EP1544835A1 - Method of transmitting image data to a display unit of a flat panel display and flat panel display - Google Patents

Abstract

A picture-control unit (PCU) (22) controls a flat screen's display unit (43). Separated picture data from data sources (1a-1n) is fed to each entry point in a through-connection unit (TCU) (24) for connecting picture data through for one of the data sources to the TCU's first output linked to the PCU. An independent claim is also included for a flat screen with a picture-control unit for controlling the flat screen's display unit.

Description

The present invention relates to a method for Transmission of image information from one or more Data sources to a display unit of a flat screen and a flat screen operating according to this method according to the preamble of claim 1 or 8.

The invention particularly relates to flat screens large-scale display units, as television monitors or Scoreboards are used.

For example, available on the market flat screens on the liquid crystal, plasma, electroluminescent, or based on the OLED (organic light emitting diode) technology, have essentially one with glass substrates and a Pixel matrix provided with a display unit Screen diagonal of more than 200 cm, one with a Printed circuit board provided driver unit and a housing.

The typical structure of such a flat screen is in [1], EP 1 265 210 A1. An advantageous control a TFT-LCD display by means of a driver unit is in [2], US 2002/0089476 A1.

According to [3], US Pat. No. 6,480,180 B1 has a flat screen for the Receiving image information, preferably one with a Video card (English: Graphic Controller) connectable Interface on which the transmission of image information using the LVDS technology described in [4], An Overview of LVDS Technology (LVDS: Low Voltage Differential Signaling), National Semiconductor 1998, Publication Number AN012326 (see also IEEE Standard 1596.3). Derivatives of LVDS technology are, for example, in the TFT-LCD Source Driver LH16AD / AF applied RSDS ™ technology and the TMDS ™ technology used by Silicon Image Inc. To realize higher bandwidths is also the dual LVDS method used, where a doubling of the Data lines is provided.

Below in Figure 1 is the transmission of Image information from a graphics module 12 of a video card 100 to one provided in a screen unit 2, as Timing controller 22 shown in FIG. which on the output side with a gate drive unit 41 and a data driver unit 42, for example of the type Samsung KS066 is connected, by means of which the individual pixels of a Image matrix 43 of the display unit 4 are switched.

Image data 121 and control data 122 are sent to an LVDS transmission unit 11 supplied there by means of a clock signal in three serial LVDS data streams converted over the Twisted pair cables 111, 112, 113 for Transmitted LVDS receiving unit 21 and there by means of over another two-wire line 114 transmitted clock signal and a phase locked loop PLL regenerated and then deserialized. From the recovered image data 211 and Control data 212 is in the downstream Image controller 22 generates data and control signals, each for example using a TTL technology Data bus 221, 222 transmitted to the driver units 41, 42 become. To reduce electromagnetic interference (EMI / electromagnetic interference) are the image data optionally via LVDS signals via a Two-wire line 223 supplied to the data driver 42, as this in [3].

The video card 100 and the screen unit 2 are further over a normally two lines bidirectional data bus 115 connected to each other via the Configuration data are transferable. The video card 100 can via the data bus 115, therefore, flat panel-specific data, so-called "EDID data" (Extended Display IDentification) a storage unit 23, e.g. an EEPROM (Electrically Erasable And Programmable Read Only Memory) Realization of the so-called Plug & Play functionality needed. As described in [5], US 2003/0025685 A1, the transmission of the EDID data takes place after the DDC (display Data Channel) standard, which is described there in more detail.

The screen unit 2 shown in Figure 1 can by means of individual components are built discretely. Instead can also be an integrated circuit, for example the Timing Controller FPD 87310 from National Semiconductor Corporation, used.

As an essential component of flat screens are also On-screen display modules or display modules or Picture-in-picture display modules by means of which, as in [6], US 6,369,858 B1, the image data OSD image data can be superimposed. That instead of the video card 100 image data provided becomes temporary OSD image data switched through, by means of which, for example Configuration data can be displayed.

