Abstract:
A stretchable electronics generating apparatus and layout method thereof are provided. The layout method includes: establishing a layout database, wherein the layout database recodes a plurality of layout selection information respectively corresponding to a plurality of strain/stress information; detecting a layout target area to obtain a strain/stress distribution status of the layout target area; generating a wire routing information according to the strain/stress distribution status based on the layout database; and transporting the wire routing information to a manufacture device of the conductive wires for disposing a plurality of physical conductive wires on the layout target area by the manufacture device.
Abstract:
A stretchable electronics generating apparatus and layout method thereof are provided. The layout method includes: establishing a layout database, wherein the layout database recodes a plurality of layout selection information respectively corresponding to a plurality of strain/stress information; detecting a layout target area to obtain a strain/stress distribution status of the layout target area; generating a wire routing information according to the strain/stress distribution status based on the layout database; and transporting the wire routing information to a manufacture device of the conductive wires for disposing a plurality of physical conductive wires on the layout target area by the manufacture device.
Abstract:
A cutting method of a multilayer structure containing a brittle layer is provided. The cutting method includes: cutting the multilayer structure to form a cut edge; removing a material of the multilayer structure other than the brittle layer along the cut edge, wherein the material of the multilayer structure other than the brittle layer has a width ranging from 1 micron to 2 millimeter; and modifying an edge of the brittle layer remaining after removing the material of the multilayer structure other than the brittle layer by a laser beam.
Abstract:
A compression state measuring method is adapted to measure a compressed state of a compressed object compressed by a compressing object. First, at least one image of a first surface region of the compressed object not covered by the compressing object is captured. A first strain distribution value of the first surface region is obtained according to the at least one image. At least one strain distribution function is obtained according to the first strain distribution value. A second strain distribution value of a second surface region of the compressed object covered by the compressing object is obtained according to the at least one strain distribution function.
Abstract:
A light emitting device including a substrate, a first electrode structure, an organic light emitting structure and a second electrode structure is provided. The first electrode structure includes a first transparent conductive layer, a patterned conductive layer and a second transparent conductive layer disposed on the substrate in sequence, so that the patterned conductive layer is interposed between the second transparent conductive layer and the first transparent conductive layer in a thickness direction of the substrate. The organic light emitting structure and the second electrode structure are disposed on the substrate, and the organic light emitting structure is located between the first electrode structure and the second electrode structure in the thickness direction of the substrate. An electrode structure and a manufacturing method thereof are also provided.
Abstract:
A stereo display system including a plurality of projection apparatuses and a screen module is provided. The projection apparatuses project a plurality of image beams. The screen module is disposed in front of the projection apparatuses, wherein the image beams are transmitted toward the screen module. The screen module includes a light diffusion layer and a beam splitting layer. The light diffusion layer has at least one diffusion direction, and the light diffusion layer diffuses the image beams with a diffusion angle. The light diffusion layer is disposed between the beam splitting layer and the projection apparatuses, wherein each of the image beams is divided into a plurality of sub image beams by the beam splitting layer. The sub image beams of each image beam transmit with different angles, such that the image beams form a plurality of stereo image viewing zones after passing through the screen module.
Abstract:
A cutting method of a multilayer structure containing a brittle layer is provided. The cutting method includes: cutting the multilayer structure to form a cut edge; removing a material of the multilayer structure other than the brittle layer along the cut edge, wherein the material of the multilayer structure other than the brittle layer has a width ranging from 1 micron to 2 millimeter; and modifying an edge of the brittle layer remaining after removing the material of the multilayer structure other than the brittle layer by a laser beam.
Abstract:
A light emitting device including a substrate, a first electrode structure, an organic light emitting structure and a second electrode structure is provided. The first electrode structure includes a first transparent conductive layer, a patterned conductive layer and a second transparent conductive layer disposed on the substrate in sequence, so that the patterned conductive layer is interposed between the second transparent conductive layer and the first transparent conductive layer in a thickness direction of the substrate. The organic light emitting structure and the second electrode structure are disposed on the substrate, and the organic light emitting structure is located between the first electrode structure and the second electrode structure in the thickness direction of the substrate. An electrode structure and a manufacturing method thereof are also provided.
Abstract:
A stereo display system including a plurality of projection apparatuses and a screen module is provided. The projection apparatuses project a plurality of image beams. The screen module is disposed in front of the projection apparatuses, wherein the image beams are transmitted toward the screen module. The screen module includes a light diffusion layer and a beam splitting layer. The light diffusion layer has at least one diffusion direction, and the light diffusion layer diffuses the image beams with a diffusion angle. The light diffusion layer is disposed between the beam splitting layer and the projection apparatuses, wherein each of the image beams is divided into a plurality of sub image beams by the beam splitting layer. The sub image beams of each image beam transmit with different angles, such that the image beams form a plurality of stereo image viewing zones after passing through the screen module.