A display apparatus including: a display panel; a chassis assembly supporting the display panel; a printed circuit board accommodated in the chassis assembly, and configured to drive and control the display panel; and a connector installed on the printed circuit board, and including a seating portion and a connector terminal positioned on one side of the seating portion, wherein the connector is connected to the cable by seating a surface of a body of a cable on the seating portion in a vertical direction while the surface of the body of the cable faces the seating portion and contact-coupling a cable terminal formed at one end of the body of the cable with the connector terminal.

A display apparatus including: a display panel; a chassis assembly supporting the display panel; a printed circuit board accommodated in the chassis assembly, and configured to drive and control the display panel; and a connector installed on the printed circuit board, and including a seating portion and a connector terminal positioned on one side of the seating portion, wherein the connector is connected to the cable by seating a surface of a body of a cable on the seating portion in a vertical direction while the surface of the body of the cable faces the seating portion and contact-coupling a cable terminal formed at one end of the body of the cable with the connector terminal.

Electrical connection system comprising a primary connection device and a secondary connection device, the primary connection device comprising a shielded cap and primary conductive contacts which extend at least partially inside the shielded cap, the secondary connection device comprising a secondary electrical board which has a secondary mass surface, secondary conductive contacts which extend from an installation surface of the secondary electrical board which is surrounded by the secondary mass surface, and a resilient conductive material which is attached to the secondary mass surface, the electrical connection system being arranged so that the primary conductive contacts are electrically connected to the secondary electrical contacts inside the shielded cap and the shielded cap extends on the resilient conductive material by compressing it.

Electrical connection system comprising a primary connection device and a secondary connection device, the primary connection device comprising a shielded cap and primary conductive contacts which extend at least partially inside the shielded cap, the secondary connection device comprising a secondary electrical board which has a secondary mass surface, secondary conductive contacts which extend from an installation surface of the secondary electrical board which is surrounded by the secondary mass surface, and a resilient conductive material which is attached to the secondary mass surface, the electrical connection system being arranged so that the primary conductive contacts are electrically connected to the secondary electrical contacts inside the shielded cap and the shielded cap extends on the resilient conductive material by compressing it.

In a connector, a contact includes: a first connection portion and a second connection portion that are retained between a first insulator and a second insulator and face each other; and a pressing force receiving portion that makes contact with the second insulator and receives a pressing force from the second insulator to thereby press the first connection portion against the second connection portion. A connection object is sandwiched between the first connection portion and the second connection portion, and at least one of the first connection portion and the second connection portion makes contact with a flexible conductor of the connection object, whereby the contact is electrically connected to the flexible conductor of the connection object.

A device for inserting a flexible printed circuit board into a connector of a display panel includes: a suction unit configured to adhere to the flexible printed circuit board; a position restriction unit configured to restrict a position of the flexible printed circuit board; and a flexible printed circuit board transfer unit coupled to the suction unit and the position restriction unit, and configured to insert the flexible printed circuit board into the connector. A method of inserting a flexible printed circuit board into a connector of a display panel is also disclosed.

A device for inserting a flexible printed circuit board into a connector of a display panel includes: a suction unit configured to adhere to the flexible printed circuit board; a position restriction unit configured to restrict a position of the flexible printed circuit board; and a flexible printed circuit board transfer unit coupled to the suction unit and the position restriction unit, and configured to insert the flexible printed circuit board into the connector. A method of inserting a flexible printed circuit board into a connector of a display panel is also disclosed.

An integral toolless-installation Compression Attached Memory Module (CAMM) bolster plate has a generally flat, parallelepiped body portion configured to contact one surface of a CAMM Printed Circuit Board (PCB) and provide compression between the CAMM and a z-axis compression connector. The bolster plate body defines (a) ramped keyhole(s), each ramped keyhole converts lateral displacement of the toolless-installation CAMM bolster plate into vertical displacement, providing the compression between the CAMM and the z-axis compression connector, by the ramped keyhole(s) sliding along (a) bottom face(s) of (a) head(s) of (a) fixed standoff(s) extending from an information handling system (IHS) PCB, through the z-axis compression connector and the CAMM PCB. The integral toolless-installation CAMM bolster plate may lock in place, laterally displaced, to maintain the compression between the CAMM and the z-axis compression connector. The integral toolless-installation CAMM bolster plate may also have a flange portion extending generally perpendicular from the body portion.

Provided are terminal-free connectors for flexible interconnect circuits. A connector for connecting to a flexible interconnect circuit comprises a base comprising a housing chamber defined by at least a first side wall and a second side wall that are oppositely positioned about the base. A circuit clamp is coupled to the base via a first hinge, and is configured to move between a released position and a clamped position. A cover piece is coupled to the base via a second hinge, and is configured to move between an open position and a closed position. The circuit clamp is configured to secure the flexible interconnect circuit between the base and the circuit clamp in the clamped position. One or more protrusions on the circuit clamp are each configured to interface with a socket within the first or second side wall to secure the circuit clamp in the clamped position.

Provided are terminal-free connectors for flexible interconnect circuits. A connector for connecting to a flexible interconnect circuit comprises a base comprising a housing chamber defined by at least a first side wall and a second side wall that are oppositely positioned about the base. A circuit clamp is coupled to the base via a first hinge, and is configured to move between a released position and a clamped position. A cover piece is coupled to the base via a second hinge, and is configured to move between an open position and a closed position. The circuit clamp is configured to secure the flexible interconnect circuit between the base and the circuit clamp in the clamped position. One or more protrusions on the circuit clamp are each configured to interface with a socket within the first or second side wall to secure the circuit clamp in the clamped position.