KR0134334B1 - Apparatus for generating a ghost cancelling reference signal - Google Patents

Abstract

The present invention provides a ghost removal reference signal generator for extending a ghost removal range and improving ghost removal performance by transmitting a ghost removal reference signal having a short sequence length to remove ghost noise when a broadcast station transmits a video signal. It is about.

The present invention provides a sequence generator for generating various types of short sequences by compressing and zeroing a sequence having a length of 640, a low pass filter for limiting a band by converting the digital sequence into an analog signal, and the analog A peak level amplifier for amplifying the peak level of the sequence, and a multiplexing unit for selecting a sequence applied from the pedestal video signal or the peak level heavy amplifier according to the multiplexing control signal and outputting a ghost removal reference signal multiplexed to the pedestal video signal Done.

Description

Ghost elimination reference signal generator

1 is a block diagram of a ghost cancellation reference signal generator according to the present invention.

2 is a detailed view of the sequence generator of FIG.

* Explanation of symbols for main parts of the drawings

10: sequence generator 20: low pass filter

30: peak level amplifier 40: multiplexer

42, 43, 45: compressor 44, 46: zero inserter

The present invention transmits a ghost removal reference signal having a short sequence length to remove ghost noise when transmitting a video signal from a broadcasting station, thereby expanding ghost removal range and improving ghost removal performance. A ghost elimination reference signal generator is provided.

In general, a part of radio waves sent from a broadcasting station is received after being reflected by a mountain or a building without directly reaching a television receiver. In this case, since the path of the reflected wave is longer than that of the direct wave, there is a time delay, and the reflected wave appears as a shadow on the television screen. In other words, in a television image, the image is attenuated slightly to the right at a normal position of the screen and repeated, and a false image appears. This shadow image has a big impact on image quality, especially in a system that requires high quality, such as in HD-TV.

Therefore, a device for removing a shadow image, that is, ghost noise, has been developed and installed in a television receiver. The ghost removal apparatus includes a ghost removal reference signal carried in a vertical blanking period of a received composite video signal and a ghost set in the receiver itself. The error is detected by comparing the removal reference signals. To this end, a broadcasting station generates a ghost cancellation reference signal using a pair of complementary sequences consisting of +1 and -1 and has a sequence length of 640, and transmits the combined video signal when transmitting the composite video signal.

However, since the length of the sequence constituting the ghost removal reference signal and the ghost removal range are inversely related to each other, the shorter the sequence length, the larger the ghost removal range. There was a problem.

In addition, when the sequence length is long, two lines of horizontal lines are required to remove ghosts with a large delay time from the television receiver, thus requiring a large amount of line memory. There is a problem in that the rear line of the ghost elimination reference signal must be transmitted as a fixed signal for each field.

The present invention is to solve the above-mentioned conventional problems, an object of the present invention is to generate a ghost removal reference signal having an arbitrary sequence shorter than the conventional sequence length to reduce the ghost removal range even with one horizontal line. An object of the present invention is to provide a ghost elimination reference signal generator capable of removing a shadow image having a large delay time by enlarging it.

Another object of the present invention is to provide a ghost removal reference signal generator capable of reducing the line memory capacity used for ghost removal by generating a ghost removal reference signal using a short length sequence.

The ghost elimination generator according to the present invention for achieving the above objects is a sequence generator for generating several kinds of short sequence length, and converts the digital sequence output from the sequence generator into an analog value and a predetermined band A low pass filter limited to a signal, a peak level amplifier for amplifying the peak level of an analog sequence output from the low pass filter to a predetermined level, and a sequence or a pedestal video signal output from the peak level amplifier according to a multiplexing control signal Is achieved by a multiplexer for outputting a ghost cancellation reference signal multiplexed on the pedestal video signal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 and 2.

1 is a block diagram of a ghost elimination reference signal generator of the present invention. As shown, the apparatus for generating a ghost removal reference signal of the present invention generates several types of sequences having a shorter sequence length than a conventional ghost removal reference signal and selects and outputs one according to a selection signal of a controller (not shown). The sequence generator 10 is provided. The low pass filter 20 is connected to the output terminal of the sequence generator 10. The low pass filter 20 converts an unrestricted digital sequence into an analog value and limits the band to a predetermined band. It is for. A peak level amplifier 30 is connected to the low pass filter 20, and the peak level amplifier 30 amplifies the peak level of the analog sequence output from the low pass filter 20 to a predetermined level. The output of the peak level amplifier 30 is applied to one input terminal of the multiplexer 40. An output terminal of a pedestal video signal is connected to the other input terminal of the multiplexer 40. The multiplexer 40 generates a ghost removal reference signal by multiplexing the sequence into a pedestal video signal according to the multiplexed control signal applied from the controller.

