KR20070012586A - Apparatus for processing image signal and control method thereof - Google Patents

Abstract

An image signal processing apparatus and a control method thereof are provided to prevent determination of a broadcasting method from being delayed by limiting operations of an ALC circuit unit when a weak broadcasting signal is received, thereby shortening a color signal modulation time. A control method for an image signal processing apparatus comprises the following steps of: controlling an ACL(Auto Color Limit) circuit not to be operated when a CVBS(Complex Video Baseband Signal) is inputted or channel conversion is performed in no-signal status(S310,S320); detecting noise elements from the CVBS; and controlling the ACL circuit unit to be re-operated when the size of the detected noise elements is less than a predetermined value(S340,S350).

Description

Apparatus for processing image signal and control method

1 is a block diagram of an image signal processing apparatus according to an embodiment of the present invention, and

2 is a flowchart of a control method of an image signal processing apparatus according to an embodiment of the present invention.

Brief description of the main parts of the drawing

100: video signal processing device 110: YC separation circuit

120: noise detector 130: synchronization signal separation circuit

140: control unit 150: luminance signal processing circuit unit

160; Color signal processing circuit section 161: ACC

162: ACL 163: broadcast method determination unit

164: color signal demodulator

The present invention relates to a video signal processing device and a control method of a video signal processing device. In particular, when a complex video signal is input or a channel change is performed in the no signal state, the ACL circuit unit is not operated and noise components detected in the composite video signal are detected. The present invention relates to a video signal processing device and a control method of a video signal processing device for reactivating the ACL circuit unit when the size is less than a predetermined reference value.

In general, a video reproducing apparatus such as a color television includes a video signal processing circuit unit for processing a complex video signal (CVBS) extracted from a broadcast signal received through an antenna.

The image signal processing circuit unit processes color signals, luminance signals, and synchronization signals included in the composite image signal and outputs them to display means such as a monitor. Among the components constituting the image signal processing circuit unit, the ACC (Auto Color Control) circuit adjusts the magnitude of the color signal separated from the composite image signal to be inversely proportional to the magnitude of the burst signal, and transmits it to the color signal demodulator.

For example, if the detected burst signal is smaller than the reference level, the ACC circuit amplifies and outputs the color signal. If it is larger than the reference level, the ACC circuit reduces and outputs the color signal. The ACC circuit compensates for the fluctuation of the amplitude of the color signal due to distortion caused by noise and interference in the transmission process and the distortion generated from the antenna during the transmission process, and also changes the amplitude of the color signal generated when the channel is changed. Can compensate.

However, when the burst signal is too small, the ACC circuit amplifies the color signal excessively, which causes side effects such as color signal distortion. In order to prevent such side effects, an ACL (Auto Color Limit) circuit is adopted in the video signal processing circuit to restrict the magnitude of the color signal adjusted by the ACC circuit not to exceed a predetermined level.

On the other hand, when a received channel is switched or a composite video signal is input in the state of no signal input, the signal becomes unstable due to the operation of the AFC (Auto Frequency Control) circuit and the AGC (Auto Gain Control) circuit. It takes time. In particular, when a channel is switched in the state where the strength of the broadcast signal received from the antenna is weak or a composite video signal is input in the no signal state, the ACL circuit operates to limit the amplification of the color signal, thereby delaying the determination of the broadcast method. Since the method of demodulating the color difference signal is different for each broadcasting method such as NTSC, PAL, and SECAM, there is a problem that a significant delay time occurs until demodulating the color signal and outputting the color signal to the display means.

Accordingly, an object of the present invention is to limit the operation of the ACL circuit unit when receiving a weak broadcast signal, thereby preventing delay in the determination of the broadcast method and controlling the video signal processing apparatus and the video signal processing apparatus, which can shorten the color signal demodulation time. To provide.

A YC separation circuit unit for separating the color signal and the luminance signal in the composite image signal according to the present invention for achieving the above object, ACC circuit unit for adjusting the magnitude of the color signal according to the magnitude of the color burst signal detected in the color signal, and The control method of the image signal processing apparatus includes an ACL circuit unit for limiting the size of the adjusted color signal below a predetermined reference value and a synchronization signal separation circuit unit for separating and outputting a synchronization signal from the composite video signal. Controlling the ACL circuit unit not to operate when a video signal is input or channel switched; detecting a noise component in the composite video signal; and when the magnitude of the detected noise component is less than a predetermined reference value. Controlling to resume operation.

The method may further include controlling not to operate the reactivated ACL circuit unit when the synchronization signal is not output from the synchronization signal separation circuit unit.

According to an aspect of the present invention, there is provided a video signal processing apparatus comprising: a YC separation circuit unit for separating a color signal and a luminance signal from a composite video signal, and adjusting the size of the color signal according to the magnitude of the color burst signal detected from the color signal; An ACC circuit unit for outputting the control signal, an ACL circuit unit for limiting the magnitude of the color signal adjusted by the ACC circuit unit to a predetermined reference value or less, and the ACL circuit unit may not operate when the composite video signal is input or a channel is switched in a no signal state. It includes a control unit for controlling not to.

