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    • 1. 发明授权
    • Method, system, and computer program product for improved trajectory planning and execution
    • 方法,系统和计算机程序产品,用于改进轨迹规划和执行
    • US06845287B2
    • 2005-01-18
    • US10299855
    • 2002-11-20
    • Daniel GalburtTodd Bednarek
    • Daniel GalburtTodd Bednarek
    • H01L21/027G03F7/20G06F19/00
    • G03F7/70725
    • A method, system, and computer program product for non-real-time trajectory planning and real-time trajectory execution. A trajectory planning process receives data generated by high-level control software. This data defines positions and scan velocities, where multiple axis motion must be precisely synchronized. The trajectory planning process creates sequences of constant acceleration intervals that allow critical motions to be executed at maximum throughput. The output of a trajectory planning process is known as a profile. A profile executor, using the profile output by the trajectory planner process, generates continuous, synchronized, filtered, multi-axis position and acceleration commands (i.e., execution data) that drive control servos. Time intervals generated by the trajectory planner are quantized to be integer multiples of a real time clock period. The trajectory planner outputs have infinite jerk, but are smoothed by filters in the profile executor to both limit jerk and minimize servo-tracking errors. The trajectory planner allows time for the profile executor filters, but does not restrict fine tuning of the shape of these filters, provided that the width of the tuned filter does not exceed the allowed time.
    • 一种用于非实时轨迹规划和实时轨迹执行的方法,系统和计算机程序产品。 轨迹规划过程接收由高级控制软件产生的数据。 该数据定义了位置和扫描速度,其中多轴运动必须精确同步。 轨迹规划过程创建恒定加速度间隔序列,允许以最大吞吐量执行关键运动。 轨迹规划过程的输出被称为轮廓。 使用轨迹计划程序输出的轮廓执行器生成连续,同步,过滤的多轴位置和加速命令(即,执行数据),驱动控制伺服。 由轨迹计划器产生的时间间隔被量化为实时时钟周期的整数倍。 轨迹计划器输出具有无限跳动,但通过轮廓执行器中的过滤器进行平滑,既可以限制加加速度,也可减少伺服跟踪误差。 轨迹计划器允许轮廓执行器过滤器的时间,但不限制这些过滤器的形状的微调,只要调谐过滤器的宽度不超过允许的时间。
    • 2. 发明授权
    • Method and system for improved trajectory planning and execution
    • 改进轨迹规划和执行的方法和系统
    • US07389155B2
    • 2008-06-17
    • US11002429
    • 2004-12-03
    • Daniel GalburtTodd Bednarek
    • Daniel GalburtTodd Bednarek
    • G06F19/00
    • G03F7/70725
    • A trajectory planning process receives data generated by high-level control software. This data defines positions and scan velocities. The trajectory planning process creates sequences of constant acceleration intervals that allow critical motions to be executed at maximum throughput. The trajectory planning process outputs a profile. A profile executor, using the profile output by the trajectory planner process, generates continuous synchronized, filtered, multi-axis position and acceleration commands that drive control servos. Time intervals generated by the trajectory planner are quantized to be integer multiples of a real time clock period. The trajectory planner outputs have infinite jerk, but are smoothed by filters in the profile executor to both limit jerk and minimize servo-tracking errors. The trajectory planner allows time for the profile executor filters, but does not restrict fine tuning of the shape of these filters, provided that the width of the tuned filter does not exceed the allowed time.
    • 轨迹规划过程接收由高级控制软件产生的数据。 该数据定义位置和扫描速度。 轨迹规划过程创建恒定加速度间隔序列,允许以最大吞吐量执行关键运动。 轨迹规划过程输出轮廓。 轮廓执行器使用轨迹计划程序输出的轮廓生成连续的同步,过滤的多轴位置和加速度命令来驱动控制伺服。 由轨迹计划器产生的时间间隔被量化为实时时钟周期的整数倍。 轨迹计划器输出具有无限跳动,但通过轮廓执行器中的过滤器进行平滑,既可以限制加加速度,也可减少伺服跟踪误差。 轨迹计划器允许轮廓执行器过滤器的时间,但不限制这些过滤器的形状的微调,只要调谐过滤器的宽度不超过允许的时间。
    • 3. 发明申请
    • Method and system for improved trajectory planning and execution
    • 改进轨迹规划和执行的方法和系统
    • US20050077484A1
    • 2005-04-14
    • US11002429
    • 2004-12-03
    • Daniel GalburtTodd Bednarek
    • Daniel GalburtTodd Bednarek
    • H01L21/027G03F7/20G01N23/00
    • G03F7/70725
    • A trajectory planning process receives data generated by high-level control software. This data defines positions and scan velocities. The trajectory planning process creates sequences of constant acceleration intervals that allow critical motions to be executed at maximum throughput. The trajectory planning process outputs a profile. A profile executor, using the profile output by the trajectory planner process, generates continuous synchronized, filtered, multi-axis position and acceleration commands that drive control servos. Time intervals generated by the trajectory planner are quantized to be integer multiples of a real time clock period. The trajectory planner outputs have infinite jerk, but are smoothed by filters in the profile executor to both limit jerk and minimize servo-tracking errors. The trajectory planner allows time for the profile executor filters, but does not restrict fine tuning of the shape of these filters, provided that the width of the tuned filter does not exceed the allowed time.
