JP2001513911A - Pixel matrix display device for mobile systems - Google Patents

Abstract

(57) [Summary] Pixels of a pixel matrix display device for displaying information in a mobile system are realized by organic light emitting devices.

Description

DETAILED DESCRIPTION OF THE INVENTION Pixel matrix display device for mobile systems   The present invention relates to information display in mobile systems such as cars, trains, airplanes, etc. Matrix display device for display and display device for automobile The present invention relates to a method for the production of a instrument.   International Patent Application WO 96/23200 discloses display instruments and references therefor 2. Description of the Related Art A display device for a vehicle having a lighting device is known. This lighting system is organic It is formed by a light emitting source having a light substance. In this case, the character is It is made by punching the material with a punch (die punch), resulting in a display and A combination of lighting is realized. Of course, variable information display is achieved by such a light source. Cannot be performed.   In cars, for example, radios, watches, on-board computers, navigators Simple liquid crystal display for secondary instruments such as Play (LCD) and active matrix driven display (TFT It is well known to use pixel matrix displays of the form This Display devices lack the unique luminous power of the display element Need backlight You. This assumes high energy consumption and complex brightness adjustment.   Many abstracts from Patent Abstracts of Japan 07-134558A EL device having organic electroluminescence element Play is known. Many anodes and cathodes are strip-shaped and intersect It is arranged.   Magazine for test computer from Elektronik 3/1997, pp. 44-47 Function displays are known. This test computer is And are deployed for testing purposes. This display is a video camera The image captured by the camera and the image detected by the sensor and the measured data are displayed.   From English abstract 08-033667A for fixing to a transparent door or window LED displays are known. These LEDs are paired on a circuit board Are located. The circuit boards are separated from each other so that light can pass through these devices. It is arranged in.   An object of the present invention is to provide a pixel matrix display that does not require a backlight. It is to provide a device.   The object is to provide a pixel matrix display as described in the independent claim. This is achieved by a playing device and method. Advantageous embodiments of the invention depend on the dependent claims. It is described in.   Basically all display devices based on the realization of pixels by organic luminescent materials No backlight is needed.   Although the organic light-emitting display element does not necessarily have to have diode characteristics, In the following, such a display element is referred to as an organic light emitting diode (OLED).   In contrast to simple and active liquid crystal displays, organic light emitting display elements or Iodine-based displays are extremely thin and are subject to the geometry and curvature of the support. It can be manufactured to fit. Furthermore, OLEDs can be made transparent. Wear. Therefore, OLED displays can be housed in mobile systems in an ideal way. Suitable for In particular, such displays are used in automotive instrument To the geometric structure of the board or any object, such as a back seat backrest, a vehicle It can be optimally adapted to the ceiling and the like.   The pixel matrix display device of the present invention is suitable for mobile systems, especially Also used for interior lighting of automobiles.   OLED display can be mounted on window or mirror as well It is. Thus, for example, the display of a navigation system can be directly Shown on the windshield of the vehicle (head-up display) or rear window During steering assistance on the side window glass beside the lath, mirror or side mirror A remote display is shown. The display mounted in this way is photographed by a camera. The displayed image can also be displayed. In this way, for example, vehicle supports that impede aerodynamics It can be used in place of the id mirror. In addition, when parking and maneuvering other vehicles The distance to the rearview mirror can be displayed and the rearview mirror can be omitted at all.   In contrast to liquid crystal displays, OLED displays are optimal (paper Provides a (paper-like) gaze angle. As a result, the OLED display Can be used simultaneously by the driver and the passenger of the vehicle.   OLED displays can be manufactured as foils, so pixel matrix Display devices are particularly well suited for augmenting display instruments in vehicles. are doing. Attach the display to an appropriate position and belong to this display All you have to do is mount the electronic device in a hidden, invisible place.   In the manufacture of display instruments for a given vehicle type, Place the pixel matrix display device on the instrument board and Control unit of at least one display device Even programmed by control program for configuration do it. This control unit can be hidden inside the vehicle.   Advantageously, pixels of organic luminescent material approximately 0.5 mm × 0.5 mm are displayed. Is shown. However, OLEDs are problematic even for surfaces as large as a few square centimeters. Pixel as a symbol, for example an arrow, because it can be realized without Can also.   Other advantages, characteristic configurations and applicability of the present invention are described below with reference to the drawings. It can be obtained from the description of the embodiment.   FIG. 1 shows a plurality of OLED displays for a plurality of additional devices.   FIG. 2 shows a common OLED display for a plurality of additional devices.   FIG. 3 shows a large area OLED display for displaying basic and secondary instruments. Show spray.   FIG. 4 shows an OLED display for front and back seat travelers.   FIG. 1 shows an instrument board 1 of a motor vehicle. The instrument board 1 has both a conventional display instrument 2 and an OLED display 3. I do. In this case, the basic instruments such as speed, coolant temperature, etc. The display of information on the operating conditions of various vehicles is configured as analog instruments. Have been. Additions such as radios, air conditioners, clocks, navigation systems, etc. A secondary instrument for displaying information from the device is an organic light emitting diode. Based on a separate pixel matrix display.   