KR101086436B1 - Apparatus and Method for signal processing through back-porch lovel control - Google Patents

Abstract

A signal processing method through level control of a back porch section, which is a video signal connected to an end of a horizontal synchronizing pulse of an input signal, according to the present invention. Generating a first control signal for adjusting the back porch level of the signal to a predetermined target back porch level, and controlling the back porch level adjusting speed of the input signal according to the interval between the back porch level of the input signal and the target back porch level. Generating a second control signal for the back control, and performing back porch level control of the input signal by varying the speed based on the first control signal and the second control signal. Improve

Clamp, Back Porch, Signal Processing, Video Signal

Description

Apparatus and Method for signal processing through back-porch lovel control}

1 is a block diagram of a back porch level control apparatus for processing a video signal according to the prior art.

2 is a flowchart illustrating a signal processing method through back porch level control according to the present invention.

FIG. 3 illustrates one embodiment of back porch level control with varying control speeds depending on the back porch level of the input signal in accordance with the present invention.

4 is a block diagram of a signal processing apparatus through back porch level control according to the present invention.

The present invention relates to signal processing, and more particularly, to a signal processing apparatus and method through back porch level control of an input signal.

The input signal has a wide range while the analog digital converter (ADC) has a constant DC input range. Therefore, it is necessary to adjust the input signal to match the input range of the device. In addition, in the case of a video signal, it is necessary to maintain a constant level corresponding to the black color of the input video signal in order to display the image stably. The video signal is classified into a horizontal sync pulse and a back porch section and an effective video signal section. The back porch section is maintained at a constant level in order to match the input range of the input device and maintain a constant level corresponding to the black color of the video signal. It is important. Therefore, there is a conventional technique for adjusting the level of the back porch section connected to the end of the horizontal sync pulse to the target level.

1 is a block diagram of a back porch level control apparatus for processing a video signal according to the prior art. The back porch level control apparatus according to the related art includes an ADC 110, a low pass filter (LPF) 120, a synchronization signal detector 130, a controller 140, and an analog clamp 150.

The input analog signal is converted into a digital signal through the ADC 110.

The digital signal converted through the ADC 110 is transmitted to the LPF 120.

The LPF 120 removes the color burst signal, the color signal, and the noise component of the input image signal.

The sync signal detector 130 informs the back porch section where clamping occurs in the input signal through a process of separating the sync signal component from the composite signal component.

The controller 140 detects a signal level of the back porch part based on the sync signal component detected by the sync signal detector. The difference value is obtained by comparing the detected back porch level with a target value of the preset back porch level. The controller 140 transmits a control signal for controlling the input image signal to the analog clamp 150 according to the difference value.

The analog clamp 150 charges the capacitor to raise the back porch level when the back porch level of the input video signal is smaller than the target level according to the transmitted control signal. On the contrary, when the back porch level of the input video signal is larger than the target level, the capacitor is discharged to lower the back porch level.

According to such a conventional back porch level control device, there is a variation in time taken for back porch level control in various input signals. That is, the input signal coming through the input terminal comes in a very different level than the back porch level desired by the system. Therefore, the distance between the input back porch level and the target back porch level may be small or large. In this case, according to the conventional back porch level control device, the control time is long when the difference between the input back porch level and the target level is large, and the control time is small when the difference between the input back porch level and the target level is small. There is a deviation in time.

An object of the present invention is to solve the above problems and to quickly move various input signals having a large difference in back porch level to a target back porch level without time deviation.

One feature of the present invention for solving the above problems, in the signal processing method through the level control of the back porch section, which is a video signal connected to the end of the horizontal sync pulse of the input signal, Generating a first control signal for adjusting the back porch level to a predetermined target back porch level; Generating a second control signal for controlling a back porch level adjusting speed of the input signal according to an interval between a back porch level of the input signal and the target back porch level; And performing back porch level control of the input signal at different speeds based on the first control signal and the second control signal.

Preferably adjusting the input signal to a constant voltage; Detecting a synchronization signal from the input signal; Determining whether the system is stabilized; And searching the back porch section of the input signal from the generated sync signal when the system is stabilized, and searching the back porch section from the minimum value of the input signal when the system is not stabilized according to the determined result. It further comprises the step.

Another aspect of the present invention provides a signal processing apparatus through level control of a back porch section, which is a video signal connected to an end of a horizontal sync pulse of an input signal, wherein the back porch level of the input signal is a predetermined target back porch level. A first control unit for generating a first control signal for adjusting the power supply to the controller; A second controller configured to generate a second control signal for controlling a back porch level adjusting speed of the input signal according to an interval between a back porch level of the input signal and the target back porch level; And an analog clamp unit configured to perform back porch level control of the input signal at different speeds based on the first control signal and the second control signal.

