Abstract: The disclosed invention includes all embodiments for a mechanical shuffler comprising a generally planar base and a platform that is sized to receive a deck of unshuffled cards, the stack of unshuffled cards moves relative to a slot where the slot is sized to permit passage of a single card. With movement of a platform relative to a slot, a discrete burst of air is delivered to a stack of unshuffled cards, thereby pushing a single card through the slot and into an area where shuffled cards are to be delivered. It is contemplated that embodiments of the invention will include means for the delivery of a discrete amount of air in response to a computer signal, it is further contemplated that embodiments of the invention may include rollers that are engaged to spin and grip a card that is pushed through a slot by air.

Abstract: The disclosed invention includes all embodiments for a mechanical shuffler comprising a generally planar base and a platform that is sized to receive a deck of unshuffled cards, the stack of unshuffled cards moves relative to a slot where the slot is sized to permit passage of a single card. With movement of a platform relative to a slot, a discrete burst of air is delivered to a stack of unshuffled cards, thereby pushing a single card through the slot and into an area where shuffled cards are to be delivered. It is contemplated that embodiments of the invention will include means for the delivery of a discrete amount of air in response to a computer signal, it is further contemplated that embodiments of the invention may include rollers that are engaged to spin and grip a card that is pushed through a slot by air.

Abstract: The disclosed invention includes all embodiments for a mechanical shuffler comprising a generally planar base and a platform that is sized to receive a deck of unshuffled cards, the stack of unshuffled cards moves relative to a slot where the slot is sized to permit passage of a single card. With movement of a platform relative to a slot, a discrete burst of air is delivered to a stack of unshuffled cards, thereby pushing a single card through the slot and into an area where shuffled cards are to be delivered. It is contemplated that embodiments of the invention will include means for the delivery of a discrete amount of air in response to a computer signal, it is further contemplated that embodiments of the invention may include rollers that are engaged to spin and grip a card that is pushed through a slot by air.

Abstract: A current measurement device using a Rogowski coil having a generally toroidally shaped core with flattened faces, a first winding in one direction, a second winding forming a return loop, and a temperature compensation and scaling network coupled to the coil. The core has concentric cavities and a rough surface to restrain movement of the coil winding A Faraday shield is wrapped over the coil. One shield is “serpentine,” having staggered (offset) lateral extensions from a central region An alternate shield has a generally circular central region with extensions in generally radial directions. The shield is formed of three layers comprising a non-ferromagnetic metal central layer surrounded by insulative layers. At an end tab of the shield, the metal layer is exposed for collection to a ground lug or other connector. An insulative housing envelops the coil and electrical network An output wire terminates in an industrial connector A resistive network may be implemented with the current measurement device.

Abstract: An improved Rogowski coil is formed on a toroidal core made of a thermoplastic or other moldable material, the core having a preferably continuous groove or grooves extending around the core. The grooves correspond in size to magnet wire which registers within the grooves, thus controlling the specific location of the wires. The grooving may be helical. A return loop can be provided for return path cancellation, or a reverse winding can be added in a direction opposite to the direction of advancement of the main coil. In using the return loop, a resistive network can be added to improve the cancellation of the return path due to the effect of geometries. In addition, it can compensate for thermal and other variations.

Abstract: An improved Rogowski coil is formed on a toroidal core made of a thermoplastic or other moldable material, the core having a preferably continuous groove or grooves extending around the core. The grooves correspond in size to magnet wire which registers within the grooves, thus controlling the specific location of the wires. The grooving may be helical. A return loop can be provided for return path cancellation, or a reverse winding can be added in a direction opposite to the direction of advancement of the main coil. In using the return loop, a resistive network can be added to improve the cancellation of the return path due to the effect of geometries. In addition, it can compensate for thermal and other variations.

Abstract: Disclosed is a fiber optic connector that includes a rigid housing having a first cavity configured to receive a first optical fiber network element, such as a transmitting or receiving optical unit or subassembly, and a second cavity configured to receive a second optical fiber network element, such as an optical fiber connector. The connector further includes a retaining member for operative engagement with the housing and with one of the optical fiber network elements, at a location intermediate to the ends of the unit to retain the unit at a selected location within the housing. The housing axially aligns the first and second optical fiber network elements such that they are in optical alignment. Further, the retaining member includes a number of extending members for convenient mounting to, for example, a circuit board.