KR900001340Y1 - Auto-control devices of white balance - Google Patents

Abstract

No content.

Description

Auto white balance adjuster

1 is a block diagram of a conventional circuit.

2 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

9: white subject 10: auxiliary lens

11: image sensor 12,13: amplifier

14: white balance processor 15,16: counter

17,18: Digital / Analog Converter OP1, OP2: Operational Amplifier

The present invention relates to an automatic white balance adjusting device that automatically adjusts the white balance of a video camera. In particular, the white balance process is performed by using a white subject formed integrally with a certain portion of the video camera. The present invention relates to an automatic white balance control device that enables the white balance to be automatically adjusted even under various color temperature situations.

In the conventional case, the white balance was separately adjusted for a white subject before the main subject was photographed to adjust the white balance. That is, FIG. 1 is a circuit diagram of the related art, as shown therein, an image sensor 2 for converting an image of a main subject entering through a lens 1 into an electric video signal, and an image from the image sensor 2. (R) and amplification units (6) and (7) for amplifying blue (B) color signals, green (G) color signals from the image sensor (2) and red from the amplification units (6) and (7). (RA), an image signal processor (3) for processing a blue (BA) color signal, a white balance processor (5) for adjusting the white balance by adjusting the gain of the amplifier (6), (7), and the image It consists of a coder 4 which is a matrix for outputting a composite video signal from the output signal of the signal processor 3.

Referring to the operation of the conventional circuit configured as described above, first, a white subject is incident on the lens 1 instead of the main subject of the video camera, and the white balance driving signal is applied through the white balance signal terminal W / B. The processing unit 5 operates to compare the red (RA) signal and the blue (BA) color signal through the amplification units 6 and 7 based on the green (G) color signal from the image sensor 2 and compare the result. By returning to the gain control signals of the amplifiers 6 and 7, the white balance was finally maintained so that RA = G = BA. However, in such a conventional device, since the white balance needs to be adjusted by operating the white balance processor 5 while photographing a white subject every time the white balance is adjusted for correct color reproduction, operational difficulties have been followed. There was a drawback that the white balance had to be re-adjusted according to the lighting conditions that change from time to time.

The present invention takes account of the above-mentioned drawbacks, so that the white camera always adjusts the white balance for a white subject integrally formed on a certain portion of the video camera so that the white balance can be automatically adjusted under any color temperature. It will be described in detail by the accompanying drawings as follows.

2 is a circuit diagram according to the present invention, and as shown therein, an image of a subject incident through the lens 1 is converted into an electrical video signal by the image sensor 2, and the image sensor 2 is The red (R) and blue (B) color signals are amplified by the amplifiers 6 and 7 to output the output signals RA and BA and the green (G) color signals of the image sensor 2 to the image signal processor. White video formed integrally with the video camera in order to adjust the white balance on a certain portion of the video camera, which is connected to the video output circuit of the video camera output by the matrix coder 4 as a composite video signal after processing in (3). The image of the subject 9 is imaged on the image sensor 11 through the auxiliary lens 10, and the green (Gw) color signal terminal of the image sensor 11 is a non-inverting input terminal of the operational amplifier OP1 (OP2). Red (Rw) color signal terminal and blue (Bw) color signal terminal of the image sensor 11 connected to (+) (+) The amplifiers 12 and 13 are respectively connected to the inverting input terminals (-) (-) of the operational amplifiers OP1 and OP2, respectively, and the output side of the operational amplifiers OP1 and OP2 is a zener diode ( Commonly connected to the ZD1) (ZD2) and the enable terminals EN15 and EN16 of the counters 15 and 16, respectively, and the output side of the counters 15 and 16 is a digital / analog converter 17. And (18) to configure the white balance processor 14, and the output side of the digital / analog converters 17 and 18 of the white balance processor 14 is the amplifiers 6, 12, and (7). 13 are commonly connected to each of the gain control terminals of Fig. 13, and reference numeral 19 in the description of the drawings denotes an oscillator.

Referring to the operation and effects of the present invention configured in this way as follows.

When the main subject is to be photographed under a certain state using a video camera, the image of the main subject is imaged on the image sensor 2 through the lens 1, and thus the image sensor 2 makes an electrical image from the image formation of the main subject. The red (R), green (G), and blue (B) color signals, which are signals, are output. The green (G) color signal is directly applied to the image signal processing unit 3 and the red (R) and blue (B) color signals. Is amplified into red (RA) and blue (BA) color signals in the amplifying sections 6 and 7, and then applied to the image signal processing section 3.

