Patent application number | Description | Published |
20150215208 | PACKET SWITCH USING PHYSICAL LAYER FIBER PATHWAYS - The present disclosure relates to a system for communicating traffic within a network. The system includes a plurality of switches for receiving/transmitting traffic within the network, a programmable physical layer pathway for providing one or more pathways between the plurality of switches and a controller for controlling the plurality of switches and the programmable physical layer pathway for optimizing a flow of traffic within the network., wherein the controller defines the pathway based on a destination of traffic received by the plurality of switches. | 07-30-2015 |
20150280989 | Built In Alternate Links Within A Switch - The network switch architecture permits modifications to the network topology in real time without the need for manual intervention. In this architecture, a switching core is capable of switching data paths directly from the ingress or egress of the switching core to alternate destination ports in real time, either under software or hardware control. | 10-01-2015 |
20160007102 | DATA CENTER PATH SWITCH WITH IMPROVED PATH INTERCONNECTION ARCHITECTURE - A data center path switch architecture permits path switching of the signal path of incoming signals to one or more output paths in real time without the need for manual intervention, and without delays associated with current data center network switches. In this architecture, a switching core capable of switching signals directly from the ingress of the switching core to alternate destination ports in real time, either under software or hardware control. | 01-07-2016 |
20160091685 | DATA CENTER NETWORK - The present disclosure provides a data center network having one or more data center rows, where each row has one or more racks, and each rack has one or more network devices, such as servers, storage devices and switches. The rows and racks are interconnected by a fiber interconnect core that reduces the number of switching nodes in the data center network, and reduces the individual path latency, the overall data center network cost, power consumption, and power and cooling requirements. | 03-31-2016 |
Patent application number | Description | Published |
20080228956 | System and method for remote communication with a multifunctional device - Systems and methods for transmitting information from a multifunctional device to a centralized management server are disclosed. A method for transmitting information between a multifunctional device and a centralized management server includes collecting information from a multifunctional device using a wireless device; rendering the information secure using a secure functionality; and transmitting the secure information over a network to a centralized management server. | 09-18-2008 |
20100328705 | METHOD AND SYSTEM FOR AUTOMATIC SHARING AND CUSTOMIZATION IN A FLEET OF MULTI-FUNCTION DEVICES - A method and system for enabling automatic service sharing and custom user interface features in a fleet of multi-function devices. EIP (Extensible Interface Platform) services can be registered via a peer-to-peer discovery subsystem associated with a multi-function device grid infrastructure. EIP service registration information can be submitted and stored in the grid infrastructure. The multi-function devices can be equipped with an enterprise EIP client, which can query the discovery subsystem and apply a corporate policy. The discovery subsystem detects the optimal instance of the service based on loading and availability factors and then returns a reference with respect to the services that allows access to enhanced services. Such an approach enables a fleet of multi-function devices to dynamically discover EIP services and auto populate service options to provide increased capability, reduced complexity, and improved speed. | 12-30-2010 |
20110057798 | Personalization of Event Participation in Mobile Neighborhoods - Embodiments described herein are directed to personalizing event participation of a visitor at an event. Embodiments include communication nodes that form defined wireless areas. A first one of the communication nodes determines when the visitor enters a first defined wireless area in response to detecting an identifier associated with the personal portable wireless device associated with the visitor, records user activities of the visitor within the first one of defined wireless areas, and determines an interest of the visitor in response to the user activities in the first defined wireless area, where the interest is used to customize the event for the visitor. | 03-10-2011 |
20110216349 | DELAYED PRINTING FROM A COMPUTERIZED DEVICE - A user of a computerized device creates an item capable of being printed and stores the item within storage of the computerized device. An instruction to perform delayed printing of the item is received from a user of a computerized device when the user is outside a predetermined physical range of at least one printing device. The computerized device detects when the computerized device is within the predetermined physical range of the printing device and, when this occurs, the computerized device provides the user a printing option to print the item on the printing device. If the user selects the printing option, the methods herein forward the item to a conversion device. The conversion device makes the item print ready so that the item can be printed using the printing device. The methods herein then cause the item to be forwarded from the conversion device to the printing device and printed on the printing device. | 09-08-2011 |