    • 轨迹规划过程接收由高级控制软件产生的数据。 该数据定义位置和扫描速度。 轨迹规划过程创建恒定加速度间隔序列,允许以最大吞吐量执行关键运动。 轨迹规划过程输出轮廓。 轮廓执行器使用轨迹计划程序输出的轮廓生成连续的同步,过滤的多轴位置和加速度命令来驱动控制伺服。 由轨迹计划器产生的时间间隔被量化为实时时钟周期的整数倍。 轨迹计划器输出具有无限跳动,但通过轮廓执行器中的过滤器进行平滑,既可以限制加加速度,也可减少伺服跟踪误差。 轨迹计划器允许轮廓执行器过滤器的时间,但不限制这些过滤器的形状的微调,只要调谐过滤器的宽度不超过允许的时间。
    • 5. 发明授权
    • Electro-magnetic apparatus
    • 电磁装置
    • US4506204A
    • 1985-03-19
    • US502993
    • 1983-06-10
    • Daniel Galburt
    • Daniel Galburt
    • H01L21/30G03F7/20G03F9/00G05D3/00H01F7/06H01L21/027H01L21/68H02K41/035G05B1/06
    • G03F7/70758H01F7/066H02K41/0356H02K2201/18
    • This invention is directed to electro-magnetic alignment apparatus, which is particularly adapted, among many other possible uses, for use in aligning the wafers in a microlithography system, said apparatus including in combination at least three magnet assemblies which are mounted in space relationship one with respect to the others, at least three coil assemblies mounted to pass through the high flux region of the magnet assemblies respectively, the width of the coil assemblies being substantially less than the width of the high flux regions respectively, a controller for controlling the flow of current through the coil assemblies respectively, a structural assembly for connecting the coil assemblies which is movable with respect to the magnet assemblies, the coil assemblies being wound with respect to each other so that by controlling the supply of current to the coils the structure assembly can be moved selectively in three degrees of freedom.
    • 本发明涉及电磁对准装置,其特别适用于许多其他可能的用途,用于在微光刻系统中对准晶片,所述装置包括至少三个以空间关系安装的磁体组件 至少三个线圈组件安装成分别穿过磁体组件的高通量区域,线圈组件的宽度分别基本上小于高通量区域的宽度,用于控制流量的控制器 电流通过线圈组件,用于连接可相对于磁体组件移动的线圈组件的结构组件,线圈组件相对于彼此缠绕,从而通过控制向线圈的电流供应,结构组件 可以选择性地以三个自由度移动。
    • 8. 发明申请
    • System and method for patterning a flexible substrate in a lithography tool
    • 在光刻工具中图案化柔性基板的系统和方法
    • US20050211919A1
    • 2005-09-29
    • US11068165
    • 2005-03-01
    • Daniel GalburtStanley Janik
    • Daniel GalburtStanley Janik
    • G03F7/20A61N5/00H01L21/027H05K1/00H05K3/00
    • G03F7/707G03F7/70791H05K1/0393H05K3/0082
    • A system and method are used to feed a flexible substrate through a patterned beam to be exposed at target portions by the pattered beam. In one example, the flexible substrate is passed over a chuck (e.g., a vacuum chuck). In one example, the chuck can bias the flexible substrate against a chuck surface during alignment, focus, and exposure operations. By biasing the flexible substrate, the flexible substrate can continuously move while being held against the chuck. In one example, the flexible substrate is fed onto the vacuum chuck from a supply roller and fed off the chuck and wrapped on to a take-up roller. The supply and take-up rollers are rotated to follow the scanning motion, which minimizes or substantially eliminates tension on the flexible chuck during the exposure period.
    • 一种系统和方法用于通过图案化的束馈送柔性基板,以通过图案化的光束在目标部分处暴露。 在一个示例中,柔性基板通过卡盘(例如,真空卡盘)。 在一个示例中,卡盘可以在对准,聚焦和曝光操作期间将柔性基板偏置在卡盘表面上。 通过偏置柔性基板,柔性基板能够在被卡住的同时保持连续移动。 在一个示例中,将柔性基板从供应辊馈送到真空卡盘上并从卡盘送出并包裹到卷取辊上。 供应和卷取辊旋转以跟随扫描运动,这在曝光期间最小化或基本上消除了柔性卡盘上的张力。
    • 9. 发明申请
    • Lithographic apparatus and device manufacturing method utilizing a metrology system
    • 利用测量系统的平版印刷设备和设备制造方法
    • US20070035714A1
    • 2007-02-15
    • US11201162
    • 2005-08-11
    • Daniel Galburt
    • Daniel Galburt
    • G03B27/62
    • G03F9/7003G03F9/7034G03F9/7088
    • A system and method include an object supported on a moveable support, an optical system that transmits radiation onto the object, a support having an aperture therethrough, a sensor system coupled to the support, and a control system coupled to the sensor system and the moveable support. The sensor system is arranged with respect to the aperture to measure a surface of the object and send measurement signals to the control system, such that the control system generates control signals received and used by the moveable support to ensure that the surface of the object receiving light transmitted by the optical system through the aperture is in a focus plane of the optical system.
    • 系统和方法包括支撑在可移动支撑件上的物体,将辐射透射到物体上的光学系统,具有穿过其中的孔的支撑件,耦合到支撑件的传感器系统以及耦合到传感器系统的控制系统和可移动的 支持。 传感器系统相对于孔布置以测量物体的表面并将测量信号发送到控制系统,使得控制系统产生由可移动支撑件接收和使用的控制信号,以确保物体的表面接收 由光学系统通过孔传播的光在光学系统的聚焦平面内。