Azzopardi
Brian Azzopardi, Birkirkara MT
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20140165172 | SYSTEM AND METHOD FOR AUTHENTICATION OF DEVICES FOR CONTROLLING NETWORK ACCESS - Described herein are methods and apparatus for providing a way for users to identify themselves to network resources (local and on the internet) in a manner that requires minimal user and IT administrator intervention. In certain embodiments, the disclosed technology provides a way to identify the user of a device, without requiring either an agent, or updating device settings. Thus, the disclosed technology removes the labor involved and makes it much quicker for new devices to be allowed to access network resources, for instance, in a school setting where students may want to bring their own devices, thus rendering it impractical for the school's IT department to update each and every device. In addition, students may not want to install agents or update the settings on their devices. | 06-12-2014 |
Don Azzopardi, Walled Lake, MI US
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20080226401 | Material removal tool stiffened with spacers arranged along a length - An exemplary embodiment of a material removal tool has a housing at a mating end, an extension longitudinally extending from the housing to a distal end, a plurality of spacers arranged along the extension, and a nut at the distal end of the extension, wherein the plurality of spacers are formed from a material having a Young's modulus of greater than about 1.5 times that of steel. The spacers along the extension of the tool place the stiffer material of the spacer at a location of greatest resistance to bending moments (i.e. highest sectional modulus). Optionally preloading and “built-in” relief points contribute to improved performance of the material removal tool. A method of manufacturing a material removal tool and a method of machining a workpiece are also disclosed. | 09-18-2008 |
Donald C. Azzopardi, Walled Lake, MI US
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20100054874 | FLIP CARTRIDGES AND MATERIAL REMOVAL TOOL WITH SAME - A material removal having a plurality of cartridges mounted on an active portion where a plurality of seating members mounted in each of the plurality of cartridges pivots about an axis between a retracted position and an extended position is disclosed. Alternative embodiments have a single pivotable seating member. The pivotable extending seating members operate to extend and retract in a scissors-like motion and enable compact and efficient machining operation, particularly for crank shaft bearing supports. | 03-04-2010 |
Jonathon Michael Azzopardi, Ruthven CA
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20140167320 | THREAD FORMING DEVICE FOR COMPRESSION MOLDING AND APPARATUS INCORPORATING SAME - A thread forming device for compression molding comprises a base positioned adjacent a compression molding device, a plurality of posts extending from the base, a carrier moveable along the posts and supporting at least one rotatable threaded shaft, each shaft being configured for forming a threaded bore during compression molding of a part, an assembly for rotatably driving the at least one threaded shaft for unthreading the at least one threaded shaft from the part, and one or more biasing members configured to push the carrier away from the base once the at least one threaded shaft is unthreaded from the part. | 06-19-2014 |
Marc Anthony Azzopardi, San Gwann MT
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20110242413 | METHOD AND APPARATUS FOR GENERATING AND TRANSMITTING SYNCHRONIZED VIDEO DATA - Problem. Current systems for generating synchronized video sequences from multiple video sources are too complex, too restrictive, too cumbersome or too imprecise. There are also few practical ways of faithfully transmitting highly synchronized multivideo between video sources and video sinks. | 10-06-2011 |
Mark A. Azzopardi, Gudja MT
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20130083501 | METHOD FOR SOLDERING A CAP TO A SUPPORT LAYER - One embodiment discloses a method for soldering a cap for an integrated electronic device to a support layer, including the steps of: providing a support layer; providing a cap including a core of a first material and a coating layer of a second material, the first and second material being respectively wettable and non-wettable with respect to a solder, the coating layer being arranged so as to expose a surface of the core; coupling the cap with the support layer; and soldering the surface of the core to the support layer, by means of the solder. | 04-04-2013 |
Mark A. Azzopardi, Ciuoja MT
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20130028450 | LID, FABRICATING METHOD THEREOF, AND MEMS PACKAGE MADE THEREBY - A lid for a MEMS device and the relative manufacturing method. The lid includes: a first board with opposite first and second surfaces having first and second metal layers disposed thereon, respectively, wherein a through cavity extends through the first board and the first and second metal layers; a second board with opposite third and fourth surfaces; an adhesive layer sandwiched between the second surface of the first board and the third surface of the second board to couple the first and second boards together such that the through cavity is closed by the second board, thereby forming a recess; and a first conductor layer coating the bottom and the side surfaces of the recess. | 01-31-2013 |
Mark Anthony Azzopardi, Gudja MT
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20110081739 | ELECTRONIC DEVICE INCLUDING MEMS DEVICES AND HOLED SUBSTRATES, IN PARTICULAR OF THE LGA OR BGA TYPE - An electronic device includes a substrate provided with a passing opening and a MEMS device including an active surface wherein a portion of the MEMS device is integrated sensitive to chemical/physical variations of a fluid. The active surface of the MEMS device faces the substrate and is spaced therefrom, the sensitive portion being aligned to the opening. A protective package incorporates at least partially the MEMS device and the substrate, leaving at least the sensitive portion of the MEMS device, and the opening of the substrate exposed. A barrier element is positioned in an area which surrounds the sensitive portion to realize a protection structure for the MEMS device, so that the sensitive portion is free. | 04-07-2011 |
