SU1035818A1 - Communication channel checking device - Google Patents

Abstract

CONTROL CHANNEL CONTROL DEVICE, containing a reception path consisting of a series-connected input matching unit, a high frequency amplifier, a frequency converter, an intermediate frequency amplifier and a demodulator, a pulse selector, whose input is connected to the output of the demodulator, the first pulse counter, whose input is connected with the output of the pulse selector, the first and second elements of the comparison, the first inputs of which are connected to the output of the first pulse counter, the second pulse counter, the third element of the comparison , the first input of which is connected to the output of the second pulse counter, the synchronizer, the first element of the delay, the input of which is connected to the first output of the synchronizer, and the output - to 1 reset of the first and second pulse counters, and the output decoder, while the second inputs of the first, second and third the comparison elements are connected to the first output of the synchronizer, and the outputs are connected to the input of the decoder, characterized in that, in order to improve the control accuracy of the communication channel, the first and second barrier filters, itel, comparator, second delay element, serially connected oscillator, first bandpass filter, first nonlinear amplifier, second bandpass filter, second nonlinear amplifier, third bandpass filter, auxiliary amplifier, amplitude detector, integrator, and the input of the first barrier filter is connected to the output of the input the matching unit, and the output to the input of the first non-linear amplifier, the input of the second barrier filter is connected to the output of the high-frequency amplifier, and the output to the input of the second the amplifier, the rectifier input is connected to the output of the intermediate frequency amplifier, and the output is connected to the first input of the comparator CX, the second input of which is connected to the output of the integrator, the second, 00 output of the synchronizer is connected to the third input of the comparator, and through the second element delays - with the integrator reset input.

Description

The invention relates to telecommunications and can be used in adaptive data transmission systems. It is known a communication channel device comprising a first linear reception path, the output of which through the first pulse selector is connected to the input of the first counter, the output of which is connected to the first input of the first comparison element and to the first input of the second comparison element, and the input is connected to the output of the element A holder, the input of which is connected to the output of the synchronizer, which is connected to the second input of the first comparison element and to the second input of the second comparison element 1 J. The disadvantage of this device is low control accuracy Since, when operating the device in conjunction with a real receiving device, it has some non-linearity, under the conditions of possible influence on the input of the receiving device, besides the useful signal of interfering signals of a high level (especially when the device operates within the multichannel decameter range), it is impossible to unambiguously determine the reason for the unsatisfactory quality of reception of information (or the quality of communication has deteriorated due to the conditions of distribution or due to effects in the receiving equipment itself). Hence the limited WHO capabilities of using this device in adaptive information transfer systems. Closest to the present invention is a communication channel monitoring device comprising a reception path consisting of a series-connected input matching unit, a high frequency amplifier, a frequency converter, an intermediate frequency amplifier and a demodulator, a pulse selector, the input of which is connected to the output of the demodulator, the first pulse counter, the input of which is connected to the output of the pulse selector, the first and second elements of the comparison, the first inputs of which are connected to the output of the first pulse counter, the second pulse, the third comparison element, the first input of which is connected to the output of the second pulse counter, the synchronizer, the first delay element, the input of which is connected to the first 18 output of the synchronizer, and the output to the reset inputs of the first and second pulse counters, and the output decoder / tor , while the inputs of the first, second and third elements of the comparison are connected to the first output of the synchronizer, and the outputs are connected to the inputs of the decoder G 23 The disadvantage of this device is also low control accuracy associated with causes poor definition of the best communication quality at high level nonlinear effects in the linear TpaKte reception. Since, with an increase in the level of nonlinear effects in a linear reception path, starting from a certain level, the number of mismatch pulses in the first and second linear reception paths will begin to decrease. This is because at a certain level of non-linear effects, the number of inserts and drops at the output of the second pulse selector is mainly determined by these non-linear effects and with increasing levels of the last number of inserts and drops in both linear reception paths will begin to level off and, therefore, the number of pulses the discrepancies will decrease and at some level of nonlinear effects will become less than the threshold, given by the third comparison element, and the decoder will give a solution, the communication quality is unsatisfactory It is due to the propagation conditions in the communication channel (although in reality the reason is a high level of nonlinear effects in the equipment itself due to the operation of high-level interfering stations). Such an error is unacceptable in the adaptive information transmission system, since the strategy and tactics of the system control depends on the reason that caused the failure of communication. In addition, this device does not determine the nature of the nonlinear effect leading to a breakdown in communication, since, at the input to the linear path of receiving signals from interfering stations of a large level, depending on their structure, various nonlinear effects are possible (cross modulation, blocking of the useful signal intermodulation interference), which leads to an increase in the number of inserts and interruptions. This disadvantage is significant when using the device in

adaptive information transfer system, because the nature of the nonlinear effect depends on strategies and tactics for managing the system.

