An electrical power connector includes a connector housing having a receptacle receiving an elongated DC power distribution busbar, a first spring contact element arranged at a first side of the receptacle and pressed with a contact area to a first surface of the elongated DC power distribution busbar, and a second spring contact element pressed to a second surface of the elongated DC power distribution busbar opposite the first surface. The second spring contact element is arranged at a second side of the receptacle opposite to the first side. The power connector includes a temperature sensing device arranged inside the connector housing and monitoring a temperature at the first spring contact element and/or the second spring contact element.

A socket has a housing, which is composed of an electrically insulating material and an elongate plug-receiving region. A contact spring is arranged in the plug-receiving region. A lever loads the contact spring in the open position of the lever such that a dimension of the contact spring transverse to the longitudinal direction of the plug-receiving region is reduced and relaxes the contact spring in the closed position of the lever. A plug is provided for such a socket.

A socket has a housing, which is composed of an electrically insulating material and an elongate plug-receiving region. A contact spring is arranged in the plug-receiving region. A lever loads the contact spring in the open position of the lever such that a dimension of the contact spring transverse to the longitudinal direction of the plug-receiving region is reduced and relaxes the contact spring in the closed position of the lever. A plug is provided for such a socket.

A power connector includes an insulated housing and at least one electrical terminal assembly. The insulated housing has at least one terminal receiving hole. The at least one electrical terminal assembly is inserted in the at least one terminal receiving hole. Each electrical terminal assembly has an inner terminal, and an outer terminal. Each inner terminal has a connecting section, and an elastic section connected to the connecting section. Each outer terminal has a conductive portion, a leg portion arranged at one end of the conductive portion, and a curve portion arranged between the conductive portion and the leg portion. The leg portion is exposed outside of the insulated housing. The connecting section of the inner terminal is fixedly connected to the conductive portion of the outer terminal. The present disclosure further has an electrical terminal assembly.

A connector assembly having a pin and a housing. The pin having an insulator layer or material separating two adjacent electrical contacts. The electrical contacts can each include a contact band and a tab extending from the contact band. An electrical contact can be established with a spring contact and the contact band can at least partially surrounds the insulator around the lengthwise axis of the pin. Two electrical contacts can be positioned in an axial or longitudinal offset configuration.

A connector includes a connector terminal having a flat connection surface that faces a counter connector terminal, at least one spherical ball disposed on the connection surface, at least a surface of the ball having electrical conductivity, a ball retaining portion retaining the ball such that the ball is rotatable, a ball guiding portion fixed to the connector terminal and holding the ball retaining portion such that the ball retaining portion is movable in a two-dimensional manner along the connection surface, and a terminal spring pressing the counter connector terminal or the connection surface of the connector terminal in such a direction that the counter connector terminal and the connection surface approach each other.

A contact insert for a conductor connection terminal, including spring force clamping technology, wherein the contact insert has a clamping spring and a manual actuation element, wherein the clamping spring has a clamping arm which is designed to clamp an electrical conductor to a clamping point, wherein the clamping point can be opened by means of the manual actuation element. The invention additionally relates to a conductor connection terminal comprising an insulating-material housing and at least one such contact insert which is arranged completely or partially in the insulating-material housing.

A cable connector includes an insulating housing with a receiving cavity, a metal connecting member with an inner cavity, a conductive terminal, a cable, and an unlocking mechanism. The conductive terminal is installed in the inner cavity of the metal connecting member. The metal connecting member is received in the receiving cavity and connected with the cable. The insulating housing includes a body portion and a locking portion located on one side of the body portion. The unlocking mechanism cooperates with the locking portion and is configured to drive the first end portion to move in a first direction and drive the second end portion to move in a second direction. The present disclosure also provides a cable connector assembly. By providing the unlocking mechanism matched with the insulating housing, it facilitates the unlocking between the cable connector and the mating connector.

A pulse generator comprises a header connector assembly coupled with a housing. The header connector assembly includes a connector assembly and a header enclosing the connector assembly. The connector assembly includes an electrically insulative segment, a first electrically conductive segment, and a second electrically conductive segment axially spaced apart from the first electrically conductive segment by the electrically insulative segment. Each electrically conductive segment includes a connector ring, a spring housing and a spring supported by the spring housing. The connector ring and spring housing are in electrical communication with each other. The electrically insulative segment includes an insulator ring that is positioned between the first and second electrically conductive segments. The insulator ring includes a first end and a second end axially opposite the first end. The first end includes a first recess that opens axially and receives therein a portion of the first electrically conductive segment.

A connector includes a housing extending in a predetermined direction intersecting the fitting direction, a plurality of contacts held by the housing and arrayed along the predetermined direction, and a reinforcing member held at an end portion of the housing in the predetermined direction and made of a metal material, the reinforcing member having a first member and a second member, the first member including a first reinforcing portion extending in a U-shape along the end portion of the housing when viewed in the fitting direction, and a connecting portion connected to the first reinforcing portion and electrically connected to a counter reinforcing member of the counter connector, the second member being formed as a separate component from the first member and including a second reinforcing member extending in a U-shape along the first reinforcing portion when viewed in the fitting direction.