KR20040049436A - Graphic card connection apparatus and method - Google Patents

Abstract

PURPOSE: A graphic card connection device is provided to enable an image display apparatus supporting a DVI(Digital Visual Interface)-I system only to supply EDID(Extended Display Identification Data) tables for an analog image signal and a digital image signal, so that the image display apparatus can normally output the image signals. CONSTITUTION: An input sensing portion(506) senses a kind of graphic cards(602,604) connected to a DVI-I connector(502) through an electric potential of one of pins of the DVI-I connector(502). Many memory portions(510) store image display apparatus setup tables in accordance with the kind of the graphic cards(602,604), respectively. An EDID controller(508) connects the memory portions(510) corresponding to the sensed kind of the graphic cards(602,604) with a communication path of the DVI-I connector(502). The input sensing portion(506) is a buffer for buffering a signal inputted to the fourteenth pin of the DVI-I connector(502), and outputs the buffered signal.

Description

GRAPHIC CARD CONNECTION APPARATUS AND METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a graphics card connecting apparatus of an image display device, and more particularly, to a graphics card connecting apparatus and a method which are compatible with analog graphics cards and digital graphics cards.

In response to the demand for high quality image display equipment, DDWG (Digital Display Working Group) has proposed a DVI (Digital Visual Interface) method using TMDS (Transition Minimized Differential Signaling). The DVI interface method digitally encodes and transmits an analog color signal and a horizontal and vertical synchronization signal. When the DVI interface method is used, a loss due to noise that may occur during transmission and reception may be minimized.

Referring to FIG. 1, which shows a schematic configuration diagram of an image display apparatus employing the DVI interface method, the image display apparatus 100 is a D-sub cable for transmitting and receiving an analog image signal to and from the PC main body 200. And a DVI cable for transmitting and receiving digital video signals.

The analog graphics card 202 included in the PC main body 200 provides an analog video signal to the D-sub interface unit 102 of the video display device 100 through the D-sub cable. The digital graphic card 202 included in the 200 provides a digital video signal to the DVI interface unit 108 of the video display device 100 through the DVI cable.

The analog graphics card 202 and the image display device 100 transmit and receive analog DDC data and DDC clock through a D-sub cable. In particular, the analog graphics card 202 may transmit the DDC data and the DDC clock at initialization. The analog EDID memory unit 104 reads the analog EDID table, which is a setting table of the video display device, through the used DDC communication path. Here, the EDID table is composed of the setting information of the video display device, and includes a manufacturer, a video signal type, a driving voltage allowance, a horizontal / vertical frequency allowance, and the like before the analog graphic card 202 transmits an analog video signal. Must be provided to analog graphics card 202.

The digital graphic card 204 and the image display device 100 transmit and receive digital DDC data and DDC clock through a DVI cable. In particular, the digital graphic card 204 uses the DDC data and the DDC clock at initialization. The digital EDID memory unit 110 reads the digital EDID table, which is a setting table of the image display device, through the communication path. Here, the EDID table is composed of the setting information of the video display device, and includes a manufacturer, a video signal type, a driving voltage allowance, a horizontal / vertical frequency allowance, and the like before the digital graphic card 204 transmits the digital video signal. Must be provided to digital graphics card 204.

As described above, in order to be compatible with commercially available analog video signals, a conventional D-sub interface has to be further provided.

Accordingly, the DDWG has come up with a DVI-I interface method for compatibility with commercially available analog video signals. The DVI-I connector according to the DVI-I interface method has pins 1 to 24 and pins C1 to C5 as shown in FIG. 1.

The role of the pins is as shown in Table 1 below.

pin Explanation pin Explanation pin Explanation One TMDS Data 2- 9 TMDS Data 1- 17 TMDS Data 0- 2 TMDS data 2+ 10 TMDS data 1+ 18 TMDS data 0+ 3 TMDS Data 2/4 Shield 11 TMDS Data 1/3 Shield 19 TMDS Data 0/5 Shield 4 TMDS Data 4- 12 TMDS Data 3- 20 TMDS Data 5- 5 TMDS data 4+ 13 TMDS data 3+ 21 TMDS data 5+ 6 DDC Clock 14 + 5V power 22 TMDS Clock Shield 7 DDC data 15 grounding 23 TMDS Clock + 8 Analog vertical sync 16 Hot plug detection 24 TMDS Clock

As shown in Table 1, the DVI-I connector pins the digital video signal TMDS data 0/1/2/3/4/5 / + /-pins 1,2,4,5,9,10,12,13 And the digital synchronization signal TMDS clock +/- through pins 23 and 24. The analog color signal and the analog horizontal / vertical synchronization signal are transmitted through pins C1, C2, C3, C4 and 8, and the DDC data and the DDC clock are transmitted through pins 6 and 7.

