Various implementations of insulation piercing connectors are disclosed. The insulation piercing connectors include a simple and efficient design for providing electrical tap connections to a power cable for voltage detection purposes. The insulation piercing connector includes at least a top housing and a bottom housing that come together to receive the power cable. Terminal contacts are housed internally within the insulation piercing connector, and the terminal contacts are positioned to pierce the power cable when the insulation piercing connector is assembled into an operational state.

A semiconductor structure includes a substrate, a chip, a plurality of conductive bumps, a flexible printed circuit (FPC) board and a plurality of circuit patterns. The chip is disposed on the substrate and includes a plurality of pads. The conductive bumps are disposed on the pads respectively. The FPC board is connected between the substrate and the chip, and the conductive bumps penetrate through an end of the FPC board. The circuit patterns are disposed on the FPC board and electrically connected to the conductive bumps and the substrate.

A semiconductor structure includes a substrate, a chip, a plurality of conductive bumps, a flexible printed circuit (FPC) board and a plurality of circuit patterns. The chip is disposed on the substrate and includes a plurality of pads. The conductive bumps are disposed on the pads respectively. The FPC board is connected between the substrate and the chip, and the conductive bumps penetrate through an end of the FPC board. The circuit patterns are disposed on the FPC board and electrically connected to the conductive bumps and the substrate.

An electrical connector for connecting a pair of leads to a double-sided printed circuit board includes a housing having a receiving slot receiving the double-sided printed circuit board and a lead insertion chamber, and a pair of contact springs disposed on opposite sides of the receiving slot and electrically insulated from each other. The contact springs extend into the lead insertion chamber. Each contact spring has a lead contact for connection to a different lead of the pair of leads.

The invention relates to the technical field of manufacturing illumination equipments, and more particularly, to a wire connector for use in an illumination equipment. The wire connector comprises: a receiving part having a hollow structure, wherein input wires and output wires are arranged in the receiving part; two conductive tabs, through which the input wires are connected to the output wires, the two conductive tabs are used to electrically connect the input wires and the output wires; wherein the receiving part comprises at least one clamping groove; a covering part clamped in the at least one clamping groove of the receiving part for sealing the two conductive tabs in the receiving part; the receiving part is connected to the covering part by means of a flexible part.

The invention relates to the technical field of manufacturing illumination equipments, and more particularly, to a wire connector for use in an illumination equipment. The wire connector comprises: a receiving part having a hollow structure, wherein input wires and output wires are arranged in the receiving part; two conductive tabs, through which the input wires are connected to the output wires, the two conductive tabs are used to electrically connect the input wires and the output wires; wherein the receiving part comprises at least one clamping groove; a covering part clamped in the at least one clamping groove of the receiving part for sealing the two conductive tabs in the receiving part; the receiving part is connected to the covering part by means of a flexible part.

The present disclosure provides descriptions of configurations for bonding clamps used to assemble photovoltaic (PV) arrays and provide an electrical bond between PV module frames and a rail system forming the PV arrays. The bonding clamp includes an electrically conductive body, first and second compression arms extending from body and a tab extending from the body in a direction away from a bottom side of the body. The first and second compression arms extend at an angle relative to the body.

The present disclosure provides descriptions of configurations for bonding clamps used to assemble photovoltaic (PV) arrays and provide an electrical bond between PV module frames and a rail system forming the PV arrays. The bonding clamp includes an electrically conductive body, first and second compression arms extending from body and a tab extending from the body in a direction away from a bottom side of the body. The first and second compression arms extend at an angle relative to the body.

A safe grounding apparatus (SGA) for safely grounding or neutralizing the electrical conductors for permanent magnet motor (PMM) powered artificial lift systems and methods of practicing the same are disclosed. The SGA of the present invention ameliorates some of the dangers associated with PMM's. Methods of shorting, grounding, testing and monitoring the electrical conductors of a permanent magnet motor in order to safely manipulate the conductors are also disclosed.

A safe grounding apparatus (SGA) for safely grounding or neutralizing the electrical conductors for permanent magnet motor (PMM) powered artificial lift systems and methods of practicing the same are disclosed. The SGA of the present invention ameliorates some of the dangers associated with PMM's. Methods of shorting, grounding, testing and monitoring the electrical conductors of a permanent magnet motor in order to safely manipulate the conductors are also disclosed.