• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a method of manufacturing a display device having two parts, an OLED display formed on a film on one side of a substrate, and a touch screen formed on a film on the other side of the substrate. And a high temperature sensitive component, the method of manufacturing the display device includes the steps of partially forming a touch screen, which is one of the components, on one side of the substrate, applying a protector on the partially designed component, and Forming an OLED display, which is another component of the display device on one side, removing the protector, and completing the formation of a touch screen, which is one component on one side of the substrate.
    公开号:KR20030068048A
    申请号:KR10-2003-0007646
    申请日:2003-02-07
    公开日:2003-08-19
    发明作者:크로퍼안드레도미니크;코크로날드스티븐;펠드만로드니
    申请人:이스트맨 코닥 캄파니;
    IPC主号:
    专利说明:

    A manufacturing method of an integrated display device including an OLED display and a touch screen {A METHOD FOR MANUFACTURING AN INTEGRATED DISPLAY DEVICE INCLUDING AN OLED DISPLAY AND A TOUCH SCREEN}
    [14] The present invention relates to a method of manufacturing a resistive wire touch screen on a flat panel display with a common substrate.
    [15] Electronic devices generally include a computational engine, a display, and an interactive device that responds to user input. For example, a computer may include a computing circuit, a display CRT, and a keyboard and mouse responsive to user input. In a second example, a personal digital assistant (PDA) includes a computing circuit, an LCD display, and a touch screen formed with several buttons on the LCD display. Many electronic devices, especially mobile devices, miniature devices, devices that require a reprogrammable interface, or devices that require a robust and simple user interaction mechanism, may be placed on a touch screen placed on the display. Rely on these devices to give user interaction.
    [16] Currently, there are several touch screen technologies, such as resistive wire, acoustic, infrared, and the like. They are generally located on either the CRT screen or the LCD screen, providing the necessary conversational functions within a single component consisting of two parts. Typically, a display (eg, LCD or CRT) is manufactured while the touch screen is made separately. After fabricating the display and touch screen, integrating them into a common housing provides a single component that can be mounted within the finished electronic device during assembly.
    [17] Resistive wire touch screens are formed on a substrate coated with a resistive film (typically indium tin oxide (ITO)) having a particular thickness, uniformity and resistivity. A material of a resistive touch screen such as a spacer, a conductive film, or the like is carefully formed on the coated substrate to produce a resistive touch screen. When combined with a display, this multi-layer component has inferior optical properties, due to inter-layer reflection, and has redundant manufacturing steps and redundant components. . Moreover, the additional step of integrating the parts increases the manufacturing cost required to complete the device. Manufacturing processes for display-touch screen devices are well known to those skilled in the art, and the products are available today from a variety of vendors. For example, US Pat. No. 5,795,430, issued August 18, 1998 to Beeteson et al., Describes an adhesive material used to adhere a touch screen by applying it to a faceplate. have.
    [18] By depositing a patterned conductive material and an organic material on a substrate, a new kind of display device based on an organic light emitting diode (OLED) was formed. Such a substrate may be the same substrate used for a resistive wire touch screen. Moreover, the materials used for the patterned conductive material may be similar or the same as the materials used for the resistive film, but their uniformity, thickness and resistance may be different. The conductive material formed on the substrate can be patterned to produce a passive matrix OLED display. Typically, conductive materials are patterned over semiconductor materials including thin film transistor (TFT) circuits to make active matrix OLED displays. This TFT is formed on the substrate. While touch screens use films controlled to have higher resistivity, it is ideal to use low resistive films as conductive materials in OLED displays. Once the conductive pattern is formed, an organic material is deposited, followed by the deposition of any remaining conductive components, a planarization layer and other layers known in the art. The connecting pad is defined as part of the conductive pattern and wire-bonded to the cable after encapsulating the device.
    [19] Processes for manufacturing OLED display devices employ photolithography, deposition, bonding and coating methods well known in the common integrated circuit industry. However, in the conventional practice of forming separate OLED displays and touch screens and combining them with conventional mounting methods, additional layers in the touch screen degrade the brightness of the display and additional internal reflections from the layers of the touch screen. This reduces the optical quality of the display and presents a problem in that two substrates and complex housings are required for two components.
    [20] Therefore, there is a need for an improved manufacturing method for reducing redundant components in the device, reducing costs, improving optical quality, and manufacturing more robust integrated resistive touch screens and OLED displays.
    [21] According to the invention, the above requirements are met by providing a method of manufacturing a display device having two parts, an OLED display formed on a film on one side of the substrate and a touch screen formed on the other side of the substrate. An OLED display includes a high temperature sensitive component, and a method of manufacturing such a display device includes the steps of partially forming a touch screen, which is one of the components, on one side of a substrate, and applying a protector on the partially designed component; Forming an OLED display, which is another component of the display device, on the other side of the substrate; removing the protector; and completing the formation of a touch screen, which is one component on one side of the substrate.
    [1] 1 is a schematic side view of an integrated display element that can be fabricated in accordance with the present invention;
    [2] 2 is a flowchart showing manufacturing steps of the present invention;
    [3] 3 is a schematic side view of a protector used in accordance with one embodiment of the present invention.
