The invention relates to a shielding metal plate (3) suitable for connecting at least one shielded conductor. The shielding metal plate (3), which can be held in a housing of a plug connector, protects the held conductor from external, interfering influences. The shielding metal plate (3) can be variably adapted to different conductor cross-sections such that both thin and thick conductors can be connected.

A connection module and a connector structure are provided. The connector structure includes a connection module and a joint module. The connection module includes a first joint unit, a connection unit having one end detachably connected to the first joint unit and the other end having fasteners, and a limit unit sleeved on the connection unit. The outer edge of each of the fasteners protrudes outward to form a top abutment portion. The joint module includes a second joint unit and a guide unit detachably connected to the second joint unit and having a joint portion. The guide unit is a hollow structure. The connection module is detachably connected to the joint portion through the connection unit to connect with the joint module. The fasteners are movably abutted against the joint portion through the top abutment portions. The limit unit is abutted against the joint portion.

A connection module and a connector structure are provided. The connector structure includes a connection module and a joint module. The connection module includes a first joint unit, a connection unit having one end detachably connected to the first joint unit and the other end having fasteners, and a limit unit sleeved on the connection unit. The outer edge of each of the fasteners protrudes outward to form a top abutment portion. The joint module includes a second joint unit and a guide unit detachably connected to the second joint unit and having a joint portion. The guide unit is a hollow structure. The connection module is detachably connected to the joint portion through the connection unit to connect with the joint module. The fasteners are movably abutted against the joint portion through the top abutment portions. The limit unit is abutted against the joint portion.

A visual fault locator includes a housing; a receptacle retained by the housing and configured to receive a connector of a fiber optic cable under test; a light source retained by the housing and positioned relative to the receptacle to emit light into a filament of the fiber optic cable under test; and an interface in the form of an electrical connector retained by the housing. The housing is physically configured so as to be installed in and removed from a port of a host device, such as a network communications. The visual fault locator receives operational power for the light source from the host device via the interface. Optionally, operational commands for controlling a state of the light source are received from the host device over the interface.

A display and a circuit board structure thereof are provided. The circuit board structure includes a first circuit board, a second circuit board and a connection structure. The connection structure is disposed on the first circuit board, the second circuit board has gold fingers, the connection structure has pins corresponding to the gold fingers, and the connection structure conducts the first circuit board and the second circuit board by connecting the pins with the gold fingers. Therefore, an extra FFC and a connector disposed on the second circuit board for connecting the first circuit board and the second circuit board are saved to achieve cost reduction and assembling process simplification.

The present invention is a connector for connecting an electrical cable having cladding to an aperture in an electrical panel. The assembled connector has a spring, a shell, and a insulator along a longitudinal axis. The spring has a base from which two insertion tabs extend coaxial with the axis and two clad blocking tabs extending perpendicular from the two insertion tabs to prevent over-insertion of the cladding into the connector. The insertion tabs of the spring have hook latches extending past the insulator that lock the connector in the panel, and the base of the spring has a hole to receive the cable where clamping tabs clampably lock the cable in the connector.

An electrical connector system includes a first connector body defining a locking fin, a second connector body configured to receive the first connector body, and a flexible locking arm defined by the second connector body configured to releasably engage the locking fin. A plunger is slidably attached to the second connector body and is moveable from an engaged position in which the plunger holds the locking arm in engagement with the locking fin to a disengaged position in which the plunger disengages the locking arm from the locking fin. A spring is disposed between the plunger and the second connector body and is configured to urge the plunger into the engaged position.

This disclosure is directed to a rugged plug having a connector, an elastic inner sheath and a slidable rigid sheath. The connector has a coupling end. The elastic inner sheath sleeves the connector. The elastic inner sheath has an elastic arm, and a hook is protruded from one lateral side of the elastic arm. The hook protrudes from the side of the elastic inner sheath and a tip of the hook is a curved surface, an actuating slope is defined on the elastic arm, and a direction normal to the actuating slope is biased toward the coupling end of the connector. The slidable rigid sheath movably sleeves the elastic inner sheath, the slidable rigid sheath cover the actuating slope and the hook is located outside the slidable rigid sheath, the slidable rigid sheath has an actuating structure and the actuating structure abuts against the actuating slope.

A connector system with a primary connector and a coupling connector, and a method for connecting a coupling connector and a primary connector. The system provides an insertion aid for mating the connectors. The connector system has a primary connector with a connecting part and a coupling connector with a base unit and a connecting part. The coupling connector has a slider part that moves relative to the base unit to either a preliminary position or a final position. The connecting part of the coupling connector mates with the connecting part of the primary connector. The slider part and the primary connector each have at least one guiding component which both interact to enforce a predefined motion path of the slider part relative to the primary connector when the coupling connector is coupled with the primary connector and the slider part is moved from the preliminary position to the final position.

The present application relates to a connector housing whose device, called terminal position assurance (TPA) device, installed so as to be able to slide inside the housing, transverse to its axis, is activated only by inserting a cable terminal whose body releases one or more flexible tabs of the TPA previously abutting against the housing.