Various embodiments of a wireless connector system are described. The system has a transmitter module and a receiver module that are configured to wirelessly transmit electrical energy and/or data via near field magnetic coupling. The wireless connector system is designed to increase the amount of wirelessly transmitted electrical power over a greater separation distance. The system is configured with various sensing circuits that alert the system to the presence of the receiver module to begin transfer of electrical power as well as undesirable objects and increased temperature that could interfere with the operation of the system. The wireless connector system is a relatively small footprint that is designed to be surface mounted.

An electrical connector assembly includes a first connector. The first connector has a main body. The main body has a first end wall and a second end wall opposite to each other. Multiple first terminals are provided on the main body. The first connector is used to be mated with a circuit board. The circuit board has multiple first conductive portions, multiple second conductive portions and multiple first wires electrically connecting the first conductive portions and the second conductive portions correspondingly. The second conductive portion is correspondingly electrically connected to the first terminal. The first end wall is located closer to the first conductive portion relative to the second end wall. A top surface of the first end wall is lower than a corresponding first conductive portion adjacent to the first end wall.

The present disclosure provides a terminal assembly and board end connector. The terminal assembly comprises a plurality of terminals, a terminal insulation body and a conductive plastic. Each of the terminals comprises a terminal body, a plugging end part and a connecting end part. The plugging end part and the connecting end part are provided at two ends of the terminal body. The terminal insulation body covers the plurality of the terminal bodies of the plurality of terminals. The conductive plastic is disposed on one side of the terminal insulation body. A surface of the conductive plastic close to the terminal body is parallel to the terminal body. The SI performance of the board end connector equipped with the terminal assembly of the present disclosure can be improved by paralleling a surface of the conductive plastic close to the terminal body to the terminal body.

An electrical connector assembly includes a first connector. The first connector has a main body. The main body has a first end wall and a second end wall opposite to each other. Multiple first terminals are provided on the main body. The first connector is used to be mated with a circuit board. The circuit board has multiple first conductive portions, multiple second conductive portions and multiple first wires electrically connecting the first conductive portions and the second conductive portions correspondingly. The second conductive portion is correspondingly electrically connected to the first terminal. The first end wall is located closer to the first conductive portion relative to the second end wall. A top surface of the first end wall is lower than a corresponding first conductive portion adjacent to the first end wall.

The present disclosure relates to a cable connector structure, which includes a housing, a tongue plate, a plurality of cables, and a plurality of heat sinks. The housing includes a docking end and a butting end. One side of the housing includes a top surface, and the top surface protrudingly provided with a hollow stage. The tongue plate is arranged in the housing, one end of the tongue plate is provided with a docking area, and the other end of the tongue plate is provided with a welding area. The plurality of heat sinks is arranged on the top surface of the housing, the hollow stage is arranged toward the docking end and the plurality of heat sinks are arranged toward the butting end.

This invention is directed generally to an electrical connector system and particularly to a connector system for interfacing with a circuit card. The card edge connector system includes a socket body that is formed to have a socket therein for receiving a printed circuit card, wherein the socket is configured to interface with a signal processing device or other device including another card or signal component as is known in the art to provide a suitable interface between the printed circuit card and another signal processing device.

In a specific embodiment, a connector 100 is disclosed. The connector 100 comprises an insulative housing 102 defining a rear opening 108 for receiving a plurality of electrical wires 110 and a front opening 106 and a circuit board 104 disposed in the housing 102 and comprising a mating section 112 for mating with a corresponding mating section of a mating connector. The mating section 112 protrudes outwardly from the front opening 106 and terminates at a front edge 118 disposed between opposing side edges 114,116 of the mating section 112. The connector 100 further comprises opposing side arms 128,130 extending forwardly from opposing lateral sides 124,126 of the front opening 106 along, adjacent and beyond corresponding side edges 114,116 of the mating section 112 with a maximum separation between each side edge 114,116 and the corresponding side arm 128,130 being sufficiently small so that when the connector 100 mates with a mating connector, no portion of the mating connector can be inserted between the side edge 114,116 and the corresponding side arm 128,130. Other exemplary embodiments are also disclosed.

A chiclet for a chiclet connector includes a conductor having a first end and a second end. A housing of the chiclet encloses and defines a housing interior. The conductor extends through the housing interior with the first and second ends of the conductor forming contacts projecting from the housing. The housing forms an electromagnetic shield electrically insulated from the conductor. A support of the chiclet corresponds in shape to the housing interior and is connected to the conductor for fixing the conductor within the housing.

A connector structure with improved terminal coplanarity includes a housing and terminal assemblies. The housing has sockets and a coplanar track. The coplanar track is defined by two inner flanges of the housing. The two flanges extend longitudinally and parallel to each other. Each terminal assembly includes a connector body, terminals and a guider. The connector body is disposed inside the housing by the sockets. The terminals are disposed by penetrating through the connector body. The guider is disposed close to soldering ends of the terminals. The soldering end of each terminal protrudes out of the guider. The guider has two opposite grooves. Each groove is engaged with the corresponding flange. The coplanar track has a coplanar datum surface. Soldering portions of the soldering ends of the terminals protruding out of the guider are separated from the coplanar datum surface by the same distance.

A chiclet for a chiclet connector includes a conductor having a first end and a second end. A housing of the chiclet encloses and defines a housing interior. The conductor extends through the housing interior with the first and second ends of the conductor forming contacts projecting from the housing. The housing forms an electromagnetic shield electrically insulated from the conductor. A support of the chiclet corresponds in shape to the housing interior and is connected to the conductor for fixing the conductor within the housing.