20120032285 | Electronic Device Including MEMS Devices And Holed Substrates, In Particular Of The LGA Or BGA Type - An electronic device includes a substrate provided with a passing opening and a MEMS device including an active surface wherein a portion of the MEMS device is integrated sensitive to chemical/physical variations of a fluid. The active surface of the MEMS device faces the substrate and is spaced therefrom, the sensitive portion being aligned to the opening. A protective package incorporates at least partially the MEMS device and the substrate, leaving at least the sensitive portion of the MEMS device, and the opening of the substrate exposed. A barrier element is positioned in an area which surrounds the sensitive portion to realize a protection structure for the MEMS device, so that the sensitive portion is free. | 02-09-2012 |
20120153771 | MICROELECTROMECHANICAL TRANSDUCER AND CORRESPONDING ASSEMBLY PROCESS - A MEMS transducer has a micromechanical sensing structure and a package. The package is provided with a substrate, carrying first electrical-connection elements, and with a lid, coupled to the substrate to define an internal cavity, in which the micromechanical sensing structure is housed. The lid is formed by: a cap layer having a first surface and a second surface, set opposite to one another, the first surface defining an external face of the package and the second surface facing the substrate inside the package; and a wall structure, set between the cap layer and the substrate, and having a coupling face coupled to the substrate. At least a first electrical component is coupled to the second surface of the cap layer, inside the package, and the coupling face of the wall structure carries second electrical-connection elements, electrically connected to the first electrical component and to the first electrical-connection elements. | 06-21-2012 |
20130082258 | METHOD FOR STRIP TESTING OF MEMS DEVICES, TESTING STRIP OF MEMS DEVICES AND MEMS DEVICE THEREOF - A method for testing a strip of MEMS devices, the MEMS devices including at least a respective die of semiconductor material coupled to an internal surface of a common substrate and covered by a protection material; the method envisages: detecting electrical values generated by the MEMS devices in response to at least a testing stimulus; and, before the step of detecting, at least partially separating contiguous MEMS devices in the strip. The step of separating includes defining a separation trench between the contiguous MEMS devices, the separation trench extending through the whole thickness of the protection material and through a surface portion of the substrate, starting from the internal surface of the substrate. | 04-04-2013 |
Michael J. Azzopardi, Salinas, CA US
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20110138820 | Transportable Product Cooling Apparatus and Method - A portable, automated, cold-chain maintaining, cooling apparatus is disclosed. This apparatus comprises one or more portable cooling modules in communication with one or more portable transition modules. The cooling modules have cooling module conveyor apparatus to move containers of product through the module and a product cooling apparatus to provide cooling air to the product. The portable transition module is in communication with each of said one or more portable cooling modules in such a manner to maintain the cold temperature of said cooled product. A transition module conveyor apparatus within the transition module is in communication with the cooling module conveyor apparatus and automatically transfer the product from the cooling modules into the portable transition module. | 06-16-2011 |
20130084151 | PORTABLE TRANSITION DOCK FOR PALLETIZED PRODUCT - A transition dock is disclosed allowing palletized product to be loaded into transport conveyors at a worksite. The product may be produce and the worksite may be a field where the produce is harvested. Where operating at a field where produce is harvested, the loading dock facilitates loading of the produce into a reefer to begin the cold chain at the field. | 04-04-2013 |
20130104585 | PORTABLE COOLING UNIT FOR FIELD-LEVEL COOLING OF PRODUCT | 05-02-2013 |
Pierre Alain Azzopardi, Besancon FR
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20140162816 | MECHANISM FOR TRANSMITTING POWER OF ROTATION - A mechanism for transmitting rotational power comprising: a link extending along a closed loop and continued by a succession of portions each having a longitudinal direction tangent to the closed loop; and temporary unification means comprising a plurality of self-locking means distributed at least along an active portion of a first drive circle, and comprising at least one rigid locking element simultaneously pressing against a first support surface of the first rotating element and a second support surface of a link portion facing the locking element. The first and second support surfaces are arranged so that one locking element of the first drive circle active portion is jammed between the support surfaces and is capable of self-unlocking when the corresponding self-locking means leaves the active portion. One of the support surfaces is a tangential gripping surface that is parallel to the longitudinal direction of the link portion against which the locking element presses. | 06-12-2014 |
Toni Azzopardi, Whitby CA
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20080256763 | Clip for interconnecting garments - The clip includes an outer component having an opening in which an inner component is received. The inner component is resiliency biased into a closed position in which its front and back walls are co-planar with the front and back walls, respectively, of the outer component. A force opposed to the bias of the resilient means causes the inner component to pivot away from the outer component thereby enlarging the space between the two components. A pair of socks or mitts may then be inserted into the space. The socks or mitts are retained in the space when the inner component springs back to the closed position. The clip is optionally provided with a panel on which information or illustrations is provided. | 10-23-2008 |