The present invention provides a locking mechanism in a mobile terminal and a method of manufacturing the same. The locking mechanism comprises a slider, latch, button, and spring. The slider and latch include openings and may translate between a locked position and an unlocked position. The latch may include a protrusion that limits the translation of the slider and the latch when in the locked position. The button is located within the opening of the slider and the opening of the latch, and the spring member is fixed adjacent the latch. In an instance in which an external force is applied to the button, the external force deforms the spring member such that contact between a vertical edge of the protrusion and the spring is precluded allowing translation of the slider and the latch between the locked position and the unlocked position.

A subrack including a frame defining a subrack space and adapted to receive a device module to an operative position, the frame comprising four side walls and an end wall. The subrack comprises a coupling system adapted for coupling the subrack to four other subracks in order to form a subrack matrix, the coupling system comprising at least one wall recess on an inner surface of each of the side walls, and at least one primary screw hole in each of the side walls such that the at least one primary screw hole is located in the at least one wall recess.

An electronic module adapted to an electronic apparatus is provided. The electronic apparatus includes a casing and an electronic assembly, and the electronic assembly is disposed on the casing. The electronic module includes at least one electronic component, a carrier, a rotation component, a connection component, and an elastic assembly. The carrier carries the electronic component, and the carrier is arranged on the casing. The rotation component is pivotally connected to the carrier. The connection component is connected pivotally to the rotation component. The elastic assembly is disposed on the connection component and a hook portion is disposed thereon. The hook portion is adapted to be hooked to the casing, such that the electronic component is plugged to the electronic assembly by the elastic assembly.

A server chassis includes at least one first tray, at least one second tray, a housing, a first interface, the housing includes a bottom wall and a side wall, the bottom wall and the side wall surrounds and forms a receiving cavity with an opening. The first interface is located in the receiving cavity; the first interface is placed at a corner of the bottom wall close to the opening and the side wall. The first tray and the second tray are stacked in the receiving cavity, and the first tray is located below the second tray. The first tray slides out or retracts the receiving cavity through the opening. The second tray slides out or retracts the receiving cavity through the opening; the first tray and the second tray are configured to carry hard disks of a plurality of arrays. The present disclosure also provides a server.

Scalable-bandwidth aggregation boxes are disclosed that allow scalable electrical connection bandwidth of multiple servers in a rack to aggregation modules and compact bifurcatable optical cables to connect the aggregation modules to switches, while minimizing switch faceplate connector area requirements by using optical connectors. Users of a system including scalable-bandwidth aggregation boxes can choose a desired bandwidth cable to connect a server to a switch via an aggregation box. An aggregation box may include a scalable-bandwidth electrical connector on a faceplate, signal lines coupled between the scalable-bandwidth electrical connector and a board connector in the housing, and a serviceable bandwidth-aggregation module removably disposed in the housing.

Systems and methods are provided for a turnkey modular printed circuit board enclosure that is generated using a template generator. The template generator accepts a user input comprising an enclosure parameter, based on which a manufacturing file may be generated. The manufacturing file may be provided to a fabricator for fabricating the enclosure or the manufacturing file may be modified in a printed circuit board design environment to incorporate a printed circuit board into the enclosure. The printed circuit board may be a separate printed circuit board that is inserted into the enclosure or it may be embedded in a face of the enclosure.

A polyhedral LED display screen is provided and includes multiple cabinet main frames. Each the cabinet main frame is formed with an accommodating cavity. A side of each cabinet main frame is provided with a flexible PCB, an outer side of the flexible PCB facing away from the cabinet main frame is disposed with LED lamp beads, an inner side of the flexible PCB facing towards the cabinet main frame is magnetically connected to the cabinet main frame, and the cabinet main frames are connected to each other to form a regular dodecahedron sphere. The multiple cabinet main frames can be completely covered by the flexible PCBs, a missing display at an end point in the prior art is eliminated, design numbers and complexities of the cabinet main frames and the flexible PCBs are reduced, and an installation of the cabinet main frames becomes more convenient.

A cartridge-based computing system includes a display stand that connects to a compute module cartridge including a first securing member, a second securing member, and a release member coupled to the second securing member. The display stand defines a securing aperture that engages the first securing member when the compute module cartridge is connected to the display stand, which causes the first securing member to engage a securing element on the display stand and move it into engagement with the second securing member to connect the compute module cartridge to the display stand. The securing element may then be engaged by the release member to move it out of engagement with the second securing member, and into engagement with the first securing member to cause the securing aperture to disengage the first securing member and disconnect the compute module cartridge from the display stand.

In an example, an electronic device chassis may include a back panel and an expansion card bracket which may be attached or attachable to the back panel. The expansion card bracket may include a bracket body, a lock feature to engage with an expansion card of the electronic device, and a retention loop extending from the bracket body to receive a portion of a peripheral device to lock the peripheral device to the chassis.

Systems and methods for modular cabinet cable pass through are disclosed. A system may include a first lead modular plate having a U-shape and a first and a second follower modular plate, each of the first and the second follower modular plates having a U-shape and having a first follower modular plate leg and a second follower modular plate leg and a second plate portion therebetween, the second follower modular plate leg being longer than the first follower modular plates leg, and a bottom plate that receives at least a portion of the first lead modular plate, and the second follower modular plate legs of the first and the second follower modular plates. At least one cable may pass between an opening defined by the bottom plate and one of the first follower plate and the second follower plate.