SU605321A1 - Adaptive corrector of phase-modulated signals - Google Patents

Description

the quadrature subchannel, the first and second rectifiers, the first and second low-pass filters, the subtraction unit, while the first output of the clock extraction unit through the shaper of the opening pulses of the in-phase subchannel, the second input of which is connected to the output of the additional phase shifter, is connected to the first inputs of the in-phase multipliers subchannel, the second output of the clock extraction unit through the driver of the opening pulses of the quadrature subchannel is connected to the first inputs of the L / multipliers square A subchannel, and the input of the clock emulsifier selection unit is connected to the input of the additional phase shifter, the second input of the "opening pulses of the quadrature subchannel and the inputs of the first and second rectifiers, the outputs of which are connected to the first and second inputs of the subtractor, respectively, through the first and second outputs, and the input of each attenuator is connected to the second input of the corresponding multiplier, the output of which is connected to the second input of the corresponding correlator, the first input of which This is connected to the output of the subtractor, and the output of the output adder is connected to the input of the clock extraction unit.

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

The adaptive corrector of signals with phase modulation contains a delay element 1, each of whose L taps is connected to the input of one of the N attenuators 2 of the in-phase subchannel 3 and to the input of one of the L attenuators 4 of the quadrature subchannel 5, with the output of each attenuator 2 of the in-phase subchannel 3, the second the input of which is connected to the output of one of the L connected to the input of the correlators 6 of the in-phase subchannel 3, is connected to one of the inputs of the adder 7 of the in-phase subchannel 3, and the output of each attenuator 4 of the quadrature subchannel 5, the second input which is connected to the output of one of the L combined by the input with the correlators 6 of the in-phase subchannel 3, the correlators of the 8 quadrature subchannel 5, is connected to one of the inputs of the adder 9 of the quadrature subchannel 5, the output of which through the phase shifter 10 is connected to the first input of the output adder 11, the second input which is connected to the output of the in-phase adder 7 of the subchannel 3, as well as the block 12 of the selection of clock pulses, the shaper 13 "opening pulses of the in-phase 3 and quadrature 5 subchannels, additional phase shifter 14, L variable 15 common mode ZIL / multipliers 16 quadrature subchannel 5, first 17 and second rectifiers 18, first 19 and second 20 low-pass filters, subtraction unit 21, the first output of the clock extracting unit 12 through the in-phase subchannel driver 13 3, the second input of which is connected to the output of the additional phase shifter 14, is connected to the first inputs of the multipliers 15 of the in-phase subchannel 3, the second output of the clock extraction unit 12 through the shaper 13 "opening pulses kva subchannel-temperature

5 connected to the first inputs of the N multipliers of the 16 quadrature subchannel 5, and the input

block 12 of the selection of clock pulses connected to the input of the additional phase shifter 14, the second input of the imager 13 "quadrature opening pulses

subchannel 5 and the inputs of the first 17 and second 18 rectifiers, whose outputs, respectively, through the first 19 and second 20 low-pass filters are connected to the first and second inputs of the subtractor 21, and

the input of each attenuator 2 and 4 is connected to the second input of the corresponding multiplier 15 and 16, the output of which is connected to the second input of the corresponding correlator

6 and 8, the first input of which is connected to the output of the subtracting unit 21, and the output of the output adder 11 is connected to the input of the clock extraction unit 12.

Adaptive corrector works as follows.

The corrected signal is applied to the input of delay element 1. From the taps of the delay element 1, this signal enters the output adder 11 in two ways: through attenuators 2 of the common mode subchannel 3 and adder 7,

and also through attenuators 4 of the quadrature subchannel 5, the adder 9 and the phase shifter 10. By adjusting the attenuators 2 and 4 corresponding to the input signal, a corrected signal is obtained at the output of the output adder 11. To control the amplifiers 2 and 4, signals from the output of the correlators 6 and 8 are used. These signals are obtained as a result of processing in the correlators 6 and 8 signals from the subtracting unit 21 and from the corresponding multipliers 15 and 16.

A feature of filters 19 and 20 is that the first has a constant time many times longer, and the second ten times

less meaningful interval.

The pulses opening multipliers 15 and 16 are fed from an extracting unit 12, which selects the first pulse in the sequence obtained by differentiating in differential x 22, limited in limiters 23 of the output signal of the equalizer and the signal obtained from the output signal by passing the latter through the phase shifter 14 The start time of the first selection.

the pulse in the allocation unit 24 in the middle of the significant interval is determined by the clock oscillation received from the selection unit 12. Accelerating the process of convergence of the algorithm

settings allows to improve the parameters of the information transmission system in which the proposed corrector is used, in particular, to reduce the time of use of the communication channel used, the cost of which is very high.

Claims (1)

1. US patent No. 3727136, cl. 325-320,1973.