SU915245A1 - Device for correcting broad-band channels - Google Patents

Description

The invention relates to telecommunications engineering and can be used in the terminal and intermediate channel-forming equipment for sealing cable communication lines with frequency. channel separation.

It is known that a device for correcting broadband paths contains a harmonic corrector, the input of which is connected to the input of a search unit of a transmitted harmonic, the first output of which is connected to the first input of a control unit, whose outputs are connected to the corresponding inputs of a harmonic corrector, a second output of a search unit of a transmitted harmonic through a first pulse shaper connected to the first input of the first key and through a serially connected phase shifter and a second pulse shaper to the first input of the second key, the third output of the search unit of the transmitted harmonic through the frequency converter is connected to the input of the filter and the third pulse shaper [1] ..

However, the accuracy of the device correction is significant.

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

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This goal is achieved in that the device correction broadband paths containing harmonic corrector, the input of which is connected to the input of the search block transmitted harmonics, the first output of which is connected to the first input of the control unit, the outputs of which are connected to the corresponding inputs of the harmonic corrector, the second output of the search block transmitted harmonics through the first pulse shaper connected to the first input of the first key and through a follower. but the connected phase shifter and the second pulse shaper are connected to the first input of the second key, the third output of the search unit for the transmitted harmonic is connected via a frequency converter to the filter input and the third pulse shaper, a narrowband filter and a subtraction unit are entered, while the input of the narrowband filter is connected to the input harmonic corrector, the output of the narrow-band filter through the third pulse shaper connected to the first input of the subtraction unit, the second. the input of which is connected to the output of the harmonic equalizer, the output

915245

The subtraction unit is connected to another input of the frequency converter, the output of the filter is connected to the second inputs of the first and second switches, the outputs of which are connected to the corresponding 'inputs of the control unit, the additional outputs of the search unit are trans-. given harmonics are connected to the corresponding additional inputs of the control unit.

The drawing shows the structural 10 electrical circuit of the device.

The device for correction of broadband paths contains a harmonic equalizer 1, search unit 2 transmitting my harmonics, control unit 3, first pulse shaper 4, phase shifter 5, second pulse shaper 6, first and second keys 7 and 8, frequency converter 9, filter 10 , narrowband filter 11, the third driver 12 pulses and block 13 subtraction.

The device works as follows.

Adjustment of the parameters of the corrector is carried out using special-control oscillations £ _B (L), B *

= 1.1 generated on the transmitting side and alternately transmitted in the inter-channel gaps of the spectrum of the group signal. On the receiving side, a set of all Λ, reference control oscillations is formed using a narrow-band filter 11 and a third pulse shaper 12. The set of reference control oscillations is synchronized using a special pilot signal transmitted at a frequency that coincides with the average frequency of the passband of narrowband filter 11. The comparison of the transmitted ”th control oscillation with one of the reference oscillations is performed in subtraction unit 13.

The comparison results are then fed to the input of the frequency converter 9, to the other input of which the heterodyne oscillation is supplied, which differs in frequency from the 8th control oscillation transmitted at the moment by the value of £ ₀ . The frequency £ ₀ coincides with the average frequency of the passband of the filter 10.

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Control oscillation frequency

arriving at the heterodyne input of the frequency converter 9, is chosen in such a way that £ _r e = (£ 5 + B 4) kHz. This choice of carrier allows one to get rid of the interference interference that occurs due to the interaction of this reference frequency with the reference frequency of the adjacent channel. The use of an intermediate frequency allows you to select signals err60

ki with different frequencies using a filter 10.

From the output of the filter 10, the error signal goes to the first inputs of the keys 7 and 8. To isolate the in-phase and quadrature error components in block 2 of the search for the transmitted harmonics, a coherent oscillation is generated, the phase of the filling oscillation of which coincides with the phase of the filling oscillation of the common-mode error. With the help of the first driver of 4 pulses, the in-phase sinusoidal oscillation is converted into a sequence of gating pulses, the initial phase of which coincides with the initial phase of the filling oscillation of the common-mode error. Similarly, a sequence of gating pulses is formed to highlight the quadrature error component. The samples of the in-phase and quadrature component of the errors from the output of the keys 7 and 8 are sent to the control unit 3, in which control signals are generated for adjusting the parameters of the harmonic equalizer. The additional inputs of the control unit are connected to the additional inputs of the control waveform search unit.

The introduction of new elements makes it possible to improve the accuracy of correcting the own distortions of the paths without closing the connection via the tone frequency channels. ‘

Claims (1)

Claim A broadband path correction device containing a harmonic equalizer whose input is connected to the input of a search unit for the transmitted harmonic, the first output of which is connected to the first input of the control unit, the outputs of which are connected to the corresponding inputs of the harmonic corrector, the second output of the search unit of the transmitted harmonic through the first driver of impulses connected to the first input of the first key and through the series-connected phase shifter and the second pulse shaper - to the first input of the second key the third output of the search unit for the transmitted harmonic is connected via a frequency converter to the filter input and a third pulse shaper, which is because, in order to improve the correction accuracy, a narrowband filter and a subtraction unit are introduced, while the input of the narrowband filter is connected to the harmonic equalizer input, the output of the narrow-band filter through the third form of the pulse implanter is connected to the trans5 915245 6 the input of the subtraction unit, the second input of which is connected to the output of the harmonic corrector, the output of the subtraction unit is connected to another input of the frequency converter, the output of the filter is connected to the second inputs of the first and second keys, the outputs of which are connected to the corresponding inputs of the control unit, additional outputs of the block search for the transmitted harmonics are connected to the corresponding additional inputs of the control unit.