KR100677751B1 - Apparatus for implementing OSD of multiple image processors adopting display and method thereof - Google Patents

Abstract

An apparatus and method for implementing an OSD for a display device using a multiple image processor are disclosed. An apparatus for implementing an OSD according to the present invention includes a first processor unit for performing predetermined image processing according to a format of an input video signal, a second processor unit, and a second processor unit for inputting an externally- The first processor unit may include an OSD generator for generating OSD data, a first image processor for performing image processing on the input image signal, an OSD generating unit for generating OSD data, And a first OSD control unit for selectively outputting the OSD data to any one of the first mixer and the second processor unit. As a result, a uniform OSD implementation is possible and no redundant hardware configuration is required.

Video signal, format, resolution, OSD

Description

[0001] The present invention relates to an OSD implementation apparatus and a method thereof for a display apparatus using a multiple image processor,

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a conventional OSD implementation method,

FIG. 2 illustrates an apparatus for implementing an OSD for a display device using a multiple image processor according to an embodiment of the present invention; FIG.

3A to 3C are diagrams provided for describing the operation of an OSD implementing apparatus according to an embodiment of the present invention, and Figs.

4 is a flowchart provided in an operation description of an OSD implementing apparatus according to an embodiment of the present invention.

Description of the Related Art [0002]

110: first processor unit 120: second processor unit

130: input unit 140:

The present invention relates to an OSD implementation apparatus and method for a display apparatus using a multiple image processor, and more particularly, to an OSD implementation apparatus and a method thereof for a display apparatus using a multiple image processor for processing video signals of various formats. The present invention relates to an apparatus and method for implementing an OSD that implements a consistent OSD using a generating apparatus.

According to recent technology development, it is possible to receive an external input signal from various video reproducing devices such as a wireless signal transmitted from a broadcasting station, a cable television (CATV), a VCR, a DVDP, a personal computer (PC) A display device has appeared and is widely used.

Such a display device is required to perform various image processing processes on input signals of various formats and one image processor generally employs a plurality of image processors due to a technical problem such as inefficiency in signal processing .

In recent years, a display device has generated an OSD (On Screen Display) screen including graphic or text data for controlling a device through communication with a user, And displays it.

1 is a diagram showing a part of a display device using a plurality of processors for image processing.

Referring to FIG. 1, a first processor 10 and a second processor 20 for performing image processing of a display apparatus each have a first OSD unit 11 and a second OSD unit 21 for generating an OSD screen .

The functions of the first processor 10 and the second processor 20 in the display device using a multi-processor are such that, for example, a low-resolution signal is processed by the first processor 10 according to the resolution of the input signal, The first processor 10 performs decoding on a low-resolution video (Composite Video) signal, and the second processor 20 performs decoding on a low- To perform scaling for a signal or to perform a separate signal processing necessary in accordance with the format of the input signal, such as processing a high-resolution signal.

The first processor 10 performs a signal processing process such as decoding on the input low-resolution video signal, creates a self-OSD screen through the first OSD unit 11, overlays the OSD screen with the processed video signal , And transmits it to the second processor (20).

The second processor 20 performs a signal processing process such as scaling with respect to the signal transmitted from the first processor 10 so as to be suitable for the display apparatus, thereby generating a final output signal.

Meanwhile, in the case of a high resolution signal such as an input signal from a PC, the display device using the multiple image processor is implemented to be input to the second processor 20 without going through the first processor 10, And performs a necessary signal processing process on the input signal.

In this case, since the OSD is not implemented by the first processor 10 with respect to the signal input to the second processor 20, the second processor 20 generates the processed signal from the second OSD unit 21 OSD images are superimposed to implement the OSD.

Therefore, there is a problem that OSD screens actually implemented are different according to the difference in performance of the OSD units implemented in different processors because OSDs are processed separately according to the format of signals.

Meanwhile, in order to overcome such a problem, there is a method of implementing a unified OSD by using a separate OSD chip outside the processor. However, in order to do this, an additional hardware configuration is required, which results in complicated hardware and high unit cost.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an OSD implementation apparatus and a method thereof that realize a uniform OSD without additional hardware configuration in a display apparatus using a multiple image processor.

