A spring lock includes a sinusoidal spring that has one or more crests and troughs formed along a length of the sinusoidal spring, the length extending along a sliding axis, the one or more crests and troughs forming a sinusoidal spring profile. The spring lock further includes a lock bar that has a track extending along the sliding axis, the track being configured to hold the sinusoidal spring and allow the sinusoidal spring to move along the sliding axis, the track further including one or more depressions and plateaus with the depressions and plateaus forming a lock bar profile, wherein the spring lock is locked when the sinusoidal spring profile and the lock bar profile are out-of-phase and the spring lock is unlocked when the sinusoidal spring profile and the lock bar profile are in-phase.

A housing for use with line replaceable modules includes a housing body, an access cover associated with the housing body, a guide body disposed within the housing body, a guide cam disposed within the guide body, wherein the guide cam includes at least one guide feature, a clamping cam in sliding contact with the guide cam, wherein the clamping cam includes at least one follower to interface with the at least one guide feature, and an actuating lever associated with the clamping cam to interface with the access cover, wherein the actuating lever translates the clamping cam relative to the guide cam.

A spring lock includes a sinusoidal spring that has one or more crests and troughs formed along a length of the sinusoidal spring, the length extending along a sliding axis, the one or more crests and troughs forming a sinusoidal spring profile. The spring lock further includes a lock bar that has a track extending along the sliding axis, the track being configured to hold the sinusoidal spring and allow the sinusoidal spring to move along the sliding axis, the track further including one or more depressions and plateaus with the depressions and plateaus forming a lock bar profile, wherein the spring lock is locked when the sinusoidal spring profile and the lock bar profile are out-of-phase and the spring lock is unlocked when the sinusoidal spring profile and the lock bar profile are in-phase.

An electronic assembly having a multi-slot card assembly and a chassis is provided. The chassis has two or more chassis mounting slots, each including three walls. The multi-slot card assembly is mountable into the chassis and has two or more protrusions. The card assembly comprises at least one heat frame, at least one circuit card module mounted to the at least one heat frame, and at least one expandable fastener. When the card assembly is mounted into the chassis and the at least one fastener is expanded, the at least one fastener applies force against both of one of the walls of the slot and a surface of the at least one heat frame.

A circuit board fixing base comprises a fixing base fixed on the electric circuit board. The fixing base is configured with carrier for carrying the electronic device and elastic locking arm located beside the carrier. The upper end of the elastic locking arm has a locking body to catch the electronic device so as to lock the electronic device on the carrier. Between the locking body and the carrier, a locking space is formed to lock the electronic device. The upper end of the locking body is configured with a guiding slope. When the electronic device is pressed on the guiding slope, the upper end of the elastic locking arm will be bent outward. The electronic device can be locked on the fixing base simply by pressing down the other end of the electronic device.

An assembly is provided for an electronic system. This electronic system includes a base and an electronic component. The base includes a base connector, a bay and a first guide. The first guide is arranged along a first side of the bay. The electronic component is configured to mate with the first guide and to move along the first guide within the bay to an installed position. The electronic component includes a component connector and a brake. The component connector is configured to couple with the base connector when the electronic component is at the installed position. The brake is engageable as the electronic component moves along the first guide to the installed position.

An electronic device may include a circuit board, a heat generating component carried by the circuit board, a heat transfer rail extending along an edge of circuit board and coupled to the heat generating component, a housing covering the circuit board, and a heat transfer clamp between the heat transfer rail and the housing. The heat transfer clamp includes a flexible, heat conductive layer having a first portion in thermal contact with the heat transfer rail and a second portion in thermal contact with the housing. The first and second portions are thermally coupled, and a clamp and a compressible layer thereon extends between the first and second portions of the flexible, heat conductive layer.

An assembly is provided for an electronic system. This electronic system includes a base and an electronic component. The base includes a base connector, a bay and a first guide. The first guide is arranged along a first side of the bay. The electronic component is configured to mate with the first guide and to move along the first guide within the bay to an installed position. The electronic component includes a component connector and a brake. The component connector is configured to couple with the base connector when the electronic component is at the installed position. The brake is engageable as the electronic component moves along the first guide to the installed position.

A rack mountable bracket is described. The bracket is mountable to a rack configured for mounting equipment. The rack is also configured according to a rack standard (e.g., EIA-310) that specifies how rails of the rack are disposed, one rail to another, and how a strip of holes disposed along a length of each rail is spaced, one hole to another. In one or more implementations, the bracket includes a pair of mounting edges for mounting the bracket to a mounting pair of the rails using hole strips of the mounting pair of rails. The bracket also includes an equipment mounting rail having a hole strip disposed along a length of the rail with holes spaced according to the rack standard. The equipment mounting rail is disposed between the mounting edges, such that when the bracket is mounted to the mounting pair of rails the bracket is horizontally oriented.

Systems and methods for detecting an incorrectly attached heat sink component on an electronic device. The system includes one or more temperature sensors secured to the electronic device and a controller unit comprising one or more processors and one or more computer-readable media, the computer-readable media having stored thereon executable instructions that are executable by the one or more processors to perform a method for detecting incorrectly attached heat sink components. The method includes receiving temperature data, calculating a thermal ramp rate, comparing the thermal ramp rate to a predetermined threshold ramp rate, and transmitting a fault signal when the calculated thermal ramp rate exceeds the predetermined threshold ramp rate.