SU915248A1 - Device for monitoring communication channel - Google Patents

Description

The invention relates to telecommunications engineering and can be used to control the parameters of channels and communication paths without taking them out of service.

A device for controlling a communication channel is known, comprising a serially connected first generator of control signals and a frequency synthesizer, whose input and first and second outputs are connected to the output of the master oscillator, respectively, with the first input of the first amplitude modulator and the first input of the signal input unit the second input of which is fed an information signal, and the output of the signal input unit is connected to the input of the communication channel and to the input of the first band-pass filter, combined at the input of the second and third band-pass filters whose outputs through the first and second amplitude detectors. are connected to the inputs of the first and second low-pass filters, the fourth, fifth, sixth and seventh band-pass filters and the third low-pass filter, and at the reception is the eighth band-pass filter, whose input is connected to the channel output communication, united at the entrance of the ninth and tenth po10

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bob filters whose outputs through the third and fourth amplitude detectors are connected to the inputs of the fourth and fifth low-pass filters, the first comparator, the first input of which is connected to the output of the fourth low-pass filter, a control frequency analyzer, an indicator, the eleventh and twelfth band-pass filters, the sixth lower filter frequency and serially connected second generator of control signals and the second comparator GP.

However, the known device has a low accuracy of control.

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

This goal is achieved by the fact that an additional analyzer of the control frequency, the third comparator, the first clock generator, the second, third and fourth amplitude modulators, the coding unit, the first power meter, the clock generator, the first and second keys , the voltage divider and the first adder, and at the reception - serially connected additional

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master oscillator and additional frequency synthesizer, second clock generator, second power meter, fifth, sixth, seventh and eighth amplitude modulators, phase shifter, first and second integrators, first and second quadrants, second adder, threshold unit, decoding unit and computing unit, the output of the first band-pass filter through the second amplitude modulator is connected to the input of the second band-pass filter, the output of which is connected to the second input of the frequency synthesizer and to the input of an additional analyzer control frequency, the output of which is connected to the first input of the first generator of control signals, the second input and the second, and the third outputs of which are connected respectively to the output of the first clock generator, to the first input of the first power meter and to the first input of the coding unit, the output of which is through serially connected the first key, the voltage divider, the first adder, the second input of which through the second key is connected to the output of the clock generator and the fourth band-pass filter is connected to the second input the house of the first amplitude modulator, the output of which is connected to the third input of the signal input unit via the fifth bandpass filter, the output of which is connected through the third amplitude modulator, the sixth bandpass filter, the fourth amplitude modulator and the seventh bandpass filter, connected to the second input of the first power meter, and the first the output and the third input of which is connected to the second and third inputs of the coding block and to the output of the third low-pass filter, the input of which is connected to the output of the fourth ampl tudnogo modulator, a second input coupled to a third output of the frequency synthesizer, fourth, fifth and sixth outputs of which are connected to second inputs of the second and third • amplitude modulators and combined with the first and second inputs. the second key, the output of the first low-pass filter through the third comparator, the second input of which is connected to the output of the second low-pass filter, is connected to the third input of the first control signal generator, the output of the eighth band-pass filter through the fifth amplitude modulator is connected to the input of the ninth band-pass filter, the output of which is connected with the first input of an additional frequency synthesizer and with the input of a control frequency analyzer, whose output is connected to the first

the input of the second signal generator. control, the second input and the second output - the output ^of which is connected respectively to the output of the second clock generator and to the second input of an additional frequency synthesizer, the first output of which is connected to the second input of the fifth amplitude modulator, the output of the communication channel through the sixth amplitude modulator connected in series, the eleventh band the filter, the seventh amplitude modulator and the twelfth band-pass filter are connected to the first input of the second power meter, the second. input of which is through the sixth lower filter This is connected to the output of the seventh amplitude modulator, the second input of which and the second input of the sixth amplitude modulator are connected respectively to the second and third outputs of the additional frequency synthesizer, the fourth output of which through the serially connected phase shifter, the eighth amplitude modulator, first integrator, first quadrator, second adder, threshold the block and the decoding unit is connected to the second input of the second comparator, the output of which is connected to the first input of the indicator, the second and third inputs of which connected, respectively, to the output of the computing unit and to the third output of the second control signal generator, the fourth, fifth and sixth outputs of which are connected to the second inputs of the threshold block and the decoding unit and the third input of the second power meter, the first and second outputs of which are connected to the first and the second inputs of the computing unit, the third and fourth inputs of which are connected to the second and third outputs of the decoding unit, the input of the phase shifter is combined with the first input of the ninth amplitude modulator, the second input which is connected to the output of the tenth bandpass filter and the second input of the eighth amplitude modulator. The output of the ninth amplitude modulator is connected through the second integrator and the second quadrant connected to the second input of the second adder, and the output of the fifth low pass filter is connected to the second input of the first comparator, the output of which connected to the third input of the second control signal generator, the seventh output of which is connected to the combined second inputs of the first and second integrators.

