Tersigni
Antonio Tersigni, Ciudad Autonoma De Buenos Aires AR
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20110030243 | CONDUCTIVE, RESISTIVE AND ANTI-TRIBOELECTRIC FOOTWEAR - The present application refers to a conductive, resistive and anti-triboelectric footwear comprising a footwear body or cut, a semiconductor sole, a resistive conductive insole, a common insole, a bottom of sole having contacting the floor made of the same material as the unloading devices and the semiconductor insole and unloading devices, with the purpose of contacting the human body with the ground and achieve the release of the stored static electricity on which the footwear body is fixed, characterized in that the unloading devices pass through the common insole and the footwear bottom making contact between the resistive conductive insole and the ground at least through the portion or the whole sole when it is resistive conductive; and its manufacturing method. | 02-10-2011 |
James E. Tersigni, Highland, NY US
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20120251054 | APPARATUS FOR PLUGGING MULTIPLE CONNECTORS WITH SPRING LOADED SLEEVES INTO AN ADAPTER SIMULTANEOUSLY - An apparatus is provided and includes a housing, a block formed to define an array of holes corresponding to an array of plugs into which connectors with spring loaded sleeves are pluggable such that the block engages with a respective sleeve of each connector, the block being supportively disposed within the housing to be movable with respect to the housing between first and second block positions at which the sleeves are extended and retracted, respectively and a cam lever supported on the housing and coupled to the block, which selectively occupies first and second lever positions at which the cam lever causes the block to assume the first and second block positions, respectively. | 10-04-2012 |
20130337697 | Adapter For Plated Through Hole Mounting Of Surface Mount Component - A surface mount component adapter, assembly and related method for attaching a surface mount component to a printed circuit board. The surface mount component adapter includes a substrate, a surface mount component holder on the substrate, and flexible leads each having a base end attached to the surface mount component holder and a free end configured to engage a plated through hole on a circuit board. The surface mount component holder is configured to engage electrical contacts of a surface mount component. The surface mount component assembly combines the surface mount adapter with the surface mount component. In the surface mount component method, the surface mount assembly is formed and the free ends of the flexible leads are attached to a corresponding number of the plated through holes on the circuit board. | 12-19-2013 |
20140213077 | Primary circuit board non-conductive void having different planar dimensions through board thickness to secure non-conducting locking member of holder - A primary circuit board has a front surface, a back surface, and a non-conductive void. The void has first planar dimensions through a first portion of a thickness of the primary circuit board extending from the front surface to a position between the front and back surfaces, and second planar dimensions through a second portion of the thickness extending from the position at least towards the back surface. A secondary circuit board holder includes a non-conducting locking member insertable into the non-conductive void at the primary circuit board's front surface to secure the holder while a conductive part of the holder is conductively affixed to a conductive part of the primary circuit board. The first planar dimensions are different than the second planar dimensions to permit the primary circuit board's thickness to be greater than a maximum thickness specification of the holder's non-conducting locking member. | 07-31-2014 |
James Edward Tersigni, Highland, NY US
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20100043216 | SELF-COMPENSATING CONNECTOR SUPPORT METHOD AND APPARATUS - A unique self-compensating structure mounted to a printed circuit board (PCB) includes a compensating block element having a back portion with at least a first guide surface and a front portion with at least a third guide surface. A mechanical support member having at least a second guide surface with at least a guide element disposed thereon for sliding engagement with the at least a first guide surface. At least a complaint member cooperatively positioned between a surface on the compensating block element and the at least a third guide surface on the mechanical support member. The at least a third guide surface being cooperatively and movably associated along a back portion of an electrical socket connector via the at least a complaint member for compensating and absorbing external stress and strain of a plug-in connector during alternating plugging and unplugging of the plug-in connector from the socket connector, while simultaneously mitigating damage to the PCB. | 02-25-2010 |
Samuel H. Tersigni, Glen Allen, VA US
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20100279901 | METHODS FOR PROVIDING STEEL-ON-STEEL FRICTION AND/OR STEEL-ON-PAPER FRICTION WITH LUBRICANT COMPOSITIONS FOR POWER TRANSMITTING FLUIDS - An additive composition may comprise at least one phosphorus- and boron-containing dispersant, at least one boron-containing dispersant, and at least one detergent. Such composition may be useful in power transmissions to provide improved anti-shudder performance and/or improved friction durability. | 11-04-2010 |
Samuel Harry Tersigni, Glen Allen, VA US
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20130195979 | Core-Excited Nanoparticles and Methods of Their Use in the Diagnosis and Treatment of Disease - Core-excited nanoparticle thermotherapy (CENT) represents a new paradigm in thermotherapy. The CENT method employs core-shell nanoparticles. The core of the nanoparticles is formed from one or more core-exciting, energy absorbing materials which absorbs core-exciting energy, either from an external energy source or from an energy source within the nanoparticle core (e.g., one or more radionuclides which undergo decay). Upon excitation by the core-exciting energy, the one or more core-exciting, energy absorbing materials reemit energy. A shell surrounds the particle nanoparticle core. The energy reemitted by the one or more core-exciting, energy absorbing materials is absorbed by the nanoparticle shell, so as to heat the shell of the nanoparticle. The heated nanoparticle then heats the surrounding region, to a temperature sufficient to detect, affect, damage or destroy the targeted cell or material. These core-shell nanoparticles can be administered to a patient in need thereof to treat diseases or disorders, including cancer. CENT nanoparticles can be optionally be bound to targeting agents that deliver them to the region of the diseased cell. | 08-01-2013 |