SU1040590A1 - Noise generator - Google Patents

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The invention relates to radio engineering and can be used in measuring devices in the study of noise immunity of radio and sonar systems. . A noise generator is known that contains a series of pseudo-random pulse sequence, a shift register, a multichannel multiplier unit and an adder, a clock signal generator whose output is connected to another input of the shift register, and a low-pass filter. The disadvantage of the known noise generator is relatively low dispersion stability and spectral density. The purpose of the invention is to increase the stability of the dispersion and spectral density. This goal is achieved by introducing a generator into a noise generator containing a series-connected pseudo-random pulse train, a shift register, a multichannel multiplier unit and an adder, a clock generator, the output of which is connected to another input of the shift register and a low-pass filter. the rectangular quadrature torus and digital-to-analog converter, whose input is connected to the output of the adder, and the output to the input of the low-pass filter, while the outputs of the generator are square quadrature signals connected to the corresponding inputs of the multichannel multiplier unit. The drawing shows a structural electrical noise generator circuit. The noise generator contains a source of a pseudo-random pulse sequence, a shift register 2, a .3 multichannel multiplier block, an adder 4, a clock generator 5, a low-pass filter 6 a square quadrature oscillator 7, a digital-to-analog converter 8, elements of a multichannel multiplier, a multichannel multiplier 10 and 11. The noise generator works as follows. From the source 1 of the pseudo-random sequence of pulses, the signal is fed to the input of the shift register 2 and under the action of the signals of the frequency5. from the output of the generator of 5 synchronizing signals, the instantaneous values of the pseudo-random sequence of pulses (0 or 1) are successively in time in the cells of the shift register 2. When the shift register 2 is equal to N after N pulses of the generator 5 clock signals, N pseudo-random sequences of pulses are identical at the outputs of the shift register 2, which are identical to the input, but shifted relative to it. The generator 7 generates monopolar rectangular quadrature frequency signals (OQo Accepting the output signals of the generator 7 per unit, you can think of the voltage at the first output of the generator 7 as., 1 sign cosWot U 2-- Respectively, the voltage at the second output of the generator 7 1 sign sin (o3ot4f). Vsig.n (-smWot) At the output of the i-ro channel (element 9) of the first multichannel multiplier 10 of block 3 of multichannel multipliers, the signal cHt is generated (xiU) (g; where X (t) is a function describing a pseudo-random the sequence at the iM output of the register 2 shift and taking O or 1. Multichannel multipliers are made as modulo-2 adders using the property of modulo-two summing operation, Z CFC XY4-XY and also taking into account that Xi (t). 1- (t) (1 sign 1 si gn coscAit COSMpt. 2 after-obvious transformations .г, - (, Cj (t) b- - X (t) Jsign cos6) Similarly, when the channel output (element 9j) of the second multichannel multiplier 11 is generated, the signal Si (t) X-, (t), 2 (t) j sg (-sinG) gt)

Claims (1)

NOISE GENERATOR containing a series-connected source of a pseudo-random sequence of · channel. Multipliers and an adder, a synchronization signal generator, the output of which is connected to another input of the shift register, and a low-pass filter, characterized in that, in order to increase the dispersion stability and spectral density · 'Nosti, a quadrature signal generator and a digital-to-analog converter are introduced into it, the input of which is connected to the output of the adder, and the output to the input of the low-pass filter, at the outputs of the rectangular quadrature signal generator are connected to the corresponding inputs -SU .... 1040590