An electrical connector includes an insulative connector housing including a longitudinal body portion and first and second pairs of opposing end portions. The body portion has a plurality of contact openings extending therein in an insertion direction for supporting a plurality of electrical contact terminals. The first and second pairs of opposing end portions extend from opposing ends of the body portion in the insertion direction. At least one end portion in each pair of opposing end portions includes a ridge extending in the insertion direction for guiding a cover latch along a side surface of the ridge and guiding a strain relief latch along an opposing side surface of the ridge. The ridge has an inclined top surface for resiliently deflecting a cover latch and an inclined side surface for resiliently deflecting a strain relief latch. The ridge has an end portion for latching onto a cover latch and a strain relief latch.

A connector is capable of preventing an adverse effect due to the extra length of a flat cable. The connector includes: a main body to which a terminal of the flat cable having notches formed on both sides can be connected; a slider having engaging portions engageable with the notches, respectively, and configured to reciprocate relative to the main body along an insertion direction of the flat cable; and an actuator which sandwiches and fixes the flat cable in cooperation with the main body.

A transceiver assembly is provided that includes a transceiver housing having first end, having a connector and an opposite second end having a passage in communication with a printed circuit board mounted in the housing. A peripheral connector having a first end and opposite second end includes a receptacle opening at the second end. A flex circuit is disposed between the first end of the peripheral connector and the second end of the transceiver housing. The peripheral connector is capable of being displaced with respect to the transceiver housing via the flex circuit.

An electrical connector assembly includes an electrically conductive structure having a flat flexible conductor with a plurality of end portions. Each of the plurality of end portions includes a plurality of electrically conductive traces. A plurality of wire contact wedges respectively support the plurality of end portions of the electrically conductive structure. A connector housing supports the plurality of wire contact wedges and the electrically conductive structure.

An image capturing apparatus includes an HDMI flexible circuit having a mounting surface, an HDMI connector mounted on the mounting surface of the HDMI flexible circuit, a plug being capable of being inserted therein and removed therefrom, a main base having a mounting portion substantially parallel to the mounting surface, and a reinforcing member that includes part covering the HDMI connector from an opposite side to the mounting portion in a direction orthogonal to the mounting surface and is fixed to the main base. The HDMI connector and the HDMI flexible circuit can move in the direction orthogonal to the mounting surface between the main base and the reinforcing member. In the direction orthogonal to the mounting surface, a minimum clearance between the reinforcing member and the HDMI connector is smaller than a minimum clearance between the reinforcing member and the HDMI flexible circuit.

An electrical connector includes an insulative connector housing including a longitudinal body portion and first and second pairs of opposing end portions. The body portion has a plurality of contact openings extending therein in an insertion direction for supporting a plurality of electrical contact terminals. The first and second pairs of opposing end portions extend from opposing ends of the body portion in the insertion direction. At least one end portion in each pair of opposing end portions includes a ridge extending in the insertion direction for guiding a cover latch along a side surface of the ridge and guiding a strain relief latch along an opposing side surface of the ridge. The ridge has an inclined top surface for resiliently deflecting a cover latch and an inclined side surface for resiliently deflecting a strain relief latch. The ridge has an end portion for latching onto a cover latch and a strain relief latch.

A transceiver assembly is provided that includes a transceiver housing having first end, having a connector and an opposite second end having a passage in communication with a printed circuit board mounted in the housing. A peripheral connector having a first end and opposite second end includes a receptacle opening at the second end. A flex circuit is disposed between the first end of the peripheral connector and the second end of the transceiver housing. The peripheral connector is capable of being displaced with respect to the transceiver housing via the flex circuit.

The invention relates to an electrical connection piece for a video endoscope having a hermetically closed video unit in a shaft of the endoscope, a video endoscope, and a method for producing an electrical connection in a video endoscope. The electrical connection piece according to the invention includes an at least partially flexible printed circuit board having conductive tracks, wherein the printed circuit board has a base surface with openings for contact pins of a hermetic feedthrough, and a flexible first arm and a flexible second arm that branch off in different, in particular opposite, directions from the base surface, wherein the first arm and the second arm each have a flat end surface at the respective ends facing away from the base surface, wherein the conductive tracks extend between the openings on the base surface and electrical contacting surfaces in the end surfaces.

An electrical connector includes an insulative connector housing including a longitudinal body portion and first and second pairs of opposing end portions. The body portion has a plurality of contact openings extending therein in an insertion direction for supporting a plurality of electrical contact terminals. The first and second pairs of opposing end portions extend from opposing ends of the body portion in the insertion direction. At least one end portion in each pair of opposing end portions includes a ridge extending in the insertion direction for guiding a cover latch along a side surface of the ridge and guiding a strain relief latch along an opposing side surface of the ridge. The ridge has an inclined top surface for resiliently deflecting a cover latch and an inclined side surface for resiliently deflecting a strain relief latch. The ridge has an end portion for latching onto a cover latch and a strain relief latch.

Systems and methods for an electrical connector (e.g., of a vehicle) include a housing and a terminal at least partially disposed in the housing, defining a set of angled blade terminals, and configured to electrically connect to (i) an electrical system along a first axis and (ii) a set of exposed conductive circuit traces of a flexible circuit (FC) arranged along a second axis, wherein an acute angle is defined between the first and second axes and corresponds to the set of angled blade terminals.