A handheld computing device can include a substantially rectangular first screen having a front surface, a rear surface, and a beveled edge extending between the front and rear surfaces of the first screen and a substantially rectangular second screen rotatably connected to the first screen so that the device is foldable between an open position and a closed position, the second screen having a front surface, a rear surface, and a beveled edge extending between the front and rear surfaces of the second screen. When the device is in the closed position, the first and second screens are positioned back-to-back and the beveled edges of the first and second screens angle inwardly toward the other respective screen to provide an angled surface configured to facilitate opening the device.

Methods and devices for selectively presenting a user interface during an image capture. More particularly, the method includes a change in the display mode of a multiple screen device for a first screen and a second screen when capturing the image. The change in the display mode may be made in response to one or more actions conducted by a user. The image capture function includes different modes that display different information on the first and/or second screens.

A computer system including a computer display; a computer processor, where the computer processor is running at least one computer operating system, where the at least one computer operating system communicably interfaces with a device operating system, where the device operating system resides on a device and the device includes a device processor and two or more device displays; and where the computer display mimics the two or more device displays.

The present disclosure discloses a backlight module and the manufacturing method thereof. The backlight module comprises a substrate, a plastic frame, a light guide plate, and a film set. The plastic frame is formed on the substrate through printing, which forms a housing space together with the substrate. The light guide plate and the film set are sequentially stacked in the housing space. The backlight module according to the present disclosure will not affect the display of the liquid crystal display panel during thermal expansion.

A handheld communication device includes first and second screens, a hinge to rotate the first and second screens between open and closed positions, and a position sensor to determine the relative position of the first and second screens. The position sensor can be a Hall-Effect sensor.

The interior material includes a base material having a plate shape and a skin material covering a front surface of the base material, where the skin material has a woven fabric in which optical fibers are woven as constituent yarns. A bundle structure that collects a plurality of optical fibers exposed from the end portion of the skin material so as to lie along a back surface of the base material is provided at an end portion of the back surface of the base material.

Generally, disclosed herein are various embodiments of bonding agents for use in adhering optical fibers to ferrules within optical connectors, and the methods for use thereof. The various embodiments of bonding agents described herein may provide desirable properties, such as, but not limited to, high adhesion strength and/or improved performance following environmental aging. Various embodiments of the bonding agents disclosed herein may also have other desirable properties for the process of securing an optical fiber within a ferrule, such as, but not limited to, shortened process cycle time. Embodiments herein address these needs by monitoring the change in refractive index of a photocurable bonding agent at the interface between the photocurable bonding agent and a substrate or optical fiber, which is referred to as back reflectance. In particular, the methods described herein utilize back reflectance techniques to cure the photocurable material or bonding agent.

Methods and devices for selectively presenting a user interface during an image capture. More particularly, the method includes a change in the display mode of a multiple screen device for a first screen and a second screen when capturing the image. The change in the display mode may be made in response to one or more actions conducted by a user. The image capture function includes different modes that display different information on the first and/or second screens.

A computer system including a computer display; a computer processor, where the computer processor is running at least one computer operating system, where the at least one computer operating system communicably interfaces with a device operating system, where the device operating system resides on a device and the device includes a device processor and two or more device displays; and where the computer display mimics the two or more device displays.

A method of securing an optical fiber to a ferrule includes disposing an adhesive composition in a fiber-receiving passage of the ferrule to form a ferrule adhesion system. The adhesive composition in the ferrule adhesion system comprises a polymeric material in a solid form. The method also involves assembling an optical connector with the ferrule adhesion system, heating the ferrule in the optical connector to melt the adhesive composition, and inserting the optical fiber into the fiber-receiving passage of the ferrule and into contact with the adhesive composition that has been melted. The adhesive composition bonds the optical fiber to an inner surface of the ferrule upon cooling and solidifying.