The image information to be processed by the video card 100 These are for example one or more internal or external data sources, such as a Personal computer 1a, a drive 1b for optical Data carrier, a TV tuner 1c, an adapter 1d or more Modules 1n supplied. For example, the image signals of these data sources 1a,..., 1n from an associated one Personal computer 1x processed and over a data connection 60 is supplied to the graphics module 12 of the video card 100. In Figure 1 is also shown symbolically that the data sources mentioned including the video card 100 and a computer card 1n can also be integrated in the flat screen. The Connecting device is in this case a so-called Backplane or provided with connectors Circuit board with which the video card 100 and the as Plug-in cards or assemblies realized data sources 1a, ..., 1n are connectable. Due to the space within the housing of a flat screen are also several Backplanes usable.

From [7], WO 02/25943 is as a multimedia playback device trained flat screen known in the for the Processing a television signal necessary modules as well as the Modules of a personal computer are integrated. The user can therefore either a demodulated television or a the personal computer modules output video signal on the Display unit. The image data are from a video card processed and supplied to the display unit.

In the solutions described above, the image data of all Data sources therefore processed in a video card, which is why these data sources and the video card matched have to be. For the video card integrated in the flat screen In addition, a corresponding amount of space must be provided. Please note Furthermore, a flat screen during its lifetime survived several generations of video cards, so that the long-term compatibility of this flat screen applicable modules is not guaranteed. Please note especially the different applications of Flat panel displays. Flat screens are being used for the Display of TV pictures or as a large area Scoreboards used. It is also possible that an as TV used flat screen after a few years too a monitor of a computer extended with a drive for optical data carriers or with a data adapter to be connected to an optical fiber.

The present invention is therefore based on the object to create a flat screen, the more advantageous configurable, in terms of possible applications and the used modules, especially after several Operating years more easily expandable and thus the needs better customizable by the user. The present invention is also the object of a suitable Method for transmitting image information from one or more multiple data sources to a display unit of a Indicate flat screen.

This task is done with a procedure and a Flat screen solved, which in claim 1 or 8 have specified characteristics. Advantageous embodiments The invention are specified in further claims.

The method is used to transmit image information from at least one data source to an image control unit, which controls the display unit of a flat screen. According to the invention, those of the at least one or multiple data sources, for example by means of TTL signals (TTL: Transistor Transistor Logic) or LVDS signals, given image information separated from each one Input of a switching unit supplied by means of the Image information of one of the data sources to one with the Picture control unit connected through the first output become.

Preferably, the flat screen without inserted Data sources sold, giving the user the opportunity has one in a suitable card or assembly format available data source, which in performance and quality the Perceptions of the user corresponds to the flat screen use.

The suitable for the delivery of image information and this for example, with a graphics module provided data sources can therefore be selected by means of the switching unit and connected to the image control unit of the flat panel become. For example, a computer card, one with a Disk or a data line connected or connectable adapter module and / or a TV tuner via Connectors or one or more backplanes with the Connecting unit connectable.

One with the display unit, the driver units, the Image controller and provided with a backplane Flat screen can therefore be equipped with any data sources and thus be configured and expanded as desired. A Retrofitting and expansion is also at a later date Time easily possible, so the investment in the costly centerpiece of the flat screen, the Display unit, long-term protection.

The data sources that have their own graphics module are connected to the services of the relevant data sources adjusted, therefore, can be separated independently of one provided video card inserted into the flat screen and be connected to the image control unit. This is Especially advantageous if a data source with available at the time of production of the flat screen Video cards is no longer compatible, according to some Operating years is used in the flat screen. there Data sources can be used in the flat screen with the corresponding interface of the image control unit are compatible. In preferred embodiments, the Interface of the image control unit to the requirements of each connected flexibly, thereby the flexibility and compatibility of the flat screen is further increased. The plug & play functionality is therefore expanded by not only, as with the DCC standard, the Side of the data source to the side of the data sink, but also or possibly only the side of the data sink to the Page of the data source.