At this time, the image of the white subject 9 formed integrally with the video camera on a predetermined portion of the video camera is imaged on the image sensor 11 by the auxiliary lens 10 and accordingly, green (Gw) output from the image sensor 11 is obtained. ) The color signal is input to the non-inverting input terminals (+) and (+) of the operational amplifiers OP1 and OP2 of the white balance processor 14 as a reference signal and is output from the image sensor 11 to Rw. The color signal and the blue (Bw) color signal are amplified by the red (R'w) and blue (B'w) color signals through the amplifiers 12 and 13, and then the inverting inputs of the operational amplifiers OP1 and OP2. It is input to the terminals (-) and (-) respectively as a comparison signal.

Here, the white balance is adjusted so that Gw = R'w = B'w, so that the main circuit automatically adjusts G = RA = BA, and inputs to the operational amplifiers OP1 and OP2. The output values of the operational amplifiers OP1 and OP2 vary according to the relative magnitudes of the green (Gw) color signal, the red (R'w) color signal, and the blue (B'w) color signal.

For example, when the white balance is not adjusted and the size of the red (R'w) signal and the blue (B'w) color signal is smaller than that of the green (Gw) color signal, the operation amplifiers (OP1) and (OP2) have a high level of input. The above signal is output and applied to the enable terminals EN15 and EN16 of the counters 5 and 16. Accordingly, the counters 15 and 16 count up the oscillation signal of the oscillation unit 19. The output signals of the digital / analog converters 17 and 18 are increased, and the output signals of the amplifiers 17 and 18 are fed to the gain control terminals of the amplifiers 6 and 12 and 7,13. Since the magnitudes of the red (R'w) and blue (B'w) color signals through the amplification units 12 and 13 are increased, the output signal values of the operational amplifiers OP1 and OP2 are zero at a predetermined level. Is maintained.

The magnitudes of the red (R'w) color signal and the blue (B'w) color signal inputted to the inverting input terminals (-) of the operational amplifiers OP1 and OP2 are the ratios of the operational amplifiers OP1 and OP2. If it is larger than the green (Gw) color signal applied to the inverting input terminal (+) as the reference signal, the reverse operation of the above operation is performed so that the output signals of the operational amplifiers OP1 and OP2 are maintained at zero level. do.

In this way, the output signal values of the operational amplifiers OP1 and OP2 are set to zero level, so that the operations of the counters 15 and 16 are stopped. Accordingly, the amplification unit (1) is operated through the digital / analog converters 17 and 18. The gain control signal applied to 12, 13 becomes zero level, and the red (R'w) color signal and the blue (B'w) color signal have the same magnitude as the green (Gw) color signal.

As a result, the red and blue color signals of the main circuit have the same size as the green (G) color signal, that is, G = RA = BA so that the white balance is automatically adjusted at the same time. In this state, the white balance of the main system is optimally maintained.

As described in detail above, the present invention uses a white subject formed integrally to automatically adjust the white balance in the video camera, thereby easily displaying sufficient color reproducibility by automatically adjusting the white balance under a given color temperature illumination. To be effective.

Claims (1)

The image of the subject incident through the lens 1 is converted into electrical red (R), green (G), and blue (B) color signals by the image sensor (2), and the red (R) and blue (B) color signals. Is amplified by the amplification unit (6) and (7), and the matrix encoder (4) is processed after the amplified red (RA), blue (BA) color signal and the green (G) color signal are processed by the image signal processing unit (3). In an image output circuit of a video camera outputting a composite video signal by means of, an image of a white subject 9 integrally formed at a predetermined portion of the video camera is formed in the image sensor 11 through the auxiliary lens 10, The green (Gw) color signal terminal of the image sensor 11 is commonly connected to the non-inverting input terminals of the operational amplifiers OP1 and OP2, and the red (Rw) and blue (Bw) color signal terminals are the amplifying unit 12. The output sides of the operational amplifiers OP1 and OP2 are respectively connected to the zener diodes ZD1, ZD2 and the enable terminals of the counters 15 and 16, respectively, through counter( The output side of 15 and 16 is configured by common connection to the gain control terminals of the amplifiers 6, 12 and 7, 13 through digital / analog converters 17 and 18, respectively. Automatic white balance control.