The purpose of the invention is to improve the accuracy of control of the communication channel.

The goal is achieved in that a device comprising a reception path consisting of a series-connected input matching unit, a high frequency amplifier, a frequency converter, an intermediate frequency amplifier and a demodulator, a pulse selector, whose input is connected to the output of the demodulator, the first counter pulse, the input of which is connected to the output of the pulse selector, the first and second elements of the comparison, the first inputs of which are connected to the output of the first pulse counter, the second pulse counter, the third element nt comparison, the pitch input of which is connected to the output of the second counter pulse synchronizer, the first delay element whose input is connected to the first output of the synchronizer, and the output - to the reset inputs of the first and second pulse counters, and the output decoder, while the second inputs of the first, second and third the comparison elements are connected to the first output of the synchronizer, and the outputs are connected to the inputs of the decoder, the first and second barrier are entered, rectifier, comparator, the second delay element, successively connected generator, first bandpass filter, first non-linear amplifier, second band-pass filter, second non-linear amplifier, third band-pass filter, auxiliary detector, amplitude detector, integrator, the input of the first barrier filter connected to the output of the input matching unit and the output to the first non-linear amplifier, the input of the second barrier filter is connected to the output of the high-frequency amplifier, and the output is connected to the input of the second non-linear amplifier, the rectifier input is connected to the output of the amplifier tel intermediate frequency, and the output - to the first input of the comparator, a second input coupled to an output of the integrator, the second synchronizer output is connected to the third input of the comparator, and via a second delay element - a reset input of the integrator.

The drawing shows a structural electrical circuit of the proposed device.

The device contains a reception path 1, consisting of input block matching unit 2, high frequency amplifier 3, frequency converter k, intermediate frequency amplifier 5, demodulator 6, pulse selector 7, synchronizer 8, first and second delay elements 9 and 10, first and the second counters P and 12 pulses,, BtopoH and the third elements 13, f and 15 compare, decoder 16, comparator 17, rectifier 18, integrator 19, first and second barrier filters 20 and 21, generator 22 first, second and third band filters 23, 2 and 25, the first and the third non-linear amplifiers 26 and 27, auxiliary amplifier 28, amplitude detector 29.

The frequency of the signal generator 22 is selected constant and lying outside the operating frequency range of the reception path 1. The first band-pass filter 23 and the first barrier filter 20 are tuned to the frequency of the generator 22 and serve to interlock the outputs of the generator 22 and the input matching unit 2. The second band-pass filter and the second barrier filter 21 are tuned to the frequency of the generator 22 and serve to Zki outputs of the first nonlinear amplifier 26 and amplifier 3 high frequency. The first non-linear amplifier 2b has the same non-linear properties as the high-frequency amplifier 3, and the second non-linear amplifier 27 has the same non-linear properties as the 4-frequency converter. The third band-pass filter 25 is tuned to oscillator frequency 22 and has the same passband as the intermediate frequency amplifier 5. Since the high-frequency amplifier 3 and the 4-frequency converter in normal operational receive paths have a fairly high linearity, various non-linear effects are noticeably manifested only if there are high-frequency and high-frequency interfering signals at the inputs of the amplifier 3.

