Abstract: Apparatus for connecting a plurality of electronic devices with corresponding backplanes to improve reliability of accessing the devices are described. In one embodiment, the apparatus includes first and second backplanes having connectors for at least one device. A device having a plurality of data paths has a first data path coupled to a data path connector of the first backplane. A second data path of the device is coupled to a data path connector of the second backplane. Alternatively, a Y-adapter is used to connect a single data path device to data path connectors of distinct backplanes. In various embodiments, the backplanes lie in a common plane. Alternatively, the backplanes lie in distinct parallel planes.

Abstract: A method of finishing an enclosure formed from sheet metal includes the step of providing a tube formed from a film of a heat shrink polymer. The enclosure is inserted into the tube. Heat is applied to shrink the tube about the enclosure. Another method of finishing the enclosure includes the step of providing a sheet of a heat shrink polymer. The sheet is wrapped about the enclosure. The wrapped sheet may be affixed to the enclosure mechanically, chemically, or some combination thereof. Heat is applied to shrink wrap the sheet about the enclosure. In various embodiments the heat shrink polymer comprises at least one of the following polymers: irradiated low density polyethylene (LDPE), polyolefin, poly-ethylene terephthalate (PET), poly-vinyl chloride (PVC), and fluoropolymers such as poly-tetrafluoroethylene (PTFE), poly-vinylidene di-fluoride (PVDF), fluoroethylenepropylene (FEP), and perfluoroalkoxy (PFA).

Abstract: Blower designs for vented enclosures include an impeller having a plurality of blades. The impeller includes a plurality of blades pivotably coupled to an impeller body. The blades pivot to enable operation in one of a closed and an open state. Air flow between blades is substantially restricted when the blades are in the closed state. Air flow between the blades is permitted when the blades are in an open state. In one embodiment, the pivotable couplings are spring loaded to maintain the blades in the closed state when the impeller rotational speed is below a threshold range. The blades pivot to the open state when the rotational speed exceeds the threshold range.

Abstract: Blower designs for vented enclosures include an impeller having a plurality of blades. A plurality of one way valves are interleaved between the blades to permit substantial airflow only in one direction. One valve design incorporates flaps coupled to either the blades or the impeller body with spring loaded hinges. Another valve design incorporates a flexible flaps coupled to either the blades or the impeller body. In one embodiment, the one-way valves reside on an insertable hub disposed within an inner periphery of the impeller such that the valves and blades are interleaved. The valves close to restrict air flow when the impeller rotational speed is below a threshold range. The valves open to permit air flow when the rotational speed exceeds the threshold range.

Abstract: A method of finishing an enclosure formed from sheet metal includes the step of providing a tube formed from a film of a heat shrink polymer. The enclosure is inserted into the tube. Heat is applied to shrink the tube about the enclosure. Another method of finishing the enclosure includes the step of providing a sheet of a heat shrink polymer. The sheet is wrapped about the enclosure. The wrapped sheet may be affixed to the enclosure mechanically, chemically, or some combination thereof. Heat is applied to shrink wrap the sheet about the enclosure. In various embodiments the heat shrink polymer comprises at least one of the following polymers: irradiated low density polyethylene (LDPE), polyolefin, poly-ethylene terephthalate (PET), poly-vinyl chloride (PVC), and fluoropolymers such as poly-tetrafluoroethylene (PTFE), poly-vinylidene di-fluoride (PVDF), fluoroethylenepropylene (FEP), and perfluoroalkoxy (PFA).

Abstract: Blower designs for vented enclosures include an impeller having a plurality of blades. The impeller includes a plurality of blades pivotably coupled to an impeller body. The blades pivot to enable operation in one of a closed and an open state. Air flow between blades is substantially restricted when the blades are in the closed state. Air flow between the blades is permitted when the blades are in an open state. In one embodiment, the pivotable couplings are spring loaded to maintain the blades in the closed state when the impeller rotational speed is below a threshold range. The blades pivot to the open state when the rotational speed exceeds the threshold range.

Abstract: Blower designs for vented enclosures include an impeller having a plurality of blades. A plurality of one way valves are interleaved between the blades to permit substantial airflow only in one direction. One valve design incorporates flaps coupled to either the blades or the impeller body with spring loaded hinges. Another valve design incorporates a flexible flaps coupled to either the blades or the impeller body. In one embodiment, the one-way valves reside on an insertable hub disposed within an inner periphery of the impeller such that the valves and blades are interleaved. The valves close to restrict air flow when the impeller rotational speed is below a threshold range. The valves open to permit air flow when the rotational speed exceeds the threshold range.

Abstract: Fan brakes for decelerating blower impellers particularly for modular equipment enclosures are described. A module includes a blower having an impeller with a plurality of blades. The brake engages the impeller body or blades when the module is at least partially removed from the enclosure and disengages the impeller when the module is inserted into the enclosure. One brake includes an arm coupled to a braking surface. The arm applies the braking surface to the impeller when disengaged by a cam and retracts the braking surface from the impeller when engaged by the cam. A solenoid may be used in lieu of a cam for directly or indirectly applying the braking surface.