A computing system comprises a module cage for containing a system board and a plurality of pluggable modules, the module cage having a front face, the pluggable modules arranged in at least two rows of pluggable module locations extending parallel to the front face within the module cage. A layered module locking system including a sliding front locking handle and a sliding rear locking handle is provided. the sliding rear locking handle extending beneath the front locking handle. The sliding locking handles each includes at least one locking feature for slidably engaging with at least one foot of a pluggable module.

A device heater module can be installed within a device such as a server, and can prevent the device from powering on while the temperature of the device is being restored to an operating temperature. The device heater module can prevent the device from powering on by operating a switch to disconnect the device from an external power supply. The device heater module can thereafter actively or passively modify the temperature of the device. After the temperature of the device is restored to within the operating temperature, the device heater module can operate the switch to reconnect the device to the external power supply, thereby allowing the device to initiate a boot process.

A storage device testing module includes a plate and a test board disposed on the plate and including a storage device receiver, the storage device receiver receiving a storage device to be tested. The storage device testing module further includes a sensor including a plurality of switches disposed on an inner surface of the storage device receiver, the plurality of switches being activated by movement of the storage device into the storage device receiver. The storage device testing module further includes a plurality of plungers disposed on the inner surface, contacting and supporting the storage device.

A supporting device is assembled with an accommodating device of an electronic apparatus. The supporting device includes a casing and an engaging module. The engaging module is slidably disposed on the casing to engage with the accommodating device. The engaging module includes an engaging component, a pressing component and a fixing component. The engaging component includes an engaging portion and a sliding slot. The engaging portion is engaged with the accommodating device. The pressing component is disposed on the engaging component in a resiliently deformable manner. The fixing component pierces through the sliding slot to fix the engaging component on the casing.

An electronic device and method are disclosed. The electronic device includes a housing defining an opening, a driving actuator, a slide door moveable to selectively cover and expose the opening, a link connecting the slide door and the driving actuator, the link linearly moveable in accordance with a driving operation of the driving actuator to move the slide door, a forcible open blocker that is moveable to restrict opening of the slide door when the opening is closed, and to release blockage of the opening of the slide door based on a linear movement of the link, and a processor. The processor implements the method, including: receiving an external input signal and identify whether to expose or cover the opening based on the external input signal, and activating the driving actuator to expose or cover the opening according to a result of the identification.

A device having fool-proofing structure is configured to be inserted into a cabinet along a first direction and includes a case and an elastic sheet module. The elastic sheet module is disposed on a side of the case and includes a first end disposed on the case, a second end opposite to the first end, a first protrusion portion and a second protrusion portion. The first protrusion portion is adjacent to the second end, protrudes from the case and is configured to abut against the cabinet. The second protrusion portion is farther from the second end than the first protrusion portion, protrudes from the case, and is configured to make the second end and the first protrusion portion move toward the interior of the case as being pressed by a force.

The present invention provides an electronic device including a replaceable module and a sliding fastener. The replaceable module is provided with a first sliding track on one side thereof. The sliding fastener includes a body, which is provided with a second sliding track connected to the first sliding track. The body is provided with a latch, a handle is extended from the body, and a groove is traversely disposed at a joint between the body and the handle. The sliding fastener is elastically bendable along the groove, such that the handle is enabled to turn along the groove relative to the body so as to be adhered to or erected on a surface of the replaceable module.

A solid-state drive (SSD) carrier comprises a front structure, a first side structure extending perpendicularly from a first end of the front structure, and a second side structure extending perpendicularly from a second end of the front structure. The front structure and the first and second side structures defining an internal volume sufficient to contain an SSD conforming to any one of a plurality of different SSD form factors. At least one light pipe extends through in the front structure, and is configured to direct light from an indicator LED on a front face of the SSD to a location on a front face of the front structure.

An electronic equipment assembly has an interconnect including columns of signal conductors, connectors mounted to the columns of signal conductors, and a chassis coupled with the interconnect. The chassis provides slots that guide resource devices into engagement with the connectors mounted to the columns of signal conductors to enable the interconnect to electronically access the resource devices. At least one column of the columns of signal conductors of the interconnect is a multi-function column. Each multi-function column is constructed and arranged to electronically access different types of resource devices through a respective connector mounted to that multi-function column.

A server casing includes a case body, a HDD cage and a backplane assembly. The case body has an opening and an accommodation space connected to the opening. The HDD cage can be inserted into and removed from the accommodation space through the opening. The HDD cage has installation spaces for accommodating the hard disk drives. The backplane assembly includes a connector and a HDD backplane fastened to the HDD cage and configured to be electrically connected to the hard disk drives. The HDD cage further has a front surface and a rear surface. The front surface is closer to the opening than the rear surface. The installation spaces are between the front surface and the rear surface. The HDD backplane extends beyond the rear surface in a direction away from the opening. The connector is located at one end of the HDD backplane extending beyond the rear surface.