KR100275632B1 - Device for detecting field synchronous in vsb dtv - Google Patents

Abstract

The present invention is to find the position of the field synchronization signal of the signal received from the DTV receiver, the present invention is a hard limit to determine the hard and positive limits of the input data, and coexisting channel interference in the output data of the hard limit A comb filter for removing filtering, a data mapping unit for mapping the data passing through the comb filter to {-1, 0, 1}, a signal combining unit for obtaining a difference between the signal passing through the data mapping unit and the reference signal; An absolute value calculating unit that takes an absolute value in the output value of the signal combining unit, an accumulating unit accumulating the output of the absolute value calculating unit at segment intervals, a synchronization delay unit for delaying the output value of the accumulating unit by one field, and a final accumulated value of the accumulating unit. The comparator detects the segment sync interval by comparing during one field interval, and forms the field sync interval with the final cumulative value of the accumulator according to the comparison result. And a confidence coefficient unit for outputting the field synchronization section of the minimum value determination unit as a field synchronization signal to find the field synchronization signal using only one of the prefield reference signal and the right field reference signal. It can be reduced.

Description

Field Synchronization Detection Device for Residual Sideband Digital Television

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a Vestigial SideBand (VSB) digital television (DTV). In particular, a field of a signal received using only one of a gfield reference signal or a rightfield reference signal in a digital television receiver A device for finding synchronization signals and reducing hardware complexity.

In general, a digital television is a television that converts an analog signal into a digital signal and is controlled by computer circuits, and removes interference and noise from other radio waves, and reproduces advanced images such as various kinds of information and programs. It is a device that can.

Fig. 5 is a block diagram of a field synchronization detecting device of a conventional residual side band digital television.

As shown therein, a comb filter 1 for combining the input data; First and second signal combiners (4) (5) for subtracting the value of the right field reference signal or the previous field reference signal from the value of the signal passing through the comb filter (1), respectively; First and second absolute value calculators (6) (7) which take absolute values (ABS, Absolute) on the output values of the first and second signal combiners (4) (5), respectively; First and second slicers (8) (9) for slicing the outputs of the first and second absolute value calculators (6) (7), respectively; First and second accumulation units (Sum & Dump) 10 and 11 for accumulating the output values of the first and second slicers, respectively; A comparator (12) for comparing the cumulative final values of the right field / field field reference signals output from the first and second accumulators (10) (11); A synchronization delay unit 13 for delaying the output of the comparison unit 12 and outputting a right field / field field synchronization signal; A multiplexer (MUX) for multiplexing the outputs of the first and second accumulators (10) (11) and the comparator (12); A minimum detection unit (15) which selects a small value from the right field reference signal and the previous field reference signal output from the multiplexer 14, and determines and outputs a field synchronization section; A confidence counting unit (Conf Count) 16 which outputs the field synchronizing section of the minimum value determining unit 15 as a field synchronizing signal.

Thus, in the conventional apparatus, the input data passes through the comb filter 1, which is a co-channel interference cancellation filter. In this way, an error value that is the difference between the data passing through the comb filter 1 and the right field and previous field reference signals passing through the comb filter 1 is obtained, and then the absolute value is taken. This value is sliced into 2 bits and accumulated.

Here, if the right field reference signal passing through the comb filter 1 is referred to as F1 and the basefield reference signal passing through the comb filter 1 is referred to as F2, the input data and right field reference signal passing through the comb filter 1 are referred to as F1. The error signal, which is a difference from, is obtained by the first signal combiner 4. The absolute value of the error signal output from the first signal combiner 4 is calculated by the first absolute value calculator 6 and then sliced into 2 bits by the first slicer 8. The first accumulator 10 accumulates Dm1 which is a cumulative final value of the difference with the right field reference signal.

The second signal combiner 5 obtains an error signal that is a difference between the input data passed through the comb filter 1 and the pre-field reference signal. The absolute value of the error signal output from the second signal combiner 5 is calculated by the second absolute value calculator 7 and then sliced into 2 bits by the second slicer 9. In addition, the second accumulator 11 accumulates and outputs Dm2 which is a cumulative final value of the difference with the pre-field reference signal.

Then, the comparator 12 compares Dm1 and Dm2 which are cumulative final values of the right field / field field reference signals output from the first and second accumulators 10 and 11. Therefore, a smaller value of Dm1 and Dm2 is selected through the multiplexer 14 and sent to the minimum value determiner 15.

Therefore, if the minimum value determining unit 15 stores the segment section having the minimum cumulative value among one field 313 segment and repeats this several times and continues to have the minimum cumulative value at the same segment position, this segment section is determined as the field sync segment section. Then, the field synchronization (Field_sync) signal indicating the field synchronization period is sent out through the confidence coefficient unit 16.

