KR100595036B1 - Signal conversion apparatus for filtering differently according to a kind of input image signal and filtering method thereof - Google Patents

Abstract

Provided are a signal converter and a filtering method for performing different filtering according to the type of an input image signal. The signal conversion apparatus includes an adaptive LPF for filtering an input video signal at different cut-off frequencies, an ADC for sampling an image signal output from the adaptive LPF, and converting the image signal into a digital video signal, and for determining the type of an input video signal. And a conversion unit for converting the cut-off frequency of the adaptive LPF based on the type of the input image signal determined by the determination unit and the determination unit. Thereby, the video signal input to the signal conversion apparatus is filtered differently according to the type of the video signal before sampling, thereby preventing the occurrence of aliasing distortion during sampling.

Video signal, LPF, cut-off frequency, aliasing distortion

Description

Signal conversion apparatus for filtering differently according to the type of input image signal and filtering method thereof

1 is a block diagram of a conventional signal conversion apparatus using LPF having a fixed filtering characteristic,

2 is a block diagram of a signal conversion apparatus for performing different filtering according to a type of an input video signal according to an embodiment of the present invention.

3 is a flowchart provided to explain a method of performing different filtering according to a type of an input video signal according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: AGC 120: adaptive LFP

130: ADC 140: image signal discrimination unit

150: filtering characteristic conversion unit

The present invention relates to a signal conversion apparatus and a filtering method thereof, and more particularly, to a signal conversion apparatus and a filtering method thereof that performs filtering before converting an input analog video signal into a digital video signal.

1 is a block diagram of a conventional signal conversion apparatus using LPF having fixed filtering characteristics. Referring to FIG. 1, a conventional signal converter includes a low pass filter (LPF) 10 and an analog to digital converter (ADC).

The LPF 10 passes only a low frequency signal of the input analog video signal. The ADC 20 samples the analog video signal filtered by the LPF 10 according to the sampling frequency and converts the analog video signal into a digital video signal.

The addition of the LPF (10) to the front of the ADC (20) to prevent aliasing distortion. Aliasing distortion refers to distortion generated when the maximum frequency of the analog video signal input to the ADC 20 exceeds half of the sampling frequency, that is, violates the sampling theory. When aliasing distortion occurs, a problem arises in that image quality of a reproduced image is deteriorated.

Therefore, by adding the LPF 10 in front of the ADC 20, the aliasing distortion is prevented by limiting the maximum frequency of the analog video signal input to the ADC 20 to less than half of the sampling frequency.

On the other hand, there may be a variety of video signals input to the signal conversion device, the sampling frequency is different depending on the type of video signal. The different sampling frequency for each kind of video signal means that the maximum frequency satisfying the sampling theorem for each kind of video signal is also different.

The LPF 10 provided in the conventional signal conversion apparatus described above has a fixed filtering characteristic (ie, a fixed cut-off frequency). That is, regardless of the type of the video signal, the LPF 10 outputs by limiting the input video signal to a fixed maximum frequency.

For this reason, in the case of a video signal having a low sampling frequency, the maximum frequency exceeds half of the sampling frequency, and thus an aliasing distortion occurs during the sampling process.

The present invention has been made to solve the above problems, an object of the present invention, through the different filtering according to the type of the input video signal, the signal conversion apparatus that can prevent the aliasing distortion occurs in the sampling process And a filtering method thereof.

In accordance with an aspect of the present invention, a signal conversion device includes: an adaptive low pass filter (LPF) for filtering an input image signal with different cut-off frequencies; An analog-to-digital converter (ADC) for sampling a video signal output from the adaptive LPF and converting the video signal into a digital video signal; A discriminating unit for discriminating a type of the input video signal; And a converting unit converting the cut-off frequency of the adaptive LPF based on the type of the input image signal determined by the determining unit.

The input video signal may include at least one of a composite video signal, a super video video signal, a component video signal, and a WVGA video signal.

In addition, when the color image signal is included in the input image signal, the determination unit may determine the input image signal as the composite image signal.

The component video signal may include at least one of a 480i video signal, a 480p video signal, a 720p video signal, and a 1080i video signal, and the determination unit may include the number of synchronization signals included in the input video signal. The type of component video signal can be determined.

The converting unit may adjust the cutoff frequency of the adaptive LPF by adjusting at least one of a variable resistor and a variable capacitor provided in the adaptive LPF.

