SU930701A1 - Correction device with frequency characteristic display - Google Patents

Description

The invention relates to telecommunications and can be used for tracking correction of communication channels with the display of frequency characteristics.

A correction device with displaying frequency characteristics is known that contains P control channels, each of which consists of a band-pass filter, the output of which is connected to the output of the phase circuit, and the inputs of the band-pass filters of the control channels are combined, a phase discriminator, a first decimal counter, a voltage reference source, the output of which connected to the input of the comparison element £ l ^ |.

However, the known device does not have sufficient accuracy.

The purpose of the invention is to improve the accuracy of correction and the ability to display frequency characteristics.

The goal is achieved by the fact that in the correction device with the display of frequency characteristics, containing n control channels, each of which consists of a bandpass filter, the output of which is connected to the input of the phase circuit, and the inputs of the ⁵ bandpass filters of the P control channels are combined, a phase discriminator, the first decimal counter voltage reference output to _w torogo connected to the input of the comparison element, each of the n control channels first and second binary counters are introduced, the second decimal counter amm an enuator, detector, key, switching unit, threshold amplifier, first and second integration units, as well as a correction speed change unit, an indication unit, a tuning combination highlighting unit, an adder, 2Q at the same time, in each control channel, the input of the first decimal counter via the first binary counter connected to the output of the phase discriminator, the first output of the first decimal counter is connected to the control 4 input of the phase circuit, the output of which through the attenuator, detector, and key is connected in series to the first input of the phase discriminator, the other key output is connected to the input of the comparison element, the output of which through the threshold amplifier is connected to the inputs of the first and second integration units, the outputs of which are connected through the second binary counter and the second decimal counter to the attenuator control input, the second outputs of the first and second decimal counters are connected to the input of the display unit .-! The second output of the second binary counter and the third output of the second decimal counter are connected to the first inputs of the switching unit, the outputs of which are connected to the second inputs of the second binary and second decimal counters, the second input of the switching unit is connected to another output * of the second integration unit, the output of each switching unit from P control channels is connected to the input of the correction speed change unit, the output of which is connected to the clock inputs of the first and second binary and decimal counters of each of P to control signals, another input of the correction speed change unit is connected to the first output of the tuning combination highlighting unit, the input of which is connected to the output of the adder, the inputs of which are connected to the outputs of the corresponding attenuators of each of the η control channels, the second output of the tuning combination highlighting unit is connected to the reset inputs of the first and of the second binary counters, the third output is connected to another input of the phase discriminator, and the remaining outputs, except the information one, to other inputs of the key of each channel la regulation.

The drawing shows a structural electrical diagram of the proposed device. The correction device with the frequency characteristics display contains P control channels, each of which consists of a band-pass filter 1, a phase circuit 2, an attenuator 3, a detector 4, a key 5, a comparison element 6, a threshold amplifier 7, the first 8 and the second 9 integration integers, the first 10 and second 11 binary counters, the first 12 and second 13 decimal counters, a phase discriminator 14, a reference voltage source 15, a switching unit 16, as well as an indication unit 17, an adder 18, a tuning combination allocation unit 19, a measurement unit 20 neniya correction rate.

The device operates as follows.

