Abstract:
A touch device including a substrate and a touch-sensing electrode layer thereon is provided. The touch-sensing electrode layer includes a sensing electrode in a touch-sensing region, a first conducting line in a non-touch-sensing region and a second conducting line in the non-touch-sensing region, wherein the second conducting line is disposed between the touch-sensing region and the first conducting line. The first conducting line and the second conducting line are respectively electrically connected to the sensing electrodes. The non-touch-sensing region is located outside of the touch-sensing region, and the non-touch-sensing region includes a third region connecting a first region and a second region. The first conducting line has a first width in the third region, the second conducting line has a second width in the third region, and the first width is greater than the second width.
Abstract:
A touch sensor device is provided. The touch sensor device includes a substrate having a sensing region and a non-sensing region. There is a plurality of sensor electrodes disposed on the surface of the substrate in the sensing region. At least one of the sensor electrodes has a sidewall with a concave-convex contour. The concave-convex contour includes a first convex portion, a second convex portion, and a concave portion between the first convex portion and the second convex portion. The first convex portion is closer to the surface of the substrate than the second convex portion, and the first convex portion is more outward than the second convex portion. A method for forming the touch sensor device is also provided.
Abstract:
A touch-sensing device is provided, which includes a substrate with a central region and a peripheral region, and a first light-shielding layer disposed on the peripheral region, wherein the first light-shielding layer has a first edge adjacent to the central region. The device further includes a touch-sensing layer disposed on the central region, and a part of the touch-sensing layer extends onto the peripheral region to cover a part of the first light-shielding layer. The device also includes a conductive line layer disposed on the first light-shielding layer, and a second light-shielding layer covering at least a part of the first light-shielding layer and at least a part of the conductive line layer. The second light-shielding layer has a second edge adjacent to the central region, and the second edge has a profile roughness that is greater than that of the first edge.
Abstract:
A touch device is provided, including a first substrate and a circuit board. The first substrate includes a touch sensing structure and a plurality of first electrodes. The touch sensing structure is disposed on the first substrate. The first electrodes are arranged along a first direction. The first electrodes are disposed on the first substrate and electrically connected to the touch sensing structure, a first gap is formed between two adjacent first electrodes, and a minimum distance between the two adjacent first electrodes is a gap distance. The circuit board is partially overlapping the substrate in a vertical projection direction, the circuit board including a plurality of second electrodes corresponding to the first electrodes. One of the two adjacent first electrodes has a first electrode side edge facing the first gap. One of the second electrodes has a second electrode side edge located in the first gap.
Abstract:
A display device having a first substrate with a first surface and a second surface opposite to the first surface; and a first patterned transparent conductive layer disposed on the first surface of the first substrate and having a first thickness, wherein the first patterned transparent conductive layer has at least a first zone and a second zone, the first zone locates between the second zone and the first substrate, and the first zone is a part of the first patterned transparent conductive layer neighboring to the first substrate and having a two-third (⅔) thickness of the first patterned transparent conductive layer, wherein a material of the first patterned transparent conductive layer incldues In, and an atomic amount of In in the second zone is larger than that in the first zone.
Abstract:
An organic light emitting diode display and a manufacturing method thereof are provided. The organic light emitting diode display includes a first substrate, a second substrate, a plurality of organic light emitting diodes, and a frit layer. The organic light emitting diodes are disposed on the first substrate, and the frit layer adheres the first substrate and the second substrate to each other. The frit layer includes a first porous region having pores, a second porous region having pores, and a third porous region having pores. The number of the pores of the first porous region with a diameter of larger than or equal to 4 μm and smaller than or equal to 15 μm is greater than the number of the pores of the second porous region with the above-mentioned diameter range.
Abstract:
A substrate assembly is provided, including a first substrate, an active element layer, a plurality of first electrodes, a circuit substrate, and a plurality of second electrodes. The active element layer is disposed on the first substrate. The plurality of first electrodes are disposed on the first substrate and arranged along a first direction. The circuit substrate is partially overlapping the first substrate in a vertical projection direction. The plurality of second electrodes are disposed on the circuit substrate. A distance between the edge of one of the plurality of second electrodes and the edge of one of the plurality of first electrodes is greater than zero in the first direction, and a width of the one of the plurality of first electrodes is different from a width of the one of the plurality of second electrodes.
Abstract:
A touch device is provided, including a first substrate, a touch sensing structure, a plurality of first electrodes, a first register mark and a circuit board. The touch sensing structure is disposed on the first substrate. The first electrodes are disposed on the first substrate and arranged along a first direction, wherein a portion of the first electrodes are electrically connected to the touch sensing structure. The first register mark is disposed on the first substrate. The circuit board is partially overlapping the first substrate in a vertical projection direction and electrically connected to the portion of the first electrodes.
Abstract:
A display device is provided. The display device includes a mother substrate for light-emitting units. The mother substrate for light-emitting units has a first upper surface and a first lower surface. The display device also includes at least one light-emitting unit disposed on the first lower surface, and a first substrate having a second upper surface, a second lower surface, and a plurality of active devices disposed between the second upper surface and the second lower surface. The light-emitting unit is electrically connected with at least one of the active devices of the first substrate.
Abstract:
A display device is provided, including a first substrate, a plurality of first contact pads, a second substrate, a plurality of second contact pads, and a plurality of first traces. The first substrate includes a display area and a non-display area. The first contact pads disposed on the non-display area. The second substrate includes a first side and a second side, wherein the first side is opposite to the second side. The second contact pads are disposed on the first side, wherein the second contact pads are electrically connected to the first contact pads. The first traces are disposed on the second side, wherein the first traces are electrically connected to the second contact pads through a plurality of through holes respectively, and one of the through holes overlaps corresponding one of the second contact pads in a normal direction of the second substrate.