 The device works as follows. To the input of the selector 7 pulses from the output of the path 1 of the reception receives a binary signal with noise. The pulse selector 7 selects pulses whose duration is within the selection interval of a known duration of information symbols. The pulses from the output of the pulse selector 7 arrive at the input of the pulse counter 11, the outputs of which are connected to the first and second elements 13 and H of the comparison. The first of them determines the maximum allowable, and the second minimum allowable banner of the estimator has 11 pulses. The boundary values of the pulse counter 11 are determined on the basis of a known number of information symbols for a certain period of time. The first and second elements 13 and 1 of the timeout output the unit signal in the case of overflowing the flag and Zero in the order that the boundaries do not exceed. The input of the reception path 1, along with the useful message, receives an amplitude-modulated signal of a large interfering station, the carrier frequency of which lies in. the bandwidth of the input matching unit 2 and the high frequency amplifier 3. Due to the non-linearity of the amplitude characteristics of the high-frequency amplifier 3 and the conversion of the frequency bodies, the complex transmission coefficients of the latter turn out to be dependent on the amplitude of the signal of a large interfering station. The receive path 1 becomes a non parametric circuit whose parameters vary over time according to the modulation law of the interfering signal. In this way, the modulation is transferred from the interfering signal to the useful one, and the useful signal receives both parasitic (cross amplitude modulation and parasitic (cross) angular modulation, and, consequently, this nonlinear effect leads to reception noise almost at any modulation of the useful message. The interference modulating the useful signal in the high-frequency amplifier 3 is fed through the first barrier filter 20 to the input of the first non-linear amplifier -2b and the additional modulating interference is useful The signal in the frequency converter enters through the second barrier filter 21 to the input of the second nonlinear amplifier 27. As a result, the signal of the generator 22 passing through the first and second nonlinear amplifiers 2b and 27 turns out to be promoted by noise from the same depth modulation, as well as the useful signal for the amplifying frequency in the frequency converter. After selecting the first band-pass filter 23, the signal of the generator 22 is amplified in the auxiliary amplifier 28 and is fed to the input of the amplitude detector, which is There is a parasitic envelope, the level of which is integrated in integrator 19 on a time interval equal to the duration of one information symbol, and compared with the threshold of the comparator 17. The integrator interval and the polling time of the comparator 17 are set after the second output of the synchronizer 8. Second element 10 the delay ensures the reset of the integrator 19 after polling the comparator 17. Since, with a higher level of the useful signal, a permissible higher value of the cross modulation level is used, the threshold of the comparator changes Depending on the desired signal level. The level of the useful signal is extracted by the rectifier 18 and is fed to the input of the comparator 17 to set the required threshold. Thus, the threshold of the comparator 17 is determined based on the measured level of the desired signal and the known desired signal-to-interference ratio of the cross modulation. When the output level of the integrator exceeds the threshold of the comparator 17 at the moment of polling from the output of the last signal, the Unit is entered into the second pulse counter 12, the outputs of which are connected to the input of the third comparison element 15, which determines the maximum allowable value of the second estimator 12 pulse. This value is determined based on the known allowable number of inserts and disappearances in the payload due to interference. The moment of interrogation of the monitoring device of the communication channel is determined by the period of the signal following from the first output of the synchronizer 8 and arriving at the second inputs of the first, second and third elements 13, 1 h and 15 comparisons. Thus, the following combinations of the order of writing bits are possible at the inputs of the decoder 16 coincide with the indicated order of the first, second and third elements 13 AND and 15 of the comparison): О О О - the connection quality is satisfactory; О 10 or 1 О О - the quality of communication is unsatisfactory due to the conditions of distribution in the radio channel; O T 1 or 1 O 1 - the quality of communication is unsatisfactory due to interference of cross modulation in path 1 of the receiver. All remaining combinations with. correspond to malfunctioning of the device, since such combinations cannot occur in properly functioning equipment. 1 88 The proposed device, in comparison with the basic object, and whose quality is the selected prototype, along with the decision on the quality of the communication channel and the correct decision on the quality of the communication, when the signal of interfering stations acts, resulting in non-linear effects in the receive path only for limited range of amplitudes of signals from interfering stations, provides additional information about the nature of the nonlinear effect of Va, namely, cross-modulation), leading to unsatisfactory communication quality, for any possible level vx signals of interfering stations. In addition, such information is necessary when generating control signals in adaptive data transmission systems.

Claims (1)

(5 * ") COMMUNICATION CHANNEL CONTROL DEVICE, comprising a receiving path, consisting of a series-connected input matching unit, a high-frequency amplifier, a frequency converter, an intermediate-frequency amplifier and a demodulator, a pulse selector, the input of which is connected to the output of the demodulator, the first pulse counter, the input which is connected to the output of the pulse selector, the first and second comparison elements, the first inputs of which are connected to the output of the first pulse counter, the second pulse counter, the third comparison element, p the first input of which is connected to the output of the second pulse counter, a synchronizer, the first delay element, the input of which is connected to the first output of the synchronizer, and the output to the reset inputs of the first and second pulse counters, and an output decoder, while the second inputs of the first, second, and third comparison elements are connected to the first output of the synchronizer, and the outputs are connected to the input of the decoder, characterized in that, in order to improve the accuracy of the control of the communication channel, the first and second barriers, rectifier, comp arator, a second delay element, a series-connected generator, a first band-pass filter, a first non-linear amplifier, a second band-pass filter, a second non-linear amplifier, a third band-pass filter, an auxiliary amplifier, an amplitude detector, an integrator, while the input of the first blocking filter is connected to the output input matching unit, and the output with the input of the first nonlinear amplifier, the input of the second blocking filter is connected to the output of the high-frequency amplifier, and the output with the input of the second nonlinear amplifier For, the rectifier input is connected to the output of the intermediate frequency amplifier, and the output is connected to the first input of the comparator, the second input of which is connected to the output of the integrator, the second, the output of the synchronizer connected to the third input of the comparator, and through the second delay element, to the reset input of the integrator.