The switching of the image information, i. the picture and Control data, in the Durchschalteeinheit after the Time-division multiplexing or connection-oriented Channel switching, i. over lines that cover the entire Duration of the image transmission to be switched through. Preferably are the input lines via switches with the Connected output lines.

The encoded and / or serial signals and Data of the connected data sources can be changed unchanged switched through or even before switching outside or decoded within the switching unit and / or be deserialized. Unless the data streams are deserialized, i. be converted serially / in parallel, result in a lower number of lines to be switched and less interference. The decoding and deserialization Therefore, it is preferably done in one in the image control unit integrated receiver, such as a timing controller Type FPD 87310 from National Semiconductor.

The switching unit is preferably from a Controlled system control unit, which, wirelessly or wired, control signals from one of the user operable input unit can be fed. The System control unit is further preferably by means of a guided outside of the switching unit or by the Switching unit connected first data bus with the Control units of the data sources connected or connectable, so that these can be controlled by the user via the system control unit are. For example, configurations and functions are the Data sources adjustable or data channels selectable, the preferably by means of the OSD functionality on the screen can be displayed.

If necessary for the data sources to the DDC standard if necessary organized query of configuration data, such as EDID data, designed to be the appropriate Lines from the associated input of the switching unit via a second data bus to that with the image control unit connected first output or to one with the System controller connected second output switched to the in the image control unit or the configuration data provided in the system controller if necessary, access the system controller via a third data bus supplied from the image control unit become.

The second one provided for the transmission of configuration data Data bus can also be advantageous for controlling the data sources be used. It should be noted that the Configuration channel traditionally for Plug & Play Functionality is used and after initialization of the Data sources are hardly any more burdened and beneficial for Control functions can be used. Furthermore, over the second data bus and the system controller too Configuration requirements for the image controller transferable.

Figur 1

den schematischen Aufbau eines bekannten Flachbildschirms mit einer Vorrichtung zur Übertragung von Bildinformationen von einer Datenquelle bzw. einer Videokarte 1 zu einer Bildsteuereinheit 22;

Figur 2

einen erfindungsgemässen Flachbildschirm mit einer Durchschalteeinheit 24, mittels der Bildinformationen von einer von mehreren Datenquellen 1a, ..., 1n zur Bildsteuereinheit 22 durchschaltbar sind;

Figur 3

die Durchschalteeinheit 24 von Figur 2 mit einem ausserhalb davon geführten ersten Datenbus 81, mittels dessen Steuerdaten zu den Datenquellen 1a, ..., 1n übertragbar sind und mit einem innerhalb davon geführten, der Übertragung von Konfigurationsdaten dienenden zweiten Datenbus 82;

Figur 4

die Durchschalteeinheit 24 von Figur 2, innerhalb der der erste und der zweite Datenbus 81; 82 zu einer Systemsteuereinheit 25 geführt sind;

Figur 5

die Durchschalteeinheit 24 von Figur 2, innerhalb der die Steuerdaten und die Konfigurationsdaten über den zweiten Datenbus 82 übertragen werden;

Figur 6

die Durchschalteeinheit 24 von Figur 2 mit darin integrierten Empfangsvorrichtungen 21 für die encodierten Bildsignale;

Figur 7

die Durchschalteeinheit 24 von Figur 2, innerhalb der encodierte Signale durchschaltbar sind.

