RU2621065C1 - Method of determining the dynamic range of input signals of repeater, operating in dvt-t2 digital television standard - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: method of determining the dynamic range of repeater input signals operating in the DVB-T2 digital television standard is to generate a test signal with predetermined modulation parameters, power that is within the dynamic range of the repeater input signals; this signal is addressed to the repeater input; the level of the input signal is reduced in order to determine the lower limit of the dynamic range, or increased in order to determine the upper limit of the dynamic range; the power level of the output signal, the signal spectrum, the bit error rate (LBER), the modulation error ratio (MER) are controlled at the signal output; the reaching of the dynamic range boundary is determined by the output of the repeater power beyond the set boundary, or by the output of signal spectrum beyond the boundaries of the spectral mask, or by the LBER increase to values above 10^-8, or by the increase of MER the value above the allowed maximum, while for the test signal relay channel is set, the type of output signal channel is determined by the form of its spectrum, the limit of dynamic range is determined by the appearance of the repeater signal with a channel type different from Gaussian channel at the output.

EFFECT: determining the dynamic range of the DVB-T2 repeater input signal based on checking the ability to restore channel type of received signal to the Gaussian channel.

1 dwg, 1 tbl

Description

The invention relates to the field of digital television broadcasting, in particular to the field of measuring parameters of repeaters used in terrestrial digital television broadcasting networks.

Known technical solutions [1, 2] that implement methods for measuring the sensitivity of radio equipment as the lower boundary of the dynamic range of the input signal.

There are different criteria for assessing the boundaries of the dynamic range of a repeater, depending both on the type of relay signal and on the features of using a relay. The main controlled parameter of the output signal of the repeater is usually power. The ability to demodulate the output signal of the repeater with the extraction of the transmitted information is also controlled. To determine the boundaries of the dynamic range when relaying DVB-T2 signals (Digital Video Broadcasting - Second Generation Terrestrial, second-generation digital television broadcasting), it is necessary to analyze the relay output signal in more detail. At the boundaries of the dynamic range, it is unacceptable to change the power of the output signal, it is unacceptable to change the spectral characteristics, as well as the appearance of modulation errors that do not allow demodulating the signal.

The technical solution [1] implements a method for measuring sensitivity — as the lower boundary of the dynamic range — for the receiver, and sensitivity is understood as the ability of the receiver to respond to input signals for a given offset from interference caused by a corona discharge near the transmitting antenna of the radio complex, and from interference caused by data transmission in other channels.

The disadvantage of the technical solution [1] is that this method registers only the ability of the receiver to respond to a signal of a given level without assessing the possibility of its demodulation. In the technical solution [2], a method for measuring sensitivity is implemented - as the lower boundary of the dynamic range, limited by noise, and determined by the level of the input image signal (sound). The sensitivity is taken as the level of the input image (sound) signal at the TV input, at which the ratio of the signal level to the rms noise level at the output of the image (sound) path is 28 dB (26 dB). The disadvantage of the technical solution [2] is that for digital television signals, observing the ratio of the signal level to the rms noise level does not guarantee the absence of errors that will affect the quality of demodulation. For example, an increase in the LBER bit error rate (LDPC Bit Error Ratio, the bit error rate after the LDPC decoder) may make it impossible for the signal to be demodulated by the receiving device even with a sufficient ratio of the signal level to the rms noise level. Closest to the claimed technical solution is a method of measuring the dynamic range of a DVB-T2 signal repeater [3], which consists in determining that the minimum (maximum) value of the input signal is determined by decreasing (increasing) its level and controlling the level of the relay output power and the spectrum matching mask, bit error coefficient LBER, modulation error coefficient MER (Modulation Error Ratio, and the criterion for the input signal to reach the level corresponding to the gran tse dynamic range is output disparity acceptable values or the output signal of the spectrum beyond the spectrum mask or LBER increase to values above 10 ^-8, or MER values increase above the maximum permissible.

This method is used when monitoring the parameters of the repeater during operation in order to establish its compliance with the requirements of technical documentation. However, as practice has shown, the dynamic range of the input signals for the DVB-T2 repeater is determined not only by preserving the parameters listed in [3], but also by the repeater's ability to restore the Gaussian channel type at the output. The type of channel is determined by calculating, according to formula (1), the standard deviation of the envelope of the signal spectrum with its subsequent comparison with the values given in Table 1. As a rule, the signal from the Rice or Rayleigh channel is transmitted to the input of the relay from the ether, due to re-reflection of radio waves from objects to terrain and multi-beam reception. Relaying such a signal without restoring the channel type to the Gaussian channel does not provide stable reception within the boundaries of the coverage area of the repeater.

If this significant factor is not taken into account, the measurements made by the method [3] can give an expanded value of the dynamic range, since the restoration of the shape of the spectrum of the output signal can be observed in a narrower range of power of the input signal of the repeater.

In the proposed method for determining the dynamic range of input signals to assess the ability of the repeater to perform its functions, an additional criterion is used - the restoration of the channel at the output of the repeater to the Gaussian channel. Under real operating conditions, a signal with different types of channel — Gaussian, Rice, or Rayleigh — can be fed to the repeater input, the latter being characterized by the highest spectral distortions. When the input signal goes beyond the dynamic range, the channel type reconstruction function is violated, the implementation of which allows you to transform the Rayleigh channel, characteristic of the input signal during multipath reception, into a Gaussian channel at the output of the relay, which is necessary for high-quality broadcasting.

The technical result of the invention is to determine the dynamic range of the input signal of the DVB-T2 repeater based on testing the ability to restore the channel type of the received signal to the Gaussian channel.

