An electrical device is supported by a bracket above a transaxle in a front compartment of a vehicle. A DC power connector and an air conditioning connector are connected with a back face of a housing of the electrical device. The DC power connector has a higher strength than the air conditioning connector. A rear end of the DC power connector is located on a rear side than a rear end of the air conditioning connector.

An electrical device is supported by a bracket above a transaxle in a front compartment of a vehicle. A DC power connector and an air conditioning connector are connected with a back face of a housing of the electrical device. The DC power connector has a higher strength than the air conditioning connector. A rear end of the DC power connector is located on a rear side than a rear end of the air conditioning connector.

A connector comprises a cage, a radiator disposed on a top wall of the cage and having a vertical slot extending through the radiator in a lateral direction of the radiator, a clip adapted to be locked to the top wall of the cage, and a sealing cover mounted on the vertical slot. The clip has an elastic lateral beam received in the vertical slot and adapted to press the radiator on the top wall of the cage. The sealing cover at least partially seals the vertical slot.

A connector comprises a cage, a radiator disposed on a top wall of the cage and having a vertical slot extending through the radiator in a lateral direction of the radiator, a clip adapted to be locked to the top wall of the cage, and a sealing cover mounted on the vertical slot. The clip has an elastic lateral beam received in the vertical slot and adapted to press the radiator on the top wall of the cage. The sealing cover at least partially seals the vertical slot.

A method is provided for producing a plug, having a plastic injection-molded encapsulation, for a fuel pump which arranged in a fuel tank of a motor vehicle. The plug has cables, stranded wires and a ground contact each protruding out of the encapsulation and each connected to encapsulated components. The plug elements and coils are inserted into a base plate. One core of a cable is soldered, welded or crimped to flat plug elements. The coils and stranded wires are each soldered, welded or crimped to a flat plug element. The base plate is inserted into a cavity of an injection mold, such that the cables and the stranded wires protrude out of the cavity through first passage openings and second passage openings, respectively, and cores are arranged in continuous openings of identical cross section in the wall of the injection mold. The cavity is then filled with a plastic.

A rubber boot (21) includes a tubular surrounding portion (22) to be externally fit to a housing (10) having a lock arm (17) disposed on an outer peripheral surface, a pressing portion (28) formed in a part corresponding to an unlocking portion (20) of the lock arm (17), out of an outer periphery of the tubular surrounding portion (22), and configured to press the unlocking portion (20) in an unlocking direction, a finger placing portion (29) disposed at a position opposite to the pressing portion (28) across the housing (10), out of the outer periphery of the tubular surrounding portion (22), and configured to receive a pressing force applied to the pressing portion (28), and a projection (30) disposed in a part adjacent to the finger placing portion (29) on the outer periphery of the tubular surrounding portion (22) and projecting from the finger placing portion (29).

A terminal fitting (10) includes an electrical contact (20) with a facing surface (21) facing a contact surface (81) of a mating terminal (80). A canted coil spring (50) that is made of a conductive wire material (51) has a wound surface inclined with respect to the coil axis (L) of the canted coil spring (60). The coil axis (L) is parallel with the facing surface (21) of the electrical contact member (20). The canted coil spring (50) is sandwiched between the mating terminal (80) and the electrical contact member (20) when the mating terminal (80) and the electrical contact member (20) approach each other. A holder shaft (40) is inserted in the canted coil spring (50) to hold the canted coil spring (50) in a posture where the coil axis L is parallel with the facing surface (21) of the electrical contact member (20).

A terminal fitting (10) includes an electrical contact (20) with a facing surface (21) facing a contact surface (81) of a mating terminal (80). A canted coil spring (50) that is made of a conductive wire material (51) has a wound surface inclined with respect to the coil axis (L) of the canted coil spring (60). The coil axis (L) is parallel with the facing surface (21) of the electrical contact member (20). The canted coil spring (50) is sandwiched between the mating terminal (80) and the electrical contact member (20) when the mating terminal (80) and the electrical contact member (20) approach each other. A holder shaft (40) is inserted in the canted coil spring (50) to hold the canted coil spring (50) in a posture where the coil axis L is parallel with the facing surface (21) of the electrical contact member (20).

A connector for use in connecting a communication element to a transmission line in a wired pipe segment includes a first female end adapted to surround and make electrical contact with a coupler connection that extends away from a communication element of the coupler; a second female end adapted to receive an inner conductor of a coaxial cable; and an inner connection element formed on an inner surface of the connector adapted to electrically connect the coupler connection and the inner conductor, the inner connection element formed such that it does not completely surround at least one of the inner conductor and the coupler connection.

A connector for use in connecting a communication element to a transmission line in a wired pipe segment includes a first female end adapted to surround and make electrical contact with a coupler connection that extends away from a communication element of the coupler; a second female end adapted to receive an inner conductor of a coaxial cable; and an inner connection element formed on an inner surface of the connector adapted to electrically connect the coupler connection and the inner conductor, the inner connection element formed such that it does not completely surround at least one of the inner conductor and the coupler connection.