JP4029692B2 - Display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention designates an arbitrary video memory in a display device such as a PDP having a plurality of video memories for storing video adjustment values that are set values of various video adjustment items such as contrast and brightness. The present invention relates to a display device that can be stored and read out.
[0002]
[Prior art]
Conventionally, a display device such as a PDP has an area in which a set value of many image adjustment items such as γ correction, color temperature, etc. can be freely combined and stored in addition to contrast, brightness, sharpness, etc., as in a television receiver. (Hereinafter referred to as video memory) is provided, and video adjustment is performed using a function (hereinafter referred to as video memory function) in which video adjustment values are stored / read using this video memory and reflected in the displayed video. It was.
[0003]
FIG. 5 is a block diagram illustrating a conventional PDP display apparatus. In this figure, reference numeral 10 denotes an analog video signal input terminal. The analog video signal from the analog video signal input terminal 10 is input to the A / D converter 11 and converted into a digital video signal. The converted digital video signal is input to the digital signal processing circuit 12 and subjected to various signal processing, and then output to the PDP panel 13.
[0004]
Here, in order to adjust various image adjustment items such as brightness, setting change is designated by the remote controller 14 or a key button for operating the main body (not shown), and a remote control signal is received by the remote control light receiving unit 15. A control signal is sent from the unit 15 to the microcomputer 16. The microcomputer 16 changes the setting of various video adjustment items used for signal processing in accordance with the setting change designation from the remote controller 14, and the control signal to the digital signal processing circuit 12 thereafter is changed along with this change, and is displayed. Reflected. The setting changes of the various video adjustment items are saved in a video memory provided in the EEPROM 17 connected to the microcomputer 16.
[0005]
The PDP display device includes a plurality of video memories corresponding to video input sources, for example, personal computer images, DVD images, VTR images, and the like. FIG. 4 is a conventional flowchart for explaining the flow of changing the video memory and storing the setting changes of various video adjustment items in this case. Hereinafter, the flow will be described with reference to the drawings.
(A) Set the input mode at the start. When displaying an image on the PDP panel, one of the input modes is already selected, and one of the plurality of image memories is already selected and read from the image memory. The digital signal processing is performed according to the set values of the various video adjustment items of the video adjustment values.
(B) It is determined whether or not the designation of the video memory is changed (YES) or not (NO). If the designation of the video memory is changed here (YES), go to (c), and if not (NO) The flow moves to (e).
(C) When the designation of the video memory is changed (YES), the remote controller 14 performs processing for changing to the designated video memory while looking at the PDP panel.
(D) After changing the designation of the video memory, the digital signal processing circuit 12 performs signal processing through the microcomputer 16 according to the setting values of various video adjustment items from the designated video memory, and reflects them on the display of the PDP panel 13. Thereafter, returning to (b), it is determined again whether or not to change the designation of the video memory. If it is changed (YES), the process proceeds to (c) again. If it is not changed (NO), the process proceeds to (e).
(E) It is determined whether there is a change in the content of the video adjustment value stored in the video memory (YES) or not (NO). If there is a change in the content of the video adjustment value (YES), Move to (f), and if not (NO), return to (b).
(F) When there is a change in the content of the video adjustment value in the video memory (YES), the saving is selected by the remote controller 14 in order to save this change, and the video changed via the remote control light receiving unit 15 and the microcomputer 16 is selected. The adjustment value is saved in the currently selected video memory and restored.
[0006]
[Problems to be solved by the invention]
FIG. 6 is a conceptual diagram showing a case in which a video memory is selected and stored in a conventional PDP display device, and a PDP display having a plurality of video memories (three areas in the illustrated example) of video adjustment values for different input modes. It is the example which showed the apparatus. For example, when the currently selected input mode is video 1, assuming that the video memory 1-1 is selected as the memory designation among the three memory areas, the video stored in the video memory 1-1 The adjustment value is reflected on the display of the PDP display. When the various video adjustment items of the video adjustment value in the selected video memory 1-1 are changed, the change is saved in the storage area of the video memory 1-1 which is the selected video memory. Therefore, it cannot be stored in the memory area of the video memory 1-2 or 1-3 that is not currently selected. To read another video memory, for example, by changing the memory designation from the video memory 1-1 to the video memory 1-2, the video adjustment value is read from the video memory 1-2 and displayed. The change of the adjustment value can be stored only in the currently selected video memory 1-2, as in the case of the video memory 1. The same applies to the video memory 1-3 in the other input modes. Of course, the video memories are completely independent between the different input modes, and it is impossible to save changes between the video memories.
