SU849503A1 - Cross corrector of intersymbol distortions in signals of data transmitted by two side-band modulation methods - Google Patents

Description

The invention relates to a communication technique and MoifceT is used to correct intersymbol interference in received signals, transmit aJx over tone frequency channels. The intersymbol distortion cross corrector in data signals transmitted by dual-band modulation methods is known. It contains a carrier frequency shaping unit whose output is connected to the input of the first modulator and through a phase shifter to the input of the second demodulator, other inputs of the first and second demodulators are combined, the control unit The outputs of which are connected to the inputs of the corresponding memory blocks of the code of single-phase coefficients and n blocks of memory of the code of cross coefficients, the outputs of the latter are connected to the control inputs 2p cross-regulators, respectively, the outputs of the memory blocks of the code of in-phase coefficients .. are connected to the control inputs 2p of the in-phase regulators, respectively, outputs n of the in-phase regulators, other inputs of which are connected to the taps of the first delay line, and outputs n of the cross-regulators are connected to the inputs of the adder, the output of which is connected to one of the inputs of the decision block, the other input of which is connected to the output of the subtraction unit, the inverting input of which is connected to the outputs P of the cross-regulators, d The other inputs are connected to the corresponding taps of the first delay line, the other inputs of the other common mode controllers are connected to the taps of the second delay line, the input of which is connected to the output of the second demodulator, the V outputs of the other common mode controllers are connected to the non-inverting input of the subtractor, the output of the decisive block is connected to the input of the control unit C.) 1 However, the known corrector does not provide the possibility of cross-correction of intersymbol indications. In the data signals transmitted by the single-band method mi modulation.

The purpose of the invention is to provide the possibility of cross-correction of intersymbol distortions in data signals transmitted by single-band modulation methods.

To do this, in the cross-corrected intersymbol distortions in data signals transmitted by two-band modulation methods, contains a carrier frequency shaping unit whose output is connected to the input of the first demodulator and through a phase shifter to the input of the second demodulator, the other inputs of the first and second demodulators are combined, the block control outputs of which are connected 1 to the inputs of the corresponding n blocks of the code of the common-mode coefficients and n blocks of the code of the cross coefficients; the outputs of the latter are connected to the control Cross-connectors 2p inputs, respectively, the outputs of the memory blocks of the code of in-phase coefficients are connected to the control inputs 2p of the in-phase controllers, respectively, outputs n c, infase regulators, other inputs of which are connected to the taps of the first delay line, and outputs n of cross-regulators connected to the inputs of the adder, the output of which is connected to one of the inputs of the deciding unit, the other input of which is connected to the output of the subtraction unit, the inventory input of which is connected to the outputs of the n cross-regulator The other inputs are connected to the corresponding taps of the first delay line, the other inputs of the other common-mode regulators are connected to the taps of the second delay line, the input of which is connected to the output of the second demodulator, the output of the other syn-phase regulators are connected to the keinverting input of the subtraction unit, the output of the decisive the unit is connected to the input of the control unit, enter the delay element, (n + l) switches and the modulation mode setting unit, while the output of the first demodulator is connected to the input of the element. from the inputs of the first of (n + 1) switches, the other input of which is connected to the output of the modulation mode setting, which is connected to one of the inputs h of the other switches, the output of the first of the (n + l) switches, is connected to the input of the first delay line, The other inputs of the other switches are connected to the taps of the second delay line, respectively, and the video ports are connected to the FRIEND1 inputs of the corresponding n other cross-connectors.

The drawing shows the structural electrical circuit of the predicted corrector (dp simplifying the cross-corrector is shown with three taps).

The cross-offset of the intersymbol distortions in the data signals transmitted by the two-band modulation methods comprises a block I of shaping the carrier frequency, the first demodulator 2, and a phase shifter. 3, the second demodulator 4, the delay element 5, (w + 1) of the switches 6, the modulation mode setting unit 7, the first and second delay LINES 8 and 9, respectively, consisting of delay elements 10, 2 g of in-phase regulators 11 , n blocks 12 memory code common mode coefficients, 2 p. cross controllers 13, G1 of memory block 14 of a code of cross coefficients, adder 15, subtraction unit 16, decision block 17 and control block 18.

Cross-corrector works as follows.