The invention will be explained in more detail with reference to drawings. Showing:

FIG. 1

the schematic structure of a known flat panel with a device for transmitting image information from a data source or a video card 1 to an image control unit 22;

FIG. 2

a flat screen according to the invention with a switching unit 24, by means of which image information from one of a plurality of data sources 1a,..., 1n can be switched through to the image control unit 22;

FIG. 3

the switching unit 24 of FIG. 2 with a first data bus 81 led outside it, by means of which control data can be transmitted to the data sources 1a,..., 1n and with a second data bus 82, which is run within it and serves to transmit configuration data;

FIG. 4

the switching unit 24 of Figure 2, within which the first and the second data bus 81; 82 are routed to a system controller 25;

FIG. 5

the switching unit 24 of Figure 2, within which the control data and the configuration data are transmitted via the second data bus 82;

FIG. 6

the switching unit 24 of Figure 2 with receiving means 21 integrated therein for the encoded picture signals;

FIG. 7

the switching unit 24 of Figure 2, within the encoded signals are switched through.

FIG. 1 shows a device for the transmission of Image information from a graphics module 12 one in one Flat screen video card 1 provided with internal or external data sources 1a, ..., 1n is connectable to a in a screen unit 2 of a flat screen provided, serving as a timing controller Image control unit 22, which with a gate drive unit 41 and a data driver unit 42, by means of which the individual pixels of an image matrix 43 of the display unit 4 be switched. This known device was initially described.

Figure 2 shows a schematic representation of an inventive Flat screen with a switching unit 24, by means of the image information of one of several Data sources 1a, ..., 1n to the image control unit 22 switched are. The data sources 1a, ..., 1n include, for example, a Computer card, one with a disk or a Data line connected or connectable adapter module, one Video card and / or a TV tuner. The flat screen has Further, a system control unit 25, to which of a Remote control 5 via a radio interface 26 instructions are transferable, by means of which the system control unit 25 the Switching unit 24 and possibly also the Data sources 1a, ..., 1n controls that with one of the processing image data serving graphics module 12 and at least one Processor 14 are provided. By means of the remote control 5 can therefore, a data source 1a,..., 1n with the image control unit 22 connected and according to the present features to be controlled. For example, the TV tuner over the Switching unit 24 is connected to the image control unit 22 and a desired TV channel are set.

In preferred embodiments, with reference to the FIGS. 3 to 7 will be described in more detail below, are from the system controller 25 or the data sources 1a, ..., 1n configuration data for the image control unit 22 transferable, by means of which the image control unit 22 or the Interfaces are reconfigurable. In a first Design of the flat screen must therefore all connected data sources 1a, ..., 1n to a fixed Be adapted interface of the image control unit 22 or become. In a second embodiment of the flat screen the definitions of the interface and / or in the Image controller 22 implemented processes to the Data sources 1a, ..., 1n adapted. On the one hand, therefore, the Data sources 1a, ..., 1n based on identification data, for example, standardized EDID data, the Flat screen. On the other hand, the Flat screen, in particular the image control unit 22 and their interface 21 (see Figure 7), depending on selected data source 1a; ...; 1n be configured. The classic plug & play is therefore extended. Starting from the Flat screen can therefore different maps be inserted, after which the configuration of the Flat screen changes as needed. The system controller 25 therefore preferably has reading and Write permissions to those in the data sources 1a, ..., 1n and / or configuration data present in the flat screen read and change.

The configuration data will be during processing preferably by means of the OSD (On Screen Display - Functionality) on the flat screen. Corresponding methods are known from [8].

FIG. 2 also shows that also other signals and / or data, such as audio signals, over lines 9XX and the switching unit 24 from the active data source 1a; ...; 1n a data or signal processing module 28, optionally a multi-channel audio amplifier, can be fed whose output signals via lines 280, for example a sound amplifier, speakers, a data processing unit or another display unit can be fed. Of course, these are further signals and / or data also the system control unit 25 or the image control unit 22 feedable, so they can be used as OSD data on the Screen are displayed. For example, subtitles or Background information about a movie about this channel transferable.