Referring to the operation of the ghost removal reference signal generator configured as described above in more detail as follows.

In general, a ghost removal reference signal using a complementary sequence is composed of a ghost removal reference signal waveform using a pair of complementary sequences (hereinafter referred to as an S sequence and a CS sequence) having a complementary relationship to each other, and a pedestal waveform. That is, the first ghost elimination reference signal using S sequence and the first ghost elimination reference signal multiplexed with pedestal waveform are transmitted according to the odd or even field by several fields or the second ghost elimination using CS sequence. The second ghost elimination reference signal obtained by multiplexing the reference signal waveform and the pedestal waveform is transmitted.

To this end, the sequence generator 10 compresses and zeros a complementary sequence or another sequence whose length is fixed to 640 with a conventionally defined definition, thereby generating various types of short and various sequences. Here, a complementary sequence is a signal in which a sequence of a number of columns has a complementary relationship, and a sequence having a length of 640 is composed of digital values of +1 and -1. The sequence generator 10 will be described in detail with reference to FIG. 2.

The sequence having an arbitrary length output from the sequence generator 10 is applied to the low pass filter 20, and the low pass filter 20 converts the sequence, which is a digital value, into an analog signal and at the same time a low pass component. It will pass through the bay and limit it to the band that can be transmitted. In this case, since the video signal is limited to 4.2MHz, the low pass filter 20 is also limited to the same band. The band-limited analog sequence is applied to the peak level amplifier 30, and the peak level amplifier 30 amplifies the input sequence to the same level as the image signal level and outputs the same to the input terminal of the multiplexer 40. Here, the output signal of the peak level amplifier 30 generally has a level value between 70 and 110 IRE _PP .

A pedestal video signal input terminal is connected to the other input terminal of the multiplexer 40. The pedestal video signal includes a complex synchronous signal, a color burst signal, etc., in which an actual video signal is excluded. The multiplexer 40 outputs a pedestal image signal or a sequence applied from the peak level amplifier 30 according to the multiplexing control signal applied from the controller to generate a ghost removal reference signal.

That is, when a window signal having a sequence length is made and applied to the multiplexer 40 as a multiplexing control signal, a sequence is output for a predetermined period and a pedestal video signal is output for a predetermined period, and the process is repeated. A first ghost cancellation reference signal multiplexed with the video signal can be obtained. Similarly, when the CS generator selects the CS sequence, the multiplexer 40 outputs the CS sequence for a predetermined period according to the multiplexing control signal, and outputs the pedestal video signal for the predetermined period, so that the CS sequence is a pedestal image. A second ghost cancellation reference signal multiplexed on the signal can be obtained. The broadcasting station transmits the first ghost elimination reference signal or the second ghost elimination reference signal in a vertical blanking period of the composite video signal according to the field.

2 is a block diagram showing the detailed configuration of the sequence generator 10. In the present embodiment, the complementary sequence generator has been described, but it is also applicable to other sequences that can be used as a ghost removal reference signal and thus can be configured in the same manner. As shown, the sequence generator of the present invention includes a complementary sequence generator 41 for generating a complementary sequence having an inherent length of 640 inherent in sequence characteristics.

The complementary sequence generator 41 takes only one sample every two samples from a complementary sequence of length 640 to create a complementary sequence of length 320 and a one-by-one compressor 42 and one every four samples from a complementary sequence of length 640. A 4: 1 compressor (43) which takes only a sample to make a 160 complementary sequence, and an 8: 1 compressor (45) which takes only one sample every 8 samples from a 640 complementary sequence of length 640 to make a 80 complementary sequence Each is connected.

The 1: 2 zero inserter 44 is connected to the 4: 1 compressor 43, and the 1: 2 zero inserter 44 inserts one zero between each sample of the complementary sequence having a length of 160. A complementary sequence 320z of length 320 is created. In addition, the 8: 1 compressor 45 is connected with a 1: 3 zero inserter 46 to create a complementary sequence 240zz having a length of 240 by inserting two zeros between each sample of the 80 complementary sequence. .