[0007]
Thus, in the conventional PDP display device, when there are a plurality of video memories, each video memory is independent. Therefore, the setting change made to the read video memory is the currently selected video memory. It was saved only to the video, and could not be saved to other video memories. Therefore, in order to make a change to another video memory, it is necessary to read and change the video memory to be changed each time.
Also, if you want to set the same video memory for different input modes, you must read the video memory for each input mode and adjust the settings individually, which is very inconvenient and mutual. There was a possibility that the adjustment value of was different.
[0008]
The present invention has been made in view of the above problems, and an object of the present invention is to provide a PDP display device that can arbitrarily store and read a plurality of video memories.
[0009]
[Means for Solving the Problems]
The present invention performs control based on a memory that stores various video adjustment values, and an input control signal for storing, reading, and changing the video adjustment values in the memory, and outputs a control signal for video adjustment A microcomputer, a digital signal processing unit that performs various signal processing of the input digital video signal by a control signal output from the microcomputer, and a display panel that displays an image based on the digital signal processed by the digital signal processing unit And a plurality of dedicated memories respectively provided corresponding to a plurality of input modes, and a plurality of memory units that can mutually access these dedicated memories and store various video adjustment values as data. And the microcomputer assigns video adjustment values to the dedicated memory for the currently selected input mode. A function of reading from the image memory, a display apparatus characterized by having a function to store the current image adjustment value after the change which is stored in a dedicated memory of the input mode in the arbitrarily selected video memory.
[0010]
With this configuration, when reading the video adjustment value, it is possible to read from any video memory by selecting the video memory to be read, and when saving the video adjustment value, select the video memory to be saved. Thus, it can be stored in an arbitrary video memory, whereby information can be shared between different input modes, and simpler video adjustment can be performed.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
FIG. 2 is a block diagram illustrating a PDP display apparatus according to the present invention. In this figure, reference numeral 20 denotes an analog video signal input terminal. The analog video signal from the analog video signal input terminal 20 is input to the A / D converter 21 and converted into a digital video signal. The converted digital video signal is input to the digital signal processing circuit 22 and subjected to various signal processing, and then output to the PDP panel 23.
[0012]
Here, in order to adjust various image adjustment items such as brightness, contrast, sharpness, γ correction, and color correction, setting change is designated by the remote control 24 or a key button of the main body operation (not shown), and the remote control light receiving unit 25. The remote control signal is received at, and a control signal is sent from the remote control light receiving unit 25 to the microcomputer 26. The microcomputer 26 changes the setting of various video adjustment items used for signal processing in accordance with the setting change designation from the remote controller 24. With this change, the control signal to the digital signal processing circuit 22 thereafter is changed and displayed. Reflected. Data for changing the settings of the various video adjustment items is stored in a memory 27 such as an EEPROM (electrically erasable PROM) connected to the microcomputer 26.
[0013]
As shown in FIG. 3, the memory 27 has a dedicated memory (for example, video 1, video 2,..., RGB1) for each input mode (for example, video 1, video 2,..., RGB1). , RGB 1) are provided, and a plurality of, for example, 10 video memories commonly used in all these input modes are provided. With this configuration, when various video adjustment item settings are changed, the data is temporarily saved in the dedicated memory provided for the currently selected input mode. The video memory used in common can be selected and saved. As described above, the present invention is characterized by the function of controlling the storage / reading of an arbitrary video memory by the microcomputer 26.
[0014]
FIG. 1 is a flowchart illustrating a flow of changing a video memory and storing a change in setting of various video adjustment items when there are a plurality of video memories in the PDP display device of the present invention. Hereinafter, the flow will be described with reference to the drawings.
