KR0147604B1 - Polarity detector and changer for video signal - Google Patents

Abstract

A video signal polarity detection and conversion device. The device includes a clamp circuit for receiving a video signal and setting a reference potential, a composite synchronous signal separation circuit for separating a composite synchronous signal, a vertical synchronous signal separation circuit for separating a vertical synchronous signal, and a polarity detection for detecting video polarity. A circuit for detecting a video signal, receiving an input of the video signal, and inverting the polarity; and a video signal polarity selection circuit for receiving an output signal of the polarity detection circuit and selectively outputting the video signal and the inverted video signal. Further comprising a to convert the video signal polarity.

Description

Video signal polarity detection and conversion device

1 is a block diagram illustrating a video signal polarity detection and conversion device according to the present invention.

FIG. 2 shows the output waveforms of the respective components when a positive video signal is input for explaining the operation of the video signal polarity detection and conversion device of FIG.

FIG. 3 shows the output waveforms of respective components when a negative video signal is input for explaining the operation of the video signal polarity detection and conversion device of FIG.

The present invention relates to a video signal processing circuit, and more particularly to a circuit for detecting the polarity of the video signal to determine whether to reverse the polarity of the video signal and optionally converts the polarity of the video signal.

Today, as satellite broadcasting using broadcast satellites or communication satellites is in full swing, and the frequency band used is expanded, there is a need for a system capable of receiving two or more bands. In particular, unlike television broadcasting which is terrestrial broadcasting, a video signal has a positive polarity or a negative polarity according to a frequency band. Therefore, in order to view an inverted video signal having a different polarity from that of a conventional television broadcast, the polarity of the signal must be reversed.

In the related art, there is a hassle of determining whether the polarity of the video signal is determined after setting the polarity of the received video signal in advance or visually confirming the image.

Accordingly, it is an object of the present invention to provide a video signal polarity detection device for automatically detecting the polarity of a video signal.

It is another object of the present invention to provide a video signal polarity detection and conversion device for automatically detecting the polarity of a video signal and selectively inverting the video signal polarity through detection.

In order to achieve the above object of the present invention, the video signal polarity detection device of the present invention comprises: reference potential setting means for setting a reference potential by receiving a video signal;

A composite synchronous signal separating means for receiving the output signal of the reference potential setting means and separating the composite synchronous signal, a vertical synchronous signal separating means for receiving the composite synchronous signal and separating the vertical synchronous signal, and inputting the vertical synchronous signal And polarity detecting means for detecting the video polarity.

In addition, in order to achieve the above object of the present invention, the video signal polarity detecting and converting apparatus according to the present invention includes reference potential setting means for setting a reference potential by receiving a video signal, and polarity inversion by receiving the video signal. A polarity inverting means, a compound synchronizing signal separating means for receiving an output signal of the reference potential setting means and separating the compound synchronizing signal, a vertical synchronizing signal separating means for receiving the compound synchronizing signal and separating the vertical synchronizing signal; And polarity detecting means for receiving a vertical synchronization signal and detecting video polarity, and a video signal polarity selecting means for receiving the detected signal and selectively outputting the video signal and the inverted video signal.

Hereinafter, a polarity discrimination and conversion circuit of a video signal of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram for explaining the configuration of a polarity detection and conversion circuit of a video signal according to the present invention.

The polarity determination and conversion circuit of the video signal according to the present invention includes an inverter 5, a switch 8, a clamp circuit 10, a synchronization signal separation circuit 20, a vertical synchronization signal separation circuit 30, a polarity detection circuit ( 40), the multiplier 50 and the switch drive circuit 60 are comprised.

Operation through the above configuration will be described with reference to FIGS.

2 is a case where a positive video signal for inputting polarity detection and a conversion circuit of a video signal according to the present invention is input, and FIG. 3 shows an output waveform through each configuration when a polar video signal is input. will be.

First, a case in which the positive video signal is input is as follows.