Band-pass filters (analog or digital) 1 with phase circuits 2 are tuned to certain frequencies of the frequency range of the communication channel. The separation of the signal over the spectrum into P parts can also be carried out in a quadrature (orthogonal) way, including by means of the Hilbert transform. Each phase circuit 2 with an attenuator 3, using the appropriate control channel, adjusts the characteristics of the group deceleration time (CHH) and the amplitude-frequency characteristic (AFC) in its specific section of the frequency range of the communication channel with distortion of the HH CH frequency response. Separate band-pass filter 1, consisting for example of. two or three series-connected in parallel resonant circuits, provides independent adjustment of this (one of n) sections of the frequency range of the communication channel without affecting neighboring sections, which determines the rapid convergence and a very large degree of freedom of the device. If you need a large number of these adjustable sections n, for example in broadband communication channels, the role of band-pass filters 1 can be performed by a block of P - point fast Fourier transform (FFT) with memory. Then the role of the adder 18 is played by the block of the P-point inverse FFT. Instead of phase loops with attenuators (except 1-3), multipliers can serve as elements with complex adaptive coefficients, and the elements of comparison channels 6 and similar to the indicated FFT (similar to the one noted above, with the corresponding ADC) can serve as control channels, and in the PD channel and without block 19. If there are only a few adjustable sections And (for example, in some multi-channel paths) to reduce the cost of the device, band-pass filters 1 and attenuators 3 are removed, and phase circuits 2 are connected in series, and uschestvlyaetsya adjustment both HGVZ, and on the frequency response using the appropriate controlled resistors.

Block 19 separation of the training combination generates the reference and key pulses, and in the communication channels with digital information for short training combinations, in addition, it extracts from the composition of the training combination the corresponding pulse with such a duty cycle that it becomes almost single. This pulse in block 19, after cleansing it of the influence of a working signal located outside the tuning combination, and level compensation (which can change due to the uneven appearance of the tuning combination in time) becomes a tuning pulse, which is divided in block 19 into P parts by spectrum .

Then each of these parts from the block 19 is supplied, respectively, through the key 5 to the phase discriminator 14 of its control channel. When using the device only for display and in all other cases of correction (with the exception of the device operating in multi-channel traits), the signal to the input of the phase discriminator 14 is supplied from the output of the attenuator 3 through the detector 4 and key 5 · The reference pulse from block 19 is supplied to the other input of the phase discriminator 14. The error signal, when comparing these two pulses, resulting from the distortion of the HGVZ communication channel, comes from the output of the phase discriminator 14 through binary 10 and decimal 12 counters to the control in od phase 2 circuit than its servo adjustment is carried out, and therefore - the alignment of the corresponding portion HGVZ communication channel.

From the comparison element b, where the signal comes from the second output of the key 5 and from the output of the reference voltage source 15, an error signal arising from distortion of the frequency response of the communication channel through the threshold amplifier 7, integration units 8 and 9, the second binary counter 11 and the second decimal counter 13 arrives at the control input of the attenuator 3, which is followed by its tracking adjustment, and therefore, the alignment of the corresponding sections of the frequency response of the communication channel.

From the other output of this attenuator 3, the signal corresponding to this strip of the spectrum is supplied [together with the signals from the outputs of other attenuators) to the input of the adder 18, from the output of which the corrected working signal is fed to the input of block 19. The working output of the device when correcting the communication channel with digital information is the output of the decision circuit of block 19 · In communication channels with analog information, block 19 allocates a pilot signal in the form of a rectangular, sine-quadratic pulses or packets (distributes these packets over its channels regulation), sinusoidal oscillations located in time or frequency in those parts of the working signal where they do not interfere, amplifies the working signal at the output and also generates reference and key pulses.

ί When analog information is transmitted in which the constant component is lost, then pulses are transmitted before the indicated pulses of the pilot signal, by which the constant component of the signal is restored. ¹ The clock inputs of binary counters 10 and 11 and decimal counters 12 and 13 receive impulses from the block for changing the correction speed 20, the frequency of which is inversely proportional to the noise level in the communication canapa, which makes it possible to ensure correction accuracy even with noise. The display unit, connected to the second outputs of the decimal counters 12 and 13 of each control channel, shows the frequency response and HHVZ of the corrected communication channel. Using switching unit 16, the control channels are set to neutral mode, which corresponds to a portion of the range of the communication channel where there are no useful information signals (so as not to amplify noise). The device also provides a mode when erroneously received or already used information is reset from the binary counters 10 and 11, which is advisable in the display mode only (if the input to the device is not supplied, the tuning pulse from block 19 is given), while the phase circuits 2 and attenuators 3 can be removed.