Another aspect of the present invention provides a signal processing apparatus through level control of a back porch section, which is a video signal connected to an end of a horizontal sync pulse of an input signal, comprising: a voltage clamp unit configured to adjust an input signal to a predetermined voltage; A controller configured to generate a first control signal for adjusting the back porch level of the adjusted input signal to a predetermined target back porch level; And an analog clamp unit configured to perform back porch level control of an input signal based on the first control signal.

Preferably, the controller generates a second control signal for controlling the back porch level adjustment speed of the input signal according to the interval between the back porch level of the input signal and the target back porch level, and the analog clamp unit generates the second control signal. The back porch level control of the input signal is performed by varying the speed based on the first control signal and the second control signal.

2 is a flowchart illustrating a signal processing method through back porch level control according to the present invention.

Step 210 adjusts the input signal to a constant voltage level. By forcibly adjusting the voltage level of the input signal, the back porch level can be brought closer to the target value, thereby reducing the time spent in back porch. Also, as the back porch level stabilizes quickly, the system can stabilize more quickly. A detailed description of the system stabilization will be described later in step 230.

Step 220 detects the synchronization signal 310 from the input signal. The synchronization signal can be detected by separating the synchronization signal component from the composite signal component. A simple method of separating the synchronization signal is to generate a synchronization signal by setting a predetermined level as a reference point from the minimum value of the input signal, setting a signal level above the reference point as 1 and a signal level below the reference point as 0. However, it is obvious that the method of generating the synchronization signal is not limited to the above-described method.

Step 230 determines whether the system is stabilized to determine whether the synchronization signal 310 detected in step 220 is a reliable synchronization signal.

In the prior art, the back porch section is searched using the detected sync signal 310 without determining whether the system is stabilized. However, when the system is not stabilized, since the detected sync signal 310 cannot be trusted, a position detected by the sync signal 310 in the back porch section may be a valid video information section 326 of the input signal. do. In this case, the video information may be damaged by adjusting the level of the section 326 in which the effective video information exists to the target level.

In operation 230 of the present invention, it is determined whether the system is stabilized, and when the system is stabilized, the back porch section 324 of the input signal is determined based on the detected synchronization signal 310. However, when the system is not stabilized, since the detected sync signal 310 cannot be trusted, the back porch section is searched using the minimum value of the input signal. A detailed description of searching for the back porch section using the minimum value will be described later in step 240.

In one embodiment, whether or not the system is stabilized may be determined by the digital block by determining a condition such that a certain number of AT pixels are detected within a predetermined range, a back porch level of the input signal corresponds to a desired stable level, or the like. have. When it is determined that the system is stable, it sends a lock signal. When it is determined that the system is unstable, it sends an unlock signal. Therefore, in step 230, it may be determined whether the system is stabilized by determining the lock and unlock signals transmitted from the digital block.

Since the system can be stabilized only when the back porch level is quickly adjusted to a desired stable level, the present invention adjusts the voltage level of the input signal to a constant voltage level in step 210, so that the back porch level is stabilized more quickly. Be sure to

Step 240 retrieves the back porch section from the minimum value of the input signal if it is determined that the system has not stabilized. This is because, as described above, the synchronization signal 310 detected according to step 220 cannot be reliable when the system is not synchronized. In operation 240, the value above the predetermined level is determined as the back porch level 324 based on the minimum value 322 of the input signal. This is because the back porch level generally has a value above a certain level from the minimum value of the input signal.

The determined back porch level transmits a control signal to step 260 to raise the back porch level of the input signal if the back porch level of the input signal is less than the target back porch level compared to the target back porch level, and back of the input signal. If the porch level is greater than the target back porch level, a control signal is sent to step 270 to lower the input back porch level.

Step 250 retrieves the back porch level using the sync signal 310 detected in step 220 when the system is stabilized. Since the detected sync signal 310 can be trusted, the back porch level is searched for the level 334 of the input signal after a predetermined time has elapsed from the falling edge 311 of the sync signal. The back porch level 334 and the target back porch level 360 of the retrieved input signal are compared. If the back porch level of the input signal is less than the target back porch level, a control signal is sent to step 270 to raise the back porch level of the input signal, and if the back porch level of the input signal is greater than the target back porch level, the input back A control signal is sent to step 270 to lower the porch level.

