FengLiu1, GaoPengfei1, ZhangLiya2, WangWenqing3. The design of analysis and test platform for electromagnetic wave energy security[J]. Journal of Mining Science and Technology, 2019, 4(5): 441-447.
Citation:
FengLiu1, GaoPengfei1, ZhangLiya2, WangWenqing3. The design of analysis and test platform for electromagnetic wave energy security[J]. Journal of Mining Science and Technology, 2019, 4(5): 441-447.
FengLiu1, GaoPengfei1, ZhangLiya2, WangWenqing3. The design of analysis and test platform for electromagnetic wave energy security[J]. Journal of Mining Science and Technology, 2019, 4(5): 441-447.
Citation:
FengLiu1, GaoPengfei1, ZhangLiya2, WangWenqing3. The design of analysis and test platform for electromagnetic wave energy security[J]. Journal of Mining Science and Technology, 2019, 4(5): 441-447.
Theundergroundmetalstructureintheradiationfieldoftheradiofrequencyantennacanbe equivalenttothereceivingantenna.Theenergyofelectromagneticwavefocusedonthemetalstructure willbereleasedintheformofdischargesparkunderscratchcondition.Atpresent,thereisnotesting methodandexperimentalequipmenttomeasurethedischargesparkcausedbyelectromagneticwaveenergy.Inordertosolvethisproblem,thispaperdevelopsatestingplatformforelectromagneticwaveenergysecurityanalysis.Accordingtothedifferentwaysofcouplingelectromagneticwaveenergytometal structure,theplatformdesignsthreekindsofdevices:radiationfield(RF)couplingenergytest,electromagneticwaveenergymagneticresonancecouplingpowertestandelectromagneticwaveenergydischarge spark experiment.On this basis,the spark power experiment of the RF signal source under scratchcondition was carried out.The experimental results show that when the output power of the signalsourceislessthan4.1W,thesparkcausedbytheenergyoftheRFelectromagneticwavewould notignitethegas.
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