An electronic device according to various embodiments of the present invention comprises: a housing that includes a first plate oriented in a first direction, a second plate oriented in a second direction opposite to the first direction, and a side member covering a space between the first plate and the second plate; a printed circuit board disposed in the space of the housing; a contact structure that is processed and formed toward at least one side of the printed circuit board from the side member of the housing and provides a contact point with an external electronic device; and a contact point structure that is disposed between the contact structure and the printed circuit board. The contact structure includes: at least one contact part of which at least a part is exposed to an external space and is made of the same material as the side member; and an insulating part, disposed around the at least one contact part, for separating the contact part and the side member from each other.

Various embodiments of a cable clip having a clip housing configured to engage a casing to establish an operative connection with a portable device encased within the casing are disclosed.

Disclosed are network cable system and components thereof and methods for using the network cable system and components. The network cable system includes one or more components, such as panels, cables, connectors, mobile devices, etc. In one aspect, a panel is configured to wirelessly communicate with a mobile device to receive selections for port tracing. Based on a selected port, the panel is configured to cause an indicator corresponding to the selected port to output an indication to enable port tracing. In another aspect, a panel is configured to wirelessly communicate network related information determined by the panel or received at the panel from another networking component to the mobile device to enable remote monitoring, setup, and adjustment of the network.

An electronic device according to various embodiments of the present invention may comprise: a housing including a hole formed therethrough; an earphone jack built in the housing such that an earphone plug is received therein through the hole; a gas sensor integrally formed with the earphone jack; a memory positioned inside the housing; and a processor positioned inside the housing and electrically connected with the earphone jack, the gas sensor, and the memory, wherein the memory stores instructions by which, when executed, the processor: controls the gas sensor to obtain data related to a specific component of the outside air; and causes the gas sensor to calculate a cleanliness level of the outside air on the basis of at least one of data obtained before a predetermined measurement disturbance element is generated and data obtained after the measurement disturbance element is removed. Other various embodiments are also possible.

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).

Embodiments of this application disclose an electrical connector, including at least one first conductive terminal and at least one second conductive terminal, where a first electroplated layer is disposed on an outer surface of the first conductive terminal, a second electroplated layer is disposed on an outer surface of the second conductive terminal, and a material of the second electroplated layer is different from a material of the first electroplated layer. Electroplating costs of the electrical connector are reduced while corrosion resistance of the electrical connector is ensured. The embodiments of this application further disclose a mobile terminal and an electrical connector manufacturing method.

An electrical connector assembly includes a first electrical connector and a second electrical connector. The first electrical connector includes a first insulative housing having a receiving room, a number of conductive terminals affixed to the first insulative housing, and a metal shell enclosing the first insulative housing. The insulative housing defines a top wall and a bottom wall separated from the top wall. The conductive terminals are arranged in an upper row and a lower row. The second electrical connector includes a second insulative housing having a tongue portion extending forwardly and a number of mating terminals disposed on the tongue portion. The first electrical connector is located in an electrical device. The tongue portion of the second electrical connector is received in the receiving room of the first insulative housing. The tongue portion is sandwiched between the top wall and the bottom wall.

An electronic device includes a first printed circuit board (PCB) including an opening, and a plurality of first connecting terminals disposed to be spaced apart from each other along a circumference of the opening, a camera module including a second PCB, and a connecting interface including an interface body connected to a lower end of the camera module. A plurality of second connecting terminals formed of an elastic material and are disposed to be spaced apart from each other along a circumference of the interface body to be electrically connected to the second PCB. The connecting interface is inserted into the opening so that the first connecting terminals are electrically connected to one respective second connecting terminal of the plurality of second connecting terminals, and a relative position of the connecting interface with respect to the opening is fixed by an elastic force of the plurality of second connecting terminals.

This disclosure presents a connector assembly for providing a waterproof connection to a case for an electronic device. The connector assembly includes a connector body, an electrical cable, and an electrical conductor. The electrical conductor is electrically connected to the electrical cable and electrically engages the installed electronic device to convey at least one of data and power between the installed electronic device and the electrical cable. The connector assembly also includes an outer sleeve configured to freely rotate around the connector body and further configured to removably connect the connector assembly to the case. The outer sleeve includes a securing region to removably secure the connector assembly to the case, an inner gasket to seal an inner sealing interface of the outer sleeve with the connector body, and an outer gasket positioned to seal an outer sealing interface of the outer sleeve with the case.

A single prong, multiple signal conducting plug and plug detection circuitry is provided. The plug may be electrically coupled to a stereo headset including a microphone. The plug may include four signal conducting regions arranged in a predetermined order along the length of the prong. Detection circuitry may be operative to determine whether a microphone type of plug (e.g., a four region plug including a microphone region and two audio regions, or a three region plug including microphone region and only one audio region) or a non-microphone type of plug (e.g., stereo plug) is inserted into the jack of an electronic device (e.g., mobile phone). Detection circuitry may also detect user activated functions performed in response to user activation of one or more switches included with the headset. For example, the headset may include a single switch for performing a function with respect to a microphone (e.g., end-call function).