KR101054909B1 - CCD image sensor camera module for obtaining high sensitivity images - Google Patents

Abstract

The present invention relates to a camera module, and more particularly, to manufacture a single camera module by combining a plurality of image sensors having different sensitivity characteristics, and the image of the level similar to the human eye according to the ambient brightness of the image sensors The present invention relates to a camera module that selects a sensor capable of obtaining an image and captures an image to obtain a high sensitivity image similar to the human eye.

This invention has the effect of providing a high sensitivity camera module by combining existing incomplete image sensors.

Image sensor, camera module, optical separation, high sensitivity image

Description

CCD Image Sensor Camera Module for high sensitivity image

The present invention relates to a camera module, and more particularly, having a plurality of image sensors having different sensitivity characteristics, and through a sensor that can obtain a level of image similar to the human eye according to the brightness of the surrounding environment of the image sensors The present invention relates to a CCD image sensor camera module for obtaining a high-sensitivity image to obtain an image as close as possible to the human eye.

In general, a camera module is composed of a lens unit including a plurality of lenses to receive an optical image of the subject, a lens holder, a housing, an IR filter, an image sensor, and a printed circuit board to display the optical image of the subject. The lens unit receives the light and transmits it to the IR filter, and the IR filter cuts infrared rays from the received optical image and irradiates it with the image sensor. The image sensor converts the irradiated optical image into an electrical signal and outputs it. .

With the rapid growth of the digital camera and camera phone market, the image sensor technology, a key component, is surprisingly advanced, but it is significantly lower than the human eye in terms of function.

That is, although currently commercially available sensors have different characteristics for each sensor, since the camera module uses one image sensor, its use range is limited depending on the capability of the image sensor used.

For example, a camera module that has excellent characteristics for outdoor shooting outputs an image that is less than the function of a general camera module in a room where light is low. On the contrary, a camera module having excellent characteristics for fireworks and night shooting has a high light quantity. There is a drawback in not being able to express colors perfectly in the environment.

The present invention is to solve the above problems, to check the state of the object through a sensor that can detect the shooting environment and to select the image sensor optimized to best represent the identified object to shoot the object of human It aims to get the image as close as possible to the eye.

The object of the present invention described above is a conventional camera module, comprising three image sensors having different sensitivity characteristics of low sensitivity, medium sensitivity, and high sensitivity, and optical information from an object to three CCD image sensors. An optical splitter that separates a light source, an ambient sensor that detects how bright the environment is, and an image sensor that obtains an image similar to a human eye by judging the output signal of the ambient sensor By a CCD image sensor camera module for obtaining a high-sensitivity image comprising a front end signal processor for converting an analog image output of the digital image output into a digital image output, and an image processor configured to process an image similar to a human eye with the digital image output. Is achieved.

The image sensor is characterized by being provided so as to have a different dynamic range with low sensitivity, medium sensitivity, and high sensitivity.

As described above, according to the present invention, a camera module is manufactured by combining image sensors having different sensitivity characteristics such as low sensitivity, medium sensitivity, and high sensitivity, so that an appropriate image sensor can be automatically selected and photographed in a shooting environment. There is an effect that can obtain the best image similar to the eye of, and can provide a high sensitivity camera module by combining the existing incomplete image sensors.

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

1 is a system configuration diagram briefly showing a camera module according to the present invention.

One or more image sensors 20 having different sensitivity characteristics, an optical separator 10 separating the optical path from the target object to the respective image sensors 20, and a photographing environment having a certain brightness. Converts the analog video output of the ambient sensor (30) for detecting whether it is an environment and the image sensor 20 of the image sensor 20 that can exhibit the optimal performance by judging the output signal of the ambient sensor (30) to a digital video output Is composed of a front end signal processor 40 and an image processor 50 for processing to obtain the best image with the digital image output.

The optical separator 10 divides the angle of view of the camera optical system by two or more in the same amount, and the image sensor 20 is provided to correspond to the divided angle of view.

At this time, the image sensor 20 can be extended as much as necessary according to the purpose and performance, it is configured in the same number as the optical separator 10.

Alternatively, the image sensor 20 may be configured by combining sensors having different sizes of the base cell so as to have different dynamic ranges with low sensitivity, medium sensitivity, and high sensitivity according to each section.

The front end signal processor 40 may determine an output signal of the ambient sensor 30 to determine and select an image sensor 20 capable of obtaining an image similar to a human eye in a photographing environment. And an analog front end 42 for detecting or converting the analog video output of the image sensor 20 selected by the controller 41 into a digital video output.

How the respective components of the present invention described above operate organically will be described in detail below.

When the optical splitter 10 distributes the optical path to the image sensors 20 having different characteristics to be used for the optical information from the object, the separated optical information is converted into an electrical signal by the image sensor 20. Is converted.

At the same time, when the surrounding environment sensor 30 detects the brightness environment of the photographing environment and outputs it to the controller 41, the controller 41 determines the detected information to perform optimal performance in the current environment. The image sensor 20 may be determined.

Subsequently, the analog front end unit 42 detects and converts the analog image output of each image sensor 20 into a digital image output, and converts the digital image output of the image sensor 20 selected by the controller 41 into an image. The image is output to the processing unit 50 and subjected to various emphasis processing on the image to be recognized by the human eye and display the image of the highest quality in view.

As described above, the appropriate image sensor 20 can be determined according to the conditions of various shooting environments, and the image can be taken by the selected image sensor 20 so that a high sensitivity image can be always obtained in any shooting environment.

1 is a system configuration diagram briefly showing a camera module according to the present invention

<Explanation of symbols for the main parts of the drawings>

10: optical separator 20: image sensor

30: main conversion sensor 40: shear signal processing unit

41: control unit 42: analog front end

50: Image processing unit

Claims (4)

In the CCD image sensor camera module for obtaining a high sensitivity image, Three image sensors having different sensitivity characteristics of low sensitivity, medium sensitivity, and high sensitivity; An optical splitter separating the optical path from the target object into three image sensors; A surrounding environment sensor for detecting the brightness of the shooting environment; Determining the output signal of the surrounding environment sensor to determine a sensor that can obtain a level of image similar to the human eye in the shooting environment, and selects the control unit and the analog image output of the CCD image sensor selected by the control unit A front end signal processing unit comprising an analog front end unit which detects an image output or converts it into a digital image output; And an image processing unit for processing to obtain an image similar to a human eye with the digital image output. The method of claim 1, The optical splitter allows the angle of view of the camera optical system to be divided into three by the same amount, and the low, medium, and high sensitivity CCD image sensors are configured to correspond to the divided angle of view. Sensor camera module. The method of claim 1, The image sensor is composed of sensors having different sizes of basic cells, and configured to have different dynamic ranges with low, medium, and high sensitivity for each sensor, and convert the optical signal incident from the optical separator into an electrical signal. CCD image sensor camera module for obtaining high sensitivity images delete

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