Abstract: A die for forming an extrusion includes a die body, a body feed section and an extrusion forming section. The die body may include an inlet and an outlet defining an extrudate flow path through the die body. The body feed section may be positioned between the inlet and outlet and includes an arrangement of body feed channels. The extrusion forming section may be positioned between the body feed section and the outlet and includes a thin-wall forming portion fluidly coupled to at least one thick-wall forming portion. The thin-wall forming portion may include an array of pins extending from the body feed section towards the outlet and the thick-wall forming portion may include at least one baffle section positioned in the extrudate flow path through the thick-wall forming portion. The area of the thick-wall forming portion may be greater than an interstitial area between the pins.

Abstract: In a first aspect, a substrate carrier is provided that includes an enclosure adapted to be sealable and to house at least one substrate. The substrate carrier includes a first port leading into the enclosure and adapted to allow a flow of gas into the enclosure while the substrate carrier is closed. Numerous other aspects are provided.

Abstract: Non-contact manipulating devices and methods can include a fluid distribution member including a first fluid port configured to dispense fluid and create a Bernoulli effect to attract an article to be manipulated by the manipulating device while maintaining a gap between the article and the fluid distribution member. The fluid distribution member can further include a second fluid port configured to dispense fluid to assist in maintaining the gap. The non-contact manipulating devices and methods can further include a controller configured to control a fluid flow through at least the second fluid port to help maintain the gap.

Abstract: Non-contact manipulating devices and methods can include a fluid distribution member including a first fluid port configured to dispense fluid and create a Bernoulli effect to attract an article to be manipulated by the manipulating device while maintaining a gap between the article and the fluid distribution member. The fluid distribution member can further include a second fluid port configured to dispense fluid to assist in maintaining the gap. The non-contact manipulating devices and methods can further include a controller configured to control a fluid flow through at least the second fluid port to help maintain the gap.

Abstract: A snowmobile includes a frame having a steering hoop structure and a tunnel. The steering hoop structure is coupled to first and second side panels of the tunnel and extends above the tunnel. The first and second side panels of the tunnel each include a running board supported by the steering hoop structure. The steering hoop structure includes a toe clip positioned adjacent to each of the running boards.

Abstract: In a first aspect, a substrate carrier is provided that includes an enclosure adapted to be sealable and to house at least one substrate. The substrate carrier includes a first port leading into the enclosure and adapted to allow a flow of gas into the enclosure while the substrate carrier is closed. Numerous other aspects are provided.

Abstract: A die for forming an extrusion includes a die body, a body feed section and an extrusion forming section. The die body may include an inlet and an outlet defining an extrudate flow path through the die body. The body feed section may be positioned between the inlet and outlet and includes an arrangement of body feed channels. The extrusion forming section may be positioned between the body feed section and the outlet and includes a thin-wall forming portion fluidly coupled to at least one thick-wall forming portion. The thin-wall forming portion may include an array of pins extending from the body feed section towards the outlet and the thick-wall forming portion may include at least one baffle section positioned in the extrudate flow path through the thick-wall forming portion. The area of the thick-wall forming portion may be greater than an interstitial area between the pins.

Abstract: Systems and methods are provided for determining if an alarm originating from a component within a communications network impacts service of said network. One embodiment includes scanning a first data structure for faulty network components which may potentially affect network service, determining network components that are supported by the faulty network component, calculating a percentage of the network components indicating a fault, and determining if the percentage of the network components is above a threshold. If the percentage is above the threshold the faulty network component is determined to be service impacting. Finally, communicating to a second data structure that the faulty network component impacts service of the communications network.

Abstract: A snowmobile includes a frame, a motor supported by the frame, an endless belt assembly supported by the frame, and a tunnel coupled to the frame and extending above the endless belt assembly. The tunnel includes an item attachment member accessible by a user and extending along a surface of the tunnel. The item attachment member is configured to couple to a fastener to mount an item on the tunnel.

Abstract: Non-contact manipulating devices and methods can include a fluid distribution member including a first fluid port configured to dispense fluid and create a Bernoulli effect to attract an article to be manipulated by the manipulating device while maintaining a gap between the article and the fluid distribution member. The fluid distribution member can further include a second fluid port configured to dispense fluid to assist in maintaining the gap. The non-contact manipulating devices and methods can further include a controller configured to control a fluid flow through at least the second fluid port to help maintain the gap.

