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| 20140012304 | MULTILAYERED BALLOON - A multilayered inflatable medical appliance is disclosed. The appliance may comprise multiple adjacent layers disposed to increase total burst strength, puncture resistance or other properties. One or more layers may be comprised of a rotational spun fiber coating. Further, in some embodiments, additional top coatings may be included. Multilayered constructs may be configured with higher burst strengths and/or puncture resistance as compared to single layer constructs. | 01-09-2014 |
| 20150032049 | BALLOON CATHETER SYSTEMS AND METHODS - The embodiments disclosed herein relate to balloon catheter assemblies. The balloon catheter assemblies can include a plurality of ports, a junction hub, an elongated member, and an inflation balloon. The balloon catheter assemblies can also include a reinforced tubular shaft extending through the inflation balloon. The balloon catheter assemblies can also include a retaining mechanism that can be removably attached to the junction hub. | 01-29-2015 |
| 20150032086 | BALLOON CATHETER SYSTEMS AND METHODS - The embodiments disclosed herein relate to balloon catheter assemblies. The balloon catheter assemblies can include a hub, an elongated member, and an inflation balloon. The balloon catheter assemblies can also include a support wire having a proximal end that is longitudinally displaceable within a sleeve that is disposed in the catheter hub. A distal end of the support wire may be coupled to the inflation balloon at one or more positions. | 01-29-2015 |
| 20160089254 | COATED BALLOONS AND COATED BALLOON ASSEMBLIES AND RELATED METHODS OF USE AND MANUFACTURE - Medical devices and medical assemblies that have a lubricant disposed on an inner surface (e.g., balloons to be inflated within a cavity of a patient) are disclosed, along with related methods of use and manufacture. Such devices or assemblies may be passed through an elongate channel (e.g., a catheter channel or the working channel of an endoscope) and deployed distal of the elongate channel to adopt an expanded configuration. The devices or assemblies may then be compacted as they are withdrawn into the elongate channel after deployment. Some medical devices and assemblies comprising a lubricant on an inner surface of a balloon body may be more readily withdrawn into the elongate channel than embodiments that lack such a lubricant. | 03-31-2016 |
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| 20100121421 | IMPLANTABLE LEAD - A highly flexible implantable lead that offers improved flexibility, fatigue life and fatigue and abrasion resistance improved reliability, effective electrode tissue contact with a small diameter and low risk of tissue damage during extraction. In one embodiment the lead is provided with both defibrillation electrodes and pacing/sensing electrodes. For defibrillation/pacing leads, the lead diameter may be as small as six French or smaller. The construction utilizes helically wound conductors. For leads incorporating multiple separate conductors, many of the helically wound conductors are arranged in a multi-filar relationship. Preferably, each conductor is a length of wire that is uninsulated at about the middle of its length to create an electrode, wherein the conductor is folded in half at about the middle of the length to create first and second length segments that constitute parallel conductors. | 05-13-2010 |
| 20100137928 | IMPLANTABLE LEAD - A highly flexible implantable lead that offers improved flexibility, fatigue life and fatigue and abrasion resistance improved reliability, effective electrode tissue contact with a small diameter and low risk of tissue damage during extraction. In one embodiment the lead is provided with both defibrillation electrodes and pacing/sensing electrodes. For defibrillation/pacing leads, the lead diameter may be as small as six French or smaller. The construction utilizes helically wound conductors. For leads incorporating multiple separate conductors, many of the helically wound conductors are arranged in a multi-filar relationship. Preferably, each conductor is a length of wire that is uninsulated at about the middle of its length to create an electrode, wherein the conductor is folded in half at about the middle of the length to create first and second length segments that constitute parallel conductors. | 06-03-2010 |
| 20100228262 | ATRAUMATIC LEAD REMOVAL SHEATH - The present invention is an implantable device for the atraumatic removal of chronically implanted medical devices. | 09-09-2010 |
| 20130096663 | ATRAUMATIC LEAD REMOVAL SHEATH - The present invention provides for a safer and less traumatic chronically implanted device and methods for removing same from a patient. One embodiment of the invention provides for a medical device comprising an implantable diagnostic or therapeutic lead having a distal end, a proximal end, a longitudinal axis and an outer surface, and a tubular cover attached to the diagnostic or therapeutic lead, preferably near the distal end, and positioned to cover a substantial portion of the outer surface of the diagnostic or therapeutic lead. The tubular cover is configured to evert upon application of a longitudinal force to extract the diagnostic or therapeutic lead. | 04-18-2013 |
