KR100694481B1 - Camera system - Google Patents

Abstract

The present invention relates to a camera manufacturing technology, and more particularly, to a camera system in which color information is accurately reproduced during a camera manufacturing process. To this end, the present invention includes a complementary color filter, a pixel array unit for converting an optically captured image into an electrical analog image signal, and adjusts the analog image signal from the pixel array unit to a predetermined level and outputs it as a digital image signal. An analog signal processor, a digital signal processor for signal processing the digital video signal, selective color compensation means for selectively compensating the digital video signal, and the selective color compensating means are the pixel array unit, the analog signal processor, the A camera system integrated with a digital signal processor is provided.

Color Filters, Pixel Arrays, Analog-to-Digital Converters, Compensation Ratio Calculators, Look-Up Tables

Description

Camera system {CAMERA SYSTEM}

1 is a flow chart showing the structure of a camera system according to the prior art.

2 is a block diagram showing the structure of a camera system according to the present invention;

3 is a block diagram showing the structure of the selective color compensation means;

Explanation of symbols on the main parts of the drawings

201: pixel array unit 202: analog signal processing unit

203: Digital signal processor 204: Complementary color filter

205 controller 206 CDS / column recorder

207: analog amplifier 208: analog / digital converter

209: selective color compensation means 210: complementary color / primary color conversion unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a camera manufacturing technique, and more particularly, to a method of manufacturing a camera system having a complementary color filter and capable of adjusting information characteristics of a specific color by taking selective color compensation means.

An image sensor refers to a device that reproduces an image by using a semiconductor-responsive property. A pixel senses the brightness and wavelength of different light emitted from each subject and reads it as an electric value. Device. It is the role of the image sensor to make this electrical value a signal-processing level.

In other words, an image sensor is a semiconductor device that converts an optical image into an electrical signal. A charge coupled device (CCD) is a device in which individual metal-oxide-silicon (MOS) capacitors are very close to each other. Charge carriers are stored and transported in capacitors, and CMOS image sensors use MOS transistors by the number of pixels using CMOS technology, which uses a control circuit and a signal processing circuit as peripheral circuits. It is a device that adopts a switching method that detects an output in sequence by using it.

In addition, the CMOS image sensor has a great advantage of low power consumption, which is very useful for personal portable systems such as mobile phones. Therefore, the image sensor is applicable to various applications such as PC camera, medical, toy, etc. Recently, a small size image sensor is required for the application field of the portable terminal. High quality image sensors are required.

1 is a flow chart showing the structure of a camera system according to the prior art.

Referring to FIG. 1, a pixel array unit 101 including a primary color filter and converting an optically photographed image into an electrical analog image signal, and outputting the digital image signal by adjusting the analog image signal to a predetermined level It can be seen that it is composed of an analog signal processor 102 and a digital signal processor 105 that receives the digital image signal and performs digital signal processing.

In addition, the analog signal processor 102 includes an analog / digital converter 103 for converting the analog video signal into a digital signal, and a color compensator 104 for correcting color filter characteristics of the digital video signal. .

The color correction unit 104 performs correction by properly combining the color filter characteristics and the desired correction amount. However, in the output device for outputting image information, the color perceived by a person due to the characteristics of each output device is perceived as a primary color signal distortion depending on the device, and the color correcting unit 104 is used to compensate for the distortion of the output device. The color corrector 104 is a value optimized only for characteristics of a color filter and a specific output device, and an optional color corrector is required to selectively compensate a specific color.

That is, the conventional technology requires a separate color space converter in the digital signal processor 105 because the primary color filter is used, and there is a problem in that the chip area is enlarged due to the complicated structure.

The present invention has been proposed to solve the above problems of the prior art, and an object thereof is to provide a camera system in which color information is accurately reproduced.

According to an aspect of the present invention for achieving the above object, a pixel array unit including a complementary color filter, converting an optically captured image into an electrical analog image signal, a predetermined analog image signal from the pixel array unit An analog signal processor for adjusting the level and outputting the digital video signal, a digital signal processor for signal processing the digital video signal, selective color compensation means for selectively compensating the digital video signal, and the selective color compensation means A camera system integrated with an array unit, the analog signal processor, and the digital signal processor is provided.

Hereinafter, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. .

2 is a block diagram showing the structure of a camera system according to the present invention.

Referring to FIG. 2, a pixel array unit 201 including a complementary color filter and converting an optically photographed image into an electrical analog image signal, and a digital image by adjusting an analog image signal from the pixel array unit to a predetermined level The analog signal processor 202 outputs a signal and the digital signal processor 203 for signal processing the digital video signal.

In this case, an optional color compensator 209 is included in the analog signal processor 202 to selectively compensate the digital video signal, and the selective color compensator 209 is the pixel array unit 201, the The analog signal processor 202 and the digital signal processor 203 are integrated together.

