Patent application number | Description | Published |
20100177018 | Electric Device with Multi-Screen - An electric device with multi-screen includes a plurality of display modules and a plurality of flexible printed circuit boards. The display modules are electrically connected to each other by the flexible circuit printed boards. The display modules may display different images simultaneously for providing user different purposes. Furthermore, the electric device with multi-screen not only uses flexible circuit printed boards for connecting the display modules, the flexible display panel may be used in the display modules, so that the portable electric device with multi-screen may be flexible and the applications thereof may be increased. | 07-15-2010 |
20100178430 | Method of Fabricating Electro-Phoretic Display - A method of fabricating electro-phoretic display is performed by the steps of: providing a first electrode substrate and a second electrode substrate disposed above the first electrode substrate in an electro-phoretic liquid, wherein the first electrode substrate comprises a substrate and a plurality of pixel electrodes disposed on the substrate; putting at least a charged micro-capsule between the first electrode substrate and the second electrode substrate in the electro-phoretic liquid; making the electricity of a portion of the pixel electrodes is opposite to the electricity of the charged micro-capsules for attracting the charged micro-capsules to above the portion of the pixel electrodes. Since the charged microcapsules are disposed on the pixel electrodes immediately and the micro-capsules corresponded to the same pixel electrode have a plurality of colorful charged particles with the same color, the electric-phoretic display fabricated by this method may not only have high reflectivity and transmittance, but also display a picture with single original color. | 07-15-2010 |
20100200278 | Flexible Pixel Array Substrate and Flexible Display - A flexible pixel array substrate includes a flexible base, at least one first driving transistor, at least one second driving transistor and at least one pixel electrode. The first driving transistor is disposed on the flexible base and has a first current channel. The second driving transistor is disposed on the flexible base and has a second current channel. The first current channel is not parallel to the second current channel. The pixel electrode is disposed on the flexible base. The pixel electrode is electrically connected to first driving transistor. The pixel electrode is electrically connected to the second driving transistor. In addition, a flexible display applying the flexible pixel array substrate is also provided. Besides, another flexible pixel array substrate and another flexible display applying the same are also provided. | 08-12-2010 |
20100225875 | Flexible display Device - A flexible display device includes an array substrate, a display medium layer, a transparent substrate and a first sealant. The array substrate has a display region and a sealant spread region surrounding the display region. The display medium layer is disposed on the array substrate and located in the display region. The transparent substrate is disposed above the display medium layer. The first sealant is formed between the array substrate and the transparent substrate and located in the sealant spread region of the array substrate. The first sealant has a first sidewall and a second sidewall. One of the first sidewall and the second sidewall has a plurality of fillisters arranged at intervals. Since the first sealant of the flexible display device has the fillisters arranged at intervals, the stress imposed on the first sealant may be decreased. Therefore, the life of the first sealant may be prolonged and the sealing performance of the flexible display device can be improved. | 09-09-2010 |
20100238612 | Flexible Display Device - A flexible display device includes a display panel and a plurality of curving-restricting structures. The display panel has a display surface and a bottom surface opposite thereto. The display surface has a visible region and an outer region surrounding the visible region. The curving-restricting structures may be disposed on at least one of the outer region of the display surface and the bottom surface of the display panel. Each curving-restricting structure has a top surface and at least a slanted side wall. The top surfaces of adjacent curving-restricting structures are spaced with each other, and the slanted side walls of adjacent curving-restricting structures face each other. When the flexible display device are curved to a predetermined extent, adjacent curving-restricting structures may resist against with each other to prevent the display panel from being unduly curved to be damaged, and thus a use reliability of the flexible display device is improved. | 09-23-2010 |
20100284052 | Color Filter and Color Reflective Display Device with the Same - A color filter includes a substrate, a plurality of pixel units and a transparent electrode layer. The substrate has a plurality of pixel regions. Each pixel region has a plurality of first sub-pixel regions and a second sub-pixel region. Each pixel unit is disposed in one of the pixel regions corresponding thereto and includes a plurality of and a white filter film. Each color filter film is disposed in one of the first sub-pixel regions corresponding thereto and the white filter film is disposed in the second sub-pixel region. Since the area of the white filter film is larger than the area of each color filter film, the color filter has high light-transmittance. The transparent electrode layer is disposed on the pixel units. Furthermore, a color reflective display device with the color filter is disclosed. | 11-11-2010 |