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| 20130078052 | FLOATING FASTNERS - One or more fastenings can be used to fasten components together, such as housing components on a computing device. Each fastening can include a first opening associated with a first component, a second opening associated with a second component, a floating fastener, and a screw. The floating fastener is inserted into the first opening and/or second opening, and includes a threaded opening therein having a primary axis therethrough. The screw is inserted through first and/or second openings and into the threaded opening in the floating fastener. The screw and threaded opening combination is defined by contact between the screw and threaded opening about a thread surface that is substantially perpendicular to the primary axis, a screw thread return angle of 45 degrees or less, and a thread depth that is less than about triple the float between the major diameters of the screw and the threaded opening. | 03-28-2013 |
| 20130327507 | OPTIMIZED VENT WALLS IN ELECTRONIC DEVICES - The disclosed embodiments related to a component for use in a portable electronic device. The component includes a wall of the portable electronic device, containing an intake zone that includes a set of intake vents directed at a first angle toward one or more heat-generating components of the portable electronic device. The wall also includes an exhaust zone containing a set of exhaust vents directed at a second angle out of the portable electronic device. | 12-12-2013 |
| 20130328521 | EXTERNAL BATTERY-MANAGEMENT MODULE - A power supply for use in a portable electronic device is described. This power supply includes battery cells in separate locations that are electrically coupled by a power bus to a battery-management circuit board, which includes an integrated circuit with control logic that monitors the battery cells and that regulates charging and discharging of the battery cells. The battery cells are not enclosed in a common battery-pack housing so that the battery cells are mechanically separate from each other. Moreover, the battery-management circuit board is external to the battery cells and is not enclosed in the battery-pack housing. By excluding the battery-pack housing from the power supply, there may be more space available to expand the sizes, and thus the total capacities, of the battery cells. | 12-12-2013 |
| 20130328741 | INTERNAL COMPONENTS OF A PORTABLE COMPUTING DEVICE - The present application describes various embodiments of systems and methods for providing internal components for portable computing devices having a thin profile. More particularly, the present application describes internal components configured to fit within a relatively thin outer enclosure. | 12-12-2013 |
| 20130329349 | BATTERY STRUCTURE AND INTEGRATION - A portable electronic device is described. This portable electronic device includes an external housing with a cavity defined by an edge. A keyboard, having a front surface and a back surface, is disposed in the cavity with the front surface facing the external housing. Moreover, a tray is disposed over the back surface of the keyboard, and is mechanically coupled to the external housing adjacent to the edge. Furthermore, battery cells are mechanically coupled to an opposite side of the tray from the back surface of the keyboard. The tray may allow the battery cells to be removed from the portable electronic device without damaging the keyboard. In addition, the tray may increase the compression strength and/or the bending strength of the portable electronic device. | 12-12-2013 |
| 20130329352 | SOLID-STATE DRIVE WITH PASSIVE HEAT TRANSFER - The disclosed embodiments relate to a system that facilitates thermal conductance in a system that includes a module comprising a circuit board with integrated circuits, such as a solid-state drive. A thermal-coupling material between one side of the circuit board and an adjacent baseplate is used to increase thermal conduction between the circuit board and the baseplate. Furthermore, the module may include another thermal-coupling material between the baseplate and a housing that at least in part surrounds the circuit board, thereby increasing thermal conduction between the baseplate and the housing. In these ways, the baseplate and/or the housing may be used as a heat-transfer surfaces or heat spreaders that reduce hotspots associated with operation of the integrated circuits. | 12-12-2013 |
