SU987829A2 - Method and apparatus for checking phase-shift keying and relative phase-shift keying signals distortions - Google Patents

Description

through the coincidence unit (the second input) is connected to the output of the comparison unit / connected to the control input of the measurement mode switch, the first and second inputs of which are connected respectively to the outputs of the correction measuring unit and the maximum amplitude determination unit, the corresponding inputs of which are connected to the outputs of the input and output meters and the converted signal, the quadratic inputs of which are connected to the quadratic inputs of the correction measuring unit and the output of the adder, are first The second and second inputs of which are connected respectively with the outputs of the quadratures of the in-phase and quadrature channels, and the output of the measurement mode switch, respectively, through the first and second threshold units is connected to the first and second inputs of the OR 1 element.

However, the known method and device do not have a high accuracy of control with increasing phase distortion to the maximum possible value while maintaining the signal amplitude above the nominal value.

The purpose of the invention is to improve the accuracy of control with increasing phase distortion.

This goal is achieved by the fact that, according to the method of monitoring the distortion of signals of phase and relative phase manipulation, which consists in the amplitude and phase of the received signal being measured at the reception interval of each signal send, the phase of the received signal vector is changed by angles that are minimal the angle of manipulation, but smaller TC / a, for the vector of the received signal and for each vector obtained as a result of the transformation, the amplitudes of its projections onto the reference oscillations, which are multiplied, are multiplied by 4 and subtract from the multiplied square of the amplitude of the received signal, the resulting differences are compared and choose the largest value, which as the magnitude of the amplitude-phase distortion is compared with the threshold values, and according to the results of the comparison, decide on the correctness of the received signal, before subtracting the multiplied on the TS, the square of the amplitude of the received signal is additionally multiplied by the doubled sine value of the minimum angle of manipulation divided by 7G, and before making a decision on the correctness of the DIR th signal further comparing the square values of the amplitude of the received signal with a predetermined threshold.

when exceeding which form a signal on. distortion.

In an apparatus for implementing a method for monitoring signal distortion of phase and relative phase shift manipulation comprising an in-phase kanesh quad, quadrature channel quad, an adder, a recalculation unit, a comparison unit, an input signal distortion meter, a corrective measuring unit, n meters, transformed signal distortion , the block for selecting the multiplicity of manipulation, the block for determining the maximum amplitude, the switch of measurement modes, the block of coincidence, the first and second threshold blocks and the OR element, moreover, the input of the quadrature channel quadrant and the quadrature input of the quadrature channel are connected to the respective in-phase and quadrature inputs of the comparison unit, the correction measuring unit, the distortion meter of the input signal and the projection conversion unit, the in-phase and quadrature outputs of the converted signal / blocking inputs which are connected to the corresponding inputs of the selection block for the multiplicity of manipulation, the control output of which is the match block, the second input of which is connected to the output of the comparison unit, is connected to the control input of the measurement mode switch, the first and second inputs of which are connected respectively to the outputs of the corrective measuring unit and the maximum amplitude determination unit, the corresponding inputs of which are connected to the outputs of the distortion meters and the transformed signal, the quadratic inputs of which are connected to the quadratic input of the correction measuring unit and the output of the adder, the first and second the strokes of which are associated respectively with the outputs of quadratures of the in-phase and quadrature channels, and the output of the measurement mode switch, respectively, through the first and second threshold blocks is connected to the first and second inputs of the OR element, the third threshold block is entered, and the output of the adder through the third threshold block is connected to the third input of the element OR, .a the additional installation output of the squareness selector key; the switch is connected with the control input of the distortion meter of the input Signal.

The method is carried out as follows.

The amplitude 65 and the phase of the received signal are measured at the reception interval of each signal send, the phase of the received signal is changed. In the general case, with multiple manipulations at angles multiple of the minimum angle of manipulation, but less than 71 2, the amplitudes of the projections on the reference oscillations of the vector of the received signal and of each vector transmitted as a result of the transformation multiply the amplitude obtained, multiply the product obtained by 4 and subtract the minimal manipular angle multiplied by the doubled sine value To get this multiplicity of manipulation of the square of the amplitude of the vector of the received signal, the differences obtained are compared and the largest value is chosen, which is compared with the threshold values as the differential magnitude of the amplitude-phase distortion of the signal, the decision on the correctness of the received signal is taken, and also make a comparison of the square of the amplitude of the received signal with an additional threshold value and, according to the obtained result, correct the previously received p shenie. The last step is that if the square of the amplitude of the received signal i exceeds the selected threshold, i.e. in the calculation of the differential magnitude of the amplitude-phase distortion of the signal, due to the limitation, an error may occur, and THAT, regardless of the decision taken earlier, is issued

signal erase. I

The drawing shows the structural electrical circuit of the device for carrying out the proposed method.

A device for implementing a method for monitoring distortions of signals of phase and relative phase manipulation includes a quadrant I of the inphase channel, quadrature 2 quadrature channel, adder 3, unit 4 of the projection recalculation, unit 5 of the comparison, meter b of the distortions of the input signal, corrective measuring unit 7, p meters 8 distortions of the converted signal, block 9 of the selection of the multiplicity of manipulation, block oO of determining the maximum amplitude, switch 11 measurement modes, block 12, the first 13 and second 14 threshold blanks ki, an OR gate 15 and the third threshold unit 16..