In the display unit, the dispersion delay line is also applied if a tuning pulse is applied to it from block 19 ·

When the corrector is operating in multi-channel paths, the detector 4 is disconnected and installed in place of the key 5. Then, the output of the detector 4 is connected via an additional single-shot to the input of the phase discriminator 14, and block 19 extracts the pilot signal in the form of control currents [modulated in-phase by rectangular pulses) located between separate frequency channels. The error signal of the location in time of the one-shot pulse of this control channel with the reference pulse from block 19 (here, after selecting control currents, the reference pulse is generated by analogy with the formation of a pulse from the one-shot in the control channel) is generated at the output of the phase discriminator 14, and then, as described above.

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When working to measure four-terminal devices (not communication channels), phase circuits 2, attenuators 3 ”, binary counters 10, and 11, switching units 21, unit 19 .. are removed from the device; instead of the speed changing unit 20, a multivibrator is connected; and an additional sensor is introduced a rectangular pulse, the first output of which is connected through the measured four-terminal network to the input of the device, the second output to the other input of the phase discriminator 14, and the third output to the third input of the display unit 17.

Thus, the proposed device can significantly improve the accuracy of the correction of communication channels.

Claims (1)

The invention relates to telecommunications and can be used for the subsequent correction of communication channels with the display of frequency characteristics. A correction device with a display of frequency characteristics is known, containing n control channels, each of which consists of a band-pass filter, the output of which is connected to the output of the phase circuit, and the inputs of the band-pass filters of the control channels are combined, the phase discriminator, the first decimal counter, the source of the reference direction, the output of which is connected to the input of the element of comparison 1. However, the known device does not have sufficient accuracy. The purpose of the invention is to improve the accuracy of the correction and enable the display of frequency characteristics. The goal is achieved by the fact that the correction device with the display of frequency characteristics, containing n control channels, each of which consists of a bandpass filter whose output is connected to the input of the phase circuit, and the inputs of the bandpass filters of the control channels P, the phase discriminator, the first dec the primary counter, the source of the reference voltage, the output of which is connected to the input of the reference element, the first and second binary counters, the second decimal counter, att A fuser, detector, switch, switching unit, threshold amplifier, first and second integration blocks, as well as a block for changing the correction speed, a display unit, a tuning combination selection unit, an adder, and in each control channel the input of the first decimal counter through the first binary counter connected to the output of the phase discriminator, the first output of the first decimal meter is connected to the control input of the phase circuit, the output of which is connected through a series-connected attenuator, detector and key to The first input of the phase discriminator, another output of the key is connected to the input of the comparison element, the output of which is connected via a threshold amplifier to the inputs of the first and second integration blocks, the outputs of which are connected through the second binary counter and the second decimal counter to the control attenuator input, the second outputs of the first and second decimal countersJKOB are connected to the input of the indication unit, the second output of the second binary counter and the third output of the second decimal counter are connected to the first and the inputs of the switching unit, the outputs of which are connected to the second inputs of the second binary and second decimal meters, the second input of the co mutation unit is connected to another output of the second integration unit, the output of the switching unit of each of the P control channels is connected to the input of the correction rate changing unit, the output of which connected to the clock inputs of the first and second binary and decimal counters of each of the P control channels, the other input of the block for changing the correction rate is connected to the first output of the output block In a tuning combination whose input is connected to an output of an adder, whose inputs are connected to the outputs of the respective attenuators of each of the P control channels, the second output of the selection combination selection block is connected to the reset inputs of the first and second binary counters, the third output is connected to another input of the phase discriminator, and other outputs, except for information, to other inputs of the key of each control channel. The drawing shows the structural electrical circuit of the proposed device. The correction device with the display of frequency characteristics contains P control channels, each of which consists of a bandpass filter 1, a phase loop 2, an