Patent application number | Description | Published |
20150143618 | ADAPTER FOR PROTECTIVE HEAD GEAR - The adapter comprises a clip with a groove, and a rack that engages with the groove. The clip attaches securely to an edge of a fabric, for example, a panel on a baseball cap. The rack includes an angle adjuster, on which a brow guard, welding helmet, or other protective gear can be mounted. | 05-28-2015 |
20150143669 | ADAPTER FOR PROTECTIVE HEAD GEAR - The adapter comprises a clip with a groove, and a rack that engages with the groove. The clip attaches securely to an edge of a fabric, for example, a panel on a baseball cap. The rack includes an angle adjuster, on which a brow guard, welding helmet, or other protective gear can be mounted. | 05-28-2015 |
Patent application number | Description | Published |
20120302993 | ANESTHETIC DELIVERY DEVICE - According to an example embodiment, a delivery device may include a needle and a pump operatively coupled to the needle, the pump having an expanded configuration and a collapsed configuration, the pump being biased to its expanded configuration such that fluid stored in the pump will exit the pump via the needle in response to pressure being applied to the pump, and in response to the pressure being released from the pump, the pump is configured to receive fluid from outside of the delivery device via the needle. | 11-29-2012 |
20130066146 | IMPLANTABLE MEDICAL DEVICE AND METHODS OF DELIVERING THE IMPLANTABLE MEDICAL DEVICE - A medical device and method of delivery of the medical device within a patient's body are disclosed by the present invention. The medical device includes a first elongate member and a second elongate member. A first portion and a second portion of the second elongate member are configured to form a defined non-planar shape such that the first portion is a first arm of the defined non-planar shape and the second portion is a second arm of the defined non-planar shape. | 03-14-2013 |
20130178696 | BODILY IMPLANTS FORMED FROM DIFFERENT MATERIALS - In one embodiment, an implant includes a body member and an extension member. The body member is formed of a first material and has a first side portion and a second side portion. The extension member is formed of a second material different than the first material. The extension member has a first arm portion, a second arm portion, and a mid-portion disposed between the first arm portion and the second arm portion. The mid-portion extends from the first side portion of the body member to the second side portion of the body member. The first arm portion extends from the first side portion of the body member along a first axis. The second arm portion extends from the second side portion of the body member along a second axis different than the first axis. | 07-11-2013 |
20140275754 | MEDICAL DEVICE AND METHOD OF DELIVERING THE MEDICAL DEVICE - The invention discloses an implant. The implant may include a first flap and a second flap. The first flap may further include a first portion, a second portion and a transition region. The first portion may be configured to be attached proximate a sacrum. The second portion may be configured to be attached to an anterior vaginal wall. The transition region lies between the first portion and the second portion. The second flap may be fabricated such that a portion of the second flap is configured to be attached to a posterior vaginal wall. The implant may be configured such that a value corresponding to a biomechanical parameter defining a biomechanical attribute of the portion of the first flap attaching to the anterior wall is different from a value of the biomechanical parameter defining the biomechanical attribute of the portion of the second flap attaching to the posterior wall. | 09-18-2014 |
20140275755 | MEDICAL DEVICE AND METHOD OF DELIVERING THE MEDICAL DEVICE - The invention discloses an implant. The implant may include a first flap and a second flap. The first flap may further include a first portion, a second portion and a transition region. The first portion may be configured to be attached proximate a sacrum. The second portion may be configured to be attached to an anterior vaginal wall. The transition region lies between the first portion and the second portion. The second flap may be fabricated such that a portion of the second flap is configured to be attached to a posterior vaginal wall. The implant may be configured such that a value corresponding to a biomechanical parameter defining a biomechanical attribute of the portion of the first flap attaching to the anterior wall is different from a value of the biomechanical parameter defining the biomechanical attribute of the portion of the second flap attaching to the posterior wall. | 09-18-2014 |