Abstract: The present invention generally relates to snowmobiles. More particularly, the present invention relates to the components of a snowmobile such as the frame, skis, motor, and endless belt assembly.

Abstract: A kinematic pin and a substrate carrier adapted to deter dislodgment of the substrate carrier from the kinematic pin are provided. A shear member on the kinematic pin interacts with a shear feature of the substrate carrier to deter lateral movement of the substrate carrier relative to the kinematic pin. A substrate carrier handler that employs the kinematic pin is also provided.

Abstract: A kinematic pin and a substrate carrier adapted to deter dislodgment of the substrate carrier from the kinematic pin are provided. A shear member on the kinematic pin interacts with a shear feature of the substrate carrier to deter lateral movement of the substrate carrier relative to the kinematic pin. A substrate carrier handler that employs the kinematic pin is also provided.

Abstract: In a first aspect, a first apparatus is provided for use in supporting a substrate carrier. The first apparatus includes an overhead transfer flange adapted to couple to a substrate carrier body and an overhead carrier support. The overhead transfer flange has a first side and a second side opposite the first side that is wider than the first side. Numerous other aspects are provided.

Abstract: According to a first aspect, a first conveyor system is provided that is adapted to deliver substrate carriers within a semiconductor device manufacturing facility. The first conveyor system includes a ribbon that forms a closed loop along at least a portion of the semiconductor device manufacturing facility. The ribbon is adapted to (1) be flexible in a horizontal plane and rigid in a vertical plane; and (2) transport a plurality of substrate carriers within at least a portion of the semiconductor device manufacturing facility. Numerous other aspects are provided, as are systems, methods and computer program products in accordance with these and other aspects.

Abstract: In a first aspect, a substrate loading station is served by a conveyor which continuously transports substrate carriers. A substrate carrier handler that is part of the substrate loading station operates to exchange substrate carriers with the conveyor while the conveyor is in motion. A carrier exchange procedure may include moving an end effector of the substrate carrier handler at a velocity that substantially matches a velocity of the conveyor. Numerous other aspects are provided.

Abstract: In a semiconductor fabrication facility, a conveyor transports substrate carriers. The substrate carriers are unloaded from the conveyor and loaded onto the conveyor without stopping the conveyor. A load and/or unload mechanism lifts the substrate carriers from the conveyor during unloading operations, while matching the horizontal speed of the conveyor. Similarly, during loading operations, the load/unload mechanism lowers a substrate carrier into engagement with the conveyor while matching the horizontal speed of the conveyor. Individual substrates, without carriers, may be similarly loaded and/or unloaded from a conveyor.

Abstract: In a first aspect, a substrate carrier is provided that includes an enclosure adapted to be sealable and to house at least one substrate. The substrate carrier includes a first port leading into the enclosure and adapted to allow a flow of gas into the enclosure while the substrate carrier is closed. Numerous other aspects are provided.

Abstract: The present invention provides systems, methods, and apparatus for use with a substrate carrier. The invention provides a door opener adapted to employ a vacuum source to collapse an inflatable seal of a door of the substrate carrier. By collapsing the inflatable seal, the door is released from the body of the substrate carrier so that substrates may be removed and/or inserted into the carrier. A second vacuum source may be applied to the door to hold it securely to the door opener. Numerous other aspects of the invention are disclosed.

Abstract: A break-away mounting system for a continuous-motion, high-speed position conveyor system is disclosed. A support cradle may be suspended from a conveyor belt such that the support cradle maintains a fixed position and orientation relative to at least one point on the conveyor belt without inducing appreciable stress on the conveyor belt, the support cradle, or the coupling between the conveyor belt and the support cradle. The mount may include a leading rotatable bearing attached to the support cradle which may releasably engage a first key attached to the conveyor belt, the rotatable bearing adapted to accommodate rotational forces applied to the support cradle by the conveyor belt. The mount may also include a slide bearing attached to the support cradle which may releasably engage a second key attached to the conveyor belt, the slide bearing adapted to accommodate longitudinal forces applied to the support cradle by the conveyor belt.