A socket connector assembly for a communication system includes a socket connector having a socket housing holding socket contacts having deflectable spring beams. The socket connector assembly includes a cable assembly coupled to the socket connector having an outer housing holding a paddle card with paddle card contacts interfacing with the separable mating interfaces of the socket contacts. The cable assembly includes cables terminated to the paddle card coupled to corresponding paddle card contacts. The socket connector assembly includes a spring plate coupled to the outer housing secured to the host circuit board to press the cable assembly downward toward the host circuit board to compress the deflectable spring beams of the socket contacts.

One aspect provides an apparatus for locking circuit boards in position between a pair of guide rails. The apparatus can include a slider attached to a sidewall of one guide rail. The slider is allowed to slide along the guide rail within a predetermined range and one or more plunger-and-spring assemblies. A respective plunger-and-spring assembly comprises a plunger and a spring surrounding the plunger, and the plunger is inserted into a through-hole on the sidewall of the guide rail such that a first end of the plunger can be aligned with a notch on a corresponding circuit board and a second end of the plunger is in contact with the slider. Sliding of the slider causes the spring to compress and decompress and the first end of the plunger to move in and out of the notch on the circuit board, thereby facilitating locking and unlocking of the circuit board.

Provided is an improved electronic component package. The electronic component package comprises a multiplicity of electronic components wherein each electronic component comprises a first external termination and a second external termination. The electronic component package also includes a structural lead frame comprising multiple leads wherein each lead is mounted to at least one first external termination and the structural lead frame comprises at least one break away feature between adjacent leads.

Aspects of the disclosure provide a package system that includes a first integrated circuit (IC) package and a second IC package. The first IC package includes a first IC chip mounted on a first substrate-chip surface of a first package substrate. The first package substrate includes first near-conductive layers that are closer to the first substrate-chip surface than first far-conductive layers. The second IC package includes a second IC chip mounted on a second substrate-chip surface of a second package substrate. The second package substrate includes second near-conductive layers that are closer to the second substrate-chip surface than second far-conductive layers. A first contact structure on the first substrate-chip surface and a second contact structure on the second substrate-chip surface electrically couple the first IC chip with the second IC chip through electrical connections in the first and second near-conductive layers.

A socket connector includes a housing defining a pair of rows of insertion cavities and an elastic fastener formed on a bottom wall of each insertion cavity. Each row of insertion cavities has at least one insertion cavity. The elastic fastener is adapted to engage a plug connector inserted into the insertion cavity.

The invention relates to an assembly with an electrotechnical component on a carrier. A first electrical connecting line and a second electrical connecting line going to the electrotechnical component are provided on or in the carrier. The electrotechnical component comprises a first connection and a second connection. The first connection is attached on the carrier by a thermally softenable solder material to the first electrical power supply line, and the second connection is attached on the carrier by a thermally softenable solder material to the second electrical power supply line. A first electrical signal line to the electrotechnical component is provided on or in the carrier. The assembly furthermore comprises a mechanical prestressing, which in the event that the solder material is softened can displace the electrotechnical component on the surface substantially in a parallel plane to the carrier or orthogonally to the carrier.

An electronic component module includes a first board comprising a component insertion portion, at least one heat-generating component mounted on a first surface of the first board and in which at least a portion of an active surface is exposed through the component insertion portion, a radiating component inserted into the component insertion portion and mounted on the active surface of the heat-generating component, a second board mounted on a second surface of the first board and configured to electrically connect the first board to an external source, and a connection conductor disposed on an inactive surface of the radiating component and configured to allow contact between the inactive surface of the radiating component and a main board.

A package for securing a PCB to a heatsink includes mounts with over-torque protection features. The PCB is seated in an open end of the package. Each mount includes a threaded opening for securing the package to the heatsink such that the base layer of the PCB is thermally coupled to the heat sink. The over-torque protection features are connected between the threaded opening and a sidewall of the package. The over-torque protection features may be designed to structurally fail and/or deform in response to over-torqueing of the fasteners, thereby inhibiting flexure of the PCB.

This disclosure generally relates to processor systems comprising printed circuit boards, I/O chips and processor chips with mated contacts. Contacts are formed on an upper surface of a printed circuit board having a through-hole and on a processor chip inside the through-hole. The processor chip may be a superconducting quantum processor chip comprising qubits, couplers, Digital to Analog converters, QFP shift registers and analog lines. Contacts are formed on an upper surface on an I/O chip and mated with the contacts on the printed circuit board and the processor chip. Contacts may be Indium bump bonds or superconducting solder bonds. The processor chip and the I/O chip may include a shield layer, a substrate layer and a thermally conductive layer.

A package for securing a PCB to a heatsink includes mounts with over-torque protection features. The PCB is seated in an open end of the package. Each mount includes a threaded opening for securing the package to the heatsink such that the base layer of the PCB is thermally coupled to the heat sink. The over-torque protection features are connected between the threaded opening and a sidewall of the package. The over-torque protection features may be designed to structurally fail and/or deform in response to over-torqueing of the fasteners, thereby inhibiting flexure of the PCB.