SU1083331A1 - Generator of narrow-band pseudogaussian noise signal - Google Patents

Abstract

1. GENERATOR OF NARROWBANDS OF PSEUDO-GUSH NOISE SIGNALS, containing two channels, each of which consists of series-connected low-frequency noise drivers and a multiplication unit, the output of which is connected to one of the inputs of the output adder, a; also connected in series. master oscillator and quadrature phase shifter, one output of which is connected to the reference input of one multiplication unit, and the other you go to the reference input of another multiplication unit, characterized in that, in order to expand the working range of the frequency tuning, while maintaining a constant width of the output spectrum signals, serially connected clock pulses and a frequency divider with a variable division factor, the output of which is connected to the clock input of each driver, are entered into it l low frequency noise. 2. The generator according to claim 1, of tl ich, and y y and the fact that, in order to increase the stability of the multidimensional distribution law of the amplitudes of the output signals, each of the low frequency shuma drivers is executed in the form of a shift register in the feedback circuit modulo two is turned on, with the clock inputs of the combiner shift register (L and are clock inputs of the low frequency noise generator, and the shift register outputs are the outputs of the low frequency noise generator. 3. The generator according to claim. 1, characterized in that every 00 of multiplication locks are made in the form of P modulators two, 00 00 the outputs of which are connected to the inputs of the linear adder whose output is the output of the multiplication unit, the first inputs of the n modulo two adders are the inputs of the multiplication unit, and the second inputs are combined and are the reference input of the multiplication unit.

Description

I The invention relates to radio engineering and can be used in radio technical devices for various purposes, in particular in radio measuring technology and for creating highly stable Gaussian noise by experimentally evaluating the noise immunity of radio systems. A pseudorandom signal generator 5 is known that contains a pulse generator and a shift register enveloped in a feedback circuit, as well as an adder and successively connected first key and first filter, successively connected to the second key and second filter, as well as a trigger, whose counting input connected to the output of the clock pulse generator and the inputs to the control inputs of the first and second keys, the signal inputs of which are connected to the output of the adder, while the inputs of the adder are connected to corresponding odd shift register outputs, an additional adder and a controlled inverter are connected in series, while the additional adder inputs are connected to the fourth outputs of the shift register, the control inputs of the controlled inverter are connected to the trigger outputs, and the output of the controlled inverter is connected to the additional input of the adder t 1 Jc. However, in the well-known pseudo-random signal generator, the central frequency is not tuned .. The closest in technical essence to the present invention is a generator of narrow-band pseudo-Gaussian signals containing two channels, each of which consists of series-connected low-frequency noise generator and an multiplier unit, the output of which is connected to one of the inputs of the output adder, as well as sequentially connected to the master oscillator and quadrature phase shifter, one output to torogo connected to one input of GCO Nome multiplying unit, and the other output - to the reference input of another multiplying unit 2 Dunn generator psevdogaussovos narrowband noise signal has a wide enough operating range 1 central frequency tuning and insufficiently high stability multidimensional distribution law amplitudes of the output signals. The purpose of the invention is to expand the working range of the central frequency tuning while creating a constant width of the spectrum of the output signals, as well as increasing the stability of the multidimensional distribution law of the amplitudes of the output signals. The goal is achieved by the fact that the generator of narrow-band pseudo-Gaussian noise signals contains two channels, each of which consists of a series-connected low-frequency noise generator and a multiplication unit whose output is connected to one of the inputs of the output adder, as well as serially connected: master oscillator and quadrature a phase shifter, one output of which is connected to the reference input of one multiplication unit, and the other output - to the reference input of the other multiplication unit, is entered Well connected clock generator and frequency divider with variable division factor, the output of which is connected to the clock input of each low frequency noise generator. Each of the low-frequency noise drivers is designed as a shift register, and the feedback circuit of which includes a modulo-two adder, the clock inputs of the shift register are combined and are the clock input of the low frequency driver, and the shift register outputs are the outputs of the low frequency noise generator. Each of the multiplication blocks d is made as n modulo two adders, the outputs of which are connected to the inputs of a linear adder, the output of which is the output of the multiplication unit, the first inputs of n modulators two being the inputs of the multiplication unit, and the second inputs are combined and are the reference input of the multiplication block. The drawing shows a structural electrical circuit of the generator. The device contains two channels 1 and 2, each of which consists of a low-frequency noise generator 3 and multiplication unit 4, and also contains an output adder 5, a time generator b, a quadrature phase shifter 7, a clock pulse generator 8 and a frequency divider 9 with a variable division factor ( DPKD), with each of the 4 actuators 3 low-frequency sound coS from the tO shift register and the adder 11 modulo two, and each. from blocks 4 multiplication consists of n adders 12 modulo two and a linear adder 13. The generator works as follows. The sequence of rectangular pulses from the output of the generator 8 and such pulse arrives at the DPKD 9 in which the fission coefficient is specified, and from the output of the PDKD 9, the pulses of the selected frequency synchronize the operation of the shift registers 10. As a result of organizing feedback through modulators 11 modulo two on the output of the shift register bits 10, pseudo-random sequences of maximum length are generated. The center frequency is set by the master oscillator 6, from the output voltage of which the quadratic phase shifter 7 forms two quadrature oscillations, one of which is fed to the second combined inputs of adders 12 modulo two units 4 of channel 1 multiplication, and the other to the second combined inputs of adders 12 by module two units 4 multiply channel 2. Each channel 1 and 2 to the first inputs of adders 12 modulo two output signals from the shift registers 10 and in adders 12 modulo two multiply pseudo-random after the The maximum lengths per quadrature components of the center frequency. In each channel 1 and 2, the output signals of adders 12 modulo two are summed in a linear adder 13, the output of which forms multi-level pseudo-random components of a narrow-band process, which are then summed in an output adder 5, a narrow-band pseudo-noise process whose central frequency is equal to the output signal of the master oscillator 6, and the bandwidth of the noise spectrum is set by the frequency of the signal at the output of the CDCD 9 by selecting in it. division ratio. The technical and economic effect of the invention consists in expanding the working range of tuning the central frequency while maintaining a constant width of the spectrum of the output signals, as well as increasing the stability of the multidimensional law of the distribution of the amplitudes of the output signals.

Claims (3)

1. GENERATOR OF NARROW-BED PSEUD-GAUSS NOISE SIGNALS, comprising two channels, each of which consists of series-connected low-frequency noise shapers and a multiplication unit, the output of which is connected to one of the inputs of the output adder, as well as a series-connected master oscillator and a quadrature phase shifter, one output of which is connected to the reference input of one block of multiplication, and the other output to the reference input of another block; multiplication, characterized in that, in order to expand the working range of the central frequency adjustment while maintaining a constant spectrum width of the output signals, a series-connected clock generator and a frequency divider with a variable division factor, the output of which is connected to the clock input of each shaper, are introduced into it low frequency noise. 2. The generator according to claim 1, distinguished by the fact that, in order to increase the stability of the multidimensional distribution law of the amplitudes of the output signals, each of the low-frequency noise formers is made in the form of a shift register, in the feedback circuit of which the adder is connected modulo two, while the clock inputs of the shift register are combined and are the clock input of the low-frequency noise shaper, and the outputs of the shift register are the outputs of the low-frequency noise shaper. 3. The generator according to claim 1, characterized in that each of the multiplication blocks is made in the form of P adders modulo two, the outputs of which are connected to the inputs of the linear adder, the output of which is the output of the multiplication block, while the first inputs η adders modulo two are the inputs of the block multiplication, and the second input; These are combined and are the reference input of the multiplication unit. SU ... 1083331