According to an aspect of the present invention, there is provided an apparatus for implementing an OSD for a display device using a multiple image processor, including: a first processor unit for performing predetermined image processing according to a format of an inputted video signal; And an input unit for selectively inputting a video signal input from the outside to any one of the first processor unit and the second processor unit, wherein the first processor unit comprises: an OSD generating unit for generating OSD data; A first mixer for mixing the OSD data with the processed video signal, and a second mixer for mixing the OSD data with the first mixer and the second processor, To the OSD control unit.

Preferably, the second processor unit includes a second image processor for performing image processing on the input video signal, and a second image processor for processing the OSD data output from the first OSD controller according to image processing of the second image processor And a second mixer for receiving an OSD by mixing with the image signal processed by the second image processor.

More preferably, the video signal input through the input unit is selectively input to the first processor unit and the second processor unit. When the video signal is input to the second processor unit, the first OSD control unit And outputting the OSD data to the second processor unit.

According to another aspect of the present invention, there is provided an OSD method for a display device using a multi-image processor including a first processor unit and a second processor unit, Wherein the first processor unit generates OSD data and outputs the generated OSD data to the second processor unit when the video signal is input to the second processor unit, And implementing the OSD by mixing the OSD data input from the first processor unit.

Preferably, when the video signal is input to the first processor unit, the first processor unit generates OSD data, performs image processing on the input video signal, and mixes the processed video signal with the OSD data And implementing the OSD.

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

2 is a diagram illustrating an apparatus for implementing an OSD for a display device using a multiple image processor according to an embodiment of the present invention.

The apparatus for implementing an OSD for a display device using the multi-image processor includes a first processor unit 110, a second processor unit 120, an input unit 130, and a control unit 140.

The first processor unit 110 includes a first image processor 111, an OSD generator 113, a first OSD controller 115, and a first mixer 117.

The first image processor 111 performs various image processing processes required for displaying an image including decoding of a video signal input to the first processor unit 110.

The OSD generating unit 113 generates necessary OSD data using character data and various graphic data stored in a memory (not shown).

The first OSD control unit 115 selectively outputs the OSD data generated by the OSD generation unit 113 to the first mixer 117 or the second processor unit 120 according to a control signal input from the control unit 140 .

That is, when the first OSD control unit 115 intends to implement the OSD on the signal processed by the first image processor 111, the first OSD control unit 115 outputs the OSD data generated by the OSD generation unit 113 to the first mixer 117 do. However, when there is no signal input to the first processor unit 110 and the first image processor 111 does not perform the signal processing, the OSD generation unit 113 generates the OSD generated by the OSD generation unit 113 under the control of the control unit 140, And outputs the data to the second processor unit 120.

The second processor unit 120 includes a second image processor 121, a second OSD controller 125, and a second mixer 127.

The second image processor 121 performs various image processing processes required for displaying an image including decoding of a signal directly input from the input unit 130 to the second processor unit 120, 110 performs an image processing process such as scaling necessary for final output with respect to a signal input to the second processor unit 120.

The input unit 130 receives an external signal from various video playback apparatuses (not shown) and selectively inputs the external signal to the first processor unit 110 or the second processor unit 120 according to the format of the input signal.

The control unit 140 controls the input unit 130 to output a signal input to the input unit 130 to the first processor unit 110 or the second processor unit 120. The control unit 140 generates a control signal, And controls the signal output of the OSD control unit 115. That is, when a signal is input to the first processor unit 110, the first OSD controller 115 outputs the OSD data output from the OSD generator 113 to the first mixer 117, When a signal is input from the input unit 130 to the second processor unit 120, the OSD generation unit 113 outputs the OSD data to the second processor unit 120.

The control unit 140 controls the second processor unit 120 to output a signal directly input from the input unit 130 to the second image processor 121. The OSD control unit 140 outputs the signal to the second OSD control unit 125 to mix the OSD data input to the second mixer 127 with the signal processed by the second image processor 121. The control unit 140 processes the image processed by the second image processor 121 for the signal processed through the first processor unit 110 and mixed with the OSD data and input to the second processor unit 120 It is passed through the second mixer 127 without further OSD processing, and is output as it is.

FIGS. 3A to 3C and FIG. 4 are diagrams provided in an operation description of an OSD implementing apparatus for a display apparatus using a multiple image processor in an embodiment of the present invention. Hereinafter, the operation of the multiple image processor according to the embodiment of the present invention will be described with reference to FIG. 2 to FIG.

When an external signal is input from various video playback apparatuses (not shown) through the input unit 130, the input signal is selectively input to the first processor unit 110 or the second processor unit 120 according to the format (S410 ).

