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    • 2. 发明授权
    • On-the-fly manipulation of spot size and cutting speed for real-time control of trench depth and width in laser operations
    • 实时控制光斑尺寸和切割速度,实时控制激光操作中的沟槽深度和宽度
    • US08723076B2
    • 2014-05-13
    • US13399856
    • 2012-02-17
    • Mehmet E. AlpayBrian JohansenDavid Childers
    • Mehmet E. AlpayBrian JohansenDavid Childers
    • B23K26/08H01L39/24
    • B23K26/0734B23K26/0622B23K26/364
    • Systems and methods cut trenches of multiple widths in a material using a single pass of a laser beam. A first series of laser pulses cut a work surface of the material at a first cutting speed using a first spot size. In a transition region from a first trench width to a second trench width, a second series of laser pulses sequentially change spot sizes while gradually changing from the first cutting speed to a second cutting speed. Then, a third series of laser pulses continue to cut the work surface at the second cutting speed using a second spot size. The method provides for increased depth control in the transition region. A system uses a selectively adjustable optical component in the laser beam path to rapidly change spot size by adjusting a position of a focal plane with respect to the work surface.
    • 系统和方法使用单次激光束切割材料中多个宽度的沟槽。 第一系列激光脉冲使用第一光斑尺寸以第一切割速度切割材料的工作表面。 在从第一沟槽宽度到第二沟槽宽度的过渡区域中,第二系列激光脉冲顺序地改变光斑尺寸,同时从第一切割速度逐渐变化到第二切割速度。 然后,第三系列激光脉冲使用第二光点尺寸继续以第二切割速度切割工作表面。 该方法提供了在过渡区域中增加的深度控制。 系统使用激光束路径中的选择性可调节的光学部件来通过调整焦平面相对于工作表面的位置来快速地改变光斑尺寸。
    • 3. 发明授权
    • On-the-fly manipulation of spot size and cutting speed for real-time control of trench depth and width in laser operations
    • 实时控制光斑尺寸和切割速度,实时控制激光操作中的沟槽深度和宽度
    • US08124911B2
    • 2012-02-28
    • US12060043
    • 2008-03-31
    • Mehmet E. AlpayBrian JohansenDavid Childers
    • Mehmet E. AlpayBrian JohansenDavid Childers
    • B23K26/36
    • B23K26/0734B23K26/0622B23K26/364
    • Systems and methods cut trenches of multiple widths in a material using a single pass of a laser beam. A first series of laser pulses cut a work surface of the material at a first cutting speed using a first spot size. In a transition region from a first trench width to a second trench width, a second series of laser pulses sequentially change spot sizes while gradually changing from the first cutting speed to a second cutting speed. Then, a third series of laser pulses continue to cut the work surface at the second cutting speed using a second spot size. The method provides for increased depth control in the transition region. A system uses a selectively adjustable optical component in the laser beam path to rapidly change spot size by adjusting a position of a focal plane with respect to the work surface.
    • 系统和方法使用单次激光束切割材料中多个宽度的沟槽。 第一系列激光脉冲使用第一光斑尺寸以第一切割速度切割材料的工作表面。 在从第一沟槽宽度到第二沟槽宽度的过渡区域中,第二系列激光脉冲顺序地改变光斑尺寸,同时从第一切割速度逐渐变化到第二切割速度。 然后,第三系列激光脉冲使用第二光点尺寸继续以第二切割速度切割工作表面。 该方法提供了在过渡区域中增加的深度控制。 系统使用激光束路径中的选择性可调节的光学部件来通过调整焦平面相对于工作表面的位置来快速地改变光斑尺寸。
    • 4. 发明授权
    • Adjusting image quality using multi-wavelength light
    • 使用多波长光调整图像质量
    • US07589869B2
    • 2009-09-15
    • US11414678
    • 2006-04-28
    • Brian JohansenMehmet E. Alpay
    • Brian JohansenMehmet E. Alpay
    • H04N1/04
    • G01N21/8851G01N21/9501G06K9/2018G06K9/2027G06K2209/19G06T5/50
    • A method and apparatus to improve image quality in images captured via monochromatic cameras using multi-wavelength lighting. A contrast optimization algorithm determines which particular wavelength among those available is most suitable to maximize contrast. The quality of the image can be further improved through active noise cancellation by determining the lighting schemes that provide maximum and minimum contrast between a target and a background. The elimination of image texture data (i.e., noise) is then accomplished through pixel-by-pixel division of the maximum by the minimum contrast image. Alternatively, images obtained using at least two wavelengths can be algebraically combined for noise reduction. The resulting composite image can be fed into any known target identification algorithm.
