KR100534121B1 - Measuring apparatus of video signal - Google Patents

Abstract

The present invention relates to a video signal measuring apparatus, comprising: a video signal input unit to which a video signal from a video card is input; A video signal output unit for outputting the video signal to a monitor; A video signal transmission passage for outputting the video signal inputted through the video signal input unit to the monitor through the video signal output unit; In order to measure the video signal output to the video signal output unit, it characterized in that it comprises a plurality of video signal measuring terminals provided on the video signal transmission path for outputting the video signal. Accordingly, it is possible to provide a video signal measuring apparatus capable of measuring the video signal and determining the state of the screen according to the characteristics of the video signal.

Description

Video signal measuring device {MEASURING APPARATUS OF VIDEO SIGNAL}

The present invention relates to a video signal measuring apparatus, and more particularly, to a video signal measuring apparatus capable of measuring a video signal and determining the state of a screen according to the characteristics of the video signal.

In general, in order to measure RGB signals, synchronization signals, and DDC signals outputted from a video card of a computer main body to a monitor, signal signals of the video card are directly measured using a scope.

However, since the conventional video signal measurement directly measures the signal output stage of the video card with a scope, only the RGB signal, the synchronization signal, and the DDC signal of the video signal can be measured. That is, since the video signal measured using the scope is not output to the monitor, it is difficult to confirm that the measured video signal is displayed on the monitor and to determine whether there is noise on the screen according to the characteristics of the video signal.

When the video signal is measured using the scope, accurate measurement of the signal is difficult because the impedance of the scope does not match the impedance of the signal terminal. That is, the reliability of the measured signal is inferior.

In addition, the independent measurement of the DDC signal is impossible without the monitor.

Accordingly, an object of the present invention is to provide a video signal measuring apparatus capable of measuring the video signal and determining the screen state according to the characteristics of the video signal.

 Another object of the present invention is to provide a video signal measuring apparatus capable of measuring an accurate video signal.

Another object of the present invention is to provide a video signal measuring apparatus capable of measuring a DDC signal without a monitor.

According to the present invention, there is provided a video signal measuring apparatus, comprising: a video signal input unit to which a video signal from a video card is input; A video signal output unit for outputting the video signal to a monitor; A video signal transmission passage for outputting a video signal from the video card input through the video signal input unit to the monitor through the video signal output unit; And a plurality of video signal measuring terminals provided on the video signal transmission path for outputting the video signal to measure the video signal output to the video signal output unit. .

Here, horizontal and vertical synchronization signals, RGB signals, DDC data, and DDC clock signals are output through the video signal measurement terminal.

On the other hand, according to the present invention, there is provided a video signal measuring apparatus comprising: a video signal input unit to which a video signal from a video card is input; A plurality of video signal measuring terminals for outputting the video signal to measure the video signal inputted through the video signal input unit; It is also achieved by a video signal measuring apparatus comprising an impedance matching section for correcting the impedance difference between the video signal input section and the video signal measuring terminal.

Here, the impedance matching unit preferably follows the impedance specification of the VESA standard.

 Preferably, horizontal and vertical synchronization signals and RGB signals are output through the video signal measurement terminal.

In addition, the DDC signal providing unit for providing display information data to the video card according to the DDC data and the DDC clock signal provided from the video card through the video signal input unit; And a plurality of DDC signal measuring terminals for measuring the DDC data provided from the video card to the DDC signal providing unit and the display information data output from the DDC clock signal and the DDC signal providing unit through the video signal input unit. Thus, the DDC signal can be measured without a monitor.

The apparatus further includes a power connection unit connected to a power supply unit for supplying operation power to the DDC signal providing unit. When the video card does not support the operation power supply of the DDC signal providing unit, the DDC signal providing unit is provided from the power supply unit through the power connection unit. It is desirable to be supplied with operating power.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a video signal measuring apparatus according to a first embodiment of the present invention. As shown in the figure, the video signal measuring apparatus 40 includes a video signal input unit 42 for receiving a video signal from the video card 20 and a video signal input through the video signal input unit 42. A video signal output passage 46 for outputting to the monitor 30, a video signal transmission passage 48 connecting the video signal input portion 42 and the video signal output portion 46, and a video signal transmission passage 48. A plurality of video signal measuring terminal 44 provided on the.

The video signal input unit 42 and the video signal output unit 46 may be analog D-sub terminals or DVI (Digital Video Interface) terminals provided in the video card 20 and the monitor 30, respectively. The signal input section 42 and the video signal output section 46 will be described as an example of being a D-sub terminal.

