Abstract: A reflective display apparatus includes a first substrate, a second substrate, a display layer and a light shielding layer. The first substrate has a driving circuit layer and the second substrate has a transparent electrode layer opposite to the driving circuit layer. The display layer is disposed between the driving circuit layer and the transparent electrode layer. The light shielding layer has a first adhering surface and a second adhering surface, wherein the first adhering surface is adhered to the display layer and the second adhering surface is adhered to the driving circuit layer. The light shielding layer can prevent the driving circuit layer from being illuminated by external light rays, and thus display quality of the reflective display apparatus is improved.

Abstract: The present invention relates to a touch display apparatus, which is including a display unit and a touch unit installed under the display unit. The display unit includes a first substrate and a second substrate installed in parallel. The touch unit includes a third substrate installed under the second substrate in parallel, and a plurality of first electrodes and a plurality of second electrodes separately installed on the lower surface of the second substrate and on the upper surface of the third substrate and facing each other. When a user touches the display unit of the electronic reading apparatus, the display unit will have a local deformation accordingly, the first electrode and the second electrode touch each other, and thus a touch signal is generated. Therefore, a touch function can be achieved.

Abstract: Disclosed is a vehicle detection system including the processing device, the bi-stable display connected to the processing device and the detector connected to the processing device. The detector detects the status information of the vehicle to be processed by the processing device, and then the processed status information is displayed on the bi-stable display. The processed status information can be displayed for a long time without power consumption. In addition, the upkeep/repair records and the status information further can be stored in the memory device, and the user is reminded to proceed the upkeep/repair and the to replace the vehicle's components.

Abstract: The present invention discloses pixel structures and fabrication methods thereof. The pixel includes a thin film transistor forming at a thin film transistor region and a storage capacitor forming at a pixel electrode region. The method includes: forming a gate conduction layer on a substrate; forming a gate insulation layer on the gate conduction layer; forming a source conduction layer and a drain conduction layer on the gate insulation layer, in which the drain conduction layer has an extension section extending to the pixel electrode region; forming a channel layer on the source conduction layer and the drain conduction layer; and forming a protection layer on the channel layer. The extension section and an electrode layer serve as the upper and lower electrode of the storage capacitor, respectively. Wherein the gate conduction layer, the source conduction layer, the drain conduction layer, and the channel layer are made of metallic oxides.

Abstract: The configurations and controlling methods of a display device are provided in the present invention. The proposed display device having an environmental brightness, a display content and a display background with a display brightness includes a light sensor sensing the environmental brightness and adjusting the display brightness according to the environmental brightness such that a reader could read the display content easily.

Abstract: An electro-phoretic display and a brightness adjusting method thereof are provided. The method for adjusting a brightness includes steps of: providing a pixel having a first area displaying a white color and a plurality of first particles corresponding to the first area; obtaining an environmental brightness; and controlling only locations of the plurality of first particles in response to the environmental brightness so as to adjust the brightness.

Abstract: A touch structure and a touch display apparatus comprising the same are provided. The touch display apparatus further comprises a touch controller which is electrically connected to the touch structure. The touch structure comprises a display panel, a transparent conductive film and a conductor. The display panel has a light-tight region. A resistance coefficient of the conductor is smaller than a resistance coefficient of the transparent conductive film. The conductor is disposed between the light-tight region of the display panel and the transparent conductive film to form a signal conduction path. The transparent conductive film generates a touch signal when being touched. The touch signal is adapted to be conducted to the touch controller via the signal conduction path so that the touch controller may operate in response to the touch signal.

Abstract: This invention discloses a method to add and display an advertisement content in an electronic book. The method comprises the following steps. First, a content of a book and a content of an advertisement is provided. Next, the content of the book and the content of the advertisement are digitalized to form an electronic book. Then, an order to advertise the content of the advertisement is set. Finally, a displaying condition is set for displaying the content of the advertisement when the electronic book is read in an electronic paper display.

Abstract: A touch display apparatus comprising a controller and a touch display module, electrically connected to the controller, are provided. The touch display module comprises a display panel and a sensor assembly. The display panel includes a display surface and a connection surface opposite the display surface, and the sensor assembly is disposed on the connection surface and electrically connected to the controller. The sensor assembly comprises a first sensing layer and a second sensing layer, with a first sheet conducting layer and a second sheet conducting layer, respectively. When the display surface is touched, the first sheet conducting layer and the second sheet conducting layer are electrically connected to generate a touch signal. Thereby, the controller may detect a touch position according to the touch signal.

Abstract: An electronic device is provided. The electronic device including a body having a side on which an unstable display is disposed and an other side on which a bi-stable display is disposed.

Abstract: A touch structure and a touch display apparatus comprising the same are provided. The touch display apparatus has a touch controller electrically connected to the touch structure. The touch structure comprises a display panel with a display surface and a sense assembly. The sense assembly is disposed on a surface opposite to the display surface and electrically connected to the touch controller to generate a touch signal while the display surface of the display panel is touched so that the touch controller may act according to the touch signal.