Step 260 determines whether the back porch level of the input signal retrieved in steps 240 and 250 corresponds to a predetermined fast zone or slow zone. Accordingly, when the back porch level of the input signal corresponds to the fast zone, a control signal indicating that the back porch of the input signal corresponds to the fast zone is transmitted to step 270 in order to reach the target level quickly. When the back porch level of the input signal corresponds to the slow zone, a control signal indicating that the back porch of the input signal corresponds to the slow zone is transmitted to step 270 in order to slowly reach the target level.

When the back porch level of the input signal is maintained at the desired level, the screen looks stable. In this state, the back porch level is finely moved by the leakage factor. Therefore, in this state, the control signal is transmitted to step 270 that the input signal corresponds to the slow zone in response to the fine movement.

In addition, if the back porch level of the input signal is greatly changed due to external environmental factors, the control signal indicating that the input signal corresponds to the fast zone is transmitted to the step 270 because the back porch level should be moved to the target back porch level more quickly. do.

According to the prior art, even though the back porch level of the input signal varies, the back porch level is controlled at a uniform speed, thereby causing a large variation in time taken for the input back porch level to move to the target level. In step 260, the present invention solves this problem by varying the speed of control depending on the back porch level of the input level.

Step 270 controls the input back porch level to rise or fall according to the control signals transmitted in steps 240 and 250. This may be performed by charging or discharging the charge to the capacitor. When a control signal for raising the input back porch level is transmitted, a control signal for charging the capacitor and lowering the input back porch level is transmitted. Discharge the capacitor.

Step 270 also adjusts the speed of back porch level control in accordance with the control signal transmitted in step 260. This can be done by adjusting the time to charge or discharge the capacitor. In one embodiment, when a control signal is transmitted that the input back porch level corresponds to a fast zone, a current source of 1000 uA charges or discharges the capacitor, and 100 uA when a control signal is transmitted that the input back porch level corresponds to a slow zone. The device can be designed such that a current source of to charge or discharge the capacitor.

Therefore, when the difference between the input back porch level and the target back porch is large, the fast zone is charged or discharged 10 times faster than the slow zone, thereby reducing the variation in clamp time and providing a more stable clamp device. Can be implemented. It is apparent that the present invention is not limited to the size of the current source, but may be possible by other power sources such as a voltage source other than the current source.

Figure 3 illustrates one embodiment of back porch level control with varying clamping speeds in accordance with the back porch level of an input signal according to the present invention.

Referring to FIG. 3, the back porch level 324 of the input signal 1 320 input through the input means has a small difference from the target back porch level 360, but the back porch level of the input signal 2 330 ( 334 has a large difference from the target back porch level 360. In this case, if the conventional technology is used as it is, the input signal 1 320 quickly reaches the target back porch level 360, but the input signal 2 330 takes much time to reach the target back porch level 360. do. For example, the difference between the back porch level 324 of the input signal 1 320 and the target level 360 is 0.1V, and the difference between the back porch level 334 and the target level 360 of the input signal 2 330 is At 0.5V, the back porch level 324 of the input signal 1 320 reaches the target level 360 five times faster.

In an embodiment according to the present invention, the control speed is divided into fast zone 350 and slow zone 340 according to the back porch levels 324 and 334 of the input signal. That is, the input signal 1 320 corresponds to the slow zone 340 region, and is controlled by a current source of 10 uA, and the input signal 2 330 corresponds to the fast zone 350 region, and is controlled by a current source of 100 uA. Controlled. Therefore, the time gap for controlling the back porch level between two input signals having large difference in back porch level can be reduced.

Through this process, the back porch level reaches the target back porch level like the output signal 370 of the two input signals 320 and 330 in which the control is completed.

4 is a block diagram of a signal processing apparatus through back porch level control according to the present invention. The signal processing apparatus through back porch level control according to the present invention includes a voltage clamp unit 410, an analog clamp unit 420, an ADC 430, an LPF 440, a synchronization signal generator 450, and a system stabilization determination unit. 460, a first controller 470, and a second controller 480.

The voltage clamp controller 410 forcibly adjusts the input signal to a constant voltage level. Referring to FIG. 3, since the back porch level of the input signal 2 330 is substantially different from the target back porch level, it takes a long time to control the back porch level. In order to reduce the waste of control time, a control signal for forcibly adjusting the voltage of the input signal by applying a voltage to the input signal is transmitted to the analog clamp unit 420. The voltage clamp control unit 410 may be omitted depending on the embodiment, and may be implemented simultaneously or independently of the analog clamp unit 420.

The analog clamp unit 420 receives a control signal from the voltage clamp control unit 410 and adjusts the input image signal to a predetermined voltage level. The back porch level is adjusted by receiving control signals from the first controller 470 and the second controller 480 which will be described later.

