Abstract: The disclosure generally relates to an exemplary hinge of an enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (e.g., oil) comes into contact with the enclosure. The hinge may include two portions, one portion attached to one or more doors of the enclosure and one portion attached to a housing of the enclosure. The hinge may be configured such that it may be adjusted in multiple directions (for example, beyond one plane of rotation that typical hinges may offer), and thus allow for greater adjustability of the one or more doors of the enclosure relative to the housing of the enclosure.

Abstract: The disclosure generally relates to an exemplary cooling system for an enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (oil, for example) comes in contact with the enclosure. The exemplary cooling system may include a coolant reservoir, one or more false walls coupled to the exterior of the enclosure, one or more pancake panels coupled to the false walls through one or more header pipes, and one or more coolant pipes for circulating coolant from the coolant reservoir, through the one or more pancake panels, false walls, and header pipes, and back to the coolant reservoir. The cooling system may only be in contact with the exterior portion of the enclosure. That is, the cooling system may not directly contact the electronics within the enclosure.

Abstract: The disclosure generally relates to an exemplary enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (oil, for example) comes in contact with the enclosure. The enclosure includes a flange attached to the housing and two doors that are hingeably attached to the flange. A wedge projection is provided along the perimeter of the flange and a gasket is provided on three outer edges of each door. The gasket sealingly receives the wedge projection of the flange when the doors are closed. The first door further includes a beveled inner edge that sealingly mates with a gasket in a complementary beveled inner edge of the second door when the doors are closed.

Abstract: The disclosure generally relates to an exemplary hinge of an enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (e.g., oil) comes into contact with the enclosure. The hinge may include two portions, one portion attached to one or more doors of the enclosure and one portion attached to a housing of the enclosure. The hinge may be configured such that it may be adjusted in multiple directions (for example, beyond one plane of rotation that typical hinges may offer), and thus allow for greater adjustability of the one or more doors of the enclosure relative to the housing of the enclosure.

Abstract: The disclosure generally relates to an exemplary cooling system for an enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (oil, for example) comes in contact with the enclosure. The exemplary cooling system may include a coolant reservoir, one or more false walls coupled to the exterior of the enclosure, one or more pancake panels coupled to the false walls through one or more header pipes, and one or more coolant pipes for circulating coolant from the coolant reservoir, through the one or more pancake panels, false walls, and header pipes, and back to the coolant reservoir. The cooling system may only be in contact with the exterior portion of the enclosure. That is, the cooling system may not directly contact the electronics within the enclosure.

Abstract: The disclosure generally relates to an exemplary enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (oil, for example) comes in contact with the enclosure. The enclosure includes a flange attached to the housing and two doors that are hingeably attached to the flange. A wedge projection is provided along the perimeter of the flange and a gasket is provided on three outer edges of each door. The gasket sealingly receives the wedge projection of the flange when the doors are closed. The first door further includes a beveled inner edge that sealingly mates with a gasket in a complementary beveled inner edge of the second door when the doors are closed.

Abstract: The disclosure generally relates to an exemplary enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (oil, for example) comes in contact with the enclosure. The enclosure includes a flange attached to the housing and two doors that are hingeably attached to the flange. A wedge projection is provided along the perimeter of the flange and a gasket is provided on three outer edges of each door. The gasket sealingly receives the wedge projection of the flange when the doors are closed. The first door further includes a beveled inner edge that sealingly mates with a gasket in a complementary beveled inner edge of the second door when the doors are closed.

Abstract: The disclosure generally relates to an exemplary enclosure that protects an electrical network protection element in various environments such as when the enclosure is submerged in water or when the enclosure is placed in an underground vault that may be flooded during rain. The enclosure has a gasket that includes a first portion having a sloping surface which provides a continuously incremental amount of sealing in cooperation with a beveled edge of a door of the enclosure and a second portion having a flat surface which is compressed by a wedge projection in the door and provides water tight sealing as well. The enclosure includes a locking bar having a tapered portion, which moves into an opening in a flange of the enclosure and automatically creates a continuously incremental amount of pushing force upon the door against the gasket when a pivotable handle is operated for closing the door.

Abstract: The disclosure generally relates to an exemplary enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (oil, for example) comes in contact with the enclosure. The enclosure includes a flange attached to the housing and two doors that are hingeably attached to the flange. A wedge projection is provided along the perimeter of the flange and a gasket is provided on three outer edges of each door. The gasket sealingly receives the wedge projection of the flange when the doors are closed. The first door further includes a beveled inner edge that sealingly mates with a gasket in a complementary beveled inner edge of the second door when the doors are closed.

Abstract: The disclosure generally relates to an exemplary enclosure that protects an electrical network protection element in various environments such as when the enclosure is submerged in water or when the enclosure is placed in an underground vault that may be flooded during rain. The enclosure has a gasket that includes a first portion having a sloping surface which provides a continuously incremental amount of sealing in cooperation with a beveled edge of a door of the enclosure and a second portion having a flat surface which is compressed by a wedge projection in the door and provides water tight sealing as well. The enclosure includes a locking bar having a tapered portion, which moves into an opening in a flange of the enclosure and automatically creates a continuously incremental amount of pushing force upon the door against the gasket when a pivotable handle is operated for closing the door.

