An abnormality prompting method and an intelligent socket (30) are provided. Prompting is performed when a home appliance runs abnormally by means of the intelligent socket (30). The method includes: the intelligent socket (30) receives a state message from a first home appliance (S202), and the state message includes indication information used for indicating a current working mode of the first home appliance; the intelligent socket (30) obtains an actual value of a working parameter of the first home appliance (S203); the intelligent socket (30) determines a working state of the first home appliance according to the actual value of the working parameter and a maximum value of the working parameter allowed by the working mode (S204); when determining that the working state of the first home appliance is an abnormal state, the intelligent socket (30) outputs a prompt message (S205).

A new and improved separable loadbreak connector system capable of providing higher switching and fault close ratings by various means of dividing the arc energy within the connector system.

An electrical connection structure comprises a base member, a connector, and a mating connector. The electrical connection structure comprises a half-fitting detecting mechanism including a half-fitting detecting portion in the connector and a short-circuiting member in the mating connector. The half-fitting detecting portion includes a conductive member and an inspecting member. The half-fitting detecting portion allows a half-fitting state to be detected by the short-circuiting member being in non-contact with the inspecting member when in the half-fitting state. The inspecting member short-circuits with the conductive member via the short-circuiting member by the mating engaging portion of the short-circuiting member being engaged with the engaging portion of the connector and being in contact with a contact part of the inspecting member and the short-circuiting member being in contact with the conductive member when in a normal fitting state.

An electronic device having a universal serial bus (USB) power delivery function includes a connector, an electrostatic discharge (ESD) protection circuit, a power reception notification circuit, and a control circuit. The connector is coupled to a USB host. The connector includes a configuration channel (CC) pin. The power reception notification circuit is configured to turn on, in response to an enable signal, a pull-down path of a pull-down circuit of the ESD protection circuit. The configuration channel pin generates a pull-down voltage through the pull-down path of the pull-down circuit when the pull-down path is turned on. The control circuit is configured to send the enable signal to the power reception notification circuit when a trigger signal that meets a power reception condition is detected. The control circuit controls the connector to draw power from the USB host when the pull-down voltage of the connector is greater than a pull-down threshold.

An electrical feedthrough assembly has a lower assembly having a first end and a second end. The lower assembly includes an outer body with a lower housing and an upper housing disposed within a bore of the outer body and a first conductor extending from the lower housing to the upper housing. Additionally, the lower housing extends axial outward from the outer body to form the first end and the upper housing extends axial outward from the outer body to form the second end. Further, the electrical feedthrough assembly has an upper assembly having body extending from a first end to a second end. The second body includes a pin end at the first end inserted into an opening of the second end of the lower assembly. A second conductor is disposed within the body. A piston is disposed within the body configured to move the second conductor.

A male connector 11 provided with a plurality of male terminals 16 to be connected to a plurality of female terminals 14 provided in a female connector 12 includes a receptacle 23 into which the female connector 12 is fit, and a movable member 38 disposed in the receptacle 23 and including an engaging portion 42 to be engaged with the female connector 12. The movable member 38 includes a releasing member 47 for releasing a short circuit by contacting a shorting terminal 28 provided for the plurality of male terminals 16 or the plurality of female terminals 14 to short-circuit the plurality of male terminals 16 or the plurality of female terminals 14.

Aspects herein are directed to an electrical system enclosure. The electrical system enclosure can include an electrical housing unit that includes one or more electrical components. The electrical system enclosure can further include a receptacle coupled to an outside surface associated with the electrical housing unit. The receptacle may be configured to engage a connector component of a cable. The electrical system enclosure can further include a contactor within the electrical housing unit. The contactor may be configured to energize based at least in part on the receptacle engaging the connector component. The electrical system enclosure may include an energy supply component configured to cause energy to be transmitted through the receptacle and the cable to a device outside of the electrical housing unit based on the contactor energizing.

Disclosed are network cable connectors with components such as switches, displays, and printed circuit with controllers. The disclosed network cable connector may be connected to a power over Ethernet (POE) power sourcing equipment (PSE). The printed circuit of the cable connector may request power for the display from the PSE. The switch of the cable connector may be operated such that at least one component of the printed circuit is disconnected from the PSE when an external powered device (PD) is connected to the cable connector. Disconnecting components of the printed circuit from the PSE may reduce the interference to the power negotiation between the PSE and external PD.

Disclosed are network cable connectors with components such as switches, displays, and printed circuit with controllers. The disclosed network cable connector may be connected to a power over Ethernet (POE) power sourcing equipment (PSE). The printed circuit of the cable connector may request power for the display from the PSE. The switch of the cable connector may be operated such that at least one component of the printed circuit is disconnected from the PSE when an external powered device (PD) is connected to the cable connector. Disconnecting components of the printed circuit from the PSE may reduce the interference to the power negotiation between the PSE and external PD.

A bridge includes a connecting platform, an electrical connector, a wireless communication module, and a processing unit. The electrical connector is disposed on the connecting platform. The wireless communication module is disposed on the connecting platform and configured to receive a wireless signal. The processing unit is configured to: carry out a verification process on information included in the wireless signal; and allow the electrical connector to transmit power when the verification process on the information turned out to be true.