As such, the DVI-I connector can also transmit analog color signals and analog horizontal / vertical synchronization signals, thereby enabling analog video signals to be transmitted without a separate D-sub interface for analog video signals.

Referring to FIG. 3, which shows a schematic configuration diagram of an image display apparatus employing the DVI-I interface method, the image display apparatus 300 and the PC main body 400 are connected by a DVI-I cable. The DVI-I digital graphic card 402 included in the PC main body 400 may provide an analog or digital video signal to the video display device 300 through a DVI-I cable, and the DVI-I connector 302. You could also connect an analog graphics card directly.

According to the DVI-I interface method, only one DDC communication path exists between the image display device 300 and the PC main body 400. Accordingly, conventionally, one EDID memory unit 304 is connected to the DVI-I connector 302, and an analog EDID table is recorded in the EDID memory unit 304, or a digital EDID table is recorded and used.

However, since the DVI-I digital graphics card 402 does not operate normally when the digital EDID table is not provided at the time of initialization, conventionally, the reception of the analog video signal is abandoned and the EDID table for the digital EDID is stored in the EDID memory unit 304. In this case, the digital video signal is abandoned, and the EDID memory unit 304 records the analog EDID table for use.

As such, although a conventional video display device supporting only the DVI-I interface method can process analog video signals and digital video signals, EDID data cannot be stably provided to a corresponding type of graphics card. There was a problem that the kind used to be limited.

Accordingly, an object of the present invention is to provide an EDID table for each of an analog video signal and a digital video signal through a DVI-I terminal by a video display device that supports only the DVI-I interface method. The present invention provides a graphic card connecting apparatus and method for normally outputting a video signal.

1 and 3 are schematic configuration diagrams of a conventional graphic card connection device.

2 is a structural diagram of a typical DVI-I connector.

4 is a schematic structural diagram of a graphics card connecting apparatus according to a preferred embodiment of the present invention;

5 is a circuit diagram of an input sensing unit of FIG. 4.

FIG. 6 is a circuit of the EDID controller of FIG. 4. FIG.

Explanation of symbols on the main parts of the drawings

500: Video display device 502: DVI-I connector

504: Image signal processing unit 506: Input detection unit

508: EDID control unit 510: digital EDID memory unit

512: Analog EDID memory unit 600: PC main body

602: analog graphics card 604: DVI-I digital graphics card

Graphic card connection device of the present invention for achieving the above object, the input sensing unit for detecting the type of graphics card connected to the DVI-I connector through the potential of any one of the pins of the DVI-I connector, and various A plurality of memory units for storing a video display device setting table according to the type of graphics card, a controller for connecting a memory unit corresponding to the type of graphics card detected by the input sensing unit and a communication path of the DVI-I connector; Characterized in having.

Typically, a DVI-I digital graphics card in the PC body provides +5 [V] power to pin 14 of the DVI-I connector via a DVI-I cable, while analog graphics cards provide DVI-I through a D-sub cable. It does not provide power to pin 14 of the connector.

Accordingly, the present invention provides a digital EDID memory unit for recording a digital EDID table and an analog EDID memory unit for recording an analog EDID table, respectively, and according to the power supply state of pin 14 of the DVI-I connector. -Connect DDC communication path of connector to digital EDID memory or analog EDID memory. Thus, the present invention can stably provide an analog EDID table and a digital EDID table even in a video display device supporting only a DVI-I interface having one DDC communication path.

Referring to FIG. 4, which is a block diagram of a video display device according to a preferred embodiment of the present invention, the DVI-I connector 502 included in the video display device 500 is connected via a D-sub cable. The graphics card 602 may be connected, or the DVI-I digital graphics card 604 may be connected via a DVI-I cable.

When the analog graphic card 602 is connected to the DVI-I connector 502 of the video display device 500 through a D-sub cable, and initialized, the analog graphics card 602 is stored in the analog EDID memory unit 512 through a DCC communication path. Read the EDID table. In addition, the analog graphics card 602 provides an analog video signal to the video display device 500, and the analog video signal is processed and output by the video signal processor 504.

After the DVI-I digital graphic card 604 is connected to the DVI-I connector 502 through the DVI-I cable and initialized, the digital EDID table stored in the digital EDID memory unit 510 is transferred through the DDC communication path. Read it. In addition, the DVI-I digital graphics card 604 provides a digital video signal to the video display device 500, and the digital video signal is processed and output by the video signal processor 504.

