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
    • 2. 发明申请
    • ACOUSTIC SEMICONDUCTOR DEVICE
    • 声学半导体器件
    • US20120241877A1
    • 2012-09-27
    • US13220116
    • 2011-08-29
    • Kazuhide ABETadahiro SasakiAtsuko IidaKazuhiko ItayaTakashi Kawakubo
    • Kazuhide ABETadahiro SasakiAtsuko IidaKazuhiko ItayaTakashi Kawakubo
    • H01L29/84
    • H03J3/20H03B5/326H03H9/02566
    • According to one embodiment, an acoustic semiconductor device includes an element unit, and a first terminal. The element unit includes an acoustic resonance unit. The acoustic resonance unit includes a semiconductor crystal. An acoustic standing wave is excitable in the acoustic resonance unit and is configured to be synchronously coupled with electric charge density within at least one portion of the semiconductor crystal via deformation-potential coupling effect. The first terminal is electrically connected to the element unit. At least one selected from outputting and inputting an electrical signal is implementable via the first terminal. The electrical signal is coupled with the electric charge density. The outputting the electrical signal is from the acoustic resonance unit, and the inputting the electrical signal is into the acoustic resonance unit.
    • 根据一个实施例,声学半导体器件包括元件单元和第一端子。 元件单元包括声共振单元。 声共振单元包括半导体晶体。 声驻波在声共振单元中是可兴奋的,并且被配置为通过变形电势耦合效应与半导体晶体的至少一部分内的电荷密度同步耦合。 第一端子电连接到元件单元。 从输出和输入电信号中选出的至少一个可经由第一终端实现。 电信号与电荷密度耦合。 输出电信号来自声共振单元,并且输入电信号进入声共振单元。
    • 3. 发明授权
    • Image forming apparatus and liquid developer drying device
    • 图像形成装置和液体显影剂干燥装置
    • US06973280B2
    • 2005-12-06
    • US10792835
    • 2004-03-05
    • Hideki NukadaAtsuko IidaNoriko Yamamoto
    • Hideki NukadaAtsuko IidaNoriko Yamamoto
    • G03G15/11G03G15/10
    • G03G15/11
    • A liquid-developer drying device includes a covering wall which has a facing surface covering and facing to part of an image-carrying body with a drying air passage between them. The image-carrying body carries developed image in a first direction along the drying air passage. The developed image includes liquid developer having toner particles and carrier liquid. The covering wall has a plurality of slits formed therein. The slits are distributed in a region with substantially less than half length along the facing surface covering the image-carrying body so as to blow dry air to the drying air passage in a second direction parallel to the first direction. Each of the slits extends across the drying air passage. The liquid-developer drying device also includes an air source supplying drying air to the slits.
    • 液体显影剂干燥装置包括:覆盖壁,其具有覆盖并面向图像载体的一部分的面对表面,并且在其间具有干燥空气通道。 图像承载体沿着干燥空气通道沿第一方向携带显影图像。 显影图像包括具有调色剂颗粒和载体液体的液体显影剂。 覆盖壁上形成有多个狭缝。 狭缝沿着覆盖图像载体的相对表面大致小于半长的区域分布,以便在与第一方向平行的第二方向上将干燥空气吹送到干燥空气通道。 每个狭缝都延伸穿过干燥空气通道。 液体显影干燥装置还包括向狭缝供应干燥空气的空气源。
    • 5. 发明授权
    • Image printing method and image printing apparatus
    • 图像打印方法和图像打印装置
    • US06522853B2
    • 2003-02-18
    • US09950626
    • 2001-09-13
    • Atsuko IidaNorio Yoshikawa
    • Atsuko IidaNorio Yoshikawa
    • G03G1510
    • G03G15/11G03G2215/017G03G2215/0658
    • Disclosed is a method and apparatus for printing an image on a print medium with a liquid developer which comprises a liquid carrier and a toner dispersed in the liquid carrier. The printing method has: forming a toner image probably containing the liquid carrier, from the liquid developer; removing the liquid carrier from the toner image; transferring the toner image to the print medium; projecting light radiation on the toner image to be transferred, to measure the optical reflection from the toner image to be transferred; and estimating transfer suitability of the toner image to be transferred, by means of the measured optical reflection from the toner image to be transferred, for appropriately controlling the extent of the removing of the liquid carrier. The printing apparatus has an optical instrument which projects light radiation on the toner image to be transferred and measures the optical reflection from the toner image to be transferred, in order to appropriately control the carrier remover.