attenuator 3, a detector 4, a key 5, a reference element 6, a threshold amplifier 7, the first 8 and the second 9 blocks. integration, the first 10 and the second 11 binary counters, the first 12 and the second 13 decimal meters, the phase discriminator} k, the voltage source 15, the switching unit 1b, as well as the display unit 17, the adder 18, the setting combination selection block 19, block 20 change correction speed. The device works as follows. Band-pass filters (analog or digital 1 with phase circuits 2 are tuned to certain frequencies of the communication channel frequency band. Splitting the signal by spectrum into the Q parts can also be done in a quadrature (orthogonal) way, including by converting the Gilbert. Each phase loop 2 with attenuator 3 with the help of an appropriate control channel adjusts the characteristic of the group deceleration time (HGVZ) and the amplitude-frequency characteristic of the frequency response in its specific part of the h range communication channel frequency response with HGVZ AFC distortion. A separate band-pass filter 1, consisting, for example, of two or three series-connected in parallel resonant circuits, provides independent control of this native of n) sections of the communication channel frequency range, what causes fast convergence and a very large degree of freedom of the device. If necessary, a large number of these regulated areas of n, for example, in broadband communication channels, the role of bandpass filters 1 can be performed by a n-point fast Ourier transform (VPF) unit with memory. Then, the role of the adder 18 in the P-point inverse FFT unit, 8 as elements with complex adaptive coefficients, multipliers can serve as moduli instead of phase KOHtypoB with attenuators (except 1-3), and the elements of comparison 6 and similar to the specified FFT (also as above, with a corresponding ADC) and in the PD channel and without a block 19- If there are only a few regulated areas (for example, in some multichannel paths), to reduce the cost of the device, band-pass filters 1 and attenuators 3 are are, and the phase circuit 2 are incorporated in series and in which adjustment is effected both by HGVZ 5, and on the frequency response via respective resistors actuated. The selector combination extraction unit 19 generates the reference and key pulses, and in communication channels with digital information, with short on the construction combinations, moreover, it extracts from the configuration combination the corresponding impulse with such a duty cycle that it becomes almost single. This impulse in block 19 after clearing it from the influence of the working signal, located outside the training combination, and level compensation (which changes due to uneven occurrence in time of the training combination becomes a tuning pulse, which is divided in block 19 into AND parts according to the spectrum. Then each of these parts from block 19 is respectively fed through the key 5 to the phase discriminator l4 of its control channel. When using the device only for display and in all other cases of correction (for and Turning on the device's operation in multichannel tracks) the signal to the input of the phase discriminator Il is supplied from the output of the attenuator of the attorney 3 through the detector and key 5 This reference pulse from block 19 is fed to another input of the phase discriminator 1 / t. The error signal when comparing the two pulses, caused by the HGVZ distortion of the communication channel, it comes from the output of the phase discriminator 14 through the binary 10 and decimal 12 counters to the equal input of the phase circuit .2, which is followed by its adjustment, and therefore the corresponding section of the HGVZ communication channel. From the comparison element b, where the signal comes from the second output of the key 5 and from the output of the source of the reference voltage 15, the error signal arising due to the distortion of the frequency response of the communication channel through the threshold amplifier 7 | integration blocks 8 and 3, the second binary counter 11 and the second decimal counter 13 are fed to the control input of the attenuator 3, which is followed by its subsequent adjustment, and consequently, the alignment of the corresponding sections of the frequency response of the communication channel. 1 From another output of this attenuator 3, the signal corresponding to this band of the spectrum is fed (together with signals from the outputs of other attenuators) to the input of the adder 18, from the output of which the corrected working signal is fed to the input of block 19. The working output of the device when correcting the communication channel digital information is the output of a block 19 solver circuit. In communication channels with analog information, block 19 allocates a pilot signal in the form of square, sine-square pulses or packets (distributes these packets along its channels). adjusting llamas) sinusoidal oscillations arranged in time or frequency in those parts of the operating signal, where they have no interfering effect, enhances the operation signal output and also generates reference pulses and key. When analog information is transmitted in which the constant component is lost, before the specified pulses, the pilot signal is transmitted to the pulses, which are used to restore the constant component of the signal. The clock inputs of the binary counters 10 and 11 and the descalers 12 and 13 from the