Disclosed is a busbar unit for a hybrid vehicle. The busbar unit for a hybrid vehicle according to embodiments is improved in the assembly method and electrical grounding performance, and thus, the busbar unit for a hybrid vehicle capable of being stably used is provided.

AFCI and/or GFCI units (10) with onboard trip monitoring and/or wiring error monitoring circuit (100) with an opto-isolator (50) and a controller (60) in electrical communication with the opto-isolator (50). The controller (60) monitors the opto-isolator (50) to identify a TRIP or RESET state of the circuit (100) such as one associated with a receptacle and/or a wiring error of the unit (10), e.g., receptacle.

AFCI and/or GFCI units (10) with onboard trip monitoring and/or wiring error monitoring circuit (100) with an opto-isolator (50) and a controller (60) in electrical communication with the opto-isolator (50). The controller (60) monitors the opto-isolator (50) to identify a TRIP or RESET state of the circuit (100) such as one associated with a receptacle and/or a wiring error of the unit (10), e.g., receptacle.

An antenna cable connection module in accordance with the present disclosure includes an antenna cable for forming a contact point connected to an antenna filter part; a body part located on the outer circumferential surface of the antenna cable, and inserted into a receiving port located on the antenna filter part together with the end portion of the antenna cable and coupled to the antenna filter part; and a bush interposed between the antenna cable and the body part, and having an inclined surface having a slope in a longitudinal direction formed thereon to strengthen the coupling between the antenna filter part and the antenna cable. As a result, it is possible to constitute a simple antenna cable connection module of a ground contact type, thus providing a device reducing the failure occurrence rate. In addition, it is possible to constitute a simple antenna cable connection module for an operator to easily operate, thus reducing the labor cost and saving the time consumed for an antenna cable connection.

An antenna cable connection module in accordance with the present disclosure includes an antenna cable for forming a contact point connected to an antenna filter part; a body part located on the outer circumferential surface of the antenna cable, and inserted into a receiving port located on the antenna filter part together with the end portion of the antenna cable and coupled to the antenna filter part; and a bush interposed between the antenna cable and the body part, and having an inclined surface having a slope in a longitudinal direction formed thereon to strengthen the coupling between the antenna filter part and the antenna cable. As a result, it is possible to constitute a simple antenna cable connection module of a ground contact type, thus providing a device reducing the failure occurrence rate. In addition, it is possible to constitute a simple antenna cable connection module for an operator to easily operate, thus reducing the labor cost and saving the time consumed for an antenna cable connection.

A one-piece electrical fitting for connecting an electrical cable to a junction box, the electrical fitting formed from a single, flat blank of metal into a cylindrical connector body. The connector body includes a leading end having an exit bore, a trailing end, a cap, an inner bore, and one or more combination tangs including grounding tangs, locking tangs, and flanges extending radially outward from the connector body. According to one embodiment, the trailing end of the fitting includes a rolled edge, and the leading end includes a recessed lip for accommodating an insulating liner within the exit bore. The exit bore in the cap is offset to one side with cable retaining tangs on the fitting configured to push toward the exit bore in order to ease insertion of cables and conductors through the fitting. In a further embodiment, the fitting includes two combination tangs that are positioned 180 degrees apart radially on the fitting body to facilitate easier snap-in insertion into the knockout hole of an electrical box.

A one-piece electrical fitting for connecting an electrical cable to a junction box, the electrical fitting formed from a single, flat blank of metal into a cylindrical connector body. The connector body includes a leading end having an exit bore, a trailing end, a cap, an inner bore, and one or more combination tangs including grounding tangs, locking tangs, and flanges extending radially outward from the connector body. According to one embodiment, the trailing end of the fitting includes a rolled edge, and the leading end includes a recessed lip for accommodating an insulating liner within the exit bore. The exit bore in the cap is offset to one side with cable retaining tangs on the fitting configured to push toward the exit bore in order to ease insertion of cables and conductors through the fitting. In a further embodiment, the fitting includes two combination tangs that are positioned 180 degrees apart radially on the fitting body to facilitate easier snap-in insertion into the knockout hole of an electrical box.

An electrical power inlet connection device, can be attached to portable and/or transitional physical structures. While interacting with tools, an individual may utilize electrical and electronic devices to work on material, where the electrical power inlet connection device can be attached on an inside of, for example, a sawhorse leg. The electrical power inlet connection device has at least one female power outlet and a ground fault circuit interrupter (GFCI) compartment, like those currently utilized near sinks for safety. However, the electrical power inlet connection device can only have a single male power plug. With GFCI, all electrical power inlet connection device applications assure added electrical security. A USB or other electrical/electronic connections can be added to the compartment for connecting to music sources, cell phones, the Internet, etc. within a GFCI compartment.

An electrical power inlet connection device, can be attached to portable and/or transitional physical structures. While interacting with tools, an individual may utilize electrical and electronic devices to work on material, where the electrical power inlet connection device can be attached on an inside of, for example, a sawhorse leg. The electrical power inlet connection device has at least one female power outlet and a ground fault circuit interrupter (GFCI) compartment, like those currently utilized near sinks for safety. However, the electrical power inlet connection device can only have a single male power plug. With GFCI, all electrical power inlet connection device applications assure added electrical security. A USB or other electrical/electronic connections can be added to the compartment for connecting to music sources, cell phones, the Internet, etc. within a GFCI compartment.

A wall mounted power supply receptacle device includes a body, a core disposed inside the body, and an insertion plate assembly. The body includes a upper body portion and a base connected to each other. The core includes a first circuit board assembly and a second circuit board assembly. The first circuit board assembly is accommodated inside the base and potted with a high thermal conductivity material. The insertion plate assembly includes insertion plates and wiring terminals and is mounted via a middle support frame above the first circuit board assembly. The second circuit board assembly is mounted via a grounding frame above the middle support frame. The grounding frame includes a U shaped notch that drops toward the base to accommodate the second circuit board assembly. The second circuit board assembly is electrically coupled to the first circuit board assembly through the wiring holes of the grounding frame.