Patent application number | Description | Published |
20100327582 | Generator With Falling Stator - A generator is provided including a rotatable pressure vessel with an inner and outer surface. Electromagnets are disposed on the inner surface of the pressure vessel. A biasing structure is configured to rotate within, and independently of, the pressure vessel and extends at least partly along a lengthwise dimension of the pressure vessel. The biasing structure has an axis of rotation that is within the circumference of the pressure vessel, and may be substantially parallel and coincident with a center axis of the pressure vessel. The biasing structure has a center of gravity at a radius away from the center axis of the pressure vessel. Armature coils are disposed on an outer portion of the biasing structure, and are positioned such that a relative motion between the electromagnets and the plurality of armature coils induces a current in the armature coils when a current is applied to the electromagnets. A transfer mechanism is configured to transfer electrical current from first electrical conductors connected to the armature windings to an outside of the pressure vessel. | 12-30-2010 |
20110309619 | Generator with Falling Stator - A generator is provided including a rotatable pressure vessel with an inner and outer surface. Electromagnets are disposed on the inner surface of the pressure vessel. A biasing structure is configured to rotate within, and independently of, the pressure vessel and extends at least partly along a lengthwise dimension of the pressure vessel. The biasing structure has an axis of rotation that is within the circumference of the pressure vessel, and may be substantially parallel and coincident with a center axis of the pressure vessel. The biasing structure has a center of gravity at a radius away from the center axis of the pressure vessel. Armature coils are disposed on an outer portion of the biasing structure, and are positioned such that a relative motion between the electromagnets and the plurality of armature coils induces a current in the armature coils when a current is applied to the electromagnets. A transfer mechanism is configured to transfer electrical current from first electrical conductors connected to the armature windings to an outside of the pressure vessel. | 12-22-2011 |
20120129596 | System and Method for Verifying User Identity in a Virtual Environment - Systems and methods for verifying user identity in a virtual environment are provided that may include periodic transmitting/monitoring of biometric data and geographic location data. Integrated systems may include anti-tamper devices that automatically delete biometric data in the event if tampering and/or power loss. Thus, the present invention helps to prevent tampering with player identity information, as well as helping to prevent access by a player to the software, graphics or other content associated with selected online activities. Such systems and methods may find particular applicability in fields related to online gambling by verifying the identity and location of an on-line player. | 05-24-2012 |
Patent application number | Description | Published |
20100311282 | CONNECTOR SHELL HAVING INTEGRALLY FORMED CONNECTOR INSERTS - A connector shell includes a frame, a dividing wall and a plurality of connector inserts. The frame surrounds a periphery of the shell. The dividing wall is homogeneously formed with the frame and separates a plurality of recesses. The connector inserts are homogeneously formed with the frame and the dividing wall. The inserts are disposed with one or more of the recesses. Each insert includes a body and a plurality of cavities. Each body is configured to hold a plurality of contacts that protrude from each of a mating and a loading side. The contacts are configured to be mounted to a circuit board in a location proximate to the loading side and to mate with a plurality of other electrical connectors in a location proximate to the mating side. | 12-09-2010 |
20130252477 | ELECTRICAL MODULE HOUSING - An assembly is configured to retain a plurality of electrical modules and mate with a shroud having a plurality of connecting interfaces configured to mate with the plurality of electrical modules. The assembly includes a frame having at least one shroud-securing bracket and at least one bay configured to retain at least one of the plurality of electrical modules, and at least one keying insert retained within at least one insert passage of the at least one shroud-securing bracket. The at least one keying insert includes at least one adjustable keying feature that is configured to be adjusted to different positions in order to accommodate a reciprocal alignment post of the shroud. | 09-26-2013 |
20130303003 | System for Interconnecting Printed Circuit Boards - A system for communicating between multiple electrical components includes a first printed circuit board (PCB) having first and second opposed layers and a plurality of plated through-holes extending between the first and second opposed layers. The system also includes a plurality of mating contacts, wherein each of the plurality of mating contacts is retained within one of the plurality of plated through-holes. Each of the plurality of mating contacts may include a first end portion that outwardly extends from the first layer, and a second end portion that outwardly extends from the second layer. The system may also include a first connector assembly having a plurality of interconnecting contacts retained therein. The plurality of interconnecting contacts mate with the first end portions of the plurality of mating contacts when the first connector assembly connects to the first PCB. | 11-14-2013 |
20130330052 | UNIVERSAL FAN-OUT DEVICE - A universal fan-out device comprising a housing having first and second openings, the housing comprising first and second housing components, each of the first and second housing components having a first end and a second end, a channel running between the first and second ends, and sides along each side of the channel, a resilient material disposed in the channel to restrict movement of fibers within the channel, and an engagement mechanism operatively connected to the housing to inter-engage the first and second housing components together. | 12-12-2013 |
20130337671 | LATCH ASSEMBLIES FOR CONNECTOR SYSTEMS - A connector system includes a base mount and a slider latch received in the base mount. The slider latch has a profiled groove configured to latchably receive a cam of a connector module. A faceplate is coupled to the base mount. The faceplate has an opening providing access to the slider latch. An ejector button is operatively coupled to the slider latch to move the slider latch from a latched position to an unlatched position. The slider latch is configured to eject the connector module as the slider latch moves between the latched and unlatched positions. A spring engages the slider latch and acts on the slider latch in a biasing direction. The spring forces the slider latch to return to the latched position after the ejector button is released. | 12-19-2013 |
20140213108 | ELECTRICAL CONNECTOR - An electrical connector is provided for terminating a plurality of electrical conductors. The electrical connector includes a terminal subassembly having terminals configured to be electrically connected to the electrical conductors. The terminal subassembly has an insulator holding the terminals. The terminal subassembly has a mating interface where mating surfaces of the terminals mate with a mating connector. The mating interface of the terminal subassembly is approximately flat. The electrical connector also includes a metal shell holding the terminal subassembly. The metal shell has the cross-sectional shape of an oval. | 07-31-2014 |
20140213119 | CONNECTOR SYSTEM - A connector system includes a pass-through connector that includes a housing with a front and a rear opposite the front. The front of the housing has a front opening, and the rear of the housing has a rear opening. The housing also has a cavity between the front opening and the rear opening. The pass-through connector also includes conductors which are held by the housing in the cavity. The system also includes a plug that is received in the cavity through the front opening. The plug has a contact holder that holds plug conductors. The contact holder has a head that is received in the cavity, and the head is configured to push contaminants from the cavity through the rear opening as the plug is loaded into the cavity. | 07-31-2014 |