20120092727 | APPARATUS FOR LOW COST EMBEDDED PLATFORM FOR DEVICE-SIDE, DISTRIBUTED SERVICES ENABLEMENT - A class of add-on system components providing functionality of devices, management of self-help, customization and enhancement of services for devices, and remote monitoring at significantly reduced cost. It reduces the cost of UI and greatly enhances ease-of-use by realizing that the networked system can be headless and use a browser-based UI for its platform. It embeds a Device Model Agent (DMA) and connects to the Device-Centric Services platform to offer services. Additionally, it offers customized diagnostic access for customer representatives to enable self-help service actions to be performed, unifies and manages multiple access needs to several disparate data access mechanisms, and uses largely COTS PC hardware rather than customized PWBs. | 04-19-2012 |
20140156518 | METHOD AND SYSTEMS FOR SUB-ALLOCATING COMPUTATIONAL RESOURCES - The disclosed embodiments relate to systems and methods for method and systems for sub-allocating computational resources. A first computing device receives information associated with a first set of computational resources from a cloud infrastructure. The first set of computational resources has been allocated to the first computing device by the cloud infrastructure. A first set of parameters associated with a workflow received by the first computing device is determined. The first set of parameters is indicative of a need of the first set of computational resources by the first computing device. One or more computational resources from the first set of computational resources are sub-allocated based on the determined first set of parameters. | 06-05-2014 |
Patent application number | Description | Published |
20100101404 | HIGH-ENERGY IMPACT ABSORBING POLYCARBONATE MOUNTING METHOD - The present invention provides a bi-active method of mounting a monolithic polycarbonate sheet or a laminate in a semi-rigid metallic framing system along two parallel sides of a rectangular shaped sheet or laminate with the two shorter parallel sides being unconstrained. In the case of a square shaped sheet, two parallel sides are supported in the semi-rigid frame, and the other two parallel sides are unconstrained. The semi-rigid frame utilizes cylindrically shaped hardware (i.e., bolts, rivets, studs, etc.) to hold the sheet or laminate. The semi-rigid frame is designed, via section and material properties, to flex and hinge about fixed mounting points along the length of the frame. | 04-29-2010 |
20110048219 | Blast-resistant barrier - A blast-resistant barrier comprising a plurality of units each including a panel having a thickness of greater than 20 to less than 40 millimeter is disclosed. The panel is in the form of a monolithic polycarbonate sheet or laminate that is positioned vertically between the source of a blast and the blast target, the laminate including at least two polycarbonate sheets and an optional image layer interposed therebetween. The panel is fixedly attached to a frame which is firmly embedded in concrete in a manner calculated to provide stiffness sufficient to absorb and withstand external forces resulting from said blast. | 03-03-2011 |
20140290473 | POLYCARBONATE LAMINATE FOR CLOSE-PROXIMITY BLAST EVENTS - The present invention provides a laminate for protecting an object against close-proximity blasts, ballistic and severe storm events, the laminate comprising two or more layers of polycarbonate having layered there between one or more layers of a thermoplastic polyurethane. Also provided is a method of protecting an object from a close-proximity blasts, ballistic and severe storm events, the method comprising placing between the object and the close-proximity blast, ballistic or severe storm event, the inventive laminate. The inventive laminate can afford increased protection to an object against 50 lbs. to 100 lbs. of trinitrotoluene-equivalent from distances as close as about 3 feet (0.91 m). | 10-02-2014 |
20150090411 | POLYCARBONATE LAMINATE WINDOW COVERS FOR RAPID DEPLOYMENT PROVIDING PROTECTION FROM FORCED-ENTRY AND BALLISTICS - The present invention provides a rapidly deployable window cover comprising a laminate panel comprising two or more layers of polycarbonate having layered therebetween one or more layers of a thermoplastic polyurethane, having a plurality of openings arranged around the periphery thereof and the plurality of openings extending through the panel; and a plurality of fasteners; wherein the plurality of openings are sized and shaped to receive the plurality of fasteners therethrough, and wherein the fasteners attach the panel to a structure in which the window is embedded such that the panel shields the window. | 04-02-2015 |
