A communication apparatus having a monitoring function for a coupling state of a connector and/or a method of controlling the communication apparatus are provided. According to various example embodiments, a communication device may include an RF connector portion detachably coupled with a cable connector portion of one end of a cable for transmitting an antenna signal, at least one capacitor disposed near the RF connector portion, and a controller (comprising circuitry) for monitoring a coupling state between the cable connector portion and the RF connector portion based on a capacitance of the at least one capacitor.

The disclosure provides a connector and an electronic device using the connector. The connector is connected with a conductive element. The connector includes a terminal support component, a multiple of gold fingers and an electric conversion component. The terminal support component includes a first surface and a second surface. The first surface is opposite to the second surface or the first surface and the second surface are arranged at intervals. The multiple of gold fingers symmetrically arranged on the first surface and the second surface. The electric conversion component includes a main electric unit and two auxiliary conductive units. The main electric unit is electrically connected the two auxiliary conductive units and the conductive element. The two auxiliary conductive units are electrically connected with the gold fingers that respectively arranged on the first surface and the second surface of the terminal support component.

A mechanism for electrically contacting a printed circuit board to a battery cell composite system comprises a printed circuit board, at least one bimetallic element which is fastened to the printed circuit board, at least one cell connector for connecting the battery cell composite system to the printed circuit board, wherein the cell connector contacts the at least one bimetallic element with a connecting element, and a fastening element for fastening the connecting element to the at least one bimetallic element.

The present disclosure relates to a cable connector, a cable assembly and a circuit board assembly including the cable connector, and a method for manufacturing the cable connector. The cable connector has a cylindrical base body and a plurality of pins protruding from a first end of the base body, and is configured to be sleeved on the outer conductor of the coaxial cable from a second end opposite to the first end, and be mechanically and electrically connected with the outer conductor. The cable connector is made by forming a connector blank, and the connector blank has: a face for forming the base body, wherein the face has a first edge and a second edge, and the second edge is used for forming the second end; and pins extending from the first edge. The cable connector can be manufactured cost-efficiently and be easily connected with a coaxial cable.

A plug connector includes a plug housing having a plurality of side walls forming a cavity, a spacer having a plate shape and dividing the cavity into a pair of halves, a plurality of conductive terminals disposed on opposite sides of the spacer, a connector engagement component, and a pull tab. The connector engagement component has a first engagement portion releasably engaging a second engagement portion of a socket connector and a fixing portion detachably secured to the side walls of the plug housing. The pull tab is movable between the plug housing and the connector engagement component in a direction towards or away from a cable connected to the conductive terminals. Pulling of the pull tab in a pulling direction towards the cable enables release of an engagement between the first engagement portion and the second engagement portion, separating the plug connector from the socket connector.

A plug connector includes a plug housing having a plurality of side walls forming a cavity, a spacer having a plate shape and dividing the cavity into a pair of halves, a plurality of conductive terminals disposed on opposite sides of the spacer, a connector engagement component, and a pull tab. The connector engagement component has a first engagement portion releasably engaging a second engagement portion of a socket connector and a fixing portion detachably secured to the side walls of the plug housing. The pull tab is movable between the plug housing and the connector engagement component in a direction towards or away from a cable connected to the conductive terminals. Pulling of the pull tab in a pulling direction towards the cable enables release of an engagement between the first engagement portion and the second engagement portion, separating the plug connector from the socket connector.

A conductor terminal with an insulating material housing and a spring-force terminal connection. The spring-force terminal connection has a contact body which is shaped out of a sheet element and has a base portion, lateral wall portions that protrude from the base portion and are mutually spaced, and solder connection contact tongues. The base portion together with the lateral wall portions forms a conductor receiving channel for receiving an electric conductor, and leaf spring tongues protrude from the lateral wall portions so as to face one another, each leaf spring tongue has a clamping edge for clamping an electric conductor received in the conductor receiving channel. The insulating material housing has a conductor insertion opening which leads to the conductor receiving channel on the front face.

An electrical interconnect for passing high speed signals through an electronic system with a high density of signals and high signal integrity. The interconnect includes an electrical connector and a transition portion of a printed circuit board to which the connector is mounted. Signal conductors are connected to pads on the surface of the PCB using edge-to-pad mounting. The pads align with intermediate portions of the signal conductors such that transitions within the connector that could degrade signal integrity are avoided. The signal conductors may be positioned as individually shielded broadside coupled pairs extending in rows within the connector. Surface traces on the PCB connect the pads to signal vias aligned for vertical routing out of the connector footprint. Ground planes underlying the surface traces facilitate a transition from the signal paths in the connector to those in the PCB with low mode conversion avoiding resonances in the connector shields.

An electrical interconnect for passing high speed signals through an electronic system with a high density of signals and high signal integrity. The interconnect includes an electrical connector and a transition portion of a printed circuit board to which the connector is mounted. Signal conductors are connected to pads on the surface of the PCB using edge-to-pad mounting. The pads align with intermediate portions of the signal conductors such that transitions within the connector that could degrade signal integrity are avoided. The signal conductors may be positioned as individually shielded broadside coupled pairs extending in rows within the connector. Surface traces on the PCB connect the pads to signal vias aligned for vertical routing out of the connector footprint. Ground planes underlying the surface traces facilitate a transition from the signal paths in the connector to those in the PCB with low mode conversion avoiding resonances in the connector shields.

A connector for connecting a printed circuit board, which comprises a solder pad, to a conductor of a line includes one or more fasteners, a recess and a second opening. The connector is fastenable to the printed circuit board by the one or more fasteners. The recess is formed on a first side of the connector and extends at least over a second side arranged transversely to the first side. In an assembled state of the connector on the printed circuit board, the solder pad is arrangeable in the recess on the first side, and, on the second side, the recess forms a first opening into which the conductor is insertable. The second opening is formed on a third side opposite the first side. Heat for connecting the at least one conductor to the solder pad is providable through the second opening.