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    • 4. 发明授权
    • On-the-fly beam path error correction for memory link processing
    • 用于存储器链接处理的动态光束路径误差校正
    • US06816294B2
    • 2004-11-09
    • US10077691
    • 2002-02-15
    • Mark UnrathKelly BrulandHo Wai LoStephen Swaringen
    • Mark UnrathKelly BrulandHo Wai LoStephen Swaringen
    • G02B2608
    • G02B26/101B23K26/042B23K26/082G02B26/0816H01L23/5258H01L2924/0002H01L2924/00
    • Laser beam positioners (300, 340) employ a steering mirror (236, 306) that performs small-angle deflection of a laser beam (270) to compensate for cross-axis (110) settling errors of a positioner stage (302). A two-axis mirror is preferred because either axis of the positioner stages may be used for performing work. In one embodiment, the steering mirror is used for error correction only without necessarily requiring coordination with the positioner stage position commands. A fast steering mirror employing a flexure mechanism and piezoelectric actuators to tip and tilt the mirror is preferred in semiconductor link processing (“SLP”) applications. This invention compensates for cross-axis settling time, resulting in increased SLP system throughput and accuracy while simplifying complexity of the positioner stages because the steering mirror corrections relax the positioner stage servo driving requirements.
    • 激光束定位器(300,340)使用执行激光束(270)的小角度偏转以补偿定位器台(302)的横轴(110)沉降误差的转向镜(236,306)。 优选两轴镜,因为定位器台的任一轴可用于执行作业。 在一个实施例中,导向镜仅用于纠错,而不需要与定位器台位置命令协调。 在半导体连接处理(“SLP”)应用中,优选采用挠曲机构的快速转向镜和压电致动器来使倾斜反射镜。 本发明补偿横轴建立时间,从而提高了SLP系统的吞吐量和精度,同时简化了定位器台的复杂性,因为导向镜校正放松了定位器级的伺服驱动要求。
    • 8. 发明授权
    • Methods and systems for laser processing continuously moving sheet material
    • 激光加工连续移动片材的方法和系统
    • US09029731B2
    • 2015-05-12
    • US11949582
    • 2007-12-03
    • Yasu OsakoMark UnrathMark Kosmowski
    • Yasu OsakoMark UnrathMark Kosmowski
    • B23K26/08
    • B23K26/0846B23K26/38
    • Systems and methods for laser processing continuously moving sheet material include one or more laser processing heads configured to illuminate the moving sheet material with one or more laser beams. The sheet material may include, for example, an optical film continuously moving from a first roller to a second roller during a laser process. In one embodiment, a vacuum chuck is configured to removably affix a first portion of the moving sheet material thereto. The vacuum chuck controls a velocity of the moving sheet material as the first portion is processed by the one or more laser beams. In one embodiment, a conveyor includes a plurality of vacuum chucks configured to successively affix to different portions of the sheet material during laser processing.
    • 用于激光处理连续移动的片材的系统和方法包括一个或多个激光处理头,其被配置为用一个或多个激光束照射移动片材。 片材可以包括例如在激光处理期间从第一辊连续地移动到第二辊的光学膜。 在一个实施例中,真空卡盘构造成将可动片材的第一部分可拆卸地固定到其上。 当第一部分被一个或多个激光束处理时,真空吸盘控制移动片材的速度。 在一个实施例中,输送机包括多个真空卡盘,其构造成在激光加工期间连续地贴附到片材的不同部分。
    • 10. 发明申请
    • Adaptive command filtering for servomechanism control systems
    • 伺服机构控制系统的自适应命令过滤
    • US20050285558A1
    • 2005-12-29
    • US11129059
    • 2005-05-12
    • David WattMehmet AlpayMark UnrathJohn WenBen Potsaid
    • David WattMehmet AlpayMark UnrathJohn WenBen Potsaid
    • G05B13/04G05D23/275
    • G05B13/041
    • Preferred embodiments of the invention implement techniques for modifying the command trajectory, the architecture of a servomechanism control system, or both, to reduce the servo error during and/or after the command trajectory. An iterative refinement procedure generates for use by the servomechanism control system a corrective input, du, which significantly reduces the error between the desired and actual servomechanism control system outputs. In one embodiment, a uniquely identified plant model is employed in the iterative refinement procedure to compute an approximate gradient that improves the performance and reliability of the refinement procedure. In another embodiment, the actual plant response is used in place of the identified model in the iterative refinement procedure. This is accomplished by time-reversing the stored error signal from a training run, before applying it to the plant to generate an update to the corrective input signal du.
    • 本发明的优选实施例实现了用于修改命令轨迹,伺服机构控制系统的结构或两者的技术,以减少在命令轨迹期间和/或之后的伺服误差。 对伺服机构控制系统产生的迭代精制过程可用于校正输入du,这显着地减少了期望的和实际的伺服机构控制系统输出之间的误差。 在一个实施例中,在迭代细化过程中采用唯一识别的植物模型来计算提高细化过程的性能和可靠性的近似梯度。 在另一个实施例中,在迭代细化过程中使用实际植物响应来代替所识别的模型。 这是通过将训练运行中存储的误差信号时间反转,然后将其应用到工厂来产生对纠正输入信号du的更新来实现的。