20150226529 | ENERGY ABSORBER FOR HIGH-PERFORMANCE BLAST BARRIER SYSTEM - The present invention provides an energy absorber for a blast barrier system comprising a substantially tubular member extending longitudinally along an axis from a first end portion to a second end portion, each of the first end portion and the second end portion having a substantially similar geometric profile, wherein the energy absorber collapses under a predetermined load when compressed by a residual blast force. The energy absorber of the present invention may help minimize damage to people and structures by further dissipating force from a blast in a blast barrier system. | 08-13-2015 |
Patent application number | Description | Published |
20150272589 | ANEURYSM OCCLUSION DEVICE - An occlusion device suitable for endovascular treatment of an aneurysm in a blood vessel in a patient, including a substantially tubular structure having a proximal end region and a distal end region, having a first, expanded condition and a second, collapsed condition. The device has dimensions in the second, collapsed condition suitable for insertion through vasculature of the patient and through a neck of the aneurysm. The device further includes a control ring having a substantially annular body disposed on the proximal end region of the structure and at least substantially circumscribing the proximal end region to prevent radial expansion of the proximal end region and to provide an engagement feature during manipulation of the occlusion device. | 10-01-2015 |
20150374382 | EMBOLIC COIL DETACHMENT MECHANISM WITH HEATING ELEMENT AND KICKER - Provided herein are a system, method, and apparatus for delivering a therapeutic device, e.g. an embolic coil, from a delivery tube at a target site in a patient's body. A heating element is disposed in the delivery tube that can be actuated remotely, and a layer of low temperature adhesive is applied at the heating element to retain the therapeutic device. The kicker in the form of, for example, a compressed spring is mounted within the delivery tube so as to be in contact with the therapeutic device for applying a constant ejector force that is countered by the adhesive force of the low temperature adhesive. When the heating element is actuated, the spring's ejector force overcomes the softened adhesive's adhesive force to force the therapeutic device out of the delivery tube. | 12-31-2015 |
20160038150 | EMBOLIC COIL DELIVERY SYSTEM WITH RETRACTABLE MECHANICAL RELEASE MECHANISM - An embolic device deployment system includes a catheter having a first lumen and proximal and distal ends. A notch is disposed in the first lumen, forming a second lumen. An embolic device has a retaining ring at the proximal end. An engagement member includes a distal loop extending through the retaining ring, and a proximal loop extending into the first lumen. An elongated detachment member can be disposed through the loops and have a detachment member bump disposed between the loops. When the detachment member is disposed within the distal loop and the distal loop is disposed within the retaining ring, the embolic device is engaged. When the detachment member is pulled proximally, the detachment member is withdrawn from the distal loop, and the detachment member bump contacts the proximal loop. These acts assist in the disengagement of the distal loop from the retaining ring to release the embolic device. | 02-11-2016 |
20160038721 | STEP FEATURE FOR STEERABLE GUIDEWIRES - A mechanism can include a step feature guidewire having a guidewire with a proximal end, a distal end, and a diameter. A self-expanding element can be disposed approximate to the distal end of the guidewire and can have at least two states which include a contracted diameter and an expanded diameter. The self-expanding element can be expandable under its inherent proprieties, based at least on its original shape and the nature of the materials that make up the element. Further, the expanded diameter can be approximately 70% to 280% of the guidewire diameter. While the guidewire is designed for passing through a body lumen while treating a patient, the expanded diameter is less than any body lumen diameter the guidewire is determined to pass through. | 02-11-2016 |
Patent application number | Description | Published |
20080243227 | RADIOPAQUE MARKERS FOR IMPLANTABLE STENTS AND METHODS FOR MANUFACTURING THE SAME - Radiopaque markers for use with stents implantable within a body vessel are provided with one or more through-holes. Each through-hole extends through the thickness of the marker to expose a portion of the stent underlying the marker. The marker is welded to the stent through each through-hole. Also provided are stents incorporating a radiopaque marker having one or more through-holes suitable for receiving a weld. Methods are provided for securing a radiopaque marker having one or more through-holes to a stent. | 10-02-2008 |
20090138023 | Actuator Handle for Use With Medical Device Deployment Systems - An actuator handle for use with an implantable medical device deployment system. The actuator handle includes a first actuator and a second actuator for manipulating and controlling first and second retaining members of the deployment system to effectuate release of a medical device from the deployment system. | 05-28-2009 |
