现代电子技术
現代電子技術
현대전자기술
MODERN ELECTRONICS TECHNIQUE
2013年
22期
5-9
,共5页
双层屏蔽腔%电磁屏蔽效能%印制电路板%传输线法
雙層屏蔽腔%電磁屏蔽效能%印製電路闆%傳輸線法
쌍층병폐강%전자병폐효능%인제전로판%전수선법
double-layer shielding cavity%electromagnetic shielding effectiveness%print circuit board%transmission-line method
为了提高设备中电子元件抵御来自外界和内部其他元件的电磁干扰,根据传输线理论,将双层加载电路板屏蔽腔体模型转换为电路图,利用电路图推导出腔体中心屏蔽效能的等效公式。利用Matlab生成传输线法屏蔽效能曲线,并通过仿真软件CST建模仿真,仿真结果与Matlab输出曲线良好吻合,验证了公式的正确性。运用CST研究了一些因素如电路板大小、数量、放置方式以及距孔缝的距离对屏蔽效能的影响。为了更加贴合实际,采用加载集成运算放大电路的印制电路板来研究腔体屏蔽效能以及腔体对电路板功能的影响,最后提出了一些提高屏蔽效能的方法。
為瞭提高設備中電子元件牴禦來自外界和內部其他元件的電磁榦擾,根據傳輸線理論,將雙層加載電路闆屏蔽腔體模型轉換為電路圖,利用電路圖推導齣腔體中心屏蔽效能的等效公式。利用Matlab生成傳輸線法屏蔽效能麯線,併通過倣真軟件CST建模倣真,倣真結果與Matlab輸齣麯線良好吻閤,驗證瞭公式的正確性。運用CST研究瞭一些因素如電路闆大小、數量、放置方式以及距孔縫的距離對屏蔽效能的影響。為瞭更加貼閤實際,採用加載集成運算放大電路的印製電路闆來研究腔體屏蔽效能以及腔體對電路闆功能的影響,最後提齣瞭一些提高屏蔽效能的方法。
위료제고설비중전자원건저어래자외계화내부기타원건적전자간우,근거전수선이론,장쌍층가재전로판병폐강체모형전환위전로도,이용전로도추도출강체중심병폐효능적등효공식。이용Matlab생성전수선법병폐효능곡선,병통과방진연건CST건모방진,방진결과여Matlab수출곡선량호문합,험증료공식적정학성。운용CST연구료일사인소여전로판대소、수량、방치방식이급거공봉적거리대병폐효능적영향。위료경가첩합실제,채용가재집성운산방대전로적인제전로판래연구강체병폐효능이급강체대전로판공능적영향,최후제출료일사제고병폐효능적방법。
In order to improve the ability of the electronic components in the equipment to resist electromagnetic interfer-ence from the environment and other internal components,the transmission line method(TLM)is applied in this paper to con-vert the model of double layer metallic enclosure with apertures and load circuit boards to circuit diagram,and the calculation formula of enclosure center shielding effectiveness is deduced with the circuit diagram. The Matlab is adopted to generate the shielding effectiveness curve. The model is established and simulated with the simulation software CST. The simulation results match well with the Matlab output curve,which verifies the correctness of the calculation formula. The effects of some factors (such as the PCB size,quantity,putting way and the distance to aperture) on shielding effectiveness are analyzed by CST. In order to fit the realistic situation,the circuit board loading the integrated operational amplifier circuit was used to analyze the shielding effectiveness and the effect of shielding enclosure on the function of the circuit board. Finally,some approaches to im-prove shielding effectiveness are proposed.