(A) At the start of displaying video on the PDP panel, one of a plurality of input modes, for example, video 1, video 2, RGB1, etc. is set.
(B) It is determined whether or not to specify reading of the video memory (YES) or not (NO). When specifying (YES), go to (c), and when not (NO), go to (d). The flow moves.
(C) When the readout of the video memory is designated (YES), the designation processing is performed while looking at the PDP panel 23 using the remote controller 24 or a key button for operating the main body (not shown), and various video adjustment values after the readout are The data is written in the dedicated memory for the currently selected input mode, processed by the digital signal processing circuit 22 through the microcomputer 26, and reflected on the display of the PDP panel 23. After the display is reflected, the process returns to (b) and it is determined again whether or not the video memory is designated to be read. If it is designated (YES), the process proceeds to (c) again, and if it is not designated (NO), the process proceeds to (d).
(D) In the case where the reading of the video memory is not designated (NO) in the previous stage (b), it is determined whether or not the content of the video adjustment value being displayed is changed (YES) or not (NO). If the image adjustment value being displayed is changed (YES), the flow goes to (e), and if not (NO), the flow goes to (f).
(E) When the image adjustment value being displayed in the previous stage (d) is changed (YES), the change process is performed while looking at the PDP panel 23 with the remote controller 24 or a key button for operating the main body (not shown), and the changed The various video adjustment values are rewritten in the dedicated memory for the input mode being selected, are signal processed by the digital signal processing circuit 22 through the microcomputer 26, and are reflected on the display of the PDP panel 23.
(F) When the image adjustment value being displayed in the previous stage (d) is not changed (NO), it is determined whether the content of the image adjustment value is stored in the specified image memory (YES) or not (NO). If the contents of the video adjustment value are stored (YES), the process proceeds to (g). If not (NO), the process returns to (b).
(G) When saving the contents of the video adjustment value in the video memory designated in the previous stage (f) (YES), it is designated which video memory is to be saved among a plurality of video memories. In this case, an arbitrary video memory can be selected as a storage destination regardless of the video memory to be read out. When the video memory to be saved is designated, the currently displayed video adjustment value is saved in the designated video memory. After saving, return to the original (b).
[0015]
As described above, according to the present invention, regardless of the video memory from which the video adjustment value is read, any video memory can be saved by arbitrarily selecting the video memory to be saved. it can. This is conceptually shown in FIG. As shown in FIG. 3, the video adjustment is performed by the dedicated memory of the corresponding input mode, but the storage / reading can be performed for any of the video memories 1 to 10, and It can also be used independently. These multiple video memories are used in common by all dedicated memories provided for each input mode, so even if the input mode is switched, the video adjustment values stored in the shared video memory can be read. The same setting can be made easily.
[0016]
Also, if you want to change the setting value of the video adjustment item between multiple video memories little by little, or if you want to change the setting value of the video adjustment item little by little between different input modes, change the adjustment value little by little and save it. In this case, there is an effect that arbitrary storage / reading can be performed. For example, when it is desired to store the video adjustment values slightly shifted in contrast from each other in the video memories 1, 2,..., In the conventional technique, the video adjustment values stored in the video memory 1-1 are used. In order to shift only the contrast of the video memory 1-2 and the video memory 1-3 little by little as a reference, the video adjustment value of the video memory 1-2 is read, and various video adjustment items other than the contrast are read from the video memory 1-1. Is stored in the video memory 1-2, and the video adjustment value in the video memory 1-3 is read out, and various video adjustment items other than the contrast are adjusted in the video memory 1-1. Furthermore, it is only necessary to store the data slightly shifted in the video memory 1-3, and each information is independent and can be used mutually. There was no.
However, in the method according to the present invention, it is possible to mutually store and read out arbitrary video memories, so that the video adjustment values are read from the video memory 1 and the contrast is shifted while the video memories 1, 2,. Similar results can be obtained simply by sequentially storing the images, and the image can be adjusted more easily by mutually using the information.