These include polymers, especially conjugated polymers (Konjugierte Polymers), Sesame, small organic molecules such as polymers or mixtures of polymers. This is feasible with matrix nanoparticles. Active organic layer is another inorganic auxiliary It may include quality and / or organic auxiliary substances. Such displays are usually used Gas phase process (deposition in vacuum) or liquid phase process ( Spin coating, scraping with a doctor blade (Rakeln) Manufactured. Preferred layer thicknesses are in the range between 10 nm and 200 nm. Suitable The sharp stratigraphy is based on transparent substrates such as glass or polymer foil, indium oxide A transparent electrode such as tin, N, N'-Bis- (3-methyl-phenyl) -N, N'- Hole transfer layer such as diphenylbenzidine (TPD) 8-Hydroxyquino doped with yet another luminescent dye, such as Rubren Light emitting layers such as phosphorus-aluminum salt (AlQ3) and magnesium silver alloy And a metal counter electrode.   Control electronics, devices for controlling optical systems (microcavities), filters, Light conversion filter (Emissions-Konversionsfilter), UV filter, anti-reflection layer Other auxiliary devices such as can be integrated. same As well as protection against mechanical loads, humidity and as cooling and heat removal Appropriate coating or encapsulation is provided.   Generated excited states (eg, excitons) are visible light in chromophores or chain polymers. And falls to a low energy level. With such an OLED, visible light Covers all color spectra. Therefore, the color of the pixel matrix -Pixels can overlap different emission colors with multiple OLEDs of different colors. Or in a conventional manner with a monochromatic OLED and a corresponding color filter. Formed.   In this case, in contrast to a liquid crystal display, the brightness of the display depends on the applied voltage, the applied voltage. It can be adjusted very easily via the supplied current or pulse width. Therefore A simple means to make these OLEDs follow the instantaneous light conditions. Dynamic brightness adjustment is realized.   Since only small power adjustments are required, simple adjustment electronics are sufficient. Electric Eliminates the need for power-intensive backlights, and furthermore such backlights Since there is no need for complicated brightness adjustments associated with The structure of the display is simpler than the liquid crystal display. In particular, TFT displays There is a clear cost advantage over play.   FIG. 2 only shows several displays of secondary instruments. It is reproduced on one OLED display 3. Therefore, one display is on Various such as board computer, navigation system, radio and telephone Sources can be played. OLED display size and shape are sufficient Is optimally adapted to the form predetermined by the interior space of the vehicle. Can be made.   The operating elements 4 of the operating section 5, such as buttons and switches, are likewise OLED pins. It has a surface formed as a cell matrix. In this case, the flexible base By using the plate for the OLED, the operating elements are displayed on the display buttons ( (Soft key).   Based on the matrix display in such operating elements, A function in which one operating element has selected various symbols or characters (for example, radio , Phone or navigation system) or operating status (window off) (Open / close).   FIG. 3 shows the OLED pixel matrix display as described above. Not only replace one or more secondary instruments, but also Instruments and secondary instruments are the only large-area OLED displays 3 Therefore, it is displayed. Further, a pixel matrix display made of a transparent OLED is provided. Play is integrated into the windshield 6.   The display allocation is arbitrary. All symbols and instruments The displays, including the component displays, are freely programmable with regard to their arrangement and configuration. is there. As a result, advanced portability of the design in a given vehicle model Freedom is obtained. You only need to adapt the software accordingly. Storage Device 7 stores the programmed instrument configuration are doing. This programmed instrument configuration Is output via the control device 8 or the CPU.   Integrating multiple displays on one display controllable via a control unit Cabling costs are evident compared to conventional basic instrument equipment To be reduced. In addition, the OLED display shown here is relatively The solstice can be manufactured and incorporated with simple working steps.   In addition to the pre-set distribution by the manufacturer, the user can It can be configured in a typical manner. Therefore, additional navigation pictograms Can be displayed at the display position set by the diver or passenger You. Additional user-specific symbols, for example, to indicate incoming faxes Can be created and displayed in a predetermined area. The user is the vehicle manufacturer Stored in the storage device 7 Whether or not to display the specified display instrument Can be displayed. In addition, the user can check the location stored in the storage device 7. Multiple designs for certain display instruments, e.g. analog instruments Instrument or digital instrument. Many users Germany You can store your own configuration. So the user Rent-a-cars also allow you to configure your familiar user surface.   The displayed information has a very high contrast due to the unique luminous power and therefore Very well perceived.   Figure 4 shows the interior space, which has a large front seat for passengers. The OLED display 3 is mounted on the instrument board and the rear seat OLED displays 9 on the front seat back for passengers Have been killed. These displays are capable of achieving the high switching frequencies of OLEDs. Very well suited for video and multimedia applications due to the number. Disp Rays include keyboards, mice, joysticks, headphones and microphones. A connection terminal 10 for the connection is provided.   Multimedia computer 11 connected to individual displays 3, 9 At the same time as a personal computer for passengers and passengers in the backseat. Used. Images and data via in-vehicle network between individual displays Communication is possible. Exchange data with external points via the Internet Can be   The display 9 facing the backseat moves in a pattern towards each user, When they leave the vehicle, they can be removed because they are not stolen.   Unless the display is used otherwise, this display is Used as spatial lighting. If installed inside the door, if the door is open The OLED display that emits light serves as a warning lamp.

