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
    • 11. 发明申请
    • OPTICAL COMPONENT ASSEMBLIES
    • 光学组件组件
    • US20130084044A1
    • 2013-04-04
    • US13248463
    • 2011-09-29
    • John P. ErtelGary R. Trott
    • John P. ErtelGary R. Trott
    • G02B6/36
    • G02B6/428G02B6/3831G02B6/4221G02B6/4231G02B6/4246
    • In one embodiment, an optical component assembly includes an active component substrate, an active component positioned on the active component substrate, a collar and a fiber securing device. The collar is coupled to the active component substrate, and the fiber securing device is configured to mate with the collar such that a signal surface of the fiber securing device is located at a predetermined distance from the surface of the active component substrate, and a signal aperture of the fiber securing device is substantially located at a predetermined optical coupling location with respect to the active optical component. In another embodiment, an optical transceiver assembly includes an optically transmissive fiber securing device coupled to and aligned with a surface of the active component substrate using first and second alignment apertures that are aligned with first and second alignment locations of the active component substrate, respectively.
    • 在一个实施例中,光学部件组件包括有源部件基板,位于有源部件基板上的有源部件,套环和光纤固定装置。 轴环耦合到有源部件基板,并且光纤固定装置构造成与轴环配合使得光纤固定装置的信号表面位于与有源部件基板的表面预定距离处,并且信号 光纤固定装置的孔径基本上位于相对于有源光学部件的预定光耦合位置。 在另一个实施例中,光收发器组件包括光学透射光纤固定装置,其使用分别与有源元件基板的第一和第二对准位置对准的第一和第二对准孔耦合到有源元件基板的表面并与其对准。
    • 16. 发明授权
    • Optical component assemblies
    • 光学元件组件
    • US09170387B2
    • 2015-10-27
    • US13248463
    • 2011-09-29
    • John P. ErtelGary R. Trott
    • John P. ErtelGary R. Trott
    • G02B6/36G02B6/42G02B6/38
    • G02B6/428G02B6/3831G02B6/4221G02B6/4231G02B6/4246
    • In one embodiment, an optical component assembly includes an active component substrate, an active component positioned on the active component substrate, a collar and a fiber securing device. The collar is coupled to the active component substrate, and the fiber securing device is configured to mate with the collar such that a signal surface of the fiber securing device is located at a predetermined distance from the surface of the active component substrate, and a signal aperture of the fiber securing device is substantially located at a predetermined optical coupling location with respect to the active optical component. In another embodiment, an optical transceiver assembly includes an optically transmissive fiber securing device coupled to and aligned with a surface of the active component substrate using first and second alignment apertures that are aligned with first and second alignment locations of the active component substrate, respectively.
    • 在一个实施例中,光学部件组件包括有源部件基板,位于有源部件基板上的有源部件,套环和光纤固定装置。 轴环耦合到有源部件基板,并且光纤固定装置构造成与轴环配合使得光纤固定装置的信号表面位于与有源部件基板的表面预定距离处,并且信号 光纤固定装置的孔径基本上位于相对于有源光学部件的预定光耦合位置。 在另一个实施例中,光收发器组件包括光学透射光纤固定装置,其使用分别与有源元件基板的第一和第二对准位置对准的第一和第二对准孔耦合到有源元件基板的表面并与其对准。
    • 17. 发明授权
    • Ferrule-based optical component assemblies
    • 基于套圈的光学元件组件
    • US08834041B2
    • 2014-09-16
    • US13248441
    • 2011-09-29
    • John P. ErtelGary R. Trott
    • John P. ErtelGary R. Trott
    • G02B6/36G02B6/42G02B6/38
    • G02B6/3817G02B6/4246G02B6/4261
    • In one embodiment, an optical transceiver assembly includes an active component substrate, first and second fiber securing devices, and a holder device coupled to the active component substrate. The holder device includes an active optical component recess that encloses a first and second active optical component of the active component assembly, and first and second fiber-locating holes having an engagement feature at the active optical component recess such that an end of first and second fibers inserted into the first and second fiber-locating holes are aligned with the first and second active optical components along the x-, y-, and z-axes. In another embodiment, an optical component assembly includes an active component substrate having a solder ring, a fiber securing device, and an active optical component on the active component substrate. The fiber securing device is aligned with the active optical component by the solder ring.