On the other hand, the filtering method according to the present invention comprises the steps of: a) determining the type of the input video signal; b) adjusting a cut-off frequency based on the determined type of the input video signal; And c) filtering the input video signal by the adjusted cut-off frequency.

The input video signal may include at least one of a composite video signal, a super video video signal, a component video signal, and a WVGA video signal.

In the step a), when the input video signal includes a color burst signal, the input video signal may be determined as the composite video signal.

The component video signal may include at least one of a 480i video signal, a 480p video signal, a 720p video signal, and a 1080i video signal, and the step a) may be performed through the number of synchronization signals included in the input video signal. The type of the component video signal may be determined.

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

2 is a block diagram of a signal conversion apparatus for performing different filtering according to the type of an input video signal according to an embodiment of the present invention. Referring to FIG. 2, the signal conversion apparatus includes an AGC 110, an adaptive LPF 120, an ADC 130, an image signal discrimination unit 140, and a filtering characteristic conversion unit 150.

The AGC (Auto Gain Controller) 110 maintains and outputs a constant amplitude of an input analog video signal.

The adaptive LPF 120 performs filtering on the analog video signal whose amplitude is adjusted by the AGC 110. Specifically, the adaptive LPF 120 blocks high frequency components exceeding the cut-off frequency among the frequency components of the input analog video signal, and passes low frequency components below the cut-off frequency.

The cut-off frequency, which is an indicator of the filtering characteristics of the adaptive LPF 120, is not fixed but can be converted. In this case, the cut-off frequency of the adaptive LPF 120 is adjusted by the filtering characteristic converter 150 to be described later.

Adaptive LPF 120 may be implemented with a resistor and a capacitor. At this time, any one of a resistor and a capacitor may be implemented as a variable element, or both may be implemented as a variable element.

The analog-to-digital converter (ADC) 130 samples the analog video signal filtered by the adaptive LPF 120 according to the input sampling frequency and converts the analog video signal into a digital video signal.

The video signal discrimination unit 140 determines the type of the analog video signal input to the signal conversion apparatus.

Various types of video signals may be input to the signal conversion apparatus. The input video signals include a composite video signal, a super video video signal, a component video signal, and a WVGA video signal. Component video signals are classified into 480i, 480p, 720p, and 1080i component video signals according to the resolution. The resolution of the composite video signal and the super video video signal is the same as that of the 480i component video signal. However, the composite video signal is distinguished from the super video video signal and the 480i component video signal in that it includes a color burst signal. The WVGA video signal has a higher resolution than the 1080i component video signal.

As such, video signals have different resolutions. Different resolution means that the number of horizontal and vertical lines of the image is different, which means that the number of horizontal and vertical synchronization signals included in the image signal is different. Accordingly, the image signal discrimination unit 140 detects the number of horizontal synchronization signals and vertical synchronization signals of the analog image signal input to the signal conversion apparatus, and determines the type of the input image signal based on the detection result.

That is, according to the number of horizontal / vertical synchronous signals detected, the video signal discrimination unit 140 includes: i) WVGA video signal, ii) 1080i component video signal, iii) 720p component video signal, iv) 480p component video signal, v ) 480i can be classified into component video signal / super video video signal / composite video signal.

The 480i component video signal / super video video signal / composite video signal has the same resolution, but the composite video signal includes a color burst signal. Accordingly, the video signal discrimination unit 140 detects whether the color burst signal is included in the analog video signal input to the signal conversion apparatus, and discriminates the input video signal as a composite video signal when the color burst signal is detected. On the other hand, since the super video video signal and the 480i component video signal may be treated the same in the signal conversion process, there is no real advantage to distinguish the two.

The filtering characteristic converting unit 150 converts the cut-off frequency, which is a filtering characteristic of the adaptive LPF 120, according to the determination result of the image signal discriminating unit 140.

The cut-off frequency required varies depending on the type of video signal. The required cut-off frequency is 1) WVGA video signal, 2) 1080i component video signal, 3) 720p component video signal, 4) 480p component video signal, 5) 480i component video signal / super video video signal 6) Composite video signal In order of high. That is, the WVGA video signal should be filtered to the highest cut-off frequency, and the composite video signal should be filtered to the lowest cut-off frequency.

The filtering characteristic converter 150 appropriately converts the cut-off frequency of the adaptive LPF 120 according to the type of the video signal. In this case, the filtering characteristic converter 150 may convert the cut-off frequency of the adaptive LPF 120 by adjusting the resistance of the variable resistor provided in the adaptive LPF 120 or the capacitance of the variable capacitor. .

