测量法验证出舱电缆屏蔽皮接地的有效性,为总体总装EMC实施找到关键控制手段,并通过整星试验数据确认此方法能有效提升整星EMC试验效率。

     

    Abstract: Satellites with high sensitive microwave payloads present a high demand for electromagnetic shielding efficiency of cabin panels. However, the usage of cables crossing cabin may significantly reduce the cabin electromagnetic shielding efficiency. In this article, a method for analyzing the electromagnetic shielding efficiency of the ideal cabin panels (without cables crossing the cabin) of spacecraft was proposed, and design principles of shielding the electromagnetic interference above 1 GHz were provided. Then, the mechanism by which the cables crossing cabin become the main factor affecting the efficiency of cabin panels shielding P-band (150 MHz to 1 GHz) electromagnetic wave was analyzed. A calculation formula for the interference current in relation with electromagnetic field strength was given. Finally, an electromagnetic compatibility (EMC) design method for the cables crossing cabin and cabin shielding was suggested, and a grounding resistance measurement method was offered to verify the grounding effectiveness of the cable shielding skin, which may contribute to identify the key control measures for the EMC implementation of the satellite assembly. The efficiency of the whole satellite EMC test has been effectively improved by the proposed method.

     

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