KR100573690B1 - Display capable of automatic controlling of offset because of deflection of Analog to digital convertor and a method thereof - Google Patents

Abstract

Disclosed is an image processing apparatus having an offset automatic adjustment function according to an ADC deviation. The image processing apparatus includes an analog-to-digital converter (ADC) for converting an analog image signal into a digital image signal, and a predetermined reference image signal from the ADC in response to an offset adjustment signal for adjusting the deviation caused by the analog-to-digital conversion. And an ADC controller for receiving a test video signal, which is an analog-to-digital converted signal, calculating a deviation according to a result of comparison with a reference video signal, and transmitting an offset adjustment signal corresponding to the calculated deviation. Thereby, the offset according to the ADC deviation can be calculated efficiently.

Display, image processing unit, ADC, OFFSET

Description

Image processing apparatus having automatic offset adjustment function according to ADC deviation and its method {Display capable of automatic controlling of offset because of deflection of Analog to digital convertor and a method

1 is a block diagram of an image processing apparatus having an offset automatic adjustment function according to an ADC deviation according to the present invention;

2 is a flowchart provided to explain an operation of an image processing apparatus having an offset automatic adjustment function according to an ADC deviation according to the present invention; and

3 is a view provided to explain the operation of the image processing apparatus having an automatic offset adjustment function according to the ADC deviation according to the present invention.

Explanation of symbols on the main parts of the drawings

10: ADC 20: ADC control unit

30: memory 40: scaler

50: display 70: main control unit

The present invention relates to an image processing apparatus having an offset automatic adjustment function according to an ADC deviation and a method thereof. More particularly, in an image processing apparatus having an ADC, an offset according to individual characteristics of an ADC product is automatically adjusted. By adjusting the color balance of the screen more precisely, and to reduce the production cost, the present invention relates to an image processing apparatus having an offset automatic adjustment function according to the ADC deviation, and a method thereof.

In general, an image processing apparatus is a device that performs a series of image processing for displaying a received image signal on a screen or records / reproduces an image signal, such as a television, a monitor, a video system, and the like.

Recently, image processing apparatuses generally use a digital processing method internally, whereby an input R / G / B (Red / Green / Blue) analog image signal is approximated to a predetermined reference level and closest to the digital image signal. ADC (Analog to Digital Converter) to convert In this case, the ADC generally has a deviation in digital conversion according to the physical characteristics of the integrated circuit (IC), which causes color unbalance of the image displayed on the screen.

Conventionally, in order to solve this problem, the largest value of the R / G / B analog video signal is the largest value of the digital video signal (each of the R / G / B analog video signal is 8 bit R / G / B digital video). In the case of conversion to a signal, a gain control adjusting to match 0xFF and the smallest value of the R / G / B analog video signal are performed by the smallest value of the digital video signal (R / G / B analog video signal). In case of converting into 8 bit R / G / B digital video signal, offset adjustment is performed to match 0x00). In this case, the actual offset adjustment was manually adjusted using a specific equipment such as an oscilloscope for each ADC product in the production stage because the deviation of the ADC was different for each product.

The manual offset adjustment method as described above has a problem that not only the accuracy of the offset adjustment is lowered but also the production cost increases.

The present invention has been made to solve the above problems, an object of the present invention, by automatically calculating the ADC deviation, by adjusting the offset according to the calculated ADC deviation, precisely balance the color of the screen, production An object of the present invention is to provide an image processing apparatus having an offset automatic adjustment function according to an ADC deviation which can reduce a unit cost, and a method thereof.

Analog to digital converter (ADC) for converting an analog video signal into a digital video signal in response to an offset adjustment signal for adjusting the deviation due to analog-to-digital conversion according to the present invention for achieving the above object, and from the ADC An ADC which receives a test video signal which is a signal obtained by analog-to-digital converting a predetermined reference video signal, calculates the deviation according to a result of comparison with the reference video signal, and transmits the offset adjustment signal corresponding to the calculated deviation It includes a control unit.

In this case, it is preferable that the ADC controller calculates the test video signal by transmitting the reference video signal to the ADC.

And, preferably, further comprises a memory for recording the calculated offset.

And preferably a scaler for reducing / enlarging the digital video signal converted by the ADC, a DAC for converting the scaled video signal to an analog video signal, and a display for displaying the scaled analog video signal on a screen. do.

In the image processing apparatus according to the present invention, the automatic offset adjustment method according to the ADC deviation includes an analog to digital converter (ADC) for receiving an analog image signal and converting the same into a digital image signal. Receiving a test video signal that is a signal obtained by analog-to-digital converting a reference video signal, comparing the received test video signal with the reference video signal, calculating a deviation of the ADC, and corresponding to the calculated deviation An ADC control step of transmitting an offset adjustment signal to the ADC, and the ADC converts the analog video signal into the digital video signal in response to the offset adjustment signal.

In this case, the method may further include calculating the test video signal by transmitting the reference video signal to the ADC.

And preferably, recording the calculated offset, preferably, a scaling step of reducing / enlarging the digital video signal converted by the ADC, and converting the scaled video signal into an analog video signal. DA converting, and displaying the scaled analog image signal on a screen.

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

1 is a block diagram of an image processing apparatus having an automatic offset adjustment function according to an ADC deviation. Referring to the drawings, the image processing apparatus includes an ADC 10, an ADC controller 20, a memory 30, a scaler 40, a DAC 50, a display 60, and a main controller 70. do.

The ADC 10 receives an R / G / B configured analog video signal and an offset adjustment signal for adjusting an offset during analog-to-digital conversion, converts each of the R / G / B into an 8-bit digital video signal, and inputs the A sync signal is extracted from the video signal.