Claims (1)

The input of the first demodulator 2 is supplied to the in-phase coherent oscillation from block 1 directly, and to the input of the second demodulator 4 via the phase shifter 3 by 90. The modulated data signal is fed to the other inputs of the first and second demodulators 2 and 4, respectively. The demodulated signals are fed to the inputs of the first and second lines 8 and 9, respectively, and to the input of the first line 8 the signal goes through the first switch 6. In the case of receiving signals with dual-band modulation methods, the compensation of the in-phase components is performed using the in-phase regulators 11, which signals From the taps of the first and second lines 8 and 9, they are fed to the corresponding inputs of the accumulator 15 and the subtractor 16. Compensation of the quadrature component of the second demodulator 4 is performed by means of cross-regulators 13, through which the signals from the taps of the first line 8 enter the subtractor 16. To compensate for the quadrature of its component of the first demodulator 2, signals from similar taps of the second line 9 are received through the switches 6 and the corresponding cross-connectors I3 to the adder 15. At the outputs of the adder 15 and the subtraction unit 16 at the optimum values of the transmission coefficients of the common-mode and cross-connectors of tori 11 and 13, demodulated intermodulation-free demodulated data signals are generated by decision block 17, which produces signals for block 18. The latter produces and writes to locks 12 and 14 are the digital numbers of the optimal transmission coefficients of the common-mode and cross-regulators 11 and 13. Block 7 generates a signal by which the first switch 6 connects the input of the first line 8 k to the first demodulator 2 directly, and the switches 6 included in the taps of the second lines 9, broadcast on the cross-regulators 13 signals coming. the second demodulator 4 through the corresponding taps of the second line 9. When receiving signals with single-band modulation methods, element 5, which is connected between the output of the primary demodulator 2 and the input of the first line 8, is additionally used for compensating the components. In this case, the first and second lines 8 and 9 are displaced in the same names. In order to eliminate the time offset, another element 10 is also included in the second line 9. At the same time, the quadrature components of the second demo are compensated. torus 4 is implemented as described above (dL dual-band modulation methods using cross-regulators 13, through which the signals from the taps of the first line 8 arrive at the corresponding input of the subtracting unit 16. To compensate for the quadrature components of the first demodulator 2, the signals to the inputs are equivalent. knockout perekretnyh regulators 13 are received through the switches 6 with an offset by one element 10 of the second line 9. The corresponding switch in the corrector is carried out by block 7, which generates a signal by which The first switch 6 connects the input of the first line 8 to the output of the first demodulator 2 via delay element 5, and the switches 6 included in the taps of the second line 9 transmit signals to their right inputs to the cross-regulators 13. The remaining nodes of the cross-corrector function in a manner similar to the case of receiving signals with dual-band modulation methods. The number of corrector taps and, therefore, the number of adjustable components of the impulse response of the communication channel, as well as the delay time of element 5 and elements 10 are determined by the operation speed, modulation method, initial distortion, the required accuracy of intersymbol interference compensation, and the like. Thus, the proposed cross-corrector allows compensation of intersymbol interference in data signals transmitted by single-sided and dual-band modulation methods. Claims of the invention Cross-correction of intersymbol distortions in data signals transmitted by two-band methods, min. The pulley contains a carrier shaping unit whose output is connected to the input of the first demodulator and through a phase shifter to the input of the second demodulator, the other inputs of the first and second demodulators are combined, the control unit whose inputs are connected to the inputs of the corresponding n memory blocks the code of the common-mode coefficients and p blocks of memory of the code of the cross-coefficients, the outputs of the latter are connected to the control inputs of 2 n of the cross-controllers, respectively, the outputs of the memory blocks of the code of the in-phase coefficients under They are connected to the control inputs 2p of the common-mode regulators, respectively, the outputs n of the common-mode relays, the other inputs of which are connectors, the inputs with the taps of the first lock line, and the outputs of the cross-connectors are connected to the inputs of the output controller, the output of which is connected to one of the inputs of the crosshead, another entrance which is yoedinen with the output of the subtraction unit, the inert input of which is connected to you-. other inputs of which are connected to the corresponding taps of the first delay line, other inputs of the other common-mode controllers are connected to the taps of the second delay line whose input is connected to the output of the second demodulator of the input n of the other common-mode controllers to the non-inverting input of the unit subtraction, the output of the decision block is connected to the input of the control block, characterized in that, in order to provide the possibility of cross-correction of intersymbol distortions in the signals of the signals, given and single-band modulation methods, a delay element is introduced, (n + l) switches and a block setting the modulation mode, while the output of the first demodulator is connected to the input of the delay element and to one of the inputs of the first and third (n + 1) switches, the other input of which is connected to the output of the modulation mode setting unit, which is connected to one from the inputs and other switches, the output of the first of (n + 1) switches is connected to the input of the first delay line, the other inputs, and the other switches are connected to the outlets of the second delay line, respectively, and the outputs are connected to other inputs of the corresponding n: other cross-controls OB. Sources of information taken into account in the examination I. US patent No. 3878468, CL 325-320, published. 1975 (prototype).