Abstract: A touch display panel capable of operating in a display mode and a touch mode. In the touch mode, a data line transmits a data voltage signal to a pixel electrode of the touch display panel, and a corresponding common electrode is at a constant voltage level. In the touch mode, the data line transmits a touch driving signal to the pixel electrode and then receives a touch sensing signal from the pixel electrode, and the corresponding common electrode is floating.

Abstract: A light-emitting diode is provided. The light-emitting diode includes a first semiconductor structure having an upper surface and a lower surface; a second semiconductor layer disposed adjacent to the upper surface; a third semiconductor layer disposed adjacent to the lower surface; two light-emitting layers disposed between the upper surface and the second semiconductor layer and disposed between the lower surface and the third semiconductor layer, respectively; a first electrode disposed over the second semiconductor layer; and a second electrode disposed over the third semiconductor layer.

Abstract: A display device is provided. The display device includes a first substrate; a first transistor and a second transistor disposed over the first substrate; a common electrode disposed over the first substrate; and a light-emitting diode chip (LED chip) disposed over the first substrate and disposed corresponding to the first transistor and the second transistor. The light-emitting diode chip includes a first light-emitting unit and a second light-emitting unit, wherein the first light-emitting unit is electrically connected to the first transistor and the common electrode, and the second light-emitting unit is electrically connected to the second transistor and the common electrode.

Abstract: A light-emitting diode is provided. The light-emitting diode includes a first semiconductor structure having an upper surface and a lower surface; a second semiconductor layer disposed adjacent to the upper surface; a third semiconductor layer disposed adjacent to the lower surface; two light-emitting layers disposed between the upper surface and the second semiconductor layer and disposed between the lower surface and the third semiconductor layer, respectively; a first electrode disposed over the second semiconductor layer; and a second electrode disposed over the third semiconductor layer.

Abstract: A display device is provided. The display device includes a first substrate; a first transistor and a second transistor disposed over the first substrate; a common electrode disposed over the first substrate; and a light-emitting diode chip (LED chip) disposed over the first substrate and disposed corresponding to the first transistor and the second transistor. The light-emitting diode chip includes a first light-emitting unit and a second light-emitting unit, wherein the first light-emitting unit is electrically connected to the first transistor and the common electrode, and the second light-emitting unit is electrically connected to the second transistor and the common electrode.

Abstract: A touch display device is disclosed, which comprises: a substrate; a thin film transistor unit disposed on the substrate; a first insulating layer disposed on the thin film transistor unit; a touch signal line layer disposed on the first insulating layer; a second insulating layer disposed on the touch signal line layer; a first transparent conducting layer disposed on the second insulating layer; a third insulating layer disposed on the first transparent conducting layer; and a second transparent conducting layer disposed on the third insulating layer.

Abstract: A touch display panel capable of operating in a display mode and a touch mode. In the touch mode, a data line transmits a data voltage signal to a pixel electrode of the touch display panel, and a corresponding common electrode is at a constant voltage level. In the touch mode, the data line transmits a touch driving signal to the pixel electrode and then receives a touch sensing signal from the pixel electrode, and the corresponding common electrode is floating.

Abstract: A touch display device is provided. The touch display device includes a first substrate; a transistor disposed over the first substrate; a first insulating layer disposed over the transistor; a first electrode disposed over the first insulating layer; a second insulating layer disposed over the first electrode; a conductive layer disposed over the second insulating layer, wherein the conductive layer includes a touch signal line; a third insulating layer disposed over the conductive layer; and a second electrode disposed over the third insulating layer, wherein one of the first electrode and the second electrode is electrically connected to the touch signal line, wherein another one of the first electrode and the second electrode is electrically connected to the transistor and at least partially overlaps the conductive layer.