20100323576 | Fabricating Method of Flexible Display Device - In a fabricating method of flexible display device, firstly, a sacrificial layer is formed on a first rigid substrate. Secondly, a first flexible substrate is formed on the sacrificial layer. The bonding force of the sacrificial layer absorbing a breaking-bond light may be broken and the first flexible substrate is transparent for the breaking-bond light. Moreover, the transmission rate of visible light of the first flexible substrate is larger than that of the sacrificial layer. Then, the sacrificial layer is illuminated by the breaking-bond light for breaking the bonding force of the sacrificial layer to separate the first rigid substrate from the first flexible substrate. Since the first rigid substrate has a high transmission rate of visible light, may be separated from the first flexible substrate by the first breaking-bond light with low energy, the cost of fabricating the flexible display device may display the images with real color. Therefore, the chromatic performance of the flexible display device may be enhanced. | 12-23-2010 |
20110007379 | MEMS Array Substrate and Display Device Using the same - A micro electromechanical system (MEMS) array substrate includes a substrate, a plurality of first signal lines, a plurality of second signal lines, a plurality of MEMS switches and a plurality of pixel electrodes. The first signal lines are disposed on the substrate in parallel with one another as well as the second signal lines. The second signal lines intersect with the first signal lines, such that a plurality of pixel regions is defined on the substrate. Each MEMS switch is located at corresponding one of the intersections between the first signal lines and the second signal lines. Each pixel electrode is configured in corresponding one of the pixel regions and electrically connected with the corresponding MEMS switch Compare to thin film transistor, since the operation performance of the MEMS switches would not affected by carrier mobility and on-off current ratio, display performance of the display device can be easily improved. In addition, a display device using the MEMS array substrate is also provided. | 01-13-2011 |
20110008921 | Method for Fabricating Flexible Display Device - A method for fabricating flexible display device includes the following steps. Firstly, a rigid substrate is provided. Secondly, a sacrificing layer is formed on the rigid substrate. Thirdly, an element layer is formed on the sacrificing layer. Fourthly, the sacrificing layer is etched by a gas and then gasified, so that the element layer is separated from the rigid substrate. Then, the element layer is adhered to a flexible substrate. Because products generated by the sacrificing layer reacting with the gas are gases, the products can be removed by air exhaust for simplifying process. Thus, the cost of the process of fabricating flexible display device can be decreased. | 01-13-2011 |
20110062863 | Front Light Plate - A front light plate includes a transparent substrate, a first electrode layer disposed on the transparent substrate and including first electrodes arranged in parallel, a second electrode layer disposed opposite to the first electrode layer and including second electrodes arranged in parallel, and light emitting components. The light emitting components arranged in array are disposed between the first electrode layer and the second electrode layer and at overlapping positions of the first electrodes and the second electrodes. Each of the light emitting components has a top surface connected to the corresponding first electrode, a bottom surface connected to the corresponding second electrode and a side surface between the top surface and the bottom surface. The side surface is a light emitting surface. The front light plate has high brightness uniformity and high light utility efficiency. | 03-17-2011 |
20110104973 | Manufacturing Method for Flexible Display Apparatus - A manufacturing method for flexible display apparatus includes following steps. A carrier frame is formed on a rigid substrate. A flexible substrate is formed on the carrier substrate, wherein a border of the flexible substrate is supported by the carrier frame. A display unit is formed on the flexible substrate. At least a portion of the flexible substrate is separated from the carrier frame. In the manufacturing method, the flexible substrate and the carrier frame can be easily separated. | 05-05-2011 |
20110128608 | ELECTRO-PHORETIC DISPLAY DEVICE AND FABRICATING METHOD THEREOF - An electro-phoretic display device includes a first substrate, an active elements array, a driving circuit, a conductive flexible board, an electro-phoretic layer, a second substrate and a sealant layer. The first substrate has a first surface defining a display area and a circuit area, and a second surface. The active elements array is disposed within the display area and the driving circuit is disposed within the circuit area and electrically connected to the active elements array. The conductive flexible board is partially disposed at the first substrate and electrically connected to the driving circuit. The electro-phoretic layer and the second substrate are sequentially disposed on the active elements array and the driving circuit. The sealant layer is interposed between the second substrate and the conductive flexible board to seal the electro-phoretic layer between the first substrate and the second substrate. A fabricating method of electro-phoretic display device is also disclosed. | 06-02-2011 |
20110148277 | ELECTROPHORISES DISPLAY UNIT AND ITS PRODUCTION METHOD - An electrophorises display unit includes a substrate, a first electrode, a first insulation layer, a second electrode and a second insulation layer. The first electrode is disposed on the substrate. The first insulation layer is disposed on the first electrode. The second electrode is disposed on the first insulation layer. The second insulation layer is disposed on the second electrode. Wherein, the second insulation layer has an opening for appearing a part of the second electrode. | 06-23-2011 |
