| Dynamic micro Systems, Semiconductor Equipment GmbH Patent applications |
| Patent application number | Title | Published |
|---|
| 20120045301 | Scalable stockers with automatic handling buffer - Scalable storage can be achieved with linear array storage of wafers, comprising two linear arrays of storage compartments on opposite walls, with a middle transfer mechanism. Together with a buffer station for automatic material handling system, a scalable bare wafer stocker can provide flexible and uninterrupted services to a fabrication facility. | 02-23-2012 |
| 20110236176 | Removable compartments for workpiece stocker - The present invention discloses apparatuses and method for configuring a compartmentable equipment to accommodate emergency responses. An exemplary equipment comprises a plurality of removable compartments for storing workpieces so that in emergency events, such as power failure or equipment failure, the workpieces can be removed from the equipment for continuing processing without disrupting the flow of the fabrication facility. The compartmentable equipment can comprise emergency access ports, including mating interface to a portable workpiece removal equipment to allow accessing the individual compartments without compromising the quality, defects and yield of the workpieces stored in the stocker. | 09-29-2011 |
| 20110198256 | Stackable substrate carriers - In an embodiment, the present invention discloses a stackable substrate carrier for scalably storing, transporting or processing multiple substrates. The present substrate carriers can be stacked side-by-side by an attaching mechanism, forming an integrated carrier with double, triple or multiple capacity. The attaching mechanism comprises a locking mechanism to secure the substrate carriers together, engaged by mating two substrate carriers, together with an additional rotating or translating action of the two substrate carriers. Alternatively, the locking mechanism can be engaged by pressing two substrate carriers against each other, using friction to keep the carriers together. Other locking mechanism can also be used, such as hooks or latches. | 08-18-2011 |
| 20110129321 | Workpiece stocker with circular configuration - An improved stocker configuration for storing workpieces in a fabrication facility is disclosed, employing workpiece compartments arranged stationarily around a robot handling assembly. The robot handler can be designed with three degrees of freedom, to improve speed, throughput and minimum particle generation. In addition, the stocker storage area is stationary with the movable components are the robot assembly, thus further contributing to the cleanliness of the storage stocker. The stocker configuration can be open storage area for fast access, space saving and ease of clean air purging. The stocker configuration can provide highly dense workpiece storage, utilizing a circumferential edge gripper robot handling assembly. | 06-02-2011 |
| 20100319733 | Integrated handling system for semiconductor articles - Methods and apparatuses for integrated cleaning of objects comprising a sequence of wet cleaning and vacuum drying in a same process chamber. The present integrated cleaning process can eliminate moving parts, improving the system reliability. Vacuum decontamination can be included for degassing and decontaminating the cleaned objects. In an embodiment, a cleaner system combines various movements into an integrated movement to be handled by a robot, for example, to improve the throughput. For example, an integrated robot movement comprising picking up a closed container from the input load port, moving both the lid and body together, and then depositing the body and lid separately into the appropriate positions in the cleaner to be cleaned. | 12-23-2010 |
| 20100319730 | Integrated cleaner and dryer system - Methods and apparatuses for integrated cleaning of objects comprising a sequence of wet cleaning and vacuum drying in a same process chamber. The present integrated cleaning process can eliminate moving parts, improving the system reliability. Vacuum decontamination can be included for degassing and decontaminating the cleaned objects. In an embodiment, a cleaner system combines various movements into an integrated movement to be handled by a robot, for example, to improve the throughput. For example, an integrated robot movement comprising picking up a closed container from the input load port, moving both the lid and body together, and then depositing the body and lid separately into the appropriate positions in the cleaner to be cleaned. | 12-23-2010 |
| 20090255362 | Clean transfer robot - A robot with improved cleanliness for use in a clean environment is disclosed, having a uniform flow through the open interface between the clean environment and the interior of the robot housing, passing the particle generation area to an exhaust port, keeping the particles from the clean environment. The uniform flow reduces or eliminates the back flow, and further allows the scalability of the open interface to prevent particles generated from moving mechanisms within the robot housing to contaminate the clean environment. The uniform flow can be established by designing the flow dynamic, centering the exhaust port, or by restricting the flow along the elongated slot, for example, by uniformly restricting the flow along the elongated slot, or by implementing a restrictor along the elongated slot. | 10-15-2009 |
| 20090196716 | Scalable stocker with automatic handling buffer - Scalable storage can be achieved with linear array storage of wafers, comprising two linear arrays of storage compartments on opposite walls, with a middle transfer mechanism. Together with a buffer station for automatic material handling system, a scalable bare wafer stocker can provide flexible and uninterrupted services to a fabrication facility. | 08-06-2009 |
| 20090196715 | Automatic handling buffer for bare stocker - A buffer station for automatic material handling system can provide throughput improvement. Further, by storing to-be-accessed workpieces in the buffer stations of an equipment, the operation of the facility is not interrupted when the equipment is down. The buffer station can be incorporated in a stocker, such as bare wafer stocker. | 08-06-2009 |
| 20090082895 | Integrated wafer transfer mechanism - An integrated high speed robotic mechanism is disclosed for improving transport equipment, integrating an object movement with other functionalities such as alignment or identification. The disclosed integrated robot assembly typically comprises an end effector for moving the object in and out of a chamber, a rotation chuck incorporated on the robot body to provide centering and theta alignment capability, and an optional identification subsystem for identifying the object during transport. The present invention also discloses a transfer robot system, employing a plurality of integrated robot assemblies; a transfer system where a transfer robot system can service a plurality of connected chambers such as FOUP or FOSB; a front end module (FEM); or a sorter system. Through the use of these incorporated capabilities into the moving robot, single object transfer operations can exceed 500 parts per hour. | 03-26-2009 |
| 20090081007 | Transfer mechanism with multiple wafer handling capability - An integrated robotic mechanism is disclosed for improving transport equipment, integrating an object movement with other functionalities such as alignment or identification. The disclosed integrated robot assembly can comprise a multiple end effector for moving a plurality of workpieces, a single end effector for moving a single workpiece, a rotation chuck incorporated on the robot body to provide alignment capability, and an optional identification subsystem for identify the object during transport. The present invention robot assembly can be used in a sorter or stocker equipment, in processing equipment, and a transfer system. | 03-26-2009 |
| 20090080761 | Simultaneous wafer ID reading - The present invention discloses apparatuses and methods for simultaneous viewing and reading top and bottom images from a workpiece. The present ID reader can comprise an enclosure covering a top and bottom section of the workpiece with optical elements to guide the light from the workpiece images to a camera. The optical element can be disposed to receive images from a high angle with respect to the surface of the workpiece. The present ID reader can further comprise a light source assembly to illuminate the image. The light source assembly can utilize a coaxial light path with the images, preferably for bright field illumination. The light source assembly can also utilize a non-coaxial light path, preferably for dark field illumination. In an embodiment, the simultaneous images reaching the camera are separate into two distinct images on two different sections of the camera. In another embodiment, the simultaneous images reaching the camera are superimposed into one image on the camera. | 03-26-2009 |