The system controller 25 and the switching unit 24 are preferably on a backplane 30 (a printed Circuit), to which over at least two Contact strips, such as power strips or sockets, 3 two or multiple data sources 1a, ..., 1n are connectable and the via a contact strip, such as a power strip or a Socket, 300 is connected to the image control unit 22. In a preferred embodiment, the Image control unit 22 is also provided on the backplane 30 be. This is particularly advantageous if the Image control unit 22 via LVDS lines 223 and 224 (LVDS, TMDS, RSDS, dual LVDS, dual TMDS, dual RSDS, etc.) with the Driver units (Sourcedriver 42 and Gatedriver 41) connected is, as shown schematically in Figure 2. Further For example, the system control unit 25, the image control unit 22 and the switching unit 24 in pairs or threes, optionally including other components, especially interface units, in a single module or integrated in an integrated circuit (IC).

When using the switching unit 24 is preferably, note that there are no phase shifts between the individual signals (for example, the RGB image signals) with each other or even relative to one optionally provided clock signal, the is transmitted in parallel. If differences in transit time in the Individual signal paths occur, these are preferably by means of delay circuits or delay lines compensated. These optionally adjustable Delay circuits or delay lines are in Figure 2 symbolically represented as a unit 248.

The transmission of data from the data sources 1a, ..., 1n to Image control unit 22 and the control of the data sources 1a, ..., 1n and the units of the flat screen and the Hardware implementation can be done in several ways take place, as described below with reference to FIGS. 3 to 7 is described.

FIG. 3 shows the switching unit 24 with two of n Inlets 241a, 241n, to which, via a backplane 30, a first or a second data source 1a; 1n, for example one Computer card and a TV tuner, are connected. The Transmission of the image information from the data sources 1a and 1n to Durchschalteeinheit 24 takes place as the flat screen of FIG. 1 by means of LVDS transmitting and receiving units 11, which are supplied with TTL signals and TTL signals be delivered. The TTL signals present at the input 241n the second data source 1n selected by the user, are preferably connected via the switching unit 24 connection-oriented channel switching to its output 242 connected to the image control unit 22 is. Also connected is a second data bus 82, by means of its flat screen-specific data, for example EDID data (see the comments on FIG. 1), from the storage unit 23 of the image control unit 22 are transferable. The adaptation of the in the data source 1n provided graphics module 12 to the properties of the Flat screen is therefore in a known manner.

The switching unit 24 is further provided via an input 244 and a fourth data bus 84 having an output 251 of System control unit 25, which the switching unit 24 controls according to the instructions of the user. Basics of switching through lines as well as the necessary control are, for example, in [8], F. Bergmann, H.J. Gerhardt, Taschenbuch der Telekommunikation, Fachbuchverlag Leipzig, Hanser Verlag, Munich 1999, pages 296-309. For controlling the switching unit 24 is in the system control unit 25, for example a Single-chip computer, a corresponding control module 259 implemented.

The system control unit 25 is also via a first Data bus 81 with the connected data sources 1a, ..., 1n connected so that the user through the remote 5 and the system control unit 25 or another in it provided control module 258 the data sources 1a, ..., 1n according to the intended functions in a known manner can control.

In the preferred embodiment shown in Figure 4 the first data bus 81 from a port (input and output) 254 the system controller 25 to a port 245 of Through-switching unit 24 and therethrough to each selected data source 1a switched through. Thereby This results in a simplified circuit structure. The second, the Transfer of configuration data serving data bus 82 is in this embodiment via a port 243 of Switching unit 24 to a corresponding port 252 of the system control unit 25 through. Configuration data is therefore the data sources 1a, ..., 1n from the system control unit 25 which transmits thereto another port 253 and a third data bus with the Picture control unit 22 and the therein provided Storage unit 23 is connected. The system controller 25 is therefore able to retrieve configuration data from the Data sources 1a, ..., 1n and the image control unit 22 query to examine, if necessary, to change and to the data sources 1a, ..., 1n and the image control unit 22 back to a Compatibility of the configurations to achieve. Is possible, that from the image control unit 22 configuration data be read, on the basis of which the selected data source 1a is configured. It is also possible, the image control unit 22 using data from the data source 1a were read out. It is also possible to extract data from the Image controller 22 and the data source 1a read to to determine and set compatible configurations. to Processing of these configuration procedures is in the System controller 25 a corresponding configuration module 259 provided.