In this way, the distinction between the right field and the previous field is performed after finding the field synchronization section. Referring to the waveform diagram showing the output of the accumulator of Fig. 6, if the accumulated value Dm1 and Dm2 during the field sync segment period is greater than Dm2, the right field is detected.

However, such a conventional device does not hard limit the input data, and thus has a problem in that the bit resolution up to a block taking an absolute value and a signal applied to the comb filter is increased.

In addition, since both the gfield reference signal and the rightfield reference signal are used, the hardware complexity increases.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to synchronize a received signal using only one of a prefield reference signal or a rightfield reference signal in a digital television receiver. The present invention provides a field synchronization detection device for a residual sideband digital television that can find a signal and reduce hardware complexity.

Field synchronization detection device of the remaining side band digital television according to the present invention to achieve the above object,

A hard limit for determining the amount of input data and a sound for hard limiting; A comb filter for performing co-channel interference cancellation filtering on the output data of the hard limit; A data mapping unit for mapping the data passing through the comb filter to {-1, 0, 1}; A signal combiner for obtaining a difference between the signal passing through the data mapping unit and a reference signal; An absolute value calculator which takes an absolute value on an output value of the signal combiner; An accumulator for accumulating the output of the absolute value calculator at segment intervals; A synchronization delay unit for delaying the output value of the accumulation unit by one field; A comparator for detecting a segment sync interval by comparing a final cumulative value of the accumulator during one field period; A minimum value determiner configured to determine and output a field synchronization period as a final accumulated value of the accumulator according to a comparison result of the comparator; The technical configuration is characterized in that it consists of a confidence coefficient section for outputting the field synchronization section as the field synchronization signal.

1 is a view showing the structure of a typical VSB DTV frame;

2 is a view showing a field synchronization signal of a typical VSB DTV;

3 is a block diagram of a field synchronization detecting device for a left side band digital television according to the present invention;

4 is a waveform diagram showing an output of an accumulator in FIG. 3;

5 is a block diagram of a field synchronization detecting device of a conventional residual side band digital television;

6 is a waveform diagram showing the output of the accumulator in FIG.

<Description of the code | symbol about the principal part of drawing>

21: hard limit 22: comb filter

23: delay unit 24: adder

25: data mapping unit 26: signal combining unit

27: absolute value calculation unit 28: cumulative unit

29: synchronization delay unit 30: comparison unit

31: minimum value determination unit 32: confidence coefficient unit

Hereinafter, with reference to the accompanying drawings an embodiment according to the technical concept of the field synchronization detection device of the present invention residual sideband digital television as described above in detail.

First of all, the present invention relates to a DTV, which is a crystal of digital technology, and detects a field starting point of a TV screen.

1 is a view showing the structure of a typical VSB DTV frame.

Thus, one frame consists of two fields, Geefield and Rightfield, and one field consists of 313 segments. Since the receiver cannot know the start information of this field, it is necessary to detect it. To this end, the VSB DTV system transmits a field sync signal by one segment length for each field.

The structure of this field synchronization signal is shown in FIG.

Therefore, the structure of the first four symbols, the segment synchronization signal, the PN511 signal having 511 symbol lengths, and the PN63 signal having 63 symbol lengths are repeated three times.

The Odd Field reference signal and the Even Field reference signal have the following structure.

Rightfield: 4seg sync, PN511, PN63, PN63, PN63, PN63, VSB Mode, Reserved

Gfield: 4seg sync, PN511, PN63, , PN63, PN63, VSB Mode, Reserved

That is, in the case of Gfield, it is divided into Inverse of the second PN63 signal among the three PN63 signals. (Inverse: 0⇒1, 1⇒0)

Therefore, field sync detection detects a section having a small accumulated value as a field sync segment section by accumulating and accumulating the difference between an input signal and a right field and a prefield reference signal. If the reference signal is the right field reference signal and the data input is the right field interval, the difference is PN63- (inverse) PN63, and the value of the difference is accumulated. If the reference signal is called a prefield reference signal and the data input is a right field period, the difference is (inverse) PN63-PN63 and the value of the difference is accumulated. In the field sync section, the difference occurs only during the second PN63 section except for the segment sync 4 symbol among the 832 symbols, but the data and the reference signal are completely different in the other segment (312 segments). The cumulative value is large. The field sync segment section is detected using this.

Fig. 3 is a block diagram of a field synchronization detecting device for remaining side band digital television according to the present invention.

