An electrical connector includes an insulative housing, a number of terminals carried by the insulative housing, a metallic shielding plate retained in the insulative housing, and a shielding shell attached to the insulative housing. The insulative housing has a number of receiving slots located at a back-end thereof. The terminals have a number of soldering portions exposed from the insulative housing. Each receiving slot is located between every two neighboring soldering portions to receive soldering material.

An end effector assembly for use with an electrosurgical instrument is provided. The end effector assembly has a pair of opposing jaw members. Each of the jaw members has a support base, an electrical jaw lead, and a sealing plate coupled to the electrical jaw lead. The sealing plate has a stainless steel layer and an electrically insulative layer.

A cell connector unit is a cell connector unit configured to be connected with a cell laminate of the fuel cell unit. The cell connector unit has a plurality of cell connectors that are connected with cells of the cell laminate, and the plurality of cell connectors are linked to each other so as to be in line in a lamination direction of the cells in a state where the cell connector unit is connected with the cell laminate. Among the cell connectors arranged on both ends in the lamination direction of the cells, a first cell connector is provided with a protrusion for recognizing the cell connector unit, and a second cell connector is not provided with the protrusion, and all of the cell connectors located between the cell connectors arranged on the both ends include or do not include the protrusion.

A terminal (20) includes a connecting portion (24) to which a plurality of wires (11, 12) including conductors (13, 14) having different thicknesses are to be connected side by side, and the connecting portion (24) is stepped. A terminal-wire assembly (10) includes a plurality of wires (11, 12) including conductors (13, 14) having different thicknesses and a terminal (20) including a connecting portion (24) to which the plurality of wires (11, 12) are to be connected side by side, and the connecting portion (24) is stepped. In the terminal-wire assembly (10), the wire (12) connected at a high position on the connecting portion (24) includes the thinner conductor (14) than the wire (11) connected at a low position on the connecting portion (24).

An electrical circuit including a circuit board on which a number of electrical and/or electronic components are mounted, and a busbar that has a supporting body and a first, second, and third connection. The supporting body is spaced apart from the circuit board and the connections are brought into electrical contact both with the supporting body and with the circuit board. The supporting body has a first cross section between the first and second connection and a second cross section between the second and third connection, wherein the first cross section is smaller than the second cross section. The invention further relates to a bus bar.

A semiconductor device including a package substrate having, at the periphery of the main surface thereof, bonding leads disposed in a row, a semiconductor chip mounted inside of the row of the bonding leads on the main surface of the package substrate, wires for connecting pads of the semiconductor chip and the bonding leads of the substrate, a sealing body for resin sealing the semiconductor chip and the wires, and solder bumps disposed on the back surface of the package substrate. The top of a loop of each of the wires is disposed outside the wire connecting portion so that the wire connection between the bonding leads and the pads of the semiconductor chip has a stable loop shape to prevent wire connection failure.

This invention is embodied in a power/data interface for connecting two modules at the leading edge (i.e., the tip of the spear) of a fire suppression operation. The power/data interface serves as an operational link between a housing device (for protecting a battery and other electronic equipment) and an accessory like a thermal imaging camera (tic camera), video camera or other sensory perceiving device. The power/data interface not only provides power to an accessory by connecting it to a power source, but the power/data interface can exchange data between the accessory and the housing device. Such exchange of data enables electronics stored within the housing device to record and protect data captured by accessory on a flash drive or other recordable media. In addition to providing power and exchanging data with an accessory, the power/data interface can also accept battery pack that can be used to recharge a battery or other power source located inside the housing device.

A contact comprises a first cylindrical section, a second cylindrical section, and a transition section connected between the first cylindrical section and the second cylindrical section. The first cylindrical section has a first peripheral wall with a first diameter and a first protrusion rib disposed on the first peripheral wall. The second cylindrical section has a second peripheral wall with a second diameter less than the first diameter and a second protrusion rib disposed on the second peripheral wall.

A cartomizer assembly of an electronic cigarette which is formed from automated assembly compatible parts comprises a container assembly including a container and a heater coil surrounding a wick in an airflow space of the container. The entire coil of the heater coil is inside the container and the heater coil is configured to heat liquid on the wick to generate an aerosol mist during a vaporization process. A liquid storage space is in liquid communication with the wick and is operable to supply liquid to the wick. The heater, the wick, and the container are shaped such that the heater and wick can be dropped into the container during automated assembly thereof and be directed to and located at a desired location in the container.

A spliced LED box body includes at least four LED boxes arranged in rows and columns and spliced with each other, wherein connecting components are provided on opposite adjacent splicing surfaces of the LED box. The connecting components include a first connecting component, a second connecting component, a third connecting component and a fourth connecting component. The first connecting component and third connecting component are arranged on two adjacent side surfaces of the LED box, the second connecting component is arranged on a side surface of the LED box opposite to the first connecting component, and the fourth connecting component is arranged on a side surface of the LED box opposite to the third connecting component. When two adjacent LED boxes are spliced, the first connecting component and the second connecting component are matched and connected, and the third connecting component and the fourth connecting component are matched and connected.