block for changing the correction rate 20 receive pulses whose frequency is inversely proportional to the noise in the communication channel, which allows for accurate correction even with noises. The display unit, connected to the second outputs of decimal counters 12 and 13 of each control channel, shows the frequency response and HGVZ of the corrected communication channel. With the help of the switching unit, 16 control shunt couples are set to neutral mode, which corresponds to the part of the communication channel range where there are no useful information signals (in order not to amplify noise). The device also has a mode when erroneously received or already used information is reset from binary counters 10 and 11, which is advisable in the display only mode if a training pulse from block 19 is not supplied to the device input, while phase loops 2 and attenuators 3 can be and you In the display unit, a dispersion delay line can also be applied if a tuning pulse from the block 19 is applied to it. When the equalizer is operating in the multichannel paths, the detector is disconnected and installed in place of the key 5. Then the detector output is connected via an additional one-shot discriminator And, and block 19 selects a pilot signal in the form of control currents modulated by in-phase direct carbon pulses located between individual frequency channels. The error signal is located audio channel of the monostable pulse in time with the reference control pulses from unit 19 (herein after isolation control currents the reference pulse generated by analogy with the pulse formation from odnovibrat ra control channel) is formed at the output of phase discriminator 1 further as described above. When working to measure quadrupoles of non-communication channels), phase loops 2, attenuators 3 binary counters 10, and 11, switching blocks 21, block 19; are removed from the device; block 19; instead of a correction speed change block 20, a multivibra is connected, and a rectangular sensor is additionally inserted pulse, the first output of which is connected via the measured quadrupole to the device input, the second output to the other input of the phase discriminator I, and the third output to the third input of the display unit 17. Thus, the proposed device / device makes it possible to increase the accuracy of the correction of communication channels. The invention The correction device with the display of frequency characteristics, containing P control channels, each of which consists of a bandpass filter, the output of which is connected to the input of the phase circuit, and the inputs of the band pass filters of the P control channels, the phase discriminator, the first decimal counter, the source the reference voltage, the output of which is connected to the input element of the comparison element, which differs in that, in order to increase the accuracy of the correction and to enable the display of the frequency characteristics The first and second binary counters, the second decimal counter, attenuator, detector, key, switching unit, threshold amplifier, the first and second integration units, and the unit change the correction speed, display unit, unit the selection of the tuning combination, the adder, wherein in each control channel the input of the first decimal counter is connected to the output of the phase discriminator through the first binary counter, the first output of the first decimal counter is connected to the control the input of the phase circuit, the output of which is connected through a serially connected attenuator, the detector and the key is connected to the first input of the phase discriminator, another output of the key is connected to the input of a comparison element, the output of which is connected through the threshold amplifier to the inputs of the first and second integration blocks the binary counter and the second decimal counter are connected to the control input of the attenuator, the second outputs of the first and second ten counters are connected to the input of the block display, the second output of the second binary counter and the third output of the second decimal counter are connected to the first inputs of the switching unit, the outputs of which are connected to the second inputs of the second binary and second decimal counters, the second input of the switching unit is connected to another output of the second integrator, the output of the block the switching of each of the control channels is connected to the input of the block for changing the speed of the correction. The output of which is connected to the clock inputs of the first and second binary and decimal counters of each of the n control channels, the other input of the correction rate change block is connected to the first output of the selection combination selection block whose input is connected to the output of the adder, whose inputs are connected to the outputs of the corresponding attenuators of each of the I channels of regulation,. the second output of the allocation block of the tuning combination is connected to the reset inputs of the first and second binary 993070110 counters, the third output is connected to. Sources of information, another input of the phase discriminator, taken into account during the examination and the remaining outputs, except informational-1. USSR author's certificate to the other inputs of the key of each application No. 218 58 / 18-09, control channel .5 cl. And Oh In 3/0, 1975.