A medical lead may be fabricated using an electrode fixture configured to facilitate circumferential and axial alignment between electrodes of the lead. In one example, a method may include positioning an electrode fixture around at least one conductor of a plurality of conductors for a medical lead, wherein the electrode fixture at least partially retains an electrode assembly. The method may also include 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 crimping tool is disclosed. The crimping tool includes a base, an operating member and a moving member. The base includes a pivot location, a sliding groove, and first and second fixing locations. The first and second fixing locations are respectively located on two ends of the sliding groove to fix a connector of a wire. The operating member includes a holding portion, a pivot hole and a gear. The pivot hole is pivotally connected to the pivot location of the base through a pivot shaft. The moving member includes a rack, and first and second crimping elements. When the operating member rotates, the gear drives the rack to enable the moving member to move simultaneously, so as to use the first or second crimping element to press fit the connector of the wire placed at the first or second fixing location.

A circuit includes a monitoring circuit that monitors a voltage and a switching circuit. Closing the switching circuit causes an external AC load to receive power from an external AC source. The circuit further includes a control circuit that opens the switching circuit for a time interval, where the time interval begins after the voltage is below a lower threshold. The control circuit also ends the time interval after the voltage exceeds an upper threshold, where the time interval is short enough that the operation of the AC load is not affected during the time interval. The circuit also includes a power harvesting circuit that harvests power from the external AC source to raise the voltage during the time interval.

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.

A coaxial connector for interconnection with a coaxial cable with a solid outer conductor by ultrasonic welding is provided with a monolithic connector body with a bore. An annular flare seat is angled radially outward from the bore toward a connector end of the connector, the annular flare seat open to the connector end of the connector. An inner conductor cap is provided for interconnection with an inner conductor of the coaxial cable by ultrasonic welding. The ultrasonic welding of each of the inner and outer conductor interconnections may be performed via inner conductor and outer conductor sonotrodes which are coaxial with one another, without requiring the cable and or connector to be removed from their fixture.

A grounding member for maintaining a ground path in a cable connector includes, in one embodiment, an inner core configured to flex when a force is applied to the grounding member during operation of the connector. The grounding member further includes an outer conductive coating applied to the inner core. The outer conductive coating is configured to flex from a first state to a second state when a force is applied to the grounding member, so as to maintain a conductive path through the connector when the outer conductive coating flexes between the first and second states during operation of the connector.

The objective of the present invention is to provide a core wire deformation jig and a method for deforming a plurality of core wires which are exposed from an end of a multi-core cable for a further working step. A core wire deformation jig comprises a first clamping unit for clamping the plurality of core wires aligned on the arranging plane in a first clamping direction intersecting the arranging plane, a separation pin for separating the plurality of core wires from each other, wherein the separation pin is inserted between the plurality of core wires clamped by the first clamping unit in a insertion direction parallel to the first clamping direction, and a second clamping unit for providing bends to the plurality of core wires by clamping the plurality of core wires in a second clamping direction parallel to the arranging plane and intersecting the plurality of core wires and applying a pressure on the core wires, with the separation pin inserted between the plurality of core wires.

A fiber optic cable assembly for terminating a cable using an interior seal component in a passage of a retention body and methods for making the same. The interior seal component inhibits a bonding material from passing through to unintended portions of the retention body, and also serves to position the cable within the retention body during termination. Embodiments may include an optional end seal for inhibiting the bonding agent from escaping the retention body.

A connecting system for a ring terminal for a baseplate of a terminal block comprises holding means for the terminal, and a clamping device configured to clamp the ring terminal once the ring terminal is held. The connecting system is configured such that the ring terminal bearing against at least one of the holding means generates a relative gap of the holding means with respect to each other, and then to move the holding means closer to each other, under the bias of a spring member when the holding means are located facing the ring of the terminal, so as to hold the ring terminal.

Electrode cabling, including a core and n wires coiled on the core in an arrangement topologically equivalent to an n-start thread configuration, wherein n is an integer greater than one. The cabling also includes a sheath covering the n wires and an electrode attached through the sheath to a given wire selected from the n wires.