KR100249230B1 - Phase tracking control apparatus in hdtv - Google Patents

Abstract

A phase tracker for performing phase tracking of an input signal, the reference vertical synchronizing signal generator for generating a reference vertical synchronizing signal by a vertical synchronizing section signal, and a vertical synchronizing section signal A quantization error detector for calculating a value of a quantization error by comparing the reference vertical synchronization signal generated by the reference vertical synchronization signal generator with an input signal or an output signal of the phase tracker, and a quantization output by the quantization error detector. It consists of a quantization error comparator that compares the error values and outputs an on / off signal to the phase tracker according to the comparison result, and malfunctions of the phase tracker due to quantization error between the vertical synchronization reference signal and the phase tracker's input / output signal only in the vertical synchronization section. It can be implemented with a simple circuit This reliability is highly effective.

Description

Phase Tracking Control Apparatus in HDTV

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to HDTVs, and more particularly to a phase tracking control device for controlling the operation of a phase tracker.

In general, even in the US-oriented HDTV standard, phase noise generated by a receiver tuner (not shown) is not completely eliminated during carrier demodulation.

If a tuner with a very good performance is used, it generates little phase noise, which completely eliminates this phase noise during carrier demodulation.

However, if you use a tuner with a slightly lower performance to reduce the cost of the receiver, the phase noise generated by the tuner requires additional cost to completely eliminate the carrier demodulation.

Therefore, a phase tracker is used to remove residual phase noise that could not be completely removed during carrier demodulation.

If there is little signal distortion on the channel, and the phase noise generated by the tuner is the main noise of the received signal, the phase tracker can be used to eliminate the residual phase noise.

However, if the signal is severely distorted, ie Gaussian, on the channel, the phase tracker may worsen the condition of the signal.

The phase tracker quantizes the input I signal to a promised data level, and uses the difference between the quantized signal and the signal before being quantized as information of phase noise.

If Gaussian distortion exists on the channel, the information of phase noise extracted due to quantization is also distorted, which may adversely affect the operation of the phase tracker, which may worsen the state of the signal.

FIG. 1 is an ideal constellation diagram of a general 8VSB signal. When an 8VSB signal is transmitted by a transmitter using a promised 8VSB signal, the signals shown in FIG. 1 are transmitted.

FIG. 2 is a constellation diagram of a case in which phase noise is present in a general 8VSB signal, and a phase line is added to a signal received from a tuner, and a solid line is an original 8VSB signal. If noise is present, this is where the signal can be.

The phase tracker extracts information of phase noise from the difference between the data existing between the dotted lines and the solid line and transfers the data located between the dotted lines to the solid line.

3 is a constellation diagram in which a typical 8VSB signal has Gaussian distortion on a channel, and a signal received when there is Gaussian distortion on a channel is located between dotted lines.

4 is a constellation diagram of Gaussian distortion and phase noise in a typical 8VSB signal, in which phase noise is added while a signal having Gaussian distortion on a channel passes through a tuner.

Here, the point 13 is a signal originally existing at the position of the right solid line 12, which is shifted under the influence of Gaussian distortion and phase noise.

However, since the phase tracker does not know the transmitter data value, the received signal is quantized. In the case of the point 13, when the quantization is performed, it is determined that the data of the left solid line is deformed, and thus the distance between the solid line 11 and the point 13 is determined. Recognize it as information of phase noise.

FIG. 5 is a view for explaining a malfunction of the phase tracker according to the prior art. In FIG. 4, a case in which the information of the phase noise is incorrectly recognized is shown in more detail. The phase information should be recognized as 23, but the phase tracker recognizes that 24 is modified as it is quantized.

Therefore, since the actual operation of the phase tracker performs phase tracking with the phase information 25, the phase tracker has a problem of amplifying the phase job.

Therefore, in this case, it is more preferable in terms of error correction operation that the phase tracker does not perform an operation.

In addition, if only Gaussian distortion exists on the channel without phase noise, there is a difference as much as the amount of Gaussian noise between the level of the promised signal and the received data.

Even in this case, the phase tracker may determine that the difference is due to phase noise and operate.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and provides an HTVD phase tracking control device which turns on when the use of the phase tracker is advantageous and turns off when the use of the phase tracker makes the signal worse. There is a purpose.

1 is an ideal constellation of a typical 8VSB signal

2 is a constellation diagram of a phase noise in a typical 8VSB signal

3 is a constellation diagram when a typical 8VSB signal has Gaussian distortion on a channel.

4 is a constellation diagram of Gaussian distortion and phase noise in a typical 8VSB signal

5 is a view for explaining a malfunction of the phase tracker according to the prior art;

6 is a block diagram for explaining the configuration of the phase tracking control apparatus according to the present invention;

7 is a diagram for explaining constellations and quantization criteria of 8 VSB signals according to the present invention;

Explanation of symbols for main parts of the drawings

61: phase tracker 62: reference vertical sync signal generator

63 and 64: quantization error detection unit 65: quantization error comparison unit

66: reliability counter

The feature of the HTV phase tracking control apparatus according to the present invention is a reference vertical sync signal generator for generating a reference vertical sync signal by a vertical sync interval signal, and a reference vertical sync signal generator when the vertical sync interval signal is input. Comparing the generated reference vertical synchronizing signal with the input signal or output signal of the phase tracker and calculating the value of the quantization error, the quantization error value output from the quantization error detection unit is compared with the phase tracker according to the comparison result. It consists of a quantization error comparison unit for outputting a low on / off signal.

In addition, another feature of the HTV phase tracking control apparatus according to the present invention is to further add a reliability counter for outputting the on / off signal to the phase tracker when the on / off signal output from the quantization error comparison unit is repeated a certain time In construction.

