An Insulation Displacement Contact Compliant connector system (IDCC) which includes a housing, header pins, and a Printed Circuit Board (PCB). Each header pin has at least a single barb to be retained into the housing. Each pin has a blade for contacting a wire. A compliant feature on the pin retains itself into holes in the PCB. The housing has a negative space similarly shaped to the pin. The housing includes a strain relief which provides a lead-in for a wire. When the system is fully assembled, the pins reside in the housing, and exit through the housing and into and through respective holes in the PCB. A wire can be inserted into the housing once the pins reside in the housing. There are several options for the assembly process including a) a pin-to-housing insertion process; b) a housing assembly-to-PCB process or a connector-to-PCB process; and c) a wired housing assembly-to-PCB assembly process or a wire harness-to-PCB assembly process.

A power input terminal block includes terminals received in terminal channels of a housing each having a main body defining a wire pocket receiving a supply wire and a take-off tab electrically connected to the main body. The power input terminal block includes clamp contacts coupled to the take-off tabs each having a base, a spring beam extending from the base, and a cap extending from the spring beam having a poke-in window configured to receive a take-off wire. An edge defining the poke-in window engages the take-off wire and pulls the take-off wire against the wire side of the take-off tab. The power input terminal block includes release levers coupled to the housing to move the spring beam to an extended position to allow loading and removal of the take-off wire from the clamp contact and the take-off tab.

A connector comprises a locator configured to position a cable. The locator has a front-end surface, a first surface and a second surface and is formed with a positioning groove. The first surface and the second surface are located at opposite sides of the locator, respectively, in the upper-lower direction (Z-direction). The positioning groove has a front groove, a rear groove and a coupling groove. The front groove is recessed rearward from the front-end surface and extends from the first surface to the coupling groove along the upper-lower direction. The rear groove is recessed from the second surface along the upper-lower direction and extends rearward from the coupling groove. When the locator positions the cable, the front groove receives a front regulated portion of the cable, and the rear groove receives a rear regulated portion of the cable.

A tool-less terminal block includes an insulated base, a turning part, a conductive terminal, and a spring clamp. The insulated base has a cavity and a slot communicating to the cavity; the turning part is pivotally coupled to the insulated base; the conductive terminal is fixed to the bottom of the slot; the spring clamp is accommodated in the cavity and disposed at the top of the conductive terminal, and the spring clamp has a movable elastic arm pressing the conductive terminal to seal the slot, and the movable elastic arm has a link rod fixed to the turning part and operable together with the turning part. When the turning part is turned to a released position, the link rod is pulled by the turning part to drive the movable elastic arm away from the conductive terminal to open the slot, so as to provide a convenient use.

A power connector has a casing, a first power terminal, and a second power terminal. The casing has at least one cable-in opening. The first power terminal has a first inner connecting portion and a first outer connecting portion. The first inner connecting portion is secured in the casing and has a first through hole matrix. The first through hole matrix faces the at least one cable-in opening and has multiple first through holes. The first outer connecting portion is located outside of the casing. The second power terminal is basically the same as the first power terminal. The first power terminal is located between the second power terminal and the at least one cable-in opening. The first power terminal shields part of the second power terminal and allows the second through hole matrix of the second power terminal to be exposed to the at least one cable-in opening.

In some examples, a contact module comprising housing, middle pole, wiring unit body, wherein the middle pole and the wiring unit are disposed in the housing; the middle pole moves up and down in the housing to realize the connection or disconnection between the middle pole and the wiring unit; the wiring unit body is disposed inside the housing, and the wiring unit body is provided therein with electrically conductive part for realizing the connection between conductor wire and the wiring unit body, and a pressing part for realizing the withdrawal of the conductor wire from the electrically conductive part provided in the wiring unit body, and the conductor wire connected into the electrically conductive part can be quickly pulled out by operating the pressing part wherein the housing is provided with conductor insertion port for the conductor wire to be inserted into the electrically conductive part.

There is provided an electric connection part including: a nut made of a metal, the nut being used for fixing a conductor; and a housing made of a resin, the housing having a press-fit groove into which the nut is press-fitted. The housing includes: a rib that protrudes from an inner side surface of the press-fit groove and extends along a press-fitting direction in which the nut is press-fitted into the press-fit groove, such that the rib presses the nut to be in contact with the nut; and a recess that is disposed on an extension line in which the rib extends, the recess being recessed in the press-fitting direction.

A safety electrical assembly includes an electrical apparatus having a connecting zone with a plurality of terminals each connected to a cable, each of the terminals having a connecting opening formed within an insulating housing of the electrical apparatus, a protective cover cooperating with the electrical apparatus in a mounted position, and a main opening for the cables connected to the terminals extending from an exterior area to an interior area of the safety electrical assembly. The interior area is defined between the electrical apparatus and the protective cover. The connecting openings are disposed in the interior area. The main opening is arranged so that a direct trajectory from any point of the main opening oriented toward any point of any connecting opening intersects an obstacle of the safety electrical assembly.

A wire-clamping connector is provided. The wire-clamping connector includes a housing and a contact element. The housing includes a through hole. The contact element is disposed in the housing, and includes a bottom plate structure and an elastic sheet body. The bottom plate structure is disposed opposite to a top wall of the housing, and includes a protruding portion that has a contact surface. A terminal portion of the elastic sheet body is fixed to the top wall, and the elastic sheet body has an acute-angular structure configured to be adjacent to the contact surface. An insertion interval is defined between the acute-angular structure and the contact surface. A wire core of a wire inserted in the through hole enters the insertion interval and is clamped together by the acute-angular structure and the contact surface, and an elastic restoring force is generated by the pressed elastic sheet body.

The present disclosure provides a connector, which relates to the technical field of electrical connection devices, so as to solve the problem of poor connection stability of connectors in existing technologies. The connector includes a mounting base and a binding post, wherein the binding post has both sides symmetrically provided with a fixed fin, the mounting base defines thereon a mounting groove for mounting the binding post, two sides of the mounting groove define a limit groove, and the fixed fin is clamped in the limit groove so as to enable the binding post to be limited to the mounting groove. The connector according to the present disclosure has good connection stability and can effectively transmit current or signal, enabling an effective cooperation between connected devices.