An altitude increasing connector and the method for manufacturing the same for an electrical connection of a sensor element and a circuit substrate inside a portable electronic device, such that the sensor element is altitude increased, thereby an appropriate disposition altitude of the sensor element is adjusted, in order to ensure normal function of the sensor element, so that the yield of the portable electronic device is increased. The altitude increasing connector has a plurality of conductive terminals, each of which has a first welding pad for welding the sensor element and a second welding pad for welding the circuit substrate, wherein a distance between welding surfaces of both the first, second welding pads of each conductive terminal is fixed, such that a relative distance between electrical joints of both the sensor element and the circuit substrate is fixed.

An altitude increasing connector and the method for manufacturing the same for an electrical connection of a sensor element and a circuit substrate inside a portable electronic device, such that the sensor element is altitude increased, thereby an appropriate disposition altitude of the sensor element is adjusted, in order to ensure normal function of the sensor element, so that the yield of the portable electronic device is increased. The altitude increasing connector has a plurality of conductive terminals, each of which has a first welding pad for welding the sensor element and a second welding pad for welding the circuit substrate, wherein a distance between welding surfaces of both the first, second welding pads of each conductive terminal is fixed, such that a relative distance between electrical joints of both the sensor element and the circuit substrate is fixed.

A movable connector includes a movable housing and a plurality of terminals. Each terminal includes a movable portion and a contact portion. The terminal includes a second fixed portion fixed to the movable housing. The second fixed portion includes a first fixed piece portion connected to the contact portion. The first fixed piece portion has press-fit shoulders, to which a pressing force is applied by using a press-fit jig during press-fitting into the movable housing. The second fixed portion further includes a second fixed piece portion connected to the movable portion and a connecting section connecting the first fixed piece portion to the second fixed piece portion.

A movable connector includes a movable housing and a plurality of terminals. Each terminal includes a movable portion and a contact portion. The terminal includes a second fixed portion fixed to the movable housing. The second fixed portion includes a first fixed piece portion connected to the contact portion. The first fixed piece portion has press-fit shoulders, to which a pressing force is applied by using a press-fit jig during press-fitting into the movable housing. The second fixed portion further includes a second fixed piece portion connected to the movable portion and a connecting section connecting the first fixed piece portion to the second fixed piece portion.

Disclosed is a coaxial cable connector which can be manufactured in an ultra-thin type. The coaxial cable connector of the present invention comprises: a signal pin; a dielectric coupled to the signal pin; a first body coupled to a connector electrically connected to one side of the signal pin; and a second body extending from the first body and coupled to a cable electrically connected to the other side of the signal pin, wherein the second body includes a fixing portion for fixing the dielectric, and the dielectric includes a to-be-fixed portion corresponding to the fixing portion.

Provided are a connector member and a connector that suppress breakage due to butting, pressing in a fitting direction. In the connector, a first connector member having a first housing is fitted with a second connector member having a second housing and a supporting member having a cylindrical shape that supports the second housing. The second housing has a pair of shaft pins formed at positions opposed to each other on the supporting member side. The supporting member has a support claw including a pair of claw pieces that are elastically deformable and hold each of the shaft pins. After the first connector member and the second connector member are fitted together, when a pressure is applied thereto in a fitting direction, the shaft pins are moved to cause the claw pieces of the support claw to elastically deform, causing the shaft pins to detach from the support claw.

Provided are a connector member and a connector that suppress breakage due to butting, pressing in a fitting direction. In the connector, a first connector member having a first housing is fitted with a second connector member having a second housing and a supporting member having a cylindrical shape that supports the second housing. The second housing has a pair of shaft pins formed at positions opposed to each other on the supporting member side. The supporting member has a support claw including a pair of claw pieces that are elastically deformable and hold each of the shaft pins. After the first connector member and the second connector member are fitted together, when a pressure is applied thereto in a fitting direction, the shaft pins are moved to cause the claw pieces of the support claw to elastically deform, causing the shaft pins to detach from the support claw.

A plug connector is provided having a plug-in side, a connection side, and a plug-in direction, which extends from the connection side to the plug-in side, towards a mating connector or a socket, the plug connector having a contact insert and at least four contact elements, the contact elements being positioned in the contact insert in dedicated receiving regions, the plug connector having at least two bridging elements for the electrical connection of in each case at least two contact elements, the bridging elements being positioned one behind the other as viewed in the plug-in direction.

A plug connector is provided having a plug-in side, a connection side, and a plug-in direction, which extends from the connection side to the plug-in side, towards a mating connector or a socket, the plug connector having a contact insert and at least four contact elements, the contact elements being positioned in the contact insert in dedicated receiving regions, the plug connector having at least two bridging elements for the electrical connection of in each case at least two contact elements, the bridging elements being positioned one behind the other as viewed in the plug-in direction.

The invention relates to a press-in contact, a component assembly comprising at least one contact receptacle and a press-in contact, and a method for manufacturing a press-in contact, The method comprising producing a rough contour, in particular a punched contour, of a press-in contact, with a connecting body and two limbs which adjoin the latter and are arranged opposite each other, wherein the limbs have press-in regions and end regions which face away from the connecting body and have contact portions which face each other and are spaced apart from each other in a defined manner, and reshaping the limbs, comprising moving the end regions of the limbs toward each other by at least partial plastic deformation of at least one of the limbs, wherein the contact portions of the limbs touch in a defined manner at least in sections after being relieved of load.