    • 在一个实施例中,光收发器组件包括有源部件基板,第一和第二光纤固定装置以及耦合到有源部件基板的支架装置。 保持器装置包括有源光学部件凹部,其包围有源部件组件的第一和第二有源光学部件,以及在有源光学部件凹部处具有接合特征的第一和第二光纤定位孔,使得第一和第二 插入第一和第二光纤定位孔中的光纤沿着x轴,y轴和z轴与第一和第二有源光学部件对准。 在另一个实施例中,光学部件组件包括具有焊接环的有源部件基板,光纤固定装置和有源部件基板上的有源光学部件。 光纤固定装置通过焊环与有源光学部件对准。
    • 19. 发明授权
    • Wafer-scale manufacturing method
    • 晶圆尺寸制造方法
    • US06921676B2
    • 2005-07-26
    • US10402721
    • 2003-03-28
    • John P. ErtelPeter R. RobrishCharles W. Hoke
    • John P. ErtelPeter R. RobrishCharles W. Hoke
    • H01L27/14H01L21/68H01L21/00
    • H01L21/68
    • The wafer-scale assembly method provides first elements arrayed on a wafer with adjacent ones of the first elements separated by a predetermined spacing. Second elements are also provided. A spacing-defining jig is provided that includes recesses corresponding in size to the second elements. Adjacent ones of the recesses are separated by a spacing equal to the predetermined spacing. The second elements are inserted into the recesses of the spacing-defining jig and are then affixed to the wafer with the second elements in alignment with corresponding ones of the first elements. Inserting the second elements in to the jig in which the recesses are separated by a spacing equal to the predetermined spacing allows a single alignment operation to provide accurate alignment between all the first elements, e.g., image sensors, arrayed on the wafer and all the second elements, e.g., lens assemblies, that are to be affixed to the first elements arrayed on the wafer.
    • 晶片级组装方法提供了排列在晶片上的第一元件,其中相邻的第一元件以预定间隔分开。 还提供了第二个要素。 提供了一种间隔限定夹具,其包括尺寸对应于第二元件的凹部。 相邻的凹部间隔相当于预定间距的间隔。 将第二元件插入间隔限定夹具的凹槽中,然后将第二元件固定到晶片上,其中第二元件与相应的第一元件对齐。 将第二元件插入夹具中,其中凹部被分隔等于预定间隔的间隔允许单个对准操作在所有第一元件(例如,排列在晶片上的图像传感器)和所有第二元件 元件,例如透镜组件,其将被固定到排列在晶片上的第一元件。
    • 20. 发明授权
    • Encapsulated liquid toner printing apparatus
    • 封装液体墨粉打印装置
    • US5923412A
    • 1999-07-13
    • US725597
    • 1996-10-03
    • John P. Ertel
    • John P. Ertel
    • B41J2/44G03G9/08G03G9/093G03G13/10G03G15/34G03B27/00
    • G03G9/093G03G13/10G03G15/34
    • An encapsulated liquid toner apparatus and method for printing. The encapsulated liquid toner apparatus and method for printing operates by selectively depositing ink filled microcapsules to a print medium. The microcapsules have a mixture of pigment particles, drying agents, and an ester oil contained within a hard brittle outer shell. The outer shell formed from a urea resoricnol formaldehyde material is crushed which releases ink within the microcapsule onto the print medium. One embodiment of the invention deposits the microcapsules on the print medium through an electrophotographic process. Another embodiment deposits the microcapsules through a toner ejection process.
    • 一种封装液体调色剂装置及其印刷方法。 封装的液体调色剂装置和打印方法通过选择性地将填充墨的微胶囊沉积到打印介质上而进行操作。 微胶囊具有颜料颗粒,干燥剂和硬脆外壳中含有的酯油的混合物。 将由尿素吸收剂甲醛材料形成的外壳压碎,将微胶囊内的油墨释放到打印介质上。 本发明的一个实施方案通过电子照相方法将微胶囊沉积在印刷介质上。 另一个实施方案通过调色剂喷射方法沉积微胶囊。