The controller 140 determines whether the external signal input to the input unit 130 is output to the first processor unit 110 or the second processor unit 120 at step S420.

When the signal input to the input unit 130 is input to the second processor unit 120, the control unit 140 generates OSD data in the OSD generation unit 113. The first OSD control unit 115 generates OSD data To the second processor unit 120 (S430).

The second image processor 121 performs a signal processing process required to display a signal input to the second processor unit 120 as an image screen, and outputs the processed signal to the second mixer 127 (S440 ).

The second OSD control unit 125 of the second processor unit 120 determines whether the OSD input from the first OSD control unit 115 of the first processor unit 110 in accordance with the completion of the signal processing operation of the second image processor 121, And outputs the data to the second mixer 127.

Accordingly, the second mixer 127 mixes the signal processed by the second image processor 121 with the OSD data to implement the OSD (S450), outputs the final processed signal to a display unit (not shown) .

FIG. 3A shows an OSD screen displayed according to the OSD data generated by the OSD generation unit 113 of the first processor unit 110, FIG. 3B illustrates an OSD screen displayed by the input unit 130 to the second processor unit 120, The second image processor 121 performs an image processing process to display an image screen displayed according to the processed signal.

3C shows a screen in which OSD data generated by the OSD generating unit 113 and signals processed by the second image processor 121 are mixed and the OSD screen of FIG. 3A and the image screen of FIG. .

When a signal is input to the first processor unit 110 in step S420, the OSD generator 113 of the first processor unit 110 generates OSD data and inputs the OSD data to the first OSD controller 115, 1 OSD control unit 115 outputs the OSD data output from the OSD generation unit 113 to the first mixer 117 under the control of the control unit 140 at step S460.

In addition, the first image processor 112 performs various image processing processes required for display on the signals input to the first processor 110, and outputs the signals to the first mixer 117 (S470).

The first mixer 117 mixes the signal processed by the first image processor 111 with the OSD data output from the OSD generator 113 and outputs the mixed signal to the second processor 120, (Step S480) so that the image processing in the image processing unit 121 is performed.

According to an apparatus for implementing an OSD for a display device using a multiple image processor according to the present invention, an OSD is generated in one of image processor blocks of a plurality of image processors, and the generated OSD is displayed on an image signal processed in another image processor , It is possible to realize a uniform OSD and no redundant hardware configuration is required.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, I will understand. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, as well as the appended claims.

Claims (5)

An apparatus for implementing an OSD for a display device using a multiple image processor including a first processor unit and a second processor unit for performing predetermined image processing according to a format of an inputted video signal, And an input unit for selectively inputting an externally input video signal to any one of the first processor unit and the second processor unit, The first processor unit may include an OSD generating unit for generating OSD data; A first image processor for performing image processing on a video signal input from the input unit; A first mixer for mixing the OSD data generated by the OSD generator with a video signal processed by the first image processor, And a first OSD control unit for selectively outputting the OSD data generated by the OSD unit to any one of the first mixer and the second processor unit. . The method according to claim 1, The second processor unit, A second image processor for performing image processing on the image signal input from the input unit; And And a second mixer for receiving the OSD data output from the first OSD control unit and mixing the OSD data with the video signal processed in the second image processor when the image processing operation of the second image processor is completed The OSD implementation device for a display device using a multiple image processor. 3. The method of claim 2, Wherein the control unit controls the first and second processor units so that the video signal input through the input unit is selectively input to the first processor unit and the second processor unit when the video signal is input to the second processor unit, And outputting the OSD information to the second processor unit. The apparatus for implementing an OSD for a display device using the multiple image processor according to claim 1, A method for implementing an OSD for a display device using a multiple image processor including a first processor unit and a second processor unit, Selectively inputting an externally input video signal to the first processor unit and the second processor unit; When the video signal is input to the second processor unit, the first processor unit generates OSD data and outputs the OSD data to the second processor unit; And Wherein the second processor unit performs image processing on the input video signal and mixes the OSD data input from the first processor unit. OSD implementation method. 5. The method of claim 4, The first processor unit generates OSD data when the video signal is input to the first processor unit and performs image processing on the input video signal to mix the processed video signal with the OSD data; Further comprising the steps of: (a) providing a plurality of image processors, each of the plurality of image processors including a plurality of image processors;

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