In more detail, first, the pixel array unit 201 may include a complementary color filter 204 and a controller 205, and the complementary color filter 204 may be configured in an array form. In addition, the controller 205 outputs pixel information of each complementary color filter (Cyen, Magenda, Yellow, Green).

Herein, the analog signal processor 202 may include a correlated double sampling unit (hereinafter referred to as CDS) / column decoder 206, an analog amplifier 207, an analog / digital converter 208, and selective color compensation. Means 209.

More specifically, first, the CDS / column decoder 206 performs low noise processing on the optical video signal by correlated double sampling, and the analog amplifier 207 makes the low noise processed analog video signal level constant at a predetermined level. It is responsible for coordinating.

Subsequently, the analog / digital converter 208 converts the analog image signal adjusted to the predetermined level into a digital image signal, and the selective color correction unit 209 selects and corrects a specific color from the digital image signal. It plays a role.

Subsequently, the digital signal processing unit 203 includes a complementary color / primary color conversion unit 210.

The complementary color / primary color conversion unit 210 corrects white and corrects the color of the digital image signal converted by the analog signal processing unit 202 so as to be close to the original image.

Although the digital signal processor 203 has an image signal processor and an output unit, the description thereof will be omitted because it is the same as in the related art.

3 is a block diagram showing the structure of the selective color compensation means.

Referring to FIG. 3, it can be seen that the selective color compensation means includes a matrix operation performing block 301, a compensation ratio calculating block 302, and a look up table block 303.

In more detail, first, the matrix operation performing block 301 is a block for performing a matrix operation for color correction, and the compensation ratio calculating block 302 is a block for obtaining a compensation ratio in a complementary color filter.

Subsequently, the lookup table block 303 is a block for storing a correction ratio for adjusting the balance for other colors in the selective color compensation.

The selective color compensation means does not perform color space conversion on the output of the complementary color filter, calculates a color correction ratio using CMY (Cyen, Magenda, Yellow) information, and calculates Ratio_cy, Ratio_mg, The ratio of Ratio_ye, Ratio_red, Ratio_grn, and Ratio_blue is calculated. The formula is as follows.

(Equation 1)

mid = middle (C, M, Y)

Ratio_cy = (C-mid)

Ratio_mg = (M-mid)

Ratio_ye = (Y-mid)

Ratio_red = (mid-C)

Ratio_grn = (mid-M)

Ratio_blue = (mid-Y)

Toral_Ratio = ∑Ratio

The color correction ratio calculated by the calculation formula receives a compensation value and a look-up table 305 value as inputs to correct only the color selected by the user. The compensation value is a value that designates the compensation ratio for the color desired by the user, and the look-up table 305 value is a table value for adjusting the balance of other colors according to the compensation ratio specified by the user. The calculated value is inputted into a compensation ratio calculator (304). The compensation ratio calculator 304 calculates a final compensation ratio value through a calculation operation using the compensation value and the lookup table 305 values. The calculated compensation ratio value is calculated like the CMY signal output from the analog / digital converter, and the corrected image information for the specific color is output.

That is, the present invention includes a CMOS image sensor having a complementary color filter to compensate for the degradation of color sensitivity, and reduce the chip area by configuring an optional color correction means in the form of a system on chip.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary skill.

As described above, the present invention uses a complementary color filter for compensating for the degradation of color sensitivity, thereby degrading the complementary color filter characteristic, adjusting color distortion caused by a specific output device, and correcting color with a minimum effect on colors other than the selected color. Because of this, it is possible to secure the color characteristics for the desired color.

In addition, by calculating the correction ratio of the CMY information obtained from the complementary color filter without performing the color space conversion, a color space conversion unit is not required for the selective color compensation of the image sensor using the previous primary color filter. Since it is performed together, there is an effect of having a structure suitable for optimal image adjustment.

Claims (3)

delete A pixel array unit including a complementary color filter and converting an optically captured image into an electrical analog image signal; An analog signal processor for adjusting the analog video signal from the pixel array unit to a predetermined level and outputting the digital video signal; A digital signal processor which processes the digital video signal; And And selective color compensating means for selectively compensating the digital video signal. The selective color compensation means is integrated with the pixel array unit, the analog signal processor, and the digital signal processor, The selective color compensation means, A matrix operation performing block for performing a matrix operation for color correction; A compensation ratio calculation block for calculating a compensation ratio; And A camera system having a lookup table block that stores a correction ratio for adjusting balance for different colors. The method of claim 2, The analog signal processing unit A CDS / column decoder for low noise processing the optical video signal by correlated double sampling; An analog amplifier which constantly adjusts the low noise processed analog video signal level to a predetermined level; An analog / digital converter for converting the analog video signal adjusted to the predetermined level into a digital video signal; And The selective color compensation means for selecting and correcting a specific color in the digital video signal Camera system comprising a.

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