会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 73. 发明授权
    • CMOS inverter and standard cell using the same
    • CMOS反相器和标准电池使用相同
    • US06252427B1
    • 2001-06-26
    • US09333048
    • 1999-06-15
    • Shinichi DomaeTetsuya Ueda
    • Shinichi DomaeTetsuya Ueda
    • H03K1920
    • H01L27/092H01L2924/0002H01L2924/00
    • To prevent a void from being formed in a CMOS inverter due to electromigration. A power line 11 is connected to the source of a p-channel MOS transistor Tr1 via a first contact 12. A ground line 13 is connected to the source of an n-channel MOS transistor Tr2 via a second contact 14. One terminal of a first output signal line 15 is connected to the drain of the p-channel MOS transistor Tr1 via a third contact 16, while the other terminal thereof is connected to the drain of the n-channel MOS transistor Tr2 via a fourth contact 17. one terminal of a second output signal line 18 is connected to the fourth contact 17, while the other terminal thereof extends toward the output terminal of the inverter. A first path of an input signal line 19 is connected to the gate electrode 20 of the p-channel MOS transistor Tr1 via a fifth contact 21, while a second path thereof is connected to the gate electrode 20 of the n-channel MOS transistor Tr2 via a sixth contact 22.
    • 为了防止由于电迁移而在CMOS反相器中形成空隙。电源线11经由第一触点12连接到p沟道MOS晶体管Tr1的源极。地线13连接到n的源极 通道MOS晶体管Tr2经由第二触点14.第一输出信号线15的一个端子经由第三触点16连接到p沟道MOS晶体管Tr1的漏极,而另一端连接到 n沟道MOS晶体管Tr2经由第四触点17.第二输出信号线18的一个端子连接到第四触点17,而另一端延伸到逆变器的输出端。 输入信号线19的第一路径经由第五接点21连接到p沟道MOS晶体管Tr1的栅电极20,其第二路径连接到n沟道MOS晶体管Tr2的栅电极20 经由第六接触件22。
    • 77. 发明授权
    • Carrier tape
    • 载带
    • US5196917A
    • 1993-03-23
    • US444973
    • 1989-12-04
    • Tetsuya UedaKou ShimomuraOsamu NakagawaSeiji TakemuraKazunari Michii
    • Tetsuya UedaKou ShimomuraOsamu NakagawaSeiji TakemuraKazunari Michii
    • H01L21/56H01L21/60H01L23/48
    • H01L23/48H01L2224/16
    • A carrier tape includes an insulating film supporting a plurality of leads. The film has a center device hole for receiving a semiconductor chip therein, a plurality of outer lead holes formed at the periphery of the center device hole, a lead supporting portion positioned between the center device hole and the outer lead holes, and a link portion positioned between a pair of adjacent outer lead holes and connected to the lead supporting portion for directing the flow of molten resin during encapsulation of the semiconductor chip. The link portion includes an opening or recess. The plurality of leads of the carrier tape are supported on the lead supporting of the film, with one end portion of each lead projecting into the center device hole of the film. During manufacture, a semiconductor chip having a plurality of electrodes is positioned within the center device hole, and the leads are electrically connected to respective electrodes of the semiconductor chip. The resultant chip is placed within a cavity of a mold, and a molten resin is injected into the cavity through the opening or recess passage formed in the link portion of the film.
    • 载带包括支撑多根引线的绝缘膜。 薄膜具有用于容纳半导体芯片的中心装置孔,形成在中心装置孔周边的多个外部引线孔,位于中心装置孔和外部引线孔之间的引线支承部分,以及连接部分 定位在一对相邻的外引线孔之间并连接到引线支撑部分,用于在半导体芯片封装期间引导熔融树脂的流动。 连杆部分包括开口或凹槽。 载带的多个引线被支撑在膜的引线支撑上,每个引线的一个端部突出到膜的中心装置孔中。 在制造过程中,具有多个电极的半导体芯片位于中心器件孔内,引线与半导体芯片的各个电极电连接。 将所得的芯片放置在模具的空腔内,并且通过形成在薄膜的连接部分中的开口或凹槽通道将熔融树脂注入空腔中。