The proposed measurement method is illustrated in FIG. 1, where the numbers indicate:

DVB-T2 measuring signal generator one DVB-T2 Signal Repeater 2 matching device 3 DVB-T2 measuring receiver with spectrum analyzer function four a computer 5

As a source of test signal DVB-T2 with adjustable parameters, incl. power, the measuring signal generator - 1 of this standard is used, which is directly connected to the input of the DVB-T2 - 2 signal repeater. The signal from the output of the DVB-T2 - 2 signal relay is fed to the input of the DVB-T2 measuring signal receiver with the function of a spectrum analyzer - 4 through a matching device - 3, which prevents overloading the input of the measuring DVB-T2 signal receiver with the function of a spectrum analyzer - 4. Monitoring the output power level of the DVB-T2 signal repeater - 2, signal spectrum, bit error coefficient to LBER, the modulation error coefficient MER is carried out using a measuring DVB-T2 signal receiver with the function of a spectrum analyzer - 4. The type of channel is determined by calculating by formula (1) the standard deviation of the envelope of the signal spectrum on a computer - 5 based on the transmitted samples in the spectrum signal followed by a comparison of the standard deviation with the values given in table 1.

To achieve the specified technical result in the proposed method, a test signal is generated with the given modulation parameters, with a power that is within the dynamic range of the input signals of the DVB-T2 - 2 relay, this signal is fed to the input of the DVB-T2 - 2 signal relay, and the signal is reduced to determine the lower boundary of the dynamic range or increase the signal to determine the upper boundary of the dynamic range, the level of the input signal, at the output of the DVB-T2 repeater - 2 control the power level output signal spacing, signal spectrum, bit error coefficient LBER, modulation error coefficient MER, determine the achievement of the dynamic range boundary by the output of the relay power beyond the established boundaries, or by the output of the signal spectrum beyond the boundaries of the spectral mask, or by increasing the LBER to values above 10 ^-8 , or to increase the MER value above the maximum allowable.

For the test signal, a Rayleigh channel is established, the type of the channel of the output signal is determined by the shape of its spectrum, the boundary of the dynamic range is determined by the appearance at the output of the repeater of the signal with a channel type different from the Gaussian channel.

Channel type estimation is carried out as follows ([4], Appendix B).

Determine the standard deviation of the envelope of the signal spectrum σ _sp in the frequency range from F _c - 3.8 MHz to F _c + 3.8 MHz according to the formula:

- среднее арифметическое значение отсчетов спектра.where F _c is the center frequency of the channel for which measurements are made, n is the number of samples in the frequency range from F _c - 3.8 MHz to F _c + 3.8 MHz (F _c is the center frequency of the TV channel), P ₁ ... P _n - the values of the samples in the spectrum of the signal in dBµV or dBm [5],

- the arithmetic average of the samples in the spectrum.

Then, according to the calculated value of csp, the channel type is determined in accordance with Table 1: The channel type is determined by processing the spectrum samples on a computer.

The achievement of the dynamic range boundary when the level of the test signal is changed is determined by the appearance of the DVB-T2 - 2 signal at the output of the repeater with a channel type different from the Gaussian channel, if until this moment the output power of the repeater did not go beyond the established boundaries, the signal spectrum did not go beyond the boundaries spectral mask, the LBER value did not exceed 10 ^-8 and the MER value did not exceed the maximum allowable.

Using the proposed method allows more accurately determine the dynamic range of the input signals of DVB-T2 repeaters, taking into account the ability to restore the type of channel at the output of the repeater to the Gaussian channel.

Literature

1. Instructions for the adjustment and operation of UPZ-70 transceivers. - Internet resource http://standartgost.ru/g/PD_34.48.402.

2. GOST 9021-88 “Televisions. Methods of measuring parameters. " - M .: Publishing house of standards, 1988. - 107 p.

3. Rules for the technical operation of digital television broadcasting in the DVB-T2 standard. - Internet resource http://lib.podelise.ru/docs/3987/index-1937.html?page=15.

4. The methodology for determining the service area of a single transmitting station of terrestrial digital TV broadcasting of DVB-T2 standard for fixed reception. Decision of the State Committee for Emergencies of October 16, 2015 No. 15-35-04. - Internet resource http://minsvyaz.ru/uploaded/ -1-k- files / prilozhenie resheniyu-gkrch - 15-35-04-metodika-zona-obsluzhivaniya-stantsii-dvb-t2.pdf.

5. Recommendation ITU-R SM.1875 (04/2010) “Measurement of DVB-T coverage and verification of planning criteria”. - Internet resource http://www.itu.int/dms_pubrec/itu-r/rec/sm/R-REC-SM.1875-0-201004-S!!PDF-R.pdf.

Claims (1)

A method for determining the dynamic range of the input signals of a repeater operating in the DVB-T2 digital television standard, which consists in generating a test signal with predetermined modulation parameters, a power that is within the dynamic range of the input signals of the repeater, supplying this signal to the input of the repeater, reduce signal to determine the lower boundary of the dynamic range or increase the signal to determine the upper boundary of the dynamic range the level of the input signal Ala, at the output of the relay control the output signal power level, signal spectrum, bit error rate (LBER), modulation error coefficient (MER), determine the achievement of the dynamic range by the output of the relay power beyond the established boundaries, or by the output of the signal spectrum beyond the boundaries of the spectral mask or by LBER increase to values above 10 ^-8, or to increase the value above the maximum permissible MER, characterized in that the set channel for the Rayleigh test signal, determine the type of channel O signal-stand in the form of its spectrum, define the boundary of the dynamic range of signal appearance at the output of the repeater to the channel type different from the Gaussian channel.

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