Abstract: Embodiments of the disclosure pertain to a voltage regulator system having a voltage regulation controller and a transformer assembly. The transformer assembly includes a coil winding, a multi-contact tap arrangement connected to the coil winding, and a multifurcated tap changer system that includes a first tap changer having a contactor element which makes contact with a first contact of the multi-contact tap arrangement when the controller provides a positioning stimulus based on sensing a voltage deviation from a nominal output voltage of the voltage regulator system. The multifurcated tap changer system further includes a second tap changer that is mechanically ganged to the first tap changer and includes another contactor element arranged to automatically make contact with a second contact of the multi-contact tap arrangement when the contactor element of the first tap changer makes contact with the first contact of the multi-contact tap arrangement.

Abstract: Embodiments of the disclosure pertain to a voltage regulator system having a voltage regulation controller and a transformer assembly. The transformer assembly includes a coil winding, a multi-contact tap arrangement connected to the coil winding, and a multifurcated tap changer system that includes a first tap changer having a contactor element which makes contact with a first contact of the multi-contact tap arrangement when the controller provides a positioning stimulus based on sensing a voltage deviation from a nominal output voltage of the voltage regulator system. The multifurcated tap changer system further includes a second tap changer that is mechanically ganged to the first tap changer and includes another contactor element arranged to automatically make contact with a second contact of the multi-contact tap arrangement when the contactor element of the first tap changer makes contact with the first contact of the multi-contact tap arrangement.

Abstract: Embodiments of the disclosure pertain to a voltage regulator system having a voltage regulation controller and a transformer assembly. The transformer assembly includes a coil winding, a multi-contact tap arrangement connected to the coil winding, and a multifurcated tap changer system that includes a first tap changer having a contactor element which makes contact with a first contact of the multi-contact tap arrangement when the controller provides a positioning stimulus based on sensing a voltage deviation from a nominal output voltage of the voltage regulator system. The multifurcated tap changer system further includes a second tap changer that is mechanically ganged to the first tap changer and includes another contactor element arranged to automatically make contact with a second contact of the multi-contact tap arrangement when the contactor element of the first tap changer makes contact with the first contact of the multi-contact tap arrangement.

Abstract: Embodiments of the disclosure pertain to a voltage regulator system having a voltage regulation controller and a transformer assembly. The transformer assembly includes a coil winding, a multi-contact tap arrangement connected to the coil winding, and a multifurcated tap changer system that includes a first tap changer having a contactor element which makes contact with a first contact of the multi-contact tap arrangement when the controller provides a positioning stimulus based on sensing a voltage deviation from a nominal output voltage of the voltage regulator system. The multifurcated tap changer system further includes a second tap changer that is mechanically ganged to the first tap changer and includes another contactor element arranged to automatically make contact with a second contact of the multi-contact tap arrangement when the contactor element of the first tap changer makes contact with the first contact of the multi-contact tap arrangement.

Abstract: A magnetic field sensor includes a metallic bar coupled to a substrate. Current leads are adapted to provide current to the ferromagnetic bar. Voltage leads are coupled to the ferromagnetic bar to sense an induced Hall voltage therein.

Abstract: Embodiments of the present invention are directed to controlling device access fairness in frame-based switches by automatically and continuously counting the number of actively communicating devices connected to each port and the type of devices connected to each port, and adjusting fairness accordingly. During a sampling window, the number of active devices and the type of devices connected to each port is determined. At the start of each fairness window, a weighted number of slots are assigned to each port based on the number of active devices connected to each port and the type of devices connected to that port. Within a single fairness window, each port is able to provide device accesses to the frame-based switch in accordance with the number of slots assigned to that port.

Abstract: A magnetic field transducer includes a phase transition material exhibiting a change from an antiferromagnetic phase to a ferromagnetic phase when heated above a critical temperature, means for applying a magnetic bias field to the phase transition material, and means for heating the phase transition material above the critical temperature. Magnetic recording heads that include the transducer and magnetic disc drives that include the magnetic recording heads are also described. A method of producing a magnetic field pulse including applying a magnetic bias field to a phase transition material, and heating the phase transition material to cause the phase transition material to change from an antiferromagnetic phase to a ferromagnetic phase, is also provided. The phase transition material can comprise a rare earth-transition metal alloy, where the alloy is heated above a compensation temperature.

Abstract: There is provided a pressure bonding system for applying pressure onto at least one tile of a workpiece. This system comprises upper and lower gripper members each having first and second gripper ends. The second gripper ends are connected to each other. The first gripper ends are movable relative to each other to receive the workpiece therebetween. Moreover, an upper pressure applicator assembly is slidably engaged to the upper gripper member. The upper pressure applicator assembly is slidable along the upper gripper member between the first and second ends along a length of the workpiece. The workpiece is placed between the upper and lower gripper members with an edge thereof being adjacent the second gripper ends. The upper pressure applicator applies pressure to the tile(s) upon relative movement of the first ends towards the workpiece to a position adjacent the tile(s).

Abstract: There is provided a pressure bonding system for applying pressure onto at least one tile of a workpiece. This system comprises upper and lower gripper members each having first and second gripper ends. The second gripper ends are connected to each other. The first gripper ends are movable relative to each other to receive the workpiece therebetween. Moreover, an upper pressure applicator assembly is slidably engaged to the upper gripper member. The upper pressure applicator assembly is slidable along the upper gripper member between the first and second ends along a length of the workpiece. The workpiece is placed between the upper and lower gripper members with an edge thereof being adjacent the second gripper ends. The upper pressure applicator applies pressure to the tile(s) upon relative movement of the first ends towards the workpiece to a position adjacent the tile(s).