For reference, the pin arrangement diagram of the D-sub terminal and the signals input and output through the corresponding pins are shown in FIG.

TABLE 1

PIN number Separate synchronous method Synchronous Synchronous Method One Red (R) Red (R) 2 Green (G) Green (G) 3 Blue (B) Blue (B) 4 grounding grounding 5 DDC ground DDC ground 6 Red (R) ground Red (R) ground 7 Green (G) ground Green (G) ground 8 Blue (B) ground Blue (B) ground 9 Spare Spare 10 Synchronous ground Synchronous ground 11 grounding grounding 12 DDC data DDC data 13 Horizontal sync signal Synchronous Synchronization Signal 14 Vertical sync signal not used 15 DDC Clock DDC Clock

The video signal input from the video card 20 through the D-sub terminal includes an R / G / B signal, a horizontal synchronization signal, a vertical synchronization signal, display data channel (DDC) data, and a DDC clock.

The video signal transmission path 48 is a video signal input unit 42 for transmitting the video signal of the video card 20 input through the video signal input unit 42 to the monitor 30 through the video signal output unit 46. And a signal transmission line electrically connecting the video signal output section 46 to the video signal output section 46.

A plurality of video signal measurement terminals 44 are provided on the video signal transmission path 48, and are provided on signal lines of R / G / B signals, horizontal synchronization signals, vertical synchronization signals, DDC data, and DDC clock, respectively. Accordingly, in order to measure the R / G / B signal, the horizontal synchronization signal, and the vertical synchronization signal transmitted to the monitor 30 through the video signal transmission path 48, a measurement device such as a scope is connected to the video signal measurement terminal. (44) can be connected. The video signal measuring terminal 44 is connected to the video signal measuring terminal 44 when a measuring device such as a scope is connected to the video signal measuring terminal 44, and the measuring device is connected to the R / G / B signal, the horizontal synchronization signal, the vertical synchronization signal, the DDC data, and the DDC clock. It can be connected to the signal line of the R / G / B signal, the horizontal synchronous signal, the vertical synchronous signal, DDC data and DDC clock outputs to the measuring device. Accordingly, the R / G / B signal, the horizontal synchronization signal, the vertical synchronization signal, the DDC data, and the DDC clock may be measured through the video signal measurement terminal 44.

In addition, the video signal transmitted through the video signal transmission path 48 can be output to the monitor 30 through the video signal output unit 46, the characteristics of each signal measured through the video signal measurement terminal 44 Depending on the state of the screen can be determined. In other words, the R / G / B signal, the horizontal synchronous signal, the vertical synchronous signal, the DDC data, and the noise displayed on the screen according to the characteristics of the DDC clock can be accurately analyzed through the video signal measurement terminal 44.

2 is a block diagram of a video signal measuring apparatus according to a second embodiment of the present invention. As shown in the figure, the video signal measuring apparatus 80 includes a video signal input unit 82 for receiving a video signal from the video card 60 and a video signal input through the video signal input unit 82. A plurality of video signal measuring terminals 86 for measurement, an impedance matching unit 84 for correcting the impedance difference between the video signal input unit 82 and the video signal measuring terminal 86, and a video signal input unit 82 The DDC signal providing unit 90 for providing the display information data to the video card 60 according to the DDC data and the DDC clock received from the video card 60, and the DDC data and the DDC clock outputted from the video card 60. And a power connection unit 92 to which a DDC signal measuring terminal 88 for measuring display information data output from the DDC signal providing unit 90 and a power supply unit for supplying operating power to the DDC signal providing unit 90 are connected. It includes.

The video signal input unit 82 may be an analog D-sub terminal or a DVI (Digital Video Interface) terminal provided in the video card 60. In this embodiment, the video signal input unit 82 is a D-sub terminal. Explain.

The video signal measuring terminal 86 outputs an R / G / B signal, a horizontal synchronization signal, and a vertical synchronization signal input through the video signal input unit 82. Accordingly, in order to measure the R / G / B signal, the horizontal synchronizing signal, and the vertical synchronizing signal input through the video signal input unit 82, a measuring device such as a scope may be connected to the video signal measuring terminal 86. have.

The impedance matching unit 84 corrects an impedance difference between the video signal input unit 82 and the video signal measuring terminal 86 to correct the impedance difference through a measuring device such as a scope connected to the video signal measuring terminal 86. Enable measurement of video signals. Here, the impedance matching unit 84 follows the impedance specification of the VESA standard.