[Procedure of Amendment] Article 184-8, Paragraph 1 of the Patent Act [Submission date] March 8, 1999 (1999.3.8) [Correction contents]                                The scope of the claims 1. Pixel matrix display for information display in mobile systems In the device,     Pixels are realized by organic light emitting devices,     A region (3) formed by the organic light-emitting element; At least one display instrument (2) is realized and the display instrument (2) is realized. 2) is characterized in that variable information can be displayed by the organic light emitting device. Pixel matrix display for information display in mobile systems A device. 2. The organic light emitting device displays information from various information sources, Item 2. A pixel matrix display device according to item 1. 3. The area (3) formed by the organic light emitting device is a variety of display instruments 3. The method according to claim 1, wherein the information is designated for selective display of the information. Pixel matrix display device. 4. A storage device (7) is provided, and the storage device (7) has various displays for displaying information. 4. Characters and / or symbols of a language are stored. A pixel matrix display device according to any one of the preceding claims. 5. Customize the display device configuration 5. A storage device (7) for storing data independently by a user. The pixel matrix display device according to claim 1. 6. The pixel according to any one of claims 1 to 5, wherein the transparent organic light emitting element is used. Cell matrix display device. 7. Attachment to a mirror or a window glass (6) A pixel matrix display device according to claim 1. 8. A camera for capturing an image of the environment surrounding the mobile system. A pixel matrix display device according to one of claims 1 to 7. 9. Pixels are realized by organic light-emitting devices, and the storage device (7) The storage device (7) is provided with various symbols and information for displaying information. A transfer system featuring a pixel matrix display device in which characters are stored. Operating element in a dynamic system. Ten. In a method for the manufacture of a display instrument for a motor vehicle,     A pixel matrix display device according to claim 1. Placing the device on the instrument panel (1);     The control unit of the pixel matrix display device has at least One display instrument Providing a control program for the configuration of the component (2) A method for the manufacture of a display instrument for a motor vehicle, comprising:

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), OA (BF, BJ, CF) , CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (GH, GM, KE, LS, M W, SD, SZ, UG, ZW), EA (AM, AZ, BY) , KG, KZ, MD, RU, TJ, TM), AL, AU , BA, BB, BG, BR, BY, CA, CN, CU, CZ, EE, GE, GW, HU, ID, IL, IS, J P, KP, KR, LC, LK, LR, LT, LV, MG , MK, MN, MX, NO, NZ, PL, RO, SG, SI, SK, SL, TR, TT, UA, US, UZ, V N, YU (72) Inventor Jürgen Simmerer             Germany D-91056 Air Run             Gen Felix-Klein-Stra             -47 (72) Inventor Liner Hager             Germany D-93055 Regen             Sburg Heckgrabenweg 1               A

Claims (1)

[Claims] 1. Pixel matrix display for information display in mobile systems In the device,     The pixel is realized by an organic light-emitting device. A pixel matrix display device for displaying information in a system. 2. The organic light emitting device displays information from various information sources, Item 2. A pixel matrix display device according to item 1. 3. The region (3) formed by the organic light emitting device has at least one display The instrument (2) is displayed, and the display instrument (2) has variable information. Is displayed by an organic light emitting element. Cell matrix display device. 4. The area (3) formed by the organic light emitting device is a variety of display instruments 4. The method according to claim 1, wherein the information is designated for selectively displaying The pixel matrix display device according to claim 1. 5. A storage device (7) is provided, and the storage device (7) is provided with various information displays. 5. Characters and / or symbols of a language are stored. Pixel matrix according to one of the above Display device. 6. To store the display device configuration 6. The pixel mat according to claim 1, wherein the storage device is a storage device. Rix display device. 7. The pixel according to claim 1, which is a transparent organic light emitting device. Cell matrix display device. 8. Attachment to a mirror or a window glass (6). A pixel matrix display device according to claim 1. 9. Pixel matrix display device according to one of claims 1 to 8 Operating element in a mobile system characterized by a stationary position. Ten. Camera for taking an image around a mobile system and said image taken The pixel matrix data according to claim 1 for displaying a pixel matrix. A system for reproducing image information in a mobile system, characterized by a display device. Stem. 11． In a method for the manufacture of a display instrument for a motor vehicle,     A pixel matrix display according to claim 1. The device is arranged on an instrument panel (1);     Control of the pixel matrix display device The control unit has at least one display instrument (2) configured With a control program for the vehicle A method for the production of an instrument.