The video signal processing apparatus may further include a noise detector for detecting a noise component in the composite video signal, and wherein the controller is configured to reactivate the ACL circuit unit when the detected noise component has a magnitude less than a predetermined reference value. desirable.

The video signal processing apparatus may further include a synchronous signal separation circuit unit for separating and outputting a synchronous signal from the composite video signal, and wherein the control unit is further configured to output the synchronous signal when the synchronous signal is not output from the synchronous signal separation circuit unit. It is preferable to control not to operate the operated ACL circuit part.

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

1 is a block diagram of an image signal processing apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the image signal processing apparatus according to the present invention includes a YC separation circuit unit 110, a noise detection unit 120, a synchronization signal separation circuit unit 130, a controller 140, a luminance signal processing circuit unit 150, and a color signal. The processing circuit unit 160 is included.

The YC separation circuit unit 110 receives the composite video signal CVBS separated from the broadcast signals of the channel tuned by the tuner (not shown), separates the color signal C and the luminance signal Y, and respectively, the color signal processing circuit unit 160. ) And the luminance signal processing circuit unit 150.

The noise detector 120 detects a noise component N included in the composite video signal CVBS and transmits the detected noise component N to the controller 140. The noise detector 120 may be implemented to directly transmit information about the magnitude of the detected noise component N to the controller 140.

The sync signal separating circuit unit 130 separates the sync signal included in the composite video signal CVBS and transmits the sync signal to the controller 140.

The luminance signal processing circuit unit 150 amplifies and outputs the luminance signal Y transmitted from the YC separation circuit unit 110 to a predetermined level according to a contrast signal, a bright signal, and a sharpness signal input from the outside.

The color signal processing circuit unit 160 demodulates and outputs the color signal Y transmitted from the YC separation circuit unit 110 into color difference signals of R-Y and B-Y.

In more detail, the color signal processing circuit unit 160 includes an ACC (Auto Color Control) circuit unit 161, an ACL (Auto Color Limit) circuit unit 162, a broadcast method determination unit 163, and a color signal demodulation unit 164. .

The ACC circuit unit 161 detects the color burst signal from the color signal C transmitted from the YC separation circuit unit 110 and amplifies the color signal C to be inversely proportional to the magnitude of the detected color burst signal. For example, the ACC circuit unit 160 amplifies the color signal C when the magnitude of the detected burst signal is less than a predetermined reference value, and decreases the color signal C when the detected burst signal is larger than the predetermined reference value.

The ACL circuit unit 162 limits the size of the color signal C adjusted by the ACC circuit unit 161 not to exceed a predetermined reference level or more. For example, when the magnitude of the color signal C output from the ACC circuit unit 161 is greater than or equal to the reference level, the magnitude of the color signal C may be reduced to the reference level.

The broadcasting method determination unit 163 may be configured by the broadcasting method applied to the color signal C, which has been adjusted through the ACC circuit unit 161 and the ACL circuit unit 162, to the National Television System Committee (NTSC), Phase Alternation by Line (PAL), and the like. It determines whether it is a SECAM (Sequenticel Couleur A Memoire), and transmits it to the control unit 140.

The color signal demodulation unit 164 controls the color signal C whose size is adjusted through the ACC circuit unit 161 and the ACL circuit unit 162 under the control of the control unit 140 according to the broadcasting method determined by the broadcasting method determination unit 163. Demodulate it by color difference signal of RY and BY, and output it. In more detail, the color signal demodulator 164 includes an NTSC signal processor (not shown), a PAL signal processor (not shown), and a SECAM (not shown) signal processor, respectively, to determine the broadcast method determined by the broadcast method determination unit 163. Accordingly, the signal processor (not shown) may demodulate the color signal C into a color difference signal.

The controller 140 controls the ACL circuit unit 162 not to operate when the composite video signal is input or the channel is switched in the no signal state, so that the color signal C output from the ACC circuit unit 161 is the ACL circuit unit 162. The color signal demodulator 164 and the broadcast method determination unit 163 are directly input without the processing of the process. As a result, even if a channel is switched in a state where the strength of the broadcast signal received from the antenna (not shown) or a composite video signal is input in the non-signal state, the delay of the broadcast method determination due to the operation of the ACL circuit unit 162 may be prevented. It becomes possible.

While the signal line (not shown) to which the composite video signal CVBS is input is removed or the channel is switched, the sync signal S output from the sync signal separator 130 is not present. Therefore, when the synchronization signal S is not output from the synchronization signal separation unit 130, the controller 140 may determine that the composite video signal CVBS is input or channel switching is performed in the no signal state. have. In addition, the image signal processing apparatus 100 may include a separate component for detecting channel switching and signal input, and may provide the controller 140 with a signal for channel switching and signal input.

In addition, when the broadcast method determined by the broadcast method determination unit 163 is the SECAM method, the controller 140 continuously stops the operation of the ACL circuit unit 162. The SECAM method does not require operation of the ACL circuit unit 162 because the FM signal is modulated by the color signal.

