Abstract: The specification discloses a high-profile, low-volume trash/recycling cart that is compatible with existing pick-up equipment and includes a reduced volume. The cart includes a container and a pedestal supporting the container. The pedestal increases the overall height of the cart to be conveniently handled by existing automated handling equipment. The container can be separated from the pedestal and used as a standalone refuse container. Additionally, wheels may be included on the container to provide a rolling standalone container. Alternatively or additionally, when the pedestal is separated from the container, the pedestal can be fitted with a handle to provide a utility cart.

Abstract: Improvements are disclosed for a load-clamping system with variable clamping force control by which a wide variety of dissimilar loads of different types, geometric configurations and/or other parameters can be accurately clamped at respective variable optimal clamping force settings. An operator terminal cooperates with a controller to translate one or more possible load parameters into a form easily discernible visually by a clamp operator and preferably easily comparable by the clamp operator, from his visual observation, to each particular load which he is about to engage, so that the clamp operator can interactively guide the controller in its selection of an optimal clamping force setting for each particular load.

Abstract: Improvements are disclosed for a load-clamping system with variable clamping force control by which a wide variety of dissimilar loads of different types, geometric configurations and/or other parameters can be accurately clamped at respective variable optimal clamping force settings. An operator terminal cooperates with a controller to translate one or more possible load parameters into a form easily discernible visually by a clamp operator and preferably easily comparable by the clamp operator, from his visual observation, to each particular load which he is about to engage, so that the clamp operator can interactively guide the controller in its selection of an optimal clamping force setting for each particular load.

Abstract: Systems and methods for providing wafer access in a wafer processing system are disclosed herein. The methods may include docking a first wafer cassette on the wafer processing system and removing a selected wafer from the first wafer cassette with the wafer processing system. The methods further may include performing a process operation on the selected wafer with the wafer processing system and undocking the first wafer cassette from the wafer processing system while performing the process operation. The methods also may include docking a second wafer cassette (which may be the same as or different from the first wafer cassette) on the wafer processing system, inventorying the second wafer cassette with the wafer processing system, and/or subsequently placing the selected wafer in the second wafer cassette. The systems may include wafer processing systems that include a controller that is programmed to perform at least a portion of the methods.

Abstract: Systems and methods for rotational alignment of a device under test are disclosed herein. These systems include a chuck that includes a rotational positioning assembly that includes a lower section and an upper section that is configured to selectively rotate relative to the lower section about a rotational axis. The rotational positioning assembly further includes a first bearing that is configured to support a radial load between the upper section and the lower section and a second bearing that is configured to support a thrust load between the upper section and the lower section. The methods include providing a fluid stream to the second bearing to permit rotation of the upper section relative to the lower section, rotating the upper section relative to the lower section, and ceasing the providing the fluid stream to the second bearing to restrict rotation of the upper section relative to the lower section.

Abstract: Disclosed systems and methods for testing a device under test (DUT) with a probe system are selected to test a DUT at a temperature below the dew point of the ambient environment surrounding the probe system. Probe systems include a measurement chamber configured to isolate a cool, dry testing environment and a measurement chamber door configured to selectively isolate the internal volume of the measurement chamber. When a DUT, that is or is included on a substrate, is tested at a low temperature, systems and methods are selected to heat the substrate in a dry environment, at least partially isolated from the measurement chamber, to at least a temperature above the dew point and/or the frost point of the ambient environment.

Abstract: The present invention relates to a powered stapling device and, more specifically, but not limited to, a powered stapling device for driving staples over a strip of linear material, such as a cable located in an otherwise inaccessible or difficult to reach place. The stapling device includes an actuation mechanism, a handle, a staple ejection mechanism, and a drive arm operable along a primary axis of the stapling device. The actuation mechanism provides energy to the drive arm, which in turn engages the staple ejection mechanism, which in turn drives the staple. At least a portion of the staple engagement mechanism may be positioned at an angle with respect to the primary axis. This configuration of the staple engagement mechanism allows the stapling device to drive the staple at an angle relative to the linear object being stapled, even when the primary axis of stapling device is aligned substantially parallel or substantially perpendicular to the linear object being stapled.

Abstract: A roller load support, for mounting on a load carrying vehicle such as a lift truck, has an elongate frame with a forwardly tapering vertical thickness and an upper surface for insertion beneath the underside of a load. Different longitudinally spaced pluralities of transverse upper rollers are movable upwardly to protrude through the frame's upper surface to engage the underside of the load during the insertion process. During the insertion process, the upper rollers are pushed upward by corresponding different pluralities of transverse lower rollers which rotatably engage the floor or other surface beneath the frame and frictionally counter-rotate the upper rollers. The lower rollers are spaced nonuniformly relative to each other along the length of the frame, with such spacings increasing progressively in size, within each plurality of lower rollers, in a forward direction toward the front end of the frame.

