A circuit module includes an interposer, and the interposer includes an element body including a first surface, a first interposer terminal provided on the first surface of the element body, and connected to a first external element, a second interposer terminal provided on the first surface of the element body, and connected to a second external element, a first wiring provided in the element body, and electrically connecting the first interposer terminal and the circuit board with each other, a second wiring provided in the element body, and electrically connecting the second interposer terminal and the circuit board with each other, and a bypass wiring provided in the element body and/or on a surface of the element body, and electrically connecting the first interposer terminal and the second interposer terminal with each other.

A circuit module includes an interposer, and the interposer includes an element body including a first surface, a first interposer terminal provided on the first surface of the element body, and connected to a first external element, a second interposer terminal provided on the first surface of the element body, and connected to a second external element, a first wiring provided in the element body, and electrically connecting the first interposer terminal and the circuit board with each other, a second wiring provided in the element body, and electrically connecting the second interposer terminal and the circuit board with each other, and a bypass wiring provided in the element body and/or on a surface of the element body, and electrically connecting the first interposer terminal and the second interposer terminal with each other.

A display device includes a base film including a first region and a plurality of second regions having the first region therebetween; an inorganic insulating film on the base film, the inorganic insulating film being in contact with the plurality of second regions of the base film; a plurality of first pixels overlapping the first region; and a plurality of second pixels overlapping the plurality of second regions with the inorganic insulating film being between the plurality of second pixels and the plurality of second regions. The inorganic insulating film is divided by the first region and is discontinuous between the plurality of second regions.

The present invention relates to a connector. Aforementioned connector includes a first connecting member, a second connecting member, and a third connecting member. The first connecting member includes a first case, a first insulator, and a first conductive terminal, wherein the first case defines a first receiving chamber therein, the first insulator is received in the first receiving chamber, an external sidewall of the first case is provided with a first step. The second case defines a containing hole, the PCB board is received in the containing hole, a first end and a second end of the second case each defines a latching groove, the latching grooves is in communication with the containing hole. The third connecting member includes a third case, a second insulator, and a second conductive terminal, wherein the third case defines a second receiving chamber therein. In above connector, because the electrical components coupled to opposite ends of the connector can slide along three directions which are perpendicular to each other, such that a problem of a difficulty of a connection between the connector and the electrical components which is caused by a deviation of the design of the structure of the electrical components can be avoided, thereby a tolerance insensitive of the connector is enhanced.

The present invention relates to a connector. Aforementioned connector includes a first connecting member, a second connecting member, and a third connecting member. The first connecting member includes a first case, a first insulator, and a first conductive terminal, wherein the first case defines a first receiving chamber therein, the first insulator is received in the first receiving chamber, an external sidewall of the first case is provided with a first step. The second case defines a containing hole, the PCB board is received in the containing hole, a first end and a second end of the second case each defines a latching groove, the latching grooves is in communication with the containing hole. The third connecting member includes a third case, a second insulator, and a second conductive terminal, wherein the third case defines a second receiving chamber therein. In above connector, because the electrical components coupled to opposite ends of the connector can slide along three directions which are perpendicular to each other, such that a problem of a difficulty of a connection between the connector and the electrical components which is caused by a deviation of the design of the structure of the electrical components can be avoided, thereby a tolerance insensitive of the connector is enhanced.

A jumper assembly for connecting together first and second circuit boards. The jumper assembly includes a frame secured to a flexible circuit having a plurality of conductive traces. The frame includes a bridge that connects together first and second side structures, each having a window and a moveable lever. The first side structure is secured over the first circuit board and the second side structure is secured over the second circuit board. First end portions of the traces of the flexible circuit are secured to contact pads of the first circuit board, while second end portions of the traces of the flexible circuit are secured to contact pads of the second circuit board. The bridge of the frame is removed after the jumper assembly is secured to the first and second circuit boards.

A jumper assembly for connecting together first and second circuit boards. The jumper assembly includes a frame secured to a flexible circuit having a plurality of conductive traces. The frame includes a bridge that connects together first and second side structures, each having a window and a moveable lever. The first side structure is secured over the first circuit board and the second side structure is secured over the second circuit board. First end portions of the traces of the flexible circuit are secured to contact pads of the first circuit board, while second end portions of the traces of the flexible circuit are secured to contact pads of the second circuit board. The bridge of the frame is removed after the jumper assembly is secured to the first and second circuit boards.

A flexible printed circuit and printed circuit board soldered structure is provided. The structure includes signal transmission lines which dispense with any through hole, thereby enhancing integrity of high-frequency signals. The special design of the signal line structure of the flexible printed circuit and the printed circuit board together provides a satisfactory high-frequency signal transmission interface and enables a soldering technique which is highly practicable and compatible with the flexible printed circuit and printed circuit board soldered structure.

An electronic assembly that includes a rigid printed circuit board having an upper surface with a first plurality of lands. The electronic assembly further includes a flexible printed circuit board having a second plurality of lands on an upper surface. The lower surface of the flexible printed circuit board is directly attached to the upper surface of the rigid printed circuit board. The electronic assembly further includes a plurality of wires. Each of the wires is bonded to the first plurality of lands on the upper surface of the rigid printed circuit board and the second plurality of lands on the upper surface of the flexible printed circuit board.

An electronic assembly that includes a rigid printed circuit board having an upper surface with a first plurality of lands. The electronic assembly further includes a flexible printed circuit board having a second plurality of lands on an upper surface. The lower surface of the flexible printed circuit board is directly attached to the upper surface of the rigid printed circuit board. The electronic assembly further includes a plurality of wires. Each of the wires is bonded to the first plurality of lands on the upper surface of the rigid printed circuit board and the second plurality of lands on the upper surface of the flexible printed circuit board.