KR200186988Y1 - Edid writing device at a white balance auto control - Google Patents

Abstract

The present invention relates to a color coordinate EDID storage device for automatic white balance adjustment, and includes a control jig storing color data for white balance adjustment and a color coordinate of color data stored in the control jig. A memory of the monitor receiving and storing in the EDID area, a color analyzer for detecting a full white pattern represented by the color coordinates stored in the EDID area in the monitor memory and transmitting data according to the color analyzer; After calibrating the color data transmitted by the analyzer and transmitting it to the control jig to update the color coordinates stored in the EDID area in the monitor's memory, configure a PC to monitor the information related to the monitor in the DDC data area in the monitor's memory. Save the information to provide monitor-related information at any time As it is more efficient to store the actual data that you can.

Description

Color coordinates EID storage device for automatic white balance adjustment

The present invention relates to a color coordinate extended identification (abbreviated as EDID) storage device for automatic white balance adjustment, and particularly to color coordinate data in an EDID data area in a monitor having a DDC function. And an apparatus for storing monitor information.

In general, a monitor adjusts an accurate screen state so that a user may conveniently use the monitor in a factory mode adjustment process. That is, a step of using the monitor and the I ² C bus, that is produced by using the external adjustment jig (Jig) transmission and the like timing data of the horizontal / vertical sync frequency, the polarity of the sync frequency, resolution, and display information data on the monitor .

In the factory mode stored by the factory mode adjustment process, if there is no user mode data adjusted by the user after the monitor is powered on, the screen state by the factory mode data is displayed on the monitor.

The color adjustment process of the factory adjustment process will be described in more detail with reference to the accompanying drawings.

As shown in FIG. 1, screen adjustment data stored in the control jig 100 is transmitted to the memory (not shown) of the monitor 200 under factory mode adjustment through I ² C communication (①) and parallel communication (②). Save it. Screen adjustment data in the memory of the monitor 200 is displayed on the monitor 200 in a full white pattern.

The full white pattern displayed on the monitor 200 is analyzed by the color analyzer 300 through parallel communication (②) and the result is transmitted to the PC 400 through RS-232 communication (③). Data analyzed by the color analyzer 300 transmitted to the PC 400 is processed by the PC 400 and transmitted to the control jig 100 through RS-232 communication (4).

That is, the data generated by the color analyzer 200 analyzing the full white pattern displayed on the monitor 200 is transmitted to the PC 400 for analysis and correction. The corrected data is transmitted by the PC 400 to the control jig 100 through RS-232 communication (④) and back to the monitor 200 via I ² 2 communication (①).

The monitor 200 receiving the corrected screen adjustment data through I ² C communication (①) stores the data in a memory and displays a full white pattern. The full white pattern displayed on the monitor 200 is analyzed by the color analyzer 300 again, and the result is transmitted to the PC 400 through RS-232 communication (③) to be corrected, and then the memory of the monitor 200 is displayed. Is updated.

Through this iterative process, white balance adjustment is performed. The color data adjusted in this process is to be able to check the data through the white balance adjustment operation, there is a problem that can not be easily confirmed when a general user (User) is required.

Therefore, to solve the above problems, the present invention stores the color coordinate values generated by the white balance automatic adjustment operation in the EDID data area of the monitor having the DDC function so that the general user can easily check them through the DDC function. do.

The present invention for achieving the above object, the control jig (Control jig) storing the color data for white balance adjustment, the monitor memory for receiving the color coordinates of the color data stored in the control jig and stored in the EDID region and A color analyzer for detecting a full white pattern represented by color coordinates stored in an EDID area in the monitor memory and transmitting data according to the color analyzer; and correcting color data transmitted by the color analyzer. Characterized in that it comprises a PC for transmitting to the control jig to update the color coordinates stored in the EDID area in the memory of the monitor.

1 is a configuration diagram of an image adjusting device of a conventional monitor;

2 is a view of the color coordinate EDID storage device at the time of automatic white balance adjustment according to the present invention

It is a block diagram.

Looking at the present invention using the attached Figure 2 as follows.

2 is a block diagram of a color coordinate EDID storage device for automatic white balance adjustment according to the present invention. As shown, a control jig 10 storing color data for white balance adjustment and a monitor 20 receiving color coordinates among the color data stored in the control jig 10 and storing the color coordinates in an EDID area. ) And a color analyzer 30 that detects a full white pattern represented by color coordinates stored in an EDID area in the memory 21 of the monitor 20 and transmits data accordingly. ) And after correcting the color data transmitted by the color analyzer 30 to the control jig 10 to update the color coordinates stored in the EDID area in the memory 21 of the monitor 20. PC 40 is configured.

Looking at the present invention in more detail as follows.

In general, the data structure of a DDC includes a header data area, a vendor / product identification (hereinafter, referred to as an ID) data area, and an EDID version / revision ( It consists of a structure of a plurality of data areas, such as a revision data area and a basic parameter / picture data area.

This data structure is allocated to the data area in the memory 21 of the monitor 20. When an area according to the DDC data structure is allocated to the memory 21, information is stored in the allocated area in bytes. In this case, the present invention stores the color coordinates generated by automatic white balance adjustment in the EDID area storing the version or revision data of the monitor 20 of the DDC data structure.

More specifically, as shown in FIG. 2, the color coordinate data DATA of the full white pattern stored in the jig 10 is stored in the DDC data structure in the memory 21 of the monitor 20 according to a clock cycle. . In particular, it stores in the EDID data area of the area of the DDC data structure.

When the color coordinate data DATA is stored in the EDID data area of the memory 21 from the control jig 10 according to the clock cycle, the full white pattern is displayed on the screen of the monitor 20. Display. The full white pattern displayed on the monitor 20 screen is detected by the color adjuster 30 to adjust the white balance, and the detected result is transferred to the PC 40 by the RS-232 communication protocol. send.

Upon receiving the result detected by the color adjuster 30 according to the white balance adjustment, the PC 40 clocks the color coordinate data DATA according to the result when the transmitted result is a normal white balance. It is stored in the memory 21 according to the (CLOCK) cycle. On the contrary, if the white balance is abnormal, it is corrected and the color coordinate data DATA is stored in the memory 21 according to the clock cycle. At this time, the memory 21 uses E ² PROM.

In particular, the color coordinate data DATA according to the white balance adjustment is stored in the EDID area of the memory 21 to be displayed at any time when the user requests the DDC, thereby providing convenience for the user. At this time, when the user requests the DDC can be viewed using the on-screen display (On screen display) function in the monitor 20.

In this way, the DDC data area is allocated to the memory 21 of the monitor 20, and the color coordinate data according to the white balance adjustment, as well as other data related to the monitor 20, are allocated to the allocated area through the same process as the color coordinate data. When storing, it is possible to provide a user with more information related to the monitor 20.

As described above, the present invention stores the information related to the monitor in the DDC data area in the memory of the monitor, thereby providing an effect of storing more efficient and practical data that can be provided with the information related to the monitor at any time. do.

Claims (2)

Control jig that stores color data for white balance adjustment, A memory of the monitor which receives color coordinates among the color data stored in the control jig and stores them in an EDID area; A color analyzer for detecting a full white pattern represented by color coordinates stored in an EDID area in the monitor memory and transmitting data according to the full white pattern; And a PC for correcting the color data transmitted by the color analyzer and transmitting the color data to the control jig to update the color coordinates stored in the EDID area in the monitor's memory. The method of claim 1, The memory of the monitor, the color coordinate EDID storage device for automatic white balance adjustment, characterized in that E ² PROM is used.