Figure 1 shows the structural electrical circuit of the transmitting side of the proposed device; figure 2 - diagram of the receiving side.

915248

A device for monitoring a communication channel contains on transmission a sync pulse generator 1, a master oscillator 2, a 3 frequency synthesizer, a first oscillator 4 control signals, a first oscillator 5 clock pulses, a coding block 6, first and second keys 7 and 8, respectively, voltage divider 9, first adder 10, signal input unit 11, first, second, third, fourth, fifth, sixth and seventh bandpass filters 12-18, first, second, third and fourth amplitude modulators 19-22, first and second amplitude detectors 23 and 24, first second and third ltr 25 - 27 low frequencies, the first power meter 28, the third comparator 29, an additional frequency analyzer 30, and at the reception (FIG. 2) indicator 31, the computing unit 32, the second power meter 33, the second comparator 34, the decoding unit 35, phase shifter 36, analyzer 37 control frequency, second generator 38 clock pulses, first comparator 39, second generator 40 of control signals, eighth, ninth, tenth, eleventh, twelfth bandpass filters 41-45, respectively, fifth, sixth, seventh, eighth and ninth amplitudeOdulators 46-50, first and second integrators 51 and 52, first and second quadrants, 53 and 54, additional master oscillator 55, additional synthesizer 56 frequencies, third and fourth amplitude detectors 57 and 58, respectively, fourth, fifth and sixth filters 59 61 low pass, the second adder 62, the threshold block 63.

The device works as follows.

In transmission, the information signal, together with the sink of the group control frequency G | m, enters the input of block 11. The first band-pass filter 12 tuned to a frequency (for example, 411.36 kHz) is allocated a frequency band 60-1000 Hz wide and arrives at the second amplitude modulator 20 To the second input of which is a synthesizer of 3 frequencies post10

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stepping from the first generator of 4 control signals, generates frequencies equal to

zg

where m _r and n (^ - integers.

(for example, 311.920 kHz, 323.92 kHz, ..., 551.92 kHz).

These frequencies from the synthesizer output 3 frequencies are fed to the input of block 11 and are entered into the group path with a level of 40 dBmo. The input of the third amplitude modulator 21 from the input of the path receives a combined signal with a frequency band, for example, 312-552 kHz. To the second input of which 3 frequencies come from the synthesizer, the frequency is $ 6, equal to the sum of the measuring signal frequency ί, and the frequency equal to (for example,

288 kHz), where m ₄ and p ₅ are integers. The sixth band-pass filter 17,

tuned to a frequency (for example, 258 kHz), a frequency band is allocated with a width of 6.8–8 kHz, which is fed to the fourth amplitude modulator 22. The second input of which receives a frequency equal to ^ 4_ί _3Γ

(for example, 291.92 kHz), where m ₄ and p ₄ are integers. The seventh band-pass filter 18 tuned to a frequency of ίιχ equal to

(for example, 3.920 kHz), a frequency band is allocated that is 10-50 Hz wide. The rate of attenuation change of the seventh band-pass filter 18 in the transition region does not exceed 1 dB / Hz. The third low pass filter 27 with a frequency of 3.4 kHz is allocated a signal that does not contain the frequency of the measuring signal. The first power meter 28 measures the average for 0.5-1%. Coding unit 6 generates a sequence of pulses with a duration of 0.1-T s, containing information about the number of the measurement signal frequency and the parameters Р _И1 - and Рф-, which controls the first key 7, whose information input from the 3-frequency synthesizer receives a harmonic signal with frequency

frequency ί _and equal to

_L ^p -1

Example 420 kHz), where F is the frequency of the master oscillator _EG 2, equal to, e.g., 256 kHz, the relative stability of which is 10 ^'3, m and _{l 1} n - integers. The second bandpass filter 13, having a bandwidth of 50-100 Hz wide, is allocated a frequency equal to the frequency difference _частот and _{ί Κ4} (for example,

8-, 14 kHz), and enters the input of the synthesizer 3 frequencies. Synthesizer 3 frequencies in accordance with the signals,.

Zg

(ca55

equal to the difference frequency _ZG and control

by.

frequency of 6 _CG (for example, 8.12 kHz). The same signal comes to the information input of the second key 8, the control input of which receives a sync pulse from the sync pulse generator 1, the duration of which 60 is equal to 20-50 ms.

