Disclosed is a display device. The display device of the present disclosure includes a display panel; a corrugate panel located in a rearward direction of the display panel, the corrugate panel including a front skin facing the display panel, a rear skin facing the front skin in a rearward direction of the front skin, and a wave-shaped core located between the front skin and the rear skin; a module cover coupled to the corrugate panel in a rearward direction of the corrugate panel; and a back cover coupled to the module cover in a rearward direction of the module cover.

Disclosed is a display device. The display device of the present disclosure includes a display panel; a corrugate panel located in a rearward direction of the display panel, the corrugate panel including a front skin facing the display panel, a rear skin facing the front skin in a rearward direction of the front skin, and a wave-shaped core located between the front skin and the rear skin; a module cover coupled to the corrugate panel in a rearward direction of the corrugate panel; and a back cover coupled to the module cover in a rearward direction of the module cover.

Techniques for overlay surfaces for compute devices are disclosed. In one embodiment, an overlay surface on a base portion of a compute device can be moved from a folded or closed position (in which it does not cover the keyboard) to an unfolded or open position (in which it covers part of the keyboard). The base portion includes a touch sensor that allows the overlay surface to be used as a touch surface. In another embodiment, an overlay surface of a compute device is movable from one position adjacent a display of the compute device to another position adjacent a base of the compute device. The overlay surface is electrically switchable from a transparent state to an opaque state, allowing the display to be seen through it in one position and allowing it to be used as an opaque drawing surface in another position.

Techniques for overlay surfaces for compute devices are disclosed. In one embodiment, an overlay surface on a base portion of a compute device can be moved from a folded or closed position (in which it does not cover the keyboard) to an unfolded or open position (in which it covers part of the keyboard). The base portion includes a touch sensor that allows the overlay surface to be used as a touch surface. In another embodiment, an overlay surface of a compute device is movable from one position adjacent a display of the compute device to another position adjacent a base of the compute device. The overlay surface is electrically switchable from a transparent state to an opaque state, allowing the display to be seen through it in one position and allowing it to be used as an opaque drawing surface in another position.

An ultraviolet light-resistant article that includes: a substrate having a glass or glass-ceramic composition and first and second primary surfaces; an ultraviolet light-absorbing element having a an absorptivity greater than 50% at wavelengths from about 100 nm to about 380 nm and a thickness between about 10 nm and about 100 nm; and a dielectric stack formed with a plasma-enhanced process. Further, the light-absorbing element is between the substrate and the dielectric stack. Alternatively, the light-absorbing element can include one or more ultraviolet light-resistant layers disposed within the dielectric stack over the first primary surface.

An ultraviolet light-resistant article that includes: a substrate having a glass or glass-ceramic composition and first and second primary surfaces; an ultraviolet light-absorbing element having a an absorptivity greater than 50% at wavelengths from about 100 nm to about 380 nm and a thickness between about 10 nm and about 100 nm; and a dielectric stack formed with a plasma-enhanced process. Further, the light-absorbing element is between the substrate and the dielectric stack. Alternatively, the light-absorbing element can include one or more ultraviolet light-resistant layers disposed within the dielectric stack over the first primary surface.

Techniques for overlay components for compute devices are disclosed. In one embodiment, an overlay component on a base portion of a compute device can be moved from a folded or closed position (in which it does not cover the keyboard) to an unfolded or open position (in which it covers part of the keyboard). The base portion includes a touch sensor that allows the overlay component to be used as a touch surface. In another embodiment, an overlay component of a compute device is movable from one position adjacent a display of the compute device to another position adjacent a base of the compute device. The overlay component is electrically switchable from a transparent state to an opaque state, allowing the display to be seen through it in one position and allowing it to be used as an opaque drawing surface in another position.

Techniques for overlay components for compute devices are disclosed. In one embodiment, an overlay component on a base portion of a compute device can be moved from a folded or closed position (in which it does not cover the keyboard) to an unfolded or open position (in which it covers part of the keyboard). The base portion includes a touch sensor that allows the overlay component to be used as a touch surface. In another embodiment, an overlay component of a compute device is movable from one position adjacent a display of the compute device to another position adjacent a base of the compute device. The overlay component is electrically switchable from a transparent state to an opaque state, allowing the display to be seen through it in one position and allowing it to be used as an opaque drawing surface in another position.

Provided is an electrical junction box including a substrate on which fixed fuses and replaceable fuses are mounted. The substrate includes a first part to which the fixed fuses are soldered, and a second part that excludes the first part. The first part and the second part are separable from each other.

A display device, and a method and apparatus for manufacturing the display device, are provided. The display device includes a cover window including a curved portion, and a display panel smaller in at least one of length or width than the cover window and laminated on a flat portion of the cover window.