| 20130329354 | MASS STORAGE DEVICE WITH ELASTOMERIC MATERIAL AND RELATED PORTABLE COMPUTING DEVICE AND METHOD - Absorbers for a mass storage device are provided. The absorbers may be configured to protect the mass storage device from drop events and reduce the transmission of vibrations from and/or to the mass storage device. Additionally, the absorbers may occupy a smaller amount of space than traditional snubber mounting arrangements. The absorbers may include major surface absorbers formed from a first elastomeric material that engage major surfaces of the mass storage device. Corner absorbers formed from a second elastomeric material may engage the corners of the mass storage device and the side walls of a compartment in a case. The major surface absorbers and the corner absorbers may distribute and absorb load applied during a drop event. A related portable computing device and a related method are also provided. | 12-12-2013 |
| 20130329450 | PORTABLE COMPUTING DEVICE - The present application describes various embodiments regarding systems and methods for providing a lightweight and durable portable computing device having a thin profile. The portable computing device can take the form of a laptop computer. The laptop computer can include a uni-body top case having an integrated support system formed therein, the integrated support system providing structural support that distributes applied loads through the top case preventing warping and bowing. | 12-12-2013 |
| 20130329915 | MICROPHONE FEATURES RELATING TO A PORTABLE COMPUTING DEVICE - A portable computing device includes one or more microphones that function seamlessly with other components within the portable computing device. In one embodiment, a microphone opening is disposed on a side of the personal computing device and configured to be substantially perpendicular to a user. In another embodiment, a second microphone opening is disposed co-planar to the first microphone opening and positioned a predetermined distance apart. In another embodiment, one or more microphone openings can be disposed in a keyboard area and substantially between left and right sides of the portable computing device. In yet another embodiment, one or more microphone openings can be disposed underneath keycaps of the portable computing device. | 12-12-2013 |
| 20130329934 | SPEAKER FEATURES OF A PORTABLE COMPUTING DEVICE - A portable computing device can include one or more speakers integrated with internal components. In one embodiment, the speakers can be configured to produce audio output signals and direct at least a portion of the audio signals through vents disposed on a base portion of the portable computing device. In one embodiment, the vents can also direct cooling air into the base portion. In one embodiment, the speakers can also be configured to direct a portion of the audio signal through a speaker grille disposed on the base portion. One embodiment of a speaker enclosure can include a resonant cavity for a first audio transducer formed by the speaker enclosure in cooperation with the base portion of the portable computing device and a second audio transducer configured to direct an audio signal beneath a keyboard. | 12-12-2013 |
| 20130330975 | CABLELESS BATTERY INTEGRATION - An interposer for electrically coupling a battery-management circuit board in a power supply and a motherboard is described. The interposer includes: a substrate having a top surface and a bottom surface; first spring connectors, disposed on the top surface, which electrically couple to the battery-management circuit board; and second spring connectors, disposed on the bottom surface and electrically coupled to the first spring connectors, which electrically couple to the motherboard. Spring connectors in a first subset of the first and second spring connectors that convey power signals have a first vertical height, and spring connectors in a second subset of the first and second spring connectors that convey monitoring signals for the power supply have a second, smaller vertical height. In this way, the first subset is activated before the second subset is activated, thereby ensuring that an electrical path for the power signals is established first. | 12-12-2013 |
| 20140077670 | PORTABLE COMPUTING DEVICE - The present application describes various embodiments regarding systems and methods for providing a lightweight and durable portable computing device having a thin profile. The portable computing device can take the form of a laptop computer. The laptop computer can include a uni-body top case having an integrated support system formed therein, the integrated support system providing structural support that distributes applied loads through the top case preventing warping and bowing. | 03-20-2014 |
| 20140079508 | FLOATING FASTENERS - One or more fastenings can be used to fasten components together, such as housing components on a computing device. Each fastening can include a first opening associated with a first component, a second opening associated with a second component, a floating fastener, and a screw. The floating fastener is inserted into the first opening and/or second opening, and includes a threaded opening therein having a primary axis therethrough. The screw is inserted through first and/or second openings and into the threaded opening in the floating fastener. The screw and threaded opening combination is defined by contact between the screw and threaded opening about a thread surface that is substantially perpendicular to the primary axis, a screw thread return angle of 45 degrees or less, and a thread depth that is less than about triple the float between the major diameters of the screw and the threaded opening. | 03-20-2014 |