Abstract: A touch display panel includes a substrate, a first metal layer, a second metal layer, common electrode pads, and a driving IC. The substrate includes a display area and a non-display area. The first metal layer disposed on the substrate includes gate lines and first metal wires, wherein the gate lines extend along a first direction. The second metal layer disposed on the substrate includes data lines and second metal wires, wherein the data lines extend along a second direction. The common electrode pads are disposed on the display area along the first direction and the second direction. The first metal wires and/or second metal wires are connected the common electrode pads and the driving IC. The first metal wires and/or second metal wires extend to the non-display area and extend to the display area along the first direction.

Abstract: A touch display panel includes: a common electrode; a first switching element connected between a voltage line and the common electrode; a data line transmitting a data signal during a display period and a touch sensing signal during a touch period; a pixel electrode; a second switching element connected between the data line and the pixel electrode; and a third switching element connected between the data line and the common electrode. During the display period, the first switching element and the second switching element are turned on and the third switching element is turned off. During the touch period, the first switching element and the second switching element are turned off and the third switching element is turned on.

Abstract: A touch display panel includes common electrodes arranged along a first direction and a second direction, At least one common electrode having a first side and a second side parallel to the second direction, and metal wires extending parallel along the second direction. At least one common electrode is connected with one of the metal wires via at least a contact hole. The common electrodes include a first common electrode and a second common electrode that are adjacent in the first direction. The second side of the first common electrode is adjacent to the first side of the second electrode. The distance between the contact hole of the first common electrode and the second side of the first common electrode is equal to the distance between the contact hole of the second common electrode and the first side of the second common electrode.

Abstract: A touch display device comprising a touch display panel, a first de-multiplexer and a driving integrated circuit (IC) is provided. The touch display panel includes a plurality of first display data transmitting wires and a touch data transmitting wire. The first de-multiplexer includes a plurality of first output terminals and a first input terminal. The driving IC includes a multiplexer including a second output terminal. The first output terminals of the first de-multiplexer are electrically connected to the first display data transmitting wires and the touch data transmitting wire, respectively. The second output terminal of the multiplexer is electrically connected to the first input terminal of the first de-multiplexer through a first lead.

Abstract: A touch display device including a first substrate, a second substrate, and a display medium is provided. The first substrate includes a plurality of pixel units, a first touch electrode, and a plurality of first connection lines. The pixel units are arranged in an array. The first touch electrode corresponds to at least one pixel unit. The first connection lines are extended along a first direction and coupled between the first touch electrode and a touch integrated circuit. The display medium is disposed between the first and second substrates.

Abstract: An exemplary TFT substrate includes a substrate, signal lines, a common electrode, and a pixel electrode. The signal lines are arranged on the substrate along two perpendicular directions. One of each two signal lines perpendicular to each other includes a plurality of segments. Every two adjacent segments are arranged on two opposite sides of the other signal line of the two signal lines. The TFT substrate further includes a connection line. The connection line interconnects the two adjacent segments. The common electrode is arranged in a same layer as the connection line, and overlaps the segmented signal line along a direction perpendicular to the substrate.

Abstract: The present invention relates to a TFT substrate and a manufacture method thereof. The TFT substrate includes a substrate, a plurality of signal lines, a common electrode, and a pixel electrode. The signal lines are arranged on the substrate along two perpendicular directions. One of two signal lines perpendicular to each other includes a plurality of segments. Every two segments closed to each other are arranged on two opposite sides of the other signal line of the two signal lines. The TFT substrate further includes a connecting signal line. The connecting signal line is connected to the two segments of the signal line composing a plurality of segments. The common electrode is arranged in a same layer as the connecting signal line and overlaps the signal line transferring image signals along a direction perpendicular to the substrate.

Abstract: A heat-dissipating fan module of an electronic apparatus is disclosed. The heat-dissipating fan module includes a casing having an opening, the opening having a guiding device along an edge thereof, and a heat-dissipating fan fixed to one side of the casing and correspondingly disposed on the opening.

Abstract: A heat-dissipating fan module of an electronic apparatus is disclosed. The heat-dissipating fan module includes a casing having an opening, the opening having a guiding device along an edge thereof, and a heat-dissipating fan fixed to one side of the casing and correspondingly disposed on the opening.