The present invention relates to a signal transmission connector connected to an electronic device, for transmitting an electrical signal, and includes a signal shielding unit in which multiple conductive particles are dispersed within an elastic insulating material in order to shield an external noise signal, a plurality of signal transmission units spaced apart within the signal shielding unit in a form in which the multiple conductive particles are arranged in a thickness direction within the elastic insulating material in such a way as to be connected to terminals of an electronic device, and a plurality of insulation units each disposed to surround the signal transmission unit between the signal transmission unit and the signal shielding unit in order to insulate the plurality of signal transmission units and the signal shielding unit.

The present invention relates to an electrical device comprising: a first connector (102) being magnetically connectable to a second connector (202) of an accessory (200) for forming a magnetic connection between the first and second connectors, wherein at least one of the first and second connectors comprises an electromagnet; a sensor (120) comprising at least one of a motion sensor, a proximity sensor and a microphone, wherein the sensor is arranged to output a sensor signal (121); and a electromagnetic controller (108) connected to the electromagnet and arranged to control the magnetic field of the electromagnet based on the sensor signal.

A housing is configured to receive a plug that includes an upper face, a lower face, and a front face. The housing also includes a cutout portion that traverses the upper face and the lower face, opens to the front face of the housing, extends for a length of the plug, and is formed in a direction of insertion of the plug. An opening is configured to receive the plug, which is formed on the front face of the housing and connected to the cutout so that a plug is received by the opening. A distance from the upper face to the lower face of the housing is approximately equal to a diameter of the plug.

The present disclosure relates to a Radio Frequency (RF) connector and a terminal. The RF connector includes: a rotation shaft which includes a first connection contact and a second connection contact, the first connection contact and the second connection contact forming rotation shaft structures which are rotatable relative to each other, and the first connection contact and the second connection contact forming an electrical connection; a first connection wire, which is connected with the first connection contact; and a second connection wire, which is connected with the second connection contact. By rotationally connecting two connection wires through an RF connector, an antenna of a first part in a foldable terminal is connected to a motherboard of a second part in the foldable terminal, or the antenna of the second part in the foldable terminal is connected to the motherboard of the first part in the foldable terminal.

The application relates to a connector, intended to transmit radio frequency RF signals, of longitudinal axis X, including: a central contact under the form of an elongated flat strip which at least one of its ends is shaped as a fork with two flexible branches to define inwardly a cavity extending along the axis X for receiving a contact pin of one complementary connector, the two flexible branches of the fork being configured such that to apply a contact force to the contact pin; at least one solid insulating structure in which the central contact is mechanically retained, one of its ends of the insulating structure being configured to let the two flexible branches to move freely radially and to guide the contact pin while enabling its swivelling when inserted into the cavity (C) defined by the fork.

A spring-loaded connector (2) includes a waterproof elastic member (50). The waterproof elastic member (50) includes cylindrical parts (51) corresponding to respective contact units (10). When the cylindrical part (51) is sandwiched between a first pin (11) and an intermediate member (13) of the corresponding contact unit (10), the waterproof elastic member (50) seals between the first pin (11) and the intermediate member (13) in a watertight manner while allowing the contact unit (10) to penetrate. The waterproof elastic member (50) includes, between the cylindrical parts (51) that are adjacent to each other, a water-shielding structure (52) for preventing the first pins (11) of the contact units (10) corresponding to the adjacent cylindrical parts from being electrically connected due to presence of water between the first pins (11).

An electronic hinge system is provided, including a first component and a second component. The first component may include a first enclosure, a first substrate extending within the first enclosure, a first connector, and a plurality of curved elements disposed in the first connector. The first substrate may have electrically conductive elements and microelectronic devices electrically connected with the electrically conductive elements. The curved elements may be electrically conductive and spaced apart from one another. Each curved element may be electrically connected with a respective one of the electrically conductive elements of the first component. The second component may include a second enclosure and a second connector disposed at an end of the second enclosure. The first connector may be configured to mate with the second connector, such that when the first component is engaged with the second component, the first connector is rotationally coupled with the second connector.

A connector assembly for a mobile device is provided that includes a back plate adapted to be operably coupled with a mobile device, a connector region operably couple with the back plate, and at least one alignment member operably coupled with the back plate and positioned adjacent to the connector region. The connector region is configurable in at least a first arrangement and a second arrangement. The at least one alignment member aligns with the connector region and frictionally receive an accessory device. In the first arrangement, the connector region includes at least one electrical connector, and in the second arrangement, the connector region includes no electrical connectors.

The present disclosure relates to a cluster connector assembly, wherein the cluster connector assembly comprises: a plurality of connectors with cables; a front case configured to integrate the connectors together; a locking assembly which can axially locks the connectors in the front case independently of each other; and a rear case which can be connected to the front case to fix the locking assembly. The cluster connector assembly is advantageous in that, each connector may be locked by a locking sleeve assigned uniquely for it, whereby the respective connectors can be locked reliably independent of each other. The present disclosure further relates to a method for mounting the cluster connector assembly.

A connector assembly for a mobile device includes a bottom plate adapted to be operably coupled with a mobile device, a connector region being operably coupled with the bottom plate, and at least one alignment member operably coupled with the back plate. The connector region is configurable in at least a first arrangement and a second arrangement. The at least one alignment member is positioned adjacent to the connector region. Further, the at least one alignment region aligns with the connector region and frictionally receives an accessory device. In the first arrangement, the connector region includes at least one charging pad. In the second arrangement, the connector region includes at least one data port.