SU1540027A1 - Receiver of phase-modulated signals with continuous phase - Google Patents

Abstract

This invention relates to radio. The purpose of the invention is to improve noise immunity. The receiver contains multipliers 1,2,3,4,12,13,20,21,22,24, integrators 5 and 6, decision blocks 7 and 8, switch 9, controlled by r-r 10 clock frequency, phase shifters 11 and 19 , filters 14 and 26, shapers 15 and 16 rectangular pulses, modulo-17 adder 17, controlled by r.sh 18 high-frequency pulsers, adders 23 and 25, and limiting amplifiers 27 and 28. The goal is achieved by reducing the error estimate of the carrier and clock frequencies. 1 il.

Description

The invention relates to radio communications, in particular, to systems for transmitting discrete messages over radio channels, where frequency-manipulated (FM) signals with a continuous phase are widely used.

The purpose of the invention is to increase noise immunity by reducing the variance of the error estimation of the carrier and clock frequency.

The drawing shows a structural electrical diagram of the proposed Receiver.

The receiver contains the second 1 ^ first 2, third 3 and fourth 4 multipliers, the first 5 and second 6 integrators, the first 7 and second 8 decision blocks, switch 9, a controlled clock generator 10, ₂ θ first phase shifter 11, sixth 12 and fifth 13 switches, the first filter 14, the first 15 and the second 16 formers of rectangular imgulsov, the adder 17 modulo two, controlled ₂ 5 high-frequency generator 18, the second phase shifter 19, the seventh 20, the ninth 21 and the eighth 22 multipliers, the first adder 23, the tenth multiplier 24 second adder 25 second fi liter 26, as well as the first 27 and second 28 limiting amplifiers.

The receiver operates as follows.

The incoming signal is fed to the inputs of frequency multipliers 2 and 1, ^ 5 to the other inputs of which the carrier frequency signals from the controlled generator 18 are supplied — direct and phase shifted by a phase shifter by 90 °. The signals from the outputs of the multipliers 2 and 1, after removing the carrier oscillation, are fed to the multipliers 3 and 4, to the second inputs of which the clock signals from the controlled oscillator 10 are supplied — direct and shifted using a phase shifter. 11 in phase. At 90 °. From the outputs of multipliers 3 and 4, after removing the oscillation of the clock frequency, the signals προχο are sent through integrators 5 and 6 with a reset, where the reset moments of the integrators are determined by clock pulses coming directly from the controlled oscillator 10 and passed through the phase shifter 11, preformed respectively by the formers 15 and 16 of the rectangular ; pulses. In this case, the integration duration is equal to the duration of two information symbols, and the reset times of integrators 5 and 6 are shifted relative to each other by the duration of one information symbol. From the outputs of integrators 5 and 6, information symbols in quadrature channels arrive at decision blocks 7 and 8 (threshold blocks), which alternately connected via the switch 9 channels of reception to the output, which is the output of the entire receiver. Switching the reception channels in the switch 9 is carried out by pulses from the output of the adder 17 modulo two with a frequency of information symbols.

For the operation of the scheme for extracting information symbols, it is necessary to synchronize the generators of the carrier and clock frequencies up to a phase with the corresponding frequencies of the received signal. ".

The operation of these systems in the proposed receiver is as follows.

The signals from the outputs of multipliers 1 and 2, in which quadrature signals of the carrier oscillation error are generated, are fed to the inputs of multipliers 10 and 13, the second inputs of which receive a signal of the reference oscillation of the clock frequency directly from the clock controlled oscillator 10 and shifted by 90 ° in the phase shifter 11 Thus, using multipliers 1,2,20 and 13, quadrature signals containing are formed. carrier and clock errors. The generated signals are used both for tuning the controlled oscillator 10 clock frequencies, and for adjusting the frequency of the controlled oscillator 18.

The signals from the outputs of multipliers 13 and 20 are fed to the inputs of multipliers 12 and 24, to the other inputs of which are signals from integrators 6 and 5, which have passed through limiting amplifiers 28 and 27, respectively. As a result, manipulation of quadrature components is removed in multipliers 12 and 24 carrier oscillation error signals, which, after adding in the adder 25 and suppressing discrete components in the filter 26, the carrier oscillation error signals affect the frequency up1540027 of the equalized generator 18, compensating for the inconsistency "Thus, the carrier frequency of the received signal is monitored as follows" I

The signals from the outputs of the multipliers 13 and 20 are fed to the inputs of the multipliers 21 and 22, to the other inputs of which there are signals from integrators 5 and 6, formed in limiters 27 and 28. As a result, the multipliers 21 and 22 are removed from the quadrature components of the signals clock errors, which, after addition in the adder 23, are fed to the input of the filter 24, where the discrete components of the error signals of the two-frequency frequency are suppressed. Thus generated at the output of the filter 24, a clock error signal affects the frequency of the controlled oscillator 10, adjusting it to the phase of the clock frequency of the received signal "

Claims (1)

Claim A receiver of frequency-manipulated signals with a continuous phase, comprising the first and second multipliers, the inputs of which are connected and are the input of the receiver, the output of the first multiplier through the third multiplier connected in series, the first integrator and the first decision unit connected to the first switch input, the output of the second multiplier through in series the fourth multiplier connected, the second integrator and the second decoupling unit connected to the second input of the switch, the fifth and sixth multipliers, the first the first filter, the output of which is connected to the input of a controlled clock generator, the output of which is connected through the first shaper of rectangular pulses to the second input of the first integrator and through the first phase shifter and the first shaper of rectangular pulses in series with the second input of the second integrator, the output of the controlled high-frequency generator is connected with the input of the second phase shifter, the output of the switch is the output of the receiver, characterized in that, in order to improve noise immunity by reducing the variance of the estimation errors of the carrier and clock frequencies, the seventh, eighth, ninth and tenth multipliers, two adders, a second filter, two limiter amplifiers, an adder modulo two are introduced into it, and the output of the controlled high-frequency generator is connected to the second input of the first multiplier and the output of the second phase shifter is connected to the second input of the second multiplier, the output of which through the seventh and eighth switches | connected in series is connected to the first input of the first adder, the output of the first a multiplier through series-connected fifth and ninth multipliers is connected to the second input of the first adder, the output of which is connected to the input of the first filter, the output of the controlled clock is connected to the second inputs of the seventh and third multipliers, the output of the first phase shifter is connected to the second inputs of the fifth and fourth multipliers, the output the fifth multiplier through the sixth multiplier is connected to the first input of the second adder, and the output of the seventh multiplier through the tenth multiplier is connected to the second the input of the second adder, the output of which through the second filter is connected to the input of the controlled high-frequency generator, the output of the first integrator through the first amplifier-limiter is connected to the second inputs of the tenth and ninth multipliers, and the output of the second integrator through the second amplifier-limiter is with the second inputs of the sixth and eighth multipliers, the outputs of the first and second formers of rectangular pulses are connected respectively to the first and second inputs of the adder modulo two, the output of which is connected to the third input multiplier.