The device works in the following way.

 The signals from the in-phase and quadrature outputs of the demodulator are not shown) are fed to the inputs of quadrants 1 and 2, and from the outputs of the latter arrive at the inputs of the adder 3. The signal at the output of the adder 3 in each message is equal to the square of the modulus of the received signal and is proportional to the total signal energy and interference. At the same time, signals from the in-phase and quadrature outputs of the demodulator are fed to block 4, which carries out phase shifts of the vector of the received signal, resulting in

projections of the converted signal are obtained at its outputs. At the same time, signals from the in-phase and quadrature outputs of the demodulator are fed to block 5 "comparison,

which generates a comparison signal at the first input of the match block. Along with this, signals from the in-phase and quadrature outputs of the demodulator are fed to the corresponding inputs.

meter 6 distortions of the input signal and corresponding to the input of the correction-measuring unit 7. Simultaneously with the in-phase and quadrature outputs of the recalculation-projection block

Signals that identify the projections of the converted signal vectors are sent to the corresponding meters of the corresponding meters 8 distortions of the converted signal.

The distortion meter of the input signal measures, with repeated manipulation, the differential value of the amplitude and phase reserve of the vector of the received signal, which reflects the degree of amplitude and phase distortion of the signal. The control to the control input of the input distortion meter b comes from the additional setup output of the selection unit 9 for manipulation in the form of potential and the level of which. corresponds to a given multiplicity of manipulation and determines the value of the sine of the minimum angle of manipulation, which must be taken to make measurements.

Similar measures for the corresponding vector of the converted signal are performed by each meter 8 of the distortions of the converted signal if the blocking input does not receive a blocking signal, i.e. potential U at this input is not equal to 0.

With n 7 2, signals from the outputs of the meters 8 distortions of the transformed signal and from the output of the meter b distortions of the input signal are fed to the block 10 for determining the maximum amplitude, which determines the signal whose amplitude is larger and goes to the first input switch

Claims (2)

bodies 11 measurement modes. With n 1 value, the potential U "at the control input of the distortion meter of the input signal and at the blocking inputs of the distortion meter of the converted signal is O. At the same time, the distortion meter of the input signal measures the absolute integral value of the amplitude and phase margin of the vector signal , a and: the distortion meter of the converted signal is blocked. at the same time, from a separate installation output of the manipulation multiplicity selection block, the resolution input signal is sent to the second input of the coincidence unit and, if it receives the comparison signal from the comparison unit at the first input, then the control input signal is sent from the output unit of the coincidence unit to the control input. In this case, the absolute integral magnitude of the amplitude-phase margin, given by the distortion meter of the input signal, does not correspond to the true value and is calculated by the corrective measuring unit 7, the output signal of which is then fed to the output of the measurement mode switch. Thus, at the output of the measurement mode switch, when n 1, a signal is output that corresponds to the true absolute integral value of the amplitude-phase reserve of the received signal vector, and when n 5. 2, the true differential value of the amplitude-phase reserve of this vector. Then this signal goes to the first and second threshold blocks .. One of these threshold blocks compares it with the top threshold that is set, the other with the bottom one. If the analyzed signal is higher than the upper threshold or lower than the lower threshold, then the output of the corresponding threshold block is the Erase signal, which is outputted through the OR element to the output of the device. In addition, the signal defining the square of the amplitude of the vector of the received signal and proportional to the total energy of the signal and interference from the output of the adder goes to the third threshold unit 16, which compares it with the threshold level corresponding to the beginning of the limitation of the input signal. In case the indicated value is above the set threshold, the Erase signal appears at the output of the third threshold block, which is output through the OR element to the device output and in the case when the first and second outputs of the threshold block have no erase signals. This occurs when, due to the limitation, the accuracy of the measuring instrument b of the distortion of the input signal decreases and the obtained measurement results can be very accurate. Technical and economic efficiency of the method for monitoring phase signal distortion and. relative manipulation and the device for its implementation is to improve the accuracy of control by separately taking into account the influences on the received; my result of factors. Claims of the invention ev; W 884159, characterized in that in order to increase the control accuracy with increasing phase distortion, before subtracting the square of the amplitude of the received signal multiplied by K is additionally multiplied by twice the sine of the minimum angle divided by TG, and before making the correctness decision The received signal is additionally compared to quad-. The amplitude of the received signal with a predetermined threshold, above which a signal about the distortion of the received signal is generated. 2. A device for carrying out the method according to claim 1, 1, characterized by -. Now that a third threshold block is entered into it, the output of the adder is connected to the third input of the OR element through the third threshold block, and the additional installation output of the manipulation multiplex selection block is connected to the control input of the distortion meter of the input signal. Sources of information taken into account in the examination. 1. USSR author's certificate number 884159, cl. H 04 B3 / 46, 1978 (prototype). ./ 12  . -j I - 4-1 -II -2 w //