| 20140113184 | THREE-DIMENSIONAL NON-RECTANGULAR BATTERY CELL STRUCTURES - The disclosed embodiments provide a battery cell. The battery cell includes a set of layers including a cathode with an active coating, a separator, and an anode with an active coating. The battery cell also includes a pouch enclosing the layers. Finally, the battery cell has a three-dimensional non-rectangular shape to facilitate efficient use of space within a portable electronic device powered by the battery cell. | 04-24-2014 |
| 20150163960 | OPTMIZED VENT WALLS IN ELECTRONIC DEVICES - The disclosed embodiments related to a component for use in a portable electronic device. The component includes a wall of the portable electronic device, containing an intake zone that includes a set of intake vents directed at a first angle toward one or more heat-generating components of the portable electronic device. The wall also includes an exhaust zone containing a set of exhaust vents directed at a second angle out of the portable electronic device. | 06-11-2015 |
| 20160042891 | KEYBOARD - Embodiments of keyboards having variations of electrically connecting keys to an internal component of an electronic device are described. Some embodiments include positioning several rows of conductive layers below several rows of keys. The conductive layers may be configured to receive a signal indicating a key has been depressed. Also, the internal component may be configured to scan the conductive layers to determine whether a key or keys have been depressed. In some embodiments, the conductive layers lie outside a portion of the electronic device in which internal components are traditionally located. In some embodiments, a substrate may be integrally connected with the keyboard. The substrate may receive some internal components of the electronic device. | 02-11-2016 |
| 20160048163 | INTERNAL COMPONENTS OF A PORTABLE COMPUTING DEVICE - The present application describes various embodiments of systems and methods for providing internal components for portable computing devices having a thin profile. More particularly, the present application describes internal components configured to fit within a relatively thin outer enclosure. | 02-18-2016 |
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| 20090236120 | SEPARATOR TAPE FOR TWISTED PAIR IN LAN CABLE - A cable includes a jacket surrounding first and second insulated conductors and a first dielectric tape, wherein the first insulated conductor is twisted with the second insulated conductor with the first dielectric tape residing therebetween to form a first twisted pair. The cable's jacket may also surround a similarly formed second twisted pair. In alternative or supplemental embodiments of the invention, the first insulated conductor includes a first conductor surrounded by a layer of first dielectric insulating material having a radial thickness of about 7 mils or less; the first dielectric tape has a first width which is equal to or less than the diameters of the first and second insulated conductors plus a thickness of the first dielectric tape; the first dielectric tape has a cross sectional shape, which presents first and second recessed portions for seating the first and second insulated conductors; twist lengths of the first and second twisted pairs are between approximately 0.22 to 0.38 inches and different from each other; the first dielectric tape is different in shape, size or material content as compared to a second dielectric tape of the second twisted pair; the insulated conductors of the first and second twisted pairs are identical in appearance, while the first and second dielectric tapes are different in appearance; and/or the first dielectric tape has a hollow core possessing a gas or material with a lower dielectric constant. | 09-24-2009 |
| 20090236121 | REDUCED SIZE IN TWISTED PAIR CABLING - A twisted pair cable and a method of making the twisted pair cable are described. First and second insulated conductors are twisted about each other to form a twisted pair. A first insulating material surrounds a first conductor to form the first insulated conductor. In a first alternative or supplemental embodiment, the first insulating material directly abuts a circumference of the first conductor and has a first area with a first radial thickness and a second area with a thinner radial thickness. In a second alternative or supplemental embodiment, the first insulating material has a first area with a first radial thickness and a second area with a thinner radial thickness and the first area resides along a portion of the first insulated conductor which is abutting the second insulated conductor. | 09-24-2009 |
