A display panel (65) and a method for manufacturing a display panel (65) that includes a front side and a back side, the display panel (65) including a substrate having a plurality of electrical components provided on a front side of the substrate and integrated circuits connected to the plurality of electrical components, the integrated circuits being embedded in the substrate. A plurality of edge contacts (54, 62) is also provided along edges of the substrate, where the plurality of edge contacts (54, 62) is electrically connected with the integrated circuits. An electrically conductive layer (51, 61) covers at least a part of the front side of the substrate and surrounds the plurality of electrical components, where the electrically conductive layer (51, 61) does not physically contact the embedded integrated circuits and provides EMI shielding to different components of the display panel (65).

A modular system of plastic walls having embedded and coextensive electrically conductive components configured to electrically connect with each other when the walls are mated. The walls have joining edges that form joint seams with other walls when joined together to create an enclosure. When enough walls are used to surround a storage space, a Faraday cage is created. The walls additionally have portions of tortuous paths at each joining edge that mate with a complementary portion of a tortuous path of another wall when the walls are joined together. A torturous path seal is thereby created at each joint seam. The plastic walls can be configured in a multiplicity of combinations to create various enclosures necessary for RFID-enabled storage and tracking of medical articles. Containers, enclosures, cabinets, and drawers of differing heights and sizes can be made and they may be stacked or otherwise assembled.

An external indicator assembly for a central processing unit (CPU) disposed within an equipment cabinet, including: an internal fitting adapted to be disposed adjacent to indicator lights associated with the CPU; an external fitting adapted to be coupled to or disposed through an external surface of the equipment cabinet; and one or more optical fibers adapted to be coupled between the internal fitting and the external fitting such that light from the indicator lights is transmitted from the CPU disposed within the equipment cabinet external to the equipment cabinet such that the light is visible to a person external to the equipment cabinet. This allows the person to visually assess the status or power-down cycling of the CPU during a shutdown or restart process without or before opening the equipment cabinet, thereby preventing corruption of the CPU and assuring personal safety by avoiding contact with powered components.

The present invention relates to a compound as represented by formula (I). The present invention also provides compositions and formulations containing such compounds, and methods for using and preparing such compounds.

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Harsh environment key panel and bezel structures for a user interface device are disclosed. In embodiments, a user interface device includes a printed board, a switch mounted to the printed board, and a key panel disposed upon the printed board. The key panel includes a plurality of printed device layers forming a bezel, a button configured to actuate the switch, and a deformable interface between the bezel and the button. The plurality of printed device layers can include at least one continuous printed device layer that forms portions of the bezel, the button, and the deformable interface. The continuous printed device layer may include at least one rigid device material that forms a portion of the bezel and a portion of the button and a deformable device material that forms a portion of the deformable interface between the bezel and the button.

A display device includes a main body configured to have a display module to which a user interface is output, a bending module located at a center of a back surface of the main body, and a controller. The controller controls the bending module to change a curvature of the display module to any one of a flat mode in which the display module is flat, a first bending mode in which the display module has a first curvature, and a second bending mode in which the display module has a second curvature, wherein the second curvature is a maximum curvature of the display module. Then, the controller changes at least one of a size and a position of a display region to which the user interface is output, according to whether a mode is the flat mode, the first bending mode, or the second bending mode.

An information handling system with a cooling system may include a processor; a memory; a power management unit (PMU); a cooling system including: a fan; and a cooling system heat pipe; a detachable thermal module including: a first heat conductive element to be operatively coupled to a heat producing components such as a processor, a radio module, or other component; a second heat conductive element to be operatively coupled to the cooling system heat pipe of the cooling system; and a detachable thermal module heat pipe formed between the first heat conductive element and the second heat conductive element.

A light shade is disclosed. The light shade includes a mount that attaches to a light-emitting device, such as a medical device. A shade panel in a closed position covers some or all of the light-emitting portions of the medical device. The shade panel is held in an open position to allow full interaction with the medical device by a hinge and one or more locks. A handle on the shade panel may be located in a dark environment via a pinhole. The components of light shade may be manufactured via a 3D printing process.

A memory device includes a device housing, a memory module, and a cooling unit. The memory module is disposed in the device housing, wherein the memory module generates heat, and the heat is transmitted to the device housing. The cooling unit is thermally connected to the device housing to dissipate some of the heat. The cooling unit includes a unit housing and a working fluid. An interior space is formed in the unit housing. The working fluid is disposed in the interior space, wherein some of the heat travels from the device housing, passes through the unit housing, and is transmitted to the working fluid.

The present application discloses an electronic device and a connection module therefor. The connection module includes a first connection piece (1) and a second connection piece (2); side walls of the first connection piece (1) is each provided with notches and a limiting end which are connected to each other and are arranged at an angle; the second connection piece (2) is provided with limiting pieces (12) adapted to be placed at the limiting ends by means of the notches; one of the first connection piece (1) and the second connection piece (2) is provided with a retractable positioning assembly, and the side walls of the other are provided with positioning holes (10) fastening the retractable positioning assembly, so that when the limiting pieces (12) are placed at the limiting ends, the retractable positioning assembly is fastened in the positioning holes (10). According to the connection module, quick assembly is allowed, the connection is reliable, and the problem of falloff caused by relative movement of a plurality of connection pieces in a connection module is solved.