Disclosed are a circuit with a timing function and a leakage protection plug. An output terminal of a timing chip U2 is connected to an isolating switch U3; the isolating switch U3 is connected to a rectifier module D3; the rectifier module D3 is connected to a circuit breaker X1; a switch tube Q4 and the switch tube Q3 are connected to a resistor R21, and a second switch terminal of the switch tube Q4 is grounded; an output terminal of a zero sequence current transformer is connected to a first input terminal of a microprocessor U1; and an output terminal of the microprocessor U1 is connected to a control terminal of the switch tube Q4. The leakage protection plug of this disclosure has both leakage protection and timing functions.

A vehicle power adaptor module includes a vehicle-sided connector and an interchangeable socket. The vehicle-sided connector includes a connector body and a first connecting portion. The first connecting portion is connected with the connector body. The connector body is configured to electrically connect with an electric vehicle. The interchangeable socket includes a socket body and a second connecting portion. The second connecting portion is connected with the socket body. The socket body is configured to electrically connect with an electronic equipment. The second connecting portion is configured to detachably connect with the first connecting portion.

An example embodiment is a voice appliance including: a plurality of user interface devices comprising at least a microphone and a speaker; a plug for receiving power to the appliance or load; and a communication subsystem configured for wired communication with an electrical receptacle through the plug when plugged into the electrical receptacle. An electrical receptacle for connection to power lines comprises: at least one plug outlet configured to provide DC output, wherein the at least one plug outlet is configured to provide access to a wired communication network defined by at least one of the power lines. The plug outlet can be a Universal Serial Bus (USB) plug outlet to connect to a mobile device or a removable USB memory device. An intelligent junction box at the circuit breaker panel is configured to perform dynamic power allocation and power line communication.

An electrical receptacle contains a plug outlet that has a pair of contacts for electrical connection to respective hot and neutral power lines. A controlled switch, such as a TRIAC, is connected in series relationship between the outlet contact and the hot power line. Sensors in the receptacle outputs signals to a processor having an output coupled to the control terminal of the controlled switch. The processor outputs an activation signal or a deactivation signal to the controlled switch in response to received sensor signals that are indicative of conditions relative to the first and second contacts.

The present invention relates to a protection apparatus (100) for protecting an electrical circuit. The protection apparatus comprises a thermal protection device (10) for interrupting the electrical circuit at a specific temperature and also an insertion slot (20) for receiving a fuse (21) for interrupting the electrical circuit at a specific current intensity in the electrical circuit. The thermal protection device (10) and the insertion slot (20) are connected in series in the electrical circuit (40), wherein the insertion slot and the thermal protection device are arranged adjacently.

In one embodiment, and apparatus includes an electrical socket for connection with an electrical plug, a sensor for identifying a secure connection between the electrical socket and the electrical plug, and an electronic controller electrically coupled to the electrical socket and comprising a power input for receiving power. The electronic controller is operable to transmit power to the electrical socket upon receiving a signal from the sensor identifying the secure connection between the electrical socket and the electrical plug and shut off or turn on power to the electrical socket upon receiving an external input to the electronic controller. A method is also disclosed herein. The apparatus and method provide an electronic controlled power switch or circuit breaker safety device.

In one embodiment, and apparatus includes an electrical socket for connection with an electrical plug, a sensor for identifying a secure connection between the electrical socket and the electrical plug, and an electronic controller electrically coupled to the electrical socket and comprising a power input for receiving power. The electronic controller is operable to transmit power to the electrical socket upon receiving a signal from the sensor identifying the secure connection between the electrical socket and the electrical plug and shut off or turn on power to the electrical socket upon receiving an external input to the electronic controller. A method is also disclosed herein. The apparatus and method provide an electronic controlled power switch or circuit breaker safety device.

An electrical connector includes a housing having contact chambers between a top and a bottom configured to be mounted to a circuit board. A rear wall of the housing includes lead slots open at the top to receive leads of an electrical component. The electrical connector includes a cover coupled to the top of the housing above the leads. The electrical connector includes contacts received in corresponding contact chambers. Each contact includes a base having a solder pad at a bottom configured to be soldered to a circuit board conductor of the circuit board. Each contact includes contact beams extending from the base to form a socket proximate to the top of the housing that receives the lead of the electrical component from above to electrically connect to the lead of the electrical component.

Example embodiments relate to power cords for electrically connecting one or more devices to an electrical source. A power cord may include a first end configured to couple to an electrical source and a second end configured to electrically couple to a device. A ground fault circuit interrupter (GFCI) may be coupled to the power cord between the first end and the second end such that the GFCI is configured to control a flow of electricity through the power cord to the device when the second end of the power cord is electrically coupled to the device. The GFCI may include a set of light emitting diodes (LEDs) with a first LED configured to illuminate when the GFCI is preventing the flow of electricity, and wherein a second LED is configured to illuminate when an output side of the GFCI is outputting electricity.

A replaceable socket device includes adapters and a base. Each of the adapters include a jack and contacts disposed on a bottom of the adapters. The base includes sockets, an adapting interface disposed on the socket, and a coupling interface coupled to the adapting interface and an external power source. Each socket includes a bottom surface and a sidewall perpendicularly connected to the bottom surface. One of the adapters inserts in the socket via an opening formed by the bottom surface and the sidewall. The adapting interface is utilized to connect the socket and one of the adapters. The coupling interface is configured to conduct electrical signal from the external power source to the adapting interface. The structure of the adapting interface is used for allowing one of adapters to couple to the socket via the adapting interface. The adapting interface is lower than the bottom surface of the socket.