As shown therein, a hard limit 21 for hard limiting the amount and sound of the input data; A comb filter (22) for performing co-channel interference cancellation filtering on the output data of the hard limit (21); A data mapping unit 25 for mapping the data passing through the comb filter 22 to {-1, 0, 1}; A signal combiner 26 for obtaining a difference between the signal passing through the data mapping unit 25 and the reference signal; An absolute value calculator (27) which takes an absolute value on the output value of the signal combiner (26); An accumulator 28 accumulating the output of the absolute value calculator 27 at segment intervals; A synchronization delay unit 29 for delaying the output value of the accumulation unit 28 by one field; A comparison unit (30) for detecting a segment synchronization period by comparing the final accumulation value of the accumulation unit (28) for one field period; A minimum value determination unit 31 for determining and outputting a field synchronization period as a final cumulative value of the accumulation unit 28 according to the comparison result of the comparison unit 30; And a confidence coefficient section 32 for outputting the field synchronization section of the minimum value determination section 31 as a field synchronization signal.

Thus, the hard limit 21 judges the positive and negative values of the transmitted input data and hard limits them to '1' and '-1', respectively. And when passing through the co-channel comb filter 22, which is a co-channel interference cancellation filter to eliminate NTSC (National Television Standards Committee) interference signal, the data becomes {2, 0, 2}, so -2⇒-1, 0 We make it ⇒ 0, 2⇒1.

The difference between the data signal having three levels of {-1, 0, 1} and the signal having three levels of {-1, 0, 1} is passed through the comb filter 22 to obtain an absolute value. After accumulating the later segment intervals, the comparison unit 30 compares the final cumulative value for one field interval and detects the segment interval having the smallest value as the field synchronization interval. That is, the segment having the smallest cumulative value among one field 313 segments is determined as the field sync interval.

4 is a waveform diagram illustrating an output of an accumulator in FIG. 3. This is a case where the reference signal is set as the right field reference signal and shows the sum & dump value with the input data.

As shown in the figure, it can be seen that during the field synchronization period, the cumulative value is small and the cumulative value of the data period is increased. In addition, since it is compared with the right field reference signal, the accumulated value during the right field interval is always smaller than the accumulated value during the previous field interval.

Thus, after finding the field sync segment section, the field sync signal compares the accumulated value of the field sync segment section of the previous field with the magnitude of the accumulated value of the current field sync segment section. Judging by the field section. If the previous value is smaller than the current value, the current field section is determined as the previous field section.

If a pre-field reference signal is used, an operation opposite to the above operation is performed.

As described above, the present invention reduces the hardware complexity by finding the field synchronization signal of the received signal using only one of the gfield reference signal and the rightfield reference signal in the digital television receiver.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the field synchronization detection device of the residual sideband digital television according to the present invention reduces the hardware complexity by finding the field synchronization signal of the received signal using only one of the existing field signal and the right field reference signal. It will have an effect.

Claims (7)

A hard limit for determining the amount of input data and a sound for hard limiting; A comb filter for performing co-channel interference cancellation filtering on the output data of the hard limit; A data mapping unit for mapping the data passing through the comb filter to {-1, 0, 1}; A signal combiner for obtaining a difference between the signal passing through the data mapping unit and a reference signal; An absolute value calculator which takes an absolute value on an output value of the signal combiner; An accumulator for accumulating the output of the absolute value calculator at segment intervals; A synchronization delay unit for delaying the output value of the accumulation unit by one field; A comparator for detecting a segment sync interval by comparing a final cumulative value of the accumulator during one field period; A minimum value determiner configured to determine and output a field synchronization period as a final accumulated value of the accumulator according to a comparison result of the comparator; And a confidence coefficient section for outputting a field synchronization section of the minimum value determination section as a field synchronization signal. The residual sideband digital as claimed in claim 1, wherein in the minimum value determining unit, determining a field synchronization section as a final cumulative value comprises determining a segment having the smallest accumulation value among one field segment as a field synchronization section. Field synchronous detection device for television. The method of claim 1, wherein the minimum value determiner finds a field sync segment section and then, in the comparer, compares a cumulative value of a field sync segment section of a previous field with a magnitude of a current field sync segment section by a field sync signal. The field synchronization detection device of the remaining side band digital television, characterized in that for determining the right field and the pre-field interval. The field of the remaining side band digital television according to claim 3, wherein, when the right field reference signal is used, the current field section is determined as the right field section when the comparison value is larger than the current value. Synchronous detection device. According to claim 3, When the comparison result, when using the right field reference signal, if the previous value is smaller than the current value of the remaining side band digital television, characterized in that for determining the current field section Field synchronous detection device. 4. The field of the remaining side band digital television according to claim 3, wherein when the comparison field uses the previous field reference signal, if the previous value is larger than the current value, the current field section is determined as the previous field section. Synchronous detection device. According to claim 3, As a result of the comparison in the comparison unit, if the previous value is less than the current value when the current field interval is determined as the right field interval of the remaining side band digital television, characterized in that Field synchronous detection device.