A method for attaching an electrode to cabling, including providing a cable having a plurality of insulated wires coiled around a central core. The method further includes removing insulation from each wire in a set of the coiled wires so as to provide a respective access channel to a respective section of a respective conductor of each wire in the set while the respective section remains coiled on the central core. The method further includes fastening a respective electrode to the respective access channel while the respective section remains coiled on the central core.

This disclosure is directed to a catheter having a basket-shaped electrode assembly with a high electrode density. The basket-shaped electrode assembly may have a plurality of spines, such as up to twelve, each with a plurality of electrodes, such as up to sixteen. Each spine may have cabling with embedded coiled wires such that each electrode is attached through the sheath to one of the wires.

A connector includes, in one embodiment, a first component, a coupling element configured to engage the first component, and a second component configured to engage the first component. The second component, in one embodiment, is configured to produce a spring, pushing or biasing force.

An apparatus including a central access control system and an access reader. The access reader is structured to receive an access credential from the central access control system, and includes a first connector connected with a second connector with the second connector connected to a cable, and with the cable in electronic communication with the central access control system. Connection of the first connector and the second connector places the access reader in electronic communication with the central access control system.

An apparatus used in terminating and winding coils of a core of a dynamo electric machine. The coils being formed from at least an electric wire and the core having a longitudinal axis. The coils are wound by relatively moving a wire dispenser with respect to a core with relative motions of translation and rotation; at least a stretch of wire extends from the coil; and the stretch of wire is provided with a portion for a termination connection to a termination structure of the core, such as a tang. The method avoids waste cut wire in the apparatus. The core is provided with a groove at an end to receive at least a wire in the path of the wire for the termination of the coils. The apparatus comprises a wire deflector positioned adjacent the end of the core, where the groove is located, in order to intercept and align the wire with the groove. The apparatus can comprise a device for applying torques in two directions on a pulley wheel for feeding wire as a function of the position of the dispenser in the translation and the position of the core in the rotations.

A medical lead may be fabricated using an electrode fixture ((130A)-(130D)) configured to facilitate circumferential and axial alignment between electrodes of the lead. In one example, a method includes positioning an electrode fixture around at least one conductor of a plurality of conductors (122) for a medical lead, wherein the electrode fixture at least partially retains an electrode assembly. The method also includes electrically coupling a portion of the at least one conductor with at least a portion of the electrode assembly at an attachment area defined by the electrode assembly when the electrode assembly is at least partially retained by the electrode fixture.

A method, consisting of providing a metal wire having a wire diameter and an end, and positioning a conductor at a distance from the end of the wire. The method further includes creating an electrical discharge between the conductor and the end, while setting the distance and an electrical potential of the discharge, so as to create a bead of a predefined size on the end. The method also includes assembling the wire with the created bead into an invasive probe, so that the bead is positioned at an outer surface of the probe.

A manufacturing method for an electric wire having a terminal includes a step of connecting a plurality of core wires by an ultrasonic connection process to form a connected core wire. In the step, the core wires are formed into the connected core wire having a cross-sectional shape having a width and a height in a plane orthogonal to an axis of the connected core wire, the width is not longer than a length obtained by subtracting two times a thickness of the terminal from a width of an arch groove of a crimper of a crimping apparatus in a state that a space between a support surface of an anvil of the crimping apparatus and the arch groove defines a predetermined crimped shape.

An apparatus including a central access control system and an access reader. The access reader is structured to receive an access credential from the central access control system, and includes a first connector connected with a second connector with the second connector connected to a cable, and with the cable in electronic communication with the central access control system. Connection of the first connector and the second connector places the access reader in electronic communication with the central access control system.

A method, consisting of providing a metal wire having a wire diameter and an end, and positioning a conductor at a distance from the end of the wire. The method further includes creating an electrical discharge between the conductor and the end, while setting the distance and an electrical potential of the discharge, so as to create a bead of a predefined size on the end. The method also includes assembling the wire with the created bead into an invasive probe, so that the bead is positioned at an outer surface of the probe.