简介:<正>英飞凌科技股份公司推出全新的650VCoolMOSTMC6/E6高性能功率MOSFET系列。该产品系列将现代超级结(SJ)器件的优势(如低导通电阻和低容性开关损耗)与轻松控制的开关行为及体二极管高牢固性融合在一起。基于同样的技术平台,C6器件针对易用性进行了优化,而E6器件则旨在提供最高效MOSFET系列。该产品系列将现代超级结(SJ)器件的优势(如低导通电阻和低容性开关损耗)与轻松控制的开关行为及体二极管高牢固性融合在一起。基于同样的技术平台,C6器件针对易用性进行了优化,而E6器件则旨在提供最高效率。CoolMOSTMC6/E6是来自英飞凌的第六代市场领先的高压超级结功率MOSFET。全新的650VCoolMOSTMC6/E6器件具备快速、可控的开关性能,适用于效率和功率密度是关键要求的应用。650VCoolMOSTMC6/E6器件易于应用,是各种高能效开关产品的理想之选,例如笔记本电脑适配器、太阳能逆变器和其他需要额外击穿电压裕量的开关电源(SMPS)产品。相对于CoolMOSTMC3650V系列,全新650VCoolMOSTMC6/E6器件输出电容(Eoss)的储电量降幅高达20%,而C6/E6器件经过改进的体二极管具备更高的硬换相耐受性,并可使反向恢复电荷降低约25%。得益于调谐栅极电阻的平衡设计,C6/E6器件的开关行为能够避免过高的电压和电流变化率。邹勉摘编
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简介:Anovellow-cost4-elementplanararrayantennadirectlyfedbyacoaxialcableforUltra-WideBand(UWB)applicationispresented.Theproposedantennaconsistsof2×2bowtieelementsandasimple1:4powerdividerfeedingnetwork.Comparedtothebasicbowtieelement,theimpedancebandwidthofthearrayantennahasasignificantimprovementthatthelowcut-offfrequencyisextendedfrom6GHzofthebowtieelementto2GHz.Themeasuredresultsshowthattheproposedantennahasalargebandwidthof2GHzto11GHzforVoltageStandingWaveRatio(VSWR)<2,andexhibitsabidirectionalradiationpatternandamodestgainacrosstheoperatingbandandapeakgainofabout9dBiat11GHz.
简介:Photoluminescenceevaluationofpandntype6H-SiCsampleshasbeendone.Resultsshowthatatlowtemperaturethephotoluminescenceof6H-SiCisclearlydominatedbydonor-acceptorpairtransitions,insomecase,free-to-donortransitioncouldbeobservedathighertemperature.Thethermalquenchingprocessesofthephotoluminescencehavebeeninvestigatedtodeterminethepossibleionizationnenergiesoftheimpurities.
简介:军用宽带移动通信技术与民用第三代移动通信(3G)和第四代移动通信(4G)技术相比,其发展缓慢。现有军用移动通信主要依靠短波、超短波及通信卫星等手段,对多媒体新型业务支持较弱,难以满足新一代指挥信息系统的需求。首先,介绍了4G宽带移动通信主流体制长期演进计划的后续演进(LTE—A)关键技术;然后,分析了4G技术的军事应用优势以及存在问题;最后,展望了未来4G移动通信军事应用。
简介:Organicmultiplequantumwells(OMQWs)consistingofalternatinglayersoforganicmaterialshavebeenfabricatedfromtris(8-hdroxyquinoline)aluminum(Alq)and2-(4-biphenylyl)-5-(4-tertbutylphenyl)-1,3,3-oxadiazole(PBD)byamultisource-typehigh-vacuumorganicmoleculardeposition.Fromthesmall-angleX-raydiffractionpatternsofAlq/PBDOMQWs,aperiodicallylayeredstructureisconfirmedthroughtheentirestack.TheAlqlayerthicknessintheOMQWswasvariedfrom1nmto4nm.Fromtheopticalaborption,photoluminescenceandelectroluminescencemeasurements,itisfoundthattheexcitonenergyshiftstohigherenergywithdecreasingAlqlayerthickness,ThechangesoftheexcitonenergycouldbeinterpretedastheconfinementeffectsofexcitonintheAlqthinlayers.Narrowingoftheemissionspectrumhasalsobeenobservedfortheelectroluminescentdevices(ELDs)withtheOMQWsstructureatroomtemperature.