Amplitude-manipulated signals from the output of the second key 8 directly, and from the output of the first key 7 through the voltage divider 9,

65 attenuating signal at 20-30 dB,

Ί

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summarize the first adder 10 and fed to the input of the fourth band-pass filter 15, tuned to a frequency (for example, 8.12 kHz), having a frequency bandwidth of 50-100 Hz. From the output of the fourth band-pass filter 15, the signal is fed to the input of the first amplitude modulator 19, to the second input of which 3 frequencies arrive at the frequency C, equal to

zg

ⁿ 5

(for example, 420 kHz). Fifth

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band-pass filter 16 tuned to a frequency ί _n eP · equal to the frequency difference and (for example, 411.88 kHz),

the amplitude-manipulated signal is allocated and goes to block 11 and through it to the group path. The third pr-filter 14 from the signal at the output of the second amplitude modulator 20 is allocated an amplitude-manipulated signal with a frequency Gd equal to the frequency difference E and ( _peP (for example, 8.12 Hz). Using the second amplitude detector 24 and the third low-pass filter 27 The envelope of the amplitude-manipulated signal is allocated and fed to the third comparator 29. At the time when the third comparator 29 arrives at the input of the sync pulse, the envelope exceeds the threshold, the value of which is set proportionally to the mean-rectified value a control-frequency current, which is generated by the first amplitude detector 23 and the first low-pass filter 25, and a pulse appears at the output of the third comparator 29, which is fed to the input of the first generator. 4 control signals that distribute the pulses from the generator 5 clock pulses that arrive at the control inputs of the first power meter 28, synthesizer 3. frequencies, clock generator 1, block 6. The pulse coming from the third comparator 29 is used to phase the control signals tions. Additional analyzer 30 control frequency determines the presence of a control frequency signal at the output of the second band-pass filter 13 and the finding of its parameters within the specified limits (frequency instability, short breaks). When the parameters of the control frequency signal deviate from the norm, the additional analyzer 30 sends a signal to the first, a generator of 4 control signals, at which the monitoring stops until the control signal parameters are restored.

At the reception to the input of the receiving part of the device connected in parallel with the output of the group path, the combined signal is received. The corresponding bandpass filters, ampli15

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tude modulators, an additional master oscillator 55, an additional frequency synthesizer 56, the third and fourth amplitude detectors 57 and 58, the first comparator 39, the second power meter 33, the second generator 40 of control signals, the second clock generator 38, the control frequency analyzer 37 have the same The characteristics of the nd are included in the same way as the corresponding elements in the transmission part.

Amplitude-manipulated signal with frequency Γθ (for example ,.

8.12 kHz) from the output of the tenth band-pass filter 43 is supplied to the eighth and ninth amplitude modulators 49 and 50. From the additional frequency synthesizer 56 to the ninth amplitude modulator 50 directly, and to the eighth amplitude modulator 49 through the phase shifter 36 to 90® receives a frequency of £ ₆ (for example, 8.12 kHz).

. The signals from the outputs of the eighth and ninth amplitude modulators are averaged by the first and second integrators 51 and 52 in a time equal to the duration of a single pulse 0.4-1 s,

; then the signals are raised in) square by the first second quadrants 53 and 54 and summed by the second adder 62. When the signal at the output of the second adder 62 exceeds the threshold corresponding to the minimum level of the amplitude-manipulated signal during the transmission of a pulse, the threshold unit 63 produces a pulse arriving at the input unit 35 decoding at the time point corresponding to the end of the interval of integration. At the input of block 32 of calculations from the output of the second power meter 33, information is received about the values of the parameters P ^ and P ^ ·, and from the outputs of block 35 - information about the parameters P ^ and P ^ ·. In block 32 by the formulas

A. =,

_ '_ ι

. p _m. -ρ _αν Em14

values and РтЪ are calculated which are supplied to the indicator 31. In the second comparator 34 the number of the frequency coming from the unit 35 and the number of the frequency coming from the second generator 40 of the control signals are compared. When the frequency numbers match, the display of parameters a is permitted; and P ^. if ^the frequency numbers do not match, the values of a and P ^ i think wrong and prohibited the display. ^;

Thus, the proposed device provides compared with the known increase in the number of parameters of channels and paths, control, 65

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without increasing their operation, increasing the control efficiency by eliminating the need to extract the measuring signal from the information signal and due to the possibility of fully automating the monitoring process, moreover, it is possible to reduce the need for the power of the measuring signal without reducing the control accuracy.