    • 一种改善通过使用多波长照明的单色相机拍摄的图像中的图像质量的方法和装置。 对比度优化算法确定可用的那些特定波长最适合于最大化对比度。 通过确定在目标和背景之间提供最大和最小对比度的照明方案,可以通过主动噪声消除来进一步改善图像的质量。 然后通过最小对比度图像的逐像素划分来完成消除图像纹理数据(即,噪声)。 或者,使用至少两个波长获得的图像可以被代数组合用于降噪。 所得到的合成图像可以被馈送到任何已知的目标识别算法中。
    • 5. 发明授权
    • Reducing back-reflections in laser processing systems
    • 减少激光加工系统中的反射反射
    • US08217302B2
    • 2012-07-10
    • US12209959
    • 2008-09-12
    • Mehmet E. AlpayBrian Johansen
    • Mehmet E. AlpayBrian Johansen
    • B23K26/00B23K26/14
    • B23K26/046
    • Systems and methods reduce or prevent back-reflections in a laser processing system. A laser processing system includes a laser source to generate an incident laser beam, a laser beam output to direct the incident laser beam toward a work surface, and a lens to receive the incident laser beam along a first axis of propagation that is substantially perpendicular to the work surface. The lens includes a primary axis that is substantially parallel to, and offset from, the first axis of propagation. The lens is configured to focus the incident laser beam onto the work surface along a second axis of propagation that forms a non-perpendicular angle with the work surface such that at least a substantial portion of a reflected laser beam from the work surface does not return to the laser beam output.
    • 系统和方法减少或防止激光加工系统中的反射。 一种激光处理系统,包括产生入射激光束的激光源,将入射激光束引向工作表面的激光束输出,以及沿第一传播轴接收入射激光束的透镜,该第一传播轴基本垂直于 工作面。 透镜包括基本上平行于第一传播轴线偏移的主轴线。 透镜被配置成沿着与工作表面形成非垂直角的第二传播轴将入射激光束聚焦到工作表面上,使得来自工作表面的反射激光束的至少大部分不会返回 到激光束输出。
    • 6. 发明申请
    • REDUCING BACK-REFLECTIONS IN LASER PROCESSING SYSTEMS
    • 减少激光加工系统的反射
    • US20090308852A1
    • 2009-12-17
    • US12209959
    • 2008-09-12
    • Mehmet E. AlpayBrian Johansen
    • Mehmet E. AlpayBrian Johansen
    • B23K26/00
    • B23K26/046
    • Systems and methods reduce or prevent back-reflections in a laser processing system. A laser processing system includes a laser source to generate an incident laser beam, a laser beam output to direct the incident laser beam toward a work surface, and a lens to receive the incident laser beam along a first axis of propagation that is substantially perpendicular to the work surface. The lens includes a primary axis that is substantially parallel to, and offset from, the first axis of propagation. The lens is configured to focus the incident laser beam onto the work surface along a second axis of propagation that forms a non-perpendicular angle with the work surface such that at least a substantial portion of a reflected laser beam from the work surface does not return to the laser beam output.
    • 系统和方法减少或防止激光加工系统中的反射。 一种激光处理系统,包括产生入射激光束的激光源,将入射激光束引向工作表面的激光束输出,以及沿第一传播轴接收入射激光束的透镜,该第一传播轴基本垂直于 工作面。 该透镜包括基本上平行于第一传播轴线偏移的主轴线。 透镜被配置成沿着与工作表面形成非垂直角的第二传播轴将入射激光束聚焦到工作表面上,使得来自工作表面的反射激光束的至少大部分不会返回 到激光束输出。