SU815926A1 - Device for automatic tuning of harmonic corrector - Google Patents

Description

(54) DEVICE OF AUTOMATIC ADJUSTMENT OF HARMONIC CORRECTOR

I

The invention relates to radio engineering and can be used in devices for automatically correcting the frequency characteristics of channels and paths-discrete signals.

A device for automatic adjustment of a harmonic equalizer is known. It contains a tuning pulse generator on the transmitting side, a harmonic equalizer on the receiving side consisting of a delay line with taps, each tap of which is connected to the input of the first adder via a corresponding extension through a key block with outputs of shift register bits 1.

However, the known device for automatic adjustment of the harmonic equalizer has a large tuning time, does not provide the required accuracy and automation settings.

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

The goal is achieved in that in the device for automatic adjustment of the harmonic equalizer, which contains on the transmitting side a generator of tuning pulses.

on the receiving side there is a harmonic equalizer consisting of a delay line with taps, each tap of which is connected to the input of the first adder via a corresponding extension; the control inputs of the extenders are connected to the outputs of the shift register bits via the key block; the detector is installed on the receiving side synchronization, reference voltage generator, amplification, first and second delay elements, second and third adders,

full-wave rectifier, the first and second switches, while the detector output is connected to the input of the synchronization unit, the outputs of which are connected to the input of the key block, to the input of the shift register, to the input of the reference voltage generator, to the input of the amplifier, to the input of the first switch, to the input the first delay element, the output of which is connected to another input of the first switch, the output of which is connected to the control input

Claims (2)

The second switch, another input of which is connected to the amplifier output through a second delay element connected in series, a second adder and a full-wave rectifier, another input of the second adder is connected to the amplifier output, the output of the second switch is connected to the first input of the third adder whose second input is connected to the output the reference voltage generator, the output of the third adder is connected to another input of the shift register. The drawing shows a structural electrical circuit of the proposed device. The device for automatically adjusting the harmonic equalizer on the transmitting side has a tuning pulse generator 1, on the receiving side a harmonic equalizer 2 consisting of a delay line 3 with taps 4 and the first adder 5, a key block 6, a shift register 7, a detector 8, a synchronization block 9 , a reference voltage generator 10, an amplifier 11, a first 12 and a second 13 delay elements, a second 14 and a third 15 adders, a two-half-rectifier rectifier 16, a first 17 and a second 18 switches, and a communication channel 19. The device works as follows. From the output of the tuning pulse generator 1, a sequence of tuning pulses arrives at the communication channel 19, which at the output of the detector 8 is a type of bipolar pulses. This sequence enters through the synchronization unit 9, the amplifier 11 and the second delay element 13, providing a delay of the sequence of tuning pulses by a time equal to the duration of the elementary signal to the first input of the second adder 14. The second input of the second adder 14 from the output of the amplifier 11 receives a sequence of pulses. After the addition in the second adder 14 at its output, a single delta pulse with a duration of DT is obtained. The measured value of the impulse response at time points (Kut) is judged on the frequency characteristics of the communication channel 19. For this purpose, a sequence of pulses is fed through a full-wave rectifier 16 to the input of the second switch 18, to the second input of which pulses come from the output of the first switch 17. The pulses to the first switch 17 come from the output of the first delay element 12. This line is controlled by signals from the synchronization unit 9. Using the first switch 17, the desired tap of the first delay element 12 is selected, corresponding to the number of the measured reading value. Before a sequence of tuning pulses is supplied to communication channel 19, a control pulse arrives at the first delaying element 12, which sets it back to its original state. In addition, the first element 12 of the delay from the synchronization unit 9 receives clock pulses synchronized with a sequence of tuning pulses. The sampled values of the impulse response from the output of the second switch 18 are fed to the input of the third adder 15, the second input of which receives the reference (normalized) voltage Uyr from the generator 10 of the reference voltage synchronized from the synchronization unit 9. The introduction of the reference voltage generator 10 makes it possible to normalize the magnitude of the clock value of the Estimated value of the impulse response, thereby eliminating the effect of slow measurements of the residual attenuation of the communication channel 19. from the output of the third adder 15, the sequence of values of the normalized voltage modulated by the sequence of values of the impulse response is fed to the input of the shift register 7, to the second input of which are received the shift pulses from the synchronization unit 9. The number of bits of the shift register 7 is equal to the number of taps 4 of the harmonic equalizer 2. After filling all the bits of the shift register 7 with readout values, the input of the block 6 of keys from the synchronization unit 9 receives a signal connecting the outputs of the shift register 7 with the corresponding control inputs of taps 4 corrector 2. Intersymbol interference is absent, since all taps 4 of the harmonic equalizer 2 are set to positions determined according to the values of the impulse response at the reference time points. Thus, the setting of the transfer coefficients of the taps of the harmonic equalizer in accordance with the frequency characteristics of the communication channel is carried out in one cycle, therefore, the proposed device has a high speed, in addition, the stationarity interval of the characteristics of the channels of multichannel tropospheric and wired communication lines is not less than 10 - 15 minutes. Consequently, the sequence of pulses for tuning the harmonic equalizer is transmitted at intervals of time equal to the stationarity period of the frequency characteristics of the communication channels, i.e. the proposed device practically does not reduce the capacity of the communication channels, which distinguishes the proposed OT device from the known. The invention The device for automatic adjustment of the harmonic equalizer, containing on the transmitting side, a generator of tuning pulses, on the receiving side is a harmonic corrector consisting of a delay line with taps, each tap of which is connected to the input of the first adder through a corresponding extension cable through the block the keys are connected to the outputs of the shift bits, characterized in that, in order to increase correction accuracy, detector, synchronization unit, reference voltage generator, amplifier, first and second delay elements, second and third adders, full-wave rectifier, first and second switches, the detector output is connected to the input of the synchronization unit, outputs which is connected to the input of the key unit, to the input of the shift register, to the input of the generator of the reference voltage, to the input of the amplifier, to the input of the first switch, to the input of the first delay element, the output of which is connected to d The opposite input of the first switch, the output of which is connected to the control input of the second switch, another input of which is connected to the output of the amplifier through a series-connected second delay element, a second adder and a full-wave rectifier, another input of the second adder is connected to the output of the amplifier, the output of the second switch is connected to the first input of the third adder, the second input of which is connected to the output of the reference voltage generator, the output of the third adder is connected to another input of the cd register Whig. Sources of information taken into account in the examination 1. Ye. V. Bazilevich and others. Data transfer (information collection). M., “Holy, 1969, p. 42 (prototype). g R