A novel weatherproof electrical component enclosure incorporates swappable internal module configurations for several types of network devices, wherein each internal module embodies standardized dimensions and standardized attachment elements for seamless internal device swap in-and-out compatibilities within the same weatherproof enclosure. Examples of novel swappable internal modules for the novel weatherproof electrical component enclosure include a fanned Power-over-Ethernet (PoE) switch, a fan-less PoE switch, a network router, and a wireless base station, all of which are simply swappable in and out of the weatherproof enclosure. The novel weatherproof electrical component enclosure also uniquely incorporates a customer's component hotel space as a weatherproof storage of customer-specific private accessory devices, in addition to housing factory-packaged original equipment which the weatherproof electrical component enclosure is originally designed to encase. The swappable modularity of internal components in the weatherproof enclosure reduces outdoor network equipment design constraints, manufacturing costs, and network implementation and maintenance costs.

A computing card for an information handling system, the computing card system including a computing card, including: a first side including: a first body surface, the first body surface including a first plurality of conductive pads configured to connect respectively with a first set of pins of a computing card receptacle; a first indented surface configured to connect with a second set of pins of the computing card receptacle; a first connecting surface defined between the first body surface and the first indented surface; a bottom surface; and a plurality of internal layers, wherein one or more of the internal layers are exposed at the first indented surface, and are connected to the bottom surface.

The present disclosure provides a tool-less assembly hard disk drive bracket, including: a fixation rack, including a fixation bracket portion and a fixation arm connected with a first side of the fixation bracket portion; a rotation rack, including a rotation arm connected with a second side of the fixation bracket portion, and a rotation bracket portion connected with the rotation arm, the rotation bracket portion is connected with the fixation bracket portion to support a hard disk drive; and at least two connecting components, arranged on an inner side of the fixation arm and the rotation arm, respectively, the connecting components connect and fix the hard disk drive in the structure formed by the fixation rack and the rotation rack. The present disclosure is simple in installation, convenient in assembly and disassembly, and easy to maintain, thereby having high economy and practicability.

An electrical device heat dissipation structure includes an air blowing device, a casing, and a mating connector. The casing is disposed with at least one air outlet, an electrical connector and a power supply. The power supply provides power to the air blowing device. The mating connector has a chip. The mating connector is electrically connected with the electrical connector. The air blowing device is configured to blow air to the mating connector through the at least one air outlet, so as to improve dissipation of heat generated by the chip at work, and to reduce a temperature of the mating connector.

A modular electrical accessory for a building has a housing for attaching to a building structure and an electrical backplane mounted in the housing. The electrical backplane is configured to be electrically wired to an electrical circuit associated with the building. A user-replaceable electrical accessory module is removably connectable by a user to an electrical bus and a control bus of the modular electrical accessory. The electrical bus enables transfer of electrical power between a connected user-replaceable electrical accessory module and the electrical backplane, while the control bus enables control signals to be communicated between a connected user-replaceable electrical accessory module and the electrical backplane for controlling delivery of electrical power to an electrical device based on the control signals

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. The sliding fastener includes a body having a latch extending therefrom the body and a groove so as to form a handle. The body is provided with a second sliding track corresponding to the first sliding track, and the handle is elastically bendable along the groove so as to flex relative to the body and disengage from the replaceable module.

A riser of an information handling system having an adjustable baffle that blocks air flowing through the riser from by-passing components of an expansion card, such as a PCIe card, installed in the riser. The baffle directs the flowing air across components of the expansion card to lower the operating temperature of the expansion card by convection. In some embodiments, part of the baffle is coupled to an angled slot of the riser body and another part of the baffle is coupled to a card holder so that movement of the card holder automatically adjusts the position of the baffle to direct otherwise by-passing air toward the components of the installed expansion card.

A memory device with modular design and the memory system comprising the same is disclosed. The memory device comprises a substrate plate having a front edge, a rear edge opposite to the front edge, and a top side and a bottom side which are opposite to each other and extend between the front edge and the rear edge; an edge connector positioned at the rear edge and configured to connect to a host connector of a host device; a memory control module positioned on one of the top side and the bottom side of the substrate plate; at least one socket positioned on the top side of the substrate plate and configured to connect to at least one removable memory module; and wherein the memory controller module is electrically coupled to the edge connector and the at least one socket such that the at least one memory module can be accessible by the host device via the memory control module.

Embodiments of the present disclosure provide a display device. The display device includes: a display panel; a control circuit board; and a rotary knob assembly connected to the control circuit board. The rotary knob assembly includes a rotary rod and a rotary knob cap, the rotary rod is connected to the rotary knob cap, and the rotary knob cap is configured to drive the rotary rod to rotate. The display panel is connected to the control circuit board, the rotary knob assembly is configured for generating a signal according to an action of the rotary knob cap and transmitting the signal to the control circuit board, and the control circuit board is configured for controlling the display panel to display according to the signal.

A novel weatherproof electrical component enclosure incorporates swappable internal module configurations for several types of network devices, wherein each internal module embodies standardized dimensions and standardized attachment elements for seamless internal device swap in-and-out compatibilities within the same weatherproof enclosure. Examples of novel swappable internal modules for the novel weatherproof electrical component enclosure include a fanned Power-over-Ethernet (PoE) switch, a fan-less PoE switch, a network router, and a wireless base station, all of which are simply swappable in and out of the weatherproof enclosure. The novel weatherproof electrical component enclosure also uniquely incorporates a customer's component hotel space as a weatherproof storage of customer-specific private accessory devices, in addition to housing factory-packaged original equipment which the weatherproof electrical component enclosure is originally designed to encase. The swappable modularity of internal components in the weatherproof enclosure reduces outdoor network equipment design constraints, manufacturing costs, and network implementation and maintenance costs.