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
    • 7. 发明授权
    • Method and apparatus for automatic calibration of robots
    • 机器人自动校准的方法和装置
    • US06856863B1
    • 2005-02-15
    • US09626362
    • 2000-07-27
    • Satish Sundar
    • Satish Sundar
    • B25J9/10B25J9/00B25J9/16B25J9/22B65G49/07G05B19/401G05B19/404H01L21/00H01L21/677G05B19/18
    • H01L21/67259B25J9/1692G05B19/4015G05B2219/39024G05B2219/45031
    • An automatic calibration method and apparatus for robots, particularly robots used in substrate processing systems. The method for calibrating a robot in a processing chamber comprises: determining a useable free-space for the robot in a processing system; determining a distance between a position of a robot end effector and a target position in the useable free-space; and generating a path within the useable space from the position of the robot end effector to the target position using incremental displacements of the robot end effector that minimize the distance between the robot end effector and the target position. The apparatus for calibrating a robot in a processing system comprises: a sensor disposed at a location to be taught; a receiver disposed on a robot end effector; and a microprocessor connected to receive signals from the sensor and the receiver to determine a distance between the sensor and the receiver, wherein the microprocessor generates a path using incremental movements that minimizes the distance between the sensor and the receiver.
    • 用于机器人的自动校准方法和装置,特别是用于衬底处理系统中的机器人。 用于在处理室中校准机器人的方法包括:在处理系统中确定机器人的可用空闲空间; 确定机器人末端执行器的位置与可用空间中的目标位置之间的距离; 以及使用最小化机器人端部执行器与目标位置之间的距离的机器人端部执行器的增量位移,在从机器人端部执行器的位置到目标位置的可用空间内生成路径。 用于在处理系统中校准机器人的装置包括:设置在要教导的位置的传感器; 设置在机器人端部执行器上的接收器; 以及微处理器,其连接以从传感器和接收器接收信号以确定传感器和接收器之间的距离,其中微处理器使用使传感器和接收器之间的距离最小化的增量移动来产生路径。
    • 9. 发明授权
    • On the fly center-finding during substrate handling in a processing system
    • 在处理系统中的基板处理期间的飞行中心查找
    • US06198976B1
    • 2001-03-06
    • US09034808
    • 1998-03-04
    • Satish SundarPeter F. Ebbing
    • Satish SundarPeter F. Ebbing
    • G05B1918
    • H01L21/681G05B2219/36405G05B2219/37283G05B2219/37608G05B2219/45031G05B2219/49299G05B2219/50151
    • A substrate center-finding method and apparatus, for determining the center of a substrate being passed through a substrate handling chamber of a substrate processing system, includes any number of sensors arranged in any configuration and permits the substrate to pass through any trajectory that triggers the sensors. The locations of the sensors are calibrated by homing in on the sensors using a point, the reference point, near the tip of an arm assembly on a substrate handler. The substrate handler has an encoder for sensing the pivot angles of links in the arm assembly, whereby the coordinates of the reference point can be calculated from the angles and lengths of the links. When the substrate triggers a sensor, the location of the reference point is again calculated, and the coordinates of the trigger point on the edge of the substrate is determined relative to the reference point. A suitable number of trigger points on the edge of a circular substrate will define a circle, so the center of the circle can be calculated, and the location of the substrate can be adjusted to account for any offset from the reference point.
    • 用于确定通过衬底处理系统的衬底处理室的衬底的中心的衬底中心测定方法和装置包括以任何构造布置的任何数量的传感器,并允许衬底通过任何触发器件的轨迹 传感器。 传感器的位置通过使用在基板处理器上的臂组件的尖端附近的点(参考点)归位在传感器上来校准。 衬底处理器具有用于感测臂组件中的链节的枢转角度的编码器,由此可以根据链节的角度和长度来计算参考点的坐标。 当基板触发传感器时,再次计算参考点的位置,并且相对于参考点确定基板边缘上的触发点的坐标。 在圆形基板的边缘上的合适数量的触发点将限定圆形,因此可以计算圆的中心,并且可以调整基板的位置以考虑到与参考点的任何偏移。