Abstract: An electrophoresis display apparatus has a display circuit and a voltage source. The display circuit comprises a gate line, a common voltage line substantially orthogonal to the gate line, a data line and a display unit. The gate line provides a gate voltage, the common voltage line provides a common voltage, and the data line provides a data voltage. The display unit is coupled to the gate line, the common voltage line and the data line to receive the gate voltage, the common voltage and the data line and works according to the gate voltage, the common voltage and the data line.

Abstract: A wire stretching device for applying a drag force onto a wire wound around an object is provided. The wire stretching device comprises a primary platform, a first sub-platform, a second sub-platform and a driving device. The primary platform comprises a plate, a fixed stick and a track, wherein the fixed stick and the track are disposed on a surface of the plate, and the fixed stick has a first fixing device for fixing a first end of the wire. The object is fixed on a first stage of the first sub-platform, and a second fixing device is disposed on a second stage of the second sub-platform for fixing the second end of the wire. The second sub-platform is moved by the driving device for adjusting the tension of the wire. The first sub-platform is passively moved along the track corresponding to the tension of the wire.

Abstract: An E-ink display and method for repairing the same is provided. The method is for repairing a thin film transistor array substrate of the E-ink display. The thin film transistor array substrate having a plurality of pixel units is provided initially. Each of the pixel unit includes a thin film transistor and a pixel electrode. The thin film transistor has a gate electrode, a source electrode and a drain electrode. The gate electrode, the source electrode and the drain electrode are connected electrically to a scan line, a data line and the pixel electrode respectively. A portion of the pixel electrode is located above the data line. Next, a repairing portion is formed at the space between the data line and the pixel electrode. The repairing portion is utilized to electrically connect the pixel electrode and the data line.

Abstract: A touch-control structure for a flexible display device is provided. The touch-control structure comprises a flexible display panel, at least one menu display area, a touch film and at least one sensing element. The flexible display panel comprises a visible surface. The menu display area is located on at least one side of the visible surface. The touch film comprises a first flexible substrate and an operating contact surface. The visible surface and the operating contact surface are disposed on the two opposite ends of the touch structure respectively. The sensing element is disposed on at least one side of the first flexible substrate corresponding to the menu display area.

Abstract: An active device array substrate has a display area and a peripheral circuit area and further includes a plurality of pixel units, a plurality of signal lines, a plurality of testing pads and a first dielectric layer. The pixel units are arranged in the display area in an array. The signal lines and the testing pads are arranged in the peripheral circuit area. The first dielectric layer covers the testing pads. A testing method of the active device array substrate is that firstly removing a part of the first dielectric layer to expose a testing pad(s) desired to electrically contact with a testing tool. In other words, before the testing, the testing pads are electrically insulated from the exterior to prevent the pixel units from the electrostatic charges damage and thus the circuit stability of the active device array substrate can be improved.

Abstract: A sensing structure and a displayer comprising the same are provided. The displayer further comprises a substrate and a panel disposed opposite to the substrate. The sensing structure comprises a plurality of sensing elements, a conductive assembly, and a process module. Each of the sensing elements has a position data corresponding to the panel. Every several adjacent ones of the sensing elements form a plurality of sensing areas. The process module is electrically connected to the sensing elements via the conductive assembly. Each of the sensing elements generates a touch voltage in response to a touch on the sensing areas. The process module receives the touch voltages, and calculates a touch position of the one touch corresponding to the panel according to the position data and the touch voltages.

Abstract: An E-ink display and method for repairing the same is provided. The method is for repairing a thin film transistor array substrate of the E-ink display. The thin film transistor array substrate having a plurality of pixel units is provided initially. Each of the pixel unit includes a thin film transistor and a pixel electrode. The thin film transistor has a gate electrode, a source electrode and a drain electrode. The gate electrode, the source electrode and the drain electrode are connected electrically to a scan line, a data line and the pixel electrode respectively. A portion of the pixel electrode is located above the scan line. Next, a repairing portion is formed at the space between the scan line and the pixel electrode. The repairing portion is utilized to electrically connect the pixel electrode and the scan line.

Abstract: A pixel structure for a display device is provided. The pixel structure utilizes light entering from the ambient environment of the display as a light source. The pixel structure comprises a first substrate, a light obstructing layer, an active element and an adjustable light shielding layer. The light obstructing layer is disposed on the first substrate and has a transparent area and an opaque area. The active element is disposed on the opaque area of the light obstructing layer and has a first state and a second state. The adjustable light shielding layer is disposed on the light obstructing layer and the active element. When the active element is in the first state, the adjustable light shielding layer is adapted to cover the transparent area to shield the light from emitting out from the first substrate.

Abstract: A method for manufacturing an electrophoretic display includes the steps of: providing a substrate; forming a flexible plate on the substrate; forming an electrophoretic layer on the flexible plate; forming a transparent protection layer on the electrophoretic layer; forming an edge protection member between the flexible plate and the transparent protection member, the edge protection member surrounding the electrophoretic layer; and providing a laser beam to irradiate the flexible plate from a side of the substrate facing away from flexible plate, so as to release the substrate from the flexible plate.