A power connector socket includes a main body and a lamella cage. The main body includes a socket, an opening at a side portion of the socket, and a chamber inside the socket. The lamella cage passes through the socket. The lamella cage includes a ring portion and contact lamellae. The contact lamellae outwardly extend from a side portion of the ring portion and are annularly arranged. The ring portion is in an inner side of the chamber. One of two ends of each of the contact lamellae includes a fixed end formed on the ring portion, a free end outwardly extends from the other end of each of the contact lamellae, and the free ends are positioned at a portion of the main body adjacent to the opening.

A power connector socket includes a main body and a lamella cage. The main body includes a socket, an opening at a side portion of the socket, and a chamber inside the socket. The lamella cage passes through the socket. The lamella cage includes a ring portion and contact lamellae. The contact lamellae outwardly extend from a side portion of the ring portion and are annularly arranged. The ring portion is in an inner side of the chamber. One of two ends of each of the contact lamellae includes a fixed end formed on the ring portion, a free end outwardly extends from the other end of each of the contact lamellae, and the free ends are positioned at a portion of the main body adjacent to the opening.

An electrical connector includes an insulative housing, and a pair of contacts which are secured together by a clamp mounted within the housing. Each electrical contact includes a planar body, spring fingers extending from a first end of the body, and a coupling extending from the body to couple the electrical contacts to the housing. A first deflection zone between the clamp and first ends of the spring fingers allows the spring fingers to deflect in a lateral direction to receive the conductive component within the receiving space. A second deflection zone between the first ends of the spring fingers and the second ends of the bodies allow the bodies and spring fingers to deflect in the lateral direction when the conductive component is received within the receiving space, but the conductive component is not directly aligned with the receiving space.

A connection element is disclosed. In an embodiment, the connection element includes a guide element and first and second contact elements arranged at a distance from one another. The guide element at least partially surrounds the contact elements and is configured to guide and receive at least one mating connection element. The first and second contact elements have respective first and second contact sections configured for connection to a mating contact element of the mating connection element. The first and second contact sections lie on a straight connecting line which runs orthogonally through the first and second contact element axes and the contact sections have different lengths along a direction of the straight connecting line. A kit of parts and an electronic component part, each including at least one connection element as described, are also disclosed.

A controllable electrical outlet may comprise a resonant loop antenna. The resonant loop antenna may comprise a feed loop electrically coupled to a radio-frequency (RF) communication circuit and a main loop magnetically coupled to the feed loop. The controllable electrical outlet may comprise one or more electrical receptacles configured to receive a plug of a plug-in electrical load and may be configured to control power delivered to the plug-in electrical load in response to an RF signal received via the RF communication circuit. The RF performance of the controllable electrical outlet may be substantially immune to devices plugged into the receptacles (e.g., plugs, power supplies, etc.) due to the operation of the resonant loop antenna. For example, degradation of the RF performance of the controllable electrical outlet may be less when the controllable electrical outlet includes the resonant loop antenna rather than other types of antennas.

A controllable electrical outlet may comprise a resonant loop antenna. The resonant loop antenna may comprise a feed loop electrically coupled to a radio-frequency (RF) communication circuit and a main loop magnetically coupled to the feed loop. The controllable electrical outlet may comprise one or more electrical receptacles configured to receive a plug of a plug-in electrical load and may be configured to control power delivered to the plug-in electrical load in response to an RF signal received via the RF communication circuit. The RF performance of the controllable electrical outlet may be substantially immune to devices plugged into the receptacles (e.g., plugs, power supplies, etc.) due to the operation of the resonant loop antenna. For example, degradation of the RF performance of the controllable electrical outlet may be less when the controllable electrical outlet includes the resonant loop antenna rather than other types of antennas.

Apparatus including an elongated body to couple with a surface mount connector to reduce or prevent deformation of the surface mount connector during soldering of the surface mount connector to a substrate, the surface mount connector including a connector housing having a first end portion and a second end portion. In one implementation, the elongated body may include: a first body end portion forming a first tab insertable into a first portion of a socket defined by the first housing end portion; and a second body end portion forming a second tab insertable into a second portion of the socket defined by the second housing end portion.

A cable connector includes a cable including a center conductor and a housing supporting a portion of the center conductor. An imaginary line divides a cross-section of the center conductor into two semicircles, and when the cable connector is mated with a mating connector, only one of the two semicircles is directly connected with a corresponding contact of the mating connector.

A terminal fitting includes a body portion, a first projection, a resilient contact portion and a first fulcrum portion. The body portion is in the form of a rectangular tube open in a front-rear direction. The first projection projects from one wall part toward another wall part, out of two wall parts of the body portion adjacent across one corner. The resilient contact portion is arranged in the body portion. The first fulcrum portion serves as a fulcrum when the resilient contact portion is deflected and deformed. In a developed state of the terminal fitting along the front-rear direction and a width direction, one side end of the resilient contact portion is arranged on one side end part in the width direction. A tip of the first projection is arranged on another side end part in the width direction.

A contact element for contacting electrotechnical components includes: a leadframe part made of an electrically conductive material, having a recess in a contact tab. The contact tab is formed to be curved at at least one location such that a curving line, along which a curvature is present, extends between a beginning and an end of the recess and runs transversely through the contact tab in a straight line.