According to one aspect, embodiments of the invention provide a current monitoring device comprising a current transformer configured to be removeably coupled to a power line and to generate a reference signal having a level related to a current level of the power line, a sensor circuit connected to the current transformer and configured to convert the reference signal to a measurement signal, a flexible cable having a first end and a second end, the first end coupled to the sensor circuit, and a connection portion coupled to the second end of the flexible cable and configured to be removeably coupled to a communications bus, wherein the sensor circuit is further configured to provide the measurement signal to the communication bus via the flexible cable and the connection portion.

Devices and methods are disclosed for coupling a multi-conductor cable to a flexible substrate by means of a crimp.

A method of manufacturing a wiring harness assembly includes the steps of forming a plurality of electrically conductive wires encased within a substrate formed of a dielectric material, forming an opening in the substrate located and sized such that a section of the plurality of electrically conductive wires is exposed within the opening, disposing a support segment within the opening, securing a connector segment including a plurality of terminals to the support segment, and placing the plurality of terminals in mechanical and electrical contact with the plurality of electrically conductive wires.

An electrical contact terminal includes a base portion for positioning and retaining the electrical contact terminal within a connector housing, an insulation displacement connecting portion extending upwardly from the base portion and comprising a pair of spaced apart arms defining an opening therebetween for receiving and making electrical contact with an electrical conductor, and a contact portion extending downwardly from the base portion and configured to float when the electrical contact terminal is retained and positioned within a connector housing. The contact portion includes a first arm, a second arm, and an arcuate base portion. The first arm extends downwardly and includes a first end attached to the base portion and an opposite second end. The second arm extends downwardly and includes a free first end closer to the base portion and an opposite second end farther from the base portion. The second arm is configured to deflect when making electrical contact with a mating contact pin. The arcuate base portion connects the second ends of the first and second arms.

An apparatus and method for crosstalk compensation in a jack of a modular communications connector includes a flexible printed circuit board connected to jack contacts and to connections to a network cable. The flexible printed circuit board includes conductive traces arranged as one or more couplings to provide crosstalk compensation.

A connector for receiving a ribbon cable is provided. The connector includes a housing including an open top, a cable organizer, and a cover. The cable organizer is configured to be positioned within an interior of the housing and configured to receive the ribbon cable upon an upper surface thereof. The cover is configured to selectively cover the open top of the housing to enclose the cable organizer within the interior of the housing. The cover is coupled to the housing and includes a latch configured to engage the housing and the cable organizer and move in a both vertical direction relative to the housing and rotate relative to the housing.

Provided is a terminal 12 connected to a front end section of a flexible substrate 11, wherein: the flexible substrate 11 has an insulating base film 14A, and a conduction path 13 formed on a front surface and/or a back surface of the insulating base film 14A; and the terminal 12 has a terminal main body 15 having a holding section for holding the flexible substrate 11, and a cylindrical shell disposed over the holding section. The holding section has a conductive contact part 34 that comes into contact with the conduction path 13 of the flexible substrate 11. The shell has a pressing section for pressing the holding section to the flexible substrate 11. The pressing section projects into the shell. The shell has a wide section 16A where the pressing section is not formed and a narrow section 16B having a narrower interior than the wide section 16A due to the pressing section being formed. The conduction contact part 34 of the holding section comes into contact with the conduction path 13 by the narrow section 16B being positioned over the holding section.

A connecting assembly for electrically connecting a ribbon cable in an aircraft. The assembly has a housing with a slot-shaped opening through which an end section of a ribbon cable can be inserted into a housing interior into a predetermined insertion position. The assembly has a first and a second engagement section which are arranged in the interior. The first engagement section is mounted such that it can be optionally moved between a first and a second position, such that by moving the first engagement section into its second position, the end section can be clamped tight optionally between the first second engagement sections and conductor tracks of the ribbon cable are then in contact with a corresponding number of electrical contacts provided on the first engagement section. In the second position, the first engagement section is releasably secured by a latching device.

A connector for receiving a ribbon cable is provided. The connector includes a housing with an open top, and a cable organizer configured to be positioned within an interior of the housing and the open top and to receive the ribbon cable. The cable organizer includes a surface with a first cable grab hook adjacent a first end thereof, configured to receive a first portion of the ribbon cable via a snap-fit engagement. The connector also includes cover configured to selectively cover the open top of the housing to enclose the cable organizer within the interior of the housing. The cover includes a notch extending therethrough, sized to receive an upper detent of the cable organizer so that the upper detent extends through the notch and remains viewable when the cover encloses the cable organizer within the interior of the housing.

An insulation displacement contact has a tubular body extending along a longitudinal axis toward an open end. The tubular body has a pair of cutting edges at the open end. The tubular body has a pair of opposing side surfaces each having a slot extending to the open end and disposed between the cutting edges. The slot on one of the opposing side surfaces is a contacting slot and the slot on the other of the opposing side surfaces is a positioning slot. A first clear width of the contacting slot is less than a second clear width of the positioning slot.