A cable connector assembly includes: an electrical connector; and a cable electrically connected with the electrical connector, the cable including plural high-speed wires for transmitting high-speed signal, a pair of low-speed wires for transmitting low-speed signal, a pair of power wires for transmitting power signal, a pair of standby wires, a detection wire for transmitting detection signal, and a power supply wire; wherein the pair of standby wires, the detection wire, and the power supply wire are arranged in a line along a horizontal direction; the high-speed wires are evenly distributed on both sides of the line along a thickness direction vertical to the horizontal direction; the low-speed wires are disposed on a side of the line along the thickness direction; and the power wires are disposed on another side of the line along the thickness direction.

A power connector for building blocks has a loading sheet adapted to be mounted between two assembled building blocks and a socket mounted on the loading sheet. The loading sheet has a locating segment and a conducting unit. The locating segment forms a through hole. The conducting unit is mounted on a surface of the locating segment. The socket is electrically connected to the conducting unit and is used to connect to a wire. The power connector is mounted between the two assembled building blocks by the loading sheet and is mounted around any column of another building block via the through hole. Thus, the power connector is mounted on the building blocks without pasting and drilling and therefore without breaking the building blocks. Besides, the power connector is manufactured by automation so that cost is reduced and the quality is stable.

A light assembly is provided with a circuit board, a connector and a first light emitting device. The circuit board is formed with a first conductive path and a second conductive path. The connector is supported by the circuit board and includes a first terminal connected to the first conductive path and at least two second terminals connected to the second conductive path. The at least two second terminals are arranged radially symmetrical about an axis and are adapted to engage mating terminals of a mating connector when the mating connector is oriented in both a first position and in a second position that is angularly offset from the first position about the axis. The first light emitting device is supported by the circuit board and in electrical communication with the first conductive path and the second conductive path.

A conncector includes an outer housing, an inner housing that is accommodated in the outer housing so as to be movable with respect to the outer housing in a predetermined movable region in a connector front-rear direction, and a terminal. The terminal includes a leading end portion, a base end portion, and a spring portion positioned between the leading end portion and the base end portion. The leading end portion includes a contact portion for connecting to a connection target, and a leading end side retained portion configured to be retained in the inner housing. The base end portion includes an electric cable connection portion (flexible wiring member connection portion) and a base end side retained portion configured to be retained in the outer housing.

A plug as a connector includes a first wiring board, a second wiring board, a plate-shaped ground plate which is provided between the first and the second wiring boards and which includes a first contact point to be brought into contact with first and second ground conductors of the first and the second wiring boards, and a first insulator for holding the first and the second wiring boards, and the ground plate. The first insulator covers at least a part of each of five portions including distal end portions, both side end portions, and two main surface portions, which face outward, of a whole of the first wiring board, the second wiring board, and the ground plate, and holds the ground plate under a pressing state. A portion of at least one side end portion of the ground plate is exposed to the outside of the first insulator.

A connection structure between a flat cable and an electronic circuit board includes an electronic circuit board; a cable connection hole formed to penetrate the electronic circuit board; a plurality of internal contacts provided on an inner surface of the cable connection hole; and a flat cable provided with a plurality of contacts which correspond to the plurality of internal contacts of the cable connection hole and are exposed to one side surface of the flat cable. When one end of the flat cable is inserted into the cable connection hole of the electronic circuit board, the plurality of contacts of the flat cable are in contact with the plurality of internal contacts of the cable connection hole, respectively.

A housing 10 comprises connector-side transmission-permitting portions 10A that permit the transmission of wave signals in the connector-height direction, a circuit board B comprises board-side transmission-permitting portions B1 that permit the transmission of wave signals in the connector-height direction at locations corresponding to the above-mentioned connector-side transmission-permitting portions 10A when the electrical connector 1 is mounted, and, when a counterpart connector component C is inserted all the way to a normal position, the transmission of wave signals permitted in the process of insertion of the above-mentioned counterpart connector component C becomes blocked by the above-mentioned counterpart connector component C, or alternatively, the transmission of wave signals blocked by the above-mentioned counterpart connector component C in the process of insertion of said counterpart connector component C becomes permissible at the locations of the above-mentioned connector-side transmission-permitting portions 10A and the above-mentioned board-side transmission-permitting portions B1.

A conductor module includes a wiring member, a plurality of bus bars, a plurality of locking pieces, and a reinforcing member. A plurality of wirings and through-holes are formed in the wiring member. The bus bar is electrically connected to one of two electrode terminals. The two through-holes are formed in a first opposing region opposing one end face between both end faces of the bus bar opposing each other in a width direction with an electrical connection portion where the bus bar and the wiring are electrically connected interposed therebetween. The locking piece is formed integrally with the bus bar, is arranged in the through-hole, has a distal end positioned radially outward of the through-hole, and fixes the bus bar to the wiring member. The reinforcing member reinforces the wiring member, and is formed to surround the through-hole.

A sheet type conductive member includes a flexible conductor extending along a surface of a sheet body, the flexible conductor including a first end portion disposed to be superposed on a wiring portion of a garment, a second end portion electrically connected to a contact, and a joint portion joining the first end portion and the second end portion together, the first end portion having a width larger than a width of the second end portion and being electrically connected to the wiring portion of the garment by being sewed to the wiring portion.

A flexible type electrical feed-through involves a flexible printed circuit (FPC) part constructed as a laminate structure of a base insulating layer, a conductor layer, and a cover insulating layer, where the FPC part is wrapped around a metal part, forming a connector assembly. Such a feed-through may be used at an interface between a hermetically-sealed internal environment, such as in a lighter-than-air gas filled data storage device, and the external environment. Multiple connector parts may be coupled to an inner side of the feed-through, to each mate with a respective flexible cable assembly electrically connected to a respective actuator of a multi-actuator hard disk drive. A floating board-to-board connector part may be coupled to the outer side of the feed-through, which in turn is electrically connected to a printed circuit board assembly of a hard disk drive, and which is able to tolerate connector mating misalignment.