4A and 4B show impedance specifications of the VESA standard for a video signal test circuit.

In the case of the synchronization signal, as shown in FIG. 4A, a resistance of 2.2 kV is applied in parallel to the video signal measuring terminal 86 to match impedance, and in the case of the analog R / G / B signal, the R, G, B signal is applied. 75Ω resistors are connected to the video signal measuring terminals 86, respectively, connected in parallel to match impedance.

DDC signal providing unit 90 is preferably composed of a DDC IC and a plurality of resistors. The DDC IC stores display information data such as maximum resolution, color coordinates, signal level, DPMS support, and the like, when the DDC data and the DDC clock from the video card 60 connected to the video signal input unit 82 are applied. The display information data is provided to the video card 60.

The DDC signal measuring terminal 88 is provided on the signal line between the DDC signal providing unit 90 and the video signal input unit 82 from the DDC data output from the video card 60 and the DDC clock and the DDC signal providing unit 90. It is used to measure the output display information data.

Here, when the video card 60 supports the DDC IC driving power, the DDC IC receives the driving power from the video card 60. However, when the video card 60 does not support the DDC IC driving power, the DDC IC may be supplied with the driving power through the adapter 70 connected to the power connection unit 92.

Meanwhile, in the above-described first and second embodiments, the video signal input units 42 and 82 and the video signal output unit 46 are D-sub terminals, but the DVI terminals, the BNC terminals, and the like are also possible.

On the other hand, although the DDC IC is configured to receive power from the adapter 70, it is also possible to configure to receive battery power.

As described above, the present invention measures the video signal output from the video card through the video signal measurement terminal and outputs it through the monitor, so that the state of the screen according to the characteristics of the video signal can be determined while measuring the video signal.

In addition, the present invention is possible to accurately measure the video signal by matching the impedance between the video signal measuring terminal and the video signal input unit, and to provide a DDC signal providing unit to measure the DDC signal without a monitor.

The present invention is not limited to the above-described embodiment and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, a video signal measuring apparatus capable of measuring a video signal and determining a state of a screen according to characteristics of a video signal is provided.

In addition, according to the present invention, a video signal measuring apparatus capable of measuring an accurate video signal is provided.

In addition, according to the present invention, there is provided a video signal measuring apparatus capable of measuring a DDC signal without a monitor.

1 is a block diagram of a video signal measuring apparatus according to a first embodiment of the present invention;

2 is a block diagram of a video signal measuring apparatus according to a second embodiment of the present invention;

3 is a pin arrangement diagram of a D-sub terminal,

4A and 4B are diagrams illustrating impedance specifications according to the VESA standard.

* Explanation of symbols for the main parts of the drawings

20, 60: video card 30: monitor

40, 80: video signal measuring device 42, 82: video signal input unit

44, 86: video signal measurement terminal 46: video signal output unit

48: video signal transmission path 70: adapter

84: impedance matching unit 88: DDC signal measurement terminal

90: DDC signal providing unit 92: power connection

Claims (7)

In the video signal measuring apparatus, A video signal input unit to which a video signal from the video card is input; A video signal output unit for outputting the video signal to a monitor; A video signal transmission passage for outputting the video signal inputted through the video signal input unit to the monitor through the video signal output unit; And a plurality of video signal measuring terminals provided on the video signal transmission path to output the video signal to measure the video signal output to the video signal output unit. The method of claim 1, And a horizontal and vertical synchronization signal, an RGB signal, a DDC data, and a DDC clock signal of the video signal are output through the video signal measuring terminal. In the video signal measuring apparatus, A video signal input unit to which a video signal from the video card is input; A plurality of video signal measuring terminals for outputting the video signal to measure the video signal inputted through the video signal input unit; And an impedance matching unit for correcting an impedance difference between the video signal input unit and the video signal measuring terminal. delete The method of claim 3, And a horizontal and vertical synchronous signal and an RGB signal of the video signal are output through the video signal measuring terminal. The method of claim 3, A DDC signal providing unit for providing display information data to the video card according to the DDC data and the DDC clock signal provided from the video card through the video signal input unit; And a plurality of DDC signal measuring terminals for measuring the DDC data and the DDC clock signal provided from the video card to the DDC signal providing unit and the display information data output from the DDC signal providing unit through the video signal input unit. Video signal measuring apparatus comprising a. The method of claim 6, And a power connection unit to which a power supply unit for supplying operation power to the DDC signal providing unit is connected.