SU902298A1 - Device for shaping frequency-manipulated signal with continuous phase - Google Patents

Description

The invention relates to radio communications and can be used in discrete information transmission systems. A device for generating a frequency-manipulated signal with a continuous phase, comprising ⁵ series-connected symbol frequency generator and a switch, the outputs of which are connected to the inputs of two channels, each of which consists of a series-connected encoding unit, a first multiplier and a second multiplier, an output which is connected to the corresponding input of the adder, the output of which is connected to the input of the bandpass filter, while the output of the symbol frequency generator is connected to the corresponding coding units and the inputs and the input of the frequency divider, whose output sub keys _w -k second input of the second multiplier and the first channel to the input of the first phase shifter whose output is coupled to a second input of the second multiplier pere2 second channel, and to a second input of the first multiplier of the second channel is connected the output of the second phase shifter [11.

However, the known device has a high level of out-of-band radiation.

The purpose of the invention is to reduce the level of out-of-band radiation.

This goal is achieved by the fact that in a device for generating an acoustic manipulated signal with a continuous phase, which contains a series-connected symbol frequency generator and a switch, the outputs of which are connected to the inputs of two channels, each of which consists of a series-connected coding unit, the first multiplier and the second a multiplier, the output of which is connected to the corresponding input of the adder, the output of which is connected to the input of the bandpass filter, while the output of the symbol frequency generator with connected to the corresponding inputs of the coding blocks and the input of the frequency divider, the output of which is connected to the second input of the second multiplier of the first channel and to the input of the first phase shifter, the output of which is connected to the second input of the second multiplier of the second channel, and the output of the second phase shifter is connected to the second input of the second multiplier of the second channel , a series-connected frequency multiplier and a third phase shifter are introduced, the output of which is connected to the second input of the first ^ multiplier of the first channel and to the second input phase shifter, and the input of the frequency multiplier connected to the output of the frequency divider.

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

The device comprises a symbol frequency generator 1, switch 2, coding blocks 3 and 4, multipliers 5, 6, 7 and 8, an adder 9, a band-pass filter 1U, a frequency divider 11, a frequency multiplier 12, phase shifters 13, 14 and 15.

The device operates as follows.

The transmitted information signal, presented in a binary bipolar code, using a switch 2 controlled by a symbol frequency generator 1 f _c = γ, alternately with a frequency equal to half the symbol frequency, enters the encoding blocks 3 and 4, where transcoding is performed according to the principle of relative telegraphy and simultaneous doubling of the duration of a single symbol T. At the outputs of the multipliers 5 and 7, quadrature components of the carrier frequency oscillation f _{o are formed} , phase-shifted ± γ. At the outputs of multipliers 6 and 8, quadrature components of the frequency-manipulated signal are formed, when summed, in the adder 9 a frequency-manipulated signal with a continuous phase is obtained, which is then filtered using a band-pass filter 10. Moreover, depending on the ratio of the signs of the signals outputs of blocks 3 and 4 of the coding, the output of the adder 9 there is a signal with a frequency below or above the carrier chasto35 you j _e, namely, if the signs are the same, then the output signal has a frequency, _f 1} + -ζγ, and if they are opposed opolozhny, the frequency f 1 ₀ - -ζγ.

Thus, at the output of the adder 9 and the bandpass filter 10, a binary frequency-manipulated signal with a continuous phase with a manipulation index D = 6f.T = 0.5 is formed, where Af = is the different carrier frequencies corresponding to different information symbols.

The carrier oscillation ί _{0 itself is} coherent with the oscillation of the symbol frequency j _c and is formed from it using a frequency divider 11 by 4, a frequency multiplier 12 by an odd integer M and a phase shifter 13, i.e. } ₀ =

Nft__N, Introduced Phaser 13

4T is intended to provide crosslinking of the phases of the switched signals at the time of the change of information symbols at the points where the derivatives of the switched signals turn to O, i.e. at the upper and lower points of the stitched cosine signals of the carrier frequencies corresponding to various information symbols. Odd frequency multiplier of carrier wave £ ₀ quarter of symbol frequency | _c, in combination with the corresponding phasing of the switched signals relative to the time of the change of information symbols, provides a decrease in out-of-band radiation of a frequency-manipulated signal with a continuous phase and a manipulation index of 0.5 according to the law 1 / p. Failure to fulfill the above conditions leads to a decrease in out-of-band radiation of a frequency-manipulated signal with a continuous phase of only 1 / p.

Thus, the proposed device for the formation of a frequency-manipulated signal with a continuous phase with a manipulation index of 0.5 provides a reduction in out-of-band radiation, while maintaining high stability of the carrier manipulation.

Claims (1)

1. Mathwich, H.R., Balcewiez I.F., Hecht, M.Chang Keg ing (MSR). IEEE Transaction of Communications, wo I. Com.-22, IS N 10, October, p. 1527 (prototype). The output of the second phase shifter is connected, characterized in that, in order to reduce the out-of-band emission level, a serially connected frequency multiplier and a third phase shifter are introduced, the output of which is connected to the second input of the first multiplier of the first channel and to the input of the second phase shifter. moreover, the input of the frequency multiplier Yu Yu m "about