Provided are a connector and a manufacturing method thereof. The connector is configured to dispose on a circuit board including a mounting hole. The connector includes a guide pin module and a conductive cover. The guide pin module is located on one side of the circuit board and includes a base, a metal guide pin, and a glass sealing layer. The base has a perforation hole corresponding to the mounting hole. The metal guide pin is inserted into the perforation hole and the mounting hole. The glass sealing layer is disposed at the perforation hole and wraps around part of the metal guide pin. The conductive cover is disposed at the mounting hole, connected to the top of the metal guide pin, and protrudes from the circuit board. The conductive cover is bonded to the circuit board by soldering to electrically connect the metal guide pin to the circuit board.

An electrical component comprises a main body, a fulcrum portion and at least two terminals including a first terminal and a second terminal. Each of the terminals has a first portion and a second portion. The first portion of one of the first terminal and the second terminal is brought into contact with a circuit board when the main body is tilted relative to the circuit board with the fulcrum portion, which acts as a fulcrum, under an insertion state where the terminals are inserted into through-holes, respectively, while none of the terminals are soldered thereto. When the main body is tilted relative to the circuit board with the fulcrum portion, which acts as the fulcrum, under the insertion state, the second portion of one of the first terminal and the second terminal is brought into contact with the circuit board to regulate an excessive tilt of the main body.

A device includes a processing device, memory, wireless circuitry, a touch-sensitive display. Programs are stored in the memory, when executed by the processing device, cause: displaying a user interface on the touch-sensitive display that includes a set of menu items associated with adaptive devices; detecting a first contact on the touch-sensitive display associated with a first menu item for selection of control of a first adaptive device; in response to detecting the first contact, displaying a set of control indicia associated with control functionality of the first adaptive device; detecting a second contact on the touch-sensitive display associated with a first control indicia of the set of control indicia; generating an actuation command associated with the first control indicia that corresponds to a specific action of the adaptive device; and transmitting, using the wireless circuitry, the actuation command to a wireless adapter device to which is coupled the adaptive device.

A female electrical connector includes internal terminals, an external terminal surrounding the internal terminals, and a holding member that holds the internal terminals and the external terminal and extends in a long-side direction (X axis direction) and a short-side direction (Y axis direction). The internal terminals are arranged in the long-side direction. The external terminal includes a first contact wall portion closer than the internal terminals to a corner in the long-side direction and a second contact wall portion closer than the internal terminals to a corner in the long-side direction. The first and second contact wall portions face each other in the short-side direction. The holding member includes a first restricting portion close to the first contact wall portion to compensate for misalignment in a mated state and a second restricting portion close to the second contact wall portion to compensate for misalignment in the mated state.

A connector is mountable on a board and is mateable with a mating connector which comprises a mating terminal. The connector comprises a terminal held by a holding member. The terminal has a first support portion which is resiliently deformable, a primary contact point supported by the first support portion, a second support portion which extends from the primary contact point and is resiliently deformable, and a pressed portion supported by the second support portion. The pressed portion is movable in an upper-lower direction (Z-direction) and a width direction (Y-direction). When the connector is mated with the mating connector, the primary contact point is brought into contact with the mating terminal and is moved in the width direction. When the connector is under a mated state where the connector is mated with the mating connector, the pressed portion is pressed against the board in the upper-lower direction.

A board mounting type connector includes a housing, a plurality of contact portions to be extending from the housing toward a circuit board, and a plurality of protrusions to be protruding from the housing toward the circuit board. The plurality of contact portions are aligned along a width direction at a first position in a fitting direction. The connector and a mating connector are to be fit each other in the fitting direction. The width direction intersects the fitting direction. The plurality of protrusions are aligned along the width direction at a second position in the fitting direction. A distance between the first position and a position of a center of gravity of the connector in the fitting direction is longer than a distance between the second position and the position of the center of gravity in the fitting direction.

A blind plug, in particular an RJ45 blind plug, includes at least one data plug unit, which is configured for a connection to a counter data plug unit, in particular an RJ45 plug socket, wherein the data plug unit includes an output unit, which is configured to indicate a power supply capability of the counter data plug unit.

A connector block comprised of a plurality of spring-embedded blind mate connector assemblies. Each of the spring-embedded blind mate connector assemblies can be comprised of a first connector extending in a first direction and a second connector extending in a second direction opposite the first direction, where the first connector and the second connector can have a common axis and can be operatively coupled to pass a signal between opposite ends of the spring-embedded blind mate connector assembly. The first connector can include a captivator, a connection extension, and a spring between the captivator and the second connector, where the spring can abut the captivator and have an outer diameter no greater than an outer diameter of the captivator.

A connector includes: a terminal fitting; a housing including a smooth terminal lead-out area where a terminal outlet for projecting a conductor connection part of the terminal fitting on the inner side toward an outer side is provided; a conductive component shaped in a sheet-like form with a conductor and an insulator exhibiting flexibility, the conductive component including a conductor connection area that physically and electrically connects the conductor to the conductor connection part, and a conductor lead-out area led out from the conductor connection area toward a lead-out direction projecting from the housing; and a reinforcing plate shaped in a planar shape with an insulating material, the reinforcing plate being sandwiched between the conductor connection area and the terminal lead-out area. The housing includes a protruded body protruded toward the conductor lead-out area side of the conductive component than a same plane with the terminal lead-out area.

A connector (10) according to this disclosure includes an insulator (20) into/from which a connection object (60) can be inserted/removed and an actuator (50) capable of rotating between a closed position where the actuator closes relative to the insulator (20) and an opened position where the actuator opens relative to the insulator (20). The actuator (50) rotates from the removal side to the insertion side of the connection object (60) with respect to the insulator (20) when moving from the closed position to the opened position and holds the opened position independently.