A server includes a chassis and an electronic device assembly. The electronic device assembly includes a holder and a fixing member. The holder accommodates an electronic device and includes a limiting slot and a positioning hole. The fixing member includes a hook set. The hook set includes a first hook and a second hook. The first hook is connected to the limiting slot to be limited in a first direction. The second hook is connected to the positioning hole to be limited in a second direction. The first direction is substantially different from the second direction. The fixing member and the holder sandwich a connector connected to the electronic device.

A swing arm lock mechanism for securing a printed circuit board to a bracket includes a main body, a hooked arm, and an aperture in the main body. The hooked arm extends from and is integral with the main body. The hooked arm and main body define an open-ended slot for engaging a lock pin disposed on the bracket. The aperture receives a fastener for securing the main body to the printed circuit board such that the main body and hooked arm can rotate about a central axis of the fastener from a first unlocked position to a second locked position.

A release mechanism is disclosed that can facilitate safely and efficiently removing an expansion card from a computing device. The release mechanism can be installed on a motherboard around an expansion slot, and can include an opening that permits access to the expansion slot to allow an expansion card to be installed therein. When removal of the expansion card is desired, a handled of the release mechanism can be pulled, causing contact surfaces of the release mechanism to push the expansion card away from the expansion slot with even force, removing the need to tilt the expansion card.

A hook fixing mechanism includes a fixing frame, a first hook, and a second hook. The first hook is rotationally mounted on the fixing frame. A first end of the first hook protrudes from the fixing frame, and a second end of the first hook is movably snapped on the fixing frame. The second hook is rotationally mounted on the fixing frame. A third end of the second hook protrudes from the fixing frame, and a fourth end of the second hook resists against the first hook.

Latches for securing circuit board assemblies within a slot of a telecommunications chassis are provided. In one embodiment, a latch for restricting motion of a substrate with respect to a fixed component within a slot of the telecommunications chassis is described. For example, the latch may include a mounting section allowing the latch to be mounted to the substrate. The latch may also include a cantilever section and an arc section connecting the mounting section to the cantilever section. Furthermore, the latch may include a retention component extending from a surface of the cantilever section. The retention component may be configured to restrict motion of the substrate when engaged with the fixed component within the slot.

A chassis includes a housing of an expansion card receiver adapted to house an expansion card and limit removal of the expansion card to a removal path; and a card holder of the expansion card. The card holder, while a retention member of the card holder is disposed in the removal path, receives a translation force directed away from the expansion card along the removal path; in response to receiving the translation force: translates the retention member along the removal path away from the expansion card until the retention member reaches a translation limiter to transition the retention member from a translatable state to a rotatable state, while the retention member is in the rotatable state and not in the translatable state: receives a rotation force directed out of the removal path; and in response to receiving the rotation force, rotate the retention member out of the removal path.

A swing arm lock mechanism for securing a printed circuit board to a bracket includes a main body, a hooked arm, and an aperture in the main body. The hooked arm extends from and is integral with the main body. The hooked arm and main body define an open-ended slot for engaging a lock pin disposed on the bracket. The aperture receives a fastener for securing the main body to the printed circuit board such that the main body and hooked arm can rotate about a central axis of the fastener from a first unlocked position to a second locked position.

A connector gap between a module connector mating surface and the backplane connector of a chassis may be eliminated through a mechanism that forcefully pushes (or pulls) the module towards the backplane and/or forcefully pushes (or pulls) the backplane toward the module. A spring-loaded or resilient element may be used to fasten the module in a way that effectively fills any designed-in and tolerance-induced gap in the connector interface, allowing the connector to fully seat. In addition, a gasket or other compressible member may be included at the connector mating interface. The gap in the connector interface may be reduced by introducing adjustable card cage members that are capable of being set during the assembly or manufacturing process using special alignment fixtures. The gap in the connector interface may also be reduced by introducing a higher tolerance capable manufacturing process, such as machining, to the card cage sub-assembly.

A release mechanism is disclosed that can facilitate safely and efficiently removing an expansion card from a computing device. The release mechanism can be installed on a motherboard around an expansion slot, and can include an opening that permits access to the expansion slot to allow an expansion card to be installed therein. When removal of the expansion card is desired, a handled of the release mechanism can be pulled, causing contact surfaces of the release mechanism to push the expansion card away from the expansion slot with even force, removing the need to tilt the expansion card.

A riser bracket assembly for supporting at least one expansion card horizontally over a motherboard is disclosed. The riser bracket assembly may support different types of expansion cards. The assembly includes a first component half having a registration feature to mate with a first type of riser board. A second component half is attachable to the first component half. The second component half has a registration feature to mate with a second type of riser board. A riser board has an edge connector insertable into a socket on the motherboard. The riser board includes an expansion card connector connectable to the at least one expansion card. The riser board supports either the first component half or the second component half.