20090270877 | Detachment Actuator for Use With Medical Device Deployment Systems - A detachment actuator for use with an implantable medical device deployment system that guide and deploys the medical device at a target location within a body vessel. The detachment actuator includes a first portion that is connected the implantable medical device and a second portion that is attached to a control member the controls the release of the medical device, The second portion of the detachment actuator detaches and moves away from the first portion of the detachment actuator to move the control member and release the medical device. | 10-29-2009 |
20090312748 | Rotational detachment mechanism - A handle for use with an implantable medical device deployment system that guides and deploys the medical device at a target location within a body vessel. The handle includes a rotatable member, rotation of which causes movement of a control member of the deployment system in an axial direction. An actuator in a handle may include a threaded portion which has at least two different pitch sizes. | 12-17-2009 |
20130204288 | MODIFIABLE OCCLUSION DEVICE - An occlusive device suitable for endovascular treatment of an aneurysm in a region of a parent vessel in a patient, including a structure having a pre-established pore features and having dimensions suitable for insertion into vasculature of the patient to reach the region of the aneurysm in the parent vessel. The device further includes a frangible material associated with the pore features which initially provides a substantial barrier to flow through the frangible material and is capable of at least one of localized rupturing and localized eroding, in the presence of a pressure differential arising at an ostium of a perforator vessel communicating with the parent vessel, within an acute time period to minimize ischemia downstream of the perforator vessel. | 08-08-2013 |
20130261656 | EMBOLIC COIL DETACHMENT MECHANISM WITH POLYMER TETHER - Provided herein are a system and method for detaching a therapeutic device, e.g. an embolic coil, from a delivery tube at a target site in a patient's body. The system includes a bead disposed against a distal end of the therapeutic device that retains the therapeutic device to the delivery tube in a first compressed configuration through a series of connectors. The series of connectors include a stretch resistant member through which the bead is attached to an anchor inside the therapeutic device. The anchor, in turn, is disposed against a thermally responsive element comprised of a polymeric material configured to melt or otherwise change configuration to release the anchor, and with it, to also release the bead and therapeutic device. Energy may be supplied to the thermally responsive element through electrical conductors and a resistive heating element disposed within the delivery tube. | 10-03-2013 |
20130261657 | EMBOLIC COIL DETACHMENT MECHANISM WITH HEATING ELEMENT AND KICKER - Provided herein are a system, method, and apparatus for delivering a therapeutic device, e.g. an embolic coil, from a delivery tube at a target site in a patient's body. A heating element is disposed in the delivery tube that can be actuated remotely, and a layer of low temperature adhesive is applied at the heating element to retain the therapeutic device. The kicker in the form of, for example, a compressed spring is mounted within the delivery tube so as to be in contact with the therapeutic device for applying a constant ejector force that is countered by the adhesive force of the low temperature adhesive. When the heating element is actuated, the spring's ejector force overcomes the softened adhesive's adhesive force to force the therapeutic device out of the delivery tube. | 10-03-2013 |
20130261658 | EMBOLIC COIL DETACHMENT MECHANISM WITH FLEXIBLE DISTAL MEMBER, RESISTIVE ELECTRICAL HEATING ELEMENT AND SHAPE MEMORY POLYMER ELEMENT - An embolic coil detachment system includes an elongated, flexible shape memory polymer tube having an inner wall surface defining an interior lumen. A distal portion of the shape memory polymer tube has an enlarged and reduced diameter configurations. An embolic coil is releasably mounted to the shape memory polymer tube by a headpiece releasably attached within a distal portion of the shape memory polymer tube. A resistive heating element disposed longitudinally along and in immediate contact with the inner wall surface of the distal tubular wall of the shape memory polymer tube provides direct, even heating to release the headpiece and embolic coil attached thereto when the resistive heating element is energized. | 10-03-2013 |
20130261659 | EMBOLIC COIL DETACHMENT MECHANISM WITH FLEXIBLE DISTAL MEMBER AND COUPLING UNION - Provided herein are a system and method for detaching a therapeutic device, e.g. an embolic coil, from a delivery tube at a target site in a patient's body. The system includes a bead disposed against a distal end of the therapeutic device that retains the therapeutic device to the delivery tube in a first compressed configuration through a coupling union comprising a series of connectors. The series of connectors may include a stretch resistant member through which the bead is attached to an anchor inside the therapeutic device. The anchor, in turn, may be disposed against a thermally responsive element comprised of a polymeric material configured to melt or otherwise change configuration to release the anchor, and with it, to also release the therapeutic device. Energy may be supplied to the thermally responsive element through electrical conductors and a resistive heating element disposed within the delivery tube. | 10-03-2013 |
