Patent application number | Description | Published |
20100174405 | Automated Material Handling System for Semiconductor Manufacturing Based on a Combination of Vertical Carousels and Overhead Hoists - A highly efficient Automated Material Handling System (AMHS) that allows an overhead hoist transport vehicle to load and unload Work-In-Process (WIP) parts directly to/from one or more WIP storage units included in the system. The AMHS includes an overhead hoist transport subsystem and at least one vertical carousel stocker having a plurality of storage bins. The overhead hoist transport subsystem includes an overhead hoist transport vehicle traveling along a suspended track defining a predetermined route, which runs adjacent to the carousel stocker, thereby allowing the overhead hoist transport vehicle to access a WIP part directly from one of the storage bins. At least one of the storage bins includes a movable shelf operative to move laterally from a first position along the carousel path to a second position near the overhead hoist transport vehicle. The storage unit is at least partially open to allow the movable shelf to move to the second position, thereby allowing the overhead hoist to access a material unit directly from the movable shelf for subsequent transport along the track between various locations within a product manufacturing facility. | 07-08-2010 |
20110016891 | Cryopump Network - A vacuum network control system includes a plurality of nodes configured for control over operational processes of the system. The plural nodes are configured, in a network ring or other topology, as a selectable master node for controlling the operational processes. Control can be distributed among, and passed between, each of the nodes. Each node on the network monitors adjacent network connectors to detect a fault in the network. In response to a detected fault, a disconnect is mapped to the fault, and the network topology is reconfigured for continued communication among the nodes and with external devices. | 01-27-2011 |
20110162391 | Method and Apparatus for Providing Temperature Control to a Cryopump - Cryopump components are improved using thin layer heating elements for temperature control or to serve as heaters. These heating elements may be located and prevent pooling during regeneration. The temperature control may also be achieved through the use of ceramic heating elements. The ceramic heating elements may also include a second function of structural support within the cryopump. Temperature control may further be achieved via the radiation shield, where the radiation shield includes a clad sheeting or coating. | 07-07-2011 |
20110241845 | Automated Material Handling System with Identification Features - Amongst other things, a material handling system comprises a controller; a transport system, the transport system comprising transport track sections and at least one transport vehicle, the at least one transport vehicle configured to move along the transport track sections and configured to transport a carrier; and at least one identification tag reader located along a particular transport track section, the at least one identification tag reader being configured to read an identification tag of the carrier being transported by the at least one transport vehicle and being further configured to send a information signal to the controller; wherein the controller is configured to verify at least a location of the carrier based on the information signal. | 10-06-2011 |
20110245964 | Self Aligning Automated Material Handling System - A semiconductor workpiece processing system comprises at least one processing tool; a transport section configured to transport carriers to and from the processing tool; and a transport vehicle movably mounted on the transport section; wherein the transport vehicle is configured to: sense a location of a transport carrier alignment feature; adjust a location of a transport vehicle gripper based on the location of the transport carrier alignment feature; sense an attitude of the gripper at a point of engagement with the transport carrier; and adjust the location of the gripper based on the attitude of the gripper. | 10-06-2011 |
20120288348 | Automated Material Handling System for Semiconductor Manufacturing Based on a Combination of Vertical Carousels and Overhead Hoists - An overhead hoist transport vehicle comprising: an overhead hoist; a translating stage; and a gripper coupled to the translating stage, the gripper being configured to grip a material unit; wherein the overhead hoist is configured to transport the material unit to one of a load port and a storage location by performing operations comprising: the overhead hoist being configured to vertically move the gripper to the load port and the storage location; and the translating stage being configured to horizontally move the overhead hoist to the load port and the storage location; and wherein the load port is beneath an overhead rail; and wherein at least a portion of the storage location is disposed lateral to the overhead rail. | 11-15-2012 |
20140119857 | Automated Material Handling System for Semiconductor Manufacturing Based on a Combination of Vertical Carousels and Overhead Hoists - A highly efficient Automated Material Handling System (AMHS) that allows an overhead hoist transport vehicle to load and unload Work-In-Process (WIP) parts directly to/from one or more WIP storage units included in the system. The AMHS includes an overhead hoist transport subsystem and at least one vertical carousel stocker having a plurality of storage bins. The overhead hoist transport subsystem includes an overhead hoist transport vehicle traveling along a suspended track defining a predetermined route, which runs adjacent to the carousel stocker, thereby allowing the overhead hoist transport vehicle to access a WIP part directly from one of the storage bins. At least one of the storage bins includes a movable shelf operative to move laterally from a first position along the carousel path to a second position near the overhead hoist transport vehicle. | 05-01-2014 |
20140130527 | Helium Management Control System - A refrigerant management system controls the supply of refrigerant from two or more variable speed and fixed speed compressors to a plurality of cryogenic refrigerators. The system employs a plurality of sensors to monitor and regulate the overall refrigerant supply to deliver an appropriate refrigerant supply to each of the cryogenic refrigerators. The amount of refrigerant to supply is based on an aggregate demand for refrigerant from the plurality of cryogenic refrigerators and a refrigerant correction metric. An appropriate supply of refrigerant is distributed to each cryogenic refrigerator by adjusting the speed of the variable speed compressors or, alternatively, selectively turning the compressors on or off. The speed of the variable speed compressors is adjusted by determining an amount of refrigerant to supply to the plurality of cryogenic refrigerators. If the aggregate demand for refrigerant exceeds the capacity of the compressors, then the speed of a refrigerator within the plurality of refrigerators is adjusted. | 05-15-2014 |