Hereinafter, an HTV phase tracking control device according to the present invention will be described with reference to the accompanying drawings.

6 is a block diagram illustrating a configuration of a phase tracking control device according to the present invention, wherein the phase tracking control device according to the present invention performs a phase tracking of a signal input from an equalizer (not shown). A reference vertical synchronizing signal generator 62 generating a reference vertical synchronizing signal by the vertical synchronizing section signal; and a reference vertical generated by the reference vertical synchronizing signal generating unit 62 when the vertical synchronizing section signal is input. A first quantization error detector 63 for calculating a value of the quantization error by comparing the synchronization signal with a signal input from an equalizer (not shown), and a reference vertical synchronization signal generator 62 when the vertical synchronization section signal is input. A second quantization error detector 64 that calculates a value of the quantization error by comparing the reference vertical synchronization signal generated by the signal with the signal output from the phase tracker 61, and a first quantization error check. A quantization error comparison unit 65 for comparing the quantization error values output from the unit 63 and the second quantization error detection unit 64 and outputting an on / off signal according to the comparison result, and a quantization error comparison unit 65. If the on / off signal output from the repetition a certain time is composed of a reliability counter unit 66 for outputting the on / off signal to the phase tracker (61).

The operation of the phase tracking control apparatus according to the present invention configured as described above will be described with reference to the accompanying drawings.

7 is a view for explaining constellations and quantization criteria of 8 VSB signals according to the present invention.

In the presently proposed HDTV signal, a vertical synchronization signal is inserted into each field by one line and transmitted. The vertical synchronization signal is in a promised form, and the receiver already knows the input signal during the vertical synchronization signal.

Therefore, in the vertical synchronization section, the quantization error can be calculated using the reference vertical synchronization signal. However, in the normal data section, it is possible to make a wrong decision because it determines whether a quantization error has occurred using the difference between the quantized signal and the signal before quantization. high.

That is, when there is a quantization error, the difference between the actual signal and the reference signal is large, so that the quantization error can be easily detected.

First, the phase tracker 61 quantizes a signal input from an equalizer (not shown) to a promised data level and tracks the difference between the quantized signal and the signal before quantization with information of phase noise.

When the vertical synchronization section signal is input, the reference vertical synchronization signal generator 62 generates a reference vertical synchronization signal of a promised type.

When the vertical synchronous signal is input, the first quantization error detector 63 compares the reference synchronous signal generated by the reference vertical synchronous signal generator 62 with the signal input to the phase tracker 61 to compare the value of the quantization error. After the calculation, it is output to the quantization error comparison unit 65.

In addition, when the vertical synchronous signal is input, the second quantization error detector 64 compares the reference vertical sync signal generated by the reference vertical sync signal generator 62 with the signal tracked by the phase tracker 61 and outputs the quantized signal. The error value is calculated and then output to the quantization error comparison unit 65.

That is, as shown in FIG. 7, the first and second quantization error detectors 63 and 64 have positions of the input signal and the output signal of the phase tracker 61 when the expected signal magnitude is 33 at the vertical synchronization interval. If present between 32 and 34, no quantization error occurs, but if greater than 32 or less than 34, quantization error can be detected.

The quantization error comparator 65 compares the calculated quantization error values output from the first and second quantization error detectors 63 and 64, and the quantization error value detected by the first quantization error detector 63 is set to zero. 2 If the quantization error detection unit 64 is larger than the quantization error value detected, the tracking result of the phase tracker 61 outputs a better signal, thereby outputting the operation on signal to the phase tracker 61.

On the other hand, if the quantization error value detected by the first quantization error detection unit 63 is smaller than the quantization error value detected by the second quantization error detection unit 64, the tracking result of the phase tracker 61 is further deteriorated. The operation off signal is output to the phase tracker 61.

Here, since the determination of the on / off operation of the phase tracker 61 only in the vertical synchronization period, there is a high possibility of false positives, thereby adding a reliability counter 66 for increasing the reliability of the output signal of the quantization error comparator 65. Can be used.

The reliability counter 66 outputs the on / off signal to the phase tracker 61 after the on signal or the off signal output from the quantization error comparator 65 is repeatedly repeated.

The HTV phase tracking control device according to the present invention controls the malfunction of the phase tracker due to the quantization error between the vertical sync reference signal and the input / output signal of the phase tracker only in the vertical sync period, so that it can be implemented with a simple circuit and has high reliability. There is.

Claims (4)

A phase tracker for performing phase tracking of an input signal; A reference vertical synchronization signal generator for generating a reference vertical synchronization signal by the vertical synchronization section signal; A first quantization error detector for calculating a value of a quantization error by comparing a reference vertical synchronization signal generated by the reference vertical synchronization signal generator with an input signal of the phase tracker when a vertical synchronization period signal is input; A second quantization error detector configured to calculate a value of a quantization error by comparing a reference vertical sync signal generated by the reference vertical sync signal generator and an output signal of the phase tracker when a vertical sync interval signal is input; H-Dive comprises a quantization error comparison unit for comparing the quantization error value output from the first quantization error detection unit and the second quantization error detection unit and outputs an on / off signal to the phase tracker according to the comparison result Phase tracking control. The phase of HDI is further characterized by further comprising a reliability counter unit for outputting an on / off signal to the phase tracker when the on / off signal output from the quantization error comparison unit is repeated a predetermined time. Tracking control. delete 2. The method of claim 1, wherein if the quantization error value detected by the first quantization error detector is greater than the quantization error value detected by the second quantization error detector, an ON signal is output to the phase tracker and detected by the first quantization error detector. And outputs an off signal to the phase tracker when the quantization error value is smaller than the quantization error value detected by the second quantization error detection unit.

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