Thermal mitigation features may be included in a Universal Serial Bus (USB) cable assembly or in the USB receptacle portion of a device. In one aspect, one or both ends of a USB cable jacket may have greater thermal conductivity than the portion between them. The portion having the greater thermal conductivity may dissipate excess heat from the cable into the environment. In another aspect, a USB cable connector or the USB receptacle portion of a device may include a thermoelectric heat pump. The thermoelectric heat pump may move excess heat from the cable assembly or receptacle into a portion of the cable assembly or device that dissipates the heat into the environment.

A connector structure configured to electrically connect an electrical component to a circuit board is disclosed. The connector structure may include a female connector secured to the circuit board; and a male terminal extending from the electrical component and inserted into the female connector. The female connector may include a connector housing secured to the circuit board; a connector-side terminal located within the connector housing and including a female contact configured to receive the male terminal; and a contact sleeve located within the connector housing and secured to the female contact. The female contact may be displaceable within the connector housing. The male terminal may be deformed so as to press the contact sleeve against a frictional inner surface of the connector housing by a restoring force of the male terminal.

A connector structure configured to electrically connect an electrical component to a circuit board is disclosed. The connector structure may include a female connector secured to the circuit board; and a male terminal extending from the electrical component and inserted into the female connector. The female connector may include a connector housing secured to the circuit board; a connector-side terminal located within the connector housing and including a female contact configured to receive the male terminal; and a contact sleeve located within the connector housing and secured to the female contact. The female contact may be displaceable within the connector housing. The male terminal may be deformed so as to press the contact sleeve against a frictional inner surface of the connector housing by a restoring force of the male terminal.

A connector remains attached to a vehicle body and prevents water intrusion during high-pressure washing. The connector with cover is mounted on a vehicle body. The connector includes a wire, a connector housing including a housing body having a wire holding portion for holding an end of the wire, and a cassette continuous with the housing body and having an insertion slot in one surface. A sealing member seals a clearance between the wire holding portion and the wire by being mounted on the wire, and a cover covers the wire holding portion and the wire by being assembled with the connector housing. The cover includes a bracket having an insertion piece to be inserted into the cassette through the insertion slot, the bracket is assembled with the cassette, and a vehicle body mounting portion is connected to the bracket and mounted on the vehicle body.

A connector remains attached to a vehicle body and prevents water intrusion during high-pressure washing. The connector with cover is mounted on a vehicle body. The connector includes a wire, a connector housing including a housing body having a wire holding portion for holding an end of the wire, and a cassette continuous with the housing body and having an insertion slot in one surface. A sealing member seals a clearance between the wire holding portion and the wire by being mounted on the wire, and a cover covers the wire holding portion and the wire by being assembled with the connector housing. The cover includes a bracket having an insertion piece to be inserted into the cassette through the insertion slot, the bracket is assembled with the cassette, and a vehicle body mounting portion is connected to the bracket and mounted on the vehicle body.

Presented are electrical conductor assemblies with vascular cooling systems, methods for making/using such assemblies, and vehicles equipped with such assemblies for transmitting power and coolant between electric devices. An electrical conductor assembly includes an outer sheath, an electrical conductor extending through the sheath, a coolant channel defined through the sheath, and an optional cable jacket encasing the electrical conductor. The outer sheath has a tubular body formed from an electrically insulating material. The electrical conductor has a solid cable body located within a conductor duct extending through the sheath. The coolant channel, which is coaxial with and thermally connected to the cable body, passes therethrough coolant fluid that cools the electrical conductor. The cable jacket may be formed from an electrically insulating material having a thermal conductivity and melting point higher than that of the sheath. The conductor assembly may include multiple electrical conductors circumferentially spaced around the coolant channel.

Presented are electrical conductor assemblies with vascular cooling systems, methods for making/using such assemblies, and vehicles equipped with such assemblies for transmitting power and coolant between electric devices. An electrical conductor assembly includes an outer sheath, an electrical conductor extending through the sheath, a coolant channel defined through the sheath, and an optional cable jacket encasing the electrical conductor. The outer sheath has a tubular body formed from an electrically insulating material. The electrical conductor has a solid cable body located within a conductor duct extending through the sheath. The coolant channel, which is coaxial with and thermally connected to the cable body, passes therethrough coolant fluid that cools the electrical conductor. The cable jacket may be formed from an electrically insulating material having a thermal conductivity and melting point higher than that of the sheath. The conductor assembly may include multiple electrical conductors circumferentially spaced around the coolant channel.

A female terminal is provided with a tubular connecting tube portion, a male terminal being connected to the connecting tube portion from front, a resilient contact piece configured to resiliently contact the male terminal inserted into the connecting tube portion from a first direction, receiving portions configured to sandwich the male terminal between the resilient contact piece and the receiving portions inside the connecting tube portion, a vibration suppressing portion configured to resiliently contact the male terminal from a second direction intersecting the first direction, and a contact portion configured to sandwich the male terminal between the vibration suppressing portion and the contact portion inside the connecting tube portion. The vibration suppressing portion is provided on a wall portion constituting the connecting tube portion and includes a plurality of deflecting portions deflectable in the second direction.

A female terminal is provided with a tubular connecting tube portion, a male terminal being connected to the connecting tube portion from front, a resilient contact piece configured to resiliently contact the male terminal inserted into the connecting tube portion from a first direction, receiving portions configured to sandwich the male terminal between the resilient contact piece and the receiving portions inside the connecting tube portion, a vibration suppressing portion configured to resiliently contact the male terminal from a second direction intersecting the first direction, and a contact portion configured to sandwich the male terminal between the vibration suppressing portion and the contact portion inside the connecting tube portion. The vibration suppressing portion is provided on a wall portion constituting the connecting tube portion and includes a plurality of deflecting portions deflectable in the second direction.

A connector (10) includes busbars (40A, 40B) including connecting portions (43) to be connected to terminals (101) of wires (100A, 100B) routed inside a case. Further, the connector (10) includes a housing (80) made of resin and including a separation wall (81) separating the inside and outside of the case. Further, the connector (10) includes a cover (90) made of resin and to be mounted on the housing (80) to cover the connecting portions (43). The busbar (40A, 40B) includes one end part provided with the connecting portion (43) and another end part on a side opposite to the one end part. The busbar (40A, 40B) is embedded in the separation wall (81) of the housing (80) and the one and the other end parts are exposed from the separation wall (81).