    [4] Explanation of symbols for the main parts of the drawings
    [5] 100: substrate
    [6] 102: OLED display
    [7] 104: touch screen
    [8] 106: connector
    [9] 108: connector
    [10] 110: conductive film
    [11] 112: resistive film
    [12] 114: Protectors
    [13] 116: cavity
    [22] Referring to FIG. 1, a substrate 100 (generally glass or rigid polymer) having two parallel planes is used for the OLED display 102 and the resistive touch screen 104. OLED display 102 emits light through substrate 100 and resistive touch screen 104. OLED display 102 is formed over conductive film 110 that is patterned to provide a conductor, as is known in the art. For passive matrix OLED displays, a conductive film is formed directly on the substrate 100. For an active matrix OLED display, a conductive film is formed over the locations of thin film transistor (TFT) circuits previously formed on the substrate 100. As is known in the art, a resistive touch screen 104 is formed over a uniform resistive film 112. Conductive film as used herein refers to the film to be subsequently patterned to form conductors in the OLED device, and resistive film refers to the film to be used within the resistive touch screen. The material or forming method may vary depending on whether the desired film produces higher or lower conductivity depending on the application, but it will be appreciated that the conductive film and the resistive film may be similar materials formed by similar methods. . Connectors 106 and 108 are provided to OLED display 102 and touch screen 104, respectively, to drive the display and receive input from the operator of the display.
    [23] Conventionally, resistive / conductive films, which are generally made of indium tin oxide (ITO), have been formed at high temperatures (eg, 200 ° C. and higher). If OLED materials are placed under these high temperatures, they may adversely affect their performance (life, stability, color characteristics). Therefore, it is desirable to perform any high temperature resistant / conductive film deposition step before depositing any OLED material. When manufacturing flat panel displays and touch screens on a common substrate, one possible approach is to perform a high temperature deposition step on both the OLED display and the touch screen before depositing the OLED material. Unfortunately, conventional handling devices used to make OLED flat panel displays and touch screens are in contact with the back side of the substrate, potentially causing damage to any preformed resistive film layer. Moreover, if the entire touch screen was previously formed on one side of the substrate, the handling device used to make the OLED display would not be able to function properly.
    [24] Referring to FIG. 2, according to one embodiment of the invention, a clean transparent substrate having two parallel faces is provided with reference numeral 10. The resistive film is formed 12 on one side of the substrate using any conventional technique, including but not limited to hot sputtering. Next, a protector such as silicon dioxide (SiO 2 ) or a photoresist is applied 14 on the resistive film on one side of the substrate. Alternatively, referring to FIG. 3, a thin, flat plate protection device 114 having similar characteristics to the substrate may be fixed on the resistive layer 112 of the substrate 100 with a removable adhesive to protect the resistive layer. For example, a reusable glass cover plate with a cavity 116 provided on one side of the substrate may be used to protect the resistive material.
    [25] Referring again to FIG. 2, an OLED display is then formed 16 on the opposite side of the substrate. Since OLED materials have not yet been deposited on the substrate, conventional OLED display forming processes can be used. Conductive ITO films are deposited using hot sputtering techniques to fabricate passive matrix devices. To fabricate an active matrix device, a semiconducting material is formed and patterned on the side of the substrate with the OLED display, and then a high temperature sputtering technique is used to form a conductive ITO film. After forming the conductive ITO film, the OLED material is deposited and patterned using low temperature technology to produce passive or active matrix OLEDs. Once the OLED display is complete, the protector is removed 18 and the touch screen 104 is completed 20 over the resistive layer 112.
    [26] Alternatively, forming a conductive film first for a passive matrix OLED display, applying a protector, forming a touch sensitive screen on the other side of the substrate, removing the protector, and finally the OLED display is completed do.
    [27] According to another embodiment of the invention, the first formation and patterning of a conductive film for a passive matrix OLED display completes all subsequent steps prior to depositing the organic material. Next, the protector is applied onto the partially completed OLED display. Thereafter, a touch sensitive screen is formed on the other side of the substrate, including the deposition of the resistive film. Then, removing the protector, the OLED display is completed.
    [28] According to another embodiment of the present invention, the first formation and patterning of the thin film transistor circuit and conductive film for an active matrix OLED display completes all subsequent steps prior to depositing the organic material. Next, a protector is applied over the partially completed OLED display. Thereafter, a touch sensitive screen is formed over the other side of the substrate, including the deposition of the resistive film. Next, removing the protector completes the OLED display.
    [29] The present invention relates to a method for manufacturing a display device comprising an OLED display and a touch screen, wherein the number of components required to design an integrated OLED display and resistive touch screen device is reduced, the number of manufacturing steps is reduced, It has the advantage of reducing costs, reducing the combined size of the display and touch screen device, and providing excellent optical performance.
    权利要求:
    Claims (1)
    [1" claim-type="Currently amended] In a method of manufacturing a display device having two parts, an OLED display formed on a film on one side of a substrate and a touch screen formed on the film on the other side of the substrate,
    The OLED display includes a high temperature sensitive component,
    The method is
    (A) partially forming a touch screen which is one of the components on one side of the substrate,
    (B) applying a protector on the partially designed part,
    (C) forming an OLED display, which is another component of the display device, on the other side of the substrate;
    (D) removing the protector;
    (E) completing the formation of the touch screen as one component on one side of the substrate
    Method of manufacturing a display device comprising a.
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    同族专利:
    公开号 | 公开日
    TWI278134B|2007-04-01|
    US20030150714A1|2003-08-14|
    US6623608B2|2003-09-23|
    EP1335436A3|2008-12-24|
    EP1335436B1|2012-07-25|
    TW200303628A|2003-09-01|
    JP2003243169A|2003-08-29|
    EP1335436A2|2003-08-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2002-02-08|Priority to US10/072,547
    2002-02-08|Priority to US10/072,547
    2003-02-07|Application filed by 이스트맨 코닥 캄파니
    2003-08-19|Publication of KR20030068048A
    优先权:
    申请号 | 申请日 | 专利标题
    US10/072,547|US6623608B2|2002-02-08|2002-02-08|Method for manufacturing an integrated display device including an OLED display and a touch screen|
    US10/072,547|2002-02-08|
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