Hereinafter, a process of performing different filtering depending on the type of the analog video signal inputted by the signal conversion apparatus shown in FIG. 2 will be described in detail with reference to FIG. 3. FIG. 3 is according to an embodiment of the present invention. 4 is a flowchart provided to explain a method of performing different filtering according to the type of an input video signal.

Referring to FIG. 3, when an image signal is input to the signal conversion apparatus, the image signal discrimination unit 140 first determines the type of the input image signal (S210).

In detail, the image signal determination unit 140 determines that the color image signal is included in the input image signal as a composite image signal. The video signal discrimination unit 140 detects the number of horizontal sync signals and vertical sync signals included in the input video signal, and converts the input video signals into i) WVGA video signals, ii) 1080i component video signals, and iii). 720p component video signal, iv) 480p component video signal, v) 480i component video signal / super video video signal.

The filtering characteristic converter 150 determines a cut-off frequency that is a filtering characteristic of the adaptive LPF 120 based on the determination result in step S210 (S220). The cut-off frequency determined is 1) WVGA video signal, 2) 1080i component video signal, 3) 720p component video signal, 4) 480p component video signal, 5) 480i component video signal / super video video signal 6) Component video signal In the order of high.

The filtering characteristic converter 150 converts the cut-off frequency of the adaptive LPF 120 to the cut-off frequency determined in step S220 (S230). Specifically, the filtering characteristic converter 150 converts the cut-off frequency of the adaptive LPF 120 by adjusting the resistance of the variable resistor provided in the adaptive LPF 120 or the capacitance of the variable capacitor.

Thereafter, the analog video signal whose amplitude is adjusted by the AGC 110 is filtered according to the cut-off frequency converted by the adaptive LPF 120 (S240). The filtered video signal is sampled according to the sampling frequency in the ADC 130 and converted into a digital video signal (S250).

In step S240, filtering is performed at different cut-off frequencies according to the type of video signal. Therefore, since the maximum frequency of any kind of video signal is adjusted to less than half of the sampling frequency, aliasing distortion does not occur during sampling in step S250.

As described above, according to the present invention, the video signal input to the signal conversion apparatus is filtered differently according to the type of the video signal before being sampled. Therefore, since the maximum frequency of any input video signal can be adjusted to less than half of the sampling frequency, it is possible to prevent the occurrence of aliasing distortion during sampling.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims (9)

An adaptive low pass filter (LPF) for filtering input video signals with different cut-off frequencies; An analog-to-digital converter (ADC) for sampling a video signal output from the adaptive LPF and converting the video signal into a digital video signal; A discriminating unit for discriminating a type of the input video signal; And And a conversion unit for converting the cut-off frequency of the adaptive LPF based on the type of the input video signal determined by the determination unit. The method of claim 1, The input video signal, And at least one of a composite video signal, a super video video signal, a component video signal, and a WVGA video signal. The method of claim 2, The determining unit, And when the color video signal is included in the input video signal, discriminating the input video signal as the composite video signal. The method of claim 2, The component video signal includes at least one of a 480i video signal, a 480p video signal, a 720p video signal, and a 1080i video signal. And the determining unit determines the type of the component video signal based on the number of synchronization signals included in the input video signal. The method of claim 1, The conversion unit, And converting the cutoff frequency of the adaptive LPF by adjusting at least one of a variable resistor and a variable capacitor provided in the adaptive LPF. a) determining the type of the input video signal; b) adjusting a cut-off frequency of an adaptive low pass filter (LPF) for filtering the input video signal to different cut-off frequencies based on the determined type of the input video signal; c) filtering the input video signal in the adaptive LPF at the adjusted cut-off frequency; And and d) sampling the input video signal filtered by the adaptive LPF and converting the input video signal into a digital video signal. The method of claim 6, The input video signal, A filtering method comprising at least one of a composite video signal, a super video video signal, a component video signal, and a WVGA video signal. The method of claim 7, wherein Step a) is And when the color video signal is included in the input video signal, determining the input video signal as the composite video signal. The method of claim 7, wherein The component video signal includes at least one of a 480i video signal, a 480p video signal, a 720p video signal, and a 1080i video signal. In the step a), the type of the component video signal is determined based on the number of synchronization signals included in the input video signal.

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