The inspection socket includes: a contact terminal 80 including a barrel 82 having a flange section 90, a device-side terminal 84, and a board-side terminal 86; housings 10, 30, and 50 having through holes 10c, 30c, and 50c into which the contact terminal 80 is inserted; and housings 20 and 40 having through holes 20c and 40c into which the contact terminal 80 is inserted, the through holes 20c and 40c being larger than the outer diameter of the contact terminal 80 excluding the flange section 90 and smaller than the outer diameter of the flange section 90. The housings 20 and 40 are sandwiched between the housings 10, 30, and 50, the flange section 90 is contained in the through hole 50c, and the through holes 10c, 30c, and 50c are designed to have, for impedance matching, a gap from the outer periphery of the contact terminal 80.

A base of a connector defines an accommodation portion for accommodating a card-type device. The base has holding portions with surfaces directed to the accommodation portion. The holding portions hold held portions of terminals 40. Heat conductive members are provided on the surfaces of the holding portions. The heat conductive members are sandwiched between the card-type device and the holding portions when the card-type device is connected to the connector 10. In this way, heat conductive paths, which include the conductive members, are formed between the card-type device and held portions of the terminals 40.

The present disclosure relates to a docking cradle assembly for holding a computing device as disclosed herein. The docking cradle assembly comprises a cradle housing; a cover including an opening; and a connector assembly supported by the cover and having a connector positioned within the opening, the connector being rotatable between a first position, a second position substantially perpendicular to the first position, and a subset of positions each between the first and second positions and angularly displaced from the first position, wherein the cover is mountable to a first mounting surface and a second mounting surface angularly displaced from the first mounting surface by rotating the connector to a position suitable for the selected mounting surface in which the connector is inaccessible after the cover is mounted.

A connector system enables charging of a portable information handling system in a charging dock. The connector system has improved tolerance to misalignment of male and female connectors to facilitate engagement when the portable information handling system is inserted into a charging dock. An embodiment of a receptacle adapter is disposed such that there is only one orientation for power connector engagement. An embodiment of the charging dock has an angular tilt that causes a partial weight component of the portable computer to contribute to positive engagement of the external plug adapter and receptacle adapter. An embodiment of the connector system includes a power interface including conductive pads and pogo pins. The conductive pads have contact surfaces that tolerate alignment variation between the pogo pins and the conductive pads. An embodiment of the connector system is a USB Type-C power adapter connector system.

A dock includes a first section and a second section joined with a spring hinge assembly. An applied force opens the dock and a device may be placed within the dock. The first section includes a first concavity which approximately conforms to a top surface of the device. Within the first concavity is a ridge which comes into contact with part of the top surface of the device. The second section includes a second concavity within which a bottom surface of the device fits. Electrical contacts such as pogo pins within the second section come into contact with electrical contacts on the bottom surface of the device. Annular elastomeric features around at least some of the pogo pins have a top edge which may come into contact with the bottom surface of the device. The spring hinge applies a force that closes the dock, retaining the device therein.

A gas sensor includes a sensing element having an electrode pad a metal terminal, and a separator that has insertion holes in which the metal terminal is held. The metal terminal includes a main body and an elastic portion that is integrally connected to the main body and is elastically connected to the electrode pad at a predetermined contact point. The main body includes a front-end-side restricting portion and a rear-end-side restricting portion that restrict the movement of the main body by contacting wall surfaces of the insertion hole when the main body moves in a direction intersecting the direction of an axial line. The contact point is located between the front-end-side restricting portion and the rear-end-side restricting portion in the direction of the axial line. The front-end-side restricting portion and the rear-end-side restricting portion are connected to each other so that a flat board portion is interposed therebetween.

The present disclosure relates to a docking cradle assembly for holding a computing device as disclosed herein. The docking cradle assembly comprises a cradle housing; a cover including an opening; and a connector assembly supported by the cover and having a connector positioned within the opening, the connector being rotatable between a first position, a second position substantially perpendicular to the first position, and a subset of positions each between the first and second positions and angularly displaced from the first position, wherein the cover is mountable to a first mounting surface and a second mounting surface angularly displaced from the first mounting surface by rotating the connector to a position suitable for the selected mounting surface in which the connector is inaccessible after the cover is mounted.

An electronic device includes a display module, a frame, and a first magnetic element. The frame has a frame body and a first connector, where the frame body forms an accommodation space, and the first connector is disposed on one side of the frame body. The display module is detachably mounted in the frame and has a second connector disposed on one side of the display module. The first connector is disposed at a position corresponding to a position of the second connector. The first magnetic element is disposed in the frame body, and when the display module mounted in the frame is attracted to the accommodation space through a magnetic force of the first magnetic element, the second connector is electrically connected to the first connector.

A system to couple a controller to a roadside aerial lighting fixture includes a primary male connector integrated with the controller and a primary female connector integrated with the roadside aerial lighting fixture. The primary male and female connectors are compliant with a roadway area lighting standard promoted by a standards body. The primary male connector protrudes from a first substantially planar surface of the controller. The primary female connector is recessed within a second substantially planar surface of the roadside aerial lighting fixture. A controller-side data connector protrudes from the first substantially planar surface or a third surface substantially parallel to the first substantially planar surface. A fixture-side data connector is recessed within the second substantially planar surface or recessed within a fourth surface substantially parallel to the second substantially planar surface. When the controller is rotatably coupled to the roadside aerial lighting fixture, the primary male connector is electrically coupled to the primary female connector, and the controller-side data connector is communicatively coupled to the fixture-side data connector.

The present invention relates to an electronic device and an antenna connector. The electronic device includes a first unit, a transmission dock, a base, and an antenna connector. The transmission dock is pivotally provided at the first unit. The base is movably provided at the transmission dock, and includes a top plate and a bottom plate that are mutually fixed. The antenna connector is movably provided at the base, and includes a housing, an installation flange, a central moving terminal and an elastic member. The central moving terminal is located in the housing. The installation flange is radially formed outside the housing, and is located between the top plate and the bottom plate and abuts against the top plate. The elastic member is clamped between the installation flange and the bottom plate.