Claims (1)

Claim A device for controlling a communication channel, containing a serially connected first generator of control signals and a frequency synthesizer, whose input and first and second outputs of which are connected respectively to the output of the master oscillator, to the first input of the first amplitude modulator and to the first input of the signal input unit, to the second the input of which is fed an information signal, and the output of the signal input unit is connected to the input of the communication channel and the input to the first band-pass filter, the second and third band-pass filters combined at the input, the outputs of which through the first and second amplitude detectors are connected to the inputs of the first and second low-pass filters, the fourth, fifth, sixth and seventh band-pass filters and the third low-pass filter, and at the reception the eighth band-pass filter, whose input is connected to the output of the communication channel, combined by .input The ninth and tenth bandpass filters, whose outputs through the third and fourth amplitude detectors are connected to the inputs of the fourth and fifth low-pass filters, the first comparator, the first input of which is connected to the output quarter the first lowpass filter, a frequency analyzer control, indicator, eleventh and twelfth bandpass filters, the sixth low-pass filter and successively connected to the second control signal generator and a second comparator ,. equipped with an additional control frequency analyzer, the third comparator, the first clock generator, the second, third and fourth amplitude modulators, the coding unit, the first power meter, the sync pulse generator, the first and second keys , the voltage divider and the first adder, and at the reception - serially connected additional master oscillator and additional frequency synthesizer, the second, the clock pulse generator, the second meter Sweep, py15 20 25 thirty 60 ten 35 40 45 50 55 second, sixth, seventh and eighth amplitude modulators, phase shifter, first and second integrators, first and second quadrants, second adder, threshold unit, decoding unit and computation unit; the output of the first bandpass filter is connected via the second amplitude modulator to the second band input filter, the output of which is connected to the second input of the frequency synthesizer and to the input of the additional analyzer of the control frequency, the output of which is connected to the first input of the first control signal generator, the second input and the second and the third outputs of which are connected respectively to the output of the first clock pulse generator, to the first input of the first power meter and to the first input of the coding unit, the output of which is connected through the first key connected in series, voltage divider, first adder, the second input of which is connected to the output through the second key the sync pulse generator and the fourth band-pass filter is connected to the second input of the first amplitude modulator, the output of which is connected to the third input of the input block via the fifth band-pass filter The output of which is connected through a third amplitude modulator connected in series, a sixth bandpass filter, a fourth amplitude modulator and a seventh bandpass filter are connected to the second input of the first power meter, the first and second outputs and the third input of which are connected to the second and third encoding block and the third output low pass filter, the input of which is connected to the output of the fourth amplitude modulator, the second input of which is connected to the third output of the frequency synthesizer, the fourth, fifth and sixth outputs which is connected to the second inputs of the second and third amplitude modulators and the combined second inputs of the first and second keys, the output of the first low-pass filter through a third comparator, the second input of which is connected to the output of the second low-pass filter, is connected to the third input of the first control signal generator , the output of the eighth bandpass filter through the fifth amplitude modulator is connected to the input of the ninth bandpass filter, the output of which is connected to the first additional input, frequency synthesizer, and to the input th reference frequency analyzer whose output is connected to a first input of the second oscillator control signal, a second input and a second output of which is connected respectively to the output of the second clock generator impul65 'cos and the second input of further ^ eleven 915248 12 frequency synthesizer, the first output of which is connected to the second input of the fifth amplitude modulator, the output of the communication channel through the sixth amplitude modulator connected in series, the eleventh band filter, the seventh amplitude modulator and the twelfth band filter connected to the first input of the second power meter, the second input which through the sixth low-pass filter is connected to the output of the seventh amplitude modulator, whose second input and second input of the sixth amplitude modulator are connected respectively to the second and third outputs of the additional frequency synthesizer, the fourth output of which is connected via a series-connected phase shifter, an eighth amplitude modulator, a first integrator, a first quad, a second adder, a threshold block and a decoding unit connected to the second input of the second comparator, the output of which is connected to the first input of the indicator, the second and third inputs of which are connected, respectively, with the output of the computing unit and with the third output of the second control signal generator, the fourth, fifth and sixth outputs of which connected to the second inputs of the threshold block and the decoding unit and the third input of the second power meter, the first and second outputs of which are connected to the first and second inputs of the computing unit, 5, the third and fourth inputs of which are connected to the second and third outputs of the decoding unit, the input of the phase shifter is combined with the first input of the ninth amplitude modulator, the second input of which is connected to the output of the tenth bandpass filter and the second input of the eighth amplitude modulator, the output of the ninth amplitude modulator afterwards. - the second integral ⁵ torus and the second quad are connected to the second input of the second adder, and the output of the fifth low-pass filter is connected to the second input of the first comparator, the output of which is connected to the third input of the second control signal generator, the seventh output of which is connected to the combined second inputs of the first and second integrators.