Here, the 2: 1 compressor 42, 4: 1 compressor 43, 8: 1 compressor 45 performs the deduction (decimation) to discard a portion of the sample regularly for a complementary sequence of length 640 and only a part By compressing the sequence length at a set rate. That is, in the 2: 1 compressor 42, one sample is discarded every two samples, and only one sample is taken.In the 4: 1 compressor 43, only three samples are discarded every four samples, and the 8: 1 compressor 45 is taken. Esau discards seven samples every eight samples and takes only one sample.

In the 1: 2 zero inserter 44 and the 1: 3 zero inserter 46, 0 is inserted between each sample to increase the length of the sequence. The complementary sequence generator 41 and the 2: 1 compressor 42 , 4: 1 compressor (43), 8: 1 complimentary sequences output from the compressor 45 is composed of +1 and -1, by inserting 0 to improve the ghost removal efficiency.

As described above, the sequence generator of the present invention generates complementary sequences having lengths of 640, 320, 240, and 160, and selects one of them according to a selection signal from the controller. However, by changing the compression ratio and zero insertion ratio, complementary sequences of different lengths and types (for example, using a 5: 1 compressor and a 1: 2 zero inserter can generate 256z complementary sequences of length 256) can be generated arbitrarily. Will be easy to understand.

As described above, the present invention generates a ghost removal reference signal using a shorter length sequence than in the related art, thereby expanding the ghost removal range. In addition, the number of horizontal lines used for ghost elimination only requires lines containing ghost elimination reference signals, thereby reducing line memory capacity, facilitating signal transmission by broadcasting stations, and improving ghost elimination efficiency. There is.

Claims (11)

A device for transmitting a ghost elimination reference signal having a predetermined length sequence to a composite video signal under control of a control unit, wherein the various types of sequences having a sequence length shorter than the ghost elimination reference signal are generated and A sequence generator for selecting and outputting one according to the selected signal, a low pass filter for converting the digital sequence output from the sequence generator into an analog value and limiting the signal to a predetermined band; And a multiplexing unit for multiplexing a sequence passed through a low pass filter to a pedestal video signal according to the multiplexing control signal applied from the controller to output a ghost elimination reference signal. The apparatus of claim 1, further comprising a peak level amplifier configured to amplify the peak level of the analog sequence output from the low pass filter to a predetermined level. . The apparatus of claim 2, wherein the sequence generator comprises: a complementary sequence generator configured to generate a complementary sequence having an inherent length of 640 due to sequence characteristics; And decompressing means for deducting a complementary sequence having a length shorter than a sequence output from the complementary sequential generator by deducting the complementary sequence having a length of 640 at a predetermined ratio. The ghost removal method according to claim 3, further comprising a zero insertion means for inserting a predetermined number of zeros between each sample of the complementary sequence output from the compression means to create a complementary sequence of a predetermined length. Reference signal generator. 4. The apparatus as claimed in claim 3, wherein the compression means is a 2: 1 compressor which takes only one sample every two samples from the complementary sequence having a length of 640 to produce a complementary sequence of giraffe 320. 4. The ghost elimination method according to claim 3, wherein the compression means is a 4: 1 compressor, which takes only one sample every four samples from a complementary sequence having a length of 640 output from the complementary sequence generator to create a complementary sequence having a length of 160. Reference signal generator. 4. The ghost elimination method according to claim 3, wherein the compression means is a 4: 1 compressor, which takes only one sample every four samples from a complementary sequence having a length of 640 output from the complementary sequence generator to create a complementary sequence having a length of 160. Reference signal generator. 8. The apparatus of claim 6 or 7, further comprising zero insertion means for inserting a predetermined number of zeros between each sample of the complementary sequence output from the compression means to create a complementary sequence of a predetermined length. Ghost removal reference signal generator. 9. The zero insertion means of claim 8, wherein the zero insertion means is a one-to-two zero inserter for making a complementary sequence having a length of 320 by inserting one zero between each sample of the complementary sequence having a length of 160 output from the 4: 1 compressor. Ghost removal reference signal generator characterized in that. 9. The zero inserter of claim 8, wherein the zero insertion means is a 1: 3 zero inserter for making a complementary sequence having a length of 240 by inserting two zeros between each sample of a complementary sequence having a length of 80 output from an 8: 1 compressor. Ghost removal reference signal generator characterized in that. The ghost elimination criterion according to claim 2, wherein the sequence generator generates other ghost sequences that can be used as a ghost elimination reference signal in addition to the complementary sequence to generate a ghost elimination reference signal having a short sequence length. Signal generator.