Patent application number | Description | Published |
20080240892 | STORAGE BUFFER DEVICE FOR AUTOMATED MATERIAL HANDLING SYSTEMS - A storage buffer system for an automated material handling system (AMHS) includes a retractable buffer device disposed in proximity to a processing tool, the retractable buffer device having an extended position disposed directly below an overhead transport (OHT) vehicle path. The retractable buffer device further includes a retracted position that is removed from a process aisle space. In the extended position, the retractable buffer device is configured to facilitate loading and unloading of product therein without the use of lateral motion capability of an OHT vehicle. | 10-02-2008 |
20080260504 | OHT ACCESSIBLE HIGH DENSITY STOCKER AND METHOD - A storage system for items such as substrate carriers includes at least one stocker including a plurality of storage areas each adapted to store at least one storage device. At least one movable support is arranged on the at least one stocker. A control controls movement of the at least one movable support at least between a first position wherein the at least one movable support receives the at least one storage device outside one of the storage areas and a second position wherein the at least one movable support is arranged substantially within the one of the storage areas. | 10-23-2008 |
20090005896 | MANUFACTURING WORK IN PROCESS MANAGEMENT SYSTEM - A method for addressing high Work In Process (WIP) conditions for increasing throughput while minimizing risk in a manufacturing line. Selected products to be skipped over during high WIP conditions include determining toolsets having work in process exceeding a certain threshold. For each of the toolsets, products which meet a criteria for skipping are selected. The selected products skip over to the toolset used in a subsequent process step ahead of product failing to meet the criteria for skipping. Solutions to this problem also include the WIP of the current process step, nominal WIP and WIP of subsequent process steps. Candidate lots for skipping process steps are identified by referencing a matrix of parameters that includes yield and criticality. | 01-01-2009 |
20090299511 | METHOD OF RELEASING UNITS IN A PRODUCTION FACILITY - A method of releasing units in a production facility includes forming a release plan for a production facility that establishes a number of units to be operated on by a production process, and creating a least one recipe bucket having an associated number of units. The method further requires evaluating production process throughput parameters, and comparing the number of units associated with the at least one recipe bucket with the number of units to be operated on by the production process and production process throughput parameters. If the number of units in the recipe bucket matches the number of units to be operated on by the production process and production process throughput parameters, recipe bucket is released to the production process, else the at least one recipe bucket is delayed from being released to the production process. | 12-03-2009 |
20090326704 | PROCESSING LOTS THROUGH A CLUSTER TOOL HAVING MULTIPLE PROCESSING CHAMBERS - Processing a lot through a cluster tool having multiple processing chambers includes dispatching a lot to a cluster tool having a plurality of processing chambers, determining which of the plurality of processing chambers are active processing chambers and inactive processing chambers, setting a recipe for processing the lot utilizing the active processing chambers of the cluster tool, and processing a portion of the lot through the active processing chambers. Processing the lot further requires detecting that at least one of the inactive processing chambers is a re-activated processing chamber, selectively setting a new recipe for processing a remaining portion of the lot utilizing the active processing chambers and the re-activated processing chamber, and processing the remaining portion of the lot through the cluster tool based on the new recipe. | 12-31-2009 |
Patent application number | Description | Published |
20090094711 | Methods of affecting plant growth with microRNA - Provided herein are compositions and methods for producing transgenic plants. In specific embodiments, transgenic plants comprise a construct comprising a polynucleotide encoding microRNA167 (miR167), or precursor thereof, operably linked to a plant pericycle-specific promote, wherein the miR167 is ectopically overexpressed in the transgenic plants, and wherein the promoter is optionally a constitutive or inducible promoter. In some embodiments, the transgenic plant has an improved agronomic or nutritional characteristic when cultivated in nitrogen-rich conditions as compared to a wild type plant cultivated in the same conditions. Also provided herein are commercial products (e.g., pulp, paper, paper products, or lumber) derived from the transgenic plants (e.g., transgenic trees) produced using the methods provided herein. | 04-09-2009 |
20140283217 | Methods of Affecting Plant Growth With MicroRNA - Provided herein are compositions and methods for producing transgenic plants. In specific embodiments, transgenic plants comprise a construct comprising a polynucleotide encoding microRNA167 (miR167), or precursor thereof, operably linked to a plant pericycle-specific promote, wherein the miR167 is ectopically overexpressed in the transgenic plants, and wherein the promoter is optionally a constitutive or inducible promoter. In some embodiments, the transgenic plant has an improved agronomic or nutritional characteristic when cultivated in nitrogen-rich conditions as compared to a wild type plant cultivated in the same conditions. Also provided herein are commercial products (e.g., pu) | 09-18-2014 |
Patent application number | Description | Published |
20100298679 | SEMICONDUCTOR BASED ANALYTE SENSORS AND METHODS - An analyte sensor is provided that comprises a substrate which includes a semiconductor material. Embodiments may include a core of a conductive material, and a cladding of a semiconductor material, in which the cladding may form at least a portion of a conducting path for a working electrode of the analyte sensor. Method of manufacturing and using the analyte sensor are described, as are numerous other aspects. | 11-25-2010 |
20110171071 | Analyte Sensors, Testing Apparatus and Manufacturing Methods - In some aspects, an analyte sensor is provided for detecting an analyte concentration level in a bio-fluid sample. The analyte sensor may include a first sensor member coupled to a base, wherein the first sensor member includes a semiconductor material, a second sensor member coupled to the base; and an active region in contact with at least the first sensor member. In some aspects, the first sensor member may be a fiber, and may have a conductive core and a semiconducting cladding surrounding the core. Manufacturing methods and apparatus utilizing the sensors are provided, as are numerous other aspects. | 07-14-2011 |
20110172559 | Lancet Analyte Sensors and Methods of Manufacturing - In some aspects, an analyte sensor is provided for obtaining and detecting an analyte concentration level in a bio-fluid sample. The analyte sensor has a sensor body including a semiconductor material, an active region coupled to the sensor body, and a lancet provided on the analyte sensor. The conductor may include a fiber having a core of a conductive material and a semiconductor cladding surrounding the core. Numerous other aspects are provided. | 07-14-2011 |