    • 公开了一种用包含液体载体和分散在液体载体中的调色剂的液体显影剂在打印介质上打印图像的方法和装置。 印刷方法有:从液体显影剂形成可能含有液体载体的调色剂图像; 从调色剂图像中去除液体载体; 将调色剂图像转印到打印介质上; 将光辐射投影在要转印的调色剂图像上,以测量待转印的调色剂图像的光学反射; 并且通过所测量的要转印的调色剂图像的光学反射来估计要转印的调色剂图像的转印适合性,以适当地控制液体载体的去除程度。 打印设备具有光学仪器,其将光辐射投射在要转印的调色剂图像上,并测量要转印的调色剂图像的光学反射,以便适当地控制载体移除器。
    • 9. 发明授权
    • Liquid electrophotographic apparatus
    • 液体电子照相设备
    • US06650857B2
    • 2003-11-18
    • US10093415
    • 2002-03-11
    • Hideki NukadaAtsuko IidaTakashi Sasaki
    • Hideki NukadaAtsuko IidaTakashi Sasaki
    • G03G1510
    • G03G15/11G03G15/1605G03G15/161G03G2215/017G03G2215/0658
    • An image forming apparatus as described in the embodiments of the present invention comprises a latent image forming unit for forming an electrostatic latent image on the surface; a developing device which supplies liquid developer containing toner particles and carrier liquid to the electrostatic latent image, and forms a developed image on the latent image forming unit; a transferring device which transfers the developed image on the latent image forming unit onto a recording medium, a conveying path of the developed image being formed from the developing device to the recording medium; and a blowing unit equipped with a guide wall to cover at least a part of the conveying path, the guide wall providing a gap of more than 0.5 mm and less than 5 mm, and an air current generating source which generates an air current in the gap, and thoroughly dries and removes excess carrier liquid by exposing a developed image to the air current for a long time.
    • 如本发明的实施例所述的图像形成装置包括用于在表面上形成静电潜像的潜像形成单元; 将静电潜像供给含有调色剂颗粒和载体液体的液体显影剂并在潜像形成单元上形成显影图像的显影装置; 将显影图像在潜像形成单元上转印到记录介质上的转印装置,显影图像的输送路径由显影装置形成到记录介质; 以及配备有引导壁以覆盖传送路径的至少一部分的吹风单元,所述引导壁提供大于0.5mm且小于5mm的间隙,以及产生气流的气流发生源, 间隙,并通过将显影图像暴露于气流长时间来彻底干燥并除去多余的载液。
    • 10. 发明授权
    • Semiconductor device
    • 半导体器件
    • US08513715B2
    • 2013-08-20
    • US12873788
    • 2010-09-01
    • Kazuhide AbeTadahiro SasakiAtsuko IidaKazuhiko Itaya
    • Kazuhide AbeTadahiro SasakiAtsuko IidaKazuhiko Itaya
    • H01L29/78
    • H01L29/78H01L29/41758H01L29/4238H03B5/326
    • According to an embodiment, the present invention provides a semiconductor device that is easily integrated with other electronic circuits and functions as an oscillator with high frequency accuracy. The semiconductor device includes: a semiconductor substrate; an element region; an element isolation region that surrounds the element region; a field effect transistor including a gate electrode that is formed on the element region, source and drain regions, and a channel region that is interposed between the source region and the drain region; gate, source, and drain terminals that are used to apply a voltage to the gate electrode, the source region, and the drain region, respectively; and an output terminal that is electrically connected to the channel region. When the threshold voltage of the field effect transistor is Vth, a gate voltage Vgs applied between the source terminal and the gate terminal and a drain voltage Vds applied between the source terminal and the drain terminal satisfy the following relationship: Vth
    • 根据实施例,本发明提供一种与其他电子电路容易集成并且作为高频精度的振荡器起作用的半导体器件。 半导体器件包括:半导体衬底; 元素区域 围绕元件区域的元件隔离区域; 场效应晶体管,其包括形成在所述元件区域,源极和漏极区域上的栅极电极以及介于所述源极区域和所述漏极区域之间的沟道区域; 栅极,源极和漏极端子,分别用于向栅极电极,源极区域和漏极区域施加电压; 以及电连接到沟道区的输出端子。 当场效应晶体管的阈值电压为Vth时,施加在源极端子和栅极端子之间的栅极电压Vgs和施加在源极端子和漏极端子之间的漏极电压Vds满足以下关系:Vth