The EDID control unit 508 connects the DDC communication path of the DVI-I connector 502 and the digital EDID memory unit 510 according to the graphics card detection signal provided by the input detection unit 506, or the analog EDID memory unit. By connecting 512, the DVI-I digital graphics card 604 and the analog graphics card 602 can normally be provided with a digital EDID table or an analog EDID table even with one DDC communication path.

The input sensing unit 506 determines whether the DVI-I digital graphics card 604 or the analog graphics card 602 is connected through the potential of the signal input to the pin 14 of the DVI-I connector 502. And output the result as a graphics card detection signal.

The input detector 506 will be described in more detail with reference to the circuit diagram of FIG. 5. The input sensing unit 506 is a buffer consisting of transistors Q and resistors R1 and R2. When the power of +5 [V] is input to pin 14 of the DVI-I connector 502, the input sensing unit 506 detects a high state graphics card. Outputs a signal, and outputs a graphics card detection signal in a low state when power is not input to the pin 14. Here, since the DVI-I digital graphics card 604 provides +5 [V] power to pin 14 of the DVI-I connector 502, the high-level graphics card detection signal is a DVI-I digital graphics. Card, and a low state graphics card detection signal indicates an analog graphics card. This graphics card detection signal is provided to the EDID control unit 508.

The EDID control unit 508 will be described in more detail with reference to the circuit diagram of FIG. 6. The EDID controller 508 includes a switching element SW and first and second diodes D1 and D2. The first and second diodes D1 and D2 provide a power supply from the DVI-I digital graphic card 604 or a main power supply of the image display device as a driving power supply of the switching element SW.

The switching element SW connects pins 6 and 7 of the DVI-I connector, which is a DDC communication path, with the digital EDID memory unit 510 when the graphics card detection signal provided by the input sensing unit 506 is high. When the graphics card detection signal is in a low state, pins 6 and 7 of the DVI-I connector, which is a DDC communication path, are connected to the analog EDID memory unit 512.

Now, the operation of the image display device according to the present invention will be described.

When power is supplied to the PC main body 600 and the DVI-I digital graphics card 604 is supplied, the DVI-I digital graphics card 604 supplies power to pin 14 of the DVI-I connector 502. do. When power is supplied to pin 14 of the DVI-I connector 502 as described above, the input detector 506 of the video display device 500 provides the EDID controller 508 with a high state graphics card detection signal. The EDID controller 508 connects pins 6 and 7 of the DVI-I connector 502 and the digital EDID memory unit 510 according to the high state graphics card detection signal.

The DVI-I digital graphics card 604 is stored in the digital EDID memory unit 510 when pins 6 and 7 of the DVI-I connector 502 and the digital EDID memory unit 510 are connected as described above. Read the digital EDID table and start the normal digital video signal transmission.

Alternatively, if power is supplied to the analog graphics card 602 of the PC main body 600, the analog graphics card 602 does not supply power to pin 14 of the DVI-I connector 502. When power is not supplied to pin 14 of the DVI-I connector 502 as described above, the input detector 506 of the image display device 500 provides the EDID controller 508 with a low state graphics card detection signal. The EDID controller 508 connects pins 6 and 7 of the DVI-I connector 502 and the analog EDID memory unit 512 according to the low state graphics card detection signal.

When the analog graphics card 602 is connected to pins 6 and 7 of the DVI-I connector 502 and the analog EDID memory unit 512 as described above, the analog EDID stored in the analog EDID memory unit 512 is used. Read the table and start transmission of normal analog video signal.

As described above, the present invention detects the type of graphics card connected to the DVI-I connector and connects the EDID memory unit and the DDC communication path corresponding to the detected type of the graphics card to support only the DVI-I interface method. Video display devices also have the advantage of being able to operate in conjunction with various types of graphics cards.

Claims (4)

In the graphic card connection device of the video display device, An input detector for detecting a type of graphics card connected to the DVI-I connector through a potential of any one of pins of the DVI-I connector; A plurality of memory units which respectively store a video display device setting table according to various graphics cards; And a controller for connecting a memory unit corresponding to the type of graphics card detected by the input sensing unit and a communication path of the DVI-I connector. The method of claim 1, wherein the input detecting unit, And a buffer for buffering and outputting a signal input to pin 14 of the DVI-I connector. The method according to claim 1 or 2, wherein the control unit, And a switching element for switching the plurality of memory units and the communication path according to the output of the input sensing unit. In the graphic card connection method of the video display device, Detecting the type of graphics card connected to the DVI-I connector through the potential of any one of the pins of the DVI-I connector; And when the type of the graphics card is detected, connecting a communication path between the memory unit corresponding to the type of the graphics card detected by the input sensing unit and the DVI-I connector.