Abstract: Improvements are disclosed for a load-clamping system with variable clamping force control by which a wide variety of different load types in a wide variety of different load geometric configurations can be accurately clamped at respective variable optimal clamping force settings dependent on each load's respective load type and geometric configuration in combination. An operator display and input terminal cooperates with a controller to translate assortments of possible load variables into a form easily discernible visually by a clamp operator and preferably easily comparable by the operator, from his visual observation, to each particular load which he is about to engage, so that the operator can interactively guide the controller in its selection of an optimal clamping force setting for each particular load.

Abstract: Biosensitive response evaluation improves both design and marketing research by combining eye tracking information with time-coded biosensor information to determine the relative brain state of various market research respondents at the precise moment they are exposed to a stimulus. Areas of interest (AOI) are demarcated on detected objects. Relative physiological effects associated with each demarcated AOI are identified as part of biosensor response data and may be directly statistically correlated with a subsequent action.

Abstract: A roller load support, for mounting on a load carrying vehicle such as a lift truck, has an elongate frame with a forwardly tapering vertical thickness and an upper surface for insertion beneath the underside of a load. Different longitudinally spaced pluralities of transverse upper rollers are movable upwardly to protrude through the frame's upper surface to engage the underside of the load during the insertion process. During the insertion process, the upper rollers are pushed upward by corresponding different pluralities of transverse lower rollers which rotatably engage the floor or other surface beneath the frame and frictionally counter-rotate the upper rollers. The lower rollers are spaced nonuniformly relative to each other along the length of the frame, with such spacings increasing progressively in size, within each plurality of lower rollers, in a forward direction toward the front end of the frame.

Abstract: The invention relates to a prober for checking and testing electronic semiconductor components and methods of using the same. The prober comprises at least two checking units, each of which is equipped with a chuck, probes, and a positioning unit, and each of which is assigned to a machine control system and a process control system. The prober further comprises a loading unit for automatically loading both testing units and an additional loader for manually loading at least one of the testing units, a user interface, and a module control system for controlling the process control systems and/or the machine control systems and the loading unit. The user interface can optionally be connected to at least one of the process control systems or the module control system by means of a switching device of the prober.

Abstract: This document provides methods and materials for detecting target nucleic acid. For example, methods and materials for detecting the presence or absence of target nucleic acid, methods and materials for detecting the amount of target nucleic acid present within a sample, kits for detecting the presence or absence of target nucleic acid, kits for detecting the amount of target nucleic acid present within a sample, and methods for making such kits are provided.

Abstract: Systems and methods for testing a device under test (DUT) that includes a low power output driver. The methods include providing an input signal to the DUT. The low power output driver is configured to generate a data signal responsive to receipt of the input signal by the DUT and provide the data signal to a signal analyzer via a data signal transmission line. The methods further include determining an expected data signal to be received from the low power output driver and charging at least a portion of the data signal transmission line with a co-drive output signal that is based, at least in part, on the expected data signal. The methods further include receiving a composite data signal with the signal analyzer. The systems include probe heads with a plurality of data signal transmission lines and a plurality of co-drive conductors.

Abstract: A lift truck clamp arm assembly for engaging large cartons, which may contain large household appliances. Pivoting clamp pad support assemblies are adjustable to vary a radial spacing between a pivot pin and a clamp pad supported on the clamp arm assembly by attachment to the adjustable clamp pad support assembly, to provide desired pressure concentrations at selected parts of a carton to be gripped.

Abstract: Improvements are disclosed for a load-clamping system with variable clamping force control by which a wide variety of dissimilar loads of different types, geometric configurations and/or other parameters can be accurately clamped at respective variable optimal clamping force settings. An operator terminal cooperates with a controller to translate one or more possible load parameters into a form easily discernible visually by a clamp operator and preferably easily comparable by the clamp operator, from his visual observation, to each particular load which he is about to engage, so that the clamp operator can interactively guide the controller in its selection of an optimal clamping force setting for each particular load.

Abstract: Improvements are disclosed for a load-clamping system with variable clamping force control by which a wide variety of different load types in a wide variety of different load geometric configurations can be accurately clamped at respective variable optimal clamping force settings dependent on each load's respective load type and geometric configuration in combination. An operator display and input terminal cooperates with a controller to translate assortments of possible load variables into a form easily discernible visually by a clamp operator and preferably easily comparable by the operator, from his visual observation, to each particular load which he is about to engage, so that the operator can interactively guide the controller in its selection of an optimal clamping force setting for each particular load.

Abstract: Improvements are disclosed for a load-clamping system with variable clamping force control by which a wide variety of dissimilar loads of different types, geometric configurations and/or other parameters can be accurately clamped at respective variable optimal clamping force settings. An operator terminal cooperates with a controller to translate one or more possible load parameters into a form easily discernible visually by a clamp operator and preferably easily comparable by the clamp operator, from his visual observation, to each particular load which he is about to engage, so that the clamp operator can interactively guide the controller in its selection of an optimal clamping force setting for each particular load.