Since the second data bus 82 is primarily for the transmission of Configuration data is used, this remains Completion of the configuration procedures mostly unused. at 5 of the embodiment of the invention shown is the second data bus 82 therefore also for the transmission of control data used. Existing transmission devices, in particular standardized connectors can therefore be used in this solution be used unchanged to the data sources 1a, ..., 1n with the system control unit 25 to connect.

FIG. 6 shows the switching unit 24 of FIG. 2 with therein integrated receiving devices 21 for the encoded Image signals. The integration of an LVDS receiving device is National's FPD 87310 timing controller Semiconductor realized and is therefore also in the Switching unit 24 possible, reducing the effort on the printed circuit can be significantly reduced.

In the embodiment shown in Figure 7 is the Switching unit 24 for transmission and switching of encoded and serialized signals, such as LVDS signals, intended. This results in only a few Lines with the in the image control unit 22 integrated receiving unit 21 are to be connected. When Image control unit 22 may in this case be the timing controller to be used by National Semiconductor FPD 87310 in which the LVDS receiving unit is already integrated.

As shown in Figures 5 to 7 is preferably also the Switching unit 24 integrated in the image control unit 22, so that a compact design of the circuit arrangement results.

The invention has been described in preferred embodiments and shown. Based on the teaching of the invention are However, further expert designs feasible. In particular, the supply of power supply lines or devices in expert Realizable manner, by means of which the insertion of a Data source 1a detected and the system control unit 25th can be reported. Furthermore, there are different possibilities for arrangement of one or more backplanes possible with the present, for example, in the card format Data sources 1a, ..., 1n are connectable. It is also essential that the present invention with various existing Standards and future standards for encoding, Transmission and decoding as well as processing of data, in particular image and sound information, possible. The advantage The present invention is well known that these due to the achieved modularity and flexibility also for future ones Generations of data sources, image processing units, especially timing controllers, as well as driver stages and Display units of any technology is applicable.

Bibliography:

[1]

EP 1 265 210 A1

[2]

US 2002/0089476 A1

[3]

US Pat. No. 6,480,180 B1

[4]

An Overview of LVDS Technology (LVDS: Low Voltage Differential Signaling), National Semiconductor 1998, Publication number AN012326

[5]

US 2003/0025685 A1

[6]

US 6,369,858 B1

[7]

WO 02/25943

[8th]

F. Bergmann, H.J. Gerhardt, Paperback of Telecommunications, book publisher Leipzig, Hanser Publisher, Munich 1999

Claims (16)