In this case, the ADC 10 preferably further includes a clock generator for generating a clock signal for synchronizing, preferably, an analog video signal input from the outside, a reference video signal input from the ADC controller 20, And a selector (not shown) for selectively outputting any one of an offset adjustment signal.

The ADC controller 20 transmits an offset adjustment signal corresponding to the set offset to the ADC 10 to control the ADC 10 to perform an analog-to-digital conversion by adjusting the offset. In this case, the ADC controller 20 transmits a predetermined reference video signal to the ADC 10, and correspondingly, receives a test video signal that is a video signal processed by the ADC 10. The deviation of the ADC 10 is calculated by comparing the reference video signal and the test video signal, and an offset is set based on this deviation. That is, the calculated deviation indicates the degree of movement of the lowest reference level, and the ADC control unit 20 calculates an offset for controlling to match 0x00, the lowest reference level after ADC conversion, in response to the deviation.

The memory 30 records the predetermined experimentally calculated optimized offset for each of the R / G / B as the initial offset, and records the later calculated offset.

The scaler 40 receives a digital image signal, a synchronization signal, and a clock signal, and performs scaling to display on the display 60. The DAC 50 converts the scaled digital video signal into an analog video signal, and the display 60 displays the scaled analog video signal on the screen.

In addition, the main controller 70 controls each component of the image capturing apparatus, and in particular, controls the offset calculated by the ADC controller 20 to be recorded in the memory 30.

2 is a flowchart provided to explain the operation of the image processing apparatus having the automatic offset adjustment function according to the ADC deviation according to the present invention. 1 and 2, an offset is first set to a predetermined initial value (S200). The initial value is preferably an optimized offset calculated experimentally. The reference video signal is transmitted to the ADC 10 (S210). The ADC 10 digitizes the received reference video signal according to the set offset and calculates it as a test video signal (S220). The ADC controller 20 calculates a deviation of the ADC 10 by comparing the reference video signal and the test video signal (S230). If the deviation is less than or equal to a predetermined threshold (S240), if less than or less, the offset is recorded in the memory 30 (S250).

3A and 3B are views provided to explain an operation of an image processing apparatus having an offset automatic adjustment function according to an ADC deviation according to the present invention. FIG. 3A illustrates a reference image signal, and FIG. 3B illustrates a reference image of FIG. 3A. The test video signal obtained by converting the ADC according to the set offset is shown. Referring to the figure, the vertical axis is a reference level, the lowest value N corresponds to 0x00, and the maximum value M corresponds to 0xFF. In order to calculate the deviation of the ADC, the ADC controller 20 compares the test video signal received from the ADC 10 with a known reference video signal, and as a result, the level of the test video signal is increased by one level as a whole. You can judge. The ADC controller resets the offset such that the minimum level becomes 0 in response to the determined deviation.

In particular, the offset reset increases or decreases the initial offset so that, if the ADC deviation decreases, the offset is minimized while increasing or decreasing the offset in that direction, and if the deviation increases, the opposite direction increases. It is possible to calculate the offset that minimizes the ADC deviation while controlling the offset.

On the other hand, since the ADC deviation is fixed in one ADC product, the offset according to the ADC deviation is preferably calculated once in the mass production step or the initial driving step of the image processing apparatus, and then it is preferably used continuously as the ADC offset.

By the method as described above, the offset according to the ADC deviation can be adjusted efficiently.

As described above, according to the present invention, it is possible to calculate the offset according to the precise ADC deviation. In addition, since the offset is automatically set, the production cost is reduced compared to the conventional method.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims (8)

An analog-to-digital converter (ADC) for converting an analog image signal into a digital image signal in response to an offset adjustment signal for adjusting a deviation due to analog-to-digital conversion; And The test video signal, which is a signal obtained by analog-to-digital conversion of a predetermined reference video signal, is received from the ADC, and the deviation is calculated according to a result of comparison with the reference video signal. And an ADC controller for generating an offset adjustment signal for increasing or decreasing the offset according to the deviation and providing the offset adjustment signal to the ADC. The method of claim 1, And the ADC control unit transmits the reference video signal to the ADC to calculate the test video signal. The method of claim 1, And an offset automatic adjustment function according to the ADC deviation, further comprising a memory for recording the calculated offset. The method of claim 1, A scaler configured to reduce / enlarge the digital video signal converted by the ADC; A DAC for converting the scaled video signal into an analog video signal; And And a display for displaying the scaled analog image signal on a screen. In an image processing apparatus having an analog to digital converter (ADC) for receiving an analog video signal and converting it into a digital video signal, the offset automatic adjustment method according to the ADC deviation, Receiving a test video signal which is a signal obtained by analog-to-digital conversion of a predetermined reference video signal from the ADC; Calculating a deviation of the ADC by comparing the received test video signal with the reference video signal; Comparing the calculated deviation and a predetermined threshold value; An ADC control step of transmitting an offset adjustment signal to the ADC to increase or decrease the offset in accordance with the calculated deviation if the calculated deviation is equal to or greater than the threshold value; And And the ADC converting the analog video signal into the digital video signal in response to the offset adjustment signal. The method of claim 5, And transmitting the reference video signal to the ADC to calculate the test video signal. The method of claim 2, further comprising: offset adjustment according to the ADC deviation in the image processing apparatus. The method of claim 5, Recording the calculated offset; and automatically adjusting the offset according to the ADC deviation in the image processing apparatus. The method of claim 5, A scaling step of reducing / enlarging the digital video signal converted by the ADC; A DA conversion step of converting the scaled video signal into an analog video signal; and And a display step of displaying the scaled analog video signal on a screen.

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