A blood-glucose meter integrated with a biological test-piece tank includes a biological test-piece tank and a blood-glucose meter. The biological test-piece tank has internally a chamber for providing an accommodation room to store a plurality of biological test pieces, a tank opening located at a top thereof to pair a cover so as to form a sealed structure, and a tank bottom located by opposing to the cover. The blood-glucose meter, connected with the tank bottom, has an inserting hole for receiving a biological test piece that carries thereon a biological specimen to be examined for obtaining a corresponding blood-glucose value.

A wire harness includes a standard sub-harness including a standard circuit line, an optional sub-harness including a selection circuit line, and a protector protecting trunk lines including the standard sub-harness. The protector includes a circuit network configuring a part of the selection circuit line so as to implement selectively added function in the wire harness. The selection circuit line of the optional sub-harness branched from the trunk line is connected to the circuit network of the protector.

An induction cable contains a plurality of cable conductors each having a conductor strand surrounded by insulation. The conductor strand contains a plurality of conductor sections which are spaced apart in the longitudinal cable direction at resonance dividing points by insulating intermediate pieces. The induction cable furthermore has a coupling device on which a plurality of the conductor strands are separated forming coupling ends at coupling positions. The coupling ends are connected to each other via the coupling device. A simple providing and installing of the induction cable and a simple replacement of damaged cable parts is thus enabled.

An object of the present disclosure is to provide a technique with which it is possible to more favorably crimp a bracket to a bracket attachment portion. A wiring member includes wires, a resin molded portion that covers the wires, and a bracket attachment that is attached to the resin molded portion. The resin molded portion includes a bracket attachment portion that is formed with at least one flat surface portion. The bracket includes a first attachment portion that is configured to be attached to an attachment location, and a second attachment portion that is connected to the first attachment portion and is crimped to the bracket attachment portion while being in surface contact with at least one of the at least one flat surface portion.

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.

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.

A multi-phase busbar can include a first conducting layer, a first conducting pin, a first insulating layer, and a second conducting layer. The first conducting layer can include a sheet metal coated with an electrically insulating material. The first conducting pin can be mounted to the first conducting layer. The first conducting pin can extend in a direction perpendicular to the first conducting layer. The first insulating layer of a rigid insulating material can be arranged on the first conducting layer. The first insulating layer can define an opening through which the first conducting pin projects. The second conducting layer can include a sheet metal coated with an electrically insulating material, the second conducting layer comprising a first pinhole through which the first conducting pin projects and a second conducting pin which extends in a direction parallel to the first conducting pin.

A multi-conductor bus with radially arranged conductor wires on which addressable bead devices that may incorporate light-emitting diodes (LEDs) or other surface mount devices (SMDs) can be easily mounted. The radial bus is designed to provide an improved range of flexibility and motion while allowing for easy addition of bead devices along its length that can utilize self-addressing bus protocols such as cascading device protocols. The design of the flexible, interruptible radial bus facilitates the use of pass-through and interrupted paths along the bus that can simplify the installation of addressable devices along the bus such as the bus-mounted bead devices disclosed herein.

A cable may include a plurality of twisted pairs of individually insulated conductors, a separator positioned between the twisted pairs, and a jacket formed around the twisted pairs and the separator. The separator may include a longitudinally extending spine positioned between the plurality of twisted pairs and a plurality of projections extending from the spine. Each projection may extend between at least one adjacent set of twisted pairs. Further, along a longitudinal length of the separator, the plurality of projections extend between all of the adjacent sets of twisted pairs. However, at any given cross-sectional point along the longitudinal length, the separator does not extend between all of the adjacent sets of twisted pairs.

A lead assembly may include a feeder cable, a drop line, and a clip. The feeder cable may be configured to electrically couple to a power device for power delivery. The drop line may be electrically coupled to the feeder cable at a nexus. The drop line may include a fuse positioned proximate the nexus. The clip may be configured to mechanically couple to the feeder cable and the fuse to orient the fuse substantially parallel to a portion of the feeder cable.