A light emitting power line plug structure is disclosed, comprising a plug accommodation body, an electric power line communicatively connected to the plug accommodation body, a plug front end assembly, a connection assembly fixedly locked to the plug front end assembly and a light emitting circuit assembly, wherein the light emitting circuit assembly is located between the plug front end assembly and the connection assembly, and is configured with at least a light emitting diode (LED) which faces towards the light guiding line extending from the inside of the electric power line; therefore, when the electric power cords in the electric power line conduct electric power, the LEDs in the light emitting circuit assembly can become conductive and emit light such that the light guiding line integrally illuminates by means of light transfers and glow outwards on the entire electric power line through the translucent cladding.

A light pipe is for an EV charging handle. The EV charging handle includes a housing having a thru hole, and a light source coupled to the housing. The light pipe includes a body structured to be coupled to the light source in order to transmit light from the light source through the thru hole of the housing, the body having a first side portion having a first interior surface having a first surface roughness, and a second side portion extending from the first side portion, the second side portion having a second interior surface having a second surface roughness greater than the first surface roughness in order to increase a visibility range with which the light is transmitted through the thru hole of the housing.

A cable connector is provided. The cable connector includes a housing with a proximal end and a distal end. The distal end is configured for insertion into a data port of a computer chassis. The proximal end is configured to receive at least one data cable. The cable connector includes a pull tab comprising an optically transparent material. The pull tab includes a body with a distal end connected to the housing and a proximal end extending past the proximal end of the housing. The pull tab includes a shank protruding from the body. The shank includes a polished surface aligned with a light output of the computer chassis when the distal end of the housing is inserted into the data port such that light from the light output enters the shank through the polished surface and is distributed through the transparent material to illuminate the pull tab.

A cable connector assembly includes: an insulative housing; a printed circuit board (PCB) received in the insulative housing, the PCB having an upper surface; an electrical connector electrically connected with the PCB; a cable; a light member mounted on the PCB; a light guide member mounted on the PCB; and a shading member covered on the light guide member; wherein the electrical connector includes plural conductive terminals and plural fixing fingers fixed on the PCB, the PCB includes plural conductive pads exposed on the upper surface of the PCB and fixed with the conductive terminals and plural mounting holes on the upper surface of the PCB and matched with the fixing fingers.

An adaptive card is provided. The adaptive card is adapted to a motherboard with a connecting slot. The adaptive card includes a main body, a first connector, a second connector, a plurality of first fixing holes, a plurality of second fixing holes and a port. The main body includes a first surface, a second surface and a side edge. The first connector is configured on the first surface. The second connector is configured on the second surface. A plurality of first fixing holes are formed on the first surface and arranged along a direction corresponding to an insertion direction of the first connector. A plurality of second fixing holes are formed on the second surface and arranged along a direction corresponding to an insertion direction of the second connector. A port is configured on the side edge and used to be connected to the connecting slot.

An electrical connector includes an insulative housing having a main body defining a plurality of mating cavities each coupled with an LED located right behind the mating cavity. A plurality of contacts are disposed in the housing corresponding to each of the mating cavities. A translucent color ring is assembled upon a front face of the main body of the housing in front of each mating cavity. A holder is attached upon a rear face of the housing behind the contacts. The LEDs and the corresponding connecting legs are retained by the holder.

An electrical connector includes an insulative housing having a main body defining a plurality of mating cavities each coupled with an LED located right behind the mating cavity. A plurality of contacts are disposed in the housing corresponding to each of the mating cavities. A translucent color ring is assembled upon a front face of the main body of the housing in front of each mating cavity. A printed circuit board is vertically attached upon a rear side of the main body with a terminal module assembled on the bottom edge. A plurality of LEDs are mounted upon the printed circuit board wherein all LEDs are electrically connected to the terminal module having connecting legs.

A connector assembly can be provided. A receptacle includes terminals that can be positioned in a card slot on a 0.60 mm pitch (or greater). A biasing element can be provided in the card slot to engage a mating paddle card. The receptacle can be configured to allow air to flow from a front face to a rear face, the air passing through a middle wall. A plug assembly can be provided that includes a conductive body and is configured to generate some amount of heat. The body can include a surface that has cooling grooves. The cooling grooves allow air flow over the plug assembly so that the plug assembly can be cooled directly.

A cable connector assembly includes: a mating unit; a cable; a PCB interconnected between the mating unit and the cable; a metal shell enclosing the PCB, a rear of the mating unit, a front of the cable, the metal shell including an upper shell part and a lower shell part, each of the upper and lower shell parts having a main body and a pair of side walls; an insulative outer shell enclosing the metal shell, the rear of the mating unit, the front of the cable; wherein the pair of side walls of the upper shell part extend downwardly and those of the lower shell part extend upwardly to align with each other along an up-and-down direction; and each of the pair of side walls of the lower shell part includes a flap extending inwardly and upwardly to latch an associated side wall of the upper shell part.

An assembly has a connector, a circuit board, a cable, a light pipe, and an outer casing. The connector has an insulating body with conductive terminals fixed therein. The circuit board is behind the connector, is electrically connected with two conductive terminals, and has two light-emitting elements. The cable has a plurality of wires, and the conductive terminal is electrically connected with the wire. An inside of the light pipe is formed with a first receiving cavity that receives the connector and the circuit board therein. The outer casing has first and second insulating casings which are latched to each other and are combined to form a second receiving cavity. The light pipe is received in the second receiving cavity and is partially exposed out of the outer casing. Light from the light-emitting elements emits outwardly via the light pipe. The cable extends rearward out of the outer casing.