KR0139362B1 - Digital processing circuit for a camera - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital function processing circuit of a camera for animating by representing a digitally converted signal in a video camera to a specific value. In the video camera to be applied, the digital function processing unit 100 for representing the luminance or color digital signal digitally processed in the luminance process [200] or the color process [300] is represented to a specific value.

Description

Digital function circuit of camera

1 is a block diagram of the present invention,

2 is a circuit diagram of one embodiment of the present invention;

3 is an input / output characteristic curve.

* Explanation of symbols for the main parts of the drawings

100: digital function processing unit 200: luminance process

300: color process 400: control unit

Al-A8: And Gate

The present invention relates to a digital function processing circuit of a camera for animating by representing a digitally converted signal in a video camera to a specific value.

As the use of video cameras is becoming more common, various shooting effects are expected instead of simple shooting functions.

Conventional video cameras have a method of processing the captured video signal in an analog form and a digital form. Among them, the analog processing method is difficult to give a special effect, but the digital processing method is easy.

However, in the past, special effects cannot be directly applied to a video camera, so special screen effects are provided using a special editing device or a computer capable of processing digital images.

In this case, a person with only a video camera could not give a special effect, and only a person with a special device could use it.

In view of the above, the present invention is intended to give an animation effect by representing a digital signal subjected to luminance and color processing to a specific value in a video camera for digitally processing an image signal.

In order to accomplish the above object, the present invention provides a digital function processing unit at the rear end of the luminance process and the color process for representing and outputting a digital signal subjected to luminance and color signal processing to a predetermined value determined by the microcomputer.

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

FIG. 1 is a block diagram of the present invention, wherein an image signal photographed from a CCD (Charge Coupled Device), which is a solid-state image pickup device, is applied to a digital converter (not shown) and converted into a digital signal, followed by a luminance process [200] and a color process [300]. ] To process luminance and color signals.

The luminance process [200] and the color process [300] are general functional blocks of a video camera for digitally processing an image signal.

A digital function processor 100 for representing and outputting the digital signal processed by the luminance processor 200 or the color processor 300 to a predetermined value determined by the control of the microcomputer is provided.

2 is a detailed circuit diagram of the digital function processing unit 100 as an exemplary circuit diagram of the present invention.

8 bits of the luminance signal processed by the process [200] is a digital luminance signal output of each AND gate _{[A 1 -A 8] [400} ] the other side of the control applied to the one side and the AND gate [A ₁ -A _8] of And a luminance signal capable of producing an animation effect to the output side of the AND gates [A ₁ -A ₈ ].

Herein, the control unit 400 controls the output applied to the other side of the AND gates [A ₁ -A ₈ ] under the control of a microcomputer (not shown).

In this case, the gate elements of the AND gates [A ₁ -A ₈ ] can be replaced with other gate elements (for example, an exclusive o-gate), and thus, another effect can be obtained.

In addition to processing only the luminance signal, a color signal may be applied to one side of the AND gates A ₁ -A ₈ to produce a different effect.

The output luminance signal or color signal of the digital function processor 400 is applied to the encoder.

This invention of such a structure is demonstrated concretely.

The photoelectrically changed image signal in the CCD of the video camera is converted into a digital signal through an analog digital converter (not shown) and applied to the luminance process [200] and the color process [300], respectively.

The luminance process 200 and the color process 300 output digital luminance and color signals through digital signal processing.

This process is the same as the operation of the existing video camera, and in the related art, the output of the luminance process [200] and the color process [300] is applied to the encoder as it is, but in the present invention, it is applied to the digital function processor [100] for digital function processing. The output of the digital function processing unit 100 is applied to the encoder.

Here, the digital luminance signal of the luminance process 200 may be applied to the digital function processing unit 100 as shown in FIG. 2 and the digital color signal of the color process 300 may be applied to the digital function processing unit 100. The output of the luminance process 200 and the color process 300 may be applied to the digital function processing unit 100.

In the present invention, a case where the luminance signal is applied to the digital function processing unit 100 will be described as an example.

In the luminance process [200], an 8-bit luminance signal is output and applied to one side of the AND gates [A ₁ -A ₈ ].

The output of the controller 400 is applied to the other side of the AND gates A ₁ -A _8, but the output of the controller 400 is controlled by a microcomputer (not shown).

That is, the controller [400] applies the 'high' or 'low' signal output to the other side of the AND gates [A ₁ -A ₈ ] under the control of the microcomputer, and the AND gates [A ₁ -A ₈ ] are the controllers [400]. When the 'high' signal is applied to the luminance signal is output as it is, and if the 'low' signal is applied from the controller 400, the 'low' signal is output as it is regardless of the luminance signal input.

If the control unit 400 applies a signal applied to the other side of the AND gates [A ₄ -A ₈ ] to the low signal according to the control command of the microcomputer, the signal is applied to the other side of the AND gates [A ₄ -A ₈ ]. Is applied as a 'high' signal, the AND gate [A ₄ -A ₈ ] outputs the output luminance signal [Y ₀ '-A ₄ '] as a 'low' signal regardless of the input luminance signals [Y ₀ -Y ₄ ]. The AND gate [A ₁ -A ₃ ] outputs the input luminance signal [Y ₅ -Y ₇ ] as an output luminance signal [Y ₅ '-Y ₇ '].

Therefore, in this case, an 8-bit input can be made to have only 3 bits of resolution, which means that 2 ⁸ = 256 gray levels are represented by 2 ³ = 8 gray levels.

That is, the above case means that the input / output characteristics as shown in [a] of FIG. 3 are changed to the input / output characteristics represented as in [b] of FIG. 3, and the input / output characteristics represented by [b] in FIG. When the function processing unit 100 is applied to the encoder of the rear end, an animation effect can be obtained.

Although the above description has only been given with respect to the luminance signal input, the color signal may be processed in the same manner as described above.

In an embodiment of the present invention, an AND gate [A ₁ -A ₈ ] is used to represent a specific value. However, an exclusive oragate may be used.

On the other hand, the control unit 400 may be a command from the microcomputer to vary the output signal applied to the other side of the AND gate (A ₁ -A ₈ ).

If the animation effect is not desired, the control unit 400 may issue a control command from the microcomputer to apply the 'high' signal to the other sides of the AND gates [A ₁ -A ₈ ].

Then, the AND gates [A ₁ -A ₈ ] output the input luminance signals as they are, and have input / output characteristics as shown in [a] of FIG.

In addition, converting the AND gate [A ₁ -A ₈ ] into an exclusive oragate provides a safer signal than when using the AND gate. When the exclusive oragate and the AND gate are directly connected and controlled, two simultaneous effects are achieved. I can make it.

As described above, the present invention can obtain an animation effect by representing a digitalized signal in a video camera at a predetermined value, thereby adding a function of a video camera.

Claims (2)

In a video camera which applies a digitally converted signal captured by a CCD to the luminance process [200] and the color process [300], the luminance or color digital signal digitally processed in the luminance process [200] or the color process [300] is specified. A digital function circuit for a camera, comprising a digital function processing unit [100] to represent a value. According to claim 1, wherein the brightness control process to the other of the [200] for the luminance signal processing and-gate AND gate [A ₁ -A _8] is applied to one side of the AND gate and the AND gate [A ₁ -A _8] in the [400 The digital function processing unit [100] is configured to control the output signal level in response to a control command of the microcomputer.