Connectors for LED strips are disclosed having channels for removable conductors. These connectors are configured to receive conductors adapted to electrically connect two LED strips, or a single LED strip and an appropriate number of wires. The connectors and conductors may include sloped ramps that provide support to the LED strips.

A connection structure including: a first circuit member having a plurality of first electrodes; a second circuit member having a plurality of second electrodes; and an intermediate layer having a plurality of bonding portions electrically connecting the first electrodes and the second electrodes, in which at least one of the first electrode and the second electrode that are connected by the bonding portion is a gold electrode, and 90% or more of the plurality of bonding portions include a first region containing a tin-gold alloy and connecting the first electrode and the second electrode and a second region containing bismuth and being in contact with the first region.

A spring clip includes a first beam and a second beam connected to the first beam and resiliently deflectable toward the first beam from a relaxed position distal from the first beam to a compressed position proximal to the first beam. The second beam has a spring latch extending toward the first beam. The spring latch engages the first beam to secure the second beam in the compressed position.

In an interposer, metal bodies are included in a resin layer and separated from each other. A dimension of each of the metal bodies in an upward-downward direction is greater than a dimension of each of the plurality of metal bodies in a direction orthogonal to the upward-downward direction. At least one of the metal bodies is located in a first electrode and at least one of the plurality of metal bodies is located in a second electrode to electrically couple together the first electrode and the second electrode.

An apparatus and system for coupling power. In one embodiment, the apparatus comprises a trunk cable comprising a first conductor, a second conductor, and a third conductor; a first connector, wherein a first terminal of the first connector is conductively coupled to the first conductor; a second connector, wherein a first terminal of the second connector is conductively coupled to the second conductor; and a third connector, wherein a first terminal of the third connector is conductively coupled to the third conductor, and wherein the first, the second, and the third connectors are each adapted to couple to a different DC-AC power converter and an output of the trunk cable comprises three-phase AC power.

A flexible circuit to wire transition member and method which transitions wires connected to a standard wire termination connector to a flexible circuit. The transition member includes a housing with a flexible circuit receiving recess provide proximate a first surface of the housing. A wire receiving recess is provided in the housing proximate a first surface of the housing. A contact extends between the flexible circuit receiving recess and the wire receiving recess, the contact provides an electrical connection between a flexible circuit received in the flexible circuit receiving recess and a wire received in the wire receiving recess.

Linking cable connector includes a lead frame held in an interior cavity of a cover. The lead frame includes conductive leads arranged side by side in a row and extending between a first end and an opposite second end of the lead frame. At least some adjacent conductive leads are spaced on a first lead pitch at the first end, and are spaced on a second lead pitch at the second end. The second lead pitch is less than the first lead pitch. The conductive leads engage and electrically connect to corresponding wire conductors of a first cable harness at the first end of the lead frame, and the conductive leads engage and electrically connect to corresponding wire conductors of a second cable harness at the second end of the lead frame such that the leads provide conductive paths between the first and second cable harnesses.

A slide connector has a garment-side connector portion and a module-side connector portion to be fitted with the garment-side connector portion in a fitting plane, the garment-side connector portion including first contact portions each having a contact surface parallel to the fitting plane and at least one locking portion having a locking surface parallel to the fitting plane, the module-side connector portion including second contact portions each elastically movable and at least one portion to be locked extending in parallel to the fitting plane, as the module-side connector portion is superimposed on the garment-side connector portion and slid along the fitting plane, each second contact portion comes into contact with the contact surface of a corresponding first contact portion to establish electrical connection, and the at least one portion to be locked domes into contact with the locking surface of the at least one locking portion.

An electrical connection between two electrical harnesses is provided. The electrical harnesses include flexible printed circuits with embedded conductive tracks, each of which terminates in a receiving hole in a respective terminating region The terminating regions are connected together using conductive pins. The connection formation is then encapsulated by an encapsulating body formed of an insulating. The encapsulating body seals and protects the electrical connection, which is thus reliable and robust.

A first connection portion is formed at an end portion of a flexible conductor by folding the end portion of the flexible conductor in halves along a folding line extending in a given direction, and a contact-side connection portion of a contact presses the first connection portion from opposite sides in a thickness direction of the first connection portion to thereby electrically connect the contact to the flexible conductor.