A preferred embodiment of a plug connector for connecting a waveguide to at least one electric conductor may have a housing for connecting to the waveguide. Fastening means may be provided to attach the housing to a structure having the at least one electric conductor. The housing may accommodate a signal converter having an antenna arrangement. A waveguiding arrangement may be provided within the housing. The waveguiding arrangement may guide an electromagnetic wave into the waveguide and may be paired with the antenna arrangement. The signal converter may be connected to at least one electric conductor and may perform conversion between electric signals and high-frequency electromagnetic signals.

The application relates to a connector, intended to transmit radio frequency RF signals, of longitudinal axis X, including: a central contact under the form of an elongated flat strip which at least one of its ends is shaped as a fork with two flexible branches to define inwardly a cavity extending along the axis X for receiving a contact pin of one complementary connector, the two flexible branches of the fork being configured such that to apply a contact force to the contact pin; at least one solid insulating structure in which the central contact is mechanically retained, one of its ends of the insulating structure being configured to let the two flexible branches to move freely radially and to guide the contact pin while enabling its swivelling when inserted into the cavity (C) defined by the fork.

Provided are a shield member, a shield unit, and a connector module each of which allows easy alignment with a connection target instrument. The shield member includes a plurality of first elastic portions made of a conductive material and arranged annularly in a plate shape at an inner circumferential part of the shield member; a plurality of second elastic portions arranged annularly at an outer circumferential part of the shield member; and an intermediate portion between the plurality of first elastic portions and the plurality of second elastic portions. The plurality of first elastic portions are defined by a plurality of first slits each extending from an inner circumferential edge of the shield member in a radial direction of the shield member. The plurality of second elastic portions are defined by a plurality of second slits each extending from an outer circumferential edge of the shield member in the radial direction.

The present invention relates to a camera module, for use in the automobile sector, with a printed circuit board assembly, the printed circuit board assembly comprising at least one printed circuit board and an image sensor; an interface for data transmission, which makes contact with the printed circuit board; a camera module housing, which has a peripheral wall; an interface-side covering element; a compensating element, which is arranged between the peripheral wall and the covering element; the compensating element being designed to seal the camera module housing and compensate for a clearance between the covering element and the peripheral wall. The present invention also relates to a motor vehicle with a camera module according to the invention and also to a method for producing it.

The invention relates to a spring-loaded inner-conductor contact element comprising at least one inner conductor and an elastic element that surrounds the at least one inner conductor. The axial dimension of the at least one inner conductor can be modified. The at least one inner conductor is metallic. The elastic element is made of an electrically insulating material and is attached to each inner conductor.

A radio frequency (RF) circuit connection assembly comprises a RF circuit board and a RF connector. The RF circuit board has a first side and a second side opposite the first side. A RF circuit is located on the first side and an aperture extends through the RF circuit board from the first side to the second side. The RF connector comprises a barrel having a socket configured to receive a RF bullet, a flange having a mounting surface, and a RF connector pin extending laterally from the barrel. The barrel of the RF connector extends through the aperture of the RF circuit board such that the mounting surface of the flange is seated against the first side of the RF circuit board, and the RF connector pin is electrically coupled to the RF circuit on the first side of the RF circuit board.

A circuit board with a connector connection for the direct contacting with a connector, wherein the connector connection is formed on the front side of the circuit board with a contact pin that is arranged centrally in a blind hole while forming a circular ring-shaped cylindrical insertion space and that has an inner hole with a first contact zone of an inner conductor for contacting an inner conductor of the connector. A second contact zone of an outer conductor is arranged in the insertion space for contacting an outer conductor of the connector.

A connector includes: a cylindrical terminal; an internal terminal; and a housing. The cylindrical terminal has an engagement portion of its one edge portion and its opposite other edge portion. The one edge portion has a first reduced thickness portion at its circumferential end portion. The first reduced thickness portion has a first protrusion protruding inwardly in a radial direction and extending in an axial direction. The other edge portion has a second reduced thickness portion. The second reduced thickness portion has a second protrusion protruding outwardly in the radial direction and extending in the axial direction. The engagement portion is configured by overlapping the first reduced thickness portion and the second reduced thickness portion and further by locating the first protrusion and the second protrusion to face each other in the circumferential direction to allow an engagement between them in the circumferential direction.

A connector includes: a cylindrical terminal; an internal terminal; and a housing. The cylindrical terminal has an engagement portion of its one edge portion and its opposite other edge portion. The one edge portion has a first reduced thickness portion at its circumferential end portion. The first reduced thickness portion has a first protrusion protruding inwardly in a radial direction and extending in an axial direction. The other edge portion has a second reduced thickness portion. The second reduced thickness portion has a second protrusion protruding outwardly in the radial direction and extending in the axial direction. The engagement portion is configured by overlapping the first reduced thickness portion and the second reduced thickness portion and further by locating the first protrusion and the second protrusion to face each other in the circumferential direction to allow an engagement between them in the circumferential direction.

A connector includes: a cylindrical terminal to be electrically connected with a cylindrical counterpart terminal; an internal terminal located in the cylindrical terminal; and a housing holding the cylindrical terminal. The cylindrical terminal has a contact portion configured by bending a plate-shaped conductor into a cylindrical shape to contact one edge portion of the conductor with the other edge portion of the conductor. The one edge portion has a recessed shape at its circumferential end portion by reducing its thickness outwardly in a radial direction of the cylindrical terminal to configure one reduced thickness portion. The other edge portion has a recessed shape at its circumferential end portion by reducing its thickness inwardly in the radial direction to configure the other reduced thickness portion. The contact portion is configured by overlapping the one reduced thickness portion and the other reduced thickness portion.