20150057491 | MEDICAL DEVICE AND METHOD OF DELIVERING THE MEDICAL DEVICE - The invention discloses an implant. The implant may include a first flap and a second flap. The first flap may further include a first portion, a second portion and a transition region. The first portion may be configured to be attached proximate a sacrum. The second portion may be configured to be attached to an anterior vaginal wall. The transition region lies between the first portion and the second portion. The second flap may be fabricated such that a portion of the second flap is configured to be attached to a posterior vaginal wall. The implant may be configured such that a value corresponding to a biomechanical parameter defining a biomechanical attribute of the portion of the first flap attaching to the anterior wall is different from a value of the biomechanical parameter defining the biomechanical attribute of the portion of the second flap attaching to the posterior wall. | 02-26-2015 |
20150080648 | MEDICAL DEVICE AND METHOD OF MAKING THE SAME - In an embodiment, a medical device is a bodily implant and includes an elongate member. The elongate member has an inner edge that defines an opening. At least a portion of the inner edge being treated. | 03-19-2015 |
20150157439 | COMPOSITIONS, DEVICES, KITS AND METHODS FOR ATTACHING SURGICAL MESHES TO TISSUE - The present disclosure is directed to methods, compositions, devices and kits which pertain to the attachment of surgical meshes to tissue by application of an energy source to the meshes and tissue in the presence of a bonding material. | 06-11-2015 |
20150216646 | METHODS, COMPOSITIONS, DEVICES AND KITS FOR ATTACHING SURGICAL SLINGS TO TISSUE - The present disclosure is directed to methods, compositions, devices and kits which pertain to the attachment of surgical slings to tissue by application of an energy source to the slings and tissue in the presence of a bonding material. | 08-06-2015 |
Patent application number | Description | Published |
20090250238 | METAL SHEATHED CABLE ASSEMBLY - A Metal-Clad cable that includes at least two conductor assemblies within a metal armored sheath. Each conductor assembly has an electrical conductor, an insulation layer extending around and along the length of each of the electrical conductors, a jacket layer disposed around the insulating layer and a polymeric protective layer disposed around the jacket layer along the length of each of the electrical conductors. A grounding/bonding strip is disposed within the cable and is in intimate contact with an interior surface of the metal sheath. If a grounding conductor is used, it is either in cabled relationship with the two conductor assemblies or is disposed along the length of the electrical conductors and the metal sheath is disposed over the at least two conductor assemblies and the grounding conductor. | 10-08-2009 |
20090250239 | METAL SHEATHED CABLE ASSEMBLY - An AC cable that includes at a plurality of conductor assemblies within a metal armored sheath. Each conductor assembly has an electrical conductor, an insulation layer extending around and along the length of each of the electrical conductors, a jacket layer disposed around the insulating layer and a polymeric protective layer disposed around the jacket layer along the length of each of the electrical conductors. A bonding strip is disposed within the metal sheath and is in contact with the interior surface of the metal sheath to provide an electrical low-impedance fault return path for the AC cable. | 10-08-2009 |
20120073855 | METAL SHEATHED CABLE ASSEMBLY - A Metal-Clad cable that includes at least two conductor assemblies within a metal armored sheath. Each conductor assembly has an electrical conductor, an insulation layer extending around and along the length of each of the electrical conductors, a jacket layer disposed around the insulating layer and a polymeric protective layer disposed around the jacket layer along the length of each of the electrical conductors. A grounding/bonding strip is disposed within the cable and is in intimate contact with an interior surface of the metal sheath. If a grounding conductor is used, it is either in cabled relationship with the two conductor assemblies or is disposed along the length of the electrical conductors and the metal sheath is disposed over the at least two conductor assemblies and the grounding conductor. | 03-29-2012 |
20130240237 | METAL SHEATHED CABLE ASSEMBLY WITH NON-LINEAR BONDING/GROUNDING CONDUCTOR - A Metal-Clad cable includes at least two conductor assemblies and a non-linear bonding/grounding conductor within a metal sheath. Each conductor assembly has an electrical conductor, an insulation layer extending around and along the length of each of the electrical conductors, a jacket layer disposed around the insulating layer and a polymeric protective layer disposed around the jacket layer along the length of each of the electrical conductors. The bonding/grounding conductor includes a plurality of undulations disposed along a length thereof, and is disposed within the metal sheath so that it is in contact with an interior surface of the metal sheath. The bonding/grounding conductor is in cabled relation with the conductor assemblies. The undulations of the bonding/grounding conductor provide a degree of resiliency to the connection between the conductors and the metal sheath to facilitate easy removal of the metal sheath when making terminal connections. | 09-19-2013 |