20110242014 | DISPLAY PANEL - A display panel is provided. The display panel comprises a first substrate, a second substrate, a display control circuit and a force sensing circuit. The display control circuit is disposed on the first substrate between the first substrate and the second substrate for controlling the display panel to display an image through the second substrate. The force sensing circuit is disposed side by side with the display control circuit on the first substrate between the first substrate and second substrate, wherein the force sensing circuit comprises a plurality of force sensing elements for sensing at least one external force and correspondingly generate a plurality of force signals respectively to transform at least one touch signal corresponding to the at least one external force. | 10-06-2011 |
20110248940 | TOUCH DISPLAY STRUCTURE AND TOUCH DISPLAY APPARATUS COMPRISING THE SAME - A touch display apparatus comprises a touch display structure and a touch controller electrically connected thereto. The touch display structure comprises a display layer, an electric circuit layer, and a second electrode. The electric circuit layer, disposed under the display layer, comprises a substrate, a driving electrode, and a first electrode. The driving electrode and the first electrode are disposed on an upper surface and a lower surface of the substrate, respectively, and are electrically connected to the touch controller, respectively. The second electrode is disposed under the first electrode and electrically connects to the touch controller. The first electrode and the second electrode generate a touch control signal in response to a press of a user or an electromagnetic signal. The touch controller receives and processes the touch control signal, and then, the touch controller transmits the touch control signal to the driving electrode to drive the display layer. | 10-13-2011 |
20110290414 | METHOD FOR MANUFACTURING COLOR ELECTROPHORETIC DISPLAY DEVICE - A method for manufacturing a color electrophoretic display device includes the following steps. First, a substrate having a displaying region and a circuit region around the displaying region is provided. Next, a driving array is formed in the displaying region. Subsequently, an electrophoretic display layer is formed on the driving array. Afterwards, a thermal transfer process is performed so that a color filter layer is formed on the electrophoretic display layer. The method can increase the production eligibility rate of the color electrophoretic display device, thereby improving the display quality of the color electrophoretic display device. | 12-01-2011 |
20110291921 | ELECTRONIC PAPER DISPLAY DEVICE - An electronic paper display device includes a first substrate, a plurality of display units and a plurality of light-emitting units. The first substrate includes first base and a plurality of electrodes disposed on the first base. The display units are disposed above the first substrate. The light-emitting units are respectively disposed between the display units and the first base. | 12-01-2011 |
20110297519 | MEMS SWITCH - A micro electro-mechanical system (MEMS) switch includes an active device, an immovable metal layer and a movable metal layer is provided. The immovable metal layer is disposed on the active device and the movable metal layer is disposed above the immovable metal layer. Accordingly, an insulating cavity is formed between the immovable metal layer and the movable metal layer. Further, the active device is capable of driving the movable metal layer. Compare to thin film transistor, since the operation performance of the MEMS switches would not affected by carrier mobility and on-off current ratio, display performance of the display device can be easily improved. | 12-08-2011 |
20120040753 | ELECTRONIC GAME APPARATUS - An electronic game apparatus comprises a plurality of electronic paper cards and a control device. Each of the electronic paper cards is configured for displaying an image. The control device comprises a control interface configured for a user to select a desired game mode. The control device is capable of changing the image displayed by at least one electronic paper card according to the selected game mode. | 02-16-2012 |
20120081849 | FLEXIBLE DISPLAY DEVICE - A flexible display device includes a display panel and a plurality of curving-restricting structures. The display panel has a display surface and a bottom surface opposite thereto. The display surface has a visible region and an outer region surrounding the visible region. The curving-restricting structures is disposed on at least one of the outer region of the display surface and the bottom surface of the display panel. Each curving-restricting structure has a top surface and at least a slanted side wall. The top surfaces of adjacent curving-restricting structures are spaced with each other, and the slanted side walls of adjacent curving-restricting structures face each other. When the flexible display device are curved to a predetermined extent, adjacent curving-restricting structures may resist against with each other to prevent the display panel from being unduly curved to be damaged, and thus a use reliability of the flexible display device is improved. | 04-05-2012 |
20130057464 | ELECTRO-PHORETIC DISPLAY DEVICE AND FABRICATING METHOD THEREOF - An electro-phoretic display device includes a first substrate, an active elements array, a driving circuit, a conductive flexible board, an electro-phoretic layer and a second substrate. The first substrate has a first surface defining a display area and a circuit area, and a second surface. The active elements array is disposed within the display area and the driving circuit is disposed within the circuit area and electrically connected to the active elements array. The conductive flexible board is partially disposed at the first substrate and electrically connected to the driving circuit. The electro-phoretic layer and the second substrate are sequentially disposed on the active elements array and the driving circuit. A fabricating method of electro-phoretic display device is also disclosed. | 03-07-2013 |