A display device includes a body, a housing separated from the body and configured to transmit/receive signals to/from the body, and a cable coupling the housing and the body. The cable has a signal line for transferring a video signal and a power line for transferring electric power.

A display device includes a body, a housing separated from the body and configured to transmit/receive signals to/from the body, and a cable coupling the housing and the body. The cable has a signal line for transferring a video signal and a power line for transferring electric power.

Provided are terminal-free connectors for flexible interconnect circuits. A connector comprises a housing chamber defined by at least a first side wall and a second side wall oppositely positioned about the base. An edge support is positioned at each of the first side wall and the second side wall. The edge supports allow for precise placement of the flexible interconnect circuit inside the housing chamber. A cover piece is coupled to the base via a first hinge, and is configured to move between a released position and a clamped position. The cover piece includes a clamp portion securing the flexible interconnect circuit against the edge supports in the clamped position. A slider may be configured to move between an extended position and an inserted position within the housing chamber, and may include a convex upper surface configured to urge the flexible interconnect circuit upwards in the inserted position.

A junction box adapted to provide an electrical connection to an electrical wire attached to a photovoltaic panel. The junction box has a lower portion which has an entry slot to allow entry of the wire into the junction box and a raised protrusion over which the wire is bent and formed to be substantially in the same shape as the raised protrusion. The junction box also has a clamp adapted to be attachable to said lower portion, whereby the clamp holds the wire in place for providing the electrical connection. The wire is preferably bus ribbon. The lower portion preferably has an elastic polymeric element disposed between the raised portion and the wire. The raised protrusion may have an elastic polymeric element.

A junction box adapted to provide an electrical connection to an electrical wire attached to a photovoltaic panel. The junction box has a lower portion which has an entry slot to allow entry of the wire into the junction box and a raised protrusion over which the wire is bent and formed to be substantially in the same shape as the raised protrusion. The junction box also has a clamp adapted to be attachable to said lower portion, whereby the clamp holds the wire in place for providing the electrical connection. The wire is preferably bus ribbon. The lower portion preferably has an elastic polymeric element disposed between the raised portion and the wire. The raised protrusion may have an elastic polymeric element.

A seam jump connector provides connectivity over an irregular area, such as seam, in a textile. The textile is part of a textile base structure that includes one or more electrically conductive interconnects formed either directly on the textile or on intermediate substrates that are attached to the textile. The intermediate substrates can be TPU sheets having conductive interconnects printed on a surface. The conductive interconnects of the textile base structure are discontinuous at an irregular area on the textile, and the seam jump connector includes a flexible and/or stretchable substrate with conductive interconnects. The seam jump connector is aligned with and stacked onto the conductive interconnects so as to provide electrical connectivity across the irregular area. The seam jump connectors can be configured to be permanently or removably attached to the textile base structure.

A seam jump connector provides connectivity over an irregular area, such as seam, in a textile. The textile is part of a textile base structure that includes one or more electrically conductive interconnects formed either directly on the textile or on intermediate substrates that are attached to the textile. The intermediate substrates can be TPU sheets having conductive interconnects printed on a surface. The conductive interconnects of the textile base structure are discontinuous at an irregular area on the textile, and the seam jump connector includes a flexible and/or stretchable substrate with conductive interconnects. The seam jump connector is aligned with and stacked onto the conductive interconnects so as to provide electrical connectivity across the irregular area. The seam jump connectors can be configured to be permanently or removably attached to the textile base structure.

A connector includes two insulators which hold contacts connected to lead wires and are arranged on two surfaces of a ceramic element, a spring component which includes two cantilever-shaped spring pieces and has a flexed portion at a middle portion of each spring piece, and a cylindrical sleeve. The two spring pieces are located over two outer surfaces of the two insulators, and are elastically deformed toward the two insulators by the sleeve hanging over the two spring pieces. The two insulators pushed by the flexed portions of the two elastically deformed spring pieces hold the ceramic element from two sides to push the contacts against the terminal electrodes.

A smart wearable device includes a housing, a charging apparatus and a charger. The charging apparatus is disposed in the housing. The charger is configured to charge the charging apparatus. The charging apparatus is mounted in the housing of the smart wearable device. The charging apparatus includes a motherboard, a battery, an adapter, and a charging contact disposed in the housing. The battery and the adapter are both electrically connected to the motherboard. The charging contact is electrically connected to the adapter and extends through the outer wall of the housing. The charging contact includes a conductive ceramic charging contact.

A smart wearable device includes a housing, a charging apparatus and a charger. The charging apparatus is disposed in the housing. The charger is configured to charge the charging apparatus. The charging apparatus is mounted in the housing of the smart wearable device. The charging apparatus includes a motherboard, a battery, an adapter, and a charging contact disposed in the housing. The battery and the adapter are both electrically connected to the motherboard. The charging contact is electrically connected to the adapter and extends through the outer wall of the housing. The charging contact includes a conductive ceramic charging contact.