20130261713 | EMBOLIC COIL DETACHMENT MECHANISM WITH FLEXIBLE DISTAL MEMBER AND RESISTIVE ELECTRICAL HEATING ELEMENT - An embolic coil detachment system includes an elongated, flexible polymer tube having a tubular wall with an inner surface defining an interior lumen. A distal portion of the tubular wall has a score line, and a resistive heating element is located near the score line and in immediate contact with a surface of a distal portion of the tubular wall, to provide direct heating of the distal portion of the flexible polymer tube adjacent to the score line. A therapeutic embolic coil includes a headpiece that is releasably attached within the distal portion of the flexible polymer tube, and that is releasable by heating of the distal portion of the tubular shaft to cause the distal portion of the tubular wall to split along the score line. | 10-03-2013 |
20140094901 | RADIOPAQUE MARKER FOR VASCULAR DEVICES - A marker to assist locating a device such as an expandable stent within vasculature of a patient, including an elongated body formed of a biocompatible radiopaque material that enhances locating the marker when using at least one imaging technique. The body has a first end, a second end, an inner surface, an outer surface, and at least two opposing edges extending between the first and second ends and establishing a boundary between the inner surface and the outer surface. The inner surface of the body defines a passageway extending between the first and second ends. In a first condition, the body defines a gap between the at least two opposing edges, the gap enabling unobstructed communication of the passageway with the outer surface of the body. In a second condition, the gap is obstructed to substantially prevent communication of the passageway with the outer surface of the body. | 04-03-2014 |
20140257452 | STENT DELIVERY SYSTEM AND METHOD - A system is provided to effectively position a stent within a vessel. The system includes a delivery catheter and a core wire extend through the catheter. The core wire includes an engaging surface region and a capture member disposed thereon, which cooperate to engage a stent such that the stent is able to be advanced or retracted with the advancement or retraction of the core wire. The engaging surface region and the capture member can generally be configured to engage the stent when a portion of the stent is disposed within the lumen of the catheter, and release the stent when no portion of the stent is within the lumen. | 09-11-2014 |
20140277078 | Occlusive Device Delivery System With Mechanical Detachment - A delivery system for an embolic coil including a delivery tube having a lumen. A proximal coil junction is disposed between the delivery tube and the embolic coil. Insertable through the lumen and extending proximally beyond the proximal end of the delivery tube is a detachable wire with a terminating feature disposed on its distal end. At least one stretch resistant member is disposed within a lumen formed by the embolic coil. A distal end of each of the at least one stretch resistant members is secured to a distal end of the embolic coil, while each of the at least one stretch resistant members is also secured proximate the proximal end of the embolic coil. The distal end of the delivery tube is retained by the wire physically against without being attached in any way to the proximal junction. | 09-18-2014 |
20140277357 | Distal Capture Device for a Self-Expanding Stent - A delivery system including a distal capture device that has a sleeve with a passageway defined axially therethrough and one or more elastically deformable sections. Each of the one or more elastically deformable sections has a free terminating end and an opposite end mounted to the distal end of the sleeve. The elastically deformable sections transition between: (i) a fully expanded state in which the elastically deformable section is distally biased in a direction away from the sleeve; and (ii) a retracted state in which the free terminating end of each of the elastically deformable sections is proximally deflected backwards over itself in a direction toward the proximal end of the sleeve. | 09-18-2014 |
20140277359 | CAPTURE TUBE MECHANISM FOR DELIVERING AND RELEASING A STENT - A capture tube mechanism for delivering and releasing a self-expanding stent includes a core wire on which a proximal portion of the stent is removably retained by a distal portion of a tubular capture sleeve. In one embodiment, one or more elongated members extending through corresponding apertures through the capture sleeve and out the distal end of the capture sleeve can be pulled to split the tubular capture sleeve to release the stent. In another embodiment, the capture sleeve can be pulled proximally over one or more stop members provided on the core wire to release the stent. | 09-18-2014 |
20140277360 | DELIVERY SYSTEM FOR EXPANDABLE STENTS - A system for delivering and releasing a self-expanding stent includes a catheter, a tubular self-expanding stent configured to be constrained from expanding when the tubular self-expanding stent is contained within the catheter, and a core advancement wire disposed within and extending through a lumen of the tubular self-expanding stent. One or more stop members on the core advancement wire engage one or more anchor members on the stent when the core advancement wire is translated longitudinally toward the one or more anchor members. | 09-18-2014 |