[0017]
In the above embodiment, the case where the PDP display device has 10 video memories has been described. However, the present invention is not limited to this, and the number of video memories can be changed as appropriate. It is not affected by the number. Furthermore, even a display other than the PDP display can be applied.
[0018]
【The invention's effect】
According to the first aspect of the present invention, the microcomputer has a function of reading the video adjustment value from the arbitrary video memory to the dedicated memory for the currently selected input mode, and a change stored in the dedicated memory for the currently selected input mode. Since the function of saving the subsequent video adjustment values in an arbitrary video memory is provided, it is possible to arbitrarily store and read out a plurality of video memories. Therefore, there is a problem that setting changes made to the read video memory that existed in the conventional display device cannot be saved other than in the currently selected video memory, and a plurality of video memories with different input modes are made identical. When setting is desired, the problem of having to read the video memory for each input mode and adjusting the setting independently of each other can be solved, and the mutual use of information can be performed.
[0019]
According to the second aspect of the present invention, the microcomputer adjusts the video adjustment value based on the input control signal and saves it in the dedicated memory for the currently selected input mode, and changes the video adjustment value to the digital signal. A function to reflect in the signal processing of the processing unit, a function to read the video adjustment value from the specified video memory to the dedicated memory of the currently selected input mode, and a video adjustment value of the dedicated memory of the currently selected input mode Since it has a function to save to the selected video memory, you can select and save / read any video memory, and can use information between different input modes, making it easier to adjust video become.
[Brief description of the drawings]
FIG. 1 is a flowchart showing a video memory function in a display device of the present invention.
FIG. 2 is a block diagram showing an embodiment of the display device of the present invention.
FIG. 3 is a conceptual diagram illustrating an operation of storing / reading a video adjustment value by a video memory function in the display device of the present invention.
FIG. 4 is a flowchart illustrating a video memory function in a conventional PDP display device.
FIG. 5 is a block diagram illustrating a configuration of a conventional PDP display device.
FIG. 6 is a conceptual diagram illustrating an operation of storing / reading a video adjustment value by a video memory function in a conventional PDP display device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Analog video signal input terminal, 11 ... A / D conversion part, 12 ... Digital signal processing part, 13 ... PDP panel, 14 ... Remote control, 15 ... Remote control light-receiving part, 16 ... Microcomputer, 17 ... Memory (EEPROM), 20 DESCRIPTION OF SYMBOLS ... Analog video signal input terminal, 21 ... A / D conversion part, 22 ... Digital signal processing part, 23 ... PDP panel, 24 ... Remote control, 25 ... Remote control light-receiving part, 26 ... Microcomputer, 27 ... Memory (EEPROM).

Claims (2)

A memory that stores various video adjustment values, a microcomputer that controls the video adjustment values stored in the memory, reads and changes them, and outputs a control signal for video adjustment, and a microcomputer A digital signal processing unit that performs various signal processing of the input digital video signal by a control signal output from the microcomputer, and a display panel that displays an image based on the digital signal signal-processed by the digital signal processing unit. The memory includes a dedicated memory provided corresponding to each of a plurality of input modes, and a plurality of areas that can mutually access these dedicated memories and store various video adjustment values as data. The microcomputer has a video adjustment value stored in the dedicated memory for the currently selected input mode. A function of reading from Li, a display device characterized by having a function to store the current image adjustment value after the change which is stored in a dedicated memory of the input mode in the arbitrarily selected video memory. The memory includes a dedicated memory provided corresponding to each of a plurality of input modes, and a plurality of areas which can mutually access these dedicated memories and store various video adjustment values as data. The microcomputer comprises an EEPROM provided with a video memory, and the microcomputer changes the video adjustment value based on the input control signal and stores it in the dedicated memory for the currently selected input mode, and changes the video adjustment value to the digital The function to reflect in the signal processing of the signal processor, the function to read the video adjustment value from the specified video memory to the dedicated memory of the currently selected input mode, and the video adjustment value of the dedicated memory of the currently selected input mode The display device according to claim 1, further comprising a function of storing in a designated video memory.

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