A textile electronic device configured to be connected to a conductive zone of a textile, the device including: an electronic circuit; at least a first mechanical and electrical connection means configured to be connected to the conductive zone of a textile; a textile substrate having at least a second electrical connection means, the at least one second electrical connection means being electrically connected to the electronic circuit and to the at least one first mechanical and electrical connection means; and a flexible envelope totally or partially including said electronic circuit, the at least one first mechanical and electrical connection means and the textile substrate, the at least one first mechanical connection means and electric being at least partially accessible through the flexible envelope. Also, a manufacturing method of the textile electronic device.

A textile device configured to cooperate with an electronic device including a first magnetic connection means, an electronic circuit including a connecting track, and a first positioning means; the textile device including: a textile including a conductive zone; a second magnetic connection means, connected to a first side of the textile, configured to cooperate with the first magnetic connection means to create a force of attraction with the first magnetic connection means; a second positioning means capable of cooperating with the first positioning means to position the textile device relative to the electronic device; wherein the positioning means of the textile device is arranged in so that the conductive area of the textile device is connected to the connection track of the electronic circuit on the second side of the textile. Also, the corresponding electronic device and a system including the textile device and the electronic device.

A textile device configured to cooperate with an electronic device including a first magnetic connection means, an electronic circuit including a connecting track, and a first positioning means; the textile device including: a textile including a conductive zone; a second magnetic connection means, connected to a first side of the textile, configured to cooperate with the first magnetic connection means to create a force of attraction with the first magnetic connection means; a second positioning means capable of cooperating with the first positioning means to position the textile device relative to the electronic device; wherein the positioning means of the textile device is arranged in so that the conductive area of the textile device is connected to the connection track of the electronic circuit on the second side of the textile. Also, the corresponding electronic device and a system including the textile device and the electronic device.

A board-to-board connector assembly includes a connector interposer between first and second connectors each having a connector housing holding contacts and having a card slot for interfacing with a circuit card edge of a corresponding add-in card. The connector housings have board guides configured to engage the add-in cards and guide mating therewith. The connectors have latches configured to latchably engage the add-in cards to secure the connector to the add-in cards. The connector interposer electrically interconnects the first contacts and the second contacts.

A board-to-board connector assembly includes a connector interposer between first and second connectors each having a connector housing holding contacts and having a card slot for interfacing with a circuit card edge of a corresponding add-in card. The connector housings have board guides configured to engage the add-in cards and guide mating therewith. The connectors have latches configured to latchably engage the add-in cards to secure the connector to the add-in cards. The connector interposer electrically interconnects the first contacts and the second contacts.

The present disclosure relates to data acquisition, and in particular to thin film connectors between a lead assembly and a data acquisition system. Particularly, aspects of the present disclosure are directed to a connector that includes a button having a housing and conductive pins extending from a proximal end of the housing through a base plate into a cavity on a distal end of the housing. The connector further includes a thin-film adapter having: (i) a supporting structure, (ii) bond pads formed on the supporting structure, (iii) a cable having conductive traces electrically connected to the bond pads, and (iv) feedthroughs that pass through the supporting structure and are electrically connected with the bond pads. Each conductive pin extends through a feedthrough, and each conductive pin is in electrical connection with one or more conductive traces via each bond pad.

The present disclosure relates to data acquisition, and in particular to thin film connectors between a lead assembly and a data acquisition system. Particularly, aspects of the present disclosure are directed to a connector that includes a button having a housing and conductive pins extending from a proximal end of the housing through a base plate into a cavity on a distal end of the housing. The connector further includes a thin-film adapter having: (i) a supporting structure, (ii) bond pads formed on the supporting structure, (iii) a cable having conductive traces electrically connected to the bond pads, and (iv) feedthroughs that pass through the supporting structure and are electrically connected with the bond pads. Each conductive pin extends through a feedthrough, and each conductive pin is in electrical connection with one or more conductive traces via each bond pad.

A superconducting flexible interconnecting cable connector for supercomputing systems is provided. The cable connector includes a base with a recessed area defined therein to receive superconducting flexible interconnecting cables and superconducting connecting chips to electrically connect the superconducting flexible interconnecting cables to each other. A cover is provided to cover the superconducting flexible interconnecting cables and the superconducting connecting chips when the cover is in a closed position. A compression device compresses the superconducting connecting chips together to secure the superconducting flexible interconnecting cables and the superconducting connecting chips inside the recessed area of the base when the cover is in the closed position.

A plug-in structure includes a connector and a plug; wherein the connector is provided with a jack. The jack is provided with a first terminal and a first guide rail structure are arranged, the first terminal being configured to be electrically connected to a first flexible circuit board; and the plug is provided with a second terminal and a second guide rail structure, the second terminal being configured to be electrically connected to a second flexible circuit board, and the second guide rail structure of the plug being in cooperation with the first guide rail structure in the jack to guide the plug to move in the jack, such that the first terminal and the second terminal are electrically connected.

A plug-in structure includes a connector and a plug; wherein the connector is provided with a jack. The jack is provided with a first terminal and a first guide rail structure are arranged, the first terminal being configured to be electrically connected to a first flexible circuit board; and the plug is provided with a second terminal and a second guide rail structure, the second terminal being configured to be electrically connected to a second flexible circuit board, and the second guide rail structure of the plug being in cooperation with the first guide rail structure in the jack to guide the plug to move in the jack, such that the first terminal and the second terminal are electrically connected.