A　novel　electronics　cooling　system-ion　drag　Electrohydrodynamic　(EHD)　micropump　was　introduced.　The　ion　drag　EHD　micropump　containing　a　planar　electrode　array　on　a　silicon　substrate　was　fabricated　and　tested,　in　which　the　electrodes　were　paired　as　an　emitter　and　a　collector　with　40　μm　width　and　50　μm　gap　between　them,　the　number　of　electrode　pairs　was　90　and　the　gap　between　two　electrode　pairs　was　100　μm.　Static　pressure　tests　were　performed　by　a　DC　driving　voltage　and　by　HFE7100　and　ethyl　alcohol　as　working　fluids.　Experimental　results　show　that　the　static　pressure　is　quadratic　proportion　to　the　input　voltage　and　inverse　proportion　to　the　channel　height　and　the　maximum　pressure　head　achieved　by　this　micropump　is　250　Pa　at　an　applied　voltage　of　200　V.　These　data　proves　that　the　performance　of　the　ion-drag　pump　can　be　improved　significantly　by　selecting　the　fluid　with　high　permittivity　and　low　viscosity.　It　also　indicates　that　the　cleanness　degree　of　devices　and　the　purification　of　the　working　fluid　will　greatly　influence　the　performance　and　working　lifetime　of　the　EHD　micropump.