An electrical contact includes a planar main body, a supporting arm extending upwardly from an upper edge thereof, and a spring arm extending curvedly and upwardly from a lower edge thereof with a contacting region at a free end region. The spring arm will contact the supporting arm when the spring arm is downwardly pressed by the CPU. A connecting part extends from an upper portion of the main body for connecting to a carrier strip, and includes a first connecting section coplanar with the main body, and a second connecting section perpendicular to the first connecting section wherein the carrier strip is connected to an upper edge of the second connecting section so as to be spaced from the corresponding spring arm and supporting arm, thus avoiding improper coating thereupon when the gold coating is applied to the self-contacting regions of the spring arm and supporting arm.

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 foot print that is designed to be surface mounted.

A board-to-board connector assembly includes a connector interposer between first and second connectors each having a connector housing holding contacts and having a card slot for interfacing with a circuit card edge of a corresponding add-in card. The connector housings have board guides configured to engage the add-in cards and guide mating therewith. The connectors have latches configured to latchably engage the add-in cards to secure the connector to the add-in cards. The connector interposer electrically interconnects the first contacts and the second contacts.

A card edge connector is adapted to allow an electronic module to insert and comprises an elongated insulating housing and a plurality of conductive terminals. The insulating housing has two side walls which are spaced apart from each other, the two side walls together define a card edge insertion groove which has an opening. The card edge connector further comprises a covering member which is correspondingly mounted to the terminal mounting wall, the covering member has a body and a tongue portion which is connected to the body and has flexibility, the body is mounted to the top surface of the terminal mounting wall, the tongue portion at least partially covers the opening of the card edge insertion groove, when the electronic module is inserted into the card edge insertion groove, the tongue portion contacts the electronic module and flexes toward the card edge insertion groove.

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 foot print that is designed to be surface mounted.

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 foot print that is designed to be surface mounted.

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 foot print that is designed to be surface mounted.

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 foot print that is designed to be surface mounted.

A connector comprises a housing and a plurality of contacts retained in the housing. Each of the contacts extends in a longitudinal direction and has a retained portion, a contacting portion disposed in front of the retained portion in the longitudinal direction, and a connecting portion disposed behind the retained portion in the longitudinal direction. Each of the contacting portion and the connecting portion are shifted with respect to the retained portion in a vertical direction perpendicular to the longitudinal direction. The housing is in contact with the retained portion of each of the contacts from both above and below in the vertical direction and from both right and left in a lateral direction perpendicular to the vertical direction and the longitudinal direction.

In one example an electrical connector is disclosed, which may include a housing and a plurality of electrical contacts disposed in the housing for engaging with corresponding connecting terminals provided on a flat circuit. The housing may include a front portion defining an elongated opening and a rear portion opposite the front portion. The rear portion may define a visible area. The flat circuit may be inserted in the housing from the elongated opening and extended into the visible area.