If the broadcast signal received from the antenna is weak, the size of the noise component included in the composite video signal CVBS becomes large. If the received broadcast signal is strong (good), the noise component becomes small. . On the other hand, when the broadcast signal is good, the time required for determining the broadcast method of the color signal C is shorter even when the ACL circuit unit 162 is operated than when the broadcast signal is weak. Therefore, the control unit 140 operates the ACL circuit unit 162 when the magnitude of the noise component N detected from the noise detector 120 is less than a predetermined reference value when the ACL circuit unit 162 is not operating, thereby operating the ACC circuit unit 161. ), The color signal C is excessively amplified to prevent color signal distortion.

On the other hand, the controller 140 controls the ACL circuit unit 162 not to continue to operate when the size of the noise component N detected from the noise detector 120 is greater than or equal to a predetermined reference value when the ACL circuit unit 162 does not operate. do.

2 is a flowchart of a control method of an image signal processing apparatus according to an embodiment of the present invention.

1 and 2, first, when the composite video signal CVBS is input or channel is switched in the no signal state (S310), the controller 140 does not operate by turning off the ACL circuit unit 162. Control to prevent (S320).

Thereafter, the broadcast method determination unit 163 determines the broadcast method of the color signal C output from the ACC circuit unit 161 without the process of the ACL circuit unit 162 (S330). As a result, the color signal demodulation unit 164 can demodulate and output the color signal C into a color difference signal according to the broadcast method determined by the broadcast method determination unit 163.

Next, when the broadcast method determined in step S330 is the SECAM method (S330-N), the control unit 140 proceeds to step S320 to control not to continue to operate the ACL circuit unit 162.

On the other hand, if the broadcast method determined in step S330 is NTSC or PAL (S330-Y), the controller 140 determines whether the size of the noise component (N) detected by the noise detector 120 is greater than or equal to the reference value. (S340).

As a result of the determination in step S340, when the magnitude of the noise component N is greater than or equal to the reference value (S340 -Y), the control unit 140 proceeds to step S320 to control the ACL circuit unit 162 not to continue to operate.

As a result of the determination in step S340, when the magnitude of the noise component N is less than the reference value (S340 -N), the control unit 140 operates the ACL circuit unit 162 to excessively amplify the color signal C in the ACC circuit unit 161. It is prevented (S350).

Next, when the synchronization signal S output from the synchronization signal separation circuit 130 does not exist (S360), the controller 140 determines whether the power of the image signal processing apparatus 100 is turned off (S370). ).

If the power is not turned off (S370-N), the controller 140 determines that the signal line is removed or is in the channel switching state, and proceeds to step S320 to stop the operation of the ACL circuit unit 162.

As described above, according to the present invention, the color signal demodulation time can be shortened by limiting the operation of the ACL circuit unit when the weak broadcast signal is received, thereby preventing the determination of the broadcast method.

In addition, when a good broadcast signal is received, the ACL circuit unit can be operated to prevent signal distortion caused by excessive amplification of the color signal.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific embodiments of the present invention without departing from the spirit of the present invention as claimed in the claims. Anyone skilled in the art can make various modifications, as well as such modifications are within the scope of the claims.

Claims (5)

A YC separation circuit unit for separating the color signal and the luminance signal from the composite video signal, an ACC circuit unit for adjusting the size of the color signal according to the magnitude of the color burst signal detected from the color signal, and the size of the adjusted color signal below a predetermined reference value. A control method of an image signal processing apparatus comprising an ACL circuit unit for restricting and a synchronization signal separation circuit unit for separating and outputting a synchronization signal from the composite video signal. Controlling the ACL circuit unit not to operate when the composite video signal is input or channel switched in a no signal state; Detecting a noise component in the composite video signal; And, Controlling the ACL circuit unit to restart when the detected noise component has a magnitude less than a predetermined reference value; Control method of a video signal processing apparatus comprising a. The method of claim 1, Controlling not to operate the reactivated ACL circuit unit when a synchronization signal is not output from the synchronization signal separation circuit unit; Control method of a video signal processing apparatus further comprising. A YC separation circuit unit for separating the color signal and the luminance signal from the composite video signal; An ACC circuit unit which adjusts and outputs the color signal according to the magnitude of the color burst signal detected from the color signal; An ACL circuit unit for limiting the magnitude of the color signal adjusted by the ACC circuit unit to a predetermined reference value or less; And, A control unit for controlling the ACL circuit unit not to operate when the composite video signal is input or the channel is switched in the no signal state; Image signal processing apparatus comprising a. The method of claim 3, wherein A noise detector for detecting a noise component in the composite video signal; More, And the control unit restarts the ACL circuit unit when the detected noise component has a magnitude less than a predetermined reference value. The method of claim 4, wherein A synchronization signal separation circuit unit for separating and outputting a synchronization signal from the composite video signal; More, And the control unit controls not to operate the reactivated ACL circuit unit when a synchronization signal is not output from the synchronization signal separation circuit unit.

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