Method for transmitting image information from at least one data source (1a; ...; 1n) to an image control unit (22) which controls the display unit (43) of a flat panel display, characterized in that the data sources (1a, ..., 1n) are each supplied separately to an input (241a; ...; 241n) of a switching unit (24), by means of which the image information of one of the data sources (1a,..., 1n) is fed to one with the Picture control unit (22) connected to the first output (242) are turned on. Method according to Claim 1, characterized in that the image information to be transmitted is multiplexed by means of time division or via lines which are switched for the entire duration of the image transmission from the input (241a; ...; 241n) to the first output (242) of the switching unit ( 24) are switched through. Method according to claim 1 or 2, characterized in that the encoded and / or serial signals and data of the connected data sources (1a, ..., 1n) are decoded and / or deserialized before, after or within the switching unit (24). The method of claim 1, 2 or 3, characterized in that the switching unit (24) and by a system control unit (25) is controlled, the wireless or wired, control signals from a user-operable input unit (5) can be fed, and optionally is used to control the connected data sources (1a, ..., 1n). Method according to one of Claims 1 to 4, characterized in that the lines (115) of the data sources (1a, ..., 1n) serving configuration data optionally organized according to the DDC standard are transmitted from the associated input (241a; ...; 241n) of the switching unit (24) are connected through a second data bus (82) to the first output (242) connected to the image control unit (22) or to a second output (243) connected to the system control unit (25) the image control unit (22) or the configuration data provided in the system control unit (25), which are optionally supplied to the system control unit (25) via a third data bus (83) from the image control unit (22). Method according to Claim 4 or 5, characterized in that the system control unit (25), which is connected to the control units (14) of the data sources (1a) by means of a second data bus (82) guided outside the switching unit (24) or switched by the switching unit (24) , ..., 1n), which controls data sources (1a, ..., 1n) in accordance with the control data input by the user, or that controls the data sources (1a, ..., 1n) Control data on the query of the configuration data serving first data bus (81) are transmitted. Method according to one of claims 1 to 6, characterized in that the image control unit (22) for receiving the image information or the image signals and data has a firmly defined interface, such as a DVI interface, or that the interface taking into account the specifications the data source is defined. Flat-panel display with an image control unit (22) serving to control a display unit (43) of a flat-panel display, to which the image information from at least one data source (1a; ...; 1n) can be transferred according to the method of one of claims 1 to 7, characterized in that a switching unit (24) having at least two inputs (241a; ...; 241n) is provided, to each of which the image information of a data source (1a, ..., 1n) can be supplied, which from the switching unit (24) to a with the image control unit (22) connected to the first output (242) are switched through. Flat screen according to Claim 8, characterized in that the switching unit (24) is adapted to transmit the image information from the associated input (241a; ...; 241n) to the first output (242) of the switching unit (24) in a time-division multiplexing process or via lines which are switched for the entire duration of the image transfer. Flat screen according to claim 8 or 9, characterized in that the switching unit (24) upstream of a receiving, decoding and / or deserialization of image information receiving unit (21) is connected or integrated therein and / or that the switching unit (24) the correction of runtime differences serving, optionally adjustable circuit units (248) upstream or downstream or are integrated therein. Flat screen according to claim 8, 9 or 10, characterized in that a system control unit (25) is provided which can be supplied via an interface unit (26), wireless or wired, control signals from a user-operable input unit (5) and via a fourth Data bus (84) is connected to the switching unit (24) in order to connect a user-selected data source (1a; ...; 1n) to the image control unit (22) and / or from the configuration data via the third data bus (83), by means of which processes for processing the image information in the input-side interface (21) or in downstream modules of the image control unit (22) can be changed to the image control unit (22) are transferable. Flat screen according to one of claims 8 to 11, characterized in that the query of configuration data serving lines (115) of the data sources (1a, ..., 1n) from the associated input (241a; ...; 241n) of the switching unit (24) via a second data bus (82), to which the image control unit (22) connected to the first output (242) or to a second output (243) of the switching unit (24) are connected, which is connected to the system control unit (25), in the the configuration data are stored or the configuration data stored in the image control unit (22) can be supplied via the third data bus (83). Flat screen according to claim 12, characterized in that the system control unit (22), for transmitting control data, via a first, outside or within the Durchschalteeinheit (24) guided or via the second, the transmission of configuration data data bus (82) with the in the data sources (1a, ..., 1n) provided control units (14) is connected or connectable. Flat screen according to one of Claims 8 to 13, characterized in that the data sources (1a,..., 1n) have a graphic module serving to output image information and are realized as cards or assemblies which are connected by means of plug connectors, preferably by means of a backplane (3 ) are connected or connectable to the switching unit (24) and / or the system control unit (25). Flat screen according to one of Claims 8 to 14, characterized in that the data sources (1a, ..., 1n) comprise a computer card, an adapter module connected or connectable to a data carrier or data line, a video card and / or a TV tuner. Flat screen according to one of Claims 8 to 15, characterized in that the interface of the image control unit (22) provided for receiving the image information or the image signals and data is firmly defined or takes into account the specifications of the data sources (1a, ..., 1n). is definable;
and / or that the switching unit (24) and / or the system control unit (25) are integrated in the image control unit (22).

Images