Fabricating an optical assembly
    3.
    发明授权
    Fabricating an optical assembly 有权
    制造光学组件

    公开(公告)号:US09274289B2

    公开(公告)日:2016-03-01

    申请号:US13676351

    申请日:2012-11-14

    摘要: Embodiments provide a horizontally movable stage, with an opening, of a flip-chip bonder, a substrate including at least one flexible portion and a waveguide, the waveguide exposed at one end edge of the substrate positioned upon the stage with the end edge over the opening, a vertically upwardly movable clamp sized to penetrate the stage opening and positioned underneath the stage, a vertically downwardly movable bond head above the stage opening, an optical component positioned in the head, a glue dispenser positioned to provide glue to either a mating surface of the substrate exposed end edge or a mating surface of the optical component, and a controller connected to the stage, clamp, head and dispenser, including a control circuit for positioning the substrate waveguide exposed end edge underneath the optical component while dispensing glue for fixably bonding the mating surfaces of the optical component and the substrate exposed end edge.

    摘要翻译: 实施例提供了具有倒装芯片连接器的开口的水平移动平台,包括至少一个柔性部分和波导的基板,该波导在位于台面上的基板的一个端部边缘处露出,端部边缘超过 开口,垂直向上可移动的夹具,其大小适于穿透平台开口并且定位在平台下方,在平台开口上方具有垂直向下可移动的接合头,定位在头部中的光学部件,定位成将胶水提供给配合表面 衬底暴露的端边缘或光学部件的配合表面,以及连接到平台,夹具,头部和分配器的控制器,包括用于将衬底波导暴露的端部边缘定位在光学部件下方的控制电路,同时分配用于可固定的胶 粘合光学部件的配合表面和基板暴露的端部边缘。

    CONVOLUTIONS WITH OPTICAL FINITE IMPULSE RESPONSE FILTERS

    公开(公告)号:US20230118621A1

    公开(公告)日:2023-04-20

    申请号:US17451550

    申请日:2021-10-20

    IPC分类号: H03H17/00 G06F17/15 G06T5/20

    摘要: A method of processing data and related apparatuses. The method relies on an optical finite impulse response (FIR) filter. This optical FIR filter comprises several delay stages having weights set in accordance with parameters of a transformation to be applied by the optical FIR filter. Each of the delay stages is configured to impose a delay matched to a given input data period corresponding to a given input sample rate. According to the method, an optical signal is coupled into the optical FIR filter. The optical signal carries a data stream of input samples encoded at the given input sample rate; the data stream represents the data to be processed. Next, output samples are collected from an output data stream carried by an output optical signal obtained in output of the optical FIR filter. A set of output samples are obtained, which are representative of processed data.

    Controlling voltage resistance through metal-oxide device

    公开(公告)号:US11615843B2

    公开(公告)日:2023-03-28

    申请号:US17124648

    申请日:2020-12-17

    IPC分类号: G11C13/00 H01L45/00 G06F3/14

    摘要: Embodiments of the present invention provide a computer system, a voltage resistance controlling apparatus, and a method that comprises at least two electrodes on proximal endpoints; a first layer disposed on the at least two electrodes, wherein the first layer is a made of a metal-oxide; a second layer disposed on the second layer, wherein the second first layer is made of an electrically conductive metal-oxide; a forming contact disposed on the second layer, wherein a combination of the forming contact disposed on the first layer disposed on the second layer operatively connects the at least two electrodes; and a computer system operatively connected to the forming contact, wherein the computer system is configured to apply a predetermined voltage to the first layer and the second layer respectively and display an overall resistance increase using a user interface.

    ELECTRO-OPTICAL DEVICE WITH LATERAL ACTIVE REGIONS

    公开(公告)号:US20190252859A1

    公开(公告)日:2019-08-15

    申请号:US16396279

    申请日:2019-04-26

    摘要: Embodiments of the disclosure are directed to a lateral current injection electro-optical device. The device comprises an active region with a stack of III-V semiconductor gain materials stacked along a stacking direction z. The active region may be formed as a slab having several lateral surface portions, each extending parallel to the stacking direction z. The device further comprises two paired elements, which include: a pair of doped layers of III-V semiconductor materials (an n-doped layer and a p-doped layer); and a pair of lateral waveguide cores. The two paired elements may be laterally arranged, two-by-two, on opposite sides of the slab. The elements distinctly adjoin respective ones of the lateral surface portions of the slab, so as for these elements to be separated from each other by the slab. The disclosure may be further directed to related silicon photonics devices and fabrication methods.