When the control signal for raising the back porch level is transmitted from the first controller 470, the back porch level is increased by charging the capacitor through the current source. In addition, when a control signal for lowering the back porch level is transmitted from the first controller 470, the back porch level is lowered by discharging the capacitor.

When the control signal is transmitted from the second control unit 480 that the back porch level of the input signal corresponds to the fast zone, the back porch level is adjusted using a current source of 1000 uA, and the back porch level of the input signal corresponds to the slow zone. If a control signal is transmitted, the back porch level is adjusted using a current source of 100 uA.

The ADC 430 receives an analog input signal and converts it into a digital signal. Although one embodiment of the present invention uses a CVBS composite video signal, it is obvious that other types of video signals are possible. In addition, the hybrid scheme is not limited, and it is obvious that not only the NTSC scheme but also the PAL scheme may be used.

The LPF 440 receives the image signal converted into the digital signal by the ADC 430 and removes the color burst signal color signal and noise. The input CVBS is a mixture of luminance, saturation, and sync information. Among these signals, the color burst signal is present at the position for checking the back porch level. Therefore, to stably check the back porch level, the color burst signal should be removed first. The color burst signal is a 3.58Mhz signal based on NTSC and can be removed by passing through a 1Mhz low pass filter. It also has the benefit of removing noise components.

The sync signal detector 450 receives the video signal from which the color burst signal, the color signal, and the noise component are removed through the LPF 440 to detect the sync signal.

The system stabilization determination unit 460 determines whether the system is stabilized, and determines whether the synchronization signal 310 detected by the synchronization signal detection unit 450 is a reliable synchronization signal.

When the first controller 470 determines that the system is stabilized according to the determination result of the system stabilization determiner 460, the first controller 470 detects the back porch level based on the sync signal 310 generated by the sync signal detector 450. If it is determined that the system is not synchronized, the back porch section is searched through the minimum value of the input signal.

The difference between the detected back porch level and the target value is detected, and a control signal for adjusting the back porch level of the input signal to the target level is transmitted to the analog clamp unit 420 according to the detected difference value.

The second controller 480 transmits a control signal for adjusting the control speed to the analog clamp 420 based on the back porch level detected by the first controller 470.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

According to the configuration of the present invention as described above, the present invention has the effect of improving the time deviation required for the back porch control by varying the control speed according to the back porch level of the input signal.

In addition, when the system is not stabilized, the back porch level is obtained without using the synchronization signal, thereby improving the problem that the effective video information may be damaged when the synchronization signal is wrong.

In addition, even when the input back porch level is significantly different from the target back porch level through the voltage clamp, the input voltage is forcibly adjusted to reduce the time required for back porch control and stabilize the system more quickly. have.

Claims (5)

In the signal processing method through the level control of the back porch section connected to the end of the horizontal sync pulse of the input signal, Generating a first control signal for adjusting the back porch level of the input signal to a predetermined target back porch level; Generating a second control signal for controlling a back porch level adjusting speed of the input signal according to an interval between a back porch level of the input signal and the target back porch level; And And performing back porch level control of an input signal at different speeds based on the first control signal and the second control signal. The method of claim 1, Before generating the first control signal, Adjusting the input signal to a constant voltage; Detecting a synchronization signal from the input signal adjusted to the constant voltage; Determining whether the system is stabilized; And According to the determined result, when the system is stabilized, the back porch level of the input signal is searched from the detected sync signal, and when the system is not stabilized, the back porch level is searched from the minimum value of the input signal. Signal processing method further comprising the step. In the signal processing apparatus through the level control of the back porch section connected to the end of the horizontal sync pulse of the input signal, A first controller configured to generate a first control signal for adjusting the back porch level of the input signal to a predetermined target back porch level; A second controller configured to generate a second control signal for controlling a back porch level adjusting speed of the input signal according to an interval between a back porch level of the input signal and the target back porch level; And And an analog clamp unit configured to perform back porch level control of an input signal at different speeds based on the first control signal and the second control signal. In the signal processing apparatus through the level control of the back porch interval, which is a video signal connected to the end of the horizontal sync pulse of the input signal, A voltage clamp unit configured to adjust the input signal to a predetermined voltage; A controller configured to generate a first control signal for adjusting the back porch level of the adjusted input signal to a predetermined target back porch level; And And an analog clamp unit configured to perform back porch level control of an input signal based on the first control signal. The method of claim 4, wherein The control unit generates a second control signal for controlling a back porch level adjusting speed of the input signal according to an interval between a back porch level of the input signal and the target back porch level, The analog clamp unit may perform back porch level control of an input signal at different speeds based on the generated first and second control signals.

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