Engineering-Research-Activity2016｜SHINSHU UNIV.

19/80

AMDL(Sato-Sonehara)LabTheGREEN(high-efficiencyandlow-loss)technologybasedonthemagneticmaterials,devices,andsensortechnologieshasbeenresearchinganddevelopingvigorouslyinAdvancedMagneticDevices(SatoandSonehara)Laboratory(AMDL;http://amdl.shinshu-u.ac.jp).Forexample,package-levelDCsmartgridintheLSIusingthemagneticdevicessuchalow-flux-leakageplanerpowerinductorandvariousdevicessuchasensorwasstudiedwithcompanies,TheUniv.ofTokyo,TokyoInst.ofTech.,andsomeprojects.Inthenearfuture,aninsufficiencyoftheelectricpowerwillbeevenserious.Thereforeitisnecessarytodevelopthegreendevicesandequipmentforthehighly-networkedinformationsociety.Wecollaboratewithvariouscompaniesanduniversitieswithdifferenttechnologysuchmaterials,devices,andsystem,sothatweresearchanddevelopthegreenelectronicsdevicesandequipment.ToshiroSatoProfessor(2005-),Ph.D.(1989)Research filed; High frequency magnetic materials, microwave and power magnetics, and magnetic sensor, et al.Photograph and schematic view of the low-flux-leakage planer power inductor for package-level DC smart grid in the LSI fabricated.Green Electronics Devices and Equipment-DC smart grid in LSI package for low power consumption driving -The 11thInternational Conference on Ferrites (ICF 11) New Product & Novel Technology Award was awarded to them. The title is “Magnetic Properties of Spin-sprayed Ferrite Film Deposited on Glass/Epoxy Build-up Layer in Organic Interposer Substrate”.ManyAMDLgraduatesworkinthegeneralelectricdevicesmanufacturingcompany,andtheresearchinstitute,etal.Theyhasnotonlyaskilloftheelectricalandelectronicengineeringbutalsoanideaoftheglobalenvironmentandthesavingenergy.Electrical& ElectronicEngineeringIn the FutureAfter GraduationAMDL(Sato-Sonehara)LabManyGREEN(high-efficiencyandlow-loss)magneticmaterial,devices,sensor,equipment,andsystemhavebeenresearchinganddevelopingvigorouslyinAdvancedMagneticDevices(SatoandSonehara)Laboratory(AMDL;http://amdl.shinshu-u.ac.jp).Forexample,anopticalprobecurrentsensorwiththemagneticKerreffectforhigh-efficiencyconvertorintheEV/HEVandtheSmartGridwasstudied.Thegreendevicesandequipmentareexpectingbythejointresearchprojects,companies,andadministration.Inthenearfuture,aninsufficiencyoftheelectricpowerwillbeevenserious.Thereforeitisnecessarytodevelopthegreendevicesandequipment.Ifalltheelectricalequipmentandsystemhaveourgreendevices,wewillusethepowerplantsbyrecyclableenergyonly,nomorethenuclearpowerplants.Wehopefortheglobalenvironmentandhumanlifeusingbytheelectricandelectronicstechnology.MakotoSoneharaAssociateProf.(2013-),Dr.(Eng.,2007)Research filed; Magnetic materials engineering, magnetic and high-frequency devices and sensor, et al.Photograph and schematic view of the optical probe current sensor with a few cm size fabricated.Green Electronics Devices and Equipment-Optical probe current sensor for high-efficiency converter -The students who fabricates the magnetic film using by the sputtering method, and Prof. Sonehara who explains the process to the researchers of a company.ManyAMDLgraduatesworkinthegeneralelectricdevicesmanufacturingcompany.Theyhasnotonlyaskilloftheelectricalandelectronicengineeringbutalsoanideaoftheglobalenvironmentandthesavingenergy.Electrical& ElectronicEngineeringIn the FutureAfter Graduation17

※このページを正しく表示するにはFlashPlayer10.2以上が必要です