Patent application number | Description | Published |
20090185352 | HIGH PERFORMANCE POWER DEVICE - A printed circuit board (PCB) assembly is provided. The PCB assembly is adapted for mounting at least one heat-generating electrical device and providing integrated heat dissipating capability to dissipate heat generated by the electrical device. The PCB assembly has a top surface and a bottom surface and comprises a signal carrying layer and an insert of pyrolytic graphite (PG). The signal carrying layer, disposed between the top surface and the bottom surface, comprises a material that is both thermally conductive and electrically conductive (such as at least one of aluminum, copper, and silver and alloys thereof) and has at least a portion lying in a first plane. The insert of PG is disposed within at least a portion of the first plane of the signal carrying layer, is in thermal contact with the signal carrying layer, and is constructed and arranged to have its greatest electrical conductivity in the first plane. Optionally, a conductive via can be formed in portions of the signal carrying layer not occupied by the insert of PG, where the conductive via operably couples a first side of the signal carrying layer to a second side of the signal carrying layer. | 07-23-2009 |
20100155900 | FABRICATING A GALLIUM NITRIDE DEVICE WITH A DIAMOND LAYER - In one aspect, a method includes fabricating a device. The device includes a gallium nitride (GaN) layer, a diamond layer disposed on the GaN layer and a gate structure disposed in contact with the GaN layer and the diamond layer. | 06-24-2010 |
20100155901 | FABRICATING A GALLIUM NITRIDE LAYER WITH DIAMOND LAYERS - In one aspect, a method includes fabricating a gallium nitride (GaN) layer with a first diamond layer having a first thermal conductivity and a second diamond layer having a second thermal conductivity greater than the first thermal conductivity. The fabricating includes using a microwave plasma chemical vapor deposition (CVD) process to deposit the second diamond layer onto the first diamond layer. | 06-24-2010 |
20100187544 | FABRICATING A GALLIUM NITRIDE LAYER WITH DIAMOND LAYERS - In one aspect, a method includes fabricating a gallium nitride (GaN) layer with a first diamond layer having a first thermal conductivity and a second diamond layer having a second thermal conductivity greater than the first thermal conductivity. The fabricating includes using a microwave plasma chemical vapor deposition (CVD) process to deposit the second diamond layer onto the first diamond layer. | 07-29-2010 |
20100245179 | Method and Apparatus for Thermal Management of a Radio Frequency System - A thermal management system includes an air duct assembly comprising a supply air duct having an air inlet opening, a return air duct having an air exit opening and a plurality of distribution air ducts configured to be in fluid communication with the air inlet opening of the supply air duct and with the air exit opening of the return air duct. A fan is disposed within the air duct assembly to direct air from the air inlet opening of the supply air duct through the supply air duct and out the air exit opening of the return air duct. The fan and supply duct are disposed to direct air over a first surface of a heat sink. A second opposing surface of the heat sink is disposed over and configured to be in thermal contact with a plurality of active circuits disposed on a first surface of a radio frequency (RF) multi-layer printing wiring board (PWB). | 09-30-2010 |
20110241018 | FABRICATING A GALLIUM NITRIDE DEVICE WITH A DIAMOND LAYER - In one aspect, a method includes fabricating a device. The device includes a gallium nitride (GaN) layer, a diamond layer disposed on the GaN layer and a gate structure disposed in contact with the GaN layer and the diamond layer. | 10-06-2011 |
20120139786 | Mobile Radar System - Described is a mobile radar system which provides both persistent surveillance and tracking of objects with adaptive measurement rates for both maneuvering and non-maneuvering objects. The mobile radar system includes a vehicle having mounted therein an active, electronically-steerable, phased array radar system movable between a stowed position and a deployed position and wherein the phased array radar system is operational in both the deployed and stored positions and also while the vehicle is either stationary or moving. Thus, the mobile radar system described herein provides for longer time on target and longer integration times, increased radar sensitivity and improved Doppler resolution and clutter rejection. This results in a highly mobile radar system appropriate for use in a battlefield environment and which supports single-integrated-air-picture metrics including but not limited to track purity, track completeness, and track continuity and thus improved radar performance in a battlefield. | 06-07-2012 |