(A) of FIG. 2 shows the waveform of the input positive video signal, (b) shows the signal waveform in which the input positive video signal is inverted by the inverter 5 of FIG. c) shows the output waveform of the clamp circuit 10, (d) shows the output waveform of the composite synchronous signal separation circuit 20, (e) shows the output waveform of the vertical synchronous signal separation circuit 30, respectively. .

The positive video signal is input through the terminal 2 and applied to the inverter 5 and the clamp circuit 10. The video signal at this time includes a color carrier. The clamp circuit 10 sets the reference voltage level of the next synchronization signal separation circuit 20 as shown in FIG. 2C, and the composite synchronization signal separation circuit 20 generates a composite synchronization signal from the input video signal. The synchronization signal is separated based on the reference voltage level. That is, the high frequency color carrier is removed (C 'in FIG. 2) and only the composite synchronization signal is separated as shown in (d) of FIG. Subsequently, the vertical synchronizing signal separation circuit 30 receives an output signal of the composite synchronizing signal separation circuit 20 in an integral or counter type to count the duty to separate the vertical synchronizing signal. (E) of FIG. 2 is an output waveform of the vertical synchronous signal separation circuit 30. At this time, the vertical synchronization signal frequency is 60Hz in the NTSC method, 50Hz in the PAL method, the duty (duty) has a width corresponding to 3H. The polarity detection circuit 40 receives the separated vertical synchronization signal and counts the duty and frequency to detect the polarity of the video signal. At this time, the vertical synchronization signal separation circuit 30 and the polarity detection circuit 40 multiplies the color carrier signal fsc through the multiplier 50 and receives it as a clock signal. The switch driving circuit 60 receives the detected signal and determines whether to invert the video signal input through the terminal 2 to control the switch 8.

Meanwhile, a case in which the negative video signal is input through the terminal 2 is as follows.

(A) of FIG. 3 shows the waveform of the input negative video signal, (b) shows the signal waveform in which the input negative video signal is inverted by the inverter 5 of FIG. c) shows the output waveform of the clamp circuit 10, (d) shows the output waveform of the composite synchronous signal separation circuit 20 respectively.

When the negative video signal is input, clamping is performed at the minimum level by the clamp circuit 10, so that the waveform output through the vertical synchronous signal separation circuit 30 has a random frequency and duty.

Thus, the polarity detection circuit 40 can determine the video polarity using the difference in frequency and duty between the polarities.

As described above, the video signal polarity detection and conversion circuit according to the present invention uses a conventional preset method or visually grasps and sets the video signal polarity by detecting and detecting the circuit automatically. By the automatic conversion, the conventional hassle has been solved.

Claims (2)

Reference potential setting means for receiving a video signal and setting a reference potential; A composite synchronous signal separating means for receiving the output signal of the reference potential setting means and separating the composite synchronous signal; Multiplication means for multiplying the color carrier (fsc) at a predetermined multiplication rate to generate a predetermined clock signal; Vertical synchronization signal separation means for receiving the composite synchronization signal and separating a vertical synchronization signal in response to the clock signal; And a polarity detecting means for detecting the video polarity by receiving the vertical synchronizing signal and counting the frequency and the duty of the vertical synchronizing signal in response to the clock signal. Reference potential setting means for receiving a video signal and setting a reference potential; Polarity inversion means for receiving the video signal and inverting polarity; A composite synchronous signal separating means for receiving the output signal of the reference potential setting means and separating the composite synchronous signal; Multiplication means for multiplying the color carrier (fsc) at a predetermined multiplication rate to generate a predetermined clock signal; Vertical synchronization separating means for receiving the composite synchronization signal and separating vertical synchronization signal in response to the clock signal; Polarity detection means for detecting the video polarity by receiving the vertical synchronization signal and counting the frequency and duty of the vertical synchronization signal in response to the clock signal; And a video signal polarity selecting means for receiving the detected signal and selectively outputting the video signal and the inverted video signal.