An angled housing part for an electrical connector includes a first section having a first flange surface, a second section having a second flange surface, and a bellows section arranged between the first section and the second section. The first flange surface is angled with respect to the second section. The first section and the second section are movable relative to one another upon elastic deformation of the bellows section.

An electrical connector including an electrically conductive shell sized to receive and retain an electrically insulating housing insert, where the housing insert includes a cavity for receiving and retaining a wire-terminating electrical contact therein. The shell and housing insert each including keying features designed to cooperate with one another to resist independent rotation of the housing insert within the shell. The electrical connector further includes a wire sealing grommet coupled to the housing insert to improve connector performance and minimize arcing issues.

Provided is an adapter. The adapter includes a housing and an elastic component. The elastic component is configured to connect the housing with an installation frame. The elastic component includes an installation body, a blocking portion and a clamping elastic piece, the blocking portion and the clamping elastic piece are disposed on the installation body. The installation body is configured to be detachably connected to the housing. A first clamping gap capable of accommodating the installation frame is provided between the blocking portion and the clamping elastic piece.

A high temperature electrical connector, which may be used to connect a temperature sensor mounted in a combustion chamber of an automotive engine to a cable. The connector has a housing made of high temperature material, such as alumina ceramic. Connector terminals may be retained within the housing but may float relative to the housing, to reduce stresses associated with differential thermal expansion of the housing and terminals and reduce transmission of vibration and resultant degradation of connector performance. Compliant portions may extend from an intermediate portion of the terminals to make contact with pads on a sensor substrate inserted into the connector. The terminals may be retained with an end cap, secured to the housing. Retention of the terminals may be aided by pockets in the housing that receive tips of the terminals. Channels, receiving the intermediate portions of the terminals, may open into the pockets.

The present disclosure aims to provide a connector capable of suppressing an increase in the number of components. A retainer 50 includes a body portion 51 having a plurality of through holes 53 through which a plurality of wires 20 are individually passed, and a plurality of holding portions 53 projecting from the body portion 51 to individually hold the plurality of wires 20. Each of the plurality of holding portions 53 includes a resilient piece 54 resiliently deformable in a second direction intersecting a first direction in which the holding portion 53 projects. A plurality of supporting members 60 are individually mounted on outer peripheral surfaces of the plurality of holding portions 53. The supporting member 60 presses the resilient piece 54 against an outer peripheral surface of the wire 20.

A connector and a connector assembly are disclosed. The connector has a housing adapted to be inserted into a mating housing of a mating connector; an elastic latch provided on an outer wall of the housing and having a locking part for locking the mating housing and an unlocking part for unlocking the locking part; and a connection position safety mounted on the outer wall of the housing and adapted to be moved between a safety position to prevent the elastic latch from being unlocked and a pre locking position to allow the elastic latch to be unlocked. When the locking part is locked to the mating housing and the connection position safety is in the pre locking position, the unlocking part is hidden inside the connection position safety, so that human finger cannot contact the unlocking part. Therefore, the present invention can effectively prevent the elastic latch from being accidentally unlocked and improve the use safety of the connector.

An electrical connector having a first housing and a second housing. The first housing have a first mating face and a first cable receiving face with at least one first terminal receiving cavity which extends from the first cable receiving face to the first mating face. The second housing has a second mating face and a second cable receiving face with at least one second terminal receiving cavity which extends from the second cable receiving face to the second mating face. The second housing is spaced from the first housing. A flexible joining member extends from the first housing to the second housing. The flexible joining member is configured to allow the first housing to move independently of the second housing as the electrical connector is mounted to an electrical component. The first housing can be mated independently to the electrical component from the second housing.

A connector 10 is provided with a flexible wire 20, a terminal 30 to be connected to the wire 20, and a housing 40 for accommodating the wire 20 and the terminal 30. The housing 40 includes a housing body 50 for accommodating the wire 20 and a holder 70 for accommodating and holding the terminal 30. The holder 70 is configured to be swingable in a plane direction together with the terminal 30 with respect to the housing body 50 by being attached to the housing body 50 with a play between the housing body 50 and the holder 70. A gap for allowing the wire 20 to be bent, following a swinging motion of the terminal 30, is provided between the housing body 50 and the wire 20.

A cable connector and a connector assembly including the cable connector are provided. The cable connector includes a plastic main body, a contact body and a cable. A cavity is formed in the plastic main body. The contact body is fixed on the plastic main body and extends into the cavity. The cable is fixed on the plastic main body. One end of the cable is inserted into the plastic main body and is electrically connected to the contact body in the cavity, and an electrically connected portion is exposed in the cavity. The electrically connected portion between the cable and the contact body is exposed in the cavity, so that a clearance is formed at the welding spots between the cable and the contact body and is not injection-moulded by the internal mould, which reduces the attenuation of the cable and greatly improves the signal integrity of the product.

The present invention aims to stably arrange a ferrite core in a housing. A connector 10 includes a ferrite core 12, and a housing 11 including a receiving portion 20 that receives the ferrite core 12. At least one of an inner peripheral surface 23 of the receiving portion 20 and an outer peripheral surface 12A of the ferrite core 12 includes a protrusion (first protrusion 21, for example) that is in contact with the other peripheral surface so as to hold the ferrite core 12 within the receiving portion 20.