20140277376 | BRAID EXPANSION RING WITH MARKERS - An expansion ring for a braided stent includes a plurality of elongated forked frame elements forming the expansion ring. Each of the frame elements includes first and second legs extending in one direction and connected together at a junction portion forming a fulcrum allowing compression of the frame elements, and each of the frame elements are threaded through interstices in a tubular body of the braided stent so that the junction portions engage the tubular body of the braided stent. Each of the frame elements is connected sequentially to adjacent frame elements at the ends of the first and second legs, and the expansion ring has a compressed configuration with a first diameter and an expanded configuration with a second diameter larger than the first diameter. | 09-18-2014 |
20140277386 | BRAIDED FLOW DIVERTER USING FLAT-ROUND TECHNOLOGY - A generally tubular braided flow diverting stent is formed of alternating round and rectangular elongated members, for treatment of aneurysms. The generally tubular braided flow diverting stent maintains a significant wall thickness while increasing area coverage of a vessel wall. Sliding of the round elongated members over the rectangular elongated members allows the stent to be crimped to very low diameters for delivery in narrow portions of the vasculature. | 09-18-2014 |
20140277397 | VARIABLE POROSITY INTRAVASCULAR IMPLANT AND MANUFACTURING METHOD - A vascular occlusion device for effectively occluding blood flow and pressure to a vascular defect while simultaneously not occluding blood flow and pressure to adjacent vasculature is provided. The vascular occlusion device can include a tubular member that has variable porosity regions along its length. The tubular member can be formed of a plurality of filaments that have different cross-sectional shapes along their length that are indexed to the variable porosity regions along the length of the tubular member. | 09-18-2014 |
20150297374 | BRAIDED FLOW DIVERTER USING FLAT-ROUND TECHNOLOGY - A generally tubular braided flow diverting stent is formed of alternating round and rectangular elongated members, for treatment of aneurysms. The generally tubular braided flow diverting stent maintains a significant wall thickness while increasing area coverage of a vessel wall. Sliding of the round elongated members over the rectangular elongated members allows the stent to be crimped to very low diameters for delivery in narrow portions of the vasculature. | 10-22-2015 |
20160032503 | VARIABLE POROSITY INTRAVASCULAR IMPLANT AND MANUFACTURING METHOD - A vascular occlusion device for effectively occluding blood flow and pressure to a vascular defect while simultaneously not occluding blood flow and pressure to adjacent vasculature is provided. The vascular occlusion device can include a tubular member that has variable porosity regions along its length. The tubular member can be formed of a plurality of filaments that have different cross-sectional shapes along their length that are indexed to the variable porosity regions along the length of the tubular member. | 02-04-2016 |
20160081693 | Vasculature Occlusion Device Detachment System With Tapered Corewire and Heater Activated Fiber Detachment - A vasculature occlusion device detachment system including a heating element of a predetermined resistivity. A coil securing suture terminates in a proximal bead retained within the heating element while the distal end of the coil securing suture extends beyond the distal end of the heating element and is attached to the proximal end of the vasculature occlusion device. The coil securing suture is independently rotatable of the heating element 360 degrees about a longitudinal axis extending therethrough the heating element. A power source applies electrical current to the heating element via an electrically conductive corewire and separate insulated electrically conductive wire to increase its resistance and, as a result of the heat produced, sever the coil securing suture. | 03-24-2016 |
20160081694 | Vasculature Occlusion Device Detachment System With Tapered Corewire and Single Loop Fuse Detachment - A vasculature occlusion device detachment system including a heating fuse element made of a material that melts when a current is applied that exceeds a predetermined maximum current threshold. An electrically conductive corewire connected proximate its distal end directly to the heating fuse element at a first electrical connection joint, while a separate insulated electrically conductive wire is electrically connected directly to the heating fuse element at a second electrical connection joint. An inner insulation sleeve placed over a distal section of the corewire covers the first electrical connection joint and is disposed between the insulated electrically conductive wire and the electrically conductive corewire. An outer insulation sleeve is disposed over a distal section of an assembly including the insulated electrically conductive wire, the inner insulation sleeve and the electrically conductive corewire. The outer insulation sleeve covers the second electrical connection joint. | 03-24-2016 |