Patent application number | Description | Published |
20090269162 | Fastener with Bilateral seal for liquid immersion cooling applications - A fastener assembly including an elongate fastener adapted to extend through a chamber having a longitudinal axis, a first end and a second end; a first seal disposed at least partially at the first end of the fastener to prevent leakage of fluid from the chamber; and a second seal disposed at least partially at the second end of the fastener to prevent leakage of fluid from the chamber. In a specific embodiment, the first and second seals are conical seals and a third seal is provided by a gasket. The invention also provides a method for securing a fluid filled chamber to a surface comprising the steps of: placing an insert onto the surface such that a first end of the insert abuts the surface; placing the chamber onto the surface whereby the insert extends through an opening therethrough; threading a first end of a threaded fastener through the insert into the surface thereby closing a first lower seal arrangement; and securing the chamber to the surface by sealing the chamber with a nut thereby closing a second seal arrangement with respect to the chamber. | 10-29-2009 |
20110113618 | PROCESS FOR FABRICATING AN ORIGAMI FORMED ANTENNA RADIATING STRUCTURE - A process for fabricating an origami formed antenna radiating structure is provided. In one embodiment, the invention relates to a process for precisely fabricating a radio frequency (RF) antenna structure, the process including providing a flexible circuit substrate, forming a plurality of parallel channels in the flexible circuit substrate in a first direction, mounting the flexible substrate to a precision die, pressing the flexible substrate into the precision die using an elastomeric material thereby sandwiching the flexible substrate between the elastomeric material and the precision die, and applying heat to the flexible substrate sandwiched between the elastomeric material and the precision die. | 05-19-2011 |
20110113619 | PROCESS FOR FABRICATING A THREE DIMENSIONAL MOLDED FEED STRUCTURE - A process for fabricating a three dimensional molded feed structure is provided. In one embodiment, the invention relates to a process for fabricating a three dimensional radio frequency (RF) antenna structure, the process including providing a flexible circuit substrate, forming a first preselected pattern of channels in the flexible circuit substrate, depositing a conductive layer on the formed flexible substrate, and removing portions of the conductive layer to form a plurality of conductive traces. | 05-19-2011 |
20110114242 | SYSTEMS AND METHODS FOR ASSEMBLING LIGHTWEIGHT RF ANTENNA STRUCTURES - Systems and methods for assembling lightweight RF antenna structures are provided. In one embodiment, the invention relates to a process for forming a lightweight antenna including a process for forming a first feed assembly for the antenna, the process for forming the first feed assembly including providing a flat flexible circuit substrate, providing a formed flexible circuit substrate, applying an adhesive to a plurality of locations on a surface of the flat substrate or the formed substrate, joining the flat substrate and the formed substrate using the adhesive, and heating the joined flat substrate and the formed substrate to bond the substrates. | 05-19-2011 |
20110115578 | RF TRANSITION WITH 3-DIMENSIONAL MOLDED RF STRUCTURE - A radio frequency (RF) transition for a three dimensional molded RF structure is provided. In one embodiment, the invention relates to a radio frequency (RF) transition for an RF structure, the RF transition includes an assembly having a first flexible layer, a second flexible layer, and a third flexible layer, wherein a first section of the assembly includes a microstrip transmission line, wherein a second section of the assembly includes a dielectric stripline transmission line, and wherein a third section of the assembly includes a suspended substrate stripline transmission line. | 05-19-2011 |
20110261539 | ADHESIVE REINFORCED OPEN HOLE INTERCONNECT - A method for interconnecting a first flex printed circuit board (PCB) with a second flex PCB. The method includes: providing the first flex PCB with holes at contact locations to be electrically coupled to the second flex PCB; providing the second flex PCB with electrical pads corresponding to the holes at the contact locations; applying a non-conductive material between the first PCB and the and second PCB with clearances for each of the electrical pads; aligning the first PCB with the second PCB so that the holes in the first PCB are in line with the corresponding electrical pads on the second PCB; bonding a portion of flat areas on the first and second PCBs together; dispensing a conductive adhesive into the holes to fill the space created by the holes, corresponding clearances of the non-conductive material, and the corresponding electrical pads; and curing the conductive adhesive. | 10-27-2011 |
20120013514 | SYSTEMS AND METHODS FOR EXCITING LONG SLOT RADIATORS OF AN RF ANTENNA - Systems and methods for exciting long slot radiators of an RF antenna are provided. In one embodiment, the invention relates to a radiator transition assembly for exciting a long slot radiator of an antenna, the transition assembly including a folded flexible circuit substrate including at least two folds forming a long slot radiator, an excitation circuitry configured to generate signals for exciting the long slot radiator, and a microstrip transmission line coupled to the excitation circuitry and positioned along the folded flexible circuit substrate, where the microstrip transmission line extends across an opening of the long slot radiator. | 01-19-2012 |
20120137505 | PROCESS FOR FABRICATING AN ORIGAMI FORMED ANTENNA RADIATING STRUCTURE - A process for fabricating an origami formed antenna radiating structure is provided. In one embodiment, the invention relates to a process for precisely fabricating a radio frequency (RF) antenna structure, the process including providing a flexible circuit substrate, forming a plurality of parallel channels in the flexible circuit substrate in a first direction, mounting the flexible substrate to a precision die, pressing the flexible substrate into the precision die using an elastomeric material thereby sandwiching the flexible substrate between the elastomeric material and the precision die, and applying heat to the flexible substrate sandwiched between the elastomeric material and the precision die. | 06-07-2012 |