A poke-in terminal includes a main body, a tab terminal socket at a mating end, and a wire socket at a terminating end. The tab terminal socket includes walls forming a tab terminal receptacle configured to receive a tab terminal. Upper and lower beam contacts extend into the tab terminal receptacle to interface with the tab terminal. The wire socket includes walls forming a wire receptacle configured to receive a wire. Poke-in retention beams extend into the wire receptacle to interface with the wire when poked into the wire socket. The wire socket includes a wire release element configured to be actuated to release the poke-in retention beams from the wire.

A connector is disclosed. The connector has a housing and a conductive terminal disposed in the housing. The conductive terminal has a pair of resilient contact arms including a pair of clamping portions clamping a wire therebetween and a pair of releasing portions adapted to move the pair of resilient contact arms away from each other, each of the pair of resilient contact arms includes one clamping portion and one releasing portion disposed at a free end.

The invention provides a modular electrical power transfer device that enables push-in, pull-out connection between electrical power supply wires and interface components. An electrical power transfer device of the invention includes at least two physically isolated electrical buses mounted within a non-conducting housing. Each electrical bus includes a blade connector and one or more wire shark-bite connectors. The wire shark-bite connectors can engage with electrical power supply wires, the resulting mechanical and electrical connections enable the electrical bus to receive power from the connected supply wires and redistribute electrical power to another device connected to the electrical bus. The blade connector can engage with a blade contact from an interface component, the resulting mechanical and electrical connections enable transfer of electrical power from the electrical bus to the interface component. The non-conductive housing includes: (1) blade interface ports through which blade contacts from interface components can access blade connectors on electrical buses mounted within the housing, and (2) wire interface ports through which electrical wires can access the wire shark-bite connectors on electrical buses within the housing. The non-conductive housing optionally includes one or more wire release ports through which a connected wire can be disengaged from a wire shark-bite connector on an electrical bus within the housing.

A connector is disclosed. The connector comprises a housing and at least one conductive terminal received in the housing. The housing has a flange mounted on a first surface of a circuit board and a body extending through the circuit board beyond an opposite second surface of the circuit board. The body has an insertion hole. The at least one conductive terminal has a pair of resilient contact arms contacting a wire inserted through the insertion hole, a pair of solder feet soldered to the circuit board and electrically connected to the pair of resilient contact arms, and a releasing mechanism adapted to move the pair of resilient contact arms away from each other to release the wire.

A clip for making a mechanical and electrically conductive connection between the clip and an electrically conductive pin. The clip has a base, and a first arm and an opposite second arm projecting out from the base. The first and the second arms each having a clipping area, the clipping areas of the first and second arms running toward one another and being designed to lie against the pin to make the mechanical and electrically conductive connection when the pin is arranged between the clipping areas of the first and second arms, respectively. A centering area departs from each of the clipping areas, that is, the clipping area of the first arm and the clipping area of the second arm, the centering area of the first arm and the centering area of the second arm diverging from one another.

A connector, a light source module including the connector, and a light source module array including the light source module array are provided. The connector includes a first connection part configured to connect to a first wire inserted thereto; a second connection part configured to connect to a second wire inserted thereto, the first and second connection parts being disposed to face in opposite directions; a housing covering the first and second connection parts; and a push button configured to be actuated by an external force applied thereto to release a connection of the first connection part to the first wire and a connection of the second connection part to the second wire.

An electrical connector includes a housing and a conductive terminal. The housing includes a terminal slot and an insertion entrance in front of the terminal slot. The conductive terminal is correspondingly mounted in the terminal slot. The conductive terminal comprises a base portion, two side portions and two elastic arms, the base portion extends in a front-rear direction, the two side portions extend upwardly respectively at two sides of a rear end of the base portion, the two elastic arms extend respectively from the two side portions toward the insertion entrance of the housing so that a front end of each elastic arm is close to the insertion entrance. As depicted, a clamping portion is formed close to the front end of each elastic arm by punching a tab therein.

A connector is disclosed. The connector has a housing and a conductive terminal disposed in the housing. The conductive terminal has a pair of resilient contact arms biased toward each other and a releasing mechanism adapted to move the pair of resilient contact arms away from each other.

A single element electrical connector includes a single conductive contact element formed into a cage structure having a wire insert end and a wire contact end along a longitudinal centerline axis of the connector. The cage structure defines an upper pick-up surface having a surface area suitable for placement of a suction nozzle of a vacuum transfer device, as well as a pair of contact tines biased towards the centerline axis to define a contact pinch point for an exposed core of a wire inserted into the connector. A contact surface is defined by a member of the cage structure for electrical mating contact with a respective contact element on a component on which the connector is mounted.

A wire connection terminal structure includes a seat body and a conductive clip disposed therein. One end of the seat body has an extending side and a recessed side and a slope formed between the extending side and the recessed side. The conductive clip has a holding mouth. The slope is formed with a wire plug-in opening aligned with the holding mouth. A wire plug-in protection wall is formed on an edge of the recessed side. The wire plug-in protection wall protrudes in a direction as an extending direction of the extending side. The slope and the wire plug-in protection wall define a recessed configuration on the end of the seat body. The wire plug-in protection wall on the outer edge of the wire plug-in opening provides a shielding and guidance effect so that the conductive wire can be easily aimed at and plugged into the wire plug-in opening.