| 20100126620 | METHODS AND APPARATUS FOR FORMING CABLE MEDIA - An apparatus for forming a cabling media using a wire pair including first and second conductor members, each of the first and second conductor members including a respective conductor and a respective insulation cover surrounding the conductor thereof, includes a wire pair twisting device and a wire pair twist modulator. The wire pair twisting device is adapted to twist the first and second conductor members about one another to form a twisted wire pair. The wire pair twist modulator is upstream of the wire pair twisting device. The wire pair twist modulator includes an engagement member to hold the first and second conductor members at a hold location to restrict rotation of the first and second conductor members about one another. The apparatus defines a twist zone extending from the hold location to a twist initiation location of the wire pair twisting device. The wire pair twist modulator is operable to move the engagement member along a control axis to modulate the length of the twist zone and thereby the twist length of the wire pair to form the twisted wire pair with a twist length that purposefully varies along a length of the twisted wire pair. | 05-27-2010 |
| 20130014972 | Separator Tape for Twisted Pair in LAN CableAANM Wiebelhaus; David A.AACI HickoryAAST NCAACO USAAGP Wiebelhaus; David A. Hickory NC USAANM Hayes; Trent M.AACI HickoryAAST NCAACO USAAGP Hayes; Trent M. Hickory NC USAANM Hopkinson; Wayne C.AACI HickoryAAST NCAACO USAAGP Hopkinson; Wayne C. Hickory NC US - A cable includes a jacket surrounding first and second insulated conductors and a first dielectric tape, wherein the first insulated conductor is twisted with the second insulated conductor with the first dielectric tape residing therebetween to form a first twisted pair. The cable's jacket may also surround a similarly formed second twisted pair. In alternative or supplemental embodiments of the invention, the first insulated conductor includes a first conductor surrounded by a layer of first dielectric insulating material having a radial thickness of about 7 mils or less; the first dielectric tape has a first width which is equal to or less than the diameters of the first and second insulated conductors plus a thickness of the first dielectric tape; the first dielectric tape has a cross sectional shape, which presents first and second recessed portions for seating the first and second insulated conductors; twist lengths of the first and second twisted pairs are between approximately 0.22 to 0.38 inches and different from each other; the first dielectric tape is different in shape, size or material content as compared to a second dielectric tape of the second twisted pair; the insulated conductors of the first and second twisted pairs are identical in appearance, while the first and second dielectric tapes are different in appearance; and/or the first dielectric tape has a hollow core possessing a gas or material with a lower dielectric constant. | 01-17-2013 |
| 20140238721 | SEPARATOR TAPE FOR TWISTED PAIR IN LAN CABLE - A cable includes a jacket surrounding first and second insulated conductors and a first dielectric tape, wherein the first insulated conductor is twisted with the second insulated conductor with the first dielectric tape residing therebetween to form a first twisted pair. The cable's jacket may also surround additional twisted pairs, which are similarly formed. In alternative or supplemental embodiments of the invention, the first dielectric tape has a hollow core possessing a gas or material with a lower dielectric constant and/or at least a first side of said first dielectric tape facing to said first insulated conductor includes a plurality of ridges and valleys. | 08-28-2014 |
| 20140262411 | EXTENDED CURL S-SHIELD - A cable includes a jacket surrounding a cable core. The cable core includes four twisted pairs. One or more S-shaped separators are disposed amongst the twisted pairs. The S-Shaped separators may be formed with two layers or three layers, wherein at least one layer is conductive. Where two S-shaped separators are disposed within the cable, a third conductive tape may be used to electrically connect the first and second S-shaped separators. In alternative embodiments, one or both ends of an S-shaped separator make electrical contact to mid-portions of the separator to create one or two shielding cambers within the cable. | 09-18-2014 |
| 20140262425 | SHIELDED CABLE WITH UTP PAIR ENVIRONMENT - A cable includes a spacer surrounding a cable core. The cable core includes four twisted pairs. A separator is disposed amongst the twisted pairs. The separator may be formed with three layers, wherein a middle layer is conductive and outer layers are nonconductive. A jacket surrounds the spacer, and a shielding layer may reside between the jacket and the spacer. The spacer may be formed of plural fibers or a polymer. Preferably, the spacer presents a lower